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users manual dl850/DL850V scopecorder getting started guide im dl850-03en 2nd edition free datasheet http://
product registration thank you for purchasing yokogawa products. yokogawa provides registered users with a variety of information and services. please allow us to serve you best by completing the product registration form accessible from our homepage. http://tmi.yokogawa.com/ pim 103-03e free datasheet http://
i im dl850-03en thank you for purchasing the dl850 scopecorder or DL850V scopecorder vehicle edition (hereinafter, dl850/DL850V will refer to both of these products). this getting started guide primarily explains the handling precautions and basic operations of the dl850/DL850V. to ensure correct use, please read this manual thoroughly before operation. keep this manual in a safe place for quick reference in the event that a question arises. this manual is one of four dl850/DL850V manuals. please read all manuals. manual title manual no. description dl850/DL850V scopecorder features guide im dl850-01en the supplied cd contains the pdf file of this manual. this manual explains all the dl850/DL850V features other than the communication interface features. dl850/DL850V scopecorder users manual im dl850-02en the supplied cd contains the pdf file of this manual. the manual explains how to operate the dl850/ DL850V. dl850/DL850V scopecorder getting started guide im dl850-03en this manual. this guide explains the handling precautions and basic operations of the dl850/DL850V. dl850/DL850V scopecorder communication interface users manual im dl850-17en the supplied cd contains the pdf file of this manual. the manual explains the dl850/DL850V communication interface features and instructions on how to use them. notes ? the contents of this manual are subject to change without prior notice as a result of continuing improvements to the instruments performance and functions. the figures given in this manual may differ from those that actually appear on your screen. ? every ef fort has been made in the preparation of this manual to ensure the accuracy of its contents. however, should you have any questions or find any errors, please contact your nearest yokogawa dealer. ? copying or reproducing all or any part of the contents of this m anual without the permission of yokogawa electric corporation is strictly prohibited. ? the tcp/ip software of this product and the documents concerning it have been developed/created by yokogawa based on the bsd networking software, release 1 that has been licensed from the regents of the university of california. trademark acknowledgements ? microsoft, internet explorer, ms-dos, windows, windows nt, and windows xp are either registered trademarks or trademarks of microsoft corporation in the united states and/or other countries. ? adobe, acrobat, and postscript are trademarks of adobe systems incorporated. ? piezotron is a registered trademark of kistler instrumente ag. ? pcb and icp are registered trademarks of pcb group, inc. ? isotron is a registered trademark of meggitt group, plc. ? vje is a registered trademark of yahoo japan corporation. ? gigazoom engine is a registered trademark of yokogawa electric corporation. ? in this manual, the tm and ? symbols do not accompany their respective registered trademark or trademark names. ? other company and product names are trademarks or register ed trademarks of their respective companies. revisions ? 1st edition: june 2010 ? 2nd edition: september 2010 2nd edition: september 2010 (yk) all rights reserved, copyright ? 2010 yokogawa meters & instruments corporation free datasheet http://
ii im dl850-03en checking the contents of the package unpack the box, and check the contents before operating the instrument. if the wrong items have been delivered, if items are missing, or if there is a problem with the appearance of the items, contact your nearest yokogawa dealer. dl850/DL850V check that the product that you received is what you ordered by referring to the model name and suffix code given on the name plate on the left side panel. made in japan made in japan model suffix code description dl850/DL850V main device, 8 slots, 250 mpoint memory power cord -d ul/csa standard power cord (part no.: a1006wd) [maximum rated voltage: 125 v] -f vde standard power cord (part no.: a1009wd) [maximum rated voltage: 250 v] -q bs standard power cord (part no.: a1054wd) [maximum rated voltage: 250 v] -r as standard power cord (part no.: a1024wd) [maximum rated voltage: 250 v] -h gb standard power cord (part no.: a1064wd) [maximum rated voltage: 250 v] language -hj japanese -he english -hc chinese -hk korean -hg german -hf french -hl italian -hs spanish options /b5 built-in printer 1 /m1 memory expansion to 1 gpoint 2 /m2 memory expansion to 2 gpoint 2 /hd0 external hdd interface 3 /hd1 160 gb internal hdd 3 /c1 gp-ib interface 4 /c20 gp-ib interface + irig 4 /g2 user-defined computation /p4 probe power supply, four outputs 1 includes one roll of paper (b9988ae) 2 the /m1 and /m2 options cannot be installed on the same instrument. 3 the /hd0 and /hd1 options cannot be installed on the same instrument. 4 the /c1 and /c20 options cannot be installed on the same instrument. no. (instrument number) when contacting the dealer from which you purchased the instrument, please give them the instrument number. free datasheet http://
iii im dl850-03en standard accessories the standard accessories below are supplied with the instrument. check that all contents are present and undamaged. cover panels b8073cy, 8 panels front-panel protection cover b8074ea soft case b8059gg rubber stoppers b9989ex, 4 stoppers (1 sheet) printer roll paper 1 b9988ae, 1 roll one set of manuals one of the following panel sheets: b8074eh (japanese; -hj) b8074ej (chinese; -hc) b8074ek (korean; -hk) b8074el (german; -hg) b8074em (french; -hf) b8074en (italian; -hl) b8074ep (spanish; -hs) ul/csa standard a1006wd vde standard a1009wd bs standard a1054wd as standard a1024wd d f q r power cord (one of the following power cords is supplied according to the instruments suffix codes) gb standard a1064wd h 1 only included with models that have a built-in printer (/b5) how to use the cd-rom (users manuals) the cd-rom contains pdf files of the following manuals. ? dl850/DL850V scopecorder features guide im dl850-01en ? dl850/DL850V scopecorder users manual im dl850-02en ? dl850/DL850V scopecorder communication interface users manual im dl850-17en to view the above manuals, you need adobe reader 5.0 or later. warning never play this cd-rom on an audio cd player. doing so may cause loss of hearing or speaker damage due to the large sounds that may be produced. checking the contents of the package free datasheet http://
iv im dl850-03en input modules (sold separately) to make sure that an input module is the module that you ordered, check the module name written on it. model name abbreviation 701250 high-speed 10 ms/s, 12-bit isolation module hs10m12 701251 high-speed high-resolution 1 ms/s, 16-bit isolation module hs1m16 701255 high-speed 10 ms/s, 12-bit non-isolation module noniso_10m12 701260 high-voltage 100 ks/s, 16-bit isolation module (with rms) hv (with rms) 701261 universal (voltage/temp.) module universal 701262 universal (voltage/temp.) module (with aaf) universal(aaf) 701265 temperature, high precision voltage isolation module temp/hpv 701270 strain module (ndis) strain_ndis 701271 strain module (dsub, shunt-cal) strain_dsub 701275 acceleration/voltage module (with aaf) accl/volt 701280 frequency module freq 720210 high-speed 100 ms/s, 12-bit isolation module hs100m12 720220 16-ch voltage input module 16ch volt 720230 logic input module logic 720240 can bus monitor module* can monitor * the can bus monitor module can be used on the DL850V. it cannot be used on the dl850. model no. suffix made in japan model no. suffix made in japan 701250 hs10m12 top line: model bottom line: abbreviation the location varies depending on the module. in this manual, input modules are referred to by their model names and abbreviations. for example, the high-speed 10 ms/s, 12-bit isolation module is referred to as the 701250 (hs10m12). however, if a module has already been referred to previously, it may be referred to only by its model name (for example, 701250). note to use the dl850/DL850V with 701250 and 701255 modules shipped between august 2006 and june 2007, you must update the module firmware. if error code 916 appears when you turn on the dl850/DL850V, it may be necessary to update the firmware of the aforementioned modules. prepare the module serial numbers, and contact your nearest yokogawa dealer. the dealer will update the module firmware for a fee. checking the contents of the package free datasheet http://
v im dl850-03en optional accessories (sold separately) the optional accessories below are available for purchase separately. check that all contents are present and undamaged. for information about ordering accessories, contact your nearest yokogawa dealer. name model safety standard 1 note isolated probe 700929 1000 vrms cat ii 10:1 safety probe for the 701250, 701251, 701260, and 720210 701947 1000 vrms cat ii 100:1 safety probe for the 701250, 701251, 701260, and 720210 current probe 701933 300 vrms cat i 30 arms, dc to 50 mhz. used by connecting to a probe power terminal (/p4 option) or a probe power supply (701934; sold separately). 701930 300 vrms cat iii 150 arms, dc to 10 mhz. used by connecting to a probe power terminal (/p4 option) or a probe power supply (701934; sold separately). 701931 300 vrms cat iii 500 arms, dc to 2 mhz. used by connecting to a probe power terminal (/p4 option) or a probe power supply (701934; sold separately). differential probe 700924 1000 vrms cat iii 2 switchable between 1000:1 and 100:1 measurable voltage: 1400 vpeak (1000 vrms) 10:1 passive probe 701940 for non-isolated input on the 701255: 600 v or less for isolated input other than above: 42 v or less 1:1 bnc safety adapter lead 701901 1000 vrms cat ii for use with the 701250, 701251, 701260, and 720210. used with the following items (which are sold separately): the 701954, 701959, 758922, 758929, or 758921. alligator clip (dolphin type) 701954 1000 vrms cat iii two pieces in one set (red/black) safety mini-clip (hook type) 701959 1000 vrms cat ii two pieces in one set (red/black) alligator clip adapter 758922 300 vrms cat ii two pieces in one set alligator clip adapter 758929 1000 vrms cat ii two pieces in one set fork terminal adapter 758921 1000 vrms cat ii two pieces in one set (red/black). for 4 mm screws. cable 3 366926 for measuring low voltage of less than or equal to 42 v bananaCalligator clip cable 366961 for measuring low voltage of less than or equal to 42 v for the 701261, 701262, or 701265 high-speed logic probe 700986 42 v or less, 8 bits, non-isolated, response speed of 1 s isolated logic probe 700987 250 vrms cat ii 8 bits, each channel isolated, response speed of 20 ms (for ac) 1 m logic probe 702911 8 bits, non-isolated 3 m logic probe 702912 8 bits, non-isolated isolated logic measuring lead 758917 1000 vrms cat ii two pieces in one set. used with the 758922 or 758929 adapter. the adapters are sold separately. external i/o cable 720911 for external i/o 1 m safety bnc cable 701902 1000 vrms cat ii 2 m safety bnc cable 701903 1000 vrms cat ii safety bnc-to-banana adapter 758924 500 vrms cat ii for the 701250, 701251, 701255, 701260, and 720210 probe power supply 701934 high current output power supply for external probes (four outputs) shunt resistor 438920 250 0.1% 438921 100 0.1% 438922 10 0.1% bridgehead 701955 ndis, bridge resistance: 120 701956 ndis, bridge resistance: 350 701957 dsub, bridge resistance: 120 , shunt-cal support 701958 dsub, bridge resistance: 350 , shunt-cal support soft carrying case 701963 has three pockets sold individually. 1 the actual voltage that can be used is the lowest voltage of the dl850/DL850V and cable specifications. 2 be sure to connect the gnd lead provided with the 700924 to the functional ground terminal of the dl850/DL850V. the connection of the gnd lead makes 1400 vpeak measurement possible. 3 use cables (366926) that yokogawa has been shipping since february 4, 1998. cables (366926) shipped before this date cannot be used in combination with the dl850/DL850V input modules. checking the contents of the package free datasheet http://
vi im dl850-03en logic probes 702911 (1 m)/702912 (3 m) safety bnc cable (1 m) 701902 safety bnc cable (2 m) 701903 safety bnc-to-banana adapter 758924 high-speed logic probe 700986 1:1 bnc safety adapter lead 701901 * isolated logic probe 700987 differential probe 700924 cable 366926 bananaCalligator clip cable 366961 isolated probe 700929 current probe 701930 isolated probe 701947 alligator clip adapter (rated 300 v) 758922 alligator clip adapter (rated 1000 v) 758929 10:1 passive probe 701940 alligator clip (dolphin type) 701954 fork terminal adapter 758921 current probe 701931 safety miniclip (hook type) 701959 26. bridgehead 701955 (ndis, 120 ?) bridgehead 701956 (ndis, 350 ?) bridgehead 701957 (dsub, 120 ?) bridgehead 701958 (dsub, 350 ?) * the 1:1 bnc safety adapter lead (701901) must be used with one of the following accessories (which are sold separately): alligator clip (dolphin type: 701954), safety miniclip (hook type: 701959), alligator adapter (758922 or 758929), or fork terminal adapter (758921). soft carrying case 701963 current probe 701933 isolated logic measuring lead 758917 * external i/o cable 720911 probe power supply 701934 probe 1 probe 2 probe 3 probe 4 output power supply spare parts (sold separately) the spare parts below are available for purchase separately. check that all contents are present and undamaged. for information about ordering spare parts, contact your nearest yokogawa dealer. name part no. minimum qty note printer roll paper b9988ae 10 thermo-sensitive paper, 111 mm 10 m terminal block a1800jd 1 for the 720220 input module checking the contents of the package free datasheet http://
vii im dl850-03en safety precautions this instrument is an iec safety class i instrument (provided with a terminal for protective earth grounding). the general safety precautions described herein must be observed during all phases of operation. if the instrument is used in a manner not specified in this manual, the protection provided by the instrument may be impaired. yokogawa electric corporation assumes no liability for the customers failure to comply with these requirements. the following symbols are used on this instrument. warning: handle with care. refer to the users manual or service manual. this symbol appears on dangerous locations on the instrument which require special instructions for proper handling or use. the same symbol appears in the corresponding place in the manual to identify those instructions. protective ground terminal ground or the functional ground terminal (do not use as the protective earth ground terminal) alternating current on (power) off (power) free datasheet http://
viii im dl850-03en make sure to comply with the precautions below. not complying might result in injury or death. warning use the correct power supply before connecting the power cord, ensure that the source voltage matches the rated supply voltage of the dl850/DL850V and that it is within the maximum rated voltage of the provided power cord. use the correct power cord and plug to prevent the possibility of electric shock or fire, be sure to use the power cord supplied by yokogawa. the main power plug must be plugged into an outlet with a protective earth terminal. do not invalidate this protection by using an extension cord without protective earth grounding. also, do not use the power cord that came with the instrument on any other device. connect the protective grounding terminal make sure to connect the protective earth to prevent electric shock before turning on the power. the power cord that comes with the instrument is a three-pin type power cord. connect the power cord to a properly grounded three-pin outlet. do not impair the protective grounding never cut off the internal or external protective earth wire or disconnect the wiring of the protective earth terminal. doing so poses a potential shock hazard. do not operate with defective protective grounding or fuse do not operate the instrument if the protective earth or fuse might be defective. make sure to check them before operation. do not operate in an explosive atmosphere do not operate the instrument in the presence of flammable liquids or vapors. operation in such an environment constitutes a safety hazard. do not remove covers the cover should be removed by yokogawas qualified personnel only. opening the cover is dangerous, because some areas inside the instrument have high voltages. ground the instrument before making external connections securely connect the protective grounding before connecting to the item under measurement or an external control unit. if you are going to touch the circuit, make sure to turn off the circuit and check that no voltage is present. precautions to be taken when using the modules ? do not apply input voltage exceeding the maximum input volta ge, withstand voltage, or allowable surge voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical protection function and the mechanical protection function will not be activated. ? do not leave the modules connected to the instrument in envir onments in which a voltage that exceeds the allowable surge voltage may occur. safety precautions free datasheet http://
ix im dl850-03en precautions to be taken when using the probes ? when measuring high voltages using the 701250 (hs10m12) or 701251 (hs1m16), use an isolated probe (the 700929 or 701947), 1:1 safety cable (a combination of the 701901 and 701954), or differential probe (700924). ? be sure to connect the gnd lead of the dif ferential probe (the 700924) to the functional ground terminal of the dl850/DL850V. high voltage may appear at the bnc connector of the differential probe. also, be sure to connect the gnd lead to the dl850/DL850V before you connect to the device under measurement. ? when using the 701255 (noniso_10m12), be sure to fasten the module screws. fastening the module screws activates the protection function and the non-isolation function. it is extremely dangerous if you do not fasten the screws. also, when you measure high voltages above 42 v, be sure to use the passive probe (the 701940). ? the bnc portion of the passive probe (701940) is metal, so if you use it with isolated input (the 701250 (hs10m12), 701251 (hs1m16), 701260 (hv (with rms)), etc.), for safety, be sure to only use it with voltages at or below 42 v.(do not connect voltage above 42 v to both the high and low sides.) for non-isolated inputs (701255 (noniso_10m12), etc.), fast en the module screws as described before. ? when you apply high voltages to the 701260 (hv (with rms)) , use a 1:1 safety cable (a combination of the 701901 and 701954) or isolated probe (the 700929 or 701947). ? the measurement category of the 701260 (hv (with rms)) is 400v-catii on the low side and 700v-catii on the high side. use caution because the overvoltage tolerance differs between the low and high sides. operating environment limitations caution this product is a class a (for industrial environments) product. operation of this product in a residential area may cause radio interference in which case the user will be required to correct the interference. safety precautions free datasheet http://
x im dl850-03en waste electrical and electronic equipment waste electrical and electronic equipment (weee), directive 2002/96/ec (this directive is only valid in the eu.) this product complies with the weee directive (2002/96/ec) marking requirement. this marking indicates that you must not discard this electrical/electronic product in domestic household waste. product category with reference to the equipment types in the weee directive annex 1, this product is classified as a monitoring and control instrumentation product. when disposing products in the eu, contact your local y okogawa europe b. v. office. d o n o t dispose in domestic household waste. free datasheet http://
xi im dl850-03en symbols and notation used in this manual unit k: denotes 1000. example: 100 ks/s (sample rate) k: denotes 1024. example: 720 kb (file size) displayed characters bold characters in procedural explanations are used to indicate panel keys and soft keys that are used in the procedure and menu items that appear on the screen. notes and cautions the notes and cautions in this manual are categorized using the following symbols. improper handling or use can lead to injury to the user or damage to the instrument . this symbol appears on the instrument to indicate that the user must refer to the users manual for special instructions. the same symbol appears in the corresponding place in the users manual to identify those instructions. in the manual, the symbol is used in conjunction with the word warning or caution. warning calls attention to actions or conditions that could cause serious or fatal injury to the user, and precautions that can be taken to prevent such occurrences. caution calls attentions to actions or conditions that could cause light injury to the user or damage to the instrument or users data, and precautions that can be taken to prevent such occurrences. note calls attention to information that is important for proper operation of the instrument. free datasheet http://
xii im dl850-03en contents checking the contents of the package............................................................................................. ii safety precautions .......................................................................................................................... vii waste electrical and electronic equipment ......................................................................................x symbols and notation used in this manual .................................................................................... xi chapter 1 names and functions of parts 1.1 top panel, front panel, right side panel, and left side panel ....................................... 1-1 1.2 panel keys and knobs ..................................................................................................... 1-6 1.3 screens .......................................................................................................................... 1-10 1.4 system configuration ..................................................................................................... 1-12 chapter 2 main features 2.1 vertical and horizontal axes ............................................................................................. 2-1 2.2 t riggering ......................................................................................................................... 2-4 2.3 w aveform acquisition ....................................................................................................... 2-7 2.4 w aveform display ............................................................................................................ 2-9 2.5 w aveform computation and analysis ............................................................................. 2-10 chapter 3 making preparations for measurements 3.1 handling precautions ....................................................................................................... 3-1 3.2 installing the instrument ................................................................................................... 3-3 3.3 installing input modules .................................................................................................... 3-5 3.4 connecting to a power supply and turning the power switch on and off ...................... 3-9 3.5 connecting probes ......................................................................................................... 3-12 3.6 correcting the probe phase ........................................................................................... 3-18 3.7 connecting measuring leads ......................................................................................... 3-20 3.8 connecting thermocouples............................................................................................ 3-21 3.9 connecting bridgeheads ................................................................................................ 3-22 3.10 connecting a logic probe to the logic input module ..................................................... 3-25 3.11 connecting an acceleration sensor ............................................................................... 3-27 3.12 connecting sensors to the frequency module .............................................................. 3-29 3.13 connecting wires to the 16-ch voltage input module ................................................... 3-30 3.14 connecting a cable to the can bus monitor module .................................................... 3-32 3.15 attaching the panel sheet .............................................................................................. 3-33 chapter 4 common operations 4.1 key and jog shuttle operations ....................................................................................... 4-1 4.2 entering v alues and strings ............................................................................................. 4-3 4.3 using usb keyboards and mouse devices ..................................................................... 4-5 4.4 synchronizing the clock ................................................................................................. 4-10 4.5 performing auto setup ....................................................................................................4-11 4.6 initializing settings ....................................................................................................... ... 4-13 4.7 calibrating the dl850/DL850V ....................................................................................... 4-14 4.8 starting and stopping w aveform acquisition ................................................................. 4-15 4.9 displaying help ...................................................................................................... ........ 4-16 free datasheet http://
xiii im dl850-03en 3.3-3.14, 5.1-5.6 , 6.13 ?? 1 2 3 4 5 6 app index chapter 5 external signal i/o 5.1 external trigger input (trigger in) ............................................................................... 5-1 5.2 trigger output (trigger out) ...................................................................................... 5-2 5.3 external clock input (ext clk in) .................................................................................. 5-3 5.4 video signal output (video out (xga)) ....................................................................... 5-4 5.5 go/no-go determination i/o and external start/stop input (ext i/o) .......................... 5-5 5.6 irig signal input (irig option) ........................................................................................ 5-8 chapter 6 specifications 6.1 signal input section ......................................................................................................... 6-1 6.2 t riggering section ............................................................................................................ 6-1 6.3 t ime axis .......................................................................................................................... 6-2 6.4 display ....................................................................................................... ....................... 6-3 6.5 features ........................................................................................................................... 6-3 6.6 fft ...................................................................................................... ............................. 6-6 6.7 built-in printer ....................................................................................................... ............ 6-6 6.8 storage ............................................................................................................................. 6-7 6.9 usb for peripherals ....................................................................................................... ... 6-7 6.10 auxiliary i/o section ......................................................................................................... 6-8 6.1 1 computer interface ........................................................................................................... 6-9 6.12 general specifications ....................................................................................................6-1 1 6.13 module specifications .................................................................................................... 6-15 6.14 logic probe specifications ............................................................................................. 6-43 6.15 external dimensions ...................................................................................................... 6-44 appendix appendix 1 relationship between the time axis setting, record length, and sample rate .. ... app-1 appendix 2 relationship between the record length and the acquisition mode ............... app-15 appendix 3 default v alues .................................................................................................. app-17 appendix 4 usb keyboard key assignments ..................................................................... app-21 appendix 5 block diagrams ................................................................................................ app-23 contents free datasheet http://
1-1 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index 1.1 top panel, front panel, right side panel, and left side panel top panel built-in printer (optional) vent handle you can print the display. warning caution do not operate without reading the safety precautions. protect the instrument from vibration or shock when power is on (especially for internal hard disk type). make sure to screw input modules firmly into place. switch power off before removing input modules. to prevent injury, do not put your hand inside the slots. complies with 21 cfr 1040.10 and 1040.11 yokogawa electric corporation 2-9-32 nakacho, musashino-shi tokyo, 180-8750, japan chapter 1 names and functions of parts free datasheet http://
1-2 im dl850-03en front panel lcd esc key key protect key soft keys description of the displayed contents section 1.3 use to select items on the soft key menus that appear during configuration. setup and execution keys and knobs use to clear soft key menus and pop-up menus. explanation section 1.2 explanation section 1.2 setup and execution keys probe compensation signal output terminal (1 khz/1 vp-p) functional ground terminal connect a ground wire to this terminal when performing probe correction. transmits correction signals for probes. probe correction procedure section 3.6 locks the keys. section 1.2 jog shuttle use to change values and move cursors. turn the shuttle ring to vary the rate at which values change. the rate is based on the shuttle ring angle. key protect help print print menu dual capture hdd recording snap shot clear trace utilty esc reset set start / stop setup display save file acquire cal x - y menu dual capture vertical ch ch ch ch ch ch ch ch ch ch ch ch ch ch ch ch 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 7 4 1 0 8 5 2 9 6 3 exp k m enter scale all ch num lock push o div position horizontal trigger time / div mode position / delay action manual trig simple / enhanced trigd math fft history measure cursor go / no-go mag zoom position search push push comp menu clr shift z 1 z 2 1.1 top panel, front panel, right side panel, and left side panel free datasheet http://
1-3 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index right side panel probe power supply terminal (optional) use to supply power (12 v) to current probes. probe connection method section 3.5 functional ground terminal use to connect the ground wire of a high-voltage differential probe or enhance the grounding of the measurement equipment. probe connection method section 3.5 input module installation slot there are a total of eight slots. input module insertion and removal method section 3.3 empty-slot protection cover attach to slots that do not have input modules installed. stand setup method section 3.2 ch3 ch4 input channel arrangement ch1 ch2 ch7 ch8 ch5 ch6 ch11 ch12 ch9 ch10 ch15 ch16 ch13 ch14 input modules the following 15 input modules are available. high-speed 10 ms/s, 12-bit isolation module hs10m12 (model: 701250) high-speed high-resolution 1 ms/s, 16-bit isolation module hs1m16 (model: 701251) signal input terminal (2ch) signal input terminal (2ch) high-speed 10 ms/s, 12-bit non-isolation module noniso_10m12 (model: 701255) signal input terminal (2ch) universal (voltage/temp.) module universal (model: 701261) h input terminal l input terminal (2ch) universal (voltage/temp.) module (with aaf) universal (aaf) (model: 701262) h input terminal l input terminal (2ch) high-voltage 100 ks/s, 16-bit isolation module (with rms) hv (with rms) (model: 701260) signal input terminal (2ch) 1.1 top panel, front panel, right side panel, and left side panel free datasheet http://
1-4 im dl850-03en strain module (ndis) strain_ndis (model: 701270) strain module (dsub, shunt-cal) strain_dsub (model: 701271) signal input terminal (2ch) signal input terminal (2ch) acceleration/voltage module (with aaf) accl/volt (model: 701275) frequency module freq (model: 701280) signal input terminal (2ch) signal input terminal (2ch) temperature, high precision voltage isolation module temp/hpv (model: 701265) h input terminal l input terminal (2ch) high-speed 100 ms/s, 12-bit isolation module hs100m12 (model: 720210) signal input terminal (2ch) 16-ch voltage input module 16ch volt (model: 720220) logic input module logic (model: 720230) signal input terminal (16ch) logic input terminal can bus monitor module can monitor (model: 720240) can bus signal input terminal 1.1 top panel, front panel, right side panel, and left side panel free datasheet http://
1-5 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index left side panel vent gp-ib connector (optional) use to communicate with the dl850 /DL850V through the gp-ib interface. for information about the dls communication features, see the communications interface users manual. video signal output terminal you can output the displayed image in an xga rgb signal. explanation about how to use section 5.4 main power switch turning the power on and off section 3.4 name plate power inlet power connection section 3.4 external hdd connector (optional) use to connect an external hard disk. explanation about how to use users manual usb port for pcs use to connect the dl850/DL850V to a pc that has a usb port. explanation about how to use communication interface users manual usb ports for peripherals use to connect a usb keyboard, mouse, or storage device. explanation about how to use section 4.3 and users manual trigger output terminal use to transmit trigger signals. explanation about how to use section 5.2 made in japan gp-ib ( ieee488 ) irig ext hdd sd video out ( xga ) ext clkin ext i/o trigger in out ethernet 1000base-t power on off 100-120/220-240 v ac 200 va max 50/60 hz go/no-go and external start/stop i/o connector transmits go/no-go determination i/o signals. can also be used to start and stop the dl850/DL850V through external control. explanation about how to use section 5.5 external-clock input terminal use when applying an external clock signal. explanation about how to use section 5.3 trigger input terminal use when applying an external trigger signal. explanation about how to use section 5.1 ethernet port (100base-tx) use to connect the dl850/DL850V to a lan. explanation about how to use features guide and communication interface users manual irig input terminal (optional) use when applying an external synchronization signal (irig signal). explanation about how to use section 5.6 sd memory card slot use to connect an sd memory card. explanation about how to use users manual 1.1 top panel, front panel, right side panel, and left side panel free datasheet http://
1-6 im dl850-03en 1.2 panel keys and knobs vertical axis ch1 to ch16 keys these keys display menus for turning the display of each channel on and off and configuring settings such as display label settings, input coupling settings, the probe attenuation or the current-to-voltage conversion ratio, the bandwidth limit, the vertical position, vertical zoom settings, the offset value, and linear scaling. also, you can press a key to select the channel that the scale knob will control. channel keys illuminate when their corresponding channel is on. after you press num lock (see below), you can press a channel key to enter the number displayed to the upper right of the key in white. all ch key press this key to display a window in which you can configure all the settings from the menus that appear when you press ch1 to ch16. the settings appear in a list. num lock key press this key to use the ch1 to ch16 keys to enter numbers. scale knob use this knob to set the vertical scale. before you turn this knob, select the target waveform by pressing a key from ch1 to ch16. if you change the scale while waveform acquisition is stopped, the setting actually takes effect when you restart waveform acquisition. position knob (vertical position knob) use this knob to adjust the vertical display position (vertical position) of an input waveform. before you turn this knob, select the target waveform by pressing a key from ch1 to ch16. this knob has a push switch. you can press the knob to reset the position to 0.00 div. vertical ch ch ch ch ch ch ch ch ch ch ch ch ch ch ch ch 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 7 4 1 0 8 5 2 9 6 3 exp k m enter scale all ch num lock push o div position horizontal axis time/div knob use this knob to set the time-axis scale. if you change the scale while waveform acquisition is stopped, the scale change actually takes effect when you restart waveform acquisition. horizontal time / div free datasheet http://
1-7 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index trigger group keys (shift+) mode key displays a menu for selecting the trigger mode. press shift and then mode to display a menu for configuring action-on-trigger and action-on-stop settings. position/delay key press this key to set the trigger position and the trigger delay. manual trig key press this key to make the dl850/DL850V trigger regardless of the trigger settings. simple/enhanced key displays a trigger setup menu. trigger mode position / delay action manual trig simple / enhanced trigd other keys (shift+) math key displays a menu for waveform computation. press shift and then math to display a menu for configuring fft computation. history key displays a menu for using the history feature to recall data. (shift+) measure displays a menu for automated measurement of waveform parameters. press shift and then measure to display a menu for go/no-go determination. cursor key displays a menu used when performing cursor measurements. (shift+) zoom key displays a waveform zoom display menu. press shift and then zoom to display a menu for data searching (the search & zoom function). mag knob use this knob to set the zoom factors for the zoom1 and zoom2 zoom boxes. this knob has a push switch. press the mag knob to switch the zoom box whose zoom factor is set by it. ?position? knob (zoom position knob) use this knob to set the zoom position. this knob has a push switch. press the position knob to switch the zoom box whose zoom position is set by it. math fft history measure cursor go / no-go mag zoom position search push push z 1 z 2 1.2 panel keys and knobs free datasheet http://
1-8 im dl850-03en reset key resets the value to its default value. set key press this key to select the menu item that you have moved the cursor to using the jog shuttle. you can also press the set key to start entering a value or characters. arrow keys (?? keys) se e ?? keys o moe e rsor beween nmeri igis. se e keys o inremen or eremen e e o igi. o n so se e keys o see se iems. start/stop key starts and stops waveform acquisition according to the trigger mode. the key is illuminated while the dl850/DL850V is acquiring waveforms. (shift+) setup key displays a menu for initializing the settings to their factory defaults; performing auto setup, which automatically sets the dl850/DL850V according to the input signal; storing and recalling setup information; and so on. press shift and then setup to display a calibration menu. (shift+) display key use this key to configure the display. press shift and then display to display an x-y display menu. (shift+) save key press this key to save waveform or screen capture data to a storage medium. press shift and then save to display a menu for configuring the save operation. file key press this key to save or load data from a storage medium or to display a menu for file manipulation. (shift+) acquire key displays a menu used to set the waveform acquisition mode. press shift and then acquire to display a menu for configuring the dual capture feature. reset set start / stop setup display file acquire cal x - y menu dual capture 1.2 panel keys and knobs free datasheet http://
1-9 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index key protect key when you press this key, it illuminates, and the keys on the front panel are locked. press the key again to unlock the keys. help key turns on and off the help window, which explains various features. print key use this key to save and print screen capture data. print menu key displays a menu for printing screen captures to the built-in printer or a network printer or displays a menu for saving screen capture data to a storage medium. key protect help print print menu menu snap shot key retains the currently displayed waveforms on the screen in white. snapshot waveforms can be saved and loaded. clear trace key clears the waveform acquired using the snap shot function and accumulated waveforms. utility key displays a menu for configuring system, communication, network, and environment settings; for performing self tests; and for displaying system information (information about installed modules, installed options, and the firmware version). shift key press this key once to access the features that are written in purple below each key. the shift key illuminates when the keys are shifted. pressing the key again clears the shifted condition. snap shot clear trace utilty clr shift note press shift and then clear trace to switch from remote mode to local mode. for details, see the communication interface users manual. notes about using of knobs the vertical position, zoom mag, and zoom position knobs have push switches. push the knobs straight. if you push a knob at an angle, it may not operate properly. if this happens, push the knob straight one more time. caution do not push the knob sideways with strong force. doing so may break the knobs. 1.2 panel keys and knobs free datasheet http://
1-10 im dl850-03en 1.3 screens normal waveform display waveform acquisition condition waveform acquisition count comment trigger mode the setup channel and its vertical scale and position stopped pre... :acquiring pre data running post... :acquiring post data waiting for trigger hd out: continuous writing to hard disk display record length acquisition mode sample rate time/div trigger position trigger level ground level channel number of the display range voltage-axis scale value vertical position time from the trigger position trigger setting soft key menu level indicator channel number of the displayed waveform (see the explanation below.) screen capture output destination the display is inverted when invert is set to on. acquisition mode indication normal : normal mode env : envelope mode avg : average mode boxavg : box average mode note the dl850/DL850V lcd may include a few defective pixels. for details, see section 6.4, display. free datasheet http://
1-11 im dl850-03en names and functions of parts 1 2 3 4 5 6 app index zoom waveform display time/div for the normal waveforms display position of the zoom2 zoom waveform with respect to the display record length zoom1 zoom range display position of the zoom1 zoom waveform with respect to the display record length time/div for the zoom2 waveforms normal waveform display area (main window) zoom window display area time/div for the zoom1 waveforms zoom1 window display area zoom2 window display area zoom2 zoom range dual capture display time/div for the normal waveform time/div for the captured waveform trigger position of the captured waveform normal waveform display area (main window) time from the reference point waveform display area for the zoom and capture windows captured waveform display area stop date and time of the main waveform number of captured waveform acquisitions time-axis scale value of the captured waveform date and time of the trigger point of the captured waveform number of the captured waveform to display time reference mark 1.3 screens free datasheet http://
1-12 im dl850-03en 1.4 system configuration signal input dut ? module 1 ? probe 2 pc printer usb memory/sd memory card built-in printer (optional) ? external clock input ? external trigger input ? irig input (optional) ? go/no-go determination i/o ? video signal output ? trigger output ? waveform data ? setup data ? image data ? gp-ib interface (optional) ? usb interface (remote control through the use of commands) dl850/DL850V internal hdd (optional) ethernet interface pc network printer ftp server ? ftp server ? ftp client ? web server print server printer 1 ? high-speed 10 ms/s, 12-bit isolation module ? high-speed high-resolution 1 ms/s, 16-bit isolation module ? high-speed 10 ms/s, 12-bit non-isolation module ? high-voltage 100 ks/s, 16-bit isolation module (with rms) ? temperature, high precision voltage isolation module ? universal (voltage/temp.) module ? universal (voltage/temp.) module (with aaf) ? strain module (ndis) ? strain module (dsub, shunt-cal) ? acceleration/voltage module (with aaf) ? frequency module ? high-speed 100 ms/s, 12-bit isolation module ? 16-ch voltage input module ? logic input module ? can bus monitor module 2 ? differential probe ? current probe ? logic probe hdd saving/loading of data external hdd interface (optional) external usb device usb peripheral interface usb keyboard usb peripheral interface usb mouse free datasheet http://
2-1 im dl850-03en main features 1 2 3 4 5 6 app index 2.1 vertical and horizontal axes vertical axis this section explains how to configure the signal input settings and the amplitude-direction display settings. the items that can be set vary depending on the installed modules. the channel menu that corresponds to the key you pressed (ch1 to ch16) appears. you can set the various vertical axis settings for each channel. press all ch to display a screen in which you can configure the settings of all channels while viewing the settings in a list. dl850/DL850V measurement items when the dl850/DL850V is equipped with the modules listed below, it can monitor can bus signals and measure voltage, temperature, strain, acceleration, frequency, logic, and so on. voltage 701250 (hs10m12), 701251 (hs1m16), 701255 (noniso_10m12), 701260 (hv (with rms)), 720210 (hs100m12), 701261 (universal), 701262 (universal (aaf)), 701265 (temp/hpv), 701275 (accl/volt) voltage (for the 16-ch voltage input module) 720220 (16ch volt) temperature 701261 (universal), 701262 (universal (aaf)), 701265 (temp/hpv) strain 701270 (strain_ndis), 701271 (strain_dsub) acceleration 701275 (accl/volt) frequency 701280 (freq) logic 720230 (logic) can bus signal monitoring 720240(can monitor) this module can only be used with the DL850V. vertical scale the vertical scale is used to adjust the displayed waveform amplitude so that you can easily view signals. you can set the vertical scale to determine the value per grid square (1 div) displayed on the screen and to set the measurement range. use the scale knob to set the vertical scale for each channel. vertical position because the dl850/DL850V can display many waveforms, the waveforms may overlap and be difficult to view. if this happens, you can adjust the vertical display position to make waveforms easier to view (vertical position). use the position knob to set the vertical position for each channel. chapter 2 main features free datasheet http://
2-2 im dl850-03en input coupling you can change the input coupling setting to match the signal that you are measuring. by changing the setting, you can choose how the vertical-axis (voltage-axis) control circuit is coupled to the input signal. the following types of input coupling are available: dc, ac, gnd, tc, dc-rms, ac-rms, accel, and off. * set the appropriate input coupling for each input module. * you can only select off for sub channels on the 16-ch voltage input module. sub channels set to off are not measured. vertical zoom you can zoom the waveform vertically. you can zoom the waveform by setting the vertical magnification or by setting upper and lower display limits. linear scaling linear scaling is a function that converts measured values into physical values and reads them directly. there two types of linear scaling: ax + b using scaling coefficient a and offset b, the dl850/DL850V scales values according to the equation below. y= ax + b (where x is the measured value and y is the physical value) p1-p2 the dl850/DL850V determines the scale conversion equation (y = ax + b) using four values that you specify: two measured values (p1:x, p2:x) and the value that each one should be converted to (p1:y, p2:y). the dl850/DL850V scales values using the scale conversion equation that it determines. measurement range p1 p2 p1:x p2:x p1:y p2:y y = ax + b measured values physical values (scaled values) 2.1 vertical and horizontal axes free datasheet http://
2-3 im dl850-03en main features 1 2 3 4 5 6 app index horizontal axis (time axis) time axis setting normally, under the initial settings, the time axis scale is set as a length of time per grid division (1 div). the selectable range is 100 ns/div to 3 days/div. as you adjust the value, the unit changes between seconds, minutes, hours, and days automatically. because the horizontal display range is 10 div, the amount of time on the waveform that is displayed is equal to the time axis setting 10. * when the 720210 (hs100m12) module is installed, the scale range starts at 100 ns/div; when it is not installed, the scale range starts at 1 s/div. internal and external clocks (time base selection) under the initial settings, the dl850/DL850V samples the measured signal using the internal clock signal produced by its internal time-base circuit. you can also use an external clock signal to control sampling. apply the external clock signal to the external clock input terminal. this external clock input is useful for synchronizing to the clock signal of the waveform that is being measured. relationship between the time axis setting, record length, and sample rate if you change the time axis setting, the sample rate and the acquisition-memory record length also change. for details, see appendix 1. sample rate if you change the time axis setting, the sample rate also changes. the sample rate is the number of samples-per-second (s/s). when the sample rate is low compared to the frequency of the input signal, the high-frequency components of the waveform are misread as low-frequency components. to prevent the high-frequency components from being misread, sample the signal at the highest sample rate possible, or set the waveform acquisition mode to envelope. roll mode display when the trigger mode is auto, auto level, single, or on start and the time axis setting is 100 ms/ div or longer, instead of updating waveforms through triggering (update mode), the dl850/DL850V displays the waveforms in roll mode. in roll mode, waveforms scroll from right to left as new data is captured and the oldest values are deleted from the screen. 2.1 vertical and horizontal axes free datasheet http://
2-4 im dl850-03en 2.2 triggering a trigger is a cue used to display the waveform on the screen. a trigger occurs when the specified trigger condition is met, and a waveform is displayed on the screen. trigger modes the trigger mode determines the conditions for updating the displayed waveforms. there are six trigger modes: auto, auto level, normal, single, n single, and on start. the trigger mode setting applies to all trigger types. trigger types triggers can be broadly divided into simple triggers and enhanced triggers. simple triggers input signal trigger the dl850/DL850V triggers when the trigger source passes through the specified trigger level in the specified way (rising edge, falling edge, or rising or falling edge). time trigger the dl850/DL850V triggers at the specified date and time and at specified intervals afterwards. external signal trigger the dl850/DL850V triggers when the signal applied to the trig in terminal passes through the specified trigger level in the specified way (rising or falling edge). power line signal trigger the dl850/DL850V triggers on the rising edge of the power supply signal that it is receiving. this trigger enables you to observe waveforms in synchronization with the power supply frequency. enhanced triggers ab(n) trigger after state condition a is met, the dl850/DL850V triggers when state condition b is met n times. met met n times trigger a b b b a delay b trigger after state condition a is met and the specified amount of time elapses, the dl850/DL850V triggers when state condition b is first met. met met trigger a b delay time passes free datasheet http://
2-5 im dl850-03en main features 1 2 3 4 5 6 app index edge on a trigger (enhanced) while state condition a is met, the dl850/DL850V triggers on the or of multiple trigger source edges. edge detection trigger condition a is being met or trigger the dl850/DL850V triggers on the or of multiple trigger source edges. and trigger the dl850/DL850V triggers on the and of multiple trigger source conditions. the dl850/DL850V triggers when all the specified conditions are met at a single point. period trigger the dl850/DL850V triggers on a specified period of occurrence of state condition b. the dl850/ DL850V triggers when state condition b occurs again. met met trigger b b reference time t pulse width trigger the dl850/DL850V triggers according to the relationship between the state condition b achievement time and the specified reference times (time or t1 and t2). achievement time trigger b wave window trigger the dl850/DL850V creates real-time templates (wave window) using a number of cycles directly preceding the current waveforms. the dl850/DL850V compares the current waveforms to the real- time templates and triggers if one of the current waveforms falls outside of its real-time template. reference cycles (example: the waveforms for the four previous cycles) current waveform real-time template average waveform + tolerance width trigger average of 1, 2, or 4 cycles the dl850/DL850V compares the current waveform to the real-time template and triggers if the current waveform falls outside of the real-time template. measured waveform tolerance width 2.2 triggering free datasheet http://
2-6 im dl850-03en trigger source trigger source refers to the signal that is used to check the specified trigger conditions. you can set the trigger source to an analog signal, logic signal, time, external signal, or power line signal. select the appropriate trigger source for the trigger type. trigger level trigger level refers to the signal level used as a reference for detecting a signals rising and falling edges or high and low states. with simple triggers such as the edge trigger, the dl850/DL850V triggers when the trigger source level passes through the specified trigger level. the range and resolutions that you can use to set the trigger level vary depending on the type of signal being measured. trigger slope slope refers to the movement of the signal from a low level to a high level (rising edge) or from a high level to a low level (falling edge). when a slope is used as one of the trigger conditions, it is called a trigger slope. trigger hysteresis when the trigger source is an analog signal, you can set a width (hysteresis) to the trigger level so that the dl850/DL850V does not detect edges when the signal level changes within the specified width. you can set the hysteresis around the trigger level for each type of measured signal. trigger hold-off the trigger hold-off feature temporarily stops the detection of the next trigger once a trigger has occurred. this feature is useful in cases when you want to change the waveform acquisition interval, such as when you are observing a pcm (pulse code modulation) code or other pulse train signal or when you are using the history feature. trigger position when you move the trigger position, the ratio of the displayed data before the trigger point (pre-data) to the data after the trigger point (post-data) changes. when the trigger delay is 0 s, the trigger point and trigger positions coincide. trigger delay the dl850/DL850V normally displays waveforms before and after the trigger point. you can set a trigger delay to display waveforms at a specified amount of time after the trigger occurrence. 2.2 triggering free datasheet http://
2-7 im dl850-03en main features 1 2 3 4 5 6 app index 2.3 waveform acquisition based on the data that has been stored in the acquisition memory, the dl850/DL850V performs various operations, such as displaying waveforms on the screen, computing, measuring cursors, and automatically measuring waveform parameters. you can set the number of data points to store in the acquisition memory (the record length), enable or disable the sample data averaging feature, and so on. record length record length refers to the number of data points that are stored to the acquisition memory for each channel. display record length refers to the data points from the data stored in the acquisition memory that are displayed on the screen. normally, the acquisition-memory record length and display record length are the same, but the time axis setting may cause them to differ. when you change the time axis setting, the sample rate and record length also change. on the standard model of the dl850/DL850V, you can set the record length to a value between 1 kpoint and 250 mpoint. depending on the model, you can set the record length to a value of up to 2 gpoint. acquisition mode specify how the dl850/DL850V processes the sampled data, stores it in the acquisition memory, and uses it to display waveforms. there are four acquisition modes: normal, envelope, averaging, and boxaverage. hard disk recording when measurement starts, you can record data to an external hard disk that supports esata (external serial ata; /hd0 option) or to an internal hard disk (/hd1 option). * the recorded data is saved to files automatically. you can load the saved data using the dl850/DL850V and convert it to a format that you can analyze on a pc (ascii or floating point). * models with the /hd0 option are equipped with esata connectors. you need to purchase a hard disk that supports esata separately. input signal normal measurement hard disk recording loading of waveform data acquisition memory saving and loading of waveform data external hard disk that supports esata (/hd0 option) or an internal hard disk (/hd1 option) free datasheet http://
2-8 im dl850-03en history when waveforms are being measured, the waveform data stored in the acquisition memory as a result of a trigger occurrence is displayed as a waveform on the dl850/DL850V screen and can be viewed. when waveform acquisition is being triggered in succession and an abnormal waveform appears, it is impossible to stop acquisition before a new waveform appears on the screen. normally, it would be impossible to view the abnormal waveform. however, with the history feature, you can view the past waveform data (history waveforms) stored in the acquisition memory when waveform acquisition is stopped. you can select specific history waveforms and display them. you can also search through the history waveforms for waveforms that meet specified conditions. ? zone search the dl850/DL850V searches for history waveforms that pass ed (or did not pass) through a specified search zone. ? w aveform parameter search the dl850/DL850V searches for waveforms whose measured waveform parameter values meet (or do not meet) specified conditions. history waveforms (up to 5000 waveforms) selected record 0 selected record C25 specified zone selected record C28 selected record 0 history waveforms (up to 5000 waveforms) zone search waveform parameter search p-p waveforms that pass through the specified zone are detected. waveforms that do not meet the specified search parameter conditions are detected. dual capturing you can use dual capturing to simultaneously record a trend at a low sampling speed in roll mode and at a high sampling rate. this is useful for capturing fast phenomenon while observing a trend over a long period of time. captured waveforms (high-speed sampling) update mode display main waveform (low-speed sampling) roll mode display captured waveform zoomed waveform (zoomed along the time axis) main waveform sample rate: faster than that of the main waveform sample rate: 100 ks/s or less because there is not enough sampled data, the shape of the waveform may not be displayed correctly. because the data is sampled at a high speed, the correct shape of the waveform is displayed. events the points where triggering occurred during dual capturing are displayed as events. 2.3 waveform acquisition free datasheet http://
2-9 im dl850-03en main features 1 2 3 4 5 6 app index 2.4 waveform display the dl850/DL850V has a main window for displaying normal time-domain waveforms, zoom windows for displaying zoomed time-axis waveforms, and x-y windows for displaying x-y waveforms. in addition, you can split screens and change the sizes of waveform display areas so that waveforms and measured values are easier to see and display an fft window that shows the results of fft analysis. zooming along the time axis (gigazoom) you can magnify displayed waveforms along the time axis. the zoomed waveforms of two locations can be displayed simultaneously (the dual zoom feature). this feature is useful when you set a long acquisition time and want to observe a portion of the waveform closely. zoom box 1 zoom box 2 zoom1 window zoom2 window main window (normal time-domain waveform) you can display the zoomed waveforms (zoom1 and zoom2) of two locations. displaying x-y waveforms you can observe the correlation between two waveform signal levels by displaying one signal level on the x-axis (horizontal axis) and a second signal level on the y-axis (vertical axis). you can display x-y waveforms at the same time as normal t-y (time and signal level) waveforms. you can display up to four overlapping x-y waveforms in both window1 and window2. because multiple x-y waveforms can be displayed, it is easy to compare the relationships between phases. you can use this feature to evaluate dc motors using lissajous waveforms. snapshot you can continue displaying a waveform on the screen as a snapshot waveform after the screen has been updated and the waveform has been cleared in update mode or after the waveform has left the screen in roll mode. snapshot waveforms appear in white. you can compare them with new waveforms. you can also save and print snapshot waveforms as screen captures. snapshot waveform displayed in white updated waveform free datasheet http://
2-10 im dl850-03en 2.5 waveform computation and analysis waveform computation you can perform basic arithmetic, binarization, fft (power spectrum), and phase shifting (display the waveform with its phase shifted). on models with the /g2 option, you can use a rich variety of functions (square root, trigonometric functions, differentiation, integration, digital filtering, six types of fft functions, and so on) to define up to eight equations. the expression that you enter appears. expression configuration dialog box use the soft keyboard on the screen to enter an expression. cursor measurement there are cursors for t-y (time-axis), x-y, and fft waveforms. you can position a cursor over a waveform to view the various measured values at the intersection of the cursor and the waveform. automated measurement of waveform parameters you can use this feature to automatically measure waveform levels, maximum values, frequencies, and other values. for up to 100 mpoint of waveform data, you can measure 29 waveform parameters (including the delay between channels) that relate to the voltage axis, time axis, and waveform area. ? y ou can display a total of 32 measured values for all the waveforms. ? you can save a total of 64000 items of data for all the waveforms. ? you can also perform computations on measured waveform parameter values. ? you can display the following statistics for the specified waveform parameter. the maximum value (maximum), minimum value (minimum), average value (average), standard deviation (sdev), and number of measured values used to calculate statistics (count) setup dialog box example of displayed statistical values measured items that the dl850/DL850V is calculating the statistics of and the values of those items maximum: maximum value minimum: minimum value average: average value sdev: standard deviation count: number of measured values used to calculate statistics measurement range free datasheet http://
2-11 im dl850-03en main features 1 2 3 4 5 6 app index there are three statistical processing methods: ? normal statistical processing while acquiring waveforms, the dl850/DL850V measures the measurement items and calculates the statistics of the waveforms that it has acquired so far. ? c yclic statistical processing (measurement and statistical processing are performed for each period) the dl850/DL850V divides the waveform into periods starting at the left side of the screen (the oldest waveform) and moving to the right side of the screen, measures the selected measurement items within each period, and performs statistical processing on the measurement items. ? statistical processing of history waveforms the dl850/DL850V measures the measurement items and ca lculates the statistics of history waveforms. measurement and statistical processing begin with the oldest waveform. go/no-go determination this feature is useful for signal testing on production lines and for tracking down abnormal phenomena. the dl850/DL850V determines whether the waveform enters the specified range. when the dl850/ DL850V returns a go (or no-go) result, specified actions are performed. determination methods ? waveform zone the dl850/DL850V returns go/no-go results based on whether waveforms leave or enter the zone that you create using a base waveform. determination area the dl850/DL850V returns a go or no-go judgment according to the determination condition. specified zone ? waveform parameter set the upper and lower limits for automated measurement values of waveform parameters. the dl850/DL850V performs go/no-go determination based on whether the values are within or outside of the limits. actions performed according to determination results the dl850/DL850V can print and save screen captures, save waveform data, beep, and send e-mails according to the results of go/no-go determination. 2.5 waveform computation and analysis free datasheet http://
3-1 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.1 handling precautions safety precautions if you are using this instrument for the first time, make sure to thoroughly read the safety precautions given on page viii. do not remove the case do not remove the case from the instrument. some sections inside the instrument have high voltages and are extremely dangerous. for internal inspection and adjustment, contact your nearest yokogawa dealer. unplug if abnormal behavior occurs if you notice smoke or unusual odors coming from the instrument, immediately turn off the power and unplug the power cord. if such an irregularity occurs, contact your dealer. do not damage the power cord nothing should be placed on the power cord. the cord should be kept away from any heat sources. when unplugging the power cord from the outlet, never pull by the cord itself. always hold and pull by the plug. if the power cord is damaged, contact your dealer for replacement. refer to page iv for the part number to use when placing an order. general handling precautions do not place objects on top of the instrument never place other instruments or objects containing water on top of the instrument, otherwise a breakdown may occur. do not apply shock or vibration do not apply shock or vibration. doing so may damage the instrument. extra caution is needed for the optional internal hard disk, because it is sensitive to vibration and shock. shocks to the input connectors or probes may turn into electrical noise and enter the instrument via the signal lines. do not damage the lcd since the lcd screen is very vulnerable and can be easily scratched, do not allow any sharp objects near it. also it should not be exposed to vibrations and shocks. unplug during extended non-use unplug the power cord from the outlet. chapter 3 making preparations for measurements free datasheet http://
3-2 im dl850-03en when carrying the instrument remove the power cord and connecting cables. when moving the instrument, use the handle as shown below, or carry it with both hands. cleaning when cleaning the case or the operation panel, first remove the power cord from the ac outlet. then, wipe with a dry, soft, clean cloth do not use chemical such as benzene or thinner. these can cause discoloring and deformation. 3.1 handling precautions free datasheet http://
3-3 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.2 installing the instrument installation conditions install the instrument in a place that meets the following conditions. flat, even surface install the instrument in the correct orientation (see page 3-4) in a safe place, with no tilting from front to back or left to right (when you install the instrument with the rear panel facing down, you can tilt it on its stand). the recording quality of the printer may be hindered when the instrument is placed in an unstable or inclined place. well-ventilated location there are inlet holes on the bottom side of the instrument. there are also vent holes for the cooling fan on the left side panel and the top panel. to prevent internal overheating, allow for enough space around the instrument (see the figure below) and do not block the inlet and exhaust holes. 10 cm or more 10 cm or more 5 cm or more 10 cm or more when connecting cables and opening and closing the cover of the built-in printer, provide extra operating space in addition to the space in the figure shown above. ambient temperature and humidity ambient temperature: 5 to 40c ambient humidity : 20 to 85% rh (when the printer is not used; no condensation) 35 to 85% rh (when the printer is used) note ? to ensure high measurement accuracy, operate the instrument in the 23 5c temperature range and 20 to 80% rh. ? condensation may occur if the instrument is moved to another place where the ambient temperature is higher , or if the temperature changes rapidly. in such cases, allow the instrument adjust to the new environment for at least an hour before using the instrument. free datasheet http://
3-4 im dl850-03en do not install the instrument in the following places. ? in direct sunlight or near heat sources. ? where an excessive amount of soot, steam, dust, or corrosive gas is present. ? near strong magnetic field sources. ? near high voltage equipment or power lines. ? where the level of mechanical vibration is high. ? on an unstable surface. installation position install the instrument so that it is flat or with the rear panel facing down. when using the stand as shown in the bottom right figure, push it out until it locks into place. push the stand back in when you store the instrument. rubber stoppers if the instrument is installed so that it is flat as shown in the above figure, rubber stoppers can be attached to the feet to prevent the instrument from sliding. one set of rubber stoppers (four stoppers) are included in the package. 3.2 installing the instrument free datasheet http://
3-5 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.3 installing input modules warning ? to prevent electric shock and damage to the instrument, be sure to turn the power off before you install or remove input modules. ? check that the input cable is not connected to the input terminals before installing or removing the input module. ? t o prevent electric shock and to satisfy the specifications, make sure to put the accessory cover plate on the slots that are not being used. using the instrument without the cover plate allows the dust to enter the instrument and may cause malfunction due to the rise in temperature inside the instrument. ? if the input module happens to come out of the slot while it is in use, it may cause electric shock or cause damage to the instrument as well as the input module. make sure to screw the input module in place at the two locations (top and bottom). ? t here are protrusions in the slot. do not put your hand in the slot. if you put your hand in the slot, the protrusions may cut your hand. precautions to be taken when using the modules ? do not apply input voltage exceeding the maximum input volta ge, withstand voltage, or allowable surge voltage. ? t o avoid electric shock, be sure to ground the instrument. ? to prevent the possibility of electric shock, be sure to fasten the module screws. failing to do so is extremely dangerous, because the electrical and mechanical protection functions will not be activated. ? do not leave the instrument connected to devices in an enviro nment that may be subject to voltage surges. ? when measuring high voltages using the 720210 (hs100m12 ), 701250 (hs10m12), or 701251 (hs1m16), use an isolated probe (the 700929 or 701947), 1:1 safety cable (a combination of the 701901 and 701954), or differential probe (700924). ? be sure to connect the gnd lead of the dif ferential probe (the 700924) to the functional ground terminal of the dl850/DL850V before you connect to the device under measurement. high voltage may appear at the bnc connector of the differential probe. ? the protection functions and non-isolation functions of the 701 255 (noniso_10m12) are enabled when the module screws are tightened. it is extremely dangerous if you do not fasten the screws. also, when you measure high voltages above 42 v, be sure to use the passive probe for the dl850/DL850V (the 701940). ? the bnc portion of the 10 mhz passive probe (701940) is me tal, so if you use it with isolated input (the 720210 (hs100m12), 701250 (hs10m12), 701251 (hs1m16), 701260 (hv (with rms)), 701275 (accl/volt), or 701280(freq)), for safety, be sure to only use it with voltages at or below 42 v. (do not connect voltage above 42 v to both the high and low sides.) ? when you apply high voltages to the 701260 (hv (with rms)) , use a 1:1 safety cable (a combination of the 701901 and 701954) or isolated probe (the 700929 or 701947). ? the measurement category of the 701260 (hv (with rms)) is 400v-catii on the low side and 700v-catii on the high side. use caution because the overvoltage tolerance differs between the low and high sides. ? w hen you apply high voltages to the 701280 (freq), use an isolated probe (the 700929 or 701947). ? the protection functions and non-isolation functions of the 720 230 (logic) are enabled when the module screws are tightened. it is extremely dangerous if you do not fasten the screws. also, be sure to only use a recommended yokogawa logic probe (700986, 700987, 702911, or 702912) with the logic module. free datasheet http://
3-6 im dl850-03en types of input modules the following 14 types of input modules are available. high-speed 100 ms/s, 12-bit isolation module 720210 (hs100m12) high-speed 10 ms/s, 12-bit isolation module 701250 (hs10m12) high-speed high-resolution 1 ms/s, 16-bit isolation module: 701251 (hs1m16) high-speed 10 ms/s, 12-bit non-isolation module 701255 (noniso_10m12) high-voltage 100 ks/s, 16-bit isolation module (with rms) 701260 (hv (with rms)) universal (voltage/temp.) module 701261 (universal) universal (voltage/temp.) module (with aaf) 701262 (universal (aaf)) temperature, high precision voltage isolation module 701265 (temp/hpv) strain module (ndis) 701270 (strain_ndis) strain module (dsub, shunt-cal) 701271 (strain_dsub) acceleration/voltage module (with aaf) 701275 (accl/volt) frequency module 701280 (freq) 16-ch voltage input module 720220 (16ch volt) logic input module 720230 (logic) can bus monitor module * 720240 (can monitor) * the can bus monitor module can be used on the DL850V. it cannot be used on the dl850. precautions to be taken when installing or removing input modules if you replace one installed input module with another, the settings for the channel will be reset to their defaults when the power is turned on. if you want to keep the settings, specify a save destination and save them. installation procedure of modules 1. make sure that the power switch on the left side panel of the instrument is turned off. 2. check the channel number displayed above the input module installation slot on the right side panel of the instrument, and then install the input module along the guide. holding the handles on the top and bottom of the input module, press hard until it clicks in place. if there is a cover plate on the slot in which to install the module, remove the cover plate, first. 3. firmly fasten the screws that came with the instrument in two places: the top and bottom of the input module. (screw tightening torque: 0.6 n?m) 4. turn the instruments power switch on. 5. in the overview screen, check that the name of the module that you installed is displayed correctly at the appropriate channel number. if it is not correct, remove the module according to the steps in removal shown below, and reinstall the module according to steps 1 to 3 shown above. to display the overview screen, see section 19.4, viewing system information (overview), in the users manual. guide note you can install up to four of the high-speed 100 ms/s, 12-bit isolation modules (hs100m12). you can only install them in the top slots. 3.3 installing input modules free datasheet http://
3-7 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index removal 1. make sure that the instruments power switch is off. 2. loosen the two screws that are fastened to the input module. 3. hold the two handles at the top and bottom of the input module, and pull it out. about the high-speed, 100 ms/s, 12-bit isolated module safety precautions for laser products the high-speed 100 ms/s, 12-bit isolation module (720210 (hs100m12)) uses an internal laser light source. the 720210 (hs100m12) is a class 1 laser product as defined by iec60825-1: safety of laser productspart1: equipment classification. high-speed 100 ms/s, 12-bit isolation module (720210 (hs100m12)) the following information is printed on the side. dl850/DL850V the following information is printed on the top. laser specifications center wavelength: 850 nm pulse width: 10 ms (100 mhz), 2.5 ns (2 ghz) output: 1 mw if the instrument is used in a manner not specified in this manual, the protection provided by the instrument may be impaired. yokogawa assumes no liability for the customers failure to comply with these warnings and requirements. 3.3 installing input modules free datasheet http://
3-8 im dl850-03en leds on the frequency module on the front panel of the frequency module (701280 (freq)) are leds for each channel. these leds allow you to check the input condition of the pulse. act over act over 701280 (freq) led green: pulses are being received. red: the input voltage range has been exceeded. off: pulses are not being received. note ? the leds on the frequency module illuminates in green when pulse is applied and red when the input voltage level is over range. it is independent of the start/stop condition of waveform acquisition of the dl850/DL850V. ? when the preset of the frequency module is set to em pickup (electro magnetic pickup), the led will not illuminate in red when the range is exceeded. for information about presets, see section 1.6, configuring frequency , revolution, period, duty cycle, power supply frequency, pulse width, pulse integration, and velocity measurements, in the users manual. 3.3 installing input modules free datasheet http://
3-9 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.4 connecting to a power supply and turning the power switch on and off before connecting the power make sure that you observe the following points before connecting the power. failure to do so may cause electric shock or damage to the instrument. warning ? before connecting the power cord, ensure that the source voltage matches the rated supply voltage of the instrument and that it is within the maximum rated voltage of the provided power cord. ? connect the power cord after checking that the power switch o f the instrument is turned off. ? to prevent the possibility of electric shock or fire, be sure to use the power cord for the instrument that was supplied by yokogawa. ? t o avoid electric shock, be sure to ground the instrument. connect the power cord to a three-prong power outlet with a protective earth terminal. ? do not use an extension cord without a protective earth ground. otherwise, the protection function will be compromised. ? if an ac outlet that conforms to the accessory power cord is unavailable and protective grounding cannot be furnished, do not use the instrument. connecting the power cord 1. check that the power switch is off. 2. connect the power cord plug to the power inlet on the left side panel. 3. connect the other end of the cord to an outlet that meets the conditions below. use the three- prong power outlet equipped with a protective earth terminal. rated supply voltage* 100 to 120 vac/200 to 240 vac permitted supply voltage range 90 to 132 vac/180 to 264 vac rated supply voltage frequency 50/60 hz permitted supply voltage frequency range 48 to 63 hz maximum power consumption approx. 200 va max. (this value is for reference. when the built-in printer is not being used and there are 16 active channels, the maximum power consumption is 135 va.) * the instrument can use a 100 v or a 200 v power supply . the maximum rated voltage differs according to the type of power cord. check that the voltage supplied to the dl850/DL850V is less than or equal to the maximum rated voltage of the provided power cord (see page iii) before using it. free datasheet http://
3-10 im dl850-03en turning the power switch on and off before turning on the power, check that: ? the instrument is installed properly (see section 3.2, installing the instrument). ? the power cord is connected properly (see the previous page). turning the power switch on and off flip the power switch on the left side panel to on (|) to turn the instrument on, and to off () to turn the instrument off. operations performed when the power is turned on when the power switch is turned on, self testing and calibration start automatically. this lasts for approximately 30 seconds. if testing and calibration finish normally, the waveform display screen appears. note ? after turning the power off, wait at least 10 seconds before you turn it on again. ? if the instrument does not perform the operations described above after the power is turned on, turn the power off, and check: ? that the power cord is plugged in properly . ? that the correct voltage is coming to the power outlet (see the previou s page). ? after checking the above, try turning on the power switch while holding down the reset key to initialize the settings (reset them to their factory defaults). for details about initializing the settings, see section 4.6, initializing settings. if the instrument still does not work properly, contact your nearest yokogawa dealer for repairs. ? it takes several seconds for the startup screen to appear. 3.4 connecting to a power supply and turning the power switch on and off free datasheet http://
3-11 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index to make accurate measurements ? after turning on the power switch, wait at least 30 minutes to allow the instrument to warm up. ? perform calibration after the instrument has warmed up (see section 4.7 for details). if auto calibration is turned on, auto calibration is executed when you change the time/div setting or start waveform acquisition. operations performed when the power is turned off when the power switch is turned off (or the power plug is removed), the instrument stores the current settings in its memory. this means that if you turn the power switch on and begin measurement, the instrument will perform measurements using the settings from immediately before the instrument was last turned off. note the instrument stores the settings using an internal lithium battery. the battery lasts for approximately five years when the ambient temperature is 23c. when the lithium battery voltage falls below a specified value and you turn on the power, a message (error 907) appears on the screen. if this message appears frequently, you need to replace the battery soon. do not try to replace the battery yourself. contact your nearest yokogawa dealer to have the battery replaced. 3.4 connecting to a power supply and turning the power switch on and off free datasheet http://
3-12 im dl850-03en 3.5 connecting probes connecting probes connect the probes (or other input cables such as bnc cables) to any of the input terminals of the following modules. the input impedance is 1 m 1 % and approximately 35 pf. ? high-speed 100 ms/s, 12-bit isolation module: 720210 (hs100m12) ? high-speed 10 ms/s, 12-bit isolation module: 701250(hs10m12) ? high-speed high-resolution 1 ms/s, 16-bit isolation module: 701251 (hs1m16) ? high-speed 10 ms/s, 12-bit non-isolation module: 701255 (noniso_10m12) ? high-voltage 100 ks/s, 16-bit isolation module (with rms): 701260 (hv(with rms)) ? acceleration/voltage module (with aaf): 701275 (accl/volt) ? frequency module: 701280 (freq) warning ? when connecting a device under measurement to the instrument, be sure to turn off the device. it is extremely dangerous to connect or remove measuring leads while the device under measurement is on. precautions to be taken when using the modules ? do not apply input voltage exceeding the maximum input volta ge, withstand voltage, or allowable surge voltage. ? t o avoid electric shock, be sure to ground the instrument. ? to prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical protection function and the mechanical protection function will not be activated. ? do not leave the instrument connected to devices in an enviro nment that may be subject to voltage surges. ? use only specified cables. it is extremely dangerous to use ca bles that do not meet the safety standards. (especially when you are handling high voltages of 42 v or more.) ? when measuring high voltages using the 720210 (hs100m12 ), 701250 (hs10m12), or 701251 (hs1m16), use an isolated probe (the 700929 or 701947), 1:1 safety cable (a combination of the 701901 and 701954), or differential probe (700924). ? when you apply high voltages to the 701260 (hv (with rms)) , use a 1:1 safety cable (a combination of the 701901 and 701954) or isolated probe (the 700929 or 701947). ? the bnc portion of the 10 mhz passive probe (701940) is me tal, so if you use it with isolated input (the 720210 (hs100m12), 701250 (hs10m12), 701251 (hs1m16), 701260 (hv (with rms)), 701275 (accl/volt), or 701280(freq)), for safety, be sure to only use it with voltages at or below 42 v. (do not connect voltage above 42 v to both the high and low sides.)for non-isolated inputs (701255 (noniso_10m12), etc.), fasten the module screws. ? the measurement category of the 701260 (hv (with rms)) is 4 00v -catii on the low side and 700v-catii on the high side. use caution because the overvoltage tolerance differs between the low and high sides. ? w hen you apply high voltages to the 701280 (freq), use an isolated probe (the 700929 or 701947). free datasheet http://
3-13 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index in using the high voltage differential probes be sure to connect the gnd lead of a differential probe (the 700924 or 700925) to the functional ground terminal on the right side panel of the instrument. otherwise, high voltage may appear at the bnc connector making it dangerous. maximum input voltages and maximum allowable common mode voltages for the modules applying a voltage exceeding the value indicated below may damage the input section. if the frequency is above 1 khz, damage may occur even when the voltage is below this value. ? for the 720210 (hs100m12) maximum input voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1 1000 v (dc + acpeak) ? with the safety cable (1:1; a combination of the 701901 and 701954) 5 or direct input 9 200 v (dc + acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 2 or when used with the safety cable (1:1; a combination of the 701901 and 701954). 8 1000 vrms (cat ii) ? direct input 10 42v (dc + acpeak, cat i and cat ii, 30 vrms) ? high-speed 10 ms/s, 12-bit isolation module (701250) maximum input voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1 600 v (dc + acpeak) ? safety cable (1:1) (combined with 701901+701954) 5 or direct input 9 250 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 2 or when used with the safety cable (1:1; a combination of the 701901 and 701954). 8 400 vrms (cat i), 300 vrms (cat ii) ? direct input 10 42 v (dc + acpeak, cat i and cat ii, 30 vrms) ? high-speed high-resolution 1 ms/s, 16-bit isolation module (701251) maximum input voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1 600 v (dc+acpeak) ? safety cable (1:1) (combined with 701901+701954) 5 or direct input 9 140 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 2 or when used with the safety cable (1:1; a combination of the 701901 and +701954). 8 400 vrms (cat i), 300 vrms (cat ii) ? direct input 10 42 v (dc+acpeak, cat i and cat ii, 30 vrms) ? high-speed 10 ms/s, 12-bit non-isolation module (701255) this module is non-isolated. be sure to fasten the module screws when measuring a voltage above 42 v on this module. in addition, use the dedicated non-isolated passive probe (10:1) (701940). maximum input voltage (at a frequency of 1 khz or less) ? combined with the passive probe (701940) (10:1) 600 v (dc+acpeak) ? di rect input 9 250 v (dc+acpeak) 3.5 connecting probes free datasheet http://
3-14 im dl850-03en ? high-voltage 100 ks/s, 16-bit isolation module (with rms) (701260) maximum input voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1 1000 v (dc+acpeak) ? safety cable (1:1) (combined with 701901+701954) 5 or direct input 9 850 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1000 vrm s (cat ii) on the h side, 3 400 vrms (cat ii) 4 on the l side ? safety cable (1:1) (combined with 701901+701954) 700 vrms (cat ii) on the h side, 6 400 vrms (cat ii) on the l side 7 ? direct input 10 42 v (dc+acpeak, cat i and cat ii, 30 vrms) ? 701275 (accl/volt) maximum input voltage (at a frequency of 1 khz or less) ? combined with the passive probe (701940) (10:1) 11 or direct input 9 42 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? combined with the passive probe (701940) (10:1) 12 or direct input 10 42 v (dc+acpeak, cat i and cat ii, 30 vrms) ? 701280 (freq) maximum input voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 1 420 v (dc + acpeak) ? safety cable (1:1) (combined with 701901+701954) 5 or direct input 9 42 v (dc + acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) ? when used with the 700929 (10:1) isolated probe or the 701947 (100:1) isolated probe. 2 400 vrms (cat i), 300 vrms (cat ii) ? safety cable (1:1) (combined with 701901+701954) 8 or direct input 10 42 v (dc+acpeak, cat i and cat ii, 30 vrms) h l with the 700929 or 701947 1 2 700929/701947 h l 701901 701954 5 with the 701901 and 701954 h l direct input (cable that does not comply with the safety standards) 9 10 bnc 8 3 4 6 7 with the 10:1 passive probe (701940) h l 11 12 3.5 connecting probes free datasheet http://
3-15 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index precautions to be taken when connecting probes ? when connecting a probe to the instrument for the first time, perform phase correction of the probe as described in section 3.7, compensating the probe (phase correction). failure to do so will cause unstable gain across different frequencies, thereby preventing correct measurement. make the phase correction on each channel to which the probe is to be connected. ? y ou cannot perform phase correction of the probe on the frequency module (701280(freq)). when connecting a probe to the 701280 (freq), first perform phase correction on the probe using another module. ? if the object to be measured is connected to the instrument dir ectly, without using a probe, a correct measurement cannot be performed due to the input impedance. please be aware of this. ? please be aware that if you use a voltage probe that is not an isolated probe (the 700929 or 701947) and whose attenuation is not 1:1, 10:1, 100:1, or 1000:1, the correct measured values cannot be displayed. ? follow the instructions given in section 5.6, setting the probe type to set the probe attenuation (type) to match the actual value using the soft key menu. if they do not match, measured values cannot be read correctly. connecting current probes when using current probes made by yokogawa, * use the probe power supply (optional) on the right side panel of the dl850/DL850V. * yokogawa current probes: the 700937, 701930, 701931, and 701933 for details on the connection procedure, see the manual that came with the current probe. caution do not use the probe power supply terminals (optional) on the right side panel of the dl850/ DL850V for purposes other than supplying power to the current probes. also, be sure to use only the number of probes allowed. otherwise, the dl850/DL850V or the devices connected to them may get damaged. 3.5 connecting probes free datasheet http://
3-16 im dl850-03en precautions to be taken when using current probes when connecting the current probe to the probe power supply terminal on the right side panel, make sure that the current does not exceed the range shown below. otherwise, the dl850/DL850V operation may become unstable due to the activation of the excessive current protection circuit of the power supply. (total current consumption for a through d) 1 a if the terminals are named a through d a probe power (12v dc ) b c d specifications of the probe power supply terminals (optional) item number of probes that can be used 4 probes that can be used current probe (700937, 701930, 701931, and 701933) number of current probes that can be used 700937 (15 a): up to 4 701930 (150 a): up to 2 701931 (500 a): up to 1 701933 (30 a): up to 2 supply voltage 9wzrrxwsxwvxswrwrwdofxuuhqw when using the current probe, the number of probes that can be used is limited by the current generated by the device under measurement (current measured by the current probe). the measured versus consumed current characteristics of current probes that can be connected to the instrument are indicated below. -250 -200 -150 -100 -50 -15 -10 -5 0 5 10 15 0 50 100 150 200 250 current probe (700937) current consumption (ma) measured current (a) positive current negative current -400 -300 -200 -100 -150 -100 -50 0 50 100 150 0 100 200 300 400 current probe (701930) current consumption (ma) measured current (a) positive current negative current ac (f = 50 hz) dc ac (f = 50 hz) dc -500 -400 -300 -200 -100 -500 -400 -300 0 100 200 500 0 100 200 300 400 500 current consumption (ma) measured current (a) positive current negative current C200 C100 300 400 current probe (701931) ac (f = 50 hz) dc current probe (701933) current consumption (ma) measured current (a) C50 C40 C30 C20 C10 0 10 20 30 40 50 600 500 400 300 200 100 0 C100 C200 C300 C400 C500 C600 positive current negative current ac (f = 50 hz) dc for details about each current probe, contact your nearest yokogawa dealer. 3.5 connecting probes free datasheet http://
3-17 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index connecting differential probes (700924) when using differential probes (700924) made by yokogawa, connect the bnc output connector to the input terminal of the oscilloscope. also, be sure to connect the gnd lead to the functional ground terminal of the dl850/DL850V. if necessary, use the auxiliary grounding lead extension. a measurement of 1400 vpeak is possible by connecting the gnd lead to the dl850/DL850V. for details on the connection procedure, see the manual that came with the differential probe. functional ground terminal gnd lead warning in using the high voltage differential probes be sure to connect the gnd lead of a differential probe (the 700924 or 700925) to the functional ground terminal on the right side panel of the dl850/DL850V. otherwise, high voltage may appear at the bnc connector making it dangerous. also, be sure to connect the gnd lead to the dl850/DL850V before you connect to the device under measurement. 3.5 connecting probes free datasheet http://
3-18 im dl850-03en 3.6 correcting the probe phase for the following modules, always correct the probe phase before you use a probe for measurement. ? high-speed 100 ms/s, 12-bit isolation module: 720210 (hs100m12) ? high-speed 10 ms/s, 12-bit isolation module: 701250 (hs10m12) ? high-speed high-resolution 1 ms/s, 16-bit isolation module: 701251 (hs1m16) ? high-speed 10 ms/s, 12-bit non-isolation module: 701255 (noniso_10m12) ? high-voltage 100 ks/s, 16-bit isolation module (with rms): 701260 (hv (with rms)) ? acceleration/voltage module (with aaf): 701275 (accl/volt) ? frequency module: 701280 (freq) caution do not apply external voltage to the probe compensation output terminal. this may cause damage to the internal circuitry. 1. turn on the power switch. 2. connect the probe to a signal input terminal (the terminal that you will actually apply the signal to measure to). 3. connect the tip of the probe to the probe compensation output terminal on the front panel of the instrument, and connect the ground wire to the functional ground terminal. 4. follow the instructions in section 4.5, performing auto setup, to perform auto setup on the probe. 5. insert a screwdriver into the phase adjustment knob, and turn the variable capacitor so that the displayed waveform is an appropriate square wave. probe compensation output terminal functional ground terminal phase adjustment knob necessity of phase correction of the probe if the probes input capacitance is not within the appropriate range, the gain will not be steady in relation to the frequency, and waveforms will not be displayed correctly. also, because the input capacitance is not the same for each probe, the probes have variable capacitors (trimmers) that need to be adjusted. this adjustment is referred to as phase correction. always correct the phase of a probe that you are using for the first time. also, because the appropriate input capacitance range is different for each channel, you need to perform phase correction when you change the channel that a probe is connected to. free datasheet http://
3-19 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index phase compensation signal the instrument generates the following square wave signal from the comp signal output terminal. frequency : 1 khz 1% computation : 1 v 10 % differences in the waveform due to the phase correction of the probe correct waveform too much adjustment (increased gain in the high frequency band) not enough adjustment (reduced gain in the high frequency band) notes about using probes with the frequency module (701280 (freq)) you cannot perform phase correction on a probe connected to the frequency module. to use a probe with the frequency module, first perform phase correction on the probe using another module. 3.6 correcting the probe phase free datasheet http://
3-20 im dl850-03en 3.7 connecting measuring leads connecting measuring leads when you measure voltage using the 701261 (universal), 701262 (universal (aaf)), or 701265 (temp/hpv), connect the measuring leads of a bipolar banana plug terminal like the one shown in the figure below to the input terminal (binding post terminal). h (red) l (black) warning ? when connecting a device under measurement to the instrument, be sure to turn off the device. it is extremely dangerous to connect or remove measuring leads while the device under measurement is on. ? t o prevent the possibility of electric shock, always connect measuring leads that match the voltage range that you are measuring to the signal input terminals of the 701261 (universal), 701262 (universal (aaf)), and 701265 (temp/hpv). ? applying a voltage exceeding the value indicated below may damage the input section. if the frequency is above 1 khz, damage may occur even when the voltage is below this value. for 701261, 701262, or 701265 ? maximum input voltage (across the input terminals, h and l, 1 at a frequency of 1 khz or less) 42 v (dc+acpeak) ? maximum allowable common mode voltage (across the input terminals, h or l, and earth, 2 at a frequency of 1 khz or less) 42 v (dc + acpeak, cat i and cat ii, 30 vrms) ? do not connect a plug-in type terminal with exposed conducting parts to the input terminal to be used as a measuring lead. it is very dangerous, if the connector comes loose. h l input terminal of the 701261, 701262, and 701265 ground 2 1 free datasheet http://
3-21 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.8 connecting thermocouples connecting thermocouples if you are connecting the compensation lead of the thermocouple to the input terminal (binding post terminal) of the 701261 (universal), 701262 (universal (aaf)), or 701265 (temp/hpv), loosen the terminal knob, pass the lead through the terminal, and tighten the knob. to the thermocouple l h extension wires (or bare thermocouple wires) positive lead negative lead caution ? the 701261 (universal), 701262 (universal (aaf)), or 701265 (temp/hpv) is isolated from the dl850/DL850V. however, applying a voltage exceeding the value below may damage the input section. if the frequency is above 1 khz, damage may occur even when the voltage is below this value. maximum input voltage (across the input terminals, h and l, at a frequency of 1 khz or less) 42 v (dc + acpeak) maximum allowable common mode voltage (across the input terminal l and earth at a frequency of 1 khz or less) 42 v (dc + acpeak, cat i and cat ii, 30 vrms) ? correct measurements cannot be obtained when the positive and negative thermocouple leads are connected in reverse. ? immediately after connecting the thermocouple, the heat balance may be disturbed at the input terminal section and may cause measurement errors. therefore, wait about ten minutes before making a measurement. ? in an environment where the air from the air conditioning is directly applied to the input terminals or where there are ef fects from a heat source, the heat balance may be disturbed at the input terminal section and cause measurement errors. when making measurements in this type of environment, take preventive measures such as changing the position. free datasheet http://
3-22 im dl850-03en 3.9 connecting bridgeheads strain is measured by connecting a strain gauge bridge (bridge head) or a strain gauge transducer to the strain module. this section will mainly describe the procedures and precautions related to the connection of the bridge head (model 701955/701956/701957/701958). for the connection of other strain gauge bridges or strain gauge transducers, see the respective manuals. caution only connect a strain gauge bridge (bridge head) or a strain gauge transducer to the strain module. connecting other devices or applying a voltage that exceeds the values indicated below to the strain module may damage the input section. ? maximum input voltage (between input+ and inputC) 10 v (dc + acpeak) ? maximum allowable common mode voltage (between each terminal and earth ground) 42 v (dc + acpeak, cat i and cat ii, 30 vrms) connecting the strain gauge the bridge head (701955/701956/701957/701958) supports six types of connection methods: single-gauge method, single-gauge three-wire method, adjacent-side two-gauge method, opposite- side two-gauge method, opposite-side two-gauge three-wire method, and four-gauge method. for details, see the manual that came with the bridge head (701955/701956/701957/701958). if you are using a strain gauge bridge or a strain gauge transducer other than the bridge head (7019 55/701956/701957/701958), see the respective manuals. connecting the strain module and the bridge head when using the strain module (701270) and the bridge head (701955/701956) using the cable that came with the bridge head (701955/701956), connect the strain module (701270) and the bridge head. strain module 701270 (strain_ndis) cable bridgehead 701955/701956 when using the strain module (701271) and the bridge head (701957/701958) using the cable that came with the bridge head (701957/701958), connect the strain module (701271) and the bridge head. cable bridgehead 701957/701958 strain module 701271 (strain_dsub) free datasheet http://
3-23 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index when using a bridge head with a mil standard (mil-c-26482) connector wiring the connector on the strain module (701270) is a ndis connector. * use a connector adapter cable (700935) by yokogawa to make a mil-ndis conversion and connect to the strain module (701270). * connector recommended by jsndi (japanese society for non-destructive inspection) connector adapter cable (700935) 1.5 m long bridgehead with mil standard connector wiring a b c d e f g a b c d c ndis mil b d a ndis connector pinout mil standard connector pinout corresponding terminals a b c d e f a: bridge+ (positive bridge voltage) b: inputC (negative measurement signal) c: bridgeC (negative bridge voltage) d: input+ (positive measurement signal) e: floating common f: sense+ (positive bridge voltage sensing) g: senseC (negative bridge voltage sensing) a: signal+ b: signalC c: excitation+ d: excitationC e: nc (no connection) f: nc (no connection) strain module 701270 (strain_ndis) when using the a1002jc connector by yokogawa you can create your own cable by using the yokogawa a1002jc connector that is compatible with the strain module and use the cable to connect a strain gauge bridge or a strain gage transducer to the strain module. a a: bridge+ (positive bridge voltage) b: inputC (negative measurement signal) c: bridgeC (negative bridge voltage) d: input+ (positive measurement signal) e: floating common f: sense+ (positive bridge voltage sensing) g: senseC (negative bridge voltage sensing) b c d e f g a1002jc ndis connector (two in a set) 1 pinouts as viewed in the direction of arrow 1 note ? the connector shell is connected to the case potential of the dl850/DL850V. ? each of the signals from a to g is isolated within the module. ? when creating your own cable, we recommend that you use a shielded cable in order to shut out external noise. caution take extra care when wiring the connectors. if the wiring is shorted or incorrect, it can damage the dl850/DL850V or other instruments that are connected to the dl850/DL850V. 3.9 connecting bridgeheads free datasheet http://
3-24 im dl850-03en pinout of the d-sub connector as viewed in the direction of arrow 1 5 4 3 21 9 8 7 6 1: floating common 2: senseC (negative bridge voltage sensing) 3: shuntcalC (negative shunt signal) 4: shuntcal+ (positive shunt signal) 5: sense+ (positive bridge voltage sensing) 6: bridgeC (negative bridge voltage) 7: inputC (negative measurement signal) 8: input+ (positive measurement signal) 9: bridge+ (positive bridge voltage) d-sub 9-pin connector connector shell cable 1 3.9 connecting bridgeheads free datasheet http://
3-25 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.10 connecting a logic probe to the logic input module to measure logic signals, connect a logic probe (the 702911, 702912, 700986, or 700987) to a logic input module (the 720230). caution ? applying a voltage greater than the limits listed below may damage the logic probe or the instrument. for frequencies above 1 khz, damage may occur even if the voltage is less than the limits listed below. maximum input voltage (at a frequency of 1 khz or less) ? logic probes 70291 1 and 702912: 35 v ? high-speed logic probe 700986: 42 v (dc + acpeak) ? 700987 isolated logic probe: 250 vrms (however, acpeak must be less than 350 v, and dc must be less than 250 v) ? for logic probes 70291 1 and 702912 and high-speed logic probe 700986, the eight input lines of a single pod share the same ground. also, the instruments ground and the grounds of each pod are connected. do not apply signals with different common voltages to each input line. doing so may damage the instrument, connected logic probes, and connected devices. ? the input terminals of an isolated logic probe are isolated from each other and from the dl850/DL850V. ? t urn off the dl850/DL850V before you connect or remove a 26-pin connector from the logic signal input connector. ? do not stack the isolated logic probes during use. also, allow enough space around the probes to avoid a temperature increase inside the probes. ? do not use the yokogawa 700985 logic probe with the dl850/DL850V. the 700985 is shaped so that it can be connected to the logic signal input connector of the dl850/ DL850V, but it is not electrically compatible with the dl850/DL850V, so connecting the two could damage the dl850/DL850V or the 700985. about the logic probe types of logic probes yokogawa provides the following four types of probes (as accessories) for connecting to the logic signal input connector of the dl850/DL850V. ? high-speed logic probe (700986) ? isolated logic probe (700987) ? 1 m logic probe (70291 1) ? 3 m logic probe (702912) types of measuring leads that can be used use the following leads to connect to the point of measurement. connecting leads that can be used with logic probes 702911, 702912, and 700986 the following two types are available. ? connecting lead (alligator clip, parts no. b9879px) this lead is primarily for connecting to contact circuits. the lead consists of 8 signal lines (red) and 8 earth lines (black). ? connecting lead (ic clip, parts no. b9879kx) this lead is primarily for connecting to electronic circuits. the lead consists of 8 signal lines (red) and 2 earth lines (black). free datasheet http://
3-26 im dl850-03en types of measuring leads that can be used on the isolated logic probe (700987) use the following measuring lead. ? for measuring voltages of 42 v or more: measuring lead for isolation logic (758917) an alligator adapter (758922), alligator adapter (758929), or alligator clip (dolphin type, 701954) is needed to make measurements. note do not modify the connecting leads. doing so may degrade their specifications. connecting logic probes connecting logic probes 702911, 702912, and 700986 1. attach the connecting lead (ic clip or alligator clip) that came with the logic probe, and push the logic probe levers inwards to lock the connector into place. to remove the connecting leads from the logic probe, push both of the levers outwards. proceed to step 3. connecting the isolated logic probe (700987) 1. connect the measuring leads to the logic probes input terminal. 2. set the input switch. when you set it to ac, the threshold levels are 50 vac 50% (hi: 80 to 250 vac, lo: 0 to 20 vac); when you set it to dc, the threshold levels are 6 v 50% (hi: 10 to 250 vdc, lo: 0 to 3 vdc). connecting the logic probe to a logic input module 3. turn the instruments power switch off. 4. connect to the logic signal input connector of the logic input module (720230) the end of the logic probes 26-pin connector that has a clamp filter (ferrite core; part number: a1190mn). 5. turn on the dl850/DL850V. to the logic signal input connector of the logic input module note ? when a logic probe is not connected to the dl850/DL850V, each bit is indicated as being at the high level. ? for the logic probe specifications, see section 6.14, logic probe spe cifications. ? the logic input display is turned off by default. for information about turning the display on and off, see chapter 1, vertical and horizontal control, in the users manual. 3.10 connecting logic probes free datasheet http://
3-27 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.11 connecting an acceleration sensor an acceleration sensor is connected when measuring acceleration on the 701275 (accl/volt). for a details on acceleration sensors, see the respective manuals. caution ? applying a voltage that exceeds the values indicated below to the 701275 (accl/volt) may damage the input section. maximum input voltage: 42 v (dc+acpeak) ? when connecting acceleration sensors, do it without the bias current being supplied to the sensor . otherwise, damage to the internal circuitry of the acceleration sensors may result. ? the dl850/DL850V only supports acceleration sensors that are driven by constant current with driving current of 4 ma and driving voltage of 22 v. connecting acceleration sensors when connecting built-in amplifier type acceleration sensors the dl850/DL850V allows built-in amplifier type (low impedance) acceleration sensors to be directly connected. to connect built-in amplifier type acceleration sensors, use bnc cables. use cables that are appropriate for the acceleration sensors being used. connect the acceleration sensors with the bias current turned off. after connection, turn on the supply current to the acceleration sensors for making measurements. when connecting charge output type acceleration sensors since the charge output type (high impedance) acceleration sensors do not have built-in amplifier circuit, they cannot be directly connected to the dl850/DL850V. use either of the following two methods to connect the sensors. using the charge amplifier connect a charge-output-type acceleration sensor to the charge amplifier using a high-insulation, low-noise cable. the acceleration signal (charge signal) that has been converted to a voltage signal by the charge amplifier is input to the dl850/DL850V using a normal coaxial cable. the dl850/DL850V measures the signal in the voltage measurement mode. the measured data can be converted to acceleration values using the scale conversion function of the dl850/DL850V. 701275(accl/volt) (voltage measurement) charge-output-type acceleration sensor normal coaxial cable high-insulation, low-noise cable charge amp dl850/DL850V free datasheet http://
3-28 im dl850-03en when using the charge converter connect a charge-output-type acceleration sensor to the charge converter using a high-insulation, low-noise cable. by driving the charge converter using a constant current from the dl850/DL850V, voltage signals similar to those of the built-in amplifier type acceleration sensor can be obtained. the dl850/DL850V measures the signals in the acceleration measurement mode and supplies bias current to the charge converter. set the input sensitivity of the dl850/DL850V according to the charge converter gain and the sensitivity of the charge output type acceleration sensor. the dl850/DL850V only supports charge converters that are driven by constant current with driving current of 4 ma and driving voltage of 22 v. charge-output-type acceleration sensor normal coaxial cable high-insulation, low-noise cable charge converter 701275(accl/volt) (acceleration measurement) dl850/DL850V note the unit of measu r ement of acceleration on the dl850/DL850V is m/s 2 . if the sensitivity is indicated in mv/g for the acceleration sensor that you are using, convert it to m/s 2 . (1 g = 9.81 m/s 2 ) precautions ? do not apply shock outside the specifications (see the manual for the acceleration sensor) to the acceleration sensors. doing so can damage the sensors. ? do not impose drastic temperature changes on the acceleration sensors. temperature changes may affect the output value of the acceleration sensors. ? by default, the bias current on the acceleration sensors is turned of f. be sure to turn it on before using the acceleration sensors. bias current is valid only when measuring acceleration. when measuring other parameters, it is automatically turned off. the bias current on/off setting is saved when the dl850/DL850V is turned off. 3.11 connecting an acceleration sensor free datasheet http://
3-29 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.12 connecting sensors to the frequency module sensors and signal output sources that can be connected the table below shows the sensor and signal output source that can be connected. appropriate input presets are provided for each sensor and signal output source. for information about presets, see input setup in section 1.6, configuring frequency, revolution, period, duty cycle, power supply frequency, pulse width, pulse integration, and velocity measurements, in the users manual. sensor and signal output source preset name 5-v logic signal, 5-v output sensor, and sensor with ttl output logic 5v 3-v logic signal and 3-v output sensor logic 3v 12-v driven relay/sequence circuit and 12-v driven sensor logic 12v 24-v driven relay/sequence circuit and 24-v driven sensor logic 24v sensor/encoder that outputs positive and negative voltages and sensor that outputs sine waves zerocross 100-vac power supply (connected via the isolated probe (700929)) ac100v 200-vac power supply (connected via the isolated probe (700929)) ac200v power-generating electromagnetic pickup em pickup open collector (0 to 5 v) output sensor, contact output pull-up 5v * * for the internal equivalent circuit when the preset setting is pull-up 5v, see the frequency measurement section in chapter 2, vertical axis in the features guide (im dl850-01en). precautions to be taken when connecting to sensors or signal output sources caution ? the maximum input voltage for direct input is indicated below. applying a voltage exceeding this value can damage the input section. when applying a high voltage of 42 v or more, be sure to use an isolated probe (the 700929 or 701947). maximum input voltage: 42 v (dc + acpeak) (cat i and cat ii) ? the minimum input voltage is 0.2 vpp. at voltage amplitude less than 0.2 vpp, the measured values may be unstable. ? attach/remove the sensors after confirming that the rotating object to be measured is stopped. ? set the preset to electromagnetic pickup (em pickup) only when using the electromagnetic pickup. connecting the electromagnetic pickup ? the dl850/DL850V allows power-generating electromagnetic pickup to be connected directly. the dl850/DL850V does not support electromagnetic pickups that require external power supply or those that require a terminator at the output. ? t o connect electromagnetic pickups, use bnc cables. use cables that are appropriate for the electromagnetic pickups being used. ? when the input is set to electromagnetic pickup, determination is not made on whether the input voltage level exceeds the specified input voltage range. therefore, the leds (see page 3-7) do not illuminate eve when the input voltage level is over range. 701280 (freq) power-generating electromagnetic pickup rotating object under measurement bnc connector dl850/DL850V free datasheet http://
3-30 im dl850-03en 3.13 connecting wires to the 16-ch voltage input module to measure voltages with the 720220 ( 16ch volt ), connect wires to the terminal block. warning ? when connecting a device under measurement to the instrument, be sure to turn off the device. it is extremely dangerous to connect or remove wires while the device under measurement is on. precautions to be taken when using the modules ? do not apply input voltage exceeding the maximum input voltage, withstand voltage, or allowable surge voltage. ? t o avoid electric shock, be sure to ground the instrument. ? to prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical protection function and the mechanical protection function will not be activated. ? do not leave the instrument connected to devices in an enviro nment that may be subject to voltage surges. ? t o prevent electric shock, connect wires to the terminal block that match the voltage range that you are measuring. ? applying a voltage exceeding the value indicated below may damage the input section. if the frequency is above 1 khz, damage may occur even when the voltage is below this value. maximum input voltage (across the input terminals, h and l, 1 at a frequency of 1 khz or less) 42 v (dc + acpeak) maximum allowable common mode voltage (across the input terminals, h or l, and earth, 2 at a frequency of 1 khz or less) 42 v (dc + acpeak, cat i and cat ii, 30 vrms) ? wire the l input terminals for all of the sub channels on the same module to the same potential. the l input terminals of the sub channels are all common. because the l input terminals are electrically connected inside the dl850/DL850V, connecting different potentials to them could result in short circuiting and damage to the 16-ch voltage input module. h l input terminal ground *2 *1 terminal block wire insertion hole h l screwdriver insertion hole sub channel 1 2 16 the l input terminals are electrically connected inside the instrument (same potential). ? when you release or lock the terminal block release levers, be careful not to injure yourself on the levers protrusions. caution when you attach the terminal block, if you try to attach it upside down, you may damage the terminal block and the module. check the vertical orientation of the block before you install it. free datasheet http://
3-31 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index what to prepare wiring remove approximately 7 mm of the insulation from the ends of the wires. electrical wire: 0.20 mm 2 to 1.00 mm 2 recommended (solid wire or thin stranded wire). awg size: 24-18. approx. 7 mm flat-blade screwdriver tip size: 0.4 mm (thickness) 2.5 mm (width) shape: din5264-a (use a straight driver.) connecting wires to the terminal block first, turn off the dl850/DL850V. make sure that the other end of the wire that you are connecting to the terminal block is not connected to the device under measurement, or make sure that the device under measurement that you are going to connect to is turned off. 1. insert the flat-blade screwdriver into the screwdriver insertion hole right next to the wire insertion hole. if you do not insert the flat-blade screwdriver into the hole firmly, the wire insertion hole will not open. 2. insert the wire that you prepared into the wire insertion hole. insert the wire until it reaches the back of the wire insertion hole. 3. pull the flat-blade screwdriver out of the screwdriver insertion hole. when you pull out the flat-blade screwdriver, hold the wire in place so that it does not come out with the screwdriver. 4. pull lightly on the wire to make sure that it doesnt come out. after you have finished connecting the wires, turn on the dl850/DL850V and the device under measurement. wire flat-blade screwdriver terminal block module: 720220 (16ch volt) wire insertion hole screwdriver insertion hole note removing and attaching the terminal block it is normally not necessary to remove the terminal block, but it is possible to do so. removal push terminal block release levers 1 and 2 to their release positions, and pull out the terminal block. attachment push terminal block release levers 1 and 2 to their lock positions, and insert the terminal block. push the terminal block firmly all the way to the back. however , the terminal block will not go all the way to the back if it is upside down. do not try to force the terminal block all the way to the back. release lever 1 release lever 2 hold release removing attaching 3.13 connecting wires to the 16-ch voltage input module free datasheet http://
3-32 im dl850-03en 3.14 connecting a cable to the can bus monitor module to monitor can bus signals, connect a cable to the can bus monitor modules d-sub connector. connector pinout the pinout of the d-sub connector (9 pin, male) is shown below. pinout 1 5 6 9 pin no. signal function 1 (nc) not used (can not be connected to) 2 can_l can low signal 3 gnd ground 4 (nc) not used (can not be connected to) 5 (nc) not used (can not be connected to) 6 gnd ground 7 can_h can high signal 8 (nc) not used (can not be connected to) 9 (nc) not used (can not be connected to) * one-inch screws (number 4-40 unc) are used. note the connector shell is connected to gnd. additionally, gnd and the connector shell are isolated from the electric potential of the dl850/DL850V case (earth). caution applying a voltage greater than the maximum input voltage may damage the input section. connecting the cable (signal wires) when you connect a cable to the d-sub connector, be sure to tighten the screws to ensure that the cable is connected securely. can bus monitor module 720240 (can monitor) cable screws free datasheet http://
3-33 im dl850-03en making preparations for measurements 1 2 3 4 5 6 app index 3.15 attaching the panel sheet depending on the suffix code, attach the supplied front panel sheet if necessary. you can attach the panel sheet over the panel sheet that was attached when the dl850/DL850V was shipped from the factory. attaching the panel sheet there are three panel sheet attachment hooks on both the left and right sides of the front panel. hook the panel sheet onto the three hooks on the left side. then, bend the panel sheet slightly, and hook it onto the three hooks on the right side. panel sheet attachment hook free datasheet http://
4-1 im dl850-03en common operations 1 2 3 4 5 6 app index 4.1 key and jog shuttle operations key operations how to use setup menus that appear when keys are pressed the operation after you press a key varies depending on the key that you press. a b b c d h e g f f history menu fft menu mode menu a: press the soft key to display a selection menu. press the soft key that corresponds to the appropriate setting. b: press the soft key to use the jog shuttle to configure this setting. use the jog shuttle or the arrow keys to set the value or select an item. t o set a value, press num lock, and then use the ch1 to ch 16 keys. c: a related setup menu appears when you press the soft key. d: press the soft key to execute the specified feature. e: selects which item to configure when configuring a feature that consists of two items that operate with different settings, such as the fft1 and fft2 features. f: the selected setting switches each time you press the soft key . g: displays a dialog box or a keyboard. use the jog shuttle, set key, and arrow keys to configure the settings in the dialog box or operate the keyboard. h: pressing a key sets the item to the setting that corresponds to that key. how to display the setup menus that are written in purple below the keys in the explanations in this manual, shift+key name (written in purple) is used to indicate the following operation. 1. press shift . the shift key illuminates to indicate that the keys are shifted. now you can select the setup menus written in purple below the keys. 2. press the key that you want to display the setup menu of. esc key operation if you press the esc key when a setup menu or available settings are displayed, the screen returns to the menu level above the current one. if you press the esc key when the highest level menu is displayed, the setup menu disappears. chapter 4 common operations free datasheet http://
4-2 im dl850-03en reset key operation if you press reset when you are using the jog shuttle to set a value or select an item, the setting is reset to its default value (depending on the operating state of the dl850/DL850V, the setting may not be reset). set key operations the operation varies as indicated below depending on what you are setting. ? for a soft key menu that has two values that you use the jog shuttle to adjust press set to switch the value that the jog shuttle adjusts. ? for a menu that has the jog shuttle + set mark ( + set ) displayed on it. press set to confirm the selected item. arrow key operations the operation varies depending on what you are setting. ? when setting a value up and down arrow keys: increases and decreases the value left and right arrow keys: changes which digit to set ? when selecting the item to set you can use the up and down arrow keys. how to enter values in setup dialog boxes 1. use the keys to display the appropriate setup dialog box. 2. use the jog shuttle or the arrow keys to move the cursor to the setting that you want to set. 3. press set . the operation varies as indicated below depending on what you are setting. ? a selection menu appears. ? a check box is selected or cleared. ? an item is selected. ? a table of settings is selected. displaying a selection menu and selecting an item select time or freq. displays the selection menu after selecting an item with the jog shuttle, press set to confirm it. setting items in a table after moving the cursor to the table, press set to select the setting the you want to change. press set to select a table entry. how to clear setup dialog boxes press esc to clear the setup dialog box from the screen. 4.1 key and jog shuttle operations free datasheet http://
4-3 im dl850-03en common operations 1 2 3 4 5 6 app index 4.2 entering values and strings entering values using dedicated knobs you can use the following dedicated knobs to enter values directly. ? vertical position knob ? scale knob ? time/div knob ? zoom magnification knob (mag) ? zoom position knob (for scrolling zoom waveforms) using the jog shuttle select the appropriate item using the soft keys, and change the value using the jog shuttle, the set key, and the arrow keys. this manual sometimes describes this operation simply as using the jog shuttle. using the keypad press num lock to illuminate the num lock key, and use the ch1 to ch16 keys to enter a value. after you enter the value, press enter to confirm it. use the keypad to enter the value. note some items that you can set using the jog shuttle are reset to their default values when you press the reset key. free datasheet http://
4-4 im dl850-03en entering character strings use the keyboard that appears on the screen to enter file names and comments. use the jog shuttle, the set key, and the arrow keys to operate the keyboard and enter a character string. how to operate the keyboard 1. press the inputmode soft key and then the english soft key. 2. after bringing up the keyboard, use the jog shuttle to move the cursor to the character that you want to enter. you can also move the cursor using the up, down, left, and right arrow keys. 3. press set to enter the character. ? if a character string has already been entered, use the arrow soft keys (< and >) to move the cursor to the position you want to insert characters into. ? t o switch between uppercase and lowercase letters, press the caps soft key. ? to delete the previous character, press the bs soft key. 4. repeat steps 1 and 3 to enter all of the characters in the string. select on the keyboard or press the history soft key to display a list of character strings that you have entered previously. use the jog shuttle to select a character string, and press set to enter the selected character string. 5. press the enter soft key, or move the cursor to enter on the keyboard, and press set to confirm the character string and clear the keyboard. character insertion position select to enter a string from the history. confirms the characters that you have entered deletes the previous character moves the character insertion position switches between uppercase and lowercase select the keyboard language (english, japanese). select to enter a string from the history. list of previously entered strings after selecting an item using the jog shuttle or the arrow keys, press set to confirm it. note ? @ cannot be entered consecutively. ? file names are not case-sensitive. comments are case-sensitive. the following file names cannot be used due to ms-dos limitations: aux, con, prn, nul, clock, com1 to com9, and lpt1 to lpt9 4.2 entering values and strings free datasheet http://
4-5 im dl850-03en common operations 1 2 3 4 5 6 app index 4.3 using usb keyboards and mouse devices connecting a usb keyboard you can connect a usb keyboard and use it to enter file names, comments, and other items. usable keyboards you can use the following keyboards that conform to usb human interface devices (hid) class ver. 1.1. ? when the usb keyboard language is english: 104 keyboards ? when the usb keyboard language is japanese: 109 keyboards note ? do not connect incompatible keyboards. ? the operation of usb keyboards that have usb hubs or mouse connectors is not guaranteed. ? for usb keyboards that have been tested for compatibility, contact your nearest yokogawa dealer. usb ports for peripherals connect a usb keyboard to the usb port for peripherals on the left side panel. connection procedure connect a usb keyboard directly to the dl850/DL850V using a usb cable. you can connect or remove the usb cable regardless of whether the dl850/DL850V power switch is turned on (hot- plug support). connect the type a connector of the usb cable to the dl850/DL850V, and connect the type b connector to the keyboard. when the power switch is on, the keyboard is detected and enabled approximately 6 seconds after it is connected. note ? only connect a compatible usb keyboard, mouse, printer, or storage device to the usb port for peripherals. ? do not connect multiple keyboards. you can connect one keyboard, one mouse, and one printer to the dl850/DL850V. ? do not connect and disconnect multiple usb devices repetitively . wait for at least 10 seconds after you connect or remove one usb device before you connect or remove another usb device. ? do not remove usb cables during the time from when the dl850/dl8 50v is turned on until key operation becomes available (approximately 20 to 30 seconds). entering file names, comments, and other items when a keyboard is displayed on the screen, you can enter file names, comments, and other items using the usb keyboard. entering values from a usb keyboard you can use a usb keyboard to enter the values of items with 123 marks on the menu screens by pressing ctrl+n on the usb keyboard to put the dl850/DL850V in the num lock state. free datasheet http://
4-6 im dl850-03en using a usb mouse you can connect a usb mouse and use it to perform the same operations that you can perform with the dl850/DL850V keys. also, by clicking a menu item, you can perform the same operation that you can perform by pressing the menu items soft key or selecting the menu item and pressing the set key. usb ports for peripherals connect a usb mouse to a usb port for peripherals on the front or rear panel of the dl850/ DL850V. usable usb mouse devices you can use mouse devices (with wheels) that are compliant with usb hid class version 1.1. note ? for usb mouse devices that have been tested for compatibility, contact your nearest yokogawa dealer. ? some settings cannot be configured by a mouse without a wheel. connection procedure to connect a usb mouse to the dl850/DL850V, use one of the usb ports for peripherals. you can connect or disconnect the usb mouse at any time regardless of whether the dl850/DL850V is on or off (hot-plugging is supported). when the power switch is on, the mouse is detected approximately 6 seconds after it is connected, and the mouse pointer ( ) appears. note ? only connect a compatible usb keyboard, mouse, printer, or storage device to the usb port for peripherals. ? even though there are two usb ports for peripherals, do not connect two mouse devices to the dl850/ DL850V. 4.3 using usb keyboards and mouse devices free datasheet http://
4-7 im dl850-03en common operations 1 2 3 4 5 6 app index operating the dl850/DL850V using a usb mouse ? operations that correspond to the front panel keys (top menu) displaying the top menu right-click on the display. a menu of the dl850/DL850V front panel keys appears. selecting an item from the top menu click on the item that you want to select. a setup menu that corresponds to the item that you selected appears at the bottom of the display. the top menu disappears. t o display an item s submenu, point to the item. to select an item on a submenu, click on it, just as you would to select an item on the top menu. pointer top menu right-click to display the top menu. submenu submenus appear for items that have them. the setup menu that you select using the mouse appears. note ? the following keys are not displayed in the top menu: esc, reset, and set 4.3 using usb keyboards and mouse devices free datasheet http://
4-8 im dl850-03en ? setup menu operations (same as soft key operations) selecting a setup menu item click the setup menu item that you want to select. if a selection menu appears after you select an item, click the selection menu item that you want to choose. if an item such as on or off appears, click on the item to change its setting. for menu items that are usually selected using the job shuttle and the set key, clicking on the item that you want to select will confirm your selection and close the dialog box. click in this area to display a selection menu. clicking the selection menu item that you want to select will confirm your selection. click in this area to display a menu for selecting items using the jog shuttle and set. clicking the menu item that you want to select will confirm your selection. click in this area to change the selected item. clearing the menu to clear the menu, click outside of it. ? specifying values the following description explains how to specify values for menu items that have a 123 icon next to them. ? if there are two 123 icons next to a single menu item, click on the item to select an item to configure. ? t o increase a value, rotate the mouse wheel back. ? to decrease a value, rotate the mouse wheel forward. ? to increase a value, move the pointer above the value so that the pointer becomes a , and then click the left mouse button. ? t o decrease a value, move the pointer below the value so that the pointer becomes a , and then click the left mouse button. ? t o move the decimal place, point to the left or right of the value you want to set so that the pointer becomes a or a , and then click the left mouse button. the decimal place will move one place to the right or left each time you click the left mouse button. click within this area to select the item that you want to set. change the value by clicking and using the mouse wheel. 4.3 using usb keyboards and mouse devices free datasheet http://
4-9 im dl850-03en common operations 1 2 3 4 5 6 app index ? selecting check boxes to select a check box, click it. to clear a check box, click it again. click the item that you want to select. note to close a dialog box, click outside of it. ? selecting a file, folder, or media drive from the file list window click on a file, folder, or media drive to select it. rotate the mouse wheel to scroll through the file list. to cancel your selection, click outside of the file list window. the file list window will close when you cancel your selection. scroll bar click on the item that you want to select. click on the file, folder, or media drive that you want to select. ? setting v/div and time/div setting v/div move the pointer close to the v/div value in the upper left of the display. the pointer becomes a . rotate the mouse wheel forward to increase the v/div value, and rotate it back to decrease the value. setting time/div move the pointer close to the time/div value in the upper righ t of the display. the pointer becomes a . rotate the mouse wheel forward to increase the time/div value, and rotate it back to decrease the value. v/div setting time/div setting 4.3 using usb keyboards and mouse devices free datasheet http://
4-10 im dl850-03en 4.4 synchronizing the clock this section explains how to set the dl850/DL850V clock, which is used to generate timestamps for measured data and files. the dl850/DL850V is factory shipped with a set date and time. you must set the clock before you start measurements. utility system config menu press utility , the system config soft key, and then the date/time soft key to display the following screen. turns the display of the date and time on and off set the display format. set the date and time. set the time difference from greenwich mean time. setting the display format (format) you can display the date in one of the following formats. 2008/09/30 (year/numeric month/day) 30/09/2008 (day/numeric month/year) 30-sep-08 (day-english abbreviation of the month-last two digits of the year) 30 sep 2008 (day month (english abbreviation) year) setting the time difference from greenwich mean time (time diff. gmt) set the time difference between the region where you are using the dl850/DL850V and greenwich mean time. selectable range: -12 hours 00 minutes to 13 hours 00 minute s for example, japan standard time is ahead of gmt by 9 hours. in this case, set time hour to 9 and minute to 00. checking the standard time using one of the methods below, check the standard time of the region where you are using the dl850/DL850V. ? check the date, time, language, regional options on your pc. ? check the standard time at the following url:http://www.worldtimeserver.com/ note ? the dl850/DL850V does not support daylight saving time. to set the time to daylight saving time, reset the time difference from greenwich mean time. ? d ate and time settings are backed up using an internal lithium battery. they are retained even if the power is turned off. ? the dl850/DL850V has leap-year information. free datasheet http://
4-11 im dl850-03en common operations 1 2 3 4 5 6 app index 4.5 performing auto setup the auto setup feature automatically sets the v/div, time/div, trigger level, and other settings to the most suitable values for the input signals. setup menu press setup to display the following menu. executes auto setup undoes auto setup center position after the execution of auto setup the center position after you execute auto setup will be 0 v. applicable modules auto setup is performed on the following modules. 701250(hs10m12), 701251(hs1m16), 701255(noniso_10m12), 701260(hv(with rms)), 701261(universal), 701262(universal(aaf)), 701275(accl/volt), 720210(hs100m12), 720220(16ch volt) channels that auto setup is performed on auto setup is performed on all channels except logic channels. logic waveforms are displayed with the same settings as before you executed auto setup. waveforms displayed before the execution of auto setup when you perform auto setup, the data in the acquisition memory is overwritten, and the waveforms that were displayed before you executed auto setup are cleared. undoing auto setup you can press the undo soft key to revert to the settings that were in effect before you executed auto setup. you cannot undo auto setup if you switch to a different setup menu or clear the setup menu using the esc key. free datasheet http://
4-12 im dl850-03en signals that auto setup can be applied to frequency: approx. 50 hz or higher absolute input voltage: signals whose maximum value is at least approx. 20 mv (at 1:1 setting) type: simple, repeating signals note the auto setup feature may not work properly for signals that include a dc component or high-frequency components. settings after the execution of auto setup waveform acquisition and display settings start/stop start acquisition mode normal acquisition count infinite record length 10 k time base int. real-time hd recording off dual capturing off accumulation off vertical axis settings v/div the value that causes the absolute values of the input waveform to be between 1.6 and 4.5 div offset voltage 0 v coupling dc bandwidth limit full display on/off channels whose absolute input voltage values reach or exceed 20 mv (1:1) are displayed (except for scan). the displays of modules that are not affected by auto setup do not change. div/scale div position 0.00 div v zoom 1 t/div the waveform with the shortest period out of the waveforms affected by auto setup is used to set t/div. t/div is set to the value at which 1.6 to 4 periods of the waveform can be displayed. trigger settings trigger mode auto trigger type simple trigger source the channel with the longest period out of the channels whose amplitude is 1 div or greater trigger level/slope the level between the maximum and minimum values/ rising hysteresis low hold-off 0.0 nsec trigger position 50% trigger delay 0.0 sec computation settings math off the values of settings not listed here do not change. 4.5 performing auto setup free datasheet http://
4-13 im dl850-03en common operations 1 2 3 4 5 6 app index 4.6 initializing settings you can reset the dl850/DL850V settings to their factory default values. this feature is useful when you want to cancel all of the settings that you have entered or when you want to redo measurement from scratch. setup menu press setup to display the following menu. initializes the settings undoes initialization settings that cannot be reset to their factory default values ? date and time settings ? communication settings ? language setting (english or japanese) undoing the reset operation if you reset the settings by mistake, you can press the undo soft key to revert to the previous settings. however, you cannot undo the reset operation if you switch to a different setup menu or clear the setup menu by pressing the esc key. to reset all settings to their factory default settings while holding down the reset key, turn the power switch on. all settings except the date and time settings (display on/off setting will be reset) and the setup data stored in internal memory will be reset to their factory default values. free datasheet http://
4-14 im dl850-03en 4.7 calibrating the dl850/DL850V cal menu press shift+setup (cal) to display the following menu. executes calibration turns auto calibration on and off calibration the following items are calibrated. execute calibration when you want to make accurate measurements. ? v ertical axis ground level and gain ? trigger threshold level ? measured time value for repetitive sampling note calibration is performed automatically when the power switch is turned on. notes about calibration ? allow the dl850/DL850V to warm up for at least 30 minutes before you execute calibration. if you execute calibration immediately after power-on, the calibrated values may drift due to temperature changes or other environmental changes. ? execute calibration in an environment with a stable temperatu re ranging from 5 to 40c (23 5c recommended). ? do not apply signals when calibrating. calibration may not be executed properly when input signals are being applied to the dl850/DL850V. auto calibration (auto cal) auto calibration is executed when you start signal acquisition if you have changed time/div and any of the time periods listed below has elapsed since the power was turned on. ? 3 minutes ? 10 minutes ? 30 minutes ? one hour and every hour thereafter if calibration is executed while signals are being applied to the dl850/DL850V, we recommend that you recalibrate the dl850/DL850V without any signals being applied to it. free datasheet http://
4-15 im dl850-03en common operations 1 2 3 4 5 6 app index 4.8 starting and stopping waveform acquisition starting and stopping waveform acquisition. press start/stop to start or stop waveform acquisition. the key is illuminated while the dl850/DL850V is acquiring waveforms. waveform acquisition and indicators ? when the start/stop key is illuminated, the dl850/DL850V is acquiring waveforms. running appears in the lower left of the screen. ? when the st art/stop key is not illuminated, waveform acquisition is stopped. stopped appears in the lower left of the screen. dl850/DL850V operation when the acquisition mode is set to averaging ? averaging stops when you stop waveform acquisition. ? if you restart waveform acquisition again, averaging starts from the beginning. start and stop operations during accumulation ? accumulation stops when you stop acquisition. ? if you restart waveform acquisition, past waveforms are cleared, and accumulation starts over. note you can use the snapshot feature to retain the displayed waveform on the screen. this feature allows you to retain a waveform on the screen while the dl850/DL850V continues signal acquisition. free datasheet http://
4-16 im dl850-03en 4.9 displaying help displaying help press the help key ( ? ) to display help. the table of contents and index appear in the left frame, and text appears in the right frame. switching between frames to switch to the frame that you want to control, use the left and right arrow keys. moving cursors and scrolling to scroll through the screen or to move the cursor in the table of contents or index, turn the jog shuttle. moving to the link destination to move to a description that relates to blue text or to move from the table of contents or index to the corresponding description, move the cursor to the appropriate blue text or item, and press set. displaying panel key descriptions with help displayed, press a panel key to display an explanation of it. returning to the previous screen to return to the previous screen, press reset. hiding help press the help key ( ? ) to clear help. free datasheet http://
5-1 im dl850-03en external signal i/o 1 2 3 4 5 6 app index 5.1 external trigger input (trigger in) caution only apply signals that meet the following specifications. signals that do not meet the specifications may damage the dl850/DL850V, because of factors such as excessive voltage. external trigger input terminal trigger in out this terminal is used when an external signal is used as the trigger source. item specifications connector type bnc input level ttl (0 to 5 v) minimum pulse width 100 ns logic rising and falling edges trigger delay time within 100 ns + 1 sample period externally synchronized operation possible (through the connection of the trig in and trig out terminals of two dl850/DL850Vs) circuit diagram and timing chart for external trigger input equivalent to lcx14 100 ? 4.7 k? 100 pf +5 v minimum pulse width trigger delay time trig in (when set to ) internal trigger note you can synchronize the operation of two dl850/DL850Vs by using the trigger output function. trig out no. 1 trig in no. 2 dl850/ DL850V dl850/ DL850V chapter 5 external signal i/o free datasheet http://
5-2 im dl850-03en 5.2 trigger output (trigger out) caution do not short the trig out terminal or apply external voltage to it. doing so may damage the instrument. external trigger output terminal trigger in out when a trigger occurs, the dl850/DL850V produces a cmos level signal. you can set the output mode to normal or pulse. the signal level is normally high. it becomes low when a trigger occurs. item specifications connector type bnc output level cmos level (0 to 5 v) output formats normal mode and pulse mode logic normal mode low when a trigger occurs and high after acquisition is completed pulse mode low when a trigger occurs and high after a specified period of time has passed. output delay normal mode within 100 ns + 1 sample period pulse mode within 100 ns + 1 sample period output hold time normal mode 100 ns or more pulse mode 1 ms, 50 ms, 100 ms, or 500 ms circuit diagram and timing chart for trigger output ext trig out 100 ? equivalent to hc245 trigger occurrence (the time at the trigger position) trigger output internal trigger output hold time output delay ? normal mode trigger occurrence (the time at the trigger position) trigger output internal trigger output hold time output delay ? pulse mode low level and high level hold times (in normal mode) h l trigger output post-trigger time trigger occurrence trigger occurrence pre post post pre waveform acquisition trigger trigger free datasheet http://
5-3 im dl850-03en external signal i/o 1 2 3 4 5 6 app index 5.3 external clock input (ext clk in) caution only apply signals that meet the following specifications. signals that do not meet the specifications may damage the dl850/DL850V, because of factors such as excessive voltage. external-clock input terminal ext clkin use this terminal to operate the dl850/DL850V using an external clock signal. item specifications connector type bnc input level ttl (0 to 5 v) detected edge rising minimum pulse width 50 ns or more for both high and low external clock frequency range up to 9.5 mhz circuit diagram for external clock input equivalent to lcx14 ext clk in 100 ? +5 v 4.7 k? 100 pf free datasheet http://
5-4 im dl850-03en 5.4 video signal output (video out (xga)) caution ? only connect the dl850/DL850V to a monitor after turning both the dl850/DL850V and the monitor off. ? do not short the video out terminal or apply external voltage to it. doing so may damage the dl850/DL850V. video signal output terminal video out ( xga ) you can use video signal output to display the dl850/DL850V screen on a monitor. any multisync monitor that supports xga can be connected. item specifications connector type d-sub 15-pin output format analog rgb output output resolution xga output, 1024 768 dots, approx. 60 hz vsync d-sub 15-pin receptacle 6 11 1 5 15 10 pin no. signal specifications 1 red 0.7 v p-p 2 green 0.7 v p-p 3 blue 0.7 v p-p 4 5 6 gnd 7 gnd 8 gnd 9 10 gnd 11 12 13 horizontal sync signal approx. 36.4 khz, ttl positive logic 14 vertical sync signal approx. 60 hz, ttl positive logic 15 connecting to a monitor 1. turn off the dl850/DL850V and the monitor. 2. connect the dl850/DL850V and the monitor using an rgb cable. 3. turn on the dl850/DL850V and the monitor. free datasheet http://
5-5 im dl850-03en external signal i/o 1 2 3 4 5 6 app index 5.5 go/no-go determination i/o and external start/stop input (ext i/o) connecting to other instruments caution ? do not apply external voltage to the no-go out and go out output pins. doing so may damage the instrument. ? when connecting the go/no-go determination signal output to another device, do not connect the wrong signal pin. doing so may damage the dl850/DL850V or the connected instrument. ? do not connect a usb cable to the go/no-go output terminal. doing so may damage the instrument. about the external i/o cable (720911; sold separately) ? do not use the cable for anything other than the dl850/DL850V external i/o. ? refer to the following figure to connect the cable to an external device. 1 6 approx. 1.5 m rj-11 connector to the dl850/DL850V process the wires at the end of the stripped cable as necessary. pin no. signal logic 1 ext event in negative logic wire color red 2 3 4 5 start in go out nogo out negative logic negative logic negative logic gnd yellow white green blue go/no-go determination i/o you can apply an external signal to the dl850/DL850Vs go/no-go i/o terminal and perform go/ no-go determination, and you can output the results of go/no-go determination from the go/no- go i/o terminal. go/no-go i/o connector type the connector uses an rj-11 modular jack. use the external i/o cable accessory (720911; sold separately). if you are using a commercially sold cable (four-conductor modular telephone cable), wire the pins according to the above figure. i/o level within 0 to 5 v, threshold level: ttl pinout 6 1 1 pin no. signal 2 3 4 5 6 ext event in start in go out nogo out in connector on the dl850 out out starts on low edge active low (go) active low (no-go) gnd nc (no connection) ext i/o manual event. event input occurs on low edge. in free datasheet http://
5-6 im dl850-03en input signal start in (negative logic) use this signal to perform go/no-go determination by synchronizing to an external input signal. the signal is only valid when on the go/no-go menu, remote is set to on. if remote is set to off, go/no-go determination is performed regardless of the external signal input (the go/ no- go determination result is output). see the next page for the timing chart. signal input circuit start in 5 v 120 ? equivalent to lcx14 4.7 k? 100 pf high low start output signal nogo out (negative logic) when the determination result is no-go (fail), the output signal level temporarily changes from high (h) to low (l). go out (negative logic) when the determination result is go, the output signal level temporarily changes from high (h) to low (l). signal output circuit go out no-go out 5 v 120 ? 4.7 k? 100 pf go/no-go i/o timing start in acquisition acquisition judgment result judgment result nogo out go out 100 ms or more 50 ms or more 0 ms or more the signal remains low until the dl850/DL850V is ready to accept the next measurement. the duration is longer during output to a built-in printer or internal storage medium. start in is not referenced when remote is set to off; go out and no-go out are output according to internal go/no-go determination. 5.5 go/no-go determination i/o and external start/stop input (ext i/o) free datasheet http://
5-7 im dl850-03en external signal i/o 1 2 3 4 5 6 app index external start/stop input (ext i/o) you can use an external signal to start and stop the dl850/DL850V. external start/stop input terminal the external start/stop input terminal and the go/no-go i/o terminal are the same terminal. this terminal is used as an external start/stop input when the go/no-go determination i/o function is not used (when on the go/no-go menu, mode is set to off). specifications the connector uses an rj-11 modular jack. connect the separately sold 720911 cable to the connector. 6 1 1 pin no. signal 2 3 4 5 6 ext event in start in nc (no connection) nc (no connection) connector on the dl850/DL850V starts on low edge, stops on high gnd nc (no connection) ext i/o manual event. event input occurs on low edge. input level: ttl (0 to 5 v) circuit diagram for external start/stop input +5 v 120 ? lcx14 4.7 k? 100 pf 2 (pin no.) high low start stop +5 v 120 ? lcx14 4.7 k? 100 pf 2 ? contact input is possible 5 close to start, open to stop note ? low and high edges are used to detect starts and stops. ? you can select whether to ignore high edges (stops) in the external start/stop signal. for information about how to do so, see section 18.8, configuring the environment settings, in the users manual. 5.5 go/no-go determination i/o and external start/stop input (ext i/o) free datasheet http://
5-8 im dl850-03en 5.6 irig signal input (irig option) caution only apply signals that meet the following specifications. signals that do not meet the specifications may damage the dl850/DL850V, because of factors such as excessive voltage. irig signal input terminal irig you can use an irig (inter range instrumentation group) signal to set the time on the dl850/DL850V. item specifications input connector bnc number of input connectors 1 supported irig signals a002, b002, a132, and b122 input impedance you can switch between 50 and 5 k. maximum input voltage 8 v used for synchronizing the dl850/DL850V time synchronizing the sample clock clock sync range 80 ppm post-sync accuracy no drift from the input signal free datasheet http://
6-1 im dl850-03en specifications 1 2 3 4 5 6 app index 6.1 signal input section item specifications type plug-in input unit number of slots 8 maximum number of input channels 16 channels per slot, 128 channels per unit (when a 16-ch voltage input module is installed in each slot) maximum record length the maximum length when all channels are being used depends on the number of channels in each module. the maximum values when the entire memory is used are listed below. standard 250 mpoint when 1 channel is being used. 10 mpoint per channel when 16 channels are being used. /m1 option 1 gpoint when 1 channel is being used. 50 mpoint per channel when 16 channels are being used. /m2 option 2 gpoint when 1 channel is being used. 100 mpoint per channel when 16 channels are being used. 6.2 triggering section item specifications trigger mode auto, auto level, normal, single, n single, or on start selectable trigger level range 0 10 div trigger hysteresis when measuring voltage: select from 0.1 div, 0.5 div, and 1 div. when measuring temperature: select from 0.5c, 1.0c, and 2.0c. when measuring strain: select from 2.5%, 12.5%, and 25%. when measuring acceleration: select from 0.1 div, 0.5 div, and 1 div. when measuring frequency: select from 0.01 div, 0.5 div, and 1 div. selectable trigger position range 0 to 100% (of the display record length; resolution: 0.1%) selectable trigger delay range 0 to 10 s (resolution: 10 ns) selectable hold-off time range 0 to 10 s (resolution: 10 ns) manual trigger key a dedicated manual trigger key can be used. simple trigger trigger source chn (select an input channel), ext, line, or time trigger slope rising, falling, or rising or falling time trigger date (year, month, and day), time (hour and minute), and time interval (10 seconds to 24 hours) enhanced trigger trigger source chn (select an input channel) trigger type a b(n): after the trigger a conditions are met, the dl850/DL850V triggers when the trigger b conditions are met n times. count: 1 to 10000 condition a: enter/exit condition b: enter/exit a delay b: after the specified amount of time elapses after the trigger a conditions are met, the dl850/DL850V triggers when the trigger b conditions are first met. time: 0 to 10 s (resolution: 10 ns) condition a: enter/exit condition b: enter/exit edge on a: while the trigger a conditions are met, the dl850/DL850V triggers on the or of multiple trigger source edges. condition a: true/false and: the dl850/DL850V triggers on the and of multiple state conditions. or: the dl850/DL850V triggers on the or of multiple trigger source edges or states (or window triggers) pulse width b>time: the dl850/DL850V triggers when the time from when the trigger b conditions are met to when they change from being met to not being met is greater than the specified time. time: 20 ns to 10 s (resolution: 10 ns) chapter 6 specifications free datasheet http://
6-2 im dl850-03en item specifications bDL850V triggers when the time from when the trigger b conditions are met to when they change from being met to not being met is less than the specified time. time: 20 ns to 10 s (resolution: 10 ns) b time out: the dl850/DL850V triggers when the trigger b conditions continue to be met for the specified period of time. time: 20 ns to 10 s (resolution: 10 ns) b between the dl850/DL850V triggers when the period during which the trigger b conditions continue to be met is within the specified time range. time t1: 10 ns to 9.99999999 s t2: 20 ns to 10 s (resolution: 10 ns) period: the dl850/DL850V triggers when the period meets one of the following conditions. t>time: the dl850/DL850V triggers when the period of the trigger t conditions is longer than the specified time. time: 20 ns to 10 s (resolution: 10 ns) tDL850V triggers when the period of the trigger t conditions is less than the specified time. time: 20 ns to 10 s (resolution: 10 ns) t1DL850V triggers when the period of the trigger t conditions is within the specified time range. time: t1: 20 ns to 10 s (resolution: 10 ns) t2: 30 ns to 10 s (resolution: 10 ns) tDL850V triggers when the period of the trigger t conditions is outside of the specified time range. time: t1: 20 ns to 10 s (resolution: 10 ns) t2: 30 ns to 10 s (resolution: 10 ns) window: the dl850/DL850V triggers when the trigger source enters or exits the range of two specified levels. the dl850/DL850V can trigger on the or of the window triggers of multiple channels. wave window: this trigger is for monitoring power supplies. the dl850/DL850V creates templates in real time by comparing 1, 2, or 4 cycles directly preceding the current waveforms using a tolerance value, compares the current waveforms to the real-time templates, and triggers if one of the current waveforms falls outside of its real-time template. ? the trigger a and b conditions can be set to high, low, or dont care for each channel. the and of the conditions (the parallel pattern) is used to determine the result. ? for or and and, the condition can be set to high, low, in, out, or dont care for each channel. 6.3 time axis item specifications selectable time scale range the display of minutes per div, hours per div, and days per div is also possible. 100 ns/div 1 to 1 s/div (in 1-2-5 steps), 2 s/div, 3 s/div, 4 s/div, 5 s/div, 6 s/div, 8 s/div, 10 s/div, 20 s/div, 30 s/div, 1 min/div to 10 min/div (in 1 min steps), 12 min/div, 15 min/div, 30 min/div, 1 h/div to 10 h/div (in 1 h steps), 12 h/div, 1 day/div, 2 days/div, 3 days/div time accuracy 2 0.005% external clock input connector type: bnc input level: ttl level detected edge: rising frequency range: up to 9.5 mhz minimum pulse width: 50 ns or more for both high and low 1 1 s/div when the high-speed 100 ms/s, 12-bit isolation module (720210) is not installed 2 under standard operating conditions after the warm-up time has passed 6.2 triggering section free datasheet http://
6-3 im dl850-03en specifications 1 2 3 4 5 6 app index 6.4 display item specifications display 10.4-inch tft lcd display screen size 210.4 mm 157.8 mm display resolution * 1024 768 (xga) resolution of the waveform display 801 656 (normal) or 1001 656 (wide) display format divisions: up to three screen divisions can be displayed at the same time. each division can contain one of the following windows: ty, zoom1, zoom2, xy1, xy2, fft1, or fft2. * the lcd may include a few defective pixels (within 5 ppm over the total number of pixels including rgb). the lcd may contain some pixels that are always illuminated or that never light. please be aware that these are not defects. 6.5 features waveform acquisition and display item specifications acquisition mode normal: normal waveform acquisition envelope: the peak values are held at the maximum sample rate regardless of the time/div setting. averaging: the number of times to average can be set to 2 to 65536 in 2 n steps. box average: increases the a/d resolution by up to 4 bits (16 bits max.). record length 1 kpoint, 2.5 kpoint, 5 kpoint, 10 kpoint, 25 kpoint, 50 kpoint, 100 kpoint, 250 kpoint, 500 kpoint, 1 mpoint, 2.5 mpoint, 5 mpoint, 10 mpoint, 25 mpoint, 50 mpoint, 100 mpoint, 250 mpoint, 500 mpoint(on models with the /m1 or /m2 option), 1000 mpoint(on models with the /m1 or /m2 option), 2000 mpoint(on models with the /m2 option) zoom the displayed waveform is expanded along the time axis (up to two locations can be zoomed at separate zoom factors). auto scrolling: the dl850/DL850V automatically scrolls to the zoom position. display format 1, 2, 3, 4, 6, 8, 12, 16 analog waveform windows maximum number of displayed traces 64 traces per display group. you can switch between four display groups. display interpolation sampled points can be displayed through the use of dots (off), sine interpolation, linear interpolation, or pulse interpolation. graticule three graticule types to choose from auxiliary display on/off scale values, waveform labels, the extra window, the level indicator, and the numeric display can be turned on and off. x-y display the x and y axes can be selected from chn and mathn (max. four traces two windows). accumulation persistence mode snapshot the currently displayed waveforms can be retained on the screen. snapshot waveforms can be saved and loaded. clear trace the displayed waveform is cleared. dual capturing the data of a single waveform can be acquired at two different sample rates. main waveform maximum sample rate: 100 ks/s (roll mode area) captured waveform maximum sample rate: 100 ms/s * record length: 5 kpoint, 10 kpoint, 25 kpoint, 50 kpoint, 100 kpoint, 250 kpoint, 500 kpoint hard disk recording (when the /hd0 or /hd1 option is installed) maximum sample rate: depends on the number of channels being used. 1 ms/s when 1 channel is being used. 100 ks/s when 16 channels are being used. capacity: depends on the amount of free space on the hdd operation overview: when waveform acquisition occurs according to the specified trigger mode, the dl850/DL850V stores the data to an internal hard disk or an external hard disk that supports esata. * 10 ms/s when the high-speed 100 ms/s, 12-bit isolation module (720210) is not installed free datasheet http://
6-4 im dl850-03en vertical and horizontal control item specifications channel on/off chn and mathn can be turned on and off separately. all ch menu you configure the settings of all channels while displaying waveforms. you can use a usb keyboard or mouse. vertical axis zooming 0.1 to 100 (varies depending on the module) you set the scale using upper and lower limits or switch between different scales. vertical position setting waveforms can be moved in the range of 5 div from the center of the waveform display frame. linear scaling the linear scaling mode can be set separately for each channel (only for voltage, stress, and frequency). it can be set to ax+b or p1-p2. roll mode roll mode is enabled automatically when the trigger mode is set to auto, auto level, single, or on start, and the time axis setting is greater than or equal to 100 ms/div. analysis item specifications zooming and searching you can search for and then expand and display a portion of the displayed waveform. you can choose from the following search methods. edge: the dl850/DL850V counts the number of rising or falling edges logic pattern the dl850/DL850V counts the number of times a logic pattern is detected. event the dl850/DL850V searches for an event number. time the dl850/DL850V searches for a date and time. history search feature you can search through history waveforms for specified conditions. zone search: the dl850/DL850V displays waveforms that pass through or do not pass through a specified area on the screen. parameter search: the dl850/DL850V displays a waveform when the results of the automated measurement of its parameters meet the specified conditions. cursor measurement horizontal, vertical, h&v, degree (only during t-y waveform display) and marker automated measurement of waveform parameters automated measurement of waveform parameters up to 24 items can be displayed. p-p, amp, max, min, high, low, avg, mid, rms, sdev, +ovrshoot, -ovrshoot, rise, fall, freq, period, +width, -width, duty, pulse, burst1, burst2, avgfreq, avgperiod, int1ty, int2ty, int1xy, int2xy, delay(between channels) statistical processing applicable items: automated measurement values of waveform parameters statistical items: max, min, avg, sdv, and cnt maximum number of cycles: 64000 cycles (when the number of parameters is 1) maximum total number of parameters: 64000 maximum measurement range: 100 mpoint normal statistical processing statistical processing is performed while waveforms are acquired. cyclic statistical processing the dl850/DL850V automatically measures the waveform parameters of the data in the acquisition memory and performs statistical processing on the parameters once per period. statistical processing of the history data the dl850/DL850V automatically measures the waveform parameters of each history waveform and performs statistical processing on the parameters. computation operators: +, ?, , , binary computation, phase shift, and power spectrum user-defined computation (/ g2 option) expressions can be created through the combination of the following operators and constants. abs, sqrt, log, exp, neg, sin, cos, tan, atan, ph, dif, ddif, intg, iintg, bin, p2, p3, f1, f2, fv, pwhh, pwhl, pwlh, pwll, pwxx, dutyh, dutyl, filt1, filt2, hlbt, mean, ls-, ps-, psd-, cs-, tf-, ch-, mag, logmag, phase, real, imag phase shifting you can monitor the waveform of a specified channel with its phase shifted go/no-go determination the following two types of go/no-go determination are available: ? determination using zones on the screen ? determination using the automated measurement values of waveform parameters. the following operations can be performed at the time of determination: output of screen capture data, saving of waveform data (to binary, ascii, or floating-point), sounding of a notification buzzer, transfer of e-mail 6.5 features free datasheet http://
6-5 im dl850-03en specifications 1 2 3 4 5 6 app index screen capture data output item specifications built-in printer (/b5 option) a hard copy of the screen can be output. external printer prints screen captures on an external printer connected over an ethernet. file format png, jpeg, or bmp data storage item specifications history memory automatically holds up to 5000 pages of waveforms (depending on the record length) internal hdd and external storage media waveform data, setup data, automated measurement values, and the results of statistical processing can be saved. other features item specifications initialization resets settings to the factory default (excluding the date and time setting, communication interface settings, language setting, and time difference from gmt setting). the reset can be undone. auto setup automatically sets the voltage axis, time axis, trigger, etc. the automatic settings can be undone. action-on-trigger outputs screen capture data, saves waveform data (to binary, ascii, or floating-point), sounds a notification buzzer, transfers an e-mail, or performs some combination of the previous actions whenever a trigger occurs e-mail transmission sends e-mail using smtp calibration auto or manual system settings screen color, date and time, message language, menu language, click sound on/off, and grid thickness overview the system specifications can be displayed. self tests memory test, key test, printer test, and storage test help feature displays a description of the settings protect key you can lock the keys to prevent unintentional operations. num key you can enter numbers directly. japanese string input compact-vje ver.3.0 6.5 features free datasheet http://
6-6 im dl850-03en 6.6 fft item specifications waveform to be computed chn or mathn number of channels 1 (on models without the /g2 option), 2(on models with the /g2 option) computation range from the specified computation start point until the specified number of points have been computed computed points 1 k, 2 k, 5 k, 10 k, 20 k, 50 k, or 100 k time windows rect, hanning, hamming, flattop, and exponential (on models with the /g2 option) when the exponential time window is selected, the following settings must be configured. damping rate: the weight of the last data point, with the weight of the first data point in the specified number of fft points taken to be 100% (= 1). selectable range: 1 to 100% resolution: 1% force1: set the area over which computation is performed in terms of a percentage from the first fft point, taking the number of fft points to be 100%. selectable range: 1 to 100% resolution: 1% force2: this setting applies to the output (response) signal (second parameter) of a two-waveform fft. selectable range: 1 to 100% resolution: 1% display window the fft computation results are displayed in a separate window independent from the normal waveform display. display range: set the display range by setting center and sensitivity. 6.7 built-in printer item specifications print system thermal line dot system sheet width 112 mm effective print width 104 mm (832 dots) dot density 8 dot/mm feeding direction resolution 8 dot/mm used for producing a hard copy of the screen free datasheet http://
6-7 im dl850-03en specifications 1 2 3 4 5 6 app index 6.8 storage sd memory card item specifications number of slots 1 maximum capacity 16 gb supported cards sd and sdhc compliant memory cards internal hdd (/hd1 option) item specifications number of drives 1 size 2.5 in. hdd capacity used 160 gb, fat32 usb ports for peripherals item specifications compatible usb storage devices mass storage devices that are compliant with usb mass storage class ver. 1.1 external hdd interface (/hd0 option) item specifications connection interface esata number of drives 1 usable hdd capacity 1.5 tb, fat32 6.9 usb for peripherals item specifications connector type usb type a (receptacle) electrical and mechanical specifications usb rev. 2.0 compliant supported transfer mode hs (high speed; 480 mbps), fs (full speed; 12 mbps), ls (low speed; 1.5 mbps) compatible devices mass storage devices that are compliant with usb mass storage class ver. 1.1 104 or 109 keyboards that are compliant with usb hid class version 1.1 mouse devices that are compliant with usb hid class version 1.1 number of ports 2 power supply 5 v, 500 ma (for each port) free datasheet http://
6-8 im dl850-03en 6.10 auxiliary i/o section external trigger input (trigger in) item specifications connector type bnc input level ttl minimum pulse width 100 ns detected edge rising or falling trigger delay time within 100 ns + 1 sample trigger output (trigger out) item specifications connector type bnc output level 5 v cmos logic low when a trigger occurs and high after acquisition is completed output delay within 100 ns + 1 sample output hold time 100 ns or more external clock input (ext clk in) item specifications connector type bnc input level ttl minimum pulse width 50 ns detected edge rising sampling jitter within 100 ns + 1 sample video signal output (video out) item specifications connector type d-sub 15 pin receptacle output format analog rgb output resolution xga-compliant output, 1024 768 dots approx. 60 hz vsync (dot clock frequency: 66 mhz) go/no-go determination i/o item specifications connector type rj-11 modular jack input level ttl or contact output level 5 v cmos external start/stop input item specifications connector type rj-11 modular jack input level ttl or contact free datasheet http://
6-9 im dl850-03en specifications 1 2 3 4 5 6 app index comp output (probe-compensation-signal output terminal) item specifications output signal frequency 1 khz 1% output amplitude 1 vp-p 10% probe power output (/p4 option) item specifications number of output terminals 4 output voltage 12 v output current up to 1 a time sync signal input (irig; /c20 option) item specifications input connector bnc number of input connectors 1 supported irig signals a002, b002, a132, and b122 input impedance you can switch between 50 and 5 k. maximum input voltage 8 v used for synchronizing the dl850/DL850V time synchronizing the sample clock clock sync range 80 ppm post-sync accuracy no drift from the input signal 6.11 computer interface usb-pc connection item specifications connector type usb type b receptacle electrical and mechanical specifications usb rev. 2.0 compliant supported transfer mode hs (high speed; 480 mbps) and fs (full speed; 12 mbps) number of ports 1 supported protocols usbtmc-usb488 (usb test and measurement class ver. 1.0) pc system requirements a pc with a usb port, running the english or japanese version of windows 7 (32 bit), windows vista (32 bit), or windows xp (32 bit, sp2 or later) ethernet item specifications connector type rj-45 modular jack ports 1 electrical and mechanical specifications ieee802.3 transmission system ethernet (1000base-t, 100base-tx, 10base-t) communication protocol tcp/ip supported services dhcp, dns, sntp client, smtp client, ftp server and client, lpr, web server, and vxi11 6.10 auxiliary i/o section free datasheet http://
6-10 im dl850-03en gp-ib (/c1 or /c20 option) item specifications connector type 24-pin connector electrical specifications complies with ieee std 488-1978 (jis c 1901-1987) functional specifications sh1, ah1, t6, l4, sr1, rl1, pp0, dc1, dt0, and c0 protocol ieee std 488.2-1992 code iso (ascii) mode addressable mode address talker and listener addresses can be specified from 0 to 30. remote mode release remote mode can be cleared with the shift+clear trace key (except during local lockout). 6.11 computer interface free datasheet http://
6-11 im dl850-03en specifications 1 2 3 4 5 6 app index 6.12 general specifications item specifications standard operating conditions ambient temperature: 23 5c ambient humidity: 20 to 80% rh supply voltage and frequency errors: within 1% of rating after the dl850/DL850V has been warmed up for 30 minutes and then calibration has been performed recommended calibration period 1 year warm-up time at least 30 minutes storage environment temperature: ?20 to 60c humidity: 20 to 85% rh (no condensation) altitude: 3000 m or less operating environment temperature: 5 to 40c humidity: 20 to 85% rh (when the printer is not being used) 35 to 85% rh (when the printer is used) in both cases, no condensation altitude: 2000 m or less rated supply voltage 100 to 120 vac, 220 to 240 vac (auto switching) permitted supply voltage range 90 to 132 vac, 198 to 264 vac rated supply frequency 50/60 hz permitted supply voltage frequency range 48 to 63 hz power fuse built in (not replaceable) maximum power consumption 200 va withstand voltage 1500 vac for one minute between the power supply and case insulation resistance 10 m or more for 500 vdc between the power supply and case external dimensions approx. 355 mm (w) 259 mm (h) 180 mm (d), not including the handle and protrusions weight approx. 6.5 kg (weight of the dl850/DL850V only without paper and with the /m2, /hd1, /c1, and /p4 options installed) instrument cooling method forced air cooling. exhaust on the left side and top panel. battery backup the settings and clock are backed up with an internal lithium battery. backup battery life approx. five years (at an ambient temperature of 25c) safety standard compliant standards en61010-1, en61010-031, en 60825-1 ? overvoltage category (installation category) ii 1 ? measurement category ii 2 ? pollution degree 2 3 approved (dl850/DL850V, 701250, 701251, 701255, 701260, 701261, 701262, 701265, 701270, 701271, 701275, 701280, 720210, 720220, 720230, 720240, 700986, 700987, 701955, 701956, 701957, 701958, 702911, 702912) ? bridgehead for the strain module use the 701955 or 701956 with the 701270, and use the 701957 or 701958 with the 701271. free datasheet http://
6-12 im dl850-03en item specifications emissions compliant standards en61326-1 classa, en61326-2-1, c-tick en55011 classa, group1 approved (dl850/DL850V, 701250, 701251, 701255, 701260, 701261, 701262, 701265, 701270, 701271, 701275, 701280, 720210, 720220, 720230, 720240, 700986, 700987, 701955, 701956, 701957, 701958, 702911, 702912) this product is a class a (for industrial environments) product. operation of this product in a residential area may cause radio interference in which case the user is required to correct the interference. test items 1. power supply terminal noise 2. radiation emission 3. power supply harmonic regulation 4. power supply voltage fluctuation and flicker cable conditions (dl850/DL850V) current probe when connecting a current probe to the input terminal and probe power terminal of a module, attach a single ferrite core 4 to both cables on the side of the cables closest to the dl850/ DL850V. gp-ib cable use a shielded cable that is 3 m or less in length. usb cable use a shielded cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. ethernet cable use a shielded cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. external clock input, external trigger input, external trigger output use a shielded cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. irig cable use a shielded cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. external hdd cable use a shielded cable that is 3 m or less in length. video signal output cable use a shielded cable that is 3 m or less in length, and attach a ferrite core 5 to the side of the cable closest to the dl850/DL850V. external i/o cable use a shielded cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. probe power cable use the dedicated cable, and wrap it once around a ferrite core 4 on the side of the cable closest to the dl850/DL850V. example of wrapping the cable around once cable conditions (input module) isolated probe 700929 (for the 701250, 701251, 701255, 701260, 701275, and 720210) wrap the cable once around a ferrite core 4 on the side of the cable closest to the dl850/ DL850V. twisted pair cable for the 701261, 701262, and 701265 use a cable that is 3 m or less in length, and wrap the cable once around a ferrite core 4 on the side of the cable closest to the dl850/DL850V. twisted pair cable for the 720220 use a cable that is 3 m or less in length, and wrap the cable once around a ferrite core 6 on the side of the cable closest to the dl850/DL850V. d-sub 9-pin shielded cable (for the 720240) use a cable that is 3 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. 6.12 general specifications free datasheet http://
6-13 im dl850-03en specifications 1 2 3 4 5 6 app index item specifications bridgeheads 701955 and 701956 (for the 701270) use a cable that is 5 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. bridgeheads 701957 and 701958 (for the 701271) use a cable that is 5 m or less in length, and attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. logic probe input cables 700986, 700987, 702911, and 702912 (for the 720230) attach a ferrite core 4 to the side of the cable closest to the dl850/DL850V. immunity compliant standards en61326-1 table 2 (for industrial locations), en61326-2-1 approved (dl850/DL850V, 701250, 701251, 701255, 701260, 701261, 701262, 701265, 701270, 701271, 701275, 701280, 720210, 720220, 720230, 720240, 700986, 700987, 701955, 701956, 701957, 701958, 702911, 702912) influence in the immunity environment (criteria a) noise increase 701250: ?20 mv (1:1 input, 5 mv/div conversion) 701251: ?3 mv (1:1 input, 1 mv/div conversion) 701255: ?25 mv (1:1 input, 5 mv/div conversion) 701260: ?30 mv (1:1 input, 20 mv/div conversion) 701261: ?3 mv (5 mv/div range conversion) 701262: ?3 mv (5 mv/div range conversion) 701265: ?0.05 mv (0.1 mv/div) 701270: ?100 str (500 v range, gauge factor = 2) 701271: ?100 str (500 v range, gauge factor = 2) 701275: ?6 mv (1:1 input, 5 mv/div range conversion) 701280: ?0.01 hz (frequency, 0.1 hz/div conversion) 720210: ?50 mv (1:1 input, 10 mv/div range conversion) 720220: ?20 mv (0.2 v/div range conversion) 720230: no bit errors 720240 no erros test conditions 701250: 10 ms/s, envelope mode, 50 mv/div, no input filter, with the tip of the probe (700929 (10:1)) shorted 701251: 1 ms/s, envelope mode, 10 mv/div, no input filter, with the tip of the probe (700929 (10:1)) shorted 701255: 10 ms/s, envelope mode, 50 mv/div, no input filter, with the tip of the probe (701940 (10:1)) shorted 701260: 100 ks/s, envelope mode, 0.2 v/div, no input filter, with the tip of the probe (700929 (10:1)) shorted 701261: 100 ks/s, envelope mode, 5 mv/div, no input filter, with the end of the cable shorted 701262: 100 ks/s, envelope mode, 5 mv/div, no input filter, with the end of the cable shorted 701265: 500 s/s, envelope mode, 0.1 mv/div, no input filter, with the end of the cable shorted 701270: 100 ks/s, envelope mode, 500 str, gauge factor: 2.0, no input filter 701955 bridge voltage: 2 v 701956 bridge voltage: 10 v 701271: 100 ks/s, envelope mode, 500 str, gauge factor: 2.0, no input filter 701957 bridge voltage: 2 v 701958 bridge voltage: 10 v 701275: 100 ks/s, envelope mode, 50 mv/div, no input filter, with the tip of the probe (700929 (10:1)) shorted 701280: 25 ks/s, envelope mode, frequency, no input filter, with the tip of the probe shorted 720210: 100 m/s, envelope mode, 0.1 v/div, no input filter, with the tip of the probe (700929 (10:1)) shorted 720220: 12.5 ks/s, envelope mode, 0.2 v/div, no input filter, with the end of the cable shorted 720230: logic probes 700986, 700987, 702911, and 702912, with the tips of the logic probes shorted 720240 bit rate: 1 msps, one shot operation 6.12 general specifications free datasheet http://
6-14 im dl850-03en item specifications test items 1. electrostatic discharge air discharge: 8 kv. contact discharge: 4 kv. criteria b. 2. radiated immunity 80 m to 1 ghz, 10 v/m, 1.4 g to 2 ghz, 3 v/m, 2 ghz to 4.0 ghz, 3 v/m, criteria a 3. conducted immunity 3 v, criteria a 4. fast transient/burst power line: 2 kv. signal line: 1 kv, criteria b 5. power frequency magnetic field omitted, because the device does not exert considerable influence on the magnetic field 6. surge immunity 1 kv between lines, 2 kv common, criteria b 7. voltage dip and interruption 1 cycle, 100%, criteria b other tests, criteria c definitions of criteria criteria a: during testing, influence in the immunity environment described above is met. criteria b: the instrument continues to function and is controllable throughout testing. the instrument does not change operation modes, and data changes do not persist. criteria c: temporary losses of functionality (such as measurement stopping, etc.) are recovered from through the intervention of the operator. 1 the overvoltage category (installation category) is a value used to define the transient overvoltage condition and includes the rated impulse withstand voltage. category i applies to electric equipment whose power is supplied from a circuit that incorporates withstand voltage control. category ii applies to electrical equipment that is powered through a fixed installation, such as a switchboard. 2 measurement category ii (cat ii) applies to electrical equipment that is powered through a fixed installation, such as a wall outlet wired to a distribution board, and to measurement performed on such wiring. 3 pollution degree applies to the degree of adhesion of a solid, liquid, or gas which deteriorates withstand voltage or surface resistivity. pollution degree 2 applies to normal indoor atmospheres (with only non-conductive pollution). 4 tdk: zca t2035-0930a, yokogawa part number: a1190mn 5 tdk: zcat3035-1330, yokogawa part number: a1179mn 6 tdk: zcat1325-0530a, yokogawa part number: a1181mn 6.12 general specifications free datasheet http://
6-15 im dl850-03en specifications 1 2 3 4 5 6 app index 6.13 module specifications high-speed 10 ms/s, 12-bit isolation module (701250) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (10 div around 0 v, display range: 10 div, when variable is off) number of input channels 2 input coupling ac, dc, and gnd maximum sample rate 10 ms/s input format isolated unbalanced frequency characteristics 1 (?3 db point when sine wave of amplitude 3 div is applied) dc to 3 mhz voltage-axis sensitivity setting 5 mv/div to 20 v/div (1-2-5 steps) (when using 1:1 probe attenuation) maximum input voltage (at a frequency of 1 khz or less) combined with the 700929(10:1) or 701947(100:1): 2 600 v (dc+acpeak) combined with the 701901+701954 (1:1): 4 250 v (dc+acpeak) direct input or cable not complying with the safety standard: 6 250 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) working voltage of safety standard combined with the 700929 (10:1) or 701947 (100:1) 3 or combined with the 701901+701954 (1:1): 5 direct input or cable not complying with the safety standard: 7 400 vrms (cat i) 300 vrms (cat ii) 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) vertical (voltage) axis accuracy dc accuracy 1 5 mv/div to 20 v/div: (0.5% of 10 div) input connector bnc connector (isolated type) input impedance 1 m? 1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 10 hz or less (1 hz or less when using the 700929, 0.1 hz or less when using the 701947) common mode rejection ratio 80 db (50/60 hz) or more (typical 8 ) residual noise level (input section shorted) 400 v or 0.06 div whichever is greater (typical 8 ) withstand voltage 1500 vrms for 1 minute (across each terminal and earth) (60 hz) allowable transient surge voltage (instantaneous) 2100 vpeak (across each input terminal and earth) insulation resistance 500 vdc, 10 m? or more (across each input terminal and earth) a/d conversion resolution 12 bit (150 lsb/div) temperature coefficient zero point: 5 mv/div to 20 v/div: (0.05% of 10 div)/c(typical 8 ) gain: (0.02% of 10 div)/c(typical 8 ) bandwidth limit select from off, 500 khz, 50 khz, 5 khz, and 500 hz cut-off characteristics: ?18 db/oct (typical 8 ) probe attenuation setting voltage probe: 1:1, 10:1, 100:1, 1000:1 current probe: 10 a:1 v (for the 700937/701933), 100 a: 1 v (for the 701930/701931) compatible probes/cables voltage probe: recommended 700929 (10:1 safety probe).20 to 45 pf: for measuring 600 vpeak or less 701947 (100:1 probe).15 to 45 pf: for measuring 600 vpeak or less current probe (power can be supplied from the dl850/DL850V. option) 700937 (15 a), 701930 (150 a), 701931 (500 a), 701933 (30 a) high voltage differential probe (connect the gnd cable provided with the probe to the dl850/ DL850V case) 700924 (1000:1, 100:1/1400 vpeak): for measuring 1400 vpeak or less connection cable (for high voltage 1:1) 701901 (isolated type bnc-safety alligator clip adapter 2: for measuring 250 vpeak or less), 701954 (alligator clip (dolphin type) red/black 2-piece set) is required separately connection cable (for low voltage 1:1) 366926 (non-isolated type bnc-alligator clip 2: for measuring low voltage less than or equal to 42 vpeak) 1. v alue measured under standard operating conditions. free datasheet http://
6-16 im dl850-03en h l combined with the 700929 or 701947 2. 3. 700929 701947 h l 701901 701954 4. combined with the 701901+701954 h l direct input (cable not complying with the safety standard) 6. 7. bnc 5. withstand voltage: 1500 vrms for 1 minute allowable transient surge voltage: 2100 vpeak (between earth and input) 8. the typical value is a representative or standard value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage, withstand voltage, or allowable surge voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? a void continuous connection under an environment in which the surge voltage may occur. ? to prevent the possibility of electric shock, be sure to connect the gnd lead of the differential probe (700924/700925) to the dl850/DL850V. 6.13 module specifications free datasheet http://
6-17 im dl850-03en specifications 1 2 3 4 5 6 app index high-speed high-resolution 1 ms/s, 16-bit isolation module (701251) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (10 div around 0 v, display range: 10 div, when variable is off) number of input channels 2 input coupling ac, dc, and gnd maximum sample rate 1 ms/s input format isolated unbalanced frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) 5 mv/div to 20 v/div: 2 mv/div and 1mv/div: dc to 300 khz dc to 200 khz voltage-axis sensitivity setting 1 mv/div to 20 v/div (1-2-5 steps) (when using 1:1 probe attenuation) maximum input voltage (at a frequency of 1 khz or less) combined with the 700929(10:1) or 701947(100:1): 2 combined with the 701901+701954 (1:1): 4 direct input or cable not complying with the safety standard: 6 600 v (dc+acpeak) 140 v (dc+acpeak) 140 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) working voltage of safety standard combined with the 700929 (10:1) or 701947 (100:1) 3 or combined with the 701901+701954 (1:1): 5 direct input or cable not complying with the safety standard: 7 400 vrms (cat i), 300 vrms (cat ii) 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) vertical (voltage) axis accuracy dc accuracy 1 5 mv/div to 20 v/div: 2 mv/div: 1 mv/div: (0.25% of 10 div) (0.3% of 10 div) (0.5% of 10 div) input connector bnc connector (isolated type) input impedance 1 m? 1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 1 hz or less (0.1 hz or less when using the 700929, 0.01 hz or less when using the 701947) common mode rejection ratio 80 db (50/60 hz) or more (typical 8 ) residual noise level (input section shorted) 100 v or 0.01 div whichever is greater (typical 8 ) withstand voltage 1500 vrms for 1 minute (across each terminal and earth) (60 hz) allowable transient surge voltage (instantaneous) 2100 vpeak (across each input terminal and earth) insulation resistance 500 vdc, 10 m? or more (across each input terminal and earth) a/d conversion resolution 16 bit (2400 lsb/div) temperature coefficient zero point: gain: 5 mv/div to 20 v/div: 2 mv/div: 1 mv/div: 1 mv/div to 20 v/div: (0.02% of 10 div)/c(typical 8 ) (0.05% of 10 div)/c(typical 8 ) (0.10% of 10 div)/c(typical 8 ) (0.02% of 10 div)/c(typical 8 ) bandwidth limit select from off, 40 khz, 4 khz, and 400 hz cut-off characteristics: ?12 db/oct (typical 8 ) probe attenuation setting voltage probe: 1:1, 10:1, 100:1, 1000:1 current probe: 10 a:1 v (for the 700937/701933), 100 a: 1 v (for the 701930/701931) compatible probes/cables voltage probe: recommended 700929 (10:1 safety probe).20 to 45 pf: for measuring 600 vpeak or less 701947 (100:1 probe).15 to 45 pf: for measuring 600 vpeak or less current probe (power can be supplied from the dl850/DL850V. option) 700937 (15 a), 701930 (150 a), 701931 (500 a), 701933 (30 a) high voltage differential probe (connect the gnd cable provided with the probe to the dl850/ DL850V case) 700924 (1000:1, 100:1/1400 vpeak): for measuring 1400 vpeak or less connection cable (for high voltage 1:1) 701901 (isolated type bnc-safety alligator clip adapter 2: for measuring 250 vpeak or less), 701954 (alligator clip (dolphin type) red/black 2-piece set) is required separately connection cable (for low voltage 1:1) 366926 (non-isolated type bnc-alligator clip 2: for measuring low voltage less than or equal to 42 vpeak) 1. v alue measured under standard operating conditions. 6.13 module specifications free datasheet http://
6-18 im dl850-03en h l combined with the 700929 or 701947 2. 3. 700929 701947 h l 701901 701954 4. combined with the 701901+701954 h l direct input (cable not complying with the safety standard) 6. 7. bnc 5. withstand voltage: 1500 vrms for 1 minute allowable transient surge voltage: 2100 vpeak (between earth and input) 8. the typical value is a representative or standard value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage, withstand voltage, or allowable surge voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? a void continuous connection under an environment in which the surge voltage may occur. ? to prevent the possibility of electric shock, be sure to connect the gnd lead of the differential probe (700924/700925) to the dl850/DL850V. 6.13 module specifications free datasheet http://
6-19 im dl850-03en specifications 1 2 3 4 5 6 app index high-speed 10 ms/s, 12-bit non-isolation module (701255) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (10 div around 0 v, display range: 10 div, when variable is off) number of input channels 2 input coupling ac, dc, and gnd maximum sample rate 10 ms/s input format non-isolated, unbalanced frequency characteristics 1 (?3 db point when sine wave of amplitude 3 div is applied) dc to 3 mhz voltage-axis sensitivity setting 5 mv/div to 20 v/div (1-2-5 steps) (when using 1:1 probe attenuation) maximum input voltage (at a frequency of 1 khz or less) combined with the 701940(10:1) 2 direct input(1:1) 3 600 v (dc+acpeak) 250 v (dc+acpeak) vertical (voltage) axis accuracy dc accuracy 1 5 mv/div to 20 v/div: (0.5% of 10 div) input connector bnc connector (metallic type) input impedance 1 m? 1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 10 hz or less (1 hz or less when using the 701940) residual noise level (input section shorted) 400 v or 0.06 div whichever is greater (typical 4 ) a/d conversion resolution 12 bit (150 lsb/div) temperature coefficient zero point: gain: 5 mv/div to 20 v/div: (0.05% of 10 div)/c(typical 4 ) (0.02% of 10 div)/c(typical 4 ) bandwidth limit select from off, 500 khz, 50 khz, 5 khz, and 5400 hz cut-off characteristics: ?18 db/oct (typical 4 ) probe attenuation setting voltage probe: 1:1, 10:1, 100:1, 1000:1 current probe: 10 a:1 v (for the 700937/701933), 100 a: 1 v (for the 701930/701931) compatible probes/cables voltage probe (10:1 passive probe): recommended 701940, 17 to 46 pf: for measuring 600 vpeak or less current probe (power can be supplied from the dl850/DL850V. option) 700937 (15 a), 701930 (150 a), 701931 (500 a), 701933 (30 a) high voltage differential probe (connect the gnd cable provided with the probe to the dl850/ DL850V case) 700924 (1000:1, 100:1/1400 vpeak): for measuring 1400 vpeak or less connection cable (for low voltage 1:1) 366926 (non-isolated type bnc-alligator clip 2: for measuring low voltage less than or equal to 42 vpeak) 1. v alue measured under standard operating conditions. h l 2. recommended: combined with the 10:1 passive probe (701940) h l 701255 input terminal earth 3. direct input (when a cable that does not comply with the safety standard is connected) gnd is connected to the case potential. gnd is connected to the case potential. gnd gnd 4. the typical value is a representative or standard value. it is not strictly warranted. 6.13 module specifications free datasheet http://
6-20 im dl850-03en warning ? do not apply input voltage exceeding the maximum input voltage, withstand voltage, or allowable surge voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. ? the module screws must be fastened for the module to function as a nonisolation module. in addition, all electrical and mechanical protection functions are activated only when the screws are fastened. ? the maximum input voltage of the module is valid only when a ll the screws are fastened, and the protection path of the metal bnc is secured. 6.13 module specifications free datasheet http://
6-21 im dl850-03en specifications 1 2 3 4 5 6 app index high-voltage 100 ks/s, 16-bit isolation module (with rms) (701260) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (10 div around 0 v, display range: 10 div, when variable is off) number of input channels 2 input coupling ac, dc, gnd, ac-rms, and dc-rms maximum sample rate 100 ks/s input format isolated unbalanced frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) waveform observation mode: rms observation mode: dc to 40 khz dc, 40 hz to 10 khz voltage-axis sensitivity setting 20 mv/div to 200 v/div (1-2-5 steps) (when using 1:1 probe attenuation) maximum input voltage (at a frequency of 1 khz or less) combined with the 700929(10:1) or 701947 (100:1): 2 combined with the 701901+701954 (1:1): 5 direct input or cable not complying with the safety standard: 8 1000 v (dc+acpeak) 850 v (dc+acpeak) 850 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) working voltage of safety standard combined with the 700929 or 701947 (across probe tip h and earth 3 ): (across probe tip l and earth 4 ): combined with the 701901+701954 (1:1) (across tip h and earth 6 ): (across tip l and earth 7 ): 1000 vrms (cat ii) 400 vrms (cat ii) 700 vrms (cat ii) 400 vrms (cat ii) direct input or cable not complying with the safety standard: 9 (across the input terminal, h or l, and earth) 30 vrms (42 vdc+acpeak) vertical (voltage) axis accuracy dc accuracy 1 waveform observation mode dc accuracy rms observation mode dc accuracy ac accuracy (when a sine wave is input) ac accuracy (when the crest factor is 2 or less) ac accuracy (when the crest factor is 3 or less) (0.25% of 10 div) (1.0% of 10 div) (1.5% of 10 div) (2.0% of 10 div) (3.0% of 10 div) at frequency of 40 hz to 1 kh at frequency of 40 hz to 1 kh at frequency of 40 hz to 1 kh input connector bnc connector (isolated type) input impedance 1 m? 1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 1 hz or less (0.1 hz or less when using the 700929, 0.01 hz or less when using the 701947) common mode rejection ratio 80 db (50/60 hz) or more (typical 10 ) residual noise level (input section shorted) 1 mv or 0.02 div whichever is greater (typical 10 ) withstand voltage 3700 vrms for 1 minute (across each terminal and earth) (60 hz) allowable transient surge voltage (instantaneous) 5200 vpeak (across each input terminal and earth) insulation resistance 500 vdc, 10 m? or more (across each input terminal and earth) a/d conversion resolution 16 bit (2400 lsb/div) temperature coefficient zero point: gain: (0.02% of 10 div)/c(typical 10 ) (0.02% of 10 div)/c(typical 10 ) response time (only when observing rms) rising (0 to 90% of 10 div): falling (100 to 10% of 10 div): 100 ms (typical 10 ) 250 ms (typical 10 ) bandwidth limit select from off, 10 khz,1 khz, and 100 hz cut-off characteristics: ?12 db/oct (typical 10 ) probe attenuation setting voltage probe: current probe: 1:1, 10:1, 100:1, 1000:1 10 a:1 v (for the 700937/701933), 100 a: 1 v (for the 701930/701931) compatible probes/ cables connection cable (for high voltage 1:1): recommended 1 701901 (isolated type bnc-safety alligator clip adapter 2: for measuring 850 v (dc+acpeak) or less), 701954 (alligator clip (dolphin type) red/black 2-piece set) is required separately voltage probe: recommended 2 700929 (10:1 safety probe).20 to 45 pf: for measuring 1000 vpeak or less 701947 (100:1 probe).15 to 45 pf: for measuring 1000 vpeak or less current probe (power can be supplied from the dl850/DL850V. option) 700937 (15 a), 701930 (150 a), 701931 (500 a), 701933 (30 a) 6.13 module specifications free datasheet http://
6-22 im dl850-03en 1. value measured under standard operating conditions. h l combined with the 700929 or 701947 2. 3. 4. 700929 701947 h l 701901 701954 5. 6. 7. combined with the 701901+701954 h l direct input (cable not complying with the safety standard) 8. 9. bnc withstand voltage: 3700 vrms for 1 minute allowable transient surge voltage: 5200 vpeak (between earth and input) 10. the typical value is a representative or standard value. it is not strictly warranted. warning ? when applying high voltage using this module, use the 1:1 safety cable (combination of 701901 and 701954) or the isolated probe (700929 or 701947). ? the measurement category of the direct input of this module i s 400 vrms-catii on the low side and 700 vrms-cat ii on the high side. use caution because the overvoltage category differs between the low and high sides. ? do not apply input voltage exceeding the maximum input volta ge, withstand voltage, or allowable surge voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? a void continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-23 im dl850-03en specifications 1 2 3 4 5 6 app index universal (voltage/temp.) module (701261) /universal (voltage/temp.) module (with aaf) (701262) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration function temperature (thermocouple) or voltage measurement (switchable) effective measurement range voltage measurement: 20 div (display range: 10 div) number of input channels 2 input coupling tc, dc, ac, and gnd tc: dc: ac: temperature (thermocouple) measurement voltage measurement (dc coupling) voltage measurement (ac coupling) voltage measurement maximum sample rate 100 ks/s temperature measurement data update rate 500 hz input format isolated unbalanced measurement range/accuracy 1 [voltage measurement] voltage sensitivity: voltage accuracy: 5 mv/div to 20 v/div (1-2-5 steps) (0.25% of 10 div) [temperature measurement] 2 type measurement range accuracy k e j t l u n ?200 to 1300c ?200 to 800c ?200 to 1100c ?200 to 400c ?200 to 900c ?200 to 400c 0 to 1300c (0.1% of reading + 1.5c) except (0.2% of reading + 1.5c) for ?200c to 0c r s 0 to 1700c 0 to 1700c (0.1% of reading + 3c) except, 0 to 200c: 8c 200 to 800c: 5c b 0 to 1800c (0.1% of reading + 2c) except, 400 to 700c: 8c effective range is 400 to 1800c w 0 to 2300c (0.1% of reading + 3c) au7fe 3 0 to 300k 0 to 50k: 50 to 300k: 4k 2.5k frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) [voltage measurement] [temperature measurement] dc to 40 khz dc to 100 hz maximum input voltage 4 (at a frequency of 1 khz or less) both temperature and voltage input: 42 v (dc + acpeak) (as a value that meets the safety standard) 150 v (dc + acpeak) (maximum allowable voltage, as a value that does not damage the instrument when applied) maximum allowable common mode voltage 5 (at a frequency of 1 khz or less) both temperature and voltage input: 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) vertical resolution [voltage measurement] during voltage input: 2400 lsb/div [temperature measurement] when measuring temperature: 0.1c ?3 db point when ac coupled low frequency attenuation point [voltage measurement] 0.5 hz or less input connector binding post input impedance approx. 1 m? common mode rejection ratio [voltage measurement] [temperature measurement] 80 db (50/60 hz) or more (typical 6 ) 120 db or more (50/60 hz, with 2-hz filter on, signal source resistance of 500 ? or less) (typical 6 ) residual noise level (input section shorted) [voltage measurement] 100 v or 0.01 div, whichever is greater (typical 6 ) a/d conversion resolution [voltage measurement] 16 bits (2400 lsb/div) 6.13 module specifications free datasheet http://
6-24 im dl850-03en item specifications temperature coefficient [voltage measurement] zero point: gain: (0.01% of 10 div)/c (typical 6 ) (0.02% of 10 div)/c (typical 6 ) reference junction compensation accuracy (when the input terminal temperature is balanced) k, e, j, t, l, u, n: r, s, b, w: au7fe: 1c 1.5c 1k bandwidth limit [temperature measurement] [voltage measurement] (digital filter + analog filter) select from off, 30 hz, 8 hz, and 2 hz + 150 hz secondary analog filter select from off, auto, 4 khz, 400 hz, or 40 hz. cutoff characteristics: ?12 db/oct (typical, 6 setting other than auto) cutoff frequency (fc) when set to auto (701262 only) sample rate cutoff frequency (fc) 100 ks/s or higher 40 khz 100 s/s to 50 ks/s 40% of the sample rate 50 s/s or less 20 hz cutoff characteristics for auto: ?65 db at 2 fc (typical 6 ) table of cutoff frequency characteristics of the anti-aliasing filter (aaf) when the filter is set to auto, the anti-aliasing filter and low-pass filter are automatically set according to the sample rate. sample rate aaf low-pass filter 100 ks/s 40 khz off 50 ks/s 20 khz off 20 ks/s 8 khz off 10 ks/s 4 khz 4 khz 5 ks/s 2 khz 4 khz 2 ks/s 800 hz 4 khz 1 ks/s 400 hz 400 hz 500 s/s 200 hz 400 hz 200 s/s 80 hz 400 hz 100 s/s 40 hz 40 hz 50 s/s 20 hz 40 hz 20 s/s to 5 s/s 20 hz 40 hz 2 s/s or less 20 hz 40 hz ext sample 40 khz off 1. v alue measured under standard operating conditions (section 19.11). 2. does not include the reference junction temperature compensation accuracy. 3. this module supports au7fe with 0.07% metal content with respect to gold. h l 5. 4. 6. typical value represents a typical or average value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. 6.13 module specifications free datasheet http://
6-25 im dl850-03en specifications 1 2 3 4 5 6 app index temperature, high precision voltage isolation module (701265) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration function temperature (thermocouple) or voltage measurement (switchable) effective measurement range voltage measurement: 20 div (display range: 10 div) number of input channels 2 input coupling tc, dc, and gnd tc: dc: temperature (thermocouple) measurement voltage measurement (dc coupling) data update rate 500 hz measurement range/accuracy 1 [voltage measurement] voltage sensitivity: voltage accuracy: 100 v/div to 10 v/div (1-2-5 steps) (0.08% of 10 div + 2 v) [temperature measurement] 2 type measurement range accuracy k e j t l u n ?200 to 1300c ?200 to 800c ?200 to 1100c ?200 to 400c ?200 to 900c ?200 to 400c 0 to 1300c (0.1% of reading + 1.5c) except (0.2% of reading + 1.5c) for ?200c to 0c r s 0 to 1700c 0 to 1700c (0.1% of reading + 3c) except, 0 to 200c: 8c 200 to 800c: 5c b 0 to 1800c (0.1% of reading + 2c) except, 400 to 700c: 8c effective range is 400 to 1800c w 0 to 2300c (0.1% of reading + 3c) au7fe 3 0 to 300k 0 to 50k: 50 to 300k: 4k 2.5k frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) [voltage measurement] [temperature measurement] dc to 100 hz dc to 100 hz maximum input voltage 4 (at a frequency of 1 khz or less) both temperature and voltage input: 42 v (dc + acpeak) maximum allowable common mode voltage 5 (at a frequency of 1 khz or less) both temperature and voltage input: 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) vertical resolution [voltage measurement] during voltage input: 2400 lsb/div [temperature measurement] when measuring temperature: 0.1c ?3 db point when ac coupled low frequency attenuation point [voltage measurement] 0.5 hz or less input connector binding post input impedance approx. 1 m? common mode rejection ratio [voltage measurement] 80 db (50/60 hz) or more (typical 6 ) [temperature measurement] 120 db or more (50/60 hz, with 2-hz filter on, signal source resistance of 500 ? or less) (typical 6 ) residual noise level (input section shorted) [voltage measurement] 4 v or 0.01 div, whichever is greater (typical 6 ) a/d conversion resolution [voltage measurement] 16 bits (2400 lsb/div) temperature coefficient [voltage measurement] zero point: (0.01% of 10 div)/c + 0.05v/c) (typical 6 ) gain (0.02% of 10 div)/c (typical 6 ) reference junction compensation accuracy (when the input terminal temperature is balanced) k, e, j, t, l, u, n: r, s, b, w: au7fe: 1c 1.5c 1k bandwidth limit (digital filter) select from off, 30 hz, 8 hz, and 2 hz 6.13 module specifications free datasheet http://
6-26 im dl850-03en item specifications input bias current 20 na or less the zero point appears to be offset when the input is open due to the effects of bias current on this module. however, this is not a malfunction. connect the input to the object to be measured. 1. v alue measured under standard operating conditions. 2. does not include the reference junction temperature compensation accuracy. 3. this module supports au7fe with 0.07% metal content with respect to gold. h l 5. 4. 6. the typical value is a representative or standard value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. 6.13 module specifications free datasheet http://
6-27 im dl850-03en specifications 1 2 3 4 5 6 app index strain module (ndis) (701270) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration and auto balance effective measurementrange ?fs to +fs (set using upper and lower limits) number of input channels 2 maximum sample rate 100 ks/s input format dc bridge (auto balancing), balanced differential input, and isolated auto balance type electronic auto balance auto balance range 10000 str (1 gauge method) bridge voltage select from 2 v, 5 v, and 10 v. gauge resistance 120 ? to 1000 ? (bridge voltage: 2 v) 350 ? to 1000 ? (bridge voltage: 2 v, 5 v, and 10 v) gauge factor 1.90 to 2.20 (set in 0.01 steps) frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) dc to 20 khz mv/v range support supports the strain gauge transducer unit system. mv/v range = 0.5(str range/1000) measurement range (fs) and measurement range when using str range measurement range (fs) measurement range 500 str ?500 str to +500 str 1000 str ?1000 str to +1000 str 2000 str ?2000 str to +2000 str 5000 str ?5000 str to +5000 str 10000 str ?10000 str to +10000 str 20000 str ?20000 str to +20000 str when using mv/v range measurement range (fs) measurement range 0.25 mv/v ?0.25 mv/v to +0.25 mv/v 0.5 mv/v ?0.5 mv/v to +0.5 mv/v 1 mv/v ?1 mv/v to +1 mv/v 2.5 mv/v ?2.5 mv/v to +2.5 mv/v 5 mv/v ?5 mv/v to +5 mv/v 10 mv/v ?10 mv/v to +10 mv/v dc accuracy 1 (0.5% of fs + 5 str) maximum input voltage (at a frequency of 1 khz or less) between input+ and input? 10 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) between each terminal and earth ground 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) input connector ndis connector (recommended by jsndi (the japanese society for non-destructive inspection) common mode rejection ratio 80 db (50/60 hz) or more (typical 2 ) a/d conversion resolution 16 bit (4800 lsb/div: upper = +fs, lower = ?fs) temperature coe zero point: gain: 5 str/c(typical 2 ) (0.02% of fs)/c (typical 2 ) bandwidth limit select from off, 1 khz, 100 hz, and 10 hz cutoff characteristics: ?12 db/oct (typical 2 ) function mv/v support. supports the strain gauge transducer unit system. standard accessories ndis connector (for external connection: prc03-12a10-7m10.5 by tajimi) a1002jc: 2 pieces compatible accessories (sold separately) recommended bridge head 701955 (ndis 120 ?, enhanced shield version, comes with a 5-m cable) recommended bridge head 701956 (ndis 350 ?, enhanced shield version, comes with a 5-m cable)) 6.13 module specifications free datasheet http://
6-28 im dl850-03en item specifications precautions ? highly sensitive measurements are made in the v level in strain measurements. therefore, take measures against noise at the strain sensor perimeter , bridge head, and cable wiring. ? depending on the noise environment, an error may result in the balance. check the influence before making measurements. ? the bridge head specified by yokogawa has high noise resistance. ? some of the strain gauge sensors and bridge heads made by other manufacturers do not have sensing wires connected. (no such problems with bridge heads made by yokoga wa.) if such products are used, an error may result in the bridge voltage leading to measurement errors, because sensing does not work effectively. if possible, it is desirable that sensing be done very close to the bridge. however, if this is not possible, use the ndis conversion cable (dv450-001) that is sold separately by yokogawa. outline specifications of the dv450-001: sensing cable, ndis male-female, 30 cm in length, insert it as close to the bridge as possible ? the connector shell is connected to the case potential. ? when a bridge head (701955 or 701956) is used, the connector shell, cable shield, and the bridge head case are all connected to the case potential of the dl850/DL850V . ? when a bridge head (701955 or 701956) is used, the floating gnd is connected to the bridge head case inside the bridge head. ? be sure to execute balancing again when you change the range or the bridge voltage. 1. value measured under standard operating conditions. 2. the typical value is a representative or standard value. it is not strictly warranted. f e d c b a g module front view the connector shell is connected to the case potential. a: bridge+ (positive bridge voltage) b: input- (negative measurement signal) c: bridge- (negative bridge voltage) d: input+ (positive measurement signal) e: floating common f: sense+ (positive bridge voltage sensing) g: sense- (positive bridge voltage sensing) warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? avoid continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-29 im dl850-03en specifications 1 2 3 4 5 6 app index strain module (dsub, shunt-cal) (701271) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration and auto balance effective measurementrange ?fs to +fs (set using upper and lower limits) number of input channels 2 maximum sample rate 100 ks/s input format dc bridge (auto balancing), balanced differential input, and isolated auto balance type electronic auto balance auto balance range 10000 str (1 gauge method) bridge voltage select from 2 v, 5 v, and 10 v. gauge resistance 120 ? to 1000 ? (bridge voltage: 2 v) 350 ? to 1000 ? (bridge voltage: 2 v, 5 v, and 10 v) gauge factor 1.90 to 2.20 (set in 0.01 steps) frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) dc to 20 khz mv/v range support supports the strain gauge transducer unit system. mv/v range = 0.5(str range/1000) measurement range (fs) and measurement range when using str range measurement range (fs) measurement range 500 str ?500 str to +500 str 1000 str ?1000 str to +1000 str 2000 str ?2000 str to +2000 str 5000 str ?5000 str to +5000 str 10000 str ?10000 str to +10000 str 20000 str ?20000 str to +20000 str when using mv/v range measurement range (fs) measurement range 0.25 mv/v ?0.25 mv/v to +0.25 mv/v 0.5 mv/v ?0.5 mv/v to +0.5 mv/v 1 mv/v ?1 mv/v to +1 mv/v 2.5 mv/v ?2.5 mv/v to +2.5 mv/v 5 mv/v ?5 mv/v to +5 mv/v 10 mv/v ?10 mv/v to +10 mv/v dc accuracy 1 (0.5% of fs+5 str) maximum input voltage (at a frequency of 1 khz or less) between input+ and input? 10 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) between each terminal and earth ground 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) input connector 9-pin d-sub connector (female) common mode rejection ratio 80 db (50/60 hz) or more (typical 2 ) a/d conversion resolution 16 bit (4800 lsb/div: upper = +fs, lower = ?fs) temperature coe zero point: gain: 5 str/c(typical 2 ) (0.02% of fs)/c (typical 2 ) bandwidth limit select from off, 1 khz, 100 hz, and 10 hz cutoff characteristics: ?12 db/oct (typical 2 ) function mv/v support. supports the strain gauge transducer unit system. shunt calibration support. built-in shunt calibration relay (1 gauge method). standard accessories connector shell set for soldering a1520jd (9-pin d-sub): 2 pieces, a1618jd (connector shell): 2 pieces compatible accessories (sold separately) recommended bridge head 701957 (d-sub 120 ?, shunt-cal, comes with a 5-m cable) recommended bridge head 701958 (d-sub 350 ?, shunt-cal, comes with a 5-m cable) 6.13 module specifications free datasheet http://
6-30 im dl850-03en item specifications precautions ? highly sensitive measurements are made in the v level in strain measurements. therefore, take measures against noise at the strain sensor perimeter , bridge head, and cable wiring. ? depending on the noise environment, an error may result in the balance. check the influence before making measurements. ? the bridge head specified by yokogawa has high noise resistance. ? when executing shunt calibration, be sure to calculate the shunt resistance in advance, and execute it in a range so that the measured values do not exceed the range even when the shunt resistance is on. ? some of the strain gauge sensors and bridge heads made by other manufacturers do not have sensing wires connected. (no such problems with bridge heads made by yokoga wa.) if such products are used, an error may result in the bridge voltage leading to measurement errors, because sensing does not work effectively. perform sensing as close to the bridge head as possible. (there is no conversion cable for sensing on d-sub connector types.) ? the connector shell is connected to the case potential. ? w hen a bridge head (701957 or 701958) is used, the connector shell, cable shield, and the bridge head case are all connected to the case potential of the dl850/DL850V. ? when a bridge head (701957 or 701958) is used, the floating gnd is connected to the bridge head case inside the bridge head. ? be sure to execute balancing again when you change the range or the bridge voltage. 1. v alue measured under standard operating conditions. 2. the typical value is a representative or standard value. it is not strictly warranted. module front view 1 2 3 45 6 7 8 9 1: floating common 2: sense- (positive bridge voltage sensing) 3: shuntcal- (negative shunt signal) 4: shuntcal+ (positive shunt signal) 5: sense+ (positive bridge voltage sensing) 6: bridge- (negative bridge voltage) 7: input- (negative measurement signal) 8: input+ (positive measurement signal) 9: bridge+ (positive bridge voltage) warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? avoid continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-31 im dl850-03en specifications 1 2 3 4 5 6 app index acceleration/voltage module (with aaf) (701275) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (display range: 10 div) number of input channels 2 input coupling ac, dc, gnd, accl (acceleration), and gnd maximum sample rate 100 ks/s input format isolated unbalanced frequency characteristics 1 (?3 db point when a sine wave of amplitude 3 div is applied) waveform observation mode: dc to 40 khz acceleration measurement mode: 0.4 hz to 40 khz voltage-axis sensitivity setting 5 mv/div to 10 v/div (1-2-5 steps) (when using 1:1 probe attenuation) acceleration (5 v = 1 range): 0.1 to 1 to 100 (in 1-2-5 steps) maximum input voltage (at a frequency of 1 khz or less) 42 v (dc+acpeak) 2 maximum allowable common mode voltage (at a frequency of 1 khz or less) working voltage of safety standard 30 vrms (cat and cat ii) 3 vertical (voltage) axis accuracy dc accuracy 1 waveform measurement mode dc accuracy: (0.25% of 10 div) acceleration measurement mode: (0.5% of 10 div) at 1 khz input connector metal bnc connector input impedance 1 m?1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 0.4 hz or less (0.04 hz or less when using the 701940) (typical 4 ) common mode rejection ratio 80 db (50/60 hz) or more (typical 4 ) residual noise level (input section shorted) 100 v or 0.01 div, whichever is greater (typical 4 ) a/d conversion resolution 16 bits (2400lsb/div) temperature coefficient when in waveform measurement mode (excluding auto filter) zero point: gain: (0.02% of 10 div)/c (typical 4 ) (0.02% of 10 div)/c (typical 4 ) response time (only when observing rms) select from off, auto, 4 khz, 400 hz, and 40 hz cutoff characteristics: cutoff frequency (fc) when set to auto sample rate of 100 khz or higher: sample rate of 100 hz to 50 khz: sample rate of 50 hz or less: cutoff characteristics when set to auto: ?12 db/oct (typical 4 , excluding auto) fc = 40 khz fc = 40% of the sampling rate fc = 20 hz ?65 db at 2fc (typical 4 ) bandwidth limit voltage probe current probe 1:1, 10:1, 100:1, or 1000:1 10 a:1 v (for the 700937/701933), 100 a:1 v (for the 701930/701931) probe attenuation setting connection cable (for low voltage 1:1) 366926 (non-isolated type bnc-alligator clip 2: for measuring low voltage less than or equal to 42 vpeak) voltage probe (10:1 passive probe) 701940 17 to 46 pf: for measuring 600 v (dc+acpeak) or less current probe (power can be supplied from the dl850/DL850V) 700937 (15 a), 701930 (150 a), 701931 (500 a), 701933 (30 a) sensor supply current (voltage) off/4 ma 10%(approx. 22 vdc) applicable acceleration sensor built-in amplifier type kistler instrument corporation: piezotron, pcb piezotronics incorporated: icp, endevco corporation: isotron, etc. 6.13 module specifications free datasheet http://
6-32 im dl850-03en item specifications table of cutoff frequency characteristics of the anti- aliasing filter (aaf) when the filter is set to auto, the anti-aliasing filter and low-pass filter are automatically set according to the sample rate. sample rate aaf low-pass filter 100 ks/s 40 khz off 50 ks/s 20 khz off 20 ks/s 8 khz off 10 ks/s 4 khz 4 khz 5 ks/s 2 khz 4 khz 2 ks/s 800 hz 4 khz 1 ks/s 400 hz 400 hz 500 s/s 200 hz 400 hz 200 s/s 80 hz 400 hz 100 s/s 40 hz 40 hz 50 s/s 20 hz 40 hz 20 s/s to 5 s/s 20 hz 40 hz 2 s/s or less 20 hz 40 hz ext sample 40 khz off 1. v alue measured under standard operating conditions. h l 2. 3. bnc combined with the 10:1 passive probe (701940) direct input (cable not complying with the safety standard) h l 2. 3. 4. the typical value is a representative or standard value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? avoid continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-33 im dl850-03en specifications 1 2 3 4 5 6 app index frequency module (701280) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration measurement function frequency, rpms, rpss, period, duty cycle, power supply frequency, pulse width, pulse integration, and velocity effective measurement range 20 div (display range: 10 div) number of input channels 2 data update rate 25 khz (40 s) output delay time up to 2 computation periods input format isolated unbalanced input connector metal bnc connector maximum input voltage module only (when 1:1 cable is connected, across input terminals h and l): combined with the 700929(10:1) or 701947(100:1) (across the probe tips, h and l3): 42 v (dc+acpeak) 4 420 v (dc+acpeak) 2 maximum allowable common mode voltage working voltage of safety standard module only (when 1:1 cable is connected, across input terminal l and earth) 30 vrms (cat i and cat ii) 5 combined with the 700929 (10:1) or 701947 (100:1) (across probe tip h or l and earth) 300 vrms (cat i and cat ii) 3 insulation resistance 500 vdc, 10 m? or more (across each input terminal and earth)) minimum measurement resolution 50 ns measured data resolution 16 bits (2400 lsb/div) measurement accuracy 1 ? when in frequency, rpm, rps, or velocity measurement mode 6 measurement accuracy is specified according to the measurement range and input frequency [definition of measurement accuracy] v(0.05% of 10 div + accuracy dependent on the input frequency) [accuracy dependent on the input frequency] when input frequency is 2 khz or less: input frequency of 2 khz to 10 khz: input frequency of 10 khz to 20 khz: input frequency of 20 khz or higher: 0.05% of the input frequency + 0.001 hz 0.1% of the input frequency 0.3% of the input frequency 0.5% of the input frequency ? when in power supply frequency mode 7 when the center frequency is 50/60 hz: when the center frequency is 400 hz: (input set to ac100 v or ac200 v with sine wave input) 0.03 hz (0.01 hz resolution) 0.3 hz (0.01 hz resolution) ? when in period measurement mode 6 measurement accuracy is specified according to the measurement range and input period [definition of measurement accuracy] (0.05% of 10 div + accuracy dependent on the input period) [accuracy dependent on the input period] input period of 500 s or greater: input period of 100 s to 500 s: input period of 50 s to 100 s: input period of 50 s or less: 0.05% of the input period 0.1% of the input period 0.3% of the input period 0.5% of the input period + 0.1 s ? when in duty cycle measurement mode 8 dependent on the input frequency input frequency of 1 khz or less: input frequency of 1 khz to 10 khz: input frequency of 10 khz to 50 khz: input frequency of 50 khz to 100 khz: input frequency of 100 khz to 200 khz : 0.1% 0.2% 1.0% 2.0% 4.0% ? when in pulse width measurement mode 8 measurement accuracy is specified according to the measurement range and input pulse width [definition of measurement accuracy] (0.05% of 10 div + accuracy dependent on the input pulse width) [accuracy dependent on the input pulse width] input pulse width of 500 s or greater: input pulse width of 100 s to 500 s: input pulse width of 50 s to 100 s: input pulse width of 50 s or less: 0.05% of the input pulse width 0.1% of the input pulse width 0.3% of the input pulse width 0.5% of the input pulse width + 0.1 s 6.13 module specifications free datasheet http://
6-34 im dl850-03en item specifications input voltage range (fs) when using 1:1 probe attenuation: 1 v, 2 v, 5 v, 10 v, 20 v, 50 v (fs) input impedance 1 m? 1 approx. 35 pf pull-up function: 4.7 k?, approx. 5 v (pull-up can be turned on only when the input is set to pull-up 5 v) input coupling settings ac, dc probe attenuation setting 10:1, 1:1 minimum voltage width for pulse detection 200 mv p-p bandwidth limit select from full, 100 khz, 10 khz, 1 khz, and 100 hz cutoff characteristics: ?12 db/oct (typical 9 ) threshold set within the fs of the voltage range. set in units of 1% of the fs. hysteresis select 1%, 2.5%, or 5% of the fs of the voltage range preset function logic (5 v/3 v/12 v/24 v), electromagnetic pickup, zero crossing, pull-up, ac100 v, ac200 v, and user-defined slope selection select rising or falling lower ?3 db point when ac coupled 0.5 hz or less (0.05 hz or less when using the 700929, 0.005 hz or less when using the 701947) (typical 9 ) chatter elimination function off or 1 to 1000 ms (1 ms resolution) eliminates the chatter that occurs such when the contact input is turned on/off. can discard the signal changes over the specified interval. input status indication function input status indication through the leds of each channel function when in operation: when overdriven: illuminates in green when pulse input is detected illuminates in red when the input voltage exceeds the range compatible probes/cables connection cable (1:1): recommended 1 366926 voltage probe: recommended 2 700929 (10:1 safety probe) .20 to 45 pf: 701947 (100:1 probe) .15 to 45 pf: for measuring 1000 v (dc+acpeak) or less for measuring 1000 v (dc+acpeak) or less 1 v alue measured under standard operating conditions. h l combined with the 700929 or 701947 2. 3. 700929 701947 h l direct input (cable not complying with the safety standard) 4. 5. bnc withstand voltage: 1500 vrms for 1 minute allowable transient surge voltage (between earth and input): 2100 vpeak 3. 6 input waveform of 1 vpp, rectangular wave, rise/fall time within 1 ms (input range: 10 v, bandwidth limit: full, and hysteresis: 1%) 7 input waveform of 90 v rms, sine wave (input range: ac100 v, bandwidth limit 100 khz, and hysteresis: 1%) 8 input waveform of 1 vpp, rectangular wave, rise/fall time within 5 ns (input range: 10 v, bandwidth limit: full, and hysteresis: 1%) 9 t ypical value represents a typical or average value. it is not strictly warranted. warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? avoid continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-35 im dl850-03en specifications 1 2 3 4 5 6 app index specifications by measurement modes item specifications frequency measurable frequency range selectable vertical axis sensitivity minimum resolution 0.01 hz to 200 khz 0.1 hz/div to 50 khz/div (1-2-5 steps) 0.001 hz rpms measurable rpms range selectable vertical axis sensitivity computing method selectable pulse/rotate range 0.01 rpm to 100000 rpm (where the input frequency is dc to 200 khz). 0.1 rpm/div to 10 kpm/div (1-2-5 steps) computed from the frequency based on the number of pulses per rotation rpms = frequency/(pulse/rotate value) 60 1 to 99999 rpss measurable rpss range selectable vertical axis sensitivity computing method selectable pulse/rotate range 0.001 rps to 2000 rps (where the input frequency is dc to 200 khz). 0.01 rps/div to 200 rps/div (1-2-5 steps) computed from the frequency based on the number of pulses per rotation rpss = frequency/(pulse/rotate value) 1 to 99999 period measurable period range selectable vertical axis sensitivity minimum resolution 5 s to 50 s (where the minimum pulse width is 2 s) 10 s/div to 5 s/div (1-2-5 steps) 0.1 s duty cycle measurable duty cycle range selectable vertical axis sensitivity measurable frequency range measurement pulse selection minimum resolution 0 to 100% 1 %/div to 20 %/div (1-2-5 steps) 0.1 hz to 200 khz select positive or negative pulse 0.01% power supply frequency measurable frequency range selectable vertical axis sensitivity center frequency setting minimum resolution 30 hz to 70 hz (when the center frequency is 50 hz), 40 hz to 80 hz (when the center frequency is 60 hz), 380 hz to 420 hz (when the center frequency is 400 hz) 0.1 hz/div to 2 hz/div (0.01 hz resolution) select 50 hz, 60 hz, or 400 hz 0.01 hz pulse width measurable pulse width selectable vertical axis sensitivity measurement pulse selection minimum resolution 2 s to 50 s (where the input frequency is up to 200 khz) 10 s/div to 5 s/div (1-2-5 steps) select positive or negative pulse 0.1 s pulse integration maximum pulse count selectable vertical axis sensitivity frequency measuring range computation function selectable unit/pulse range counter reset 210 9 pulses 500.0e+18 value/div to 10.00e?21 value/div (1-2-5 range: total of 123 ranges) 0.1 hz to 200 khz (where the minimum pulse width is 2 s) set the physical amount per pulse and display by converting the values intophysical values such as distance and flow rate. ?9.9999e+30 to +9.9999e+30 manual reset and over-limit reset velocity selectable vertical axis sensitivity computing method selectable distance/pulse range 500.0 e+18 value/div to 10.00 e-21 value/div (1-2-5 range: total of 123 ranges) set the amount of displacement per pulse and compute the velocity from the frequency automatic unit time conversion of s, min, and hour. ?9.9999e+30 to +9.9999e+30 6.13 module specifications free datasheet http://
6-36 im dl850-03en functional specifications item specifications deceleration prediction computes the deceleration condition in realtime when the pulse input is cut off. can be specified when measuring the frequency, rpms, rpss, period, and velocity stop prediction sets the frequency to 0 after a certain time elapses after the pulse input is cut off. stop interval setting: set in the range of 1.5 to 10 times (10 settings) the period of the pulse measured last can be specified when measuring the frequency, rpms, rpss, period, and velocity smoothing computes the moving average of the measured data using the specified time specified time: 0.1 to 1000 ms (0.1 ms resolution) can be specified on all measurement parameters pulse average performs frequency measurement per specified number of pulses. when fluctuation exists periodically in the pulse interval, the fluctuation can be eliminated. specified number of pulses: 1 to 4096 can be specified when measuring the frequency, rpms, rpss, power supply frequency, period, pulse integration, and velocity offset function observe fluctuation with respect to the offset frequency offset range: can be set up to 1000 times the maximum div value ? frequency: ? rpms: ? rpss: ? period: ? duty cycle: ? pulse width: ? pulse integration: ? velocity: 0 hz to 200 khz 0 rpm to 50 krpm 0 rps to 1000 rps 0 s to 50 s 0% to 100% 0 s to 50 s ?1.000010 22 to 1.000010 22 ?1.000010 22 to 1.000010 22 6.13 module specifications free datasheet http://
6-37 im dl850-03en specifications 1 2 3 4 5 6 app index high-speed 100 ms/s, 12-bit isolation module (720210) specifications item specifications standard operating conditions temperature: humidity: 23c5c 20% to 80%rh after a 30-minute warm-up and after calibration effective measurement range 20 div (display range: 10 div) number of input channels 2 input coupling ac, dc, and gnd maximum sample rate 100 ms/s input format isolated unbalanced frequency characteristics 1 (?3 db point when sine wave of amplitude 3 div is applied) dc to 20 mhz voltage-axis sensitivity setting 10 mv/div to 20 v/div (1-2-5 steps) (when using 1:1 probe attenuation) maximum input voltage (at a frequency of 1 khz or less) combined with the 700929(10:1) or 701947(100:1): 2 direct input or cable not complying with the safety standard: 4 1000 v (dc+acpeak) catii 200 v (dc+acpeak) maximum allowable common mode voltage (at a frequency of 1 khz or less) working voltage of safety standard combined with the 700929 (10:1) or 701947 (100:1): 3 direct input or cable not complying with the safety standard: 5 1000 vrms (cat ii) 42 v (dc+acpeak) (cat i and cat ii, 30 vrms) vertical (voltage) axis accuracy dc accuracy 1 10 mv/div to 20 v/div: (0.5% of 10 div) input connector bnc connector (isolated type) input impedance 1 m? 1%, approx. 35 pf ?3 db point when ac coupled low frequency attenuation point 10 hz or less (1 hz or less when using the 700929, 0.1 hz or less when using the 700929) common mode rejection ratio 80 db (50/60 hz) or more (typical 6 ) residual noise level (input section shorted) 1.1 mv or 0.15 /div whichever is greater (typical 6 ) withstand voltage 1500 vrms for 1 minute (across each terminal and earth) (60 hz) insulation resistance 500 vdc, 10 m? or more (across each input terminal and earth) a/d conversion resolution 12 bit (150 lsb/div) temperature coefficient zero point: gain: 10 mv/div to 20 v/div: (0.1% of 10 div)/c(typical 6 ) (0.05% of 10 div)/c(typical 6 ) bandwidth limit select from off, 2 mhz, 1.28 mhz, 640 khz, 320 khz, 160 khz, 80 khz, , 40 khz, 20 khz, and 10 khz cut-off characteristics: ?12 db/oct (when 2 mhz, typical 6 ) probe attenuation setting voltage probe: current probe: 1:1, 10:1, 100:1, 1000:1 10 a:1 v (for the 700937/701933), 100 a: 1 v (for the 701930/701931) 1 v alue measured under standard operating conditions. h l combined with the 700929 or 701947 2. 700929 701947 h l direct input (cable not complying with the safety standard) 4. 5. bnc withstand voltage: 1500 vrms for 1 minute allowable transient surge voltage (between earth and input): 2100 vpeak 3. 6 typical value represents a typical or average value. it is not strictly warranted. 6.13 module specifications free datasheet http://
6-38 im dl850-03en warning ? do not apply input voltage exceeding the maximum input voltage or allowable common mode input voltage. ? t o prevent the possibility of electric shock, be sure to furnish protective earth grounding of the dl850/DL850V. ? t o prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? avoid continuous connection under an environment in which the surge voltage may occur. 6.13 module specifications free datasheet http://
6-39 im dl850-03en specifications 1 2 3 4 5 6 app index 16-ch voltage input module (720220) specifications item specifications standard operating conditions ambient temperature: 23 5c ambient humidity: 20 to 80% rh after the dl850/DL850V has been warmed up for 30 minutes and then calibration has been performed valid measurement range 20 div (0 v 10 div. display range: 10 div. when variable is set to off) number of input channels 16 input coupling settings dc, gnd, and off maximum sample rate 200 ks/s for a single channel, 16 ch 10 ks/s input format all isolated unbalanced frequency characteristics 1 dc to 5 khz (?3 db point when a sine wave with an amplitude of 3 div is applied) selectable voltage sensitivity range 0.2 v/div to 2 v/div (in 1-2-5 steps) max. measurement voltage range 20 v maximum input voltage direct input 42 v (dc + acpeak) (at a frequency of 1 khz or less) maximum allowable common mode voltage the working voltage in the safety standards (at a frequency of 1 khz or less) direct input 42 v (dc + acpeak) (cat i and cat ii, 30 vrms) dc vertical-axis (voltage-axis) accuracy (0.3% of 10 div) input connector spring terminal blocks. each 8-channel unit is removable. input impedance 1 m 1% common mode rejection ratio 80 db (50/60 hz) or more (typical value) residual noise level (input section shorted) 0.05 div a/d converter resolution 16 bits, 2400 lsb/div temperature coefficient zero point: (0.02% of 10 div)/c (typical value) gain: (0.02% of 10 div)/c (typical value) bandwidth limit can be turned off or set to 500 hz on each sub channel wiring recommended: 0.20 mm 2 to 1.00 mm 2 . awg size: 24-18. warning ? when connecting a device under measurement to the instrument, be sure to turn off the device. it is extremely dangerous to connect or remove wires while the device under measurement is on. avoid electric shock when using the modules ? do not apply a voltage that exceeds the maximum input voltag e, withstand voltage, or allowable surge voltage. ? t o avoid electric shock, be sure to ground the instrument. ? to prevent the possibility of electric shock, be sure to fasten the module screws. otherwise, the electrical and mechanical protection functions will not be activated. ? do not leave the instrument connected to devices in an enviro nment that may be subject to voltage surges. ? t o prevent electric shock, connect wires to the terminal block that match the voltage range that you are measuring. ? applying a voltage greater than the limits listed below may dam age the input section. for frequencies above 1 khz, damage may occur even if the voltage is less than the limits listed below. maximum input voltage between h and l input terminals when the frequency is 1 khz or less 1 42 v (dc + acpeak) maximum allowable common mode voltage between the h or l input terminal and the ground when the frequency is 1 khz or less 2 42v (dc + acpeak, cat i and cat ii, 30 vrms) 6.13 module specifications free datasheet http://
6-40 im dl850-03en ? wire all the l input terminals for all the sub channels on the same module to the same potential. the l input terminals of the sub channels are all connected. because the l input terminals are electrically connected inside the dl850/DL850V, connecting different potentials to them could result in short circuiting and damage to the 16-ch voltage input module. h l input terminal ground 2. 1. terminal block wire insertion hole h l screwdriver insertion hole sub channel 1 2 16 the l input terminals are electrically connected inside the instrument (same potential). ? when you release or lock the terminal block release levers, be careful not to injure yourself on the levers protrusions. caution when you attach the terminal block, if you try to attach it upside down, you may damage the terminal block and the module. check the vertical orientation of the block before you install it. 6.13 module specifications free datasheet http://
6-41 im dl850-03en specifications 1 2 3 4 5 6 app index logic input module (720230) specifications item specifications standard operating conditions ambient temperature: 23 5c ambient humidity: 20 to 80% rh number of input ports 2 number of input bits 8 bits per port maximum sample rate 10 ms/s input format use a non-isolated, dedicated probe (automatic detection) compatible probes 700986 (non-isolated 8-bit input) 700987 (isolated 8-bit input) 702911 (non-isolated 8-bit input) 702912 (non-isolated 8-bit input) chatter suppression time settings off, 5 ms, 10 ms, 20 ms, 50 ms, and 100 ms caution ? applying a voltage greater than the limits listed below may damage the logic probe or the instrument. for frequencies above 1 khz, damage may occur even if the voltage is less than the limits listed below. maximum input voltage (at a frequency of 1 khz or less) ? logic probes 70291 1 and 702912: 35 v ? high-speed logic probe 700986: 42 v (dc + acpeak) ? isolated logic probe 700987: 250 vrms (however, acpeak must be less than 350 v, and dc must be less than 250 v) ? for logic probes 70291 1, 702912, 700986, and the high-speed logic probe, the eight input lines of a single pod share the same ground. also, the instruments ground and the grounds of each pod are connected. do not apply signals with different common voltages to each input line. doing so may damage the instrument, connected logic probes, and connected devices. ? the input terminals of an isolated logic probe are isolated from each other and from the dl850/DL850V. ? t urn off the dl850/DL850V before you connect or remove a 26-pin connector from the logic signal input connector. ? do not stack isolated logic probes. also, to prevent a probes internal temperature from rising, provide a sufficient amount of space around it. ? do not use the yokogawa 700985 logic probe with the dl850/DL850V. the 700985 is shaped so that it can be connected to the logic signal input connector of the dl850/ DL850V, but it is not electrically compatible with the dl850/DL850V, so connecting the two could damage the dl850/DL850V or the 700985. 6.13 module specifications free datasheet http://
6-42 im dl850-03en can bus monitor module (720240) specification item specifications standard operating condition ambient temperature: 235c ambient humidity: 20 to 80%rh number of input ports 2 maximum sample rate 100 ks/s input format isolated unbalanced maximum input voltage C3 to +10 v (between can_h and gnd or can_l and gnd) maximum allowable common mode voltage 30 vrms (cat i and ii) input connector d-sub 9 pin (male) terminator internal, can be enabled or disabled for each port supported protocol physical layer: iso-11898 (high speed communication) supported bit rates 1 10 kbps, 20 kbps, 33.3 kbps, 50 kbps, 62.5 kbps, 66.7 kbps, 83.3 kbps, 125 kbps, 250 kbps, 500 kbps, 800 kbps, 1 mbps led display illuminates to indicate that the terminator is enabled number of sub channels 16 sub channels/ports (60 for firmware versions 1.2 and later) one shot output frames can be output in single shots terminator resistance (when the terminator is enabled) 110 to 130 a/d converter resolution (when value type is set to float 2 ) 16 bits, 2400 lsb/div 1 low-speed can at low-speed transceiver levels is not supported. 2 applies to modules whose firmware version is 1.2 or later 6.13 module specifications free datasheet http://
6-43 im dl850-03en specifications 1 2 3 4 5 6 app index 6.14 logic probe specifications high-speed logic probe (700986) specifications item specifications number of inputs 8 input format non-isolated (all the bits share the same ground with the dl850/DL850V and each other) maximum input voltage 42v (dc + acpeak, cat i and cat ii, 30 vrms), between the probe tip and ground (at a frequency of 1 khz or less) response time within 1 s input impedance 100 k or more threshold level approx. 1.4 v isolated logic probe (700987) specifications item specifications number of inputs 8 input format isolated (all bits are isolated) input connector safety terminal type (for banana plug) 8 input switching each bit can be switched to ac or dc input. input signal display the h/l state of each bit is indicated with leds (the leds illuminate to indicate h). applicable input range during dc input: h/l detection of 10 vdc to 250 vdc during ac input: h/l detection of 80 vac to 250 vac at 50/60 hz threshold level during dc input: 6 v 50% (high level: 10 to 250 vdc, low level: 0 to 3 vdc) during ac input: 50 vac 50% (high level: 80 to 250 vac, low level: 0 to 20 vac) response time during dc input: 1 ms or less during ac input: 20 ms or less input impedance approx. 100 k maximum input voltage 250 vrms 1 (cat i and cat ii) (between the h and l terminals of each bit) maximum allowable common mode voltage 250 vrms 1 (cat i and cat ii) (between input terminal h or l and the ground) maximum allowable voltage between bits 250 vrms 1 (cat i and cat ii) withstand voltage 2000 vac for 1 minute (between the input terminals and the ground) insulation resistance 500 vdc, 10 m or greater (between the input terminals and the ground) fuse 2 location max. rated voltage max. rated current type standard h side of input terminal 250 v 50 ma time lag vde/semko approved 1 make sure that the peak ac voltage does not exceed 350 v and that the dc voltage does not exceed 250 v when the frequency is 1 khz or less. 2 because the fuses used by this instrument are all inside the case, you cannot replace them yourself. if you believe that the fuse inside the case has blown, please contact your nearest yokogawa dealer. logic probe (702911 and 702912) specifications item specifications number of inputs 8 input format non-isolated (all the bits share the same ground with the dl850/DL850V and each other) maximum input voltage 35 v response time within 3 s input impedance 10 k or more threshold level approx. 1.4 v input methods ttl level or contact input (switchable). during contact input: pulled up to 5 v free datasheet http://
6-44 im dl850-03en 6.15 external dimensions dl850/DL850V unit: mm unless otherwise specified, tolerances are 3% (however, tolerances are 0.3 mm when below 10 mm). rear view 16.5 355 11 8 259 11.7 180 23 free datasheet http://
app-1 im dl850-03en appendix 1 2 3 4 5 6 app index appendix 1 relationship between the time axis setting, record length, and sample rate when the high-speed 100 ms/s, 12-bit isolation module is installed when the record length is 1 kpoint, 2.5 kpoint, 5 kpoint, 10 kpoint, or 25 kpoint record 1 kpoint 2.5 kpoint 5 kpoint 10 kpoint 25 kpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points ) 100 ns 100 m 100 100 m 100 100 m 100 100 m 100 100 m 100 200 ns 100 m 200 100 m 200 100 m 200 100 m 200 100 m 200 500 ns 100 m 500 100 m 500 100 m 500 100 m 500 100 m 500 1 s 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 2 s 50 m 1 k 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 5 s 20 m 1 k 50 m 2.5 k 100 m 5 k 100 m 5 k 100 m 5 k 10 s 10 m 1 k 20 m 2 k 50 m 5 k 100 m 10 k 100 m 10 k 20 s 5 m 1 k 10 m 2 k 20 m 4 k 50 m 10 k 100 m 20 k 50 s 2 m 1 k 5 m 2.5 k 10 m 5 k 20 m 10 k 50 m 25 k 100 s 1 m 1 k 2 m 2 k 5 m 5 k 10 m 10 k 20 m 20 k 200 s 500 k 1 k 1 m 2 k 2 m 4 k 5 m 10 k 10 m 20 k 500 s 200 k 1 k 500 k 2.5 k 1 m 5 k 2 m 10 k 5 m 25 k 1 ms 100 k 1 k 200 k 2 k 500 k 5 k 1 m 10 k 2 m 20 k 2 ms 50 k 1 k 100 k 2 k 200 k 4 k 500 k 10 k 1 m 20 k 5 ms 20 k 1 k 50 k 2.5 k 100 k 5 k 200 k 10 k 500 k 25 k 10 ms 10 k 1 k 20 k 2 k 50 k 5 k 100 k 10 k 200 k 20 k 20 ms 5 k 1 k 10 k 2 k 20 k 4 k 50 k 10 k 100 k 20 k 50 ms 2 k 1 k 5 k 2.5 k 10 k 5 k 20 k 10 k 50 k 25 k 100 ms 1 k 1 k 2 k 2 k 5 k 5 k 10 k 10 k 20 k 20 k 200 ms 500 1 k 1 k 2 k 2 k 4 k 5 k 10 k 10 k 20 k 500 ms 200 1 k 500 2.5 k 1 k 5 k 2 k 10 k 5 k 25 k 1 s 100 1 k 200 2 k 500 5 k 1 k 10 k 2 k 20 k 2 s 50 1 k 100 2 k 200 4 k 500 10 k 1 k 20 k 3 s 20 600 50 1.5 k 100 3 k 200 6 k 500 15 k 4 s 20 800 50 2 k 100 4 k 200 8 k 500 20 k 5 s 20 1 k 50 2.5 k 100 5 k 200 10 k 500 25 k 6 s 10 600 20 1.2 k 50 3 k 100 6 k 200 12 k 8 s 10 800 20 1.6 k 50 4 k 100 8 k 200 16 k 10 s 10 1 k 20 2 k 50 5 k 100 10 k 200 20 k 20 s 5 1 k 10 2 k 20 4 k 50 10 k 100 20 k 30 s 5 1.5 k 10 3 k 20 6 k 50 15 k 1 min 5 3 k 10 6 k 20 12 k 2 min 5 6 k 20 24 k 3 min 5 9 k 10 18 k 4 min 10 24 k 5 min 5 15 k 6 min 5 18 k 7 min 5 21 k when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix free datasheet http://
app-2 im dl850-03en when the record length is 50 kpoint, 100 kpoint, 250 kpoint, 500 kpoint, or 1 mpoint record length 50 kpoint 100 kpoint 250 kpoint 500 kpoint 1 mpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 100 ns 100 m 100 100 m 100 100 m 100 100 m 100 100 m 100 200 ns 100 m 200 100 m 200 100 m 200 100 m 200 100 m 200 500 ns 100 m 500 100 m 500 100 m 500 100 m 500 100 m 500 1 s 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 2 s 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 5 s 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 10 s 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 20 s 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 50 s 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 s 50 m 50 k 100 m 100 k 100 m 100 k 100 m 100 k 100 m 100 k 200 s 20 m 40 k 50 m 100 k 100 m 200 k 100 m 200 k 100 m 200 k 500 s 10 m 50 k 20 m 100 k 50 m 250 k 100 m 500 k 100 m 500 k 1 ms 5 m 50 k 10 m 100 k 20 m 200 k 50 m 500 k 100 m 1 m 2 ms 2 m 40 k 5 m 100 k 10 m 200 k 20 m 400 k 50 m 1 m 5 ms 1 m 50 k 2 m 100 k 5 m 250 k 10 m 500 k 20 m 1 m 10 ms 500 k 50 k 1 m 100 k 2 m 200 k 5 m 500 k 10 m 1 m 20 ms 200 k 40 k 500 k 100 k 1 m 200 k 2 m 400 k 5 m 1 m 50 ms 100 k 50 k 200 k 100 k 500 k 250 k 1 m 500 k 2 m 1 m 100 ms 50 k 50 k 100 k 100 k 200 k 200 k 500 k 500 k 1 m 1 m 200 ms 20 k 40 k 50 k 100 k 100 k 200 k 200 k 400 k 500 k 1 m 500 ms 10 k 50 k 20 k 100 k 50 k 250 k 100 k 500 k 200 k 1 m 1 s 5 k 50 k 10 k 100 k 20 k 200 k 50 k 500 k 100 k 1 m 2 s 2 k 40 k 5 k 100 k 10 k 200 k 20 k 400 k 50 k 1 m 3 s 1 k 30 k 2 k 60 k 5 k 150 k 10 k 300 k 20 k 600 k 4 s 1 k 40 k 2 k 80 k 5 k 200 k 10 k 400 k 20 k 800 k 5 s 1 k 50 k 2 k 100 k 5 k 250 k 10 k 500 k 20 k 1 m 6 s 500 30 k 1 k 60 k 2 k 120 k 5 k 300 k 10 k 600 k 8 s 500 40 k 1 k 80 k 2 k 160 k 5 k 400 k 10 k 800 k 10 s 500 50 k 1 k 100 k 2 k 200 k 5 k 500 k 10 k 1 m 20 s 200 40 k 500 100 k 1 k 200 k 2 k 400 k 5 k 1 m 30 s 100 30 k 200 60 k 500 150 k 1 k 300 k 2 k 600 k 1 min 50 30 k 100 60 k 200 120 k 500 300 k 1 k 600 k 2 min 20 24 k 50 60 k 200 240 k 200 240 k 500 600 k 3 min 20 36 k 50 90 k 100 180 k 200 360 k 500 900 k 4 min 20 48 k 20 48 k 100 240 k 200 480 k 200 480 k 5 min 10 30 k 20 60 k 50 150 k 100 300 k 200 600 k 6 min 10 36 k 20 72 k 50 180 k 100 360 k 200 720 k 7 min 10 42 k 20 84 k 50 210 k 100 420 k 200 840 k 8 min 10 48 k 20 96 k 50 240 k 100 480 k 200 960 k 9 min 5 27 k 10 54 k 20 108 k 50 270 k 100 540 k 10 min 5 30 k 10 60 k 20 120 k 50 300 k 100 600 k 12 min 5 36 k 10 72 k 20 144 k 50 360 k 100 720 k 15 min 5 45 k 10 90 k 20 180 k 50 450 k 100 900 k 30 min 5 90 k 10 180 k 20 360 k 50 900 k 1 h 5 180 k 10 360 k 20 720 k 2 h 5 360 k 10 720 k 3 h 5 540 k 4 h 5 720 k 5 h 5 900 k when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-3 im dl850-03en appendix 1 2 3 4 5 6 app index when the record length is 2.5 mpoint, 5 mpoint, 10 mpoint, 25 mpoint, or 50 mpoint record length 2.5 mpoint 5 mpoint 10 mpoint 25 mpoint 50 mpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 100 ns 100 m 100 100 m 100 100 m 100 100 m 100 100 m 100 200 ns 100 m 200 100 m 200 100 m 200 100 m 200 100 m 200 500 ns 100 m 500 100 m 500 100 m 500 100 m 500 100 m 500 1 s 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 2 s 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 5 s 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 10 s 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 20 s 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 50 s 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 s 100 m 100 k 100 m 100 k 100 m 100 k 100 m 100 k 100 m 100 k 200 s 100 m 200 k 100 m 200 k 100 m 200 k 100 m 200 k 100 m 200 k 500 s 100 m 500 k 100 m 500 k 100 m 500 k 100 m 500 k 100 m 500 k 1 ms 100 m 1 m 100 m 1 m 100 m 1 m 100 m 1 m 100 m 1 m 2 ms 100 m 2 m 100 m 2 m 100 m 2 m 100 m 2 m 100 m 2 m 5 ms 50 m 2.5 m 100 m 5 m 100 m 5 m 100 m 5 m 100 m 5 m 10 ms 20 m 2 m 50 m 5 m 100 m 10 m 100 m 10 m 100 m 10 m 20 ms 10 m 2 m 20 m 4 m 50 m 10 m 100 m 20 m 100 m 20 m 50 ms 5 m 2.5 m 10 m 5 m 20 m 10 m 50 m 25 m 100 m 50 m 100 ms 2 m 2 m 5 m 5 m 10 m 10 m 20 m 20 m 50 m 50 m 200 ms 1 m 2 m 2 m 4 m 5 m 10 m 10 m 20 m 20 m 40 m 500 ms 500 k 2.5 m 1 m 5 m 2 m 10 m 5 m 25 m 10 m 50 m 1 s 200 k 2 m 500 k 5 m 1 m 10 m 2 m 20 m 5 m 50 m 2 s 100 k 2 m 200 k 4 m 500 k 10 m 1 m 20 m 2 m 40 m 3 s 50 k 1.5 m 100 k 3 m 200 k 6 m 500 k 15 m 1 m 30 m 4 s 50 k 2 m 100 k 4 m 200 k 8 m 500 k 20 m 1 m 40 m 5 s 50 k 2.5 m 100 k 5 m 200 k 10 m 500 k 25 m 1 m 50 m 6 s 20 k 1.2 m 50 k 3 m 100 k 6 m 200 k 12 m 500 k 30 m 8 s 20 k 1.6 m 50 k 4 m 100 k 8 m 200 k 16 m 500 k 40 m 10 s 20 k 2 m 50 k 5 m 100 k 10 m 200 k 20 m 500 k 50 m 20 s 10 k 2 m 20 k 4 m 50 k 10 m 100 k 20 m 200 k 40 m 30 s 5 k 1.5 m 10 k 3 m 20 k 6 m 50 k 15 m 100 k 30 m 1 min 2 k 1.2 m 5 k 3 m 10 k 6 m 20 k 12 m 50 k 30 m 2 min 2 k 2.4 m 2 k 2.4 m 5 k 6 m 20 k 24 m 20 k 24 m 3 min 1 k 1.8 m 2 k 3.6 m 5 k 9 m 10 k 18 m 20 k 36 m 4 min 1 k 2.4 m 2 k 4.8 m 2 k 4.8 m 10 k 24 m 20 k 48 m 5 min 500 1.5 m 1 k 3 m 2 k 6 m 5 k 15 m 10 k 30 m 6 min 500 1.8 m 1 k 3.6 m 2 k 7.2 m 5 k 18 m 10 k 36 m 7 min 500 2.1 m 1 k 4.2 m 2 k 8.4 m 5 k 21 m 10 k 42 m 8 min 500 2.4 m 1 k 4.8 m 2 k 9.6 m 5 k 24 m 10 k 48 m 9 min 200 1.08 m 500 2.7 m 1 k 5.4 m 2 k 10.8 m 5 k 27 m 10 min 200 1.2 m 500 3 m 1 k 6 m 2 k 12 m 5 k 30 m 12 min 200 1.44 m 500 3.6 m 1 k 7.2 m 2 k 14.4 m 5 k 36 m 15 min 200 1.8 m 500 4.5 m 1 k 9 m 2 k 18 m 5 k 45 m 30 min 100 1.8 m 200 3.6 m 500 9 m 1 k 18 m 2 k 36 m 1 h 50 1.8 m 100 3.6 m 200 7.2 m 500 18 m 1 k 36 m 2 h 20 1.44 m 50 3.6 m 100 7.2 m 200 14.4 m 500 36 m 3 h 20 2.16 m 20 2.16 m 50 5.4 m 200 21.6 m 200 21.6 m 4 h 10 1.44 m 20 2.88 m 50 7.2 m 100 14.4 m 200 28.8 m 5 h 10 1.8 m 20 3.6 m 50 9 m 100 18 m 200 36 m when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. (continued on next page) appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-4 im dl850-03en (continued from previous page) record length 2.5 mpoint 5 mpoint 10 mpoint 25 mpoint 50 mpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 6 h 10 2.16 m 20 4.32 m 20 4.32 m 100 21.6 m 200 43.2 m 7 h 5 1.26 m 10 2.52 m 20 5.04 m 50 12.6 m 100 25.2 m 8 h 5 1.44 m 10 2.88 m 20 5.76 m 50 14.4 m 100 28.8 m 9 h 5 1.62 m 10 3.24 m 20 6.48 m 50 16.2 m 100 32.4 m 10 h 5 1.8 m 10 3.6 m 20 7.2 m 50 18 m 100 36 m 12 h 5 2.16 m 10 4.32 m 20 8.64 m 50 21.6 m 100 43.2 m 1 day 5 4.32 m 10 8.64 m 20 17.28 m 50 43.2 m 2 days 5 8.64 m 10 17.28 m 20 34.56 m 3 days 5 12.96 m 10 25.92 m when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. when the record length is 100 mpoint, 250 mpoint, 500 mpoint, 1 gpoint, or 2 gpoint record length 100 mpoint 250 mpoint 500 mpoint 1 gpoint 2 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 100 ns 100 m 100 100 m 100 100 m 100 100 m 100 100 m 100 200 ns 100 m 200 100 m 200 100 m 200 100 m 200 100 m 200 500 ns 100 m 500 100 m 500 100 m 500 100 m 500 100 m 500 1 s 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 100 m 1 k 2 s 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 100 m 2 k 5 s 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 100 m 5 k 10 s 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 100 m 10 k 20 s 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 100 m 20 k 50 s 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 m 50 k 100 s 100 m 100 k 100 m 100 k 100 m 100 k 100 m 100 k 100 m 100 k 200 s 100 m 200 k 100 m 200 k 100 m 200 k 100 m 200 k 100 m 200 k 500 s 100 m 500 k 100 m 500 k 100 m 500 k 100 m 500 k 100 m 500 k 1 ms 100 m 1 m 100 m 1 m 100 m 1 m 100 m 1 m 100 m 1 m 2 ms 100 m 2 m 100 m 2 m 100 m 2 m 100 m 2 m 100 m 2 m 5 ms 100 m 5 m 100 m 5 m 100 m 5 m 100 m 5 m 100 m 5 m 10 ms 100 m 10 m 100 m 10 m 100 m 10 m 100 m 10 m 100 m 10 m 20 ms 100 m 20 m 100 m 20 m 100 m 20 m 100 m 20 m 100 m 20 m 50 ms 100 m 50 m 100 m 50 m 100 m 50 m 100 m 50 m 100 m 50 m 100 ms 100 m 100 m 100 m 100 m 100 m 100 m 100 m 100 m 100 m 100 m 200 ms 50 m 100 m 100 m 200 m 100 m 200 m 100 m 200 m 100 m 200 m 500 ms 20 m 100 m 50 m 250 m 100 m 500 m 100 m 500 m 100 m 500 m 1 s 10 m 100 m 20 m 200 m 50 m 500 m 100 m 1 g 100 m 1 g 2 s 5 m 100 m 10 m 200 m 20 m 400 m 50 m 1 g 100 m 2 g 3 s 2 m 60 m 5 m 150 m 10 m 300 m 20 m 600 m 50 m 1.5 g 4 s 2 m 80 m 5 m 200 m 10 m 400 m 20 m 800 m 50 m 2 g 5 s 2 m 100 m 5 m 250 m 10 m 500 m 20 m 1 g 20 m 1 g 6 s 1 m 60 m 2 m 120 m 5 m 300 m 10 m 600 m 20 m 1.2 g 8 s 1 m 80 m 2 m 160 m 5 m 400 m 10 m 800 m 20 m 1.6 g 10 s 1 m 100 m 2 m 200 m 5 m 500 m 10 m 1 g 20 m 2 g 20 s 500 k 100 m 1 m 200 m 2 m 400 m 5 m 1 g 10 m 2 g 30 s 200 k 60 m 500 k 150 m 1 m 300 m 2 m 600 m 5 m 1.5 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. (continued on next page) appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-5 im dl850-03en appendix 1 2 3 4 5 6 app index (continued from previous page) record length 100 mpoint 250 mpoint 500 mpoint 1 gpoint 2 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 min 100 k 60 m 200 k 120 m 500 k 300 m 1 m 600 m 2 m 1.2 g 2 min 50 k 60 m 200 k 240 m 200 k 240 m 500 k 600 m 1 m 1.2 g 3 min 50 k 90 m 100 k 180 m 200 k 360 m 500 k 900 m 1 m 1.8 g 4 min 20 k 48 m 100 k 240 m 200 k 480 m 200 k 480 m 500 k 1.2 g 5 min 20 k 60 m 50 k 150 m 100 k 300 m 200 k 600 m 500 k 1.5 g 6 min 20 k 72 m 50 k 180 m 100 k 360 m 200 k 720 m 500 k 1.8 g 7 min 20 k 84 m 50 k 210 m 100 k 420 m 200 k 840 m 200 k 840 m 8 min 20 k 96 m 50 k 240 m 100 k 480 m 200 k 960 m 200 k 960 m 9 min 10 k 54 m 20 k 108 m 50 k 270 m 100 k 540 m 200 k 1.08 g 10 min 10 k 60 m 20 k 120 m 50 k 300 m 100 k 600 m 200 k 1.2 g 12 min 10 k 72 m 20 k 144 m 50 k 360 m 100 k 720 m 200 k 1.44 g 15 min 10 k 90 m 20 k 180 m 50 k 450 m 100 k 900 m 200 k 1.8 g 30 min 5 k 90 m 10 k 180 m 20 k 360 m 50 k 900 m 100 k 1.8 g 1 h 2 k 72 m 5 k 180 m 10 k 360 m 20 k 720 m 50 k 1.8 g 2 h 1 k 72 m 2 k 144 m 5 k 360 m 10 k 720 m 20 k 1.44 g 3 h 500 54 m 2 k 216 m 2 k 216 m 5 k 540 m 10 k 1.08 g 4 h 500 72 m 1 k 144 m 2 k 288 m 5 k 720 m 10 k 1.44 g 5 h 500 90 m 1 k 180 m 2 k 360 m 5 k 900 m 10 k 1.8 g 6 h 200 43.2 m 1 k 216 m 2 k 432 m 2 k 432 m 5 k 1.08 g 7 h 200 50.4 m 500 126 m 1 k 252 m 2 k 504 m 5 k 1.26 g 8 h 200 57.6 m 500 144 m 1 k 288 m 2 k 576 m 5 k 1.44 g 9 h 200 64.8 m 500 162 m 1 k 324 m 2 k 648 m 5 k 1.62 g 10 h 200 72 m 500 180 m 1 k 360 m 2 k 720 m 5 k 1.8 g 12 h 200 86.4 m 500 216 m 1 k 432 m 2 k 864 m 2 k 864 m 1 day 100 86.4 m 200 172.8 m 500 432 m 1 k 864 m 2 k 1.728 g 2 days 50 86.4 m 100 172.8 m 200 345.6 m 500 864 m 1 k 1.728 g 3 days 20 51.84 m 50 129.6 m 100 259.2 m 200 518.4 m 500 1.296 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-6 im dl850-03en when the record length is 4 gpoint, 5 gpoint, 10 gpoint, 20 gpoint, or 50 gpoint record length 4 gpoint 5 gpoint 10 gpoint 20 gpoint 50 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 100 ns 200 ns 500 ns 1 s 2 s 5 s 10 s 20 s 50 s 100 s 200 s 500 s 1 ms 2 ms 5 ms 10 ms 20 ms 50 ms 100 ms 200 ms 500 ms 1 s 2 s 3 s 4 s 5 s 6 s 8 s 10 s 20 s 30 s 1 min 2 min 3 min 4 min 1 m 2.4 g 5 min 1 m 3 g 1 m 3 g 6 min 1 m 3.6 g 1 m 3.6 g 7 min 500 k 2.1 g 1 m 4.2 g 8 min 500 k 2.4 g 1 m 4.8 g 9 min 500 k 2.7 g 500 k 2.7 g 1 m 5.4 g 10 min 500 k 3 g 500 k 3 g 1 m 6 g 12 min 500 k 3.6 g 500 k 3.6 g 1 m 7.2 g 15 min 200 k 1.8 g 500 k 4.5 g 1 m 9 g 30 min 200 k 3.6 g 200 k 3.6 g 500 k 9 g 1 m 18 g 1 h 100 k 3.6 g 100 k 3.6 g 200 k 7.2 g 500 k 18 g 1 m 36 g 2 h 50 k 3.6 g 50 k 3.6 g 100 k 7.2 g 200 k 14.4 g 500 k 36 g 3 h 20 k 2.16 g 20 k 2.16 g 50 k 5.4 g 100 k 10.8 g 200 k 21.6 g 4 h 20 k 2.88 g 20 k 2.88 g 50 k 7.2 g 100 k 14.4 g 200 k 28.8 g 5 h 20 k 3.6 g 20 k 3.6 g 50 k 9 g 100 k 18 g 200 k 36 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. (continued on next page) appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-7 im dl850-03en appendix 1 2 3 4 5 6 app index (continued from previous page) record length 4 gpoint 5 gpoint 10 gpoint 20 gpoint 50 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 6 h 10 k 2.16 g 20 k 4.32 g 20 k 4.32 g 50 k 10.8 g 200 k 43.2 g 7 h 10 k 2.52 g 10 k 2.52 g 20 k 5.04 g 50 k 12.6 g 100 k 25.2 g 8 h 10 k 2.88 g 10 k 2.88 g 20 k 5.76 g 50 k 14.4 g 100 k 28.8 g 9 h 10 k 3.24 g 10 k 3.24 g 20 k 6.48 g 50 k 16.2 g 100 k 32.4 g 10 h 10 k 3.6 g 10 k 3.6 g 20 k 7.2 g 50 k 18 g 100 k 36 g 12 h 5 k 2.16 g 10 k 4.32 g 20 k 8.64 g 20 k 8.64 g 100 k 43.2 g 1 day 2 k 1.728 g 5 k 4.32 g 10 k 8.64 g 20 k 17.28 g 50 k 43.2 g 2 days 2 k 3.456 g 2 k 3.456 g 5 k 8.64 g 10 k 17.28 g 20 k 34.56 g 3 days 1 k 2.592 g 1 k 2.592 g 2 k 5.184 g 5 k 12.96 g 10 k 25.9 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-8 im dl850-03en when the high-speed 100 ms/s, 12-bit isolation module is not installed when the record length is 1 kpoint, 2.5 kpoint, 5 kpoint, 10 kpoint, or 25 kpoint record length 1 kpoint 2.5 kpoint 5 kpoint 10 kpoint 25 kpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 s 10 m 100 10 m 100 10 m 100 10 m 100 10 m 100 2 s 10 m 200 10 m 200 10 m 200 10 m 200 10 m 200 5 s 10 m 500 10 m 500 10 m 500 10 m 500 10 m 500 10 s 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 20 s 5 m 1 k 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 50 s 2 m 1 k 5 m 2.5 k 10 m 5 k 10 m 5 k 10 m 5 k 100 s 1 m 1 k 2 m 2 k 5 m 5 k 10 m 10 k 10 m 10 k 200 s 500 k 1 k 1 m 2 k 2 m 4 k 5 m 10 k 10 m 20 k 500 s 200 k 1 k 500 k 2.5 k 1 m 5 k 2 m 10 k 5 m 25 k 1 ms 100 k 1 k 200 k 2 k 500 k 5 k 1 m 10 k 2 m 20 k 2 ms 50 k 1 k 100 k 2 k 200 k 4 k 500 k 10 k 1 m 20 k 5 ms 20 k 1 k 50 k 2.5 k 100 k 5 k 200 k 10 k 500 k 25 k 10 ms 10 k 1 k 20 k 2 k 50 k 5 k 100 k 10 k 200 k 20 k 20 ms 5 k 1 k 10 k 2 k 20 k 4 k 50 k 10 k 100 k 20 k 50 ms 2 k 1 k 5 k 2.5 k 10 k 5 k 20 k 10 k 50 k 25 k 100 ms 1 k 1 k 2 k 2 k 5 k 5 k 10 k 10 k 20 k 20 k 200 ms 500 1 k 1 k 2 k 2 k 4 k 5 k 10 k 10 k 20 k 500 ms 200 1 k 500 2.5 k 1 k 5 k 2 k 10 k 5 k 25 k 1 s 100 1 k 200 2 k 500 5 k 1 k 10 k 2 k 20 k 2 s 50 1 k 100 2 k 200 4 k 500 10 k 1 k 20 k 3 s 20 600 50 1.5 k 100 3 k 200 6 k 500 15 k 4 s 20 800 50 2 k 100 4 k 200 8 k 500 20 k 5 s 20 1 k 50 2.5 k 100 5 k 200 10 k 500 25 k 6 s 10 600 20 1.2 k 50 3 k 100 6 k 200 12 k 8 s 10 800 20 1.6 k 50 4 k 100 8 k 200 16 k 10 s 10 1 k 20 2 k 50 5 k 100 10 k 200 20 k 20 s 5 1 k 10 2 k 20 4 k 50 10 k 100 20 k 30 s 5 1.5 k 10 3 k 20 6 k 50 15 k 1 min 5 3 k 10 6 k 20 12 k 2 min 5 6 k 20 24 k 3 min 5 9 k 10 18 k 4 min 10 24 k 5 min 5 15 k 6 min 5 18 k 7 min 5 21 k when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-9 im dl850-03en appendix 1 2 3 4 5 6 app index when the record length is 50 kpoint, 100 kpoint, 250 kpoint, 500 kpoint, or 1 mpoint record length 50 kpoint 100 kpoint 250 kpoint 500 kpoint 1 mpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 s 10 m 100 10 m 100 10 m 100 10 m 100 10 m 100 2 s 10 m 200 10 m 200 10 m 200 10 m 200 10 m 200 5 s 10 m 500 10 m 500 10 m 500 10 m 500 10 m 500 10 s 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 20 s 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 50 s 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 100 s 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 200 s 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 500 s 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 1 ms 5 m 50 k 10 m 100 k 10 m 100 k 10 m 100 k 10 m 100 k 2 ms 2 m 40 k 5 m 100 k 10 m 200 k 10 m 200 k 10 m 200 k 5 ms 1 m 50 k 2 m 100 k 5 m 250 k 10 m 500 k 10 m 500 k 10 ms 500 k 50 k 1 m 100 k 2 m 200 k 5 m 500 k 10 m 1 m 20 ms 200 k 40 k 500 k 100 k 1 m 200 k 2 m 400 k 5 m 1 m 50 ms 100 k 50 k 200 k 100 k 500 k 250 k 1 m 500 k 2 m 1 m 100 ms 50 k 50 k 100 k 100 k 200 k 200 k 500 k 500 k 1 m 1 m 200 ms 20 k 40 k 50 k 100 k 100 k 200 k 200 k 400 k 500 k 1 m 500 ms 10 k 50 k 20 k 100 k 50 k 250 k 100 k 500 k 200 k 1 m 1 s 5 k 50 k 10 k 100 k 20 k 200 k 50 k 500 k 100 k 1 m 2 s 2 k 40 k 5 k 100 k 10 k 200 k 20 k 400 k 50 k 1 m 3 s 1 k 30 k 2 k 60 k 5 k 150 k 10 k 300 k 20 k 600 k 4 s 1 k 40 k 2 k 80 k 5 k 200 k 10 k 400 k 20 k 800 k 5 s 1 k 50 k 2 k 100 k 5 k 250 k 10 k 500 k 20 k 1 m 6 s 500 30 k 1 k 60 k 2 k 120 k 5 k 300 k 10 k 600 k 8 s 500 40 k 1 k 80 k 2 k 160 k 5 k 400 k 10 k 800 k 10 s 500 50 k 1 k 100 k 2 k 200 k 5 k 500 k 10 k 1 m 20 s 200 40 k 500 100 k 1 k 200 k 2 k 400 k 5 k 1 m 30 s 100 30 k 200 60 k 500 150 k 1 k 300 k 2 k 600 k 1 min 50 30 k 100 60 k 200 120 k 500 300 k 1 k 600 k 2 min 20 24 k 50 60 k 200 240 k 200 240 k 500 600 k 3 min 20 36 k 50 90 k 100 180 k 200 360 k 500 900 k 4 min 20 48 k 20 48 k 100 240 k 200 480 k 200 480 k 5 min 10 30 k 20 60 k 50 150 k 100 300 k 200 600 k 6 min 10 36 k 20 72 k 50 180 k 100 360 k 200 720 k 7 min 10 42 k 20 84 k 50 210 k 100 420 k 200 840 k 8 min 10 48 k 20 96 k 50 240 k 100 480 k 200 960 k 9 min 5 27 k 10 54 k 20 108 k 50 270 k 100 540 k 10 min 5 30 k 10 60 k 20 120 k 50 300 k 100 600 k 12 min 5 36 k 10 72 k 20 144 k 50 360 k 100 720 k 15 min 5 45 k 10 90 k 20 180 k 50 450 k 100 900 k 30 min 5 90 k 10 180 k 20 360 k 50 900 k 1 h 5 180 k 10 360 k 20 720 k 2 h 5 360 k 10 720 k 3 h 5 540 k 4 h 5 720 k 5 h 5 900 k when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-10 im dl850-03en when the record length is 2.5 mpoint, 5 mpoint, 10 mpoint, 25 mpoint, or 50 mpoint record length 2.5 mpoint 5 mpoint 10 mpoint 25 mpoint 50 mpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 s 10 m 100 10 m 100 10 m 100 10 m 100 10 m 100 2 s 10 m 200 10 m 200 10 m 200 10 m 200 10 m 200 5 s 10 m 500 10 m 500 10 m 500 10 m 500 10 m 500 10 s 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 20 s 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 50 s 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 100 s 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 200 s 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 500 s 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 1 ms 10 m 100 k 10 m 100 k 10 m 100 k 10 m 100 k 10 m 100 k 2 ms 10 m 200 k 10 m 200 k 10 m 200 k 10 m 200 k 10 m 200 k 5 ms 10 m 500 k 10 m 500 k 10 m 500 k 10 m 500 k 10 m 500 k 10 ms 10 m 1 m 10 m 1 m 10 m 1 m 10 m 1 m 10 m 1 m 20 ms 10 m 2 m 10 m 2 m 10 m 2 m 10 m 2 m 10 m 2 m 50 ms 5 m 2.5 m 10 m 5 m 10 m 5 m 10 m 5 m 10 m 5 m 100 ms 2 m 2 m 5 m 5 m 10 m 10 m 10 m 10 m 10 m 10 m 200 ms 1 m 2 m 2 m 4 m 5 m 10 m 10 m 20 m 10 m 20 m 500 ms 500 k 2.5 m 1 m 5 m 2 m 10 m 5 m 25 m 10 m 50 m 1 s 200 k 2 m 500 k 5 m 1 m 10 m 2 m 20 m 5 m 50 m 2 s 100 k 2 m 200 k 4 m 500 k 10 m 1 m 20 m 2 m 40 m 3 s 50 k 1.5 m 100 k 3 m 200 k 6 m 500 k 15 m 1 m 30 m 4 s 50 k 2 m 100 k 4 m 200 k 8 m 500 k 20 m 1 m 40 m 5 s 50 k 2.5 m 100 k 5 m 200 k 10 m 500 k 25 m 1 m 50 m 6 s 20 k 1.2 m 50 k 3 m 100 k 6 m 200 k 12 m 500 k 30 m 8 s 20 k 1.6 m 50 k 4 m 100 k 8 m 200 k 16 m 500 k 40 m 10 s 20 k 2 m 50 k 5 m 100 k 10 m 200 k 20 m 500 k 50 m 20 s 10 k 2 m 20 k 4 m 50 k 10 m 100 k 20 m 200 k 40 m 30 s 5 k 1.5 m 10 k 3 m 20 k 6 m 50 k 15 m 100 k 30 m 1 min 2 k 1.2 m 5 k 3 m 10 k 6 m 20 k 12 m 50 k 30 m 2 min 2 k 2.4 m 2 k 2.4 m 5 k 6 m 20 k 24 m 20 k 24 m 3 min 1 k 1.8 m 2 k 3.6 m 5 k 9 m 10 k 18 m 20 k 36 m 4 min 1 k 2.4 m 2 k 4.8 m 2 k 4.8 m 10 k 24 m 20 k 48 m 5 min 500 1.5 m 1 k 3 m 2 k 6 m 5 k 15 m 10 k 30 m 6 min 500 1.8 m 1 k 3.6 m 2 k 7.2 m 5 k 18 m 10 k 36 m 7 min 500 2.1 m 1 k 4.2 m 2 k 8.4 m 5 k 21 m 10 k 42 m 8 min 500 2.4 m 1 k 4.8 m 2 k 9.6 m 5 k 24 m 10 k 48 m 9 min 200 1.08 m 500 2.7 m 1 k 5.4 m 2 k 10.8 m 5 k 27 m 10 min 200 1.2 m 500 3 m 1 k 6 m 2 k 12 m 5 k 30 m 12 min 200 1.44 m 500 3.6 m 1 k 7.2 m 2 k 14.4 m 5 k 36 m 15 min 200 1.8 m 500 4.5 m 1 k 9 m 2 k 18 m 5 k 45 m 30 min 100 1.8 m 200 3.6 m 500 9 m 1 k 18 m 2 k 36 m 1 h 50 1.8 m 100 3.6 m 200 7.2 m 500 18 m 1 k 36 m 2 h 20 1.44 m 50 3.6 m 100 7.2 m 200 14.4 m 500 36 m 3 h 20 2.16 m 20 2.16 m 50 5.4 m 200 21.6 m 200 21.6 m 4 h 10 1.44 m 20 2.88 m 50 7.2 m 100 14.4 m 200 28.8 m 5 h 10 1.8 m 20 3.6 m 50 9 m 100 18 m 200 36 m 6 h 10 2.16 m 20 4.32 m 20 4.32 m 100 21.6 m 200 43.2 m 7 h 5 1.26 m 10 2.52 m 20 5.04 m 50 12.6 m 100 25.2 m 8 h 5 1.44 m 10 2.88 m 20 5.76 m 50 14.4 m 100 28.8 m 9 h 5 1.62 m 10 3.24 m 20 6.48 m 50 16.2 m 100 32.4 m 10 h 5 1.8 m 10 3.6 m 20 7.2 m 50 18 m 100 36 m 12 h 5 2.16 m 10 4.32 m 20 8.64 m 50 21.6 m 100 43.2 m 1 day 5 4.32 m 10 8.64 m 20 17.28 m 50 43.2 m 2 days 5 8.64 m 10 17.28 m 20 34.56 m 3 days 5 12.96 m 10 25.92 m when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-11 im dl850-03en appendix 1 2 3 4 5 6 app index when the record length is 100 mpoint, 250 mpoint, 500 mpoint, 1 gpoint, or 2 gpoint record length 100 mpoint 250 mpoint 500 mpoint 1 gpoint 2 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 s 10 m 100 10 m 100 10 m 100 10 m 100 10 m 100 2 s 10 m 200 10 m 200 10 m 200 10 m 200 10 m 200 5 s 10 m 500 10 m 500 10 m 500 10 m 500 10 m 500 10 s 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 10 m 1 k 20 s 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 10 m 2 k 50 s 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 10 m 5 k 100 s 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 10 m 10 k 200 s 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 10 m 20 k 500 s 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 10 m 50 k 1 ms 10 m 100 k 10 m 100 k 10 m 100 k 10 m 100 k 10 m 100 k 2 ms 10 m 200 k 10 m 200 k 10 m 200 k 10 m 200 k 10 m 200 k 5 ms 10 m 500 k 10 m 500 k 10 m 500 k 10 m 500 k 10 m 500 k 10 ms 10 m 1 m 10 m 1 m 10 m 1 m 10 m 1 m 10 m 1 m 20 ms 10 m 2 m 10 m 2 m 10 m 2 m 10 m 2 m 10 m 2 m 50 ms 10 m 5 m 10 m 5 m 10 m 5 m 10 m 5 m 10 m 5 m 100 ms 10 m 10 m 10 m 10 m 10 m 10 m 10 m 10 m 10 m 10 m 200 ms 10 m 20 m 10 m 20 m 10 m 20 m 10 m 20 m 10 m 20 m 500 ms 10 m 50 m 10 m 50 m 10 m 50 m 10 m 50 m 10 m 50 m 1 s 10 m 100 m 10 m 100 m 10 m 100 m 10 m 100 m 10 m 100 m 2 s 5 m 100 m 10 m 200 m 10 m 200 m 10 m 200 m 10 m 200 m 3 s 2 m 60 m 5 m 150 m 10 m 300 m 10 m 300 m 10 m 300 m 4 s 2 m 80 m 5 m 200 m 10 m 400 m 10 m 400 m 10 m 400 m 5 s 2 m 100 m 5 m 250 m 10 m 500 m 10 m 500 m 10 m 500 m 6 s 1 m 60 m 2 m 120 m 5 m 300 m 10 m 600 m 10 m 600 m 8 s 1 m 80 m 2 m 160 m 5 m 400 m 10 m 800 m 10 m 800 m 10 s 1 m 100 m 2 m 200 m 5 m 500 m 10 m 1 g 10 m 1 g 20 s 500 k 100 m 1 m 200 m 2 m 400 m 5 m 1 g 10 m 2 g 30 s 200 k 60 m 500 k 150 m 1 m 300 m 2 m 600 m 5 m 1.5 g 1 min 100 k 60 m 200 k 120 m 500 k 300 m 1 m 600 m 2 m 1.2 g 2 min 50 k 60 m 200 k 240 m 200 k 240 m 500 k 600 m 1 m 1.2 g 3 min 50 k 90 m 100 k 180 m 200 k 360 m 500 k 900 m 1 m 1.8 g 4 min 20 k 48 m 100 k 240 m 200 k 480 m 200 k 480 m 500 k 1.2 g 5 min 20 k 60 m 50 k 150 m 100 k 300 m 200 k 600 m 500 k 1.5 g 6 min 20 k 72 m 50 k 180 m 100 k 360 m 200 k 720 m 500 k 1.8 g 7 min 20 k 84 m 50 k 210 m 100 k 420 m 200 k 840 m 200 k 840 m 8 min 20 k 96 m 50 k 240 m 100 k 480 m 200 k 960 m 200 k 960 m 9 min 10 k 54 m 20 k 108 m 50 k 270 m 100 k 540 m 200 k 1.08 g 10 min 10 k 60 m 20 k 120 m 50 k 300 m 100 k 600 m 200 k 1.2 g 12 min 10 k 72 m 20 k 144 m 50 k 360 m 100 k 720 m 200 k 1.44 g 15 min 10 k 90 m 20 k 180 m 50 k 450 m 100 k 900 m 200 k 1.8 g 30 min 5 k 90 m 10 k 180 m 20 k 360 m 50 k 900 m 100 k 1.8 g 1 h 2 k 72 m 5 k 180 m 10 k 360 m 20 k 720 m 50 k 1.8 g 2 h 1 k 72 m 2 k 144 m 5 k 360 m 10 k 720 m 20 k 1.44 g 3 h 500 54 m 2 k 216 m 2 k 216 m 5 k 540 m 10 k 1.08 g 4 h 500 72 m 1 k 144 m 2 k 288 m 5 k 720 m 10 k 1.44 g 5 h 500 90 m 1 k 180 m 2 k 360 m 5 k 900 m 10 k 1.8 g 6 h 200 43.2 m 1 k 216 m 2 k 432 m 2 k 432 m 5 k 1.08 g 7 h 200 50.4 m 500 126 m 1 k 252 m 2 k 504 m 5 k 1.26 g 8 h 200 57.6 m 500 144 m 1 k 288 m 2 k 576 m 5 k 1.44 g 9 h 200 64.8 m 500 162 m 1 k 324 m 2 k 648 m 5 k 1.62 g 10 h 200 72 m 500 180 m 1 k 360 m 2 k 720 m 5 k 1.8 g 12 h 200 86.4 m 500 216 m 1 k 432 m 2 k 864 m 2 k 864 m 1 day 100 86.4 m 200 172.8 m 500 432 m 1 k 864 m 2 k 1.728 g 2 days 50 86.4 m 100 172.8 m 200 345.6 m 500 864 m 1 k 1.728 g 3 days 20 51.84 m 50 129.6 m 100 259.2 m 200 518.4 m 500 1.296 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-12 im dl850-03en when the record length is 4 gpoint, 5 gpoint, 10 gpoint, 20 gpoint, or 50 gpoint record length 4 gpoint 5 gpoint 10 gpoint 20 gpoint 50 gpoint time/div sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) sample rate (s/s) display record length (points) 1 s 2 s 5 s 10 s 20 s 50 s 100 s 200 s 500 s 1 ms 2 ms 5 ms 10 ms 20 ms 50 ms 100 ms 200 ms 500 ms 1 s 2 s 3 s 4 s 5 s 6 s 8 s 10 s 20 s 30 s 1 min 2 min 3 min 4 min 1 m 2.4 g 5 min 1 m 3 g 1 m 3 g 6 min 1 m 3.6 g 1 m 3.6 g 7 min 500 k 2.1 g 1 m 4.2 g 8 min 500 k 2.4 g 1 m 4.8 g 9 min 500 k 2.7 g 500 k 2.7 g 1 m 5.4 g 10 min 500 k 3 g 500 k 3 g 1 m 6 g 12 min 500 k 3.6 g 500 k 3.6 g 1 m 7.2 g 15 min 200 k 1.8 g 500 k 4.5 g 1 m 9 g 30 min 200 k 3.6 g 200 k 3.6 g 500 k 9 g 1 m 18 g 1 h 100 k 3.6 g 100 k 3.6 g 200 k 7.2 g 500 k 18 g 1 m 36 g 2 h 50 k 3.6 g 50 k 3.6 g 100 k 7.2 g 200 k 14.4 g 500 k 36 g 3 h 20 k 2.16 g 20 k 2.16 g 50 k 5.4 g 100 k 10.8 g 200 k 21.6 g 4 h 20 k 2.88 g 20 k 2.88 g 50 k 7.2 g 100 k 14.4 g 200 k 28.8 g 5 h 20 k 3.6 g 20 k 3.6 g 50 k 9 g 100 k 18 g 200 k 36 g 6 h 10 k 2.16 g 20 k 4.32 g 20 k 4.32 g 50 k 10.8 g 200 k 43.2 g 7 h 10 k 2.52 g 10 k 2.52 g 20 k 5.04 g 50 k 12.6 g 100 k 25.2 g 8 h 10 k 2.88 g 10 k 2.88 g 20 k 5.76 g 50 k 14.4 g 100 k 28.8 g 9 h 10 k 3.24 g 10 k 3.24 g 20 k 6.48 g 50 k 16.2 g 100 k 32.4 g 10 h 10 k 3.6 g 10 k 3.6 g 20 k 7.2 g 50 k 18 g 100 k 36 g 12 h 5 k 2.16 g 10 k 4.32 g 20 k 8.64 g 20 k 8.64 g 100 k 43.2 g 1 day 2 k 1.728 g 5 k 4.32 g 10 k 8.64 g 20 k 17.28 g 50 k 43.2 g 2 days 2 k 3.456 g 2 k 3.456 g 5 k 8.64 g 10 k 17.28 g 20 k 34.56 g 3 days 1 k 2.592 g 1 k 2.592 g 2 k 5.184 g 5 k 12.96 g 10 k 25.9 g when the time axis setting is 100 ms or greater (the settings surrounded by bold lines) and the trigger mode is auto or auto level, waveforms are displayed in roll mode. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-13 im dl850-03en appendix 1 2 3 4 5 6 app index relationship between the main channel sample rate and the sub channel sample rates of the 16-ch voltage input module main channel sample rate (s/s) number of sub channels 1 2 3 to 4 5 to 8 9 to 16 maximum sample rate 200 k 100 k 50 k 20 k 10 k 100 m 500 k 500 k 500 k 500 k 500 k 50 m 500 k 500 k 500 k 500 k 500 k 20 m 500 k 500 k 500 k 500 k 500 k 10 m 500 k 500 k 500 k 500 k 500 k 5 m 500 k 500 k 500 k 500 k 200 k 2 m 500 k 500 k 500 k 200 k 100 k 1 m 500 k 500 k 200 k 100 k 50 k 500 k 500 k 100 k 100 k 50 k 20 k 200 k 200 k 100 k 50 k 20 k 10 k 100 k 100 k 50 k 20 k 10 k 5 k 50 k 50 k 10 k 10 k 5 k 2 k 20 k 20 k 10 k 5 k 2 k 1 k 10 k 10 k 5 k 2 k 1 k 500 5 k 5 k 1 k 1 k 500 200 2 k 2 k 1 k 500 200 100 1 k 1 k 500 200 100 50 500 500 100 100 50 20 200 200 100 50 20 10 100 100 50 20 10 5 50 50 10 10 5 2 20 20 10 5 2 1 10 10 5 2 1 - 5 5 1 1 - - the bold lines surround the actual sampling range. appendix 1 relationship between the time axis setting, record length, and sample rate free datasheet http://
app-14 im dl850-03en appendix 1 relationship between the time axis setting, record length, and sample rate relationship between the main channel sample rate and the sub channel sample rates of the can bus monitor module main channel sample rate (s/s) number of sub channels 1 2 3 to 4 5 to 8 9 to 16 maximum sample rate 100 k 100 k 100 k 100 k 100 k 100 m 100 k 100 k 100 k 100 k 100 k 50 m 100 k 100 k 100 k 100 k 100 k 20 m 100 k 100 k 100 k 100 k 100 k 10 m 100 k 100 k 100 k 100 k 100 k 5 m 100 k 100 k 100 k 100 k 100 k 2 m 100 k 100 k 100 k 100 k 100 k 1 m 100 k 100 k 100 k 100 k 50 k 500 k 100 k 100 k 100 k 50 k 20 k 200 k 100 k 100 k 50 k 20 k 10 k 100 k 100 k 50 k 20 k 10 k 5 k 50 k 50 k 10 k 10 k 5 k 2 k 20 k 20 k 10 k 5 k 2 k 1 k 10 k 10 k 5 k 2 k 1 k 500 5 k 5 k 1 k 1 k 500 200 2 k 2 k 1 k 500 200 100 1 k 1 k 500 200 100 50 500 500 100 100 50 20 200 200 100 50 20 10 100 100 50 20 10 5 50 50 10 10 5 2 20 20 10 5 2 1 10 10 5 2 1 - 5 5 1 1 - - free datasheet http://
app-15 im dl850-03en appendix 1 2 3 4 5 6 app index appendix 2 relationship between the record length and the acquisition mode maximum record length that can be set the maximum record length varies as indicated below for each model depending on the number of displayed channels. when dual capturing and hard disk recording are off model number of displayed channels standard /m1 (1 g) /m2 (2 g) 9 to 16 channels 10 m 50 m 100 m 5 to 8 channels 25 m 100 m 250 m 3 to 4 channels 50 m 250 m 500 m 2 channels 100 m 500 m 1 g 1 channel 250 m 1 g 2 g unit of record length: point when dual capturing is off and hard disk recording is on model number of displayed channels standard /m1 (1 g) /m2 (2 g) 9 to 16 channels 500 m 5 g 5 g 5 to 8 channels 1 g 10 g 10 g 3 to 4 channels 2 g 20 g 20 g 2 channels 5 g 20 g 20 g 1 channel 10 g 50 g 50 g unit of record length: point when dual capturing is on and hard disk recording is off model number of displayed channels standard /m1 (1 g) /m2 (2 g) 9 to 16 channels 5 m 25 m 50 m 5 to 8 channels 10 m 50 m 100 m 3 to 4 channels 25 m 100 m 250 m 2 channels 50 m 250 m 500 m 1 channel 100 m 500 m 1 g unit of record length: point when dual capturing and hard disk recording are on model number of displayed channels standard /m1 (1 g) /m2 (2 g) 9 to 16 channels 500 m 2 g 5 g 5 to 8 channels 1 g 5 g 10 g 3 to 4 channels 2 g 10 g 20 g 2 channels 5 g 20 g 20 g 1 channel 10 g 20 g 50 g unit of record length: point free datasheet http://
app-16 im dl850-03en maximum number of history waveform acquisitions the maximum number of acquisitions varies for each module as indicated below. model record length standard /m1 (1 g) /m2 (2 g) 1 k 5000 5000 5000 2.5 k 5000 5000 5000 5 k 2976 5000 5000 10 k 1487 5000 5000 25 k 593 2381 5000 50 k 295 1189 2381 100 k 144 583 1168 250 k 57 236 474 500 k 28 116 235 1 m 13 54 111 2.5 m 4 22 46 5 m 1 10 22 10 m 1 4 10 25 m 1 *1 1 4 50 m 1 *2 1 1 100 m 1 *3 1 *1 1 250 m 1 *4 1 *2 1 *1 500 m 0 1 *3 1 *2 1 g 0 1 *4 1 *3 2 g 0 0 1 *4 unit of record length: point 1 when there are eight displayed channels 2 when there are four displayed channels 3 when there are two displayed channels 4 when there is one displayed channel maximum sample rate at which hard disk recording is possible the maximum sample rate varies as indicated below depending on the number of channels that are recorded. maximum number of channels maximum sample rate 16 channels 100 ks/s 8 channels 200 ks/s 3 channels 500 ks/s 1 channel 1 ms/s appendix 2 relationship between the record length and the acquisition mode free datasheet http://
app-17 im dl850-03en appendix 1 2 3 4 5 6 app index appendix 3 default values operation key soft key setting ch1 to 16 (hs10m12 (701250)) v/div 50.0 v/div position 0.00 div label channel number coupling dc probe 10:1 bandwidth full v scale div v zoom 1 offset 0.0 v invert off linear scale off ch1 to 16 (hs1m16 (701251)) v/div 50.0 v/div position 0.00 div label channel number coupling dc probe 10:1 bandwidth full v scale div v zoom 1 offset 0.00 v invert off linear scale off ch1 to 16 (noniso_10m12 (701255)) v/div 50.0 v/div position 0.00 div label channel number coupling dc probe 10:1 bandwidth full v scale div v zoom 1 offset 0.0 v invert off linear scale off ch1 to 16 (hv (with rms) (701260)) v/div 5.000 v/div position 0.00 div label channel number coupling dc probe 1:1 bandwidth full v scale div v zoom 1 offset 0.000 v invert off linear scale off ch1 to 16 (universal (701261)/universal (aaf) (701262)) v/div 5.000 v/div position 0.00 div label channel number coupling dc bandwidth full v scale div v zoom 1 operation key soft key setting ch1 to 16 (universal (701261)/universal (aaf) (701262)) offset 0.000 v invert off linear scale off ch1 to 16 (temp/hpv (701265)) v/div 5.000 v/div position 0.00 div label channel number coupling dc bandwidth full v scale div v zoom 1 offset 0.000 v invert off linear scale off ch1 to 16 (strain_ndis (701270)/strain_dsub (701271)) value/div 4000.0 str/div range 20000 str label channel number excitation 2 v gauge factor 2.00 bandwidth full upper 20000 str lower C20000 str range unit str invert off linear scale off ch1 to 16 (accl/volt (701275)) v/div 50.0 v/div position 0.00 div label channel number coupling dc probe 10:1 bandwidth full v scale div v zoom 1 offset 0.00 v invert off linear scale off ch1 to 16 (freq (701280)) value/div 1 khz/div position 0.00 div label channel number fv setup frequency input setup user v scale div v zoom 1 offset 0.000 hz linear scale off ch1 to 16 (hs100m12 (720210)) v/div 50.0 v/div position 0.00 div label channel number coupling dc probe 10:1 bandwidth full free datasheet http://
app-18 im dl850-03en operation key soft key setting v scale div v zoom 1 offset 0.0 v invert off linear scale off ch1 to 16 (16ch volt (720220)) v/div 2.000 v/div position 0.00 div label channel number coupling dc bandwidth full v scale div v zoom 1 offset 0 mv invert off linear scale off ch1 to 16 (logic (720230)) position 0.00 div label channel number bit mapping auto ch13 to 16 (can monitor (720240)) all subchannels setup input off label channel number message format std id (hex) 000 byte count auto start bit 0 bit count 1 byte order big value type unsigned factor 1.0000 offset 0.0000 port setup bit rate 500 kbps sample point 85% sync jump width 2 bit sample num 1 listen only off terminator off scale auto one shot out message format std id (hex) 000 frame data dlc 0 data (hex) 00 00 00 00 00 00 00 00 start/stop stop time/div 1 ms/div acquire record length 10 k acquisition mode normal trigger mode auto acquisition count infinite hd recording off time base int dual capture mode off operation key soft key setting capture setup time/div 100 s/div capture length 10 k capture mode auto select number current mag 100 s/div position 0.0 div window on main ratio 50% window layout side format main event display off file save_waveform auto naming numbering data type binary range main save_setup auto naming numbering save_others auto naming numbering data type screen image format png color on menu data save off data save setup auto naming numbering data type binary image save off image save setup auto naming numbering image format png color on back ground normal display format quad extra window off graticule grid scale value on setup allocation mode auto trace label off dot connect line accumulate off manual event off ch. information narrow x-y window1/2 off display off start point C5 div end point 5 div mode auto position/delay position 50.0% delay 0.0 s simple/enhanced setting simple source ch1 slope rising level 0 v appendix 3 default values free datasheet http://
app-19 im dl850-03en appendix 1 2 3 4 5 6 app index operation key soft key setting hysteresis hold off 0.00 s cursor type off horizontal trace ch1 cursor1 3.00 div cursor2 C3.00 div vertical trace ch1 cursor1 C4.000 div cursor2 4.000 div marker marker # marker1 x trace ch1 position C3.000 div marker from mark degree trace ch1 cursor1 C4.000 div cursor2 4.000 div refvalue 360 ref1 C2.000 div ref2 2.000 div h & v trace ch1 v-cursor1 C4.000 div v-cursor2 4.000 div h-cursor1 3.00 div h-cursor2 C3.00 div measure mode off distal/mesial/proximal mode % distal 90.0% mesial 50.0% proximal 10.0% high/low auto delay setup mode off polarity rising edge count 1 reference trace range main time range1 C5.00 div time range2 5.00 div (when mode is set to on, statistics) 1-cycle mode off (when mode is set to cycle statistics) cycle trace ch1 operation key soft key setting go/no-go mode off logic and actcondition fail sequence continue acquisition count infinite remote off beep off print image off save data off save image off send mail off time range1 C5.00 div time range2 5.00 div history display mode 1 record select record 0 start record 0 end record oldest number search mode off math mode off select math trace 1 opeartion:math1 off opeartion:math2 off opeartion:math3 off opeartion:math4 off opeartion:math5 off opeartion:math6 off opeartion:math7 off opeartion:math8 off scaling mode auto start point C5.00 div end point 5.00 div fft points 1 k window hanning fft display off trace ch1 start point C5.00 div fft points 1 k window hanning vert. scale mode auto main ratio 50% window layout side horiz. axis log hz zoom display (zoom1) on display (zoom2) off position 0.00 div main ratio 50% window layout side format zoom1 main appendix 3 default values free datasheet http://
app-20 im dl850-03en operation key soft key setting search type edge edge trace ch1 level 0.0 v polarity rising hysteresis count 1 result window zoom1 pattern no. no match event select number 1 result window zoom1 select event capture logic pattern trace installation channel bit setting x result window zoom1 pattern no. no match start point C5.00 div end point 5.00 div time absolute time current date and time result window zoom1 print menu print to builtin utility system config date/time display on format year/month/day time synchro time synchro off irig format a modulation am impedance 50 language menu english message english lcd auto off off auto off time 1 min brightness 3 storage manager media hd usb keyboard english usb function tmc remote ctrl device usb usb function tmc network tcp/ip dhcp on dns auto ftp/web server user name anonymous timeout(s) 1800 operation key soft key setting mail attached image file off timeout (s) 15 net print lpr name passthru timeout (s) 15 net drive loginname anonymous passive off timeout (s) 1800 sntp timeout (s) 3 adjust at poweron off preference power on action start off action off logic setup numerical format bit cursor order 1 -> 8 bit order 1 -> 8 terminal setup remote stop on trigger out normal pulse width 1 msec display setup menu font size large base color blue scale font size large scale on item all level indicator on intensity grid 2 cursor 8 marker 8 key/knob setup click sound on start/ stop response time quick key protect type all release type key self test keyboard appendix 3 default values free datasheet http://
app-21 im dl850-03en appendix 1 2 3 4 5 6 app index appendix 4 usb keyboard key assignments dl850/DL850V usb keyboard aquire ctrl+a math ctrl+b execute print ctrl+c or print screen display ctrl+d file ctrl+f help ctrl+g history ctrl+h execute save ctrl+i manualtrig ctrl+j key protect ctrl+k all ch ctrl+l measure ctrl+m num lock ctrl+n position/delay ctrl+p execute clear trace ctrl+q execute reset ctrl+r shift ctrl+s mode (trigger) ctrl+t cursor ctrl+u simple/enhanced ctrl+w zoom ctrl+z ch1 ctrl+1 ch2 ctrl+2 ch3 ctrl+3 ch4 ctrl+4 ch5 ctrl+5 ch6 ctrl+6 ch7 ctrl+7 ch8 ctrl+8 ch9 ctrl+9 ch10 ctrl+0 set ctrl+enter setup ctrl+\ utility ctrl+/ ch11 ctrl+f1 ch12 ctrl+f2 ch13 ctrl+f3 ch14 ctrl+f4 ch15 ctrl+f5 ch16 ctrl+f6 turn zoom position to the right ctrl+insert turn vertical position to the right ctrl+home turn zoom position to the left ctrl+delete turn vertical position to the left ctrl+end start/stop ctrl+* or f12 dual capture ctrl+shift+a fft ctrl+shift+b print menu ctrl+shift+c x-y ctrl+shift+d menu ctrl+shift+i go/no-go ctrl+shift+m action ctrl+shift+t search ctrl+shift+z cal ctrl+shift+\ exp (ch key) e when num lock is illuminated on the dl850/DL850V k (ch key) + enter (ch key) k when num lock is illuminated on the dl850/DL850V m (ch key) + enter (ch key) m when num lock is illuminated on the dl850/DL850V free datasheet http://
app-22 im dl850-03en dl850/DL850V usb keyboard 1 (ch key) 1 when num lock is illuminated on the dl850/DL850V 2 (ch key) 2 when num lock is illuminated on the dl850/DL850V 3 (ch key) 3 when num lock is illuminated on the dl850/DL850V 4 (ch key) 4 when num lock is illuminated on the dl850/DL850V 5 (ch key) 5 when num lock is illuminated on the dl850/DL850V 6 (ch key) 6 when num lock is illuminated on the dl850/DL850V 7 (ch key) 7 when num lock is illuminated on the dl850/DL850V 8 (ch key) 8 when num lock is illuminated on the dl850/DL850V 9 (ch key) 9 when num lock is illuminated on the dl850/DL850V 0 (ch key) 0 when num lock is illuminated on the dl850/DL850V enter (ch key) enter when num lock is illuminated on the dl850/ DL850V . (ch key) . when num lock is illuminated on the dl850/DL850V C (ch key) C when num lock is illuminated on the dl850/DL850V esc esc or f8 select soft key 1 f1 select soft key 2 f2 select soft key 3 f3 select soft key 4 f4 select soft key 5 f5 select soft key 6 f6 select soft key 7 f7 snap shot pause turn zoom mag to the right insert turn vertical scale to the right home turn horizontal time/div to the right page up turn zoom mag to the left delete turn vertical scale to the left end turn horizontal time/div to the left pagedown right arrow left arrow up arrow down arrow appendix 4 usb keyboard key assignments free datasheet http://
app-23 im dl850-03en appendix 1 2 3 4 5 6 app index appendix 5 block diagrams block diagram of the dl850/DL850V acquisition block diagram cpu cpu block diagram acq memory 250 mw - 2000 mw gigazoom engine2 (acq-asic) sd memory card printer controller esata usb 1000 base-lan gp-ib gp-ib port main memory 10.4 color tft xga 1024 768 internal thermal printer (100 mm width) video out(xga) ethernet usb port go/no-go go/no-go port hdd 1.5 gb ext. clk in ext. trig in/out plug-in module ch1-ch16 graphic controller signal flow of the dl850/DL850V the input terminal signal flow varies for each model. in this example, we will explain the signal flow for the high-speed 10 ms/s, 12-bit isolation module, 701250 (hs10m12). (for the signal flow of a particular module, see the modules block diagram.) the input signal applied to the two input terminals is first proce ssed by each module s input section. in the 701250 (hs10m12), the signal is attenuated and amplified by an attenuator (att) and amplifier (amp). then, the signals bandwidth is limited by a filter (flt). next, the signal is sampled at a rate of 10 ms/s (10,000,000 times a second) by an a/d converter and converted into digital data. then, the signal passes through an isolator and an asic to a waveform-processing asic (acq-asic). the 16 channel of digital data that is sent to the cpu board pa sses through the gigazoom engine2 and is stored to the acquisition memory (acq memory). the digital data stored to the acq memory is compressed quickly by the gigazoom engine2 waveform processor, and then it passes through a graphic controller and is shown on the xga tft color display. free datasheet http://
app-24 im dl850-03en plug-in module block diagram 701250 (hs10m12) asic 12 flt amp a/d att 12 isolation block flt amp a/d att isolator 701255 (noniso_10m12) asic 12 flt amp a/d att 12 flt amp a/d att 701251 (hs1m16) 701260 (hv (with rms)) asic 16 flt amp a/d att 16 isolation block flt amp a/d att isolator 701261 (universal) 701262 (universal (aaf)) asic 16 flt amp a/d 16 isolation block isolator h rjc h l rjc att l flt amp a/d att cpu 701265 (temp/hpv) isolation block h l rjc amp 16 a/d att h l rjc amp 16 a/d att asic isolator cpu 701270 (strain_ndis) 701271 (strain_dsub) 16 flt amp ad isolation block isolator dac asic inst. amp 16 flt amp ad dac inst. amp bridge power bridge power + - + - + - + - 701275 (accl/volt) asic 16 flt amp ad att 16 isolation block flt amp ad att current source current source isolator 701280 (freq) asic flt amp att isolation block flt amp att cpu asic comp comp isolator 720210 (hs100m12) asic 12 flt amp a/d att 12 isolation block flt amp a/d att isolator 720220 (16chvolt) asic 16 isolation block isolator flt amp a/d m u x 16 ch1-ch16 16 8 8 pod-a pod-b 720230 (logic) high-speed logic probe isolated logic probe 720240(can monitor) fpga isolator can-h can-l can controller interface can-h can-l can controller interface cpu appendix 5 block diagrams free datasheet http://

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