february 2012
we, samsung, declare that our component chip resistor is produced in accordance with eu rohs directive. 1. rohs compliance and restriction of br the following restricted materials are not used in packaging materials as well as products in compliance with the law and rest riction. - cd, pb, hg, cr+6, as, br and the compounds, pcb, asbestos - bromic materials : pbbs, pbbos, pbdo, pbde, pbb 2. no use of materials breaking ozone layer the following ods materials are not used in our fabrication process. - ods material : freon, haron, 1-1-1 tce, ccl4, hcfc if you want more detailed information,please visit samsung electro-mechanics website [http://www.sem.samsung.com, http://www.semlcr.com]
operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value contents operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms(rc series) low ohms(rut series) ultra low ohms(ru series) ultra low ohms(ruk series) ultra low ohms(ruw series) arrays(convex type) arrays(concave type) arrays(flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value 4 5 6 8 7 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38
operation notes to maintain proper quality of chip components, the following precautions are required for storage environment, method and period. storage environment - make sure that the ambient temperature is within 5 ~40 and the ambient humidity is within 20~70%rh. - chip components may be deformed, if the temperature of packaged components exceeds 40 . - do not store where the soldering properties can be deteriorated by harmful gas such as sulphurous gas, chlorine gas, etc. - bulk packed chip components should be used as soon as the seal is opened, thus preventing the solderability from deteriorating. - the remaining unused chips should be put in the original bag and sealed again or store in a desiccator containing a desiccating agent. storage time period stored chip components should be used within 6 months after receiving the components. if 6 months or more have elapsed, please check the solderability before actually using. chip resistors are designed for general electronic devices such as home appliances, computer, mobile communications, digital circuit, etc. if you require our products with high reliability-performing at more than 125 �? or below -55 �? - for medical equipments, aircrafts, high speed machines, military usage, and items that can affect human life or if you need to use in specific conditions (corrosive gas atmosphere like h 2 s etc.), please contact us beforehand. normal operation temperature ranges ( �? ) as follows. -1608, 2012, 3216(general, precision) : -55 �? ~+155 �? -others (rectangular, array, trimmable) : -55 �? ~+125 �? although resistor body is coated, sharp excessive impact should be avoided to prevent damages and adverse effects on characteristics (resistor value, open circuited, t.c.r.). applications please give more attention not to press the chip owing to the nozzle's improper height when it is mounted on pcb. (excessive pressure may cause exterior damage, change in resistance, circuit open, etc.) mounting storage these products are designed and produced for applying to the ordinary electronic equipments. (av equipment, oa equipment,telecommunication equipment, etc) consult with our sales department before applying in the devices that require extremely high reliability such as medical equipments, transport equipments, aircrafts/spacecrafts, nuclear power controllers, fuel controllers, car equipments including car accessories and other safety devices. following special environments, and such environmental conditions may affect the performance of the product. please verify the performance and reliability thoroughly prior to use. a) using in various type of liquid including water, oil, organic solvent and other chemicals. b) using in the places where the products are exposed to direct sunlight, sea wind, corrosive gases (including cl 2 , h 2 s, nh 3 , so 2 , no 2 ), static electricity, electromagnetic waves and dusty air. c) using close to heat generating components or other flammable items. d) using in the places that is sealed or coated with resins or other coating materials after soldering. e) using in places subject to dew condensation. these products are not radiation resistant. the company is not responsible for any problems resulting from using of the products under the conditions not recommended herein. the company should notify any safety issues of the products to the customer. and the safety of the products should be monitored by the customer periodically. safety precautions after soldering cleaning, soldering flux & ionic cleaning liquid should be avoided on product. if any possibility on product, please take a test before usage. cleaning manual work whenever separating chip resistor from pcb, do not re-use the chip resistor for circuit safety. electrical specification of chip resistors can be changed by soldering iron after separation. re-use of separated chip resistor should be prohibited. do not use more than rated voltage. (please check the contents of each product) others chip resistor installation on pcb is a similar phenomenon on to a chocolate chip on top of a cake. pcb has enough flexibility on outer force but chip resistor can be defected without any bending. (by chip resistor use of ceramic, solder, metal) therefore, when separating a chip resistor from a pcb, beware of any crack on the chip. caution for chip resistor seperation from pcb.
example of land pattern design 4 5 when designing p.c.b, the shape and size of the solder lands must allow for the proper amount of solder under the resistor. the amount of solder at the end terminations has a direct effect on the probability that the chip will crack. the greater amount of solder, the amount of stress on the chip, and the more likely that it will break. use the following illustrations as guidelines for proper ?older lands design? type a b 2a+b c 1005 1608 2012 3216 3225 5025 6432 0.7 0.9 1.0 1.4 1.4 1.5 1.5 0.5 0.8 1.4 1.8 1.8 3.3 4.6 1.9 2.6 3.4 4.6 4.6 6.3 7.6 0.5 0.8 1.3 1.6 2.6 2.5 3.2 (unit: mm) type a b 2a+b c 0402 0603 1005 1608 2012 3216 3225 5025 6432 0.17 0.37 0.6 0.8 0.9 1.3 1.3 1.4 1.4 0.20 0.28 0.5 0.8 1.4 1.8 1.8 3.3 4.6 0.54 1.02 1.7 2.4 3.2 4.4 4.4 6.1 7.4 0.18 0.29 0.5 0.8 1.2 1.5 2.4 2.4 3.0 (unit: mm) type a b c d e p 1 p 2 062p 064p 10at 102p 104p 164p 0.20 0.20 0.4 0.4 0.7 0.7 0.20 0.20 0.4 0.4 0.3 0.5 0.30 0.20 0.25 0.25 0.2 0.3 0.30 0.30 0.5 0.5 0.5 0.9 0.30 0.30 0.5 0.5 0.5 0.8 0.6 0.5 0.65 0.65 0.55 0.9 - 0.5 - 0.5 0.8 (unit: mm) a b a c : land pattern : chip resistor : land pattern : chip resistor a p 2 p 1 p b c d e convex type flow soldering reflow soldering type a b 2a+b c 1005 1608 2012 3216 5025 6432 0.8 0.8 0.9 1.7 2.15 2.3 0.5 0.5 0.8 1.2 1.8 3.0 2.1 2.1 2.6 4.6 6.1 7.6 0.5 0.8 1.2 1.4 2.6 3.3 (unit: mm) reflow soldering (ru,ruw,ruk) this is the recommended land pattern for designing pcb. this pattern does not guarantee any characteristic of other product. abc d e concave type example of land pattern design for chip type for array type type a b c d e p 102p 104p 0.3 0.3 0.3 0.3 0.2 0.2 0.5 0.5 0.4 0.4 0.5 0.5 (unit: mm) the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
recommended soldering conditions since chip resistors come into direct contact with melted solder during soldering, it is exposed to potential mechanical stress caused by the sudden temperature change. the chip resistors may also be subject to silver migration, and to contamination by the flux. because of these factors, soldering technique is critical. there are 3 soldering methods. - flow(wave) soldering. - reflow soldering. (reflow soldering is broadly divided into the total heating method and local heating method.) - iron soldering. features pcb solder primary wave secondary wave there are two types of soldering methods in flow(wave) soldering. one is single wave soldering, the other is a double waves soldering. however, double waves soldering is mainly used. this method is designed so that the continuous and multiple dipping processes by waves of solder having completely different primary and secondary characteristics and waveforms. with the primary wave, a comparatively strong jet flow is used to remove the flux gas and to solder. with the secondary wave, it is used to remove excessive solder. with the primary wave, the solder flows into a very small gap between components and air bubbles remaining on the soldered joint are removed. with the secondary wave, the peel back is used to prevent bridging. preheating if a chip component is heated suddenly during soldering, it may be cracked by the thermal shock caused by the temperature difference between the surface and the inside of the chip. to prevent this, a full preheating is necessary. in case of wave soldering, the temperature difference between solder and surface of the component is kept within 150 �? . also when cooling is done by dipping into solvent, care should be taken to keep the temperature difference within 150 �? . standard soldering condition soldering must be carried out without exceeding the approved soldering temperature and time shown within the shaded area of the right graph. an excessively long soldering time or high soldering temperature results in leaching of the outer terminations. when a pcb is warped, mechanical stress applied to the chip will be increased and might be a cause of chip crack, especially if there is big amount of solder on the chip. so, care should be taken not to use excessive amount of solder on the pcb. for the flow(wave) soldering, the solder amount can be controlled by land size. soldering methods reflow soldering total heating local heating laser wave soldering single wave double waves infrared ray iron soldering convection/infrared hot air hot plate optical beam air heater < flow soldering> abstract flow(wave) soldering pre-heating 120 sec. min. time(sec.) soldering temp.( �? ) pre-heating temp.( �? ) gradual cooling in the air 245 �? 10 �? 5 sec. max. � � �
1206(3216) and below :150 �? max. �| t
6 7 pre-heating and cooling in the reflow soldering method, a full pre- heating at the proper temperature is necessary to dry and activate solder paste. tomb -stoning can be reduced by preheating at 150~180 for more than 1 minute. also when cooling is done by dipping into solvent, care should be taken to keep the temperature difference within 150 . standard reflow soldering condition soldering must be carried out without exceeding the approved soldering temperature and time shown within the shaded area of the right graph. this prevents the terminations from leaching and characteristics from deteriorating. when soldering is repeated, the allowed time is the accumulated time. standard solder amount when a pcb is warped, mechanical stress applied to the chip should be reduced, and for doing so, care should be taken not to use excessive amount of solder on the pcb. in case of the reflow method, the thickness of the coated solder paste is controlled to prevent excessive solder. the thickness of solder paste should be 100~300 �w . when using a soldering iron or any other soldering operation, the permissible temperature and time should not be exceeded that in the reflow soldering. in other to prevent the external terminations from leaching and characteristics from deterioratin g, the tip of the soldering iron should not touch the chip component (ceramic element, resin case, etc.). soldering with a solderi ng iron and correcting with a soldering iron can be performed right the following conditions. temperature at tip soldering iron output end of soldering iron note 350 �? max. 20 - watt max. �? 3mm max. do not directly touch the chip by the tip of the iron. item condition ceramic substrate inner electrode resistor glass coat protective coat terminal coat ni plate sn plate al 2 o 3 ag / cu ag-pd / cu-ni bi 2 o 3 , sio 2 polymer / glass ni-cr alloy ni sn name no. main substance < reflow soldering> tombstoning and prevention when reflow soldering, or especially vapor phase soldering (vps), small chip components of less than rc3216 type may break away from solder and stand on end. this is commonly known as tombstoning or the manhattan phenomenon. - preventing tombstoning keep land size as small as possible. keep the pre-heating conditions properly ( pre-heating temperature : 150 ~ 180? pre-heating time : more than 1 min.) keep the solder paste quantity not too much and uniform for every lands. keep the position of chips properly. at around the soldering temperature, keep minimize the difference of the temperature between the electrodes of a chip. reflow soldering iron soldering general structure of the chip resistor pre-heating 217 �? soldering temp.( �? ) 200 �? 150 �? gradual cooling in the air 245 �? 10 �? 10 sec. max. time(sec.) the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. general structure operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
general 1 0 0 0.20 ?.02 0.30 ?.03 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 2.55 ?.20 2.50 ?.20 3.20 ?.20 0.13 ?.02 0.23 ?.03 0.35 ?.05 0.45 ?.10 0.50 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.10 ?.03 0.10 ?.05 0.20 ?.10 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.45 ?.20 0.60 ?.20 0.60 ?.20 0.10 ?.03 0.15 ?.05 0.25 ?.10 0.35 ?.10 0.35 ?.20 0.40 ?.20 0.40 ?.20 0.60 ?.20 0.60 ?.20 rc0402 rc0603 rc1005 rc1608 rc2012 rc3216 rc3225 RC5025 rc6432 type 01005 0201 0402 0603 0805 1206 1210 2010 2512 inch 1/32 1/ 20 1/16 1/10 1 / 8 1 / 4 1 / 3 2/3 1 power(w) 0.40 ?.02 0.60 ?.03 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 3.20 ?.20 5.00 ?.20 6.30 ?.20 lwh i 1 i 2 average weight very small, thin, and light weight. both flow and reflow soldering are applicable. owing to the reduced lead inductance, the high frequency characteristic is excellent. suitable size and packaging for surface mount assembly. the product of lead-free terminal is rohs compliant. pbo(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. general purpose home appliances (dvd, digital tv,camcoder, vtr, digital camera, audio,tunner) for computers & communications (notebook, memory module, mobile, network equipment, etc) 0.04 �a 0.15 �a 0.6 �a 2.1 �a 4.9 �a 9.5 �a 16 �a 26 �a 41 �a the part number system shall be in the following format (unit: mm) rc: chip resistor code designation r c 2 0 1 2 j dimension & size code tolerance 0402: 0.4 �? 0.2( �x ) - 01005(inch) 0603: 0.6 �? 0.3( �x ) - 0201(inch) 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 3225: 3.2 �? 2.5( �x ) - 1210(inch) 5025: 5.0 �? 2.5( �x ) - 2010(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) f : ?% g : ?% j : ?% k : ?0% 3 or 4 digits coding system (iec coding system) 3digits (e-24 series) 4digits (e-96 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es: tape packaging 10" as: tape packaging 13" feature application structure and dimensions parts numbering system w l 1 h l i 2 �� �� �� �� �� ��
8 9 1 �? ~10 10 �? ~1 -55 �? ~+155 �? -55 �? ~+125 �? 70 �? rc 0603 rc 1005 rc 1608 rc 2012 rc 3216 rc 3225 rc 5025 rc 6432 rc 0402 type 1/20 1/16 1/10 1/8 1/4 1/3 2/3 1 1/32 power rating (w) 25(v) 50(v) 150(v) 200(v) 15(v) working voltage (max) 50(v) 100(v) 300(v) 400(v) 30(v) 1~ 9 . 9 �?�� +300,-200 10 �? ~ 1 �� ?00 (0603 : ?50) 1. 1 ~ 10 �� ?00 overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') specification power derating curve percentage of the rated dissipation(%) 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) ambient temperature( �? ) 70 125 operation area <1005, 1608, 2012, 3216, 3225, 5025, 6432> <0402, 0603> -55 -30 0 30 60 90 120 150 70 155 100 80 60 40 20 0 the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. - left 2 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 10 3 left 2 digits: 10 last 1 digit: 3 10 3 = 10 �? 10 3 �? = 10 000 �? =10k �? 0603, 1005 type: no marking. 0603, 1005, 1608 type: no marking. 3 digits indication (e-24 series) - left 3 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 100 2 left 3 digits: 100 last 1 digit: 2 100 2 = 100 �? 10 2 �? = 100 00 �? =10 k �? 4 digits indication (e-96 series) �� �� �� �� �� �� �� �� �� �� �� �� �� �� marking iec code system (e-96, e-24) 100 102 105 107 110 113 115 118 121 124 127 130 133 137 140 143 147 150 154 158 162 165 169 174 10 11 12 13 15 16 e-96 e-24 178 182 187 191 196 200 205 210 215 221 226 232 237 243 249 255 261 267 274 280 287 294 301 309 18 20 22 24 27 30 e-96 e-24 316 324 332 340 348 357 365 374 383 392 402 412 422 432 442 453 464 475 487 499 511 523 536 549 33 36 39 43 47 51 e-96 e-24 562 576 590 604 619 634 649 665 681 698 715 732 750 768 787 806 825 845 866 887 909 931 953 976 56 62 68 75 82 91 e-96 e-24 10 ~ 99 �? : ?00 10 0 ~ 1 : ?50 operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
precision the part number system shall be in the following format 1002 rc: chip resistor code designation r c 1005 d dimension & size code tolerance 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 3225: 3.2 �? 2.5( �x ) - 1210(inch) 5025: 5.0 �? 2.5( �x ) - 2010(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) d : ?.5% 3 or 4 digits coding system (iec coding system) 3digits (e-24 series) 4digits (e-96 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es: tape packaging 10" as: tape packaging 13" low tolerance (?.5%) both flow and reflow soldering are applicable. suitable size and packaging for surface mount assembly. owing to the reduced lead inductance, the high frequency characteristic is excellent. the product of lead-free terminal is rohs compliant. pbo(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. circuit for high precision resistance and reliability. for signal control part for tunning circuit. feature application structure and dimensions parts numbering system w l 1 h l i 2 �� �� �� �� �� �� �� �� 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 2.55 ?.20 2.50 ?.20 3.20 ?.20 0.35 ?.05 0.45 ?.10 0.50 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.20 ?.10 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.45 ?.20 0.60 ?.20 0.60 ?.20 0.25 ?.10 0.35 ?.10 0.35 ?.20 0.40 ?.20 0.40 ?.20 0.60 ?.20 0.60 ?.20 rc1005 rc1608 rc2012 rc3216 rc3225 RC5025 rc6432 type 0402 0603 0805 1206 1210 2010 2512 inch 1/16 1/10 1 / 8 1 / 4 1 / 3 2/3 1 power(w) 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 3.20 ?.20 5.00 ?.20 6.30 ?.20 lwh i 1 i 2 average weight 0.6 �a 2.1 �a 4.9 �a 9.5 �a 16 �a 26 �a 41 �a (unit: mm)
10 11 - left 2 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 10 3 left 2 digits: 10 last 1 digit: 3 10 3 = 10 �? 10 3 �? = 10 000 �? =10k �? 1005 type: no marking. 1005, 1608 type: no marking. 3 digits indication (e-24 series) - left 3 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 100 2 left 3 digits: 100 last 1 digit: 2 100 2 = 100 �? 10 2 �? = 100 00 �? =10 k �? 4 digits indication (e-96 series) �� �� �� �� �� �� �� �� �� �� �� �� �� �� 100 80 60 40 20 0 percentage of the rated dissipation(%) ambient temperature( �? ) operation area <1005, 1608, 2012, 3216, 3225, 5025, 6432> -55 -30 0 30 60 90 120 150 70 155 specification the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. power derating curve marking 1 �? ~10 -55 �? ~+155 �? 70 �? rc 1005 rc 1608 rc 2012 rc 3216 rc 3225 rc 5025 rc 6432 type 1/16 1/10 1/8 1/4 1/3 2/3 1 power rating (w) 50(v) 150(v) 200(v) working voltage (max) 100(v) 300(v) 400(v) overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) 100 101 102 104 105 106 107 109 110 111 113 114 115 117 118 120 121 123 124 126 127 129 130 132 133 135 137 138 140 142 143 145 147 149 150 152 154 156 158 160 162 164 165 167 169 172 174 176 100 102 105 107 110 113 115 118 121 124 127 130 133 137 140 143 147 150 154 158 162 165 169 174 15 16 10 11 12 13 e192 e96 e24 e192 e96 e24 178 180 182 184 187 189 191 193 196 198 200 203 205 208 210 213 215 218 221 223 226 229 232 234 178 182 187 191 196 200 205 210 215 221 226 232 18 20 22 237 240 243 246 249 252 255 258 261 264 267 271 274 277 280 284 287 291 294 298 301 305 309 312 237 243 249 255 261 267 274 280 287 294 301 309 24 27 30 e192 e96 e24 e192 e96 e24 316 320 324 328 332 336 340 344 348 352 357 361 365 370 374 379 383 388 392 397 402 407 412 417 316 324 332 340 348 357 365 374 383 392 402 412 33 36 39 422 427 432 437 442 448 453 459 464 470 475 481 487 493 499 505 511 517 523 530 536 542 549 556 422 432 442 453 464 475 487 499 511 523 536 549 43 47 51 e192 e96 e24 e192 e96 e24 562 569 576 583 590 597 604 612 619 626 634 642 649 657 665 673 681 690 698 706 715 723 732 741 562 576 590 604 619 634 649 665 681 698 715 732 56 62 68 750 759 768 777 787 796 806 816 825 835 845 856 866 876 887 898 909 920 931 942 953 965 976 988 750 768 787 806 825 845 866 887 909 931 953 976 75 82 91 e192 e96 e24 e192 e96 e24 significant figure of resistance value the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. 1~ 9 . 9 �?�� +300 10 �? ~ 1 �� ?00 1. 1 ~ 10 �� ?00 operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
jumper 0.20 ?.02 0.30 ?.03 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 2.55 ?.20 2.50 ?.20 3.20 ?.20 1.00 ?.10 1.00 ?.10 1.60 ?.10 0.13 ?.02 0.23 ?.03 0.35 ?.05 0.45 ?.10 0.50 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.35 ?.10 0.35 ?.10 0.50 ?.10 0.10 ?.03 0.10 ?.05 0.20 ?.10 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.45 ?.20 0.60 ?.20 0.60 ?.20 0.20 ?.10 0.15 ?.10 0.30 ?.15 0.10 ?.03 0.15 ?.05 0.25 ?.10 0.35 ?.10 0.35 ?.20 0.40 ?.20 0.40 ?.20 0.60 ?.20 0.60 ?.20 0.25 ?.10 0.25 ?.10 0.30 ?.15 rc0402 rc0603 rc1005 rc1608 rc2012 rc3216 rc3225 RC5025 rc6432 rp102p rp104p rp164p type 01005 0201 0402 0603 0805 1206 1210 2010 2512 0404 0804 1206 inch 1/32 1/ 20 1/16 1/10 1 / 8 1 / 4 1 / 3 2/3 1 1/16 1/16 1/16 power(w) 0.40 ?.02 0.60 ?.03 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 3.20 ?.20 5.00 ?.20 6.30 ?.20 1.00 ?.10 2.00 ?.10 3.20 ?.10 lwt i 1 i 2 average weight very small, thin, and light weight. both flow and reflow soldering are applicable. owing to the reduced lead inductance, the high frequency characteristic is excellent. suitable size and packaging for surface mount assembly. the product of lead-free terminal is rohs compliant. pbo(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. general purpose home appliances (dvd, digital tv,camcoder, vtr, digital camera, audio,tunner) for computers & communications (notebook, memory module, mobile, network equipment, etc) 0.04 �a 0.15 �a 0.6 �a 2.1 �a 4.9 �a 9.5 �a 16 �a 26 �a 41 �a 1.1 �a 2.2 �a 8.9 �a (unit: mm) feature application structure and dimensions w l 1 t l i 2 �� �� �� �� �� �� - - - - - - - - - 0.33 ?.10 0.40 ?.15 0.60 ?.15 a 1 - - - - - - - - - 0.33 ?.10 0.30 ?.15 0.40 ?.15 a 2 - - - - - - - - - 0.65 ?.10 0.50 ?.15 0.80 ?.15 p �� �� �� �� �� �� l a 1 a 2 p t w i 2
12 13 the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') 0 0 0 the part number system shall be in the following format rc: chip resistor rp : array code designation r c 2 0 1 2 j dimension & size code tolerance 0402: 0.4 �? 0.2( �x ) - 01005(inch) 0603: 0.6 �? 0.3( �x ) - 0201(inch) 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 3225: 3.2 �? 2.5( �x ) - 1210(inch) 5025: 5.0 �? 2.5( �x ) - 2010(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) 102p: 1.0 �? 1.0( �x ) - 0404(inch) 104p: 2.0 �? 1.0( �x ) - 0804(inch) 164p: 3.2 �? 1.6( �x ) - 1206(inch) j : max 50 �? jumer: 000 cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es: tape packaging 10" as: tape packaging 13" power derating curve parts numbering system percentage of the rated dissipation(%) 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) ambient temperature( �? ) 70 125 operation area <1005, 1608, 2012, 3216, 3225, 5025, 6432> <0402, 0603> -55 -30 0 30 60 90 120 150 70 155 100 80 60 40 20 0 the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. jumper resistors rc0402 rc0603 rc1005 rc1608 rc2012 rc3216 rc3225 RC5025 rc6432 rp102p rp104p rp164p type 50m �? max resistance 1.0 (a) 2.0 (a) 1.0 (a) 0.5 (a) current rating 70 �? rated ambient temperature -55 �? ~ +125 �? o x o x rated working temperature marking 1 ~ 1m operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
low ohms(rc series) 0.20 ?.10 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.45 ?.20 0.60 ?.20 0.60 ?.20 rc1005 rc1608 rc2012 rc 3216 rc 3225 rc 5025 rc 6432 type inch 1/16 1/10 1/8 1/4 1/3 2/3 1 power(w) 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 3.20 ?.20 5.00 ?.20 6.30 ?.20 lwhi 1 i 2 average weight (unit: mm) r68 rc: chip resistor code designation r c 6432 j dimension & size code tolerance 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 3225: 3.2 �? 2.5( �x ) - 1210(inch) 5025: 5.0 �? 2.5( �x ) - 2010(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) f: ?% g: ?% j : ?% 3 or 4 digits coding system (e-24 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es: tape packaging 10" as: tape packaging 13" 0402 0603 0805 1206 1210 2010 2512 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 2.55 ?.20 2.50 ?.20 3.20 ?.20 0.35 ?.05 0.45 ?.10 0.50 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.55 ?.10 0.25 ?.10 0.35 ?.10 0.35 ?.20 0.40 ?.20 0.40 ?.20 0.60 ?.20 0.60 ?.20 0.6 �a 2.1 �a 4.9 �a 9.5 �a 16 �a 26 �a 41 �a under 1 ohms, precision resistance. both flow and reflow soldering are applicable. the product of lead-free terminal is rohs compliant. 100% lead-free products (pbo is not used) current detect. safe circuit through protecting over - current flow. power supplying part, dc power charger, adapter. mobile phone, hdd, dsc, lcd. feature application structure and dimensions the part number system shall be in the following format parts numbering system w l 1 h l i 2 �3 �3 �� �� �� �� �� ��
14 15 -55 ~+155 �? 70 �? 0.1~0.98 type power rating (w) working voltage (v, max) tcr (ppm/ �? ) f( �? 1%) e-24 resistance range ( �? ) g( �? 2%) e-24 j( �? 5%) e-24 rated ambient temperature rated working temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -30 0 30 60 90 120 150 ambient temperature( �? ) 70 155 rated voltage (v) = rated voltage should be lower than (max) working voltage. e-24 series e-24 series �2 rated power(w) �? normal resistance value (r) - r means decimal point. - other digits represent significant value. - example: r 22 left 1 digit: r last 2 digits: 22 r 22 = 0. 22 �? 3 digits indication - r means decimal point. - other digits represent significant value. -example: r 075 left 1 digit: r last 3 digits:075 r 075 = 0. 075 �? 4 digits indication �3 �3 �� �� �� �� �3 �3 �� �� �� �� �� �� r10 r11 r12 r13 r15 r16 r18 r20 r22 r24 r27 r30 0.10 �? 0.11 �? 0.12 �? 0.13 �? 0.15 �? 0.16 �? 0.18 �? 0.20 �? 0.22 �? 0.24 �? 0.27 �? 0.30 �? code r- value r33 r36 r39 r43 r47 r51 r56 r62 r68 r75 r82 r91 0.33 �? 0.36 �? 0.39 �? 0.43 �? 0.47 �? 0.51 �? 0.56 �? 0.62 �? 0.68 �? 0.75 �? 0.82 �? 0.91 �? code r- value rc1005 rc1608 rc2012 rc 3216 rc 3225 rc 5025 rc 6432 1/16 1/10 1/ 8 1/ 4 1/ 3 2/ 3 1 0.1 �? �?�3�?������ �? �� +700,- 600 r > 0.2 �?�� ?50 specification resistance value table power derating curve marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value (p �? r) �2
low ohms(rut series) 0.20 ?.10 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.60 ?.25 rut1005 rut1608 rut2012 rut3216 rut6432 type inch 1/10 (0.1) 1/8 (0.125) 1/4 (0.25) 1/3 (0.33) 1 (1.0) power(w) 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 6.30 ?.20 lwhi 1 i 2 average weight (unit: mm) r68 rut: current sensing resistor top mounting (face-up) code designation rut 2012 j dimension & size code tolerance 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) f: ?% g: ?% j : ?% 3 or 4 digits coding system (iec conding system) 3digits(e-24 series) 4digits(e-96 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es : tape packaging 10" as: tape packaging 13" 0402 0603 0805 1206 2512 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 3.20 ?.20 0.35 ?.05 0.45 ?.10 0.55 ?.10 0.60 ?.10 0.60 ?.10 0.25 ?.10 0.35 ?.20 0.35 ?.20 0.40 ?.20 0.60 ?.25 0.6 �a 2.1 �a 4.9 �a 9.5 �a 41 �a under 1 ohms, precision resistance. both flow and reflow soldering are applicable. ag metal is not used for termination electrode. (good sulfide - resistant) the product of lead-free terminal is rohs compliant. 100% lead-free products (pbo is not used) current detect. safe circuit through protecting over - current flow. power supplying part, dc power charger, adapter. mobile phone, hdd, dsc, lcd. feature application structure and dimensions the part number system shall be in the following format parts numbering system w l 1 h l i 2 �3 �3 �� �� �� �� �� ��
16 17 -55 ~+155 �? 70 �? 0.1~ 0.98 type power rating (w) working voltage (v, max) tcr (ppm/ �? ) f( �? 1%) e-24 resistance range ( �? ) g( �? 2%) e-24 j( �? 5%) e-24 rated ambient temperature rated working temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -30 0 30 60 90 120 150 ambient temperature( �? ) 70 155 rated voltage (v) = rated voltage should be lower than (max) working voltage. e-24 series �2 rated power(w) �? normal resistance value (r) - r means decimal point. - other digits represent significant value. - example: r 22 left 1 digit: r last 2 digits: 22 r 22 = 0. 22 �? 3 digits indication - r means decimal point. - other digits represent significant value. -example: r 075 left 1 digit: r last 3 digits:075 r 075 = 0. 075 �? 4 digits indication �3 �3 �� �� �� �� �3 �3 �� �� �� �� �� �� rut1005 rut1608 rut2012 rut3216 rut6432 ?50 specification resistance value table power derating curve marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. 1/10 (0.1) 1/8 (0.125) 1/4 (0.25) 1/3 (0.33) 1 (1.0) code tol (%) value ( �? ) r100 r102 r105 r107 r110 r113 r115 r118 r120 r121 r124 r127 r130 r133 r137 r140 r143 r147 r150 0.1 0.102 0.105 0.107 0.11 0.113 0.115 0.118 0.12 0.121 0.124 0.127 0.13 0.133 0.137 0.14 0.143 0.147 0.15 ?, �5 ? ? ? ?, �5 ? ? ? ?, �5 ? ? ? ?, �5 ? ? ? ? ? ?, �5 code tol (%) value ( �? ) r154 r158 r160 r162 r165 r169 r174 r178 r180 r182 r187 r191 r196 r200 r205 r210 r215 r220 r221 0.154 0.158 0.16 0.162 0.165 0.169 0.174 0.178 0.180 0.182 0.187 0.191 0.196 0.200 0.205 0.21 0.215 0.22 0.221 ? ? ?, �5 ? ? ? ? ? ?, �5 ? ? ? ? ?, �5 ? ? ? ?, �5 ? code tol (%) value ( �? ) r226 r232 r237 r240 r243 r249 r255 r261 r267 r270 r274 r280 r287 r294 r300 r301 r309 r316 r24 0.226 0.232 0.237 0.24 0.243 0.249 0.255 0.261 0.267 0.27 0.274 0.28 0.287 0.294 0.3 0.301 0.309 0.316 0.324 ? ? ? ?, �5 ? ? ? ? ? ?, �5 ? ? ? ? ?, �5 ? ? ? ? code tol (%) value ( �? ) r330 r332 r340 r348 r357 r360 r365 r374 r383 r390 r392 r402 r412 r422 r430 r432 r442 r453 r464 0.33 0.332 0.34 0.348 0.357 0.36 0.365 0.374 0.383 0.39 0.392 0.402 0.412 0.422 0.43 0.432 0.442 0.453 0.464 ?, �5 ? ? ? ? ?, �5 ? ? ? ?, �5 ? ? ? ? ?, �5 ? ? ? ? code tol (%) value ( �? ) r470 r475 r487 r499 r510 r511 r523 r536 r549 r560 r562 r576 r590 r604 r619 r620 r634 r649 r665 0.47 0.475 0.487 0.499 0.51 0.511 0.523 0.536 0.549 0.56 0.562 0.576 0.59 0.604 0.619 0.62 0.634 0.649 0.665 ?, �5 ? ? ? ?, �5 ? ? ? ? ?, �5 ? ? ? ? ? ?, �5 ? ? ? code tol (%) value ( �? ) r680 r681 r698 r715 r732 r750 r768 r787 r806 r820 r825 r845 r866 r887 r909 r910 r931 r953 r976 0.68 0.681 0.698 0.715 0.732 0.75 0.768 0.787 0.806 0.82 0.825 0.845 0.866 0.887 0.909 0.91 0.931 0.953 0.976 ?, �5 ? ? ? ? ?, �5 ? ? ? ?, �5 ? ? ? ? ? ?, �5 ? ? ? operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value (p �? r) �2
ultra low ohms resistor, high precision reliability suitable for reflow and soldering. very stable temperature coefficient characteristics. reverse type. ag metal is not used for termination electrode. (good sulfide - resistant) 100% lead-free products (pbo is not used) rohs compliant. feature ultra low ohms(ru series) 0.25 ?.15 0.30 ?.20 0.40 ?.20 0.45 ?.20 0.80 ?.25 ru1005 ru1608 ru2012 ru3216 ru6432 type inch power(w) 1.00 ?.05 1.60 ?.10 2.00 ?.20 3.20 ?.20 6.30 ?.20 lwhi 1 i 2 average weight (unit: mm) 0402 0603 0805 1206 2512 0.50 ?.05 0.80 ?.15 1.25 ?.15 1.60 ?.15 3.20 ?.20 0.35 ?.05 0.45 ?.10 0.55 ?.10 0.60 ?.10 0.60 ?.10 0.25 ?.15 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.25 0.6 �a 2.2 �a 4.7 �a 9.4 �a 42 �a current sensings. safe circuit through protecting over current flow. power supplying part, dc power charger, adapter. mobile phone, mobile pc, note pc, hdd, dsc, lcd application structure and dimensions the part number system shall be in the following format parts numbering system w l 1 h l i 2 �3 �3 �� �� �� �� �� �� 1/8 (0.125) 1/4 (0.25) 1/3 (0.33) 1/2 (0.5) 1 (1.0) r051 ru : current sensing resistor code designation r u 2012 f dimension & size code tolerance 1005: 1.0 �? 0.5( �x ) - 0402(inch) 1608: 1.6 �? 0.8( �x ) - 0603(inch) 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) f: ?% g: ?% j : ?% 3 or 4 digits coding system (e-24 series) cs resistance value packaging code cs: tape packaging 7" es : tape packaging 10" as: tape packaging 13" cs packaging code
18 19 -55 �? ~+155 �? 70 �? type power rating (w) working voltage (v, max) resistance range ( �? ) t.c.r (ppm/ �? ) tolerance (%) rated ambient temperature rated working temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -30 0 30 60 90 120 150 ambient temperature( �? ) 70 155 working voltage = rated voltage(vr)=(p �? r) (p:rated power, r:norminal resistance) please contact our sales representatives or product engineers for lower t.c.r or higher rated power products. - r means decimal point. - other digits represent significant value. - example: r 010 left 1 digit: r last 3 digits: 010 r 010 = 0. 010 �? = 10 m �? 4 digits indication ( e-24 series ) �3 �3 �� �� �� �� �� �� resistance t.c.r overload(short time) overload(intermittent) resistance to solder heat moisture resistance endurance at 70 �? bending strength within specified tolerance within specified t.c.r ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?0.5%+0.0005 �? ) at 25 �? . kelvin probing method. 20 �? /-55 �? & 20 �? /+125 �? rated voltage �? 2.5 for 5sec. rated voltage �? 2.5 1sec on, 25sec off 10,000cycies. 260 �? ? �?�
������ ?sec 40 �? , 95%rh, 1,000hr, 1.5hr on/0.5hr off cycle 70 �? , 1,000hr, 1.5hr on/0.5hr off cycle 60mm/min speed, press until 3mm, keep 5sec item requirement dr% test method ru1005 ru1608 ru2012 ru3216 ru6432 25m~100m 10m~100m 10m~100m 10m~100m 10m~100m r ! 47m: �? 500 r �? 47m: �? 150 r �? 25m: �? 600 r ! 33m: �? 400 r �? 33m: �? 150 r �? 25m: �? 500 r ! 33m: �? 350 r �? 33m: �? 150 1/8 (0.125) 1/4 (0.25) 1/3 (0.33) 1/2 (0.5) 1 (1) f: �? 1 j: �? 5 f: �? 1 j: �? 5 f: �? 1 j: �? 5 f: �? 1 j: �? 5 f: �? 1 j: �? 5 specification performance characteristics power derating curve marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value (p �? r) �2
ultra low ohms resistor, high precision reliability suitable for reflow and soldering. very stable temperature coefficient characteristics. reverse type. ag metal is not used for termination electrode. (good sulfide - resistant) 100% lead-free products (pbo is not used) rohs compliant. feature ultra low ohms(ruk series) 0.35 ?.20 0.45 ?.20 0.80 ?.20 ruk1608 ruk3216 ruk6432 type inch 1/3 (0.33) 1 (1.0) 1 (1.0) power(w) 1.60 ?.10 3.20 ?.25 6.30 ?.20 lwhi 1 i 2 average weight (unit: mm) r010 ruk : current sensing resistor low tcr code designation r u k 1608 f dimension & size code tolerance 1608: 1.6 �? 0.8( �x ) - 0603(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) 6432: 6.4 �? 3.2( �x ) - 2512(inch) f: ?% g: ?% j : ?% 3 or 4 digits coding system (iec conding system) 3digits(e-24 series) 4digits(e-96 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es : tape packaging 10" as: tape packaging 13" cs packaging code 0603 1206 2512 0.80 ?.15 1.60 ?.15 3.20 ?.20 0.45 ?.10 0.60 ?.10 0.60 ?.10 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.25 2.2 �a 9.4 �a 42 �a current sensings. safe circuit through protecting over current flow. power supplying part, dc power charger, adapter. mobile phone, mobile pc, note pc, hdd, dsc, lcd application structure and dimensions the part number system shall be in the following format parts numbering system w l 1 h l i 2 �3 �3 �� �� �� �� �� ��
20 21 -55 �? ~+155 �? 70 �? type power rating (w) working voltage (vr) resistance range ( �? ) t.c.r (ppm/ �? ) tolerance (%) rated ambient temperature rated working temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. working voltage = rated voltage(vr)=(p �? r) (p:rated power, r:norminal resistance) please contact our sales representatives or product engineers for lower t.c.r or higher rated power products. - r means decimal point. - other digits represent significant value. - example: r 010 left 1 digit: r last 3 digits: 010 r 010 = 0. 010 �? = 10 m �? 4 digits indication ( e-24 series ) �3 �3 �� �� �� �� �� �� resistance t.c.r overload(short time) overload(intermittent) resistance to solder heat moisture resistance endurance at 70 �? bending strength within specified tolerance within specified t.c.r ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?0.5%+0.0005 �? ) at 25 �? . kelvin probing method. 20 �? /-55 �? & 20 �? /+125 �? rated voltage �? 2.5 for 5sec. rated voltage �? 2.5 1sec on, 25sec off 10,000cycies. 260 �? ? �?�
������ ?sec 40 �? , 95%rh, 1,000hr, 1.5hr on/0.5hr off cycle 70 �? , 1,000hr, 1.5hr on/0.5hr off cycle 60mm/min speed, press until 3mm, keep 5sec item requirement dr% test method ruk1608 ruk3216 ruk6432 r ! 30m: �? 100 r �? 30m: �? 75 �? 100 �? 100 1/3 (0.33) 1 (1.0) 1 (1.0) f: �? 1 j: �? 5 f: �? 1 j: �? 5 f: �? 1 j: �? 5 specification performance characteristics power derating curve marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. 10m~100m 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -30 0 30 60 90 120 150 ambient temperature( �? ) 70 155 operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value (p �? r) �2
ultra low ohms resistor, high precision reliability suitable for reflow and soldering. very stable temperature coefficient characteristics. reverse type. ag metal is not used for termination electrode (good sulfide - resistant) 100% lead-free products (pbo is not used) rohs compliant. feature ultra low ohms(ruw series) 0.30 ?.20 0.40 ?.20 0.45 ?.20 ruw1608 ruw2012 ruw3216 type inch power(w) 1.60 ?.10 2.00 ?.20 3.20 ?.20 lwhi 1 i 2 average weight (unit: mm) r010 ruw : current sensing resistor high power code designation r u k 2012 f dimension & size code tolerance 2012: 2.0 �? 1.2( �x ) - 0805(inch) 3216: 3.2 �? 1.6( �x ) - 1206(inch) f: ?% g: ?% j : ?% 3 or 4 digits coding system (iec conding system) 3digits(e-24 series) 4digits(e-96 series) cs resistance value packaging code gs: bulk packaging cs: tape packaging 7" es: tape packaging 10" as: tape packaging 13" 0603 0805 1206 0.80 ?.15 1.25 ?.15 1.60 ?.15 0.45 ?.10 0.55 ?.10 0.60 ?.10 2.2 �a 4.7 �a 9.4 �a current sensings. safe circuit through protecting over current flow. power supplying part, dc power charger, adapter. mobile phone, mobile pc, note pc, hdd, dsc, lcd application structure and dimensions the part number system shall be in the following format parts numbering system w l 1 h l i 2 �3 �3 �� �� �� �� �� �� 1/3 (0.33) 1/2 (0.5) 1 (1) r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20 r ! 0.03 �?���������� ?.20 r �? 0.03 �?���������� ?.20
22 23 70 �? type power rating (w) working voltage (vr) resistance range ( �? ) t.c.r (ppm/ �? ) tolerance (%) rated ambient temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. - r means decimal point. - other digits represent significant value. - example: r 010 left 1 digit: r last 3 digits: 010 r 010 = 0. 010 �? = 10 m �? 4 digits indication ( e-24 series ) �3 �3 �� �� �� �� �� �� resistance t.c.r overload(short time) overload(intermittent) resistance to solder heat moisture resistance endurance at 70 �? bending strength within specified tolerance within specified t.c.r ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?1.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?3.0%+0.0005 �? ) ?0.5%+0.0005 �? ) at 25 �? . kelvin probing method. 20 �? /-55 �? & 20 �? /+125 �? rated voltage �? 2.5 for 5sec. rated voltage �? 2.5 1sec on, 25sec off 10,000cycies. 260 �? ? �?�
������ ?sec 40 �? , 95%rh, 1,000hr, 1.5hr on/0.5hr off cycle 70 �? , 1,000hr, 1.5hr on/0.5hr off cycle 60mm/min speed, press until 3mm, keep 5sec item requirement dr% test method ruw1608 ruw2012 ruw3216 10m~100m r ! 25m: �? 600 r ! 33m: �? 400 r �? 33m: �? 150 r �? 25m: �? 600 r ! 33m: �? 400 r �? 33m: �? 150 r ! 25m: �? 500 r ! 33m: �? 350 r �? 33m: �? 150 f: �? 1 j: �? 5 f: �? 1 j: �? 5 f: �? 1 j: �? 5 specification performance characteristics power derating curve marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -30 0 30 60 90 120 150 ambient temperature( �? ) 70 155 working voltage = rated voltage(vr)=(p �? r) (p:rated power, r:norminal resistance) please contact our sales representatives or product engineers for lower t.c.r or higher rated power products. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value -55 �? ~+155 �? rated working temperature 1/3 (0.33) 1/2 (0.5) 1 (1) (p �? r) �2
arrays(convex type) rp102p rp104p rp164p type 1.00 ?.10 2.00 ?.10 3.20 ?.10 1.00 ?.10 1.00 ?.10 1.60 ?.10 0.35 ?.10 0.35 ?.10 0.50 ?.10 0.33 ?.05 0.30 ?.15 0.40 ?.15 - 0.40 ?.15 0.60 ?.15 0.20 ?.10 0.15 ?.10 0.30 ?.15 0.25 ?.10 0.25 ?.15 0.30 ?.15 0.65 ?.10 0.50 ?.15 0.80 ?.15 1.1 �a 2.2 �a 8.9 �a l w tadbgp average weight (unit: mm) 2 array 4 array d b t w l l p b a t w g p g rp: convex type array rn code designation 10: 1005 16: 1608 16 dimension 2p: 2 pieces 4p: 4 pieces 4p resistors j: �? 5% jumper: j j tolerance 3 digit coding system (iec coding system) e-24 series 1 0 0 resistance value cs : tape packaging 7" es : tape packaging 10" as : tape packaging 13" fs packaging code the part number system shall be in the following format �? 200 1 �? ~1m �? -55 �? ~+125 �? 70 �? 102p 104p 164p type 1/16 power rating (w) 25(v) 25(v) 50(v) 50(v) 50(v) 100(v) working voltage (max) overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) reducing smd surface area (40% reduced). reducing smd costs (75% reduced). both flow and reflow soldering are applicable. convex & concave type. the product of lead-free terminal is rohs compliant. pho(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. for semiconductor devices. for computers, digital circuits. feature application structure and dimensions parts numbering system specification a �� �� �� �� �� ��
24 25 70 �? -55 �? ~+125 �? 102p 104p 164p type resistance 50m �? max. 1.0(a) current rating rated ambient temperature rated working temperature the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) 70 125 3 digits indication(e-24 series) - left 2 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 10 3 left 2 digit s : 10 last 1 digit: 3 10 3 = 10 �? 10 3 = 10 000 �? =10k �? rp102p, rn102p, rn104p type : no marking. jumper chip is printed as ?00? �� �� �� �� �� �� power derating curve jumper resistors marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. land pattern type a b c d e p 1 p 2 10at 102p 104p 164p 0.4 0.4 0.7 0.7 0.4 0.4 0.3 0.5 0.25 0.25 0.2 0.3 0.5 0.5 0.5 0.9 0.5 0.5 0.5 0.8 0.65 0.65 0.55 0.9 - 0.5 0.8 a bc e p 1 p 2 : land pattern : chip resistor d operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
arrays(concave type) rn: concave type array rn code designation 10: 1005 16: 1608 16 dimension 2p: 2 pieces 4p: 4 pieces 4p resistors j: �? 5% jumper: j j tolerance 3 digit coding system (iec coding system) e-24 series 1 0 0 resistance value cs : tape packaging 7" es : tape packaging 10" as : tape packaging 13" cs packaging code the part number system shall be in the following format reducing smd surface area (40% reduced). reducing smd costs (75% reduced). both flow and reflow soldering are applicable. convex & concave type. the product of lead-free terminal is rohs compliant. pho(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. for semiconductor devices. for computers, digital circuits. feature application structure and dimensions parts numbering system rn102p rn104p type 1.00 ?.10 2.00 ?.10 1.00 ?.10 1.00 ?.10 0.35 ?.10 0.40 ?.10 0.30 ?.10 0.30 ?.10 0.15 ?.10 0.15 ?.10 0.25 ?.15 0.25 ?.15 0.5 ?.10 0.5 ?.10 1.2 �a 2.8 �a l w tabgp average weight (unit: mm) 2 array a a b t w p l g b t w l p g 4 array (top side) (bottom side)
26 27 rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) 70 125 specification power derating curve jumper resistors the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. 70 �? -55 �? ~+125 �? 102p 104p 164p type resistance 50m �? max. 1.0(a) current rating rated ambient temperature rated working temperature �? 200 1 �? ~1m �? -55 �? ~+125 �? 70 �? 102p 104p 164p type 1/16 power rating (w) 25(v) 25(v) 50(v) 50(v) 50(v) 100(v) working voltage (max) overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature land pattern type a b c d e p 102p 104p 0.3 0.3 0.3 0.3 0.2 0.2 0.5 0.5 0.4 0.4 0.5 0.5 : land pattern : chip resistor operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value p a bc e d
arrays(flat type) rf062p rf064p type 0.80 ?.05 1.40 ?.05 0.60 ?.05 0.60 ?.05 0.23 ?.10 0.23 ?.10 0.20 ?.10 0.20 ?.10 0.10 ?.10 0.10 ?.10 0.20 ?.10 0.20 ?.10 0.50 ?.05 0.40 ?.05 0.3 �a 0.5 �a l w tabgp average weight (unit: mm) 2 array 4 array reducing smd surface area (40% reduced). reducing smd costs (75% reduced). both flow and reflow soldering are applicable. convex & concave type. the product of lead-free terminal is rohs compliant. pho(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. for semiconductor devices. for computers, digital circuits. feature application structure and dimensions rf: flat type array rf code designation 06: 0603 06 dimension 2p: 2 pieces 4p: 4 pieces 4p resistors j: �? 5% jumper: j j tolerance 3 digit coding system (iec coding system) e-24 series r68 resistance value cs : tape packaging 7" e s : tape packaging 10" as : tape packaging 13" cs packaging code the part number system shall be in the following format parts numbering system l g p l pa a t t w g w b b
28 29 �? 250 10 �? ~1m �? -55 �? ~+125 �? 70 �? 062p 064p type 1/32 power rating (w) 12.5(v) 25(v) working voltage (max) overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature 70 �? -55 �? ~+125 �? 062p 064p type resistance 50m �? max. 0.5(a) current rating rated ambient temperature rated working temperature rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) 70 125 specification power derating curve jumper resistors land pattern the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. dimension a b 2a + b c d rf062p rf064p 0.3 0.3 0.3 0.3 0.9 0.9 0.2 0.2 0.3 0.2 type (inch) reflow soldering a b a a b a c cd c cd : land pattern : chip resistor operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
rm102p rm104p type 1.00 ?.10 2.00 ?.10 1.00 ?.10 1.00 ?.10 0.35 ?.10 0.45 ?.10 0.30 ?.10 0.30 ?.10 0.15 ?.10 0.15 ?.10 0.25 ?.15 0.25 ?.15 0.50 ?.10 0.50 ?.10 1.2 �a 2.8 �a l w tab gp average weight (unit: mm) rk102p rk104p type 1.00 ?.10 2.00 ?.10 1.00 ?.10 1.00 ?.10 0.35 ?.10 0.45 ?.10 0.30 ?.10 0.30 ?.10 0.25 ?.15 0.25 ?.15 0.50 ?.10 0.50 ?.10 1.2 �a 2.8 �a l w tagp 0.17min 0.23min h average weight (unit: mm) (1) reverse concave type (2) short-free reverse concave type a b t w l p l p g g a t w �� �� �� �� �� �� �� �� �� �� �� �� reducing smd surface area (40% reduced). reducing smd costs (75% reduced). applicable both flow and reflow soldering. reverse & short free reverse concave type. the product of lead-free terminal is rohs compliant. pho(lead oxide) is included in the glass of our product which is prescribed on rohs appendix as an exception. for semiconductor devices. for computers, digital circuits. feature application structure and dimensions arrays for memory modules h t a
30 31 rm : reverse concave array rk : short-free reverse concave array rm code designation 10: 1005 16: 1608 10 dimension 2p: 2 pieces 4p: 4 pieces 4p resistors j: �? 5% jumper: j j tolerance 3 digit coding system (iec coding system) e-24 series 1 0 0 resistance value cs : tape packaging 7" es : tape packaging 10" as : tape packaging 13" cs packaging code the part number system shall be in the following format �? 200ppm 1 �? ~1m �? -55 �? ~+125 �? 70 �? 102p 104p type 1/16 power rating (w) 25(v) 50(v) working voltage (max) overload voltage (max) tcr (ppm/ �? ) resistance range ( �? ) rated ambient temperature rated working temperature 70 �? -55 �? ~+125 �? 102p 104p type resistance 50m �? max. 1.0(a) current rating rated ambient temperature rated working temperature rated voltage (v) = rated voltage should be lower than (max) working voltage. �2 rated power(w) �? normal resistance value (r) the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. (the load current shall be derated according to derating curve in case of the 'jumper') 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) 70 125 3 digits indication(e-24 series) - left 2 digits represent significant figures. - last 1 digit represents exponential number of 10. - example: 15 0 left 2 digit s : 15 last 1 digit: 0 15 0 = 15 �? 10 0 = 15 �? rm102p, rk102p type : no marking. jumper chip is printed as ?00? �� �� �� �� �� �� parts numbering system specification power derating curve jumper resistors marking the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
rp10at type 0.04w / package 1.00 ?.10 1.00 ?.10 0.35 ?.10 0.33 ?.05 0.20 ?.10 0.25 ?.10 0.65 ?.10 1.1 �a power(w) l wtabc p average weight substrate resistor electrode structure dimensions l p b at w c rp:convex type rp code designation 10 :1.0 x1.0(mm)- 0404(inch) at:unbalanced �t - type attenuator 10at dimensions & circuit configuration l : � 0.3 db h : � 0.5 db l attenuation value tolerance a : 50 ohm a characteristic impedance 3 db ex) 0 �a 0db 03 attenuation value cs :tape packaging 7" cs packing type the part number system shall be in the following format the rp10at is small-size chip attenuator, suitable for high density surface mounting unbalanced �t type attenuator circuit in one chip(1.0 mm x 1.0 mm) mounting occupation area reduction : about 50 % reduction mounting cost reduction : mounting times 3 times �a 1 time attenuation : 0 db to 10 db attenuation / level control / impedance matching of high frequency signals of communication equipment; cellular phones(gsm, cdma, etc.), phs, pda, for example. feature application structure and dimensions coating parts numbering system (unit: mm) attenuator
32 33 item specifications the rated power is the maximum continuous loading power at 70 �? ambient temperature. for ambient temperature above 70 �? , the loading power follows the below power derating curve. 100 80 60 40 20 0 percentage of the rated dissipation(%) operation area -55 -40 0 40 80 120 ambient temperature( �? ) rated load percent ( �� ) 70 125 specification power derating curve equivalent circuit configuration the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. attenuation value attenuation value tolerance characteristic impendance power rating frequency range vswr (voltage standing wave ratio) number of terminals category temperature range (operating temperature range) 0 db, 1 db, 2 db, 3 db, 4 db, 5 db, 6 db, 7 db, 8 db, 9 db, 10db 0 db, 1 db, 2 db, 3 db, 4 db, 5 db : � 0.3 db 6 db, 7 db, 8 db, 9 db, 10db : � 0.5 db 50 �? 0.04w / package dc to 3 ghz 1.3 max 4 terminals -55 �? to +125 �? r2 r1 r3 operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
characteristics performance direct current resistance within the regulated resistance tolerance. less than ?1%+0.1 �? ) of the initial value. less than ?3%+0.1 �? ) of the initial value. no evidence of mechanical damage. no evidence of mechanical damage. no evidence of mechanical damage. over 1,000m �? temperature characteristic short-time overload intermittent overload dielectric withstanding voltage insulation resistance � r � r visual visual j-grade 1 �? �? r ! 10 �? :+300/-200ppm/ �? 10 �? �? r �? 1m �? :?00ppm/ �? (0603?50ppm) 1m �? ! r �? 10m �? :?00ppm/ �? f-grade 1 �? �? r �? 10m �? :?00ppm/ �? (0603?50ppm) 50m �? max. 50m �? max. 50m �? max. jis c 5201-1 4.5 voltage apply within 5 sec. test temp: 20 �? , 65rh test board: jis c 5201-1 4.8 test temperature( �? ) 20 �?�a -55 �? / 20 �?�a 125 �? t.c.r(ppm / �? )=(r-r 20 )/r 20 �? 1/ (t-t 20 ) �? 10 6 �? t=test temperature, t 20 =20 �? r=resistance at t, r 20 =resistane at t 20 test board: jis c 5201-1 4.13 apply 2.5 times rated voltage for 5 sec. wait 60 minutes at room temperature. measure the resistance value. test board: jis c 5201-1 4.13 2.5 times of rated voltage . 1 second on, 25 second off. 10,000 cycles. test board: jis c 5201-1 4.7 apply voltage for 1 minute 0402.0603:50v 1005, 1608: 100v other: 500v max surge current max surge current cu item requirements specification test methods resistor resistor jumper jumper cu p2 cu substrate v solderability coverage: �? 95% each termination. no crack of termination parts and ceramic exposure of surface by melting. less than?0.5%+0.05 �? )of the initial value. less than?1%+0.05 �? )of the initial value. less than?1%+0.05 �? )of the initial value. no evidence of mechanical damage. no evidence of mechanical damage. no evidence of mechanical damage. bending test adhesive strength of termination no mechanical damage or sign of disconnection jis c 5201-1(4.16) �� test strengh : 5n (500g . f), 0603 : 2n �� test time : applying pressure for 10 seconds resistance to soldering heat anti- vibration test � r � r � r visual visual visual 50m �? max. 50m �? max. 50m �? max. iec60068-2-58 rosin flux: rosin 25%, methanol 75% solder temp.: 245+5/-0 �? dipping time: 2?.5 sec.(both side dipping) jis c 5201-1 4.33 after soldering resistor on the pcb, 3mm of bending shall be applied for 10 sec. test board: jis c 5201-1 4.18 �� flow soldering :260? �? ,10 sec .max.(both side dipping) �� reflow soldering :260? �? , 10 sec. max. over 230 �? , 30~40 sec. jis c 5201-1 4.22 2 hours each in x, y and z axis(total 6 hours) 10 to 55hz sweep in 1 minute at 1.5mm amplitude. item requirements specification test methods resistor resistor jumper jumper r230 20 3mm 500 g.f 90mm electrical characteristic mechanical characteristic
34 35 temperature cycle less than ?1%+0.1 �? ) of the initial value. less than ?3%+0.1 �? ) of the initial value. less than ?3%+0.1 �? ) of the initial value. less than ?3%+0.1 �? ) of the initial value. less than ?3%+0.1 �? ) of the initial value. no evidence of mechanical damage. no evidence of mechanical damage. no evidence of mechanical damage. no evidence of mechanical damage. no evidence of mechanical damage. load life low temp. exposure high temp. exposure moisture resistance � r � r � r � r � r visual visual visual visual visual 50m �? max. 50m �? max. 50m �? max. 50m �? max. 50m �? max. jis c 5201-1 4.19 perform 100 cycles as follows. test condition: -55 �? / 30min �? 125 �? / 30min sweep time: 5 min test board: jis c 5201-1 4.25 test voltage: rated voltage test temp.: 70? �? time: 1,000 +48 hours(90 min; on, 30 min; off) test board: jis c 5201-1 4.23 dwell in -55 �? chamber without loading for 1,000 +48 hours. stabilize for 60 minutes at room temperature. measure value. test board: jis c 5201-1 4.23 dwell in 125 �? ? �? or 155 �? ? �? chamber without loading for 1,000 +48 hours. stabilize for 60 minutes at room temperature. measure value. test board: jis c 5201-1 4.14 test voltage: rated voltage test temp.: 40? �? time: 1,000 +48 hours(90 min; on, 30 min; off) humidity: 90~95% rh stabilize for 1 hrs & measure. test board: item requirements specification test methods resistor resistor jumper jumper these characteristics apply to 1 �? ~10m �? . in case of other resistance range, please contact us. the next is specification in our company for flow soldering and test boards. time: 5~10 sec. time: 10 sec max. temp.: 260 �? 5 �? . flux solder item specification dipping rosin 25%, ipa 75% sn-3.0ag-0.5cu environmental characteristic flow soldering conditions the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
packaging (unit: mm) 0402 0603 1005 rp102 rp10at rn102 rp104 rn104 a 0.24 �? 0.03 0.38 �? 0.05 0.70 �? 0.10 1.17 �? 0.10 1.20 �? 0.10 1.20 �? 0.10 1.20 �? 0.10 1.20 �? 0.10 bt 0.45 �? 0.03 0.68 �? 0.05 1.20 �? 0.10 1.17 �? 0.10 1.20 �? 0.10 1.20 �? 0.10 2.20 �? 0.10 2.20 �? 0.10 0.5 max 0.5 max 0.6 max 0.6 max 0.6 max 0.6 max 0.6 max 0.8 max punched paper press pocket or punched paper embossed tape 2mm 8mm 4mm 12mm type pitch width dimensions - 0603: press pocket. reel dimensions tape dimensions 1608 2012 3216 3225 rp164 a 1.10 �? 0.20 1.65 �? 0.20 2.00 �? 0.20 2.90 �? 0.20 2.00 �? 0.20 bt 1.90 �? 0.20 2.40 �? 0.20 3.60 �? 0.20 3.60 �? 0.20 3.60 �? 0.20 0.8 max 1.1 max 5025 6432 a 2.80 �? 0.20 3.50 �? 0.20 bt 5.30 �? 0.20 6.75 �? 0.20 1.1 max 4.0 �? 0.1 1.75 �? 0.1 3.5 �? 0.05 8.0 �? 0.1 2.0 �? 0.05 a b 1.0 t 1.5 + 0.1 - 0 4.0 �? 0.1 2 �? 0.05 5.5 �? 0.05 12 �? 0.2 4 4 a b 1.75 0.3 �? 0.02 t b 1.75 �? 0.1 3.5 �? 0.05 8.0 �? 0.1 2.0 �? 0.05 4.0 �? 0.1 a b 1.0 t 1.5 + 0.1 - 0 �? 1.5 �? 1.5 +0.1 - 0 taping type e c c b a d w t unit: mm tape width a b c d symbol 7" reel 10" reel 13" reel 8mm 12mm 8mm 12mm 8mm 12mm �? 180 �� 0/-3 �? 180 �� 0/-3 �? 258 �� 0/-3 �? 258 �� 0/-3 �? 330 �? 2.0 �? 330 �? 2.0 �? 60 �? 1.0 �? 60 �? 1.0 �? 80 �? 1.0 �? 80 �? 1.0 �? 100 �? 1.0 �? 80 �? 1.0 �? 13 �? 0.3 �? 13 �? 0.3 �? 13 �? 0.3 �? 13 �? 0.3 �? 13 �? 0.3 �? 13 �? 0.3 4 �? 0.2 4 �? 0.2 4 �? 0.2 4 �? 0.2 4 �? 0.2 4 �? 0.2 tape width e w t symbol 7" reel 10" reel 13" reel 8mm 12mm 8mm 12mm 8mm 12mm 2.0 �? 0.5 2.0 �? 0.5 2.0 �? 0.5 2.0 �? 0.5 2.0 �? 0.5 2.0 �? 0.5 9 �? 0.5 13 �? 0.5 9 �? 0.5 13 �? 0.5 9 �? 0.5 13 �? 0.5 1.2 �? 0.2 1.2 �? 0.2 1.8 �? 0.2 1.8 �? 0.2 2.2 �? 0.2 2.2 �? 0.2
36 37 7 �u 13 �u 13 �u 7 �u 7 �u 10 �u 13 �u 7 �u 10 �u 13 �u 7 �u 10 �u 13 �u 7 �u 10 �u 13 �u 7 �u 10 �u 13 �u 7 �u 7 �u 13 �u 7 �u 13 �u 7 �u 13 �u 7 �u 13 �u 7 �u 13 �u 7 �u 13 �u cs dp as fp cs ds es as cs es as cs es as cs es as cs es as cs cs as cs as cs as cs as cs as cs as 15,000 126 143 7 �u type (mm) type (inch) taping packaging code reels carrier tape quantity weight(g) 154 573 474 92 152 331 539 125 324 561 149 360 658 157 382 695 183 463 674 202 267 1,041 126 573 126 573 100 485 136 610 157 695 pressed paper pressed paper punched pe pressed paper punched pe punched paper embossed pe punched paper 20,000 60,000 50,000 10,000 20,000 30,000 40,000 5,000 10,000 20,000 5,000 10,000 20,000 5,000 10,000 20,000 5,000 10,000 20,000 4,000 4,000 15,000 15,000 60,000 15,000 60,000 10,000 40,000 10,000 40,000 5,000 20,000 packaging table 0402 01005 cs 7 �u 20,000 general type, precision, low ohms, high ohms. packaging style can be modified when you want. the specifications and designs contained herein may be subject to change without notice. please contact our sales representatives or product engineers before order. operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value 0603 1005 1608 2012 3216 3225 5025 6432 062p 064p 102p 104p 164p 0201 0402 0603 0805 1206 1210 2010 2512 0201 2r 0201 2r 0402 2r 0402 4r 0603 4r
standard resistance value digit number iec-code system specification tolerance code k e-12 �? 10% j e-24 �? 5% g e-48 �? 2% f e-96 �? 1% d 4 digit 3 digit e-192 �? 0.5% m e-6 �? 20% 100 101 102 104 105 106 107 109 110 111 113 114 115 117 118 120 121 123 124 126 127 129 130 132 133 135 137 138 140 142 143 145 147 149 150 152 154 156 158 160 162 164 165 167 169 172 174 176 100 102 105 107 110 113 115 118 121 124 127 130 133 137 140 143 147 150 154 158 162 165 169 174 100 105 110 115 121 127 133 140 147 154 162 169 10 11 12 13 15 16 e-192 e-96 e-48 e-24 178 180 182 184 187 189 191 193 196 198 200 203 205 208 210 213 215 218 221 223 226 229 232 234 237 240 243 246 249 252 255 258 261 264 267 271 274 277 280 284 287 291 294 298 301 305 309 312 178 182 187 191 196 200 205 210 215 221 226 232 237 243 249 255 261 267 274 280 287 294 301 309 178 187 196 205 215 226 237 249 261 274 287 301 18 20 22 24 27 30 e-192 e-96 e-48 e-24 316 320 324 328 332 336 340 344 348 352 357 361 365 370 374 379 383 388 392 397 402 407 412 417 422 427 432 437 442 448 453 459 464 470 475 481 487 493 499 505 511 517 523 530 536 542 549 556 316 324 332 340 348 357 365 374 383 392 402 412 422 432 442 453 464 475 487 499 511 523 536 549 316 332 348 365 383 402 422 442 464 487 511 536 33 36 39 43 47 51 e-192 e-96 e-48 e-24 562 569 576 583 590 597 604 612 619 626 634 642 649 657 665 673 681 690 698 706 715 723 732 741 750 759 768 777 787 796 806 816 825 835 845 856 866 876 887 898 909 920 931 942 953 965 976 988 562 576 590 604 619 634 649 665 681 698 715 732 750 768 787 806 825 845 866 887 909 931 953 976 562 590 619 649 681 715 750 787 825 866 909 953 56 62 68 75 82 91 e-192 e-96 e-48 e-24 example e-6 series �? 20% 80 �? 90 �? 95 �? 100 �? 105 �? 110 �? 120 �? e-12 series �? 10% e-24 series �? 5% e-96 series �? 1% 101 �? 99 �? tolerance code table significant figure of resistance value
38 39 iso / ts 16949 iso 14001 ohsas 18001 qc080000 2012 - 04 - 27 2009 - 04 - 28 02109e110143r2l ccci 02109s10088r2l date validity number certification section high tech(china) authority date validity number authority date validity number authority date validity number authority 2009 - 04- 28 2012 - 04 - 27 ul prc-hspm-1766 2010 - 07 - 27 2013 - 07 - 26 bsi ccci ts 91430-008 2011 - 11 - 29 2014 - 11 - 28 quality system certification list table 1:certification list of samsung factory iso/ts 16949 iso 14001 ohsas 18001 qc080000 operation notes example of land pattern design recommended soldering conditions general structure general precision jumper low ohms (rc series) low ohms (rut series) ultra low ohms (ru series) ultra low ohms (ruk series) ultra low ohms (ruw series) arrays (convex type) arrays (concave type) arrays (flat type) arrays for memory modules attenuator characteristics performance packaging standard resistance value
all information indicated in this catalog is as of february 2012 * the specifications and designs contained herein may be subject to change without notice. "p "p head office 206, cheomdansaneop road, yeongtong- gu, suwon-city, gyeonggi province, korea, 443 - 743 europe te l: + 82 - 31 - 210 - 6328 e-mail: james.pyun@samsung.com america te l: + 82 - 31 - 210 - 6803 e-mail:wesley.roh@samsung.com asia te l: + 82 - 31 - 210 - 6791 e-mail:peter_kim@samsung.com domestic te l: + 82 - 31 - 210 - 5074 e-mail:boungho.lee@samsung.com "p "p manufacturing sites suwon plant (korea) 206, cheomdansaneop road, yeongtong- gu, suwon-city, gyeonggi province, korea, 443 - 743 te l: + 82 - 31 - 210-5074 e-mail:boungho.lee@samsung.com busan plant (korea) 1623 - 2, songjeong - dong, gangseo - gu, busan, korea, 618 - 270 te l: + 82 - 51 - 970 - 7671 e-mail:kyc.kweon@samsung.com tianjin plant (china) 27, heiniucheng - road, hexi district, tianjin, 300210 china te l: + 86 - 22 - 2397 - 9000 ( 310 ) e-mail:moohantop.park@samsung.com high tech (china) xiqind dist. micro-electronics industrial park, jingang highway, tianjin, china 300485 tel:+ 022 - 23979000 - 313 e-mail: enhao.song@samsung.com binhai plant(china) 80, xiaqing road, west area of binhai development zone, tianjin, 300458, china te l: + 86 - 22 - 6686 - 3333(1300) e-mail:sk1000.kim@samsung.com philippines plant (philippines) block no.5, calamba premiere international park, batino, calamba, laguna, manila, philippines 4027 te l: + 63 - 49 - 545 - 0422 e-mail:donna@samsung.com "p "p asia sales offices shenzhen office 46 f, new world center, yitian road, futian district, shenzhen, 518026 china te l:86 - 755 - 8608 - 5571 e-mail:jackson.xian@samsung.com shanghai office rm. 1211, shanghai international trade center, no. 2201 yan an ( w ) rd., shanghai, 200335 china te l:86 - 21 - 6270 - 4168 ( 274 ) e-mail:dennis.cha@samsung.com hongkong office 8/f.,central plaza, 18 harbour road, wanchai, hongkong, china te l:852-28626344 e-mail:vivianchan@samsung.com qingdao office rm 1201. growne plaza qingdao 76, xiang gang zhong rd, qingdao, 266071 china te l:86 - 532 - 85779102 e-mail:zhengguo.cui@samsung.com taiwan office 9f - 1, np. 399 ruey kuang rd., neihu district, taipei city, taiwan, 114 te l:886 - 2 - 2656 - 8356 e-mail:kevin0130.wang@samsung.com singapore office 3 church street samsung hub, #23- 02 singapore 049483 te l:65 - 6833 - 3228 e-mail: winson.yeong@samsung.com bangkok office 23rd floor, lake rajada office complex 193/89 rachadapisek road, khet klongtoey, bangkok 10110, thailand te l:66 - 2 - 661 - 8004~5 e-mail:yangshin.yi@samsung.com "p "p america sales office irvine office 3333 michelson drive, suite 500, irvine, ca 92612, usa tel: 1-949-797-8016 e-mail: andrew.skelly@samsung.com "p "p europe sales offices frankfurt office samsung haus, am kronberger hang 6, d-65824 schwalbach/ts. germany te l:49 - 6196 - 66 - 7255 e-mail: frank.goebel@samsung.com hungary office h-2310, leshegy utca 2-4, szigetszentmiklos, pest megye, hungary te l:36 - 24 - 551 - 148 e-mail: jun21c.lee@samsung.com "p "p domestic distributors korchip corporation 817-38, anyang 2 - dong, manan - gu, anyang-city, gyeonggi province, korea, 430-812 te l: + 82 - 31 - 361 - 8100 e-mail: itasap@korchip.com chunghan chunghan bldg., 121-284, dangsan-dong, youngdeungpo-gu, seoul, korea te l: + 82 - 2 - 718 - 3322 e-mail: ish@ichunghan.co.kr samt daekyung bldg., 983-10, daechi-dong, gangnam - gu, seoul, korea te l: + 82 - 2 - 3458 - 9000 e-mail: info@isamt.com chungmac #53-5 wonhyoro-3ga yongsan - gu, seoul, korea te l: + 82 - 31 - 234 - 2367~8 e-mail: webmaster@chungmac.co.kr apexint room #905. c - dong woorimlion , s valley 371-28, gasan-dong, guemcheon-gu, seoul, korea te l: + 82 - 2 - 2026 - 2610 ( 2 ) e-mail: info@apexint.co.kr passive components sales offices
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