ANALOG DEVICES FAX-ON-DEMAND HOTLINE - Page 2 ANALOG DEVICES Instrumentation Operational Amplifier OP-05 FEATURES GENERAL DESCRIPTION @ Low Noise ............-85- 0.6:V,-5 Max, 0.1 to 10Hz The OP-05 series of monolithic instrumentation operational Low Drift vs. Temperature .........-.-. 0.52V/C Max amplifiers combine excellent performance in low-signal-ievel Low Drift vs. Time .........-00005- 0.2u/Month Typ applications with the simplicity of use of a fully-protected, Low Bias Current ........... essere eee 2.0nA Max internally-compensated op amp. The OP-05 has low input offset High CMRA ...... 6... eee eee eee eee 1144B Min voltage and bias current combined with very high levels of gain, e mee oer merece er ee eee ere rane ran eene ee Min input impedance, CMRR, and PSAR. HighGaln ... 6... cece ent eee eens 300,000 Min eo . High Aj Ditterential .........0--66- 5008 30MN Min The OP-0S is adirect replacement in 725, 108A, and unnulled 741 sockets allowing instant system performance improvement @ High AinCM ...-- 0.) eee ee reese 20060 Typ without redesign. The OP-05 is an excellent choice for a wide internally Compensated ........ Stable to 500pF Load . . Fits 725, 108A variety of applications including strain gauge and thermocouple . and 741 Sockets . . : og 125C Ti bridges, high-gain active filters, buffers, integrators, and sample- emperature Tested Dice a: : Available in Die Form and-hoid amplifiers. For dual-matched versions. refer to the OP-207 and OP-10 data sheets. ORDERING INFORMATION ' PIN CONNECTIONS PACKAGE T, 225C OPERATING ost h Vg MAX CEROIP PLASTIC TEMPERATURE 1 en Pye vostain [7 Ls] VosTAIN (mV) 10-98 6-PIN &-PIN RANGE -n 2] r7jve -1N 2 60uT +N A-[> re} our 0.15 OPOSAS* OPOSAZ* - MIL v- [J >] NC. 0.5 OPposu* - - MiL wna a NC 0.5 OPOSEJ OPOSEZ OPOSEP COM 0 ~ 13 OPOSCJ OPOSCZ OPOSCP COM V-(CASE) EPOXY MINI-DIP j | (P-Suffix) * For devices processed in total compliance to MIL-STD-883, add /883 after part T0-99 number. Consult factory for 863 data sheet. - = f Burn-in is avaiable on commercial and industrial temperature range parts in (J-Suffix) 8-PIN HERMETIC DIP CerDIP, plastic DIP, and TO-can packages. (2-Suftix) SIMPLIFIED SCHEMATIC ve , - . . t RIA L 3 Rw l ! NULL NULL Le im oT ? " 5 20K 2 vot i ther Ken i awy_ i }+_+} on eo az} 7 | - OUTPUT tt ~ tt INVERTING az 4s Sear als mye weut a5 INVERTING | zs +-k 14 G Seon oOANALOG DEVICES FAX-ON-DEMAND HOTLINE - Page 3 OP-05 ABSOLUTE MAXIMUM RATINGS (Note 3) Supply Voltage ....... cee cece cseeneseescenesacsesseesereenneaes #22V Differential Input Voltage .............. essen esessesssesens #30V Input Voltage (Note 1) ......... cc cecsssesessesnecerserstenesanecees +22V Output Short-Circuit Duration... eee +++ Indefinite Storage Temperature Range J and Z Packages ............... aeveneseens sree B5C$ to +150C P Package... ciatesecseeesseeeess SPE tO +125C Operating Temperature Range OP-OSA, OP-05.......... sretereneseee easeaceeeseeeenes .. 85C to +125C OP-05E, OP-OSC ............. saseseeesperseepeseaseneaeee 0C to +70C Lead Temperature Range (Soidering, 60 sec) .. .... 800C Junction Temperature oo... eee eeeeseees 65C to +150C PACKAGE TYPE ,, (NOTE 2) %e UNITS 0-98 (J) 150 18 "Cw 8-Pin Harmatic DIP (Z) 148 16 CIW 8-Pin Plastic DIP (P) 103 43 "CW NOTES: 1. For supply voltages less than 222V, the absolute maximum input voltage is equal to the supply voltage. Sy is specified for worst case mounting conditions, ie, 6, is specified for Gevice in socket for TO, CerDIP, P-DIP, and LCC packages; , is specified for device soldered to printed circuit board for SO and PLCC packages. . Absolute maximum ratings apply to both DICE and packaged parts, unless otherwise noted. 2. ELECTRICAL CHARACTERISTICS at Vs = +15V, T, = 25C, unless otherwise noted. OP-05A OP-06 PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX UNITS input Offset Voitage Vos - 007 0.15 - o2 OSs mv Long-Term Input Offset - . 1 - . / joltage Stability &Vos/Time {Note 1) 0.2 0 02 1.0 uV/Mo Input Offset Current log - O7 20 - 10 28 nA input Bias Current Ig +407 +20 10 +3. nA tnput Noise Voltage (Note 2) Crp 0.1Hz to 10Hz 035 06 - 035 06 V5.5 . . fo = 10Hz - 1.3 180 103 180 "note 2) Voltage Density &, to= 100Hz 100 130 - 00 B90 avi Ha to = 1000Hz - 96 11.0 996 10 Input Noise Current . . - 4 3 - 14 (Note 2) inp-p 0.1Hz to 10Hz % PAp-p . . fo = 10Hz ~ 0382 0.80 032 06.80 ee nied Current Density In fo = 100H2 014 023 014 023 pan Hz \ fg = 1000Hz 012 0.17 012 0.17 input Resistance itterentiai- Rw (Note 3} 3 (BO - 20260 - un Input Resistance Common-. Rincm 20 - 200 - Gn Input Voltage Range iv $136 140 0 +195 +4000 v Common-Mode Rejection Ratio CMRR Voy = 13.5V 114126 - 1144-126 - aB Power Supply Rejection Ratio PSRR Vg = +9V to + 18V - 4 10 - 4 10 av/V Ry 2 2kf Vo + 10V 30 =6S00 - 200-500 cd Lerge-Signal Voltage Gain Avo R, 2 S00N. Vg = 20.5V _ Vimv Vg = 3V (Note 3) 150 500 150 500 Ry > 10kn 1225 2130 = 2125 +13.0 - Oulput Voltage Swing Vo Ry 2 aki 120 +1280 4120 #126 = v Ry 2 ikn 2105 212.0 _ +105 +120 - Siew Rate (Note 2) SR B, 22k 01 03 _ 0.1 03 - Vius Closed-Loop Bandwidth = +4) 04 06 - 0.4 0.6 - MH: Note 21 Bw Ave: 1.0 z Open-Loop Output Resistance Ro Vo =U. 1g 20 - 60 - - 60 ~ n . No load - 90 120 - 90 126 Power Consumption Pa Ve = +3V, No toad _ 4 4 6 mw Offset Adjustment Range Ap = 20k) - 4 - - 4 - mv NOTES: 1. Long-term input offset voltage stability rofers to the averaged trend line Of Vog vs. Time over extended periods after the first 30 days of operation. Excluding the initial hour of operation, changes in Vog during the first 30 operating days are typically 2.5yV. Refer to typical performance curve. 2. Sampie tested. 3. Guaranteed by design.ANALOG DEVICES FAX-ON-DEMAND HOTLINE - Page 4 OP-05 ELECTRICAL CHARACTERISTICS at Vs = +15V, -55C s Ta S + 125C, unless otherwise noted. OP-05A OP-05 PARAMETER svmbo. CONDITIONS MIN TYP MAX MIN TYP MAX UNITS input Offset Voltage Vos 0410 024 - 03 07 mV Average Input Offeet Voltage Drift Without External Trim TCVgs (Note 2} _ 03 609 _ 0.7 20 veG With External Trim TCVosn Rp = 20kN (Note 3) 02 05 - 03 10 Input Offeet Current los - 10 40 - 18 $6 nA Ave Input t t on put Offset Curren TClog {Note 2) - 5 25 - 8 sO parc input Biae Current 's - +1 +4 - 22 +46 nA t wi t ne Input Bias Curren TCly (Note 2) on - 6 % parc Input Voltage Range IVR +0435 $130 413500 v Common-Mode Rejection Ratio CMRA Voy = 13.0V N00 123 - no 128 _ a8 Power Suppty Rejection Ratio PSRR Vg = 3V to t 18V - 5 20 - 20 uv Lerge-Signs! Voitege Gain Avo AL 2 2kf}, Vo= + 10V 20 4000 190 400 viv Output Voltage Swing Vo R, > aki) 120 226 = = 2120 212600 - Vv ELECTRICAL CHARACTERISTICS at V; = +15V, Ta = 25C, unless otherwise noted. OP-OSE OP-05C OARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX UNITS input Offset Voitage Vos - 6.2 0.5 ~ 0.3 13 mv Long-Term input Oftsst - 03 1. - 9 . Voltage Stability AVgg/Time (Notes) 2) 0.3 04 2.0 uV/Mo Input Offset Current log - 12 38 - 18 606 nA Input Bias Current lp 12 +40 +186 +7. nA Input Noise Voltage (Note 2) Cnp-p 0.1Hz to 10riz - 035 06 038 0.65 uVp.p to = 10Hz 10.3 18.0 105 200 ow 2) Voltage Density en io * 100HZ 00 13.0 02 135 ni Hz t= 1000Hz 96 11.0 98 5S Input Noise Current (Note 2} Inp-p O.1Hz to 10Hz - 4 WwW - 5S 3 PApy to= OHz 032 0.80 035 0.90 inte a Current Density ln fg = 100Hz ~ 014 0.23 0.18 0.27 pA He } to = 1000Hz 012 0.17 013 O18 Input Resistance 1 - Ditferentia!-Mode Rw (Note 3) 5s 50 8 3 ma input Resistance _ Common. Rune 160 120 Gn input Voltage Range IVR 1135 21400 = 49.0 +40 = v Common-Mode Rejection Ratio CMRA Vou * 13.5V 110 )0 143 - wo 120 - aB Power Supply Rejection Ratio PSAR Vg = +3V to t 18V ~- 5 2 =- 7 3 BV Ry 2 2k0, Vo = + 0V a a a Large-Signai Voltage Gain Ayo R, 2 S00N, Vg = 0.5V ' 500 _ 100 400 _ V/mv Vg = 3V (Note 3) %0 Ry 2 10ki 7125 +30 120 4130 Output Voltage Swing Vo Ry 2 2kn 412.0 212.8 - tn5 +128 - v RLz 1kO +105 +120 +20 - Stew Rate Note 2) SR AL = 2 2kn 01 63 _ Or 803 - V/us Closed-Loop Bandwiath Bw Aye, = +10 04 06 04 08 1 MHz iNote 2) Open-Loop Output Resistance Ro Vo = 0, 1g =0 6 - 8 - o , No load -_ 90 120 - 95 180 Power Consumption Py Vg = 3V, No load 7 4 6 _ 4 8 mW Oftset Adjustment Range Rp* 20kn = 4 _ _ 4 _ mv NOTE: See notes on previous page.ANALOG DEVICES FAX-ON-DEMAND HOTLINE - Page 5 OP-05 ELECTRICAL CHARACTERISTICS at Vs = +15V, 0C < Ta S$ +70C, unless otherwise noted. OP-05E OP-0s5C PARAMETER SYMBOL = CONDITIONS MIN TYP MAX MIN TYP MAX UNITS input Otfeet Voltage Vos 026 086 035 18 mv Average input Offset Voltage Drift Without Extemal Trim TCVo6 (Note 2) - OF 20 ~ 13 45 we With External Trim TCVosn Rp = 20kf (Note 3) - 02 06 - 04 15 Input Offset Current log - 114 83 - 20 860 nA A i ft t sain nput Offset Curren TClos (Note 2) - 8 3 - 2 50 parc input Bias Current tp +15 +55 ~ 22 +9.0 nA rere e input Bias Current Tel, (Note 2) - 3 3 - 8 80 parc input Voltage Range iVA 130 2135 0 190 135 v Common-Mode Rejection Ratio CMAR Vow = 13.0V 107) 123 = 7 #612000~C a8 Power Supply Rejection Ratio PSAR Vg = 3V to t18V - 7 32 -~ 0 uv Large-Signal Voltage Gain Avo Ry 2 2kN, Vg = +10V 180 = 450 - 100 = 400 - Viv Output Voltage Swing Vo A, 2 2kn 4120 126 +110 +1260 Vv NOTES: 1. Long-Term Input Ofteet Voltage Stability refers to the averaged trend line of Vog vs. Time over extended periods atter the first 30 days of operation. Excluding the initia! hour of operation, changes in Vog during the first 30 operating days are typically 2.5. Reter to typical performance curve. Sample tested. . Guaranteed by design.ANALOG DEVICES FAX-ON-DEMAND HOTLINE - Page & OP-05 DICE CHARACTERISTICS (125C TESTED DICE AVAILABLE) 1. BALANCE 2. INVERTING INPUT 3. NONINVERTING INPUT 4. V- 5. NO CONNECTION 6. OUTPUT 7. V+ 6. BALANCE DIE SIZE 0.101 x 0.052 inch, 5300 sq. mils (2.5? X 1.32 mm, 3.34 sq. mm) WAFER TEST LIMITS at Vs = + 15V, Ta = 25C for OP-O5N, OP-05G and OP-05GR devices; Ta = 125C for OP-OSNT and OP-OSGT devices, unless otherwise noted. OP-OSNT OP-05N OP-0SGT OP-05G OP-0SGR PARAMETER SYMBOL CONDITIONS Limit LIMIT LIMIT LimiTy Limit UNITS Input Offeet Voltage = Vos 0.25 0.35 o7 0s 1300OMV MAX Input Offset Current los 4.0 2.0 5.7 38 60 nA MAX Ingut Bias Current lg 24 2 +6 +4 27 nA MAX input Resistance _ - 1 Ditterential Mode PIN (Note 2) 20 s 8 MOMIN Input Voltage Range = IVR. 130 213.5 13.0 T1385 213.0 V MIN Common-Moce Vous = 13,5V at +25C 114 1 1 Rejection Ratio MRA Vou = 213.0 at +1285C vo * no 00 6B MIN Power Supply 4 + A on Ratio PSRR Vg = 3V to + 18V 20 10 20 20 30 uWV MAX R, = 10k - 212.5 - 212.5 $12.0 Output Voitage Swing Vo Ry = 2k 12.0 12.0 +120 12.0 2115 V MIN Aye 1A - 210.5 - 210.5 - Large-Signat Ay * 2kn 200 150 200 1 V/mV MIN Voitage Gain Avo Woe tt0V 200 20 vim Differential Input +30 +30 +90 +90 +30 VMAX Voltage Power Consumption Pg Vour = OV - 120 - 120 150 mW MAX NOTES: 1. For 25C characteristics of NT & GT devices see N & G characteristics 2. Guaranteed by design. respectively. Electrical tests are pertormed at water probe to the limits shown. Due to variations in assembly methods and normal yield loss, yield after packaging is not guaranteed for standard product dice. Consult factory to negotiate specitications based on dice lot qualification through sample lot assembly and testing. TYPICAL ELECTRICAL CHARACTERISTICS at Vs = 1 15V, Ta = +25C, unless otherwise noted. OP-O5NT OP-05N OP-05GT OP-05G OP-05GR PARAMETER SYMBOL CONDITIONS TYPICAL TYPICAL TYPICAL TYPICAL TYPICAL UNITS. ote valtege pri, TeYos Ais=500 03 03 07 07 12 -wWPC wotser votage ont TCoss AsS 502, Ry = 2060 02 02 03 0.3 04 BW wOttet Curent prin TClos 8 8 12 parC Slew Rate SA RL 22a 03 03 0.3 03 0.3 Wys oer, Bw Ay ott 06 06 06 06 06 MHzANALOG DEVICES FAX-ON-DEMAND HOTLINE OP-05 - Page 7 TYPICAL PERFORMANCE CHARACTERISTICS TRIMMED OFFSET VOLTAGE vs TEMPERATURE Vog TRIMMED TO Page TYPICAL PERFORMANCE CHARACTERISTICS OPEN-LOOP GAIN vs FREQUENCY Vg = 216V Tar +28C OPEN-LOOP GAIN (48) 8 Qt 1 10 WO wm (Ok 100 1 10M FREQUENCY {da} POWER CONSUMPTION vs POWER SUPPLY Ta > 128C z 3 POWER DISSIPATION (uw! 1.0 Q 2 4 a TOTAL SUPPLY VOLTAGE, V+ TO V-- {VOLTS} OPEN.LOOP GAIN icitt) . 8 & 8 s 8 CLOSED-LOOP GAIN vs FREQUENCY i i s=218v J > Ta*2sc Ay 1000 ay = 100 Ay 10 avel 16 10 th 10k 100% 1m = 10M FREQUENCY (He) INPUT BIAS CURRENT vs DIFFERENTIAL INPUT VOLTAGE 10 ~ta MONINVERTING INPUT BIAS CURRENT (ma) eo -w AT IVDIFFI 10V, High S2nA (OPDGA) 30 (07 68) S7nA (OP-O6C} INVERTING INPUT GIAS CURRENT (mA) Vs 2 t15V Taz Oo -4 -0 9 10 2 n TYPICAL OFFSET VOLTAGE TEST CIRCUIT OWS FERENTIAL INPUT VOLTAGE (VOLTS! MAXIMUM OUTPUT SWING vs FREQUENCY Vge215V Tas #28C | 3 ~ a | = 7 PEAK. TO-PEAK AMPLITUDE (VOLTS) . Th 30m 100% 1M FREQUENCY (Ha) MAXIMUM OUTPUT VOLTAGE vs LOAD RESISTANCE Ta = 26C Vg 7 218V Vine = 10mv POSITIVE SWING NEGATIVE SWING MAXHAUM OUTPUT (VOLTS! 100 ie 10 LOAD RESISTANCE TO GROUND (32) TYPICAL LOW-FREQUENCY NOISE TEST CIRCUIT 200K OP-05 V vs 10082 11SV - Vo 1000 AAA vv y INPUT REFEAREU NOISE * Yo... Savin 25,000 =. 25,000 * GASERVATION TIME LIMITED TO 10 SECONDS MAXIMUM. (OR . sonnviem = THe FILTER