Quad 741 General Purpose Operational Amplifier 4136 GENERAL DESCRIPTION DESIGN FEATURES The RM4136 and RC4136 include four independent high gain @ Unity Gain Bandwidth, 3MHz operational amplifiers internally compensated and constructed @ Short-Circuit Protection on a single silicon chip using the planar epitaxial processes. @ No Frequency Compensation Required These amplifiers meet or exceed atl specifications for 741 @ No Latch-up type amplifiers. Exceilent channel separation allows the use of @ Large Common Mode and Differential Voltage Ranges the 4136 quad amplifier in all 741 operational amplifier ap- @ Low Power Consumption plications providing the highest possible packaging density. Parameter Tracking Over Temperature Range The specially designed low ncise input transistors allow the Gain and Phase Match Between Amplifiers 4136 to be used in low noise signal processing applications such as audio preamplifiers and signal conditioners. SCHEMATIC DIAGRAM (1/4 Shown) vio je | : 4 oD INPUTS 4 | Ye OUTPUT vo I ; CONNECTION INFORMATION CJ OC and OB Flatpak Oe ine ees PIN FUNCTION 1 ~INPUT (A) | 14 2 +INPUT (A) Cc Lr 3 OUTPUT (A) 4 OUTPUT (B) Cy BF 5 +iNPUT (B) Ch at 6 = -\NPUT (B) 7 -Vee Ch nf] 8 -INPUT C 9 +INPUT (C) Cc 5 /\ 10 mm 10 OUTPUT (Cc) M10 +Vec Cc a 9 ) 12. OUTPUT (D) 13. +INPUT (D) Co ad 14 -1NPUT (D) Order Part No.: Order Part Nos.: RM4136CJ RM4136DC, RV4136DB, RV4136DC, RC4136DB, RC4136DC 1-794136 Quad 741 General Purpose Operational Amplifier ABSOLUTE MAXIMUM RATINGS Supply Voltage ........- Daas RM4136: +22V RV4136, RC4136: 18V Storage Temperature Range Operating Temperature Range . . ~65C to +1500C RM4136: -55C to +1250C Internal Power Dissipation (Note 1) .......-55% 800mW RC4136: OC to +700C Differential Input Voltage ......--.-- 0060 e eee +30V RV4136: -40C to +850C Input Voltage (Note 2) 22... ee eee +15V Lead Temperature (Soldering, 60s) ............ 300C Output Short-Circuit Duration (Note 3) ....... Indefinite ELECTRICAL CHARACTERISTICS (Vcc = #15V, Ta = +25C unless otherwise noted.) RM4136 RV4136, RC4136 PARAMETER CONDITIONS MIN TYP MAX MIN Typ MAX UNITS | Input Offset Voltage Rg 10 k&2 0.5 4.0 0.5 * 6.0 mV input Offset Current 5.0 150 5.0 * 200 nA Input Bias Current 40 400 40 * 500 nA Input Resistance 0.3 5.0 0.3 5.0 M&d Large-Signal Voltage Gain RL 22kQ2 * Vout = 10V 50,000 | 300,000 20,000 | 300,000 Viv Output Voltage Swing RL = 10 kQ +12 +14 * +12 +14 Vv RL 2=2kQ2 +10 +13 * +10 +13 v Input Voltage Range +12 +14 * +12 +14 Vv Common Mode Rejection Ratio Rs S 10 kQ2 70 100 70 100 dB Supply Voltage Rejection Ratio Rs $10 kQ 10 150 10 * 150 RVIN Power Consumption R= oe, All Outputs 210 340 210 * 340 mW Transient Response Vin = 20 mV {unity gain) Re=2kQ2 Cy < 100 pF Risetime 0.13 0.13 us Overshoot 5.0 5.0 % Unity Gain Bandwidth 3.0 3.0 MHz Slew Rate (unity gain) RE 22k 1.5 1.0 V/us Channel Separation f= 10 kHz (Gain = 100) Rg=1kQ 90 90 dB The following specifications apply for -55C < Ta <+1250C for RM4136; 0C < Ta < +709C for RC4136. tnput Offset Voltage Rs S$ 10 k2 6.0 * 75 mV Input Offset Current * 500 300 nA Input Bias Current * 1500 800 nA Large-Signal Voltage Gain RL 22k Vout = $10V 25,000 15,000 Viv Output Voltage Swing RL 2=2k2 +10 * +10 Vv Power Consumption Ta = High 180 300 180 * 300 mw Ta = Low 240 400 240 * 400 mW * = RV limits NOTES: 1, Rating applies for case temperature to +25C; derate linearly at 6.4 mW/9C for ambient temperatures above +259C. 2. For supply voltages jess than +15V the absolute maximum input voltage is equal to the supply voltage. 3. Short-circuit may be to ground or one amplifier only. Icc 45mA (typical). 1-80Quad 741 General Purpose Operational Amplifier 4136 vs. 741 Although the 324 is an excellent device for single-supply ap- plications where ground-sensing is important, it is a poor sub- stitute for four 741s in split-supply circuits. 4136 f = 10k Hz V = 8V/pk-pk f = 50k Hz 4136 The simplified input circuit of the 4136 exhibits much lower noise than that of the 324 and exhibits no crossover distortion as compared with the 324 (see illustration). The 324 shows serious crossover distortion and pulse delay in attempting to handle a large-signal input pulse. 324 V = 8Vipk-pk Rye 2kQ Ay =0d8 Voc = +5V Comparative Cross-over Distortion Output Voltage Swing as a Open Loop Voltage Gain asa Voltage Follower Functlon of Frequency Function of Frequency Large-Signal Pulse Response 40 120 +8 > = RL =2K Vg 41 t 8 38 Tax 25C 100 +6 = H10V. 22 RL = 2K o & 2 > 80 a sad z x zp 24 = 2 - =< 60 3 2 20 S > 0 S 8 40 5 ~ 18 < a < & Bo2 #12 a 2 a es > 4 x o -20 8 100 1K 10K 100K aM 1 10 100 1K 10K 100K 1M 10M a 20 40 60 80 FREQUENCY - Hz FREQUENCY - Hz TIME (uS} Typical Characteristics Curves Comparison input Common Mode Noltage Range asa Function of Supply Voltage 16 aC-Tas+70 COMMON MODE VOLTAGE RANGE V % 10 18 20 SUPPLY VOLTAGE Vv RAYTHEON } Unit Cost Comparisons 100 COST PER OP AMP ; 10 100 1000 UNIT VOLUME ix 10001 1-834136 Quad 741 General Purpose Operational Amplifier TYPICAL ELECTRICAL DATA Channel Separation 140 NOISE VOLTAGE (nv \ Hn Input Noise Voltage as @ Function of Frequency 10 10K 100K 00 1K FREQUENCY (He) Total Harmonic Distortion va Output Voltage NOISE CURRENT (pA y Hil Input Noise Current as a Function of Frequency 1K FREQUENCY {Hr} t t t = Ch goof Poet E z S120 TH t E Vs 118V $ AG es Li & Z oop ++ the BE Ay 40U8 ' ! Q 5 ilfi | ora TRHe f+ 4 & < sof +- baa gt ag use, |), | 9 Wi BH 3) 4 tor 1S g 60h tty 2 : of Z z : fz, .-L 1 4 4 | 2 2 af + fos is r 1 1 = z : zo oofeee _ = oof VS SOY. fat 5 eer z a Ta 2650 o T T T r L 5 po Lili "08 oT 9 C 4. 1 92 3 4 8 6 7 B 8 10 r 1 FREQUENCY (Het Vg OUTPUT VOLTAGE (VRMS) Distortion vs Frequency Vo = Ivems vg +30 RIAA COMPENSATION 190 1K FREQUENCY (H7} 10K 100K ELECTRICAL CHARACTERISTICS COMPARISON (Vcc = 15V, Ta = +25C) PARAMETER RC4136 (typ) RC741 (typ) LM324 (typ) UNIT Input Offset Voltage 0.5 2.0 2 mV Input Offset Current 5 10 5 nA Input Bias Current 40 80 55 nA Input Resistance 5 2 MQ Large-Signal Voltage Gain 300,000 200,000 100,000 V/V (Ry =2kQ) Output Voltage Swing +13V +13V +Vcc - 1.2Vl v (Rp =2kQ) to-Vcc Input Voltage Range +14V +13V l+Vcc - 1.5VI Vv to-Vcc Common-Mode Rejection Ratio 100 90 85 dB Supply Voltage Rejection Ratio 10 30 10 BV/IV Transient Response (gain = 1) Risetime 0.13 0.3 us Overshoot 5 5 % Unity-Gain Bandwidth 3 0.8 0.8 MHz Unity-Gain Slew Rate 1.0 0.5 0.5 Vi/us Input Noise Voltage 10 22.5 aV//Hz (fg = 1 kHz) Output Short-Circuit Current +45 +25 mAQuad 741 General Purpose Operational Amplifier 4136 ee) 4136 vs. 741 Although the 324 is an excellent device for single-supply ap- The simplified input circuit of the 4136 exhibits much lower plications where ground-sensing is important, it is a poor sub- noise than that of the 324 and exhibits no crossover distortion stitute for four 741s in split-supply circuits. as compared with the 324 (see illustration). The 324 shows serious crossover distortion and pulse delay in attempting to handle a large-signal input pulse. 4136 324 f = 10k Hz > V = 8V/pk-pk f = 50k Hz V = 8V/pk-pk Rp=2kQ Ay = 0dB Vec = +$v Comparative Cross-over Distortion Output Voltage Swing asa Open Loop Voltage Gain as a Voltage Follower Function of Frequency Function of Frequency Large-Signal Pulse Response 120 +8 ? Vg= 41 RL + 2K g Ta= 25C 100 +6 = 110v z Ry = 2K 5 8 80 w t4 5 Zz 2 42 z 5 & < 60 3 2 : Fo 4 Q 40 5 t < < z 2 a 6 2 2 e > Oa % 6 # -20 8 100 1K 10K 100K 1M 1 1a) 100 1K 10K 100K 1M 10M oO 20 40 60 80 FREQUENCY - Hz FREQUENCY - Hz TIME (uS) Typical Characteristics Curves Comparison Input Common Mode Noltage Range asa Function of Supply Voltage Unit Cost Comparisons 16 100 > OC-Tax?70C w 14 go 2 6 a 12 & we t < 10 8 3 8 & 50 5 ~ & 6 8 g oS z 4 26 o Zz? 3 8 4 1 10 100, 1000, SUPPLY VOLTAGE Vv UNIT VOLUME 4x +000: RAYTHEON } 1-834136 4136 TYPICAL APPLICATIONS Quad 741 General Purpose Operational Amplifier Stereo Tone Control Eing Eing Veo= 16 22uF 5K 50K 5K = 0.068 uF F | 5K VoA 0.068 uF - VoB Ya N36 { 1.67K + 7 = 10K = 50K = 400 Hz Lowpass Butterworth Active Filter 10K 620 iNPUT = 0.334F ~ g.33ye3 RIAA Preamplifier 1k Low Frequency Sine Wave Generator with Quadrature Output Triangular-Wave Generator 0.02 uF SINE INTEGRATOR rH ~-0 OUTPUT o O Oh aF THRESHOLD 0.1 uF ETE tom DETECTOR ' 436 > oom . 5 COSINE OUTPUT Tt 0.01 uF ig THe 22M 6.3V 50K 6.3V RAYTHEONQuad 741 General Purpose Operational Amplifier 4136 TYPICAL APPLICATIONS 4136 oh Comparator With Hysteresis +VIN O Vo 10K O +Vaer 10M Power Amplifier 910K vt Vo +VinO | Ay = 10 = AC Coupled Inverting Amplifier 100K QV! VIN 10K J 100K Ye 4136 Vo Oo te vt - 10K =p HF 3 100Kk DC Coupled 1 kHz Low-Pass Active Filter 18K O.01nF vo Voltage Follower Lamp Oriver +c" 4 AA136 Squarewave Oscillator AC Coupled Non-Iinverting Amplifier 1M AN Vo V 4136 tO IN 1 kHz Bandpass Active Filter 390K O.01uF VIN Voltage Controlied Oscillator (VCO) 0.05uF 51K Neen] + g Re > 50K > 51K V+/210K 100K SLL pO OUTPUT 1 A/V OUTPUT 2 10K Wide Control Voltage Range: 0 Voc <Vc <2 (V*+-1.5 Voc) 1-854136 Quad 741 General Purpose Operational Amplifier 4136 TYPICAL APPLICATIONS Notch Filter Using the 4136 as a Gyrator R2 Notch Frequency asa Function of C, 10F 10 20K 1% OUTPUT 1 2 6 t*Matching Determines CMRR I 3 QUTPUT G LC g Tum R, such that S RI R3 w 100 R2 2R4 o Ww 0.9001 0001 0.04 o4 CAPACITOR cy vr Full-Wave Rectifier and Averaging Filter 20K 1% AN 4d AC + + INPUT 1H Few Me 10K a7pF 20K 20 We 1% iw AAA m Ot 02 FD666 FD666 6 Multiple Aperture Window Discriminator 2 Vin + 44136 Vin Va 10K 5.1K 3 V4 - a a1 | 2h Differential input instrumentation Amplifier with High Common Mode Rejection y 3 Ya 4136 V3 Vin = VQ RI ast v3 > - Q2 | HH 3 + 2 Ya 436 V2 Vin V3 INPUTS vy Ay = 2.5K ma IOs RG R2 oc O OUTPUT 28) R3 ( - 1-86Quad 741 General Purpose Operational Amplifier 4136 TYPICAL APPLICATIONS 4136 Analog Multi plier/Divider 15V Nolse Measurement Test Circult D2 1N457 AN 3.3M OC-1HZy 49.9 tl 100K look =| buT + 49.9 el 0.082 ri COMPENSATE AS REQUIRED 3.16K 499K 1000,F 3.16K 44 I STEPPED 10dB ATTENUATOR 100K | | | SELECTABLE FREQUENCY CONSTANT Q FILTER 60dB WIDE BAND AMP. bolo trl. Lol E, Eg F3 1K