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quad low offset, low power operational amp lifier data sheet op400 rev. h document feedback information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implication or otherwise under any patent or patent rights of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062 - 9106, u.s.a. tel: 781.329.4700 ? 2013 analog devices, inc. all rights reserved. technical support www.analog.com features low i np ut o ffset voltage: 150 v m ax imum low o ffset v oltage drift o ver C 55c to +125c : 1.2 v/c m ax imum low s upply c urrent ( p er a mplifier) : 725 a m ax imum high o pen - l oop g ain : 5000 v/mv m in imum input b ias c urrent : 3 na m ax imum low n oise v oltage d ensit y: 11 nv/hz at 1 khz stable w ith l arge c apacitive l oads : 10 nf t yp ical available in die form functional block dia gram s out a 1 ?in a 2 +in a 3 v+ 4 out d ?in d +in d v? 14 13 12 1 1 +in b 5 ?in b 6 out b 7 +in c ?in c out c 10 9 8 00304-001 op400 + ? + ? + ? + ? ou t a 1 ?in a 2 +in a 3 v+ 4 out d ?in d +in d v? 16 15 14 13 +in b 5 ?in b 6 out b 7 +in c ?in c out c 12 1 1 10 nc 8 nc 9 00304-002 op400 nc = no connect + ? + ? + ? + ? figure 1. 14 - p in ceramic dip (y - suffix) and 14 - pin plastic dip (p - suffix) figure 2 . 16 - p in soic (s - suffix) general description the op400 is the first monolithic quad operation al amplifier that features op77 - type performance. precision performance is no t sacrificed with the op400 to obtain the space and cost savings offered b y quad amplifiers. the o p400 features an extremely low input offset voltage of less than 150 v with a drift of less than 1.2 v/c, guaranteed over the full military temperature range. open - loop gain of the op400 is more than 5 million into a 10 k ? load, input bias current is less than 3 na, cmr is more than 120 db, and psrr is less than 1.8 v/v. on - chip z ener zap trimming is used to achieve the low input offset voltage of the op400 and eliminates the need for offset nulling. the op400 conforms to the industry - standard quad pinout, which does not have null terminals. the op400 features low power consumption, drawing less than 725 a per amplifier. the total current drawn by this quad amplifier is less than that of a single op07, yet the op400 offer s significant improvements over this industry - standard op amp. voltage noise density of the op400 is a low 11 nv/hz at 10 hz, half that of most competitive devices. the op400 is an ideal choice for applications requiring multiple precision operational amplifiers and where low power consumption is critical. volt age limiting network +in ?in v? out v+ bias 00304-003 figure 3. simplified schematic (one of four amplifiers is shown)
op400 data sheet rev. h | page 2 of 16 table of contents features .............................................................................................. 1 functional block diagrams ............................................................. 1 general description ......................................................................... 1 revision history ............................................................................... 2 specifications ..................................................................................... 3 electrical characteristics ............................................................. 3 absolute maximum ratings ............................................................ 5 thermal resistance ...................................................................... 5 esd caution .................................................................................. 5 typical performance characteristics ..............................................6 applications ..................................................................................... 11 dual low power instrumentation amplifier ......................... 11 bipolar current transmitter ..................................................... 12 differenti al output instrumentation amplifier .................... 12 multiple output tracking voltage reference ......................... 13 outline dimensions ....................................................................... 14 ordering guide .......................................................................... 15 smd parts and equivalents ...................................................... 15 revision history 1/13 rev. g to rev. h changes to features section and general description section ........ 1 changes to ordering guide ........................................................... 15 2/11 rev . f to r ev . g added s package to storage temperature range in table 4 ....... 5 updated outline dimensions ....................................................... 15 12/0 8 rev . e to r ev . f added new figure 2 8 , renumbered sequentially ..................... 10 updated out line dimensions ....................................................... 15 1 /0 7 rev . d to r ev . e updated format .................................................................. universal changes to figure 1 and figure 2 ................................................... 1 removed figure 4 ............................................................................. 4 changes to table 3 ............................................................................ 4 changes to figure 16 through figure 19 , figure 2 1 .................... 8 changes to figure 2 7 ........................................................................ 9 changes to figure 28 ...................................................................... 10 changes to figur e 3 3 ...................................................................... 1 3 updated outline dimensions ....................................................... 1 4 3 /0 6 rev . c to r ev . d updated format .................................................................. universal deleted wafer test limits table ..................................................... 4 new package drawing: r - 14 ......................................................... 1 5 updated outline dimensions ....................................................... 15 changes to ordering guide .......................................................... 16 6/03 rev. b to rev. c edits to specifications ....................................................................... 2 10/02 rev. a to rev. b addition of absolute maximum ratings ....................................... 5 edits to outline dimensions ......................................................... 12 4/02 rev. 0 to rev. a edits to features ................................................................................. 1 edits to ordering information ........................................................ 1 edits to pin connections .................................................................. 1 edits to general descriptions ..................................................... 1 , 2 edits to package type ....................................................................... 2
da ta sheet op400 rev. h | page 3 of 16 specifications electrical character istics @ v s = 15 v, t a = + 25c, u nless otherwise noted. table 1 . op 400 a/e op 400 f op 400 g/h parameter symbol conditions min typ max min typ max min typ max unit input characteristics input offset voltage v os 40 150 60 230 80 300 v long - term input voltage stability 0.1 0.1 0.1 v/ mo input offset current i os v cm = 0 v 0.1 1.0 0.1 2.0 0.1 3.5 na input bias current i b v cm = 0 v 0.75 3.0 0 . 75 6.0 0.75 7.0 na input noise voltage e n p - p 0.1 hz to 10 hz 0.5 0.5 0.5 v p -p input resistance differential mode r in 10 10 10 m input resistance common mode r incm 200 200 200 g large signal voltage gain a vo v o = 10 v r l = 10 k 5000 12,000 3000 7000 3000 7000 v/mv r l = 2 k 2000 3500 1500 3000 1500 3000 v/mv input voltage range 1 ivr 12 13 12 13 12 13 v common - mode rejection cmr v cm = 12 v 120 140 115 140 110 135 db input capacitance c in 3.2 3.2 3.2 pf output characteristics output voltage swing v o r l = 10 k 12 12.6 12 12.6 12 12 . 6 v power supply power supply rejection ratio psrr v s = 3 v to 18 v 0.1 1.8 0.1 3.2 0.2 5.6 v/v supply current p er amplifier i sy no load 600 725 600 725 600 725 a dynamic performance slew rate sr 0.1 0.1 5 0.1 0.15 0.1 0.15 v/ s gain bandwidth product gbwp a v = 1 500 500 500 khz channel separation cs v o = 20 v p -p , 123 135 123 135 123 135 db f o = 10 hz 2 capacitive load stability a v = 1 , n o oscillations 10 10 10 nf noise performance input noise voltage e n f o = 10 hz 3 22 36 22 36 22 nv/hz density 3 f o = 1000 hz 3 11 18 11 18 11 nv/hz input noise current i n p - p 0.1 hz to 10 hz 15 15 15 pa p -p input noise current density i n f o = 10 hz 0.6 0.6 0.6 pa/hz 1 guaranteed by cmr test . 2 guaranteed but not 100% tested. 3 sample tested .
op400 data sheet rev. h | page 4 of 16 @ v s = 15 v, ? 55c t a + 125c for op400 a, unless otherwise noted. table 2 . parameter symbol conditions min typ ma x unit input characteristics input offset voltage v os 70 270 v average input offset voltage drift tcv os 0.3 1 . 2 v/c input offset current i os v cm = 0 v 0 . 1 2.5 na input bias current i b v cm = 0 v 1.3 5.0 na large sign al voltage gain a vo v o = 10 v , r l = 10 k 3000 9000 v/mv r l = 2 k 1000 2300 input voltage range 1 ivr 12 12.5 v common - mode rejection cmr v cm = 12 v 115 130 db output characteristics output voltage swing v o r l = 10 k 12 12.4 power supply power supply rejection ratio psrr v o = 3 v to 18 v 0.2 3.2 v/v supply current p er amplifier i sy no l oad 600 775 a dynamic performance capacitive load stability a v = 1 , n o o scillations 8 nf 1 guaranteed by cmr test. @ v s = 15 v, ?25c t a +85c for op400e/f, 0c t a 70c for op400g, ?40c t a + 85 c for op 400 h, unless otherwise noted. table 3 . op400 e op 400 f op 400 g/h parameter symbol conditions min typ max min typ max min typ max unit input charac teristics input offset voltage v os 60 220 80 350 110 400 v average input offset voltage drift tcv os 0. 3 1.2 0.3 2.0 0.6 2.5 v/c input offset current i os v cm = 0 v e, f, g g rades 0.1 2.5 0.1 3. 5 0.2 6.0 na h g rade 0.2 12.0 na input bias current i b v cm = 0 v e, f, g g rades 0.9 5 .0 0.9 10.0 1.0 12.0 na h g rade 1.0 20.0 na large - signal voltage gain a vo v cm = 0 v r l = 10 k 3000 10,000 2000 5000 2000 5000 v/ m v r l = 2 k 1500 2700 1000 2000 1000 2000 v/ m v input voltage range 1 ivr 12 12.5 12 12.5 12 12.5 v common - mode rejection cmr v cm = 12 v 115 135 110 135 105 130 db output characteristics output voltage swing v o r l = 10 k 12 12.4 12 12.4 12 12.6 v r l = 2 k 11 12 11 12 11 12.2 v power supply power supply rejection ratio psrr v s = 3 v to 18 v 0.15 3.2 0 . 15 5.6 0.3 10.0 v/v supply current p er amplifier i sy no l oad 600 775 600 775 600 775 a dynamic performance capacitive load stability no oscillations 10 10 10 nf 1 guaranteed by cmr test.
da ta sheet op400 rev. h | page 5 of 16 absolute maximum rat ings table 4 . parameter rating supply voltage 2 0 v differential input voltage 3 0 v input voltage supply v oltage output short - circuit duration continuous storage temperature range p, y , s package s ? 65 c to +150c lead temperature (soldering 60 sec) 300 c junction temperature (t j ) range ? 65 c to +150 c operating temperature range op 400a ?55 c to +125 c op 400 e, op400f ?25 c to +85 c op 400g 0 c to 70 c op 400 h ?40 c to +85 c stresses above thos e listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is no t implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. absolute maximum ratings apply to both dice and packaged parts, unless otherwise noted. thermal resistance ja is specified for worst - case mounting conditions, that is , ja is specified for device in socket for cerdip and pdip packages; ja is specified for device soldered to printed circuit board for soic package. table 5 . thermal resis tance package type ja jc unit 14 - pin c eramic dip (y) 94 10 c/w 14 - pin p lastic dip (p) 76 33 c/w 16 -p in soic (s) 88 23 c/w esd caution
op400 data sheet rev. h | page 6 of 16 typical performance characteristics 3 2 1 0 0 1 2 3 5 4 00304-004 change in offset voltage (v) time (minutes) t a = 25c v s = 15v figure 4 . warmu p drift 70 60 50 40 30 20 10 ?75 125 100 75 50 25 0 ?25 ?50 00304-005 input offset voltage (v) temperature (c) v s = 15v figure 5 . input offset voltage vs. temperature 2.0 0 0.4 0.8 1.2 1.6 ?75 125 100 75 50 25 0 ?25 ?50 00304-006 input bias current (na) temperature (c) v s = 15v figure 6 . input bias current vs. temperature 120 80 90 100 1 10 ?75 125 100 75 50 25 0 ?25 ?50 00304-007 input offset current (pa) temperature (c) v s = 15v figure 7 . input offset current vs. temperature 1.1 0.6 0.7 0.8 0.9 1.0 ?15 15 10 5 ?5 0 ?10 00304-008 input bias current (na) common-mode voltage (v) figure 8 . input bias current vs. common - mode voltage 140 0 20 40 60 80 100 120 1 100k 10k 100 1k 10 00304-009 common-mode rejection (db) frequency (hz) t a = 25 c v s = 15v figure 9 . common - mode rejection vs. frequency
da ta sheet op400 rev. h | page 7 of 16 100 10 1 1k 100 10 00304-010 noise voltage density (nv/ hz) frequency (hz) figure 10 . noise voltage density vs. frequency 1k 0 200 400 600 800 1 1k 100 10 00304-011 current noise density (fa/ hz) frequency (hz) t a = 25 c v s = 15v figure 11 . current noise density vs. frequency 0 10 4 6 8 2 00304-012 time (seconds) figure 12 . 0.1 hz to 10 hz noise 2.5 2.1 2.2 2.3 2.4 2 6 10 14 18 4 8 12 16 20 00304-013 total supply current (ma) supply voltage (v) four amplifiers t a = 25c figure 13 . total supply current vs. supply voltage 2.5 2.1 2.2 2.3 2.4 ?75 ?50 ?25 0 25 50 75 100 125 150 00304-014 total supply current (ma) temperature ( c) four amplifiers v s = 15v figure 14 . total supply current vs. temperature 140 0 20 40 60 80 100 120 0.1 100k 10k 1k 100 10 1 00304-015 power supply rejection (db) frequency (hz) negative supply positive supply figure 15 . power supply rejection vs. frequency
op400 data sheet rev. h | page 8 of 16 temperature (c) power supply rejection (db) 144 142 138 140 136 134 ?75 150 125 100 75 50 25 0 ?25 ?50 00304-016 v s = 15v figure 16 . power supply rejection vs. temperature temperature (c) open-loop gain (v/mv) 5k 4k 2k 3k 1k 0 ?75 150 125 100 75 50 25 0 ?25 ?50 00304-017 v s = 15v r l = 2k figure 17 . open - loop gain vs. temperature frequency (hz) open-loop gain (db) 120 40 20 100 80 60 0 10 1m 10k 100k 1k 100 00304-018 phase shift (degrees) 90 0 45 135 180 gain phase t a = 25c v s = 15v figure 18 . ope n - loop gain and phase shift vs. frequency frequency (hz) gain (db) 60 80 40 0 20 1 10 1k 100 100k 10k 1m 00304-019 t a = 25c v s = 15v a v = 1000 a v = 100 a v = 10 a v = 1000 figure 19 . closed - loop gain vs. frequency frequency (hz) output swing (v p-p at 1% distortion) 20 25 15 5 10 10 100 1k 10k 100k 00304-020 t a = 25c v s = 15v figure 20 . maximum output swing frequency frequency (hz) distortion (%) 10 0.1 1 0.01 0.001 100 1k 10k 000304-021 t a = 25c v s = 15v v out = 10v p-p r l = 2k a v = 100 a v = 10 a v = 1 figure 21 . total harmonic distortion vs. fr equency
da ta sheet op400 rev. h | page 9 of 16 capacitive load (nf) overshoot (%) 45 50 40 25 35 0 5 10 15 20 30 0 0.5 1.0 2.0 2.5 1.5 3.0 000304-022 t a = 25c v s = 15v a v = +1 f alling rising figure 22 . overshoot vs. capacitive load time (minutes) short-circuit current (ma) 34 32 30 28 0 1 2 3 4 5 00304-023 sourcing sinking t a = 25c v s = 15v figure 23 . short circuit vs. time frequency (hz) channel separation (db) 140 130 120 110 100 90 10 100 1k 10k 100k 00304-024 t a = 25c v s = 15v v in = 20v p-p figure 24 . channel separation vs. frequency 00304-025 5v 100s t a = 25c v s = 15v a v = +1 figure 25 . l arge signal transient response 00304-026 20mv 5s t a = 25c v s = 15v a v = +1 figure 26 . small signal transient response 00304-027 20mv 5s t a = 25c v s = 15v a v = +1 figure 27 . small signal transient response , c load = 1 nf
op400 data sheet rev. h | page 10 of 16 00304-035 output current (ma) saturation voltage (mv) 100 1k 10k 0.001 0.01 0.1 1 10 op400 v sy = 15v t a = 25c v dd ? v oh v ol ? v ss 20 figure 28. saturation voltage vs. output current 100? 10k? e out to spectrum analyzer 00304-028 1/4 op400 + ? 1/4 op400 + ? 1/4 op400 + ? 1/4 op400 + ? e out nv hz ( ) 2 e n nv hz ( ) 101 ~ = figure 29. noise test schematic 14 13 12 11 10 9 8 1234567 gnd +18v ? 18 v ? + ? + ? + ? + 4 1 3 2 00304-029 v? v+ figure 30. burn-in circuit
da ta sheet op400 rev. h | page 11 of 16 applications the op400 is inherently stable at all gains and is capable of driving large capacitive loads without oscillating. nonetheless, good supply decoupling is highly recommended. proper supply decoupling reduces problems caused by supply line noise and improve s the capacitive load - driving capability of the op 400. total supply current can be reduced by connecting the inputs of an unused amplifier to v ? . this turns the amplifier off, lowering the total supply current. dual low power instrumentatio n amplifier a dual instrumentation amplifier that consumes less than 33 mw of power per channel is shown in figure 31 . the linear - ity of the instrumentation amplifier exceeds 16 bits in gains of 5 to 200 and is better than 14 bits in gains from 200 to 1000. cmrr is above 115 db (g = 1000). offset voltage drift is typicall y 0.4 v/ c over the military temperature range , which is comparab le to the best monolithic instrumentation amplifiers. the bandwidth of the low power instrumentation amplifier is a function of gain and is shown in table 6 . the output signal is specified with respect to the reference input, whi ch is normally connected to analog ground. the reference input can be used to offset the output f rom ?10 v to +10 v if required. table 6 . gain bandwidth gain bandwidth 5 150 khz 10 67 khz 100 7.5 khz 1000 500 hz ? + 20k 5k 5k 20k reference v in v in r g r g v out v out ? + 20k 5k 5k 20k reference v in r g v out 40,000 = 5 + 00304-030 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? figure 31 . dual low power instrumentation amplifier
op400 data sheet rev. h | page 12 of 16 bipolar current transmitter in the circuit of figure 32 , which is an extension of the standard three op amp instrumentation amplifier, the output current is proportio nal to the differential input voltage. maximum output current is 5 ma , with vo ltage compliance equal to 10 v when using 15 v supplies. output impedance of the current transmit ter exceeds 3 m , and linearity is better than 1 6 bits with gain set for a full - scale input of 10 0 v. differential output instrumentation amplifier the output voltage swing of a single - ended instrumentation amplifier is limited by the supplies, normall y at 15 v, to a maximum of 24 v p - p. the differential out put instrumenta - tion amplifier shown in figure 33 can provide an output voltage swing of 48 v p - p when operated with 15 v sup plies. the extended output swing is due to the opposite polarity of the outputs. both outputs swing 24 v p - p , but with opposite polarity, for a total output voltage swing of 48 v p - p. the reference input can be used to set a common - mode output voltage over the range 10 v. the psrr of the amplifier is less than 1 v/v with cmrr (g = 1000) better than 115 db. offset voltage drift is typically 0.4 v/ c over the military temperature range. 00304-031 ? + v out i out 5ma i out v in 50,000 200 200 r g 25k 25k 25k 25k 25k 25k r g ? ? 1 v in 1/4 op400e + ? 1/4 op400e + ? 1/4 op400e + ? 1/4 op400e + ? figure 32 . bipolar current transmitter ? + 00304-032 v out v in r g 25k 25k 25k 25k 25k 22pf 22pf 22pf 22pf 25k 25k 25k v out v in = 50k? + r g r g reference input 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? figure 33 . differentia l output instrumentation amplifier
da ta sheet op400 rev. h | page 13 of 16 multiple output trac king voltage reference figure 34 shows a circuit that provides outputs of 10 v, 7.5 v, 5 v, and 2.5 v for use as a system voltage reference. maximum output current from eac h reference is 5 ma with load regulation under 25 v/ma. line regulation is better than 15 v / v, and output voltage drift is under 20 v/c. output voltage noise from 0.1 hz to 10 hz is typically 75 v p - p from the 10 v output and proportionately less fr om the 7.5 v, 5 v, and 2.5 v outputs. 7.5v 10v 5v 2.5v 10k 10k 10k 10k 15v 22k 10k 1n4002 10k 10k 2f 1f 1f 4 2 6 00304-033 ref 43 2.5v reference 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? 1/4 op400a + ? figure 34 . multiple output tracking voltage reference
op400 data sheet rev. h | page 14 of 16 outline dimensions controlling dimensions are in inches; millimeter dimensions (in parentheses) are rounded-off inch equivalents for reference only and are not appropriate for use in design. 0.310 (7.87) 0.220 (5.59) 0.005 (0.13) min 0.098 (2.49) max 0.100 (2.54) bsc 15 0 0.320 (8.13) 0.290 (7.37) 0.015 (0.38) 0.008 (0.20) seating plane 0.200 (5.08) max 0.785 (19.94) max 0.150 (3.81) min 0.200 (5.08) 0.125 (3.18) 0.023 (0.58) 0.014 (0.36) 0.070 (1.78) 0.030 (0.76) 0.060 (1.52) 0.015 (0.38) pin 1 1 7 8 14 figure 35 . 14 - lead ceramic dual in - line package [cerdip] (q - 14) [y - suffix] dimensions sh own in inches and (millimeters) compliant t o jedec s t andards ms-001 controlling dimensions are in inches; millimeter dimensions (in p arentheses) are rounded-off inch equi v alents for reference on l y and are not appropri a te for use in design. corner leads m a y be configured as whole or half leads. 070606- a 0.022 (0.56) 0.018 (0.46) 0.014 (0.36) 0.150 (3.81) 0.130 (3.30) 0. 1 10 (2.79) 0.070 (1.78) 0.050 (1.27) 0.045 (1.14) 14 1 7 8 0.100 (2.54) bsc 0.775 (19.69) 0.750 (19.05) 0.735 (18.67) 0.060 (1.52) max 0.430 (10.92) max 0.014 (0.36) 0.010 (0.25) 0.008 (0.20) 0.325 (8.26) 0.310 (7.87) 0.300 (7.62) 0.015 (0.38) gauge plane 0.210 (5.33) max se a ting plane 0.015 (0.38) min 0.005 (0.13) min 0.280 (7. 1 1) 0.250 (6.35) 0.240 (6.10) 0.195 (4.95) 0.130 (3.30) 0. 1 15 (2.92) figure 36 . 14 - lead plastic dual in - line package [pdip] (n - 14) [p- suffix] dimensions shown in inches and (millimeters)
da ta sheet op400 rev. h | page 15 of 16 c o n t r o l l i n g d i m e n s i o n s a r e i n m i l l i m e t e r s ; i n c h d i m e n s i o n s ( i n p a r e n t h e s e s ) a r e r o u n d e d - o f f m i l l i m e t e r e q u i v a l e n t s f o r r e f e r e n c e o n l y a n d a r e n o t a p p r o p r i a t e f o r u s e i n d e s i g n . c o m p l i a n t t o j e d e c s t a n d a r d s m s - 0 1 3 - a a 1 0 . 5 0 ( 0 . 4 1 3 4 ) 1 0 . 1 0 ( 0 . 3 9 7 6 ) 0 . 3 0 ( 0 . 0 1 1 8 ) 0 . 1 0 ( 0 . 0 0 3 9 ) 2 . 6 5 ( 0 . 1 0 4 3 ) 2 . 3 5 ( 0 . 0 9 2 5 ) 1 0 . 6 5 ( 0 . 4 1 9 3 ) 1 0 . 0 0 ( 0 . 3 9 3 7 ) 7 . 6 0 ( 0 . 2 9 9 2 ) 7 . 4 0 ( 0 . 2 9 1 3 ) 0 . 7 5 ( 0 . 0 2 9 5 ) 0 . 2 5 ( 0 . 0 0 9 8 ) 4 5 1 . 2 7 ( 0 . 0 5 0 0 ) 0 . 4 0 ( 0 . 0 1 5 7 ) c o p l a n a r i t y 0 . 1 0 0 . 3 3 ( 0 . 0 1 3 0 ) 0 . 2 0 ( 0 . 0 0 7 9 ) 0 . 5 1 ( 0 . 0 2 0 1 ) 0 . 3 1 ( 0 . 0 1 2 2 ) s e a t i n g p l a n e 8 0 1 6 9 8 1 1 . 2 7 ( 0 . 0 5 0 0 ) b s c 0 3 - 2 7 - 2 0 0 7 - b figure 37 . 16 - lead standard small outline package [ soic _w ] wide body (r w - 16) [s - suffix] dimensions shown in millimeters and (inches) ordering guide model 1 temperature range package description package option op400ay ? 55 c to +12 5 c 14 - lead cerdip y - suffix (q -14) op400ey ? 25 c to +85 c 14 - lead cerdip y - suffix (q -14) op400fy ? 25 c to +85 c 14 - lead cerdip y - suffix (q -14) op400gp 0 c to +70 c 14 - lead pdip p - suffix (n - 14 ) op400gpz 0 c to +70 c 14 - lead pdip p - suffix (n -14) op400hpz ? 40 c to +85 c 14 - lead pdip p - suffix (n -14) op4 00gs 0 c to +70 c 16 - lead soic _w s- suffix (r w -1 6 ) op400 gs - reel 0 c to +70 c 16 - lead soic _w s- suffix (r w -1 6 ) op400gsz 0 c to +70 c 16 - lead soic _w s- suffix (r w -1 6 ) op4 00gsz - reel 0 c to +70 c 16 - lead soic _w s- suffix (r w -1 6 ) op4 00hs ? 40 c to +85 c 16 - lead soic _w s- suffix (r w -1 6 ) op400h s - reel ? 40 c to +85 c 16 - lead soic _w s- suffix (r w -1 6 ) op400hsz ? 40 c to +85 c 16 - lead soic _w s- suffix (r w -1 6 ) op4 00hsz - reel ? 40 c to +85 c 16 - lead soic _w s- suffi x (r w -1 6 ) op400gbc die 1 z = rohs compliant part. smd parts and equiva lents smd part number 1 a nalog devices equivalent 5962 - 8777101 m 3 a OP400ATCmda 5962 - 8777101 mca op400aymda 1 for military p rocessed devices, please refer to the standard microcircuit drawing (smd) available at the defense supply center columbus website.
op400 data sheet rev. h | page 16 of 16 ?2013 analog devices, inc. all rights reserved. trademarks and registered trademarks are the prop erty of their respective owners. d00304-0-1/13(h) notes

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