ANALOG Dual Matched High Performance DEVICES Operational Amplifiers OP-04/0P-14 FEATURES pin-for-pin compatibility, ease of application, and low cost. Excellent DC Input Specifications Key specifications, such as Vos, los, Ip, CMRR, PSRR and @ Matched Vos and CMRR Avo, are guaranteed over the fuil operating temperature OP-14 Fits Standard 1458/1558 Sockets range. Precision Monolithics exclusive Silicon-Nitride Triple Internally Compensated Passivation process reduces popcorn noise. A thermally- Low Noise symmetrical input stage design provides low TCVos, TClos, Low Drift and insensitivity to output load conditions. This series is ideal Low Cost for upgrading existing designs where accuracy improve- 0C/ +70C and -55C/ +125C Models ments are desired. For more stringent requirements, refer to Sllicon-Nitride Passivation the OP-200, OP-207, OP-220, or OP-221 dual-matched opera- Models with MIL-STD-883 Class B Processing tional amplifier data sheets. Available From Stock PIN CONNECTIONS e Available in Die Form oura [1] ORDERING INFORMATION ' NA iH +NA T, =+25C PACKAGE OPERATING v- Ey Vog MAX CERDIP CERDIP PLASTIC TEMPERATURE (mV) TO-99 TO-100 8-PIN 14-PIN 8-PIN RANGE 8-PIN HERMETIC DIP 0.75 OP14AJ* OPO4AK* OP14AZ* OPIZAY? MIL (2-Suffix) OP-14 075 OP14Ed - OP14EZ OPO4EY OP14EP COM _ Z 20 OP14) OPO4K OP14Z2 OPO4AY - MIL 14 Cute OPoa a Sate) Oba 2.0 OP14CJ OPO4CK OP14CZ OPOACY OP14CP XIND (Y-Suffix) OP- (P-Suffix) OP- 20 - - - ~ OP14CS XIND 8-PIN SO 5.0 - OPOBK = - - MIL Sufti . 50 OP14D - - - OPtaDP XIND (S-Suffix) OP-14 * For devices processed in total compliance to MIL-STD-883, add /883 after part at number. Consult factory for 883 data sheet. t Burn-in is available on commercial and industrial temperature range parts in CerDIP, plastic DIP, and TO-can packages. GENERAL DESCRIPTION sv ave The OP-04/OP-14 series of dual general-purpose operational TO-100 (K-Suffix) TO-99 (J-Suffix) amplifiers provides significant improvements over industry- OP-04 OP-14 standard 747 and 1458/1558 (OP-14) types while maintaining SIMPLIFIED SCHEMATIC (Each Ampiifler) *Q1, G2, 03 AND 04 FORM A pve THERMALLY CROSS-COUPLED QUAD. Q5, 06', 06 AND a6! COMPRISE A SIMILAR as THERMALLY CROSS-COUPLED ee ong Qs QUAD. | | R10 OUTPUT O Q12 JN o5 as ato an Os! os! , 4 2 2a Zr3 rz RS SR7 3 3 . BALANCE SpaLance by. BALANCE ACCESSIBLE WITH OP-04 iN 14-PIN HERMETIC DIP ONLY. REV. B OPERATIONAL AMPLIFIERS 2-511OP-04/0P-14 ABSOLUTE MAXIMUM RATINGS (Note 1) Supply Voltage .....ssssscesssss-sssssesessssseecesesssssssssuuanesseeeeen 422 PACKAGE TYPE j4 (Note 2) c UNITS Differential Input Voltage oo... cee cceseeeeeecrentenneneens +30V T0-99 (J) 150 18 CAV Input Voltage sone Supply Voltage To-100 (K) 142 4 oC Storage Tomperature Range os Indefinite 8-Pin Hermetic DIP (Z) 148 16 Cw J, K, Y, and Z Packages 65C to +150C 14-Pin Hermetic DIP () 108 16 CW p Package ~65C to +125C 8-Pin Plastic DIP (P) 103 43 CW Lead Temperature Range (Soldering, 60 sec) .............. 300C 8-Pin SO (8) 158 43 cw Operating Temperature Range NOTES: ; A. Plain, B-Suffix 55C to +125C 1. Absolute maximum ratings apply to both DICE and packaged parts, unless . 5 otherwise noted. E-Suffix.... . OC to +70C 2. @, is specified for worst case mounting conditions, i.e., Gin is specified for C, D-Suffix wes 40C to +85C device in socket for TO, CerDIP, and P-DIP packages; , is specified for Junction Temperature (T) 65C to +150C device soldered to printed circuit board for SO package. MATCHING CHARACTERISTICS at Vs = + 15V, Ta = 25C, unless otherwise noted. OP-04A OP-04E OP-04 OP-04C OP-14A OP-14E OP-14 OP-14C PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX UNITS imout Offset Voltage AVos Rg < 20k - 03 1 - 1 2 mV Common-Mode Rejection ACMRR Vom = 10V, Rg < 1009 a 106 9 106 dB Ratio Match MATCHING CHARACTERISTICS at Vg = +15V,-55C s Ty = +125C for OP-04A, OP-14A, OP-04 and OP-14, 0C = T, = +70C for OP-04E, OP-14E, -40C = T, = +85C for OP-04C and OP-14C, unless otherwise noted. OP-04A OP-04E OP-04 OP-04C OP-14A OP-14E OP-14 OP-14C PARAMETER SYMBOL _ CONDITIONS MIN TYP MAX MIN TYP MAX UNITS Input Offset Voltage Match AVog Rg < 20kn 05 18 - 16 3 mv Common-Mode Rejection ACMRR - Vgy= +10, Ag < 1000 9 100 9 10 dB Ratio Match ELECTRICAL CHARACTERISTICS (Each Amplifier) at Vs = + 15V, Ta = 25C, unless otherwise noted. OP-04A/OP-14A OP-04/OP-14 OP-04B PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS Input Offset Voltage Vos Rg < 20k9 = 0.3 0.75 _ 1 2 _ 3 5 mV Input Offset Current los = 0.5 5 _ 1 5 _ 5 25 nA Input Bias Current Ip _- 18 50 _ 20 75 = 30 100 nA Input Resistance 2.0 75 _ . _ _ Differential-Mode Rin (Note 3) 1.35 7 1 5 Mo Input Voltage Range IVR +10 +13 - #10 +13 _ +10 +13 _ v Common-Mode Vom = +10V R 85 100 - 80 95 _ 70 85 _ dB Rejection Ratio CMR Rg = 20kn Power Supply Vg = +5V to t20V RR _ 10 60 _ 30 100 - 100 150 VIN Rejection Ratio Ps Rg < 20k # Output Voltage Swing Vo R, 2 2k +12 +13 _ #12 +13 _ +12 413 _ v 2-512 OPERATIONAL AMPLIFIERS REV. BOP-04/0P-14 ELECTRICAL CHARACTERISTICS (Each Ampilifler) at Vs = + 15V, Ta = 25C, unless otherwise noted. (Continued) OP-04A/OP-14A OP-04/OP-14 OP-04B PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS Large-Signal R, = 2k0 Voltage Gain Avo Vo = 10V 100 250 50 200 _ 26 200 _ V/mV Power Consumption _ (Note 2) Pg Vo =0V 50 90 50 90 - 50 90 mw Input Noise Voltage np-p 0.1Hz to 10Hz _ 0.65 _ _ 0.65 - - 0.65 #Vp-p fo= 10Hz _ 25 - - 25 - _ 25 _ Input Noise Volta 9 Dousit " ge n fo= 100Hz - 22 - - 22 - - 22 Witz y fo = 1000Hz - 21 - - 21 _ - 21 - Input Noise Current inp-p 0.1Hz to 10Hz Sd 12.8 ad - 12.8 - _ 12.8 _ PAp-p : fo = 10Hz _ 1.4 - _ 1.4 _ - 1.4 - I it Ni t Densi _ Current fo = 100Hz - o7 - _ 07 - - o7 par/Hz fo = 1000Hz - 0.4 _ _ 0.4 - - 0.4 _ Channel Separation cs 100 - - 100 - - 80 - _ dB R= 2kn, Slew Rate (Note 1) sR C. = 100pF 0.25 0.5 0.25 0s _ 0.28 05 oo V/us Large-Signal _ Bandwidth (Notes 1, 5) Vo=20Vp-p 4 8 ~ 4 8 ~ 4 8 ~ kHz Closed-Loop BW A =+1.0 1.0 1.3 1.0 1.3 1.0 13 MH: Bandwidth (Note 4) vol" : : . ~ . : ~ z ceti Ay =+1, Viy = 50mV,_, Riset N PP _ _ isetime (Note 1) ty A. =2k0, C, = 50pF 260 350 260 350 260 350 ns Ay=+1, Vin = 50mvV Overshoot (Note 1 ve IN PP 1 vershoot (Note 1) _ OS RL =2k0, C, = 50pF 5 0 5 10 5 10 % ELECTRICAL CHARACTERISTICS (Each Amplifier) at Vs = + 15V, -55C < Ta < + 125C, unless otherwise noted. OP-04A/OP-14A OP-04/OP-14 OP-04B PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS Input Offset Voltage Vos Rg = 20kN _ 0.4 1.5 _- 1.2 3 - 3 6 mv Average Input Offset = _ 8 _ 4 10 ~ 8 20 e Voltage Drift (Note 1) "Cvos As= 500 2 BVhG Input Offset Current los _ 1 10 - 2 10 _ 10 50 nA Average Input Offset - 7. 120 - 5 250 _ 70 500 Current Drift (Note t) TClos 5 PAC Input Bias Current iF} _ 30 60 _ 40 100 _ 50 200 nA Input Voltage Range IVR +10 413 _ +10 +13 - +10 +13 - v Common-Mode Vom = +10V 100 _ 80 96 - 70 85 - Rejection Ratio GMRR Rg = 20k. 80 a8 Power Supply Vs = +5V to +20V _- 10 60 - 30 100 _ 100 1 MV, Rejection Ratio PSRR Rg <20k0 50 WN Large-Signal RL 2 2k 50 100 - 25 60 _ 25 60 _ V/mV Voltage Gain Avo Vo=+10V m Output Voltage Swing Vo R, 2 2k0 +12 +13 - +12 +13 _ +10 +13 _ Vv NOTES: 1. Sample tested. 2. Power dissipation per amplifier. 3. Guaranteed by input bias current. 4. Guaranteed by maximum risetime. 5. Guaranteed by minimum slew rate. REV. B OPERATIONAL AMPLIFIERS 2-513OP-04/0P-14 ELECTRICAL CHARACTERISTICS (Each Amplifier) at Vs = +15V, Ta = 25C, unless otherwise noted. OP-04E/OP-14E OP-04C/OP-14C OP-14D PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS input Offset Voltage Vos Rg = 20kN - 0.3 0.75 _ 1 2 - 3 5 mV Input Offset Current los _ 0.8 5 - 1 5 - 5 25 nA input Bias Current lp _ 18 50 _ 20 75 - 30 100 nA Input Resistance Ditferential-Mode Rin (Note 3) 2.0 75 _ 1.35 7 - 1 - Mo Input Voitage Range IvR +10 +13 _ +10 +13 _- +10 +13 - v Common-Mode Vom = +10V 1 - 80 95 - 7 - Rejection Ratio cMRR Rg = 20kn 85 0 88 dB Power Supply Vg = +5V to t20V _ 10 - 30 1 - Rejection Ratio PSRR Rg S20kn 6 00 too 180 ww Output Voltage Swing Vo R, 2 2k0 +12 +13 - +12 +13 - +12 +13 - Vv Large-Signal RL 2 2kn 100 250 - 200 _- 150 - Voltage Gain Avo Vo = 10V 50 25 vim Power Consumption P, Vo= - 50 90 _ 50 90 _- 50 (Note 2) 4 o= OV 90 mW Input Noise Voltage enpp 0.1Hz to 10Hz _ 0.65 _ ad 0.65 _ - 0.65 - uVp-p . fo = 10Hz - 25 - - 25 - _ 25 _ re Voltage ig, fo = 100Hz - 22 - _ 22 - _ 22 Whe y fg = 1000Hz - 21 ~ _ 21 _ - 21 - Input Noise Current inp-p 0.1Hz to 10Hz - 12.8 - - 12.8 - _ 12.8 _ PAp-p : fo = 10Hz 1.4 - - 1.4 - - 14 nw Current i, fo= 100Hz - o7 - - 0.7 - o7 pAr/Hz y fo = 1000Hz 04 - _~ 0.4 - 04 - Channel Separation cs 100 _ _ 100 _- - 80 _ - dB Slew Rate (Note 1) SR R_ = 2kN, C= 100pF 0.25 05 - 0.25 0.5 - 0.25 0.5 _ V/ps Large-Signal Vo= 4 Bandwidth (Notes 1, 5) 9= 20Vp-p 8 8 4 8 kH2 Closed-Loop =+1 . 1 > 5 1. _ . . - Bandwidth (Note 4) BW Avei 0.8 3 08 3 0.8 13 MHz og Ay=+1, Vin=50mV - 350 - Risetime (Note 1) ty Ry = 2k, Cy = 50pF 260 260 350 260 350 ns Ay=+1, Vin = 50mv 1 1 - Overshoot (Note 1) Os Ry = 2k0, C, = 5OpF 5 0 5 0 5 10 % NOTES: 1. Sampie tested. 2. Power dissipation per amplifier. 3. Guaranteed by input bias current. 4. Guaranteed by maximum risetime. 5. Guaranteed by minimum slew rate. 2-514 OPERATIONAL AMPLIFIERS REV. BOP-04/0P-14 ELECTRICAL CHARACTERISTICS (Each Amplifier) at V, = +15V, 0C s T, s +70C for E, 40C to +85 for C and D, unless otherwise noted. OP-04E/OP-14E OP-04C/OP-14C OP-14D PARAMETER SYMBOL CONDITIONS MIN TYP MAX MIN TYP MAX MIN TYP MAX UNITS Input Offset Voltage Vos Rg = 20kN _ 0.4 45 _ 1.2 3 _ 3 6 mV Average Input Offset = _ 2 8 _ 4 10 _ 8 20 Voltage Drift (Note 1) TCVos Fis= 500 WEG Input Offset Current los = 1 10 2 10 _ 10 50 nA Average Input Offset - 7.5 120 _ 15 250 _ 70 Current Drift (Note 1) TClos 500 PAC Input Bias Current Ip = 30 60 _ 40 100 _ 50 200 nA Input Voltage Range IVR +10 +13 _ +10 413 _ +10 +13 - Vv Common-Mode Vom = +10V RR 100 _ 95 _ 70 85 _ Rejection Ratio cM Rg = 20kN 80 80 dB Power Supply Vg = +5V to +20V - 1 60 = 3 1 - 1 1 Rejection Ratio PSRR Rg < 20k 0 oo 00 50 wv Large-Signal Ri 2 2kn 100 _ 26 60 _ 15 2 8 Vi Voltage Gain Avo Vo=10V 50 mv Output Voltage Swing Vo RL 2 2k0 12 +13 _ +12 13 _ +10 13 _ Vv NOTES: 1. Sample tested. BURN-IN CIRCUIT (1/2 of OP-04, OP-14) +20V ~20V PIN NUMBERS ARE FOR Y PACKAGE ONLY. REV. B OPERATIONAL AMPLIFIERS 2-515OP-04/0P-14 DICE CHARACTERISTICS OP-14 OP-04 DIE SIZE 0.080 x 0.050 inch, 4000 sq. mils (2.03 X 1.27 mm, 2.58 sq. mm) 1. INVERTING INPUT (A) 8. BALANCE (B) 1. INVERTING INPUT (A) 8. BALANCE (8) 2. NONINVERTING INPUT (A) 9. V+ 2. NONINVERTING INPUT (A) 9. V+ (B) 3. BALANCE (A) 10. OUTPUT (B) 3. BALANCE (A) 10. OUTPUT (8B) 4.V- 11. V+ 4. V- 11. NO CONNECTIONS 5. BALANCE (B) 12. OUTPUT (A) 5. BALANCE (B) 12. OUTPUT (A) 6. NONINVERTING INPUT (B) 13. V+ 6. NONINVERTING INPUT (B) 13. V+ (A) 7. INVERTING INPUT (B) 14. BALANCE (A) 7. INVERTING INPUT (B) 14. BALANCE (A) NOTE: 9, 11 and 13 are internally connected. WAFER TEST LIMITS at V, =+15V, T, = +25C, unless otherwise noted. OP-04N . OP-14N OP-14G PARAMETER SYMBOL CONDITIONS LIMIT LIMIT UNITS. Input Offset Voltage Vos Rg $ 20kQ 0.75 2 mV MAX input Offset Voltage Vv < Match Vos Rg $ 20k 1 2 mV MAX Input Offset Current los 5 5 nA MAX input Bias Current . le 50 75 nA MAX Input Voltage Range iVR 10 +10 V MIN Common-Mode Vag = ttOV MRR cM Rejection Ratio c Rg S$ 20kQ 85 80 a8 MIN Common-Mode Rejection Vay = t10V MR cM Ratio Match ACMA Rg 1002 94 94 aB MIN Power Supply V.. = +5V to 20V RR Ss Rejection Ratio PS Rg < 20kQ 60 100 BVIV MAX . R, 2 10kQ 412 +12 t Vol S Vv L Output Voltage Swing R, > 2kO #12 412 V MIN Large-Scale RA 2 2kQ Voltage Gain Avo Vg =t10V 100 50 vim MIN Power Consumption P V,=0 A (Both Amplifiers) 5 170 170 mw MAX Channel Separation cs 4100 100 dB MIN NOTE: Electrical tests are performed at wafer 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 specifications based on dice lot qualifications through sample tot assembly and testing. TYPICAL ELECTRICAL CHARACTERISTICS at V, = +15V, T, = +25C, unless otherwise noted. OP-04N OP-04G OP-14N OP-14G PARAMETER SYMBOL CONDITIONS LIMIT LIMIT UNITS A, = +1, V,, = 50mV, at v o*IN . Risetime t R, =2kQ, C, = 509F 200 200 ns A, = +41,Ving = 50mv, 5 5 % Overshoot os R, = 2k, C, = SOF Slew Rate SR RL = 2kQ, Cc = 100pF 0.25 0.25 Vips 2-516 OPERATIONAL AMPLIFIERS REV. BOP-04/0P-14 TYPICAL PERFORMANCE CHARACTERISTICS (Each Amplifier) CLOSED-LOOP RESPONSE OPEN-LOOP GAIN OPEN-LOOP FOR VARIOUS vs TEMPERATURE FREQUENCY RESPONSE GAIN CONFIGURATIONS 120 Vg = 415V Vg = 15 Ta = 25C Vg = 15V Ta = 25C g OPEN LOOP GAIN (V/mV) OPEN LOOP GAIN (dB) S 3 CLOSED LOOP GAIN (4B) -40 60-2020 #80 #1004140 0.1 1.0 10 100 tk 10k 100k 1M 10M 10 1002 tk_=s10k 100k = tM 10M TEMPERATURE (C) FREQUENCY (Hz) FREQUENCY (Hz) MAXIMUM UNDISTORTED OUTPUT VOLTAGE vs INPUT RESISTANCE OUTPUT vs FREQUENCY LOAD RESISTANCE vs TEMPERATURE 28 16 Ta = 28C POSITIVE SWING 14 vg =215v yp s Vg = 15V Ta= 25C NEGATIVE SWING s 8 s 8 a OUTPUT SWING (VOLTS) a o INPUT RESISTANCE (MQ) o a r OUTPUT VOLTAGE, PEAK-TO-PEAK (VOLTS) 1 10 100 7000 of 10 10 60-20 +20 +60 +100 +140 FREQUENCY (kHz) LOAD RESISTANCE TO GROUND (kS2) TEMPERATURE (C) POWER CONSUMPTION POWER CONSUMPTION OUTPUT SHORT-CIRCUIT vs POWER SUPPLY vs TEMPERATURE CURRENT vs TIME 50 35 Ta = 25C Vg = 18V _ Ta 25C t Vg = 215V = 3 OP.04A 5 a0 || 5 OP-148 a VIN(PIN 3} = 10mV, Vo = +15 = 8 as = VINIPIN 3) = +10mV, Vo = 15V Ss E 3 - = e 3 g 3 25 3 5 = 2 oO 9 8 ec ee & = = 40 & : 6 z= * 20 = 5 2 & 2 o 35 5 0 20 40 60 0-200 +20 +60 4100 +140 q 1 2 3 4 TOTAL SUPPLY VOLTAGE, V+ TO V (VOLTS) TEMPERATURE (C) TIME FROM OUTPUT BEING SHORTED (MINUTES! REV. B OPERATIONAL AMPLIFIERS 2-517OP-04/0P-14 TYPICAL PERFORMANCE CHARACTERISTICS (Each Amplifier) UNTRIMMED OFFSET VOLTAGE vs TEMPERATURE a Vg = 15V Rg = 509 g 8 a 8 Pe a a e x ABSOLUTE VALUE OF OFFSET VOLTAGE (mV) 60 20 +20 +60 +100 +140 TEMPERATURE (C) OPEN-LOOP GAIN vs POWER SUPPLY VOLTAGE 300 Ta = 25C RL = 10k S > 200 z : 100 3 Q +5 210 216 220 POWER SUPPLY (VOLTS) INPUT SPOT NOISE VOLTAGE vs FREQUENCY tt Vv Ti TA= 25C mes TL i VOLTAGE NOISE DENSITY (nVA/Hz} 0.01 0,10 1.0 10 100 1000 FREQUENCY (Hz) 2-518 OPERATIONAL AMPLIFIERS INPUT OFFSET CURRENT vs TEMPERATURE 25 L| a o OP-O4C - op.og MN Pome OP TAC p14 ama INPUT OFFSET CURRENT {nA) y OP-14E / f OP-04A, OP-144 60 20 +20 +60 +100 +140 TEMPERATURE (C} PSAR vs FREQUENCY eeczseee ||| ST as eaz Tt NCAT SUTIN Xd Hi AL AN i PSAR (dB) tk 10k 100k INPUT SPOT NOISE CURRENT vs FREQUENCY CURRENT NOISE DENSITY (pAA/Hz) 0.01 0.10 1.0 1000 FREQUENCY { (Hz) INPUT BIAS CURRENT (nA) CMRR (dB) AMS NOISE (nV) INPUT BIAS CURRENT vs TEMPERATURE OP-O4E OP-14E OP-D4A/OP-144 60 20 +20 +60 +100 +140 TEMPERATURE (C) CMRR vs FREQUENCY OP-04A & OP-O4E OP-14A & OP-14E sti i 00 rN OP-04 & ih N 90} 07-14 & i Li N 80 LN 1 10 100 FREQUENCY ie INPUT WIDEBAND NOISE vs BANDWIDTH (0.1Hz TO FREQUENCY INDICATED) Vg = 215V Ta = 25C 01 1.0 10 100 BANDWIDTH (kHz) REV. B