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| Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 DESCRIPTION The 531 is a fast slewing high performance operational amplifier which retains DC performance equal to the best general purpose types while providing far superior large-signal AC performance. A unique input stage design allows the amplifier to have a large-signal response nearly identical to its small-signal response. The amplifier is compensated for truly negligible overshoot with a single capacitor. In applications where fast settling and superior large-signal bandwidths are required, the amplifier out-performs conventional designs which have much better small-signal response. Also, because the small-signal response is not extended, no special precautions need be taken with circuit board layout to achieve stability. The high gain, simple compensation, and excellent stability of this amplifier allow its use in a wide variety of instrumentation applications. PIN CONFIGURATIONS N, FE Packages OFFSET NULL INVERTING INPUT NON-INVERTING INPUT V- 1 2 3 4 - + 8 7 6 5 FREQ. COMP. V+ OUTPUT OFFSET FEATURES * 35V/s slew rate at unity gain * Pin-for-pin replacement for A709, A748, or LM101 * Compensated with a single capacitor ORDERING INFORMATION DESCRIPTION 8-Pin Plastic Dual In-Line Package (DIP) 8-Pin Ceramic Dual In-Line Package (CERDIP) 8-Pin Ceramic Dual In-Line Package (CERDIP) * Same low drift offset null circuitry as A741 * Small-signal bandwidth 1MHz * Large-signal bandwidth 500kHz * True op amp DC characteristics make the 531 the ideal answer to all slew rate limited operational amplifier applications TEMPERATURE RANGE 0 to +70C -55C to +125C 0C to +70C ORDER CODE NE531N SE531FE NE531FE DWG # 0404B 0580A 0580A ABSOLUTE MAXIMUM RATINGS SYMBOL VS PD MAX Supply voltage Maximum power dissipation TA=25C (still-air)1 FE package N package Differential input voltage VCM TA Common-mode input voltage2 Voltage between offset null and VOperating ambient temperature range NE531 SE531 TSTG TSOLD Storage temperature range Lead soldering temperature (10sec max) Output short-circuit duration3 0 to +70 -55 to +125 -65 to +150 300 indefinite C C C C 780 1160 15 15 0.5 mW mW V V V PARAMETER RATING 22 UNIT V NOTES: 1. The following derating factors should be applied above 25C: FE package at 6.2mW/C N package at 9.3mW/C 2. For supply voltages less than 15V, the absolute maximum input voltage is equal to the supply voltage. 3. Short-circuit may be to ground or either supply. Rating applies to +125C case temperature or to +75C ambient temperature. August 31, 1994 70 853-0809 13721 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 EQUIVALENT SCHEMATIC INPUT + 3 INPUT Q1 2 Q2 R1 Q5 R4 R15 100 Q20 R14 10 Q23 Q3 R2 .2 R3 2.2 Q6 Q25 R8 2.2 R5 .2 Q38 OUTPUT Q7 q8 Q37 R16 10 Q9 Q10 Q13 Q14 Q11 Q12 Q21 R18 .33 R17 10 R22 3.3 R28 .04 Q27 R24 .04 Q28 Q6 Q19 R20 .33 Q35 Q22 Q29 Q30 Q31 Q32 Q15 Q18 R7 6.5 1 Q19 OFFSET ADJUST 4 V 5 OFFSET ADJUST 6 FREQUENCY COMPENSATION R11 1.5 R8 7.8 R12 .17 R9 1.8 R13 1.6 R27 6.5 R10 6.5 Q17 R10 6.5 Q23 Q24 Q34 Q33 R21 .2 August 31, 1994 71 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 DC ELECTRICAL CHARACTERISTICS VS=15V, unless otherwise specified. SYMBOL VOS VOS IOS IOS IBIAS IBIAS VCM CMRR RIN VOUT ICC PD PSRR ROUT Common-mode voltage range Common-mode rejection ratio Input resistance Output voltage swing Supply current Power consumption Power supply rejection ratio RS10k, over temp Output resistance TA=25C TA=25C, 10 75 50 25 20 5 15 45 5 100 20 15 20 15 45 150 75 60 V/V V/mV V/mV nV/Hz mA Input bias current Offset current PARAMETER Offset voltage TEST CONDITIONS RS10k, TA=25C RS310k, over temp Over temp TA=25C TA=High TA=Low Over temp T=25C TA=High TA=Low Over temp TA=25C TA=25C, 10 70 10 90 20 13 7.0 7.0 210 10 10 20 13 10 10 300 150 SE531 Min Typ 2.0 10 30 200 200 500 500 500 1500 10 70 100 Max 5.0 6.0 Min NE531 Typ 2.0 10 50 200 200 300 1500 1500 2000 Max 6.0 7.5 UNIT mV mV V/C nA nA nA nA/C nA nA nA nA/C V dB dB M V mA mA mW V/V 0.4 300 0.4 400 2 2 RS10k Over temp RS10k TA=25C RL10k, over temp TA=25C TMAX TA=25C RS10k, TA=25C RL10k, VOUT=10V AVOL VINN ISC Large-signal voltage gain Input noise voltage Short-circuit current RL10k, VOUT=10V, over temp 25C f=1kHz 25C AC ELECTRICAL CHARACTERISTICS TA=25C VS=+15V, unless otherwise specified.1 SYMBOL BW tS PARAMETER Full power bandwidth Settling time (1%) (0.1%) Large-signal overshoot Small-signal overshoot tR SR Small-signal rise time Slew rate AV=+1, VIN=10V AV=+1, VIN=10V AV=+1, VIN=400mV AV=+1, VIN=400mV AV=100 AV=10 AV=1 (non-inverting) AV=1 (inverting) NOTES: 1. All AC testing is performed in the transient response test circuit. 20 25 TEST CONDITIONS SE531 Min Typ 500 1.5 2.5 2 5 300 35 35 30 35 Max Min NE531 Typ 500 1.5 2.5 2 5 300 35 35 30 35 Max UNIT kHz s s % % ns V/s V/s V/s V/s August 31, 1994 72 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 TEST LOAD CIRCUITS V+ 2 - 3 + 1 4 10K 4 50 V- 2K V+ 7 2 5 6 - EIN 3 + 30pf 7 8 51 EOUT 100pF V- Offset Null Circuit Transient Response Circuit TYPICAL PERFORMANCE CHARACTERISTICS VS = +15V, TA = +255C, unless otherwise specified. Input Offset Curent as a Function of Ambient Temperature 160 140 INPUT OFFSET CURRENT -nA 120 100 80 60 40 20 0 -60 -20 20 60 100 140 0 INPUT BIAS CURRENT -nA 800 1000 Input Bias Curent as a Function of Ambient Temperature Input Bias Curent as a Function of Supply Voltage 120 INPUT BIAS CURRENT - nA -60 -20 20 60 100 TEMPERATURE - C 140 110 600 100 400 200 90 80 5 10 15 20 SUPPLY VOLTAGE - +V 25 TEMPERATURE - C Closed Loop Non-Inverting Voltage Gain as a Function of Frequency +60 +50 CC = 2pF VOLTAGE DRAIN - dB +40 +30 +20 +10 0 -10 AV = 10, Ri = 00,0 10K 100K 1M 10M AV = 100, Ri = 5000 CC = 2pF AV = 10, Ri = 5.50, CC = 10pF AV = 1000, Ri = 50 CC + 531 - OUT V Rf = 50k Ri 0 15 30 PHASE IN DEGREES 45 60 75 90 105 120 135 150 165 180 1 Open-Loop Phase Response and Voltage Gain as a Function of Ambient Temperature 120 110 GAIN VOLTAGE GAIN -- dB CONSUMPTION --mW CC = 100PF 100 90 80 PHASE 70 60 50 40 30 20 10 0 10M Power Consumption as a Function of Supply Voltage 300 275 250 225 200 175 150 125 100 75 50 5V 10 15 20 25 10 100 1K 10K 100K 1M FREQUENCY - Hz FREQUENCY - Hz SUPPLY VOLTAGE -- +V August 31, 1994 73 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) VS = +15V, TA = 25C, unless otherwise specified. Power Consumption as a Function of Ambient Temperature 250 115 110 VOLTAGE GAIN --dB L Open-Loop Voltage Gain as a Function of Supply Voltage Output Voltage Swing as a Function of Supply Voltage +15 +10 POWER CONSUMPTION -- mW 200 OUTPUT SWING -- VOLTS 100 +5 150 95 0 100 90 -5 -10 50 V 85 0 -60 -20 +20 +60 +100 +140 80 5 10 15 20 SUPPLY VOLTS -- +V -15 5 10 15 SUPPLY VOLTAGE -- +V TEMPERATURE -- Co Input Voltage Range as a Function of Supply Voltage +15 PEAK-TO-PEAK OUTPUT SWING -- V COMMON MODE RANGE -- V +10 27 24 Output Voltage Swing as a Function of Frequency Voltage Follower Large-Signal Response +10 OUTPUT VOLTAGE -- V 21 18 12 9 6 3 0 1K 3K 10K 30K 100K 300K 1M IN 100pF - 531 + OUT 2K +5 +5 0 -5 IN -10 100pF - 531 + 2K 0 -5 -10 OUT 30Pf -15 5 10 15 SUPPLY VOLTAGE -- +V 20 0 500 1000 1500 2000 2500 3000 3500 TIME -- nsec FREQUENCY, Hz Voltage Follower Transient Response 500 +15 Unity Gain Inverting Amplifier Large-Signal Response Function of Frequency 400 OUTPUT VOLTAGE --mV 90% OUTPUT VOLTAGE -- V 300 100pF - 531 + +10 +5 OUT 200 IN 0V 10K IN -5 10K 50pF - 531 + 5K VIN = 400mV 100 10% 0 OUT -10 -15 0 200 400 600 800 1000 1200 1400 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 TIME -- nsec TIME -- sec August 31, 1994 74 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 TYPICAL APPLICATIONS 2pf 10K 10K IN 5.1K 531 fo V+ 0.5V/DIV OUT 30pf Pulse Response High-Speed Inverter 4.7K 200nsec/DIV V- High-Speed Inverter (10MHz Bandwidth) Large-Signal Response Voltage-Follower 100pF + 531 IN - OUT 2V/DIV 0.5s/DIV f = 500KHz Fast Settling Voltage-Follower Response of 3-Pole Active Butterworth Maximally Flat Filter 30K 0 100pF 10K 10K 10K 531 ATTENUATION -- dB f0 - 1KHz -5 60dB/DECADE -10 .022 .056 .0032 -15 -20 Three-Pole Active Low-Pass Filter Butterworth Maximally Flat Response1 -25 100 300 1K FREQUENCY -- Hz 3K 10K August 31, 1994 75 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 TYPICAL APPLICATIONS (Continued) Precision Rectifiers 10K 1% 10K IN 10K OUT - 100pF IN + 531 - 10K 100pF 531 + 5.1K 1% 10K 100PF a. Half-Wave 5.1K - 531 + OUT b. Full-Wave Sample-and-Hold AC Millivoltmeter 100pF IN 100K + 531 - 100K M DIODES IN914 1F 33K RE LOGIC IN - 531 + 300K 15MSEC -15 -15 10K SIGNAL IN - 531 + 18K 330pF 470 Q1 ZN3819 Q2 3N128 +15 OUTPUT IN457 IN/51A 100K IN457 .0047 CDE# 30K CD19 FD4725 August 31, 1994 76 Philips Semiconductors Linear Products Product specification High slew rate operational amplifier NE/SE531 CYCLIC A-TO-D CONVERTER One interesting, but much ignored, A/D converter is the cyclic converter. This consists of a chain of identical stages, each of which senses the polarity of the input. The stage then subtracts VREF from the input and doubles the remainder if the polarity was correct. In Figure 1, the signal is full-wave rectified and the remainder of VIN-VREF is doubled. A chain of these stages gives the gray code equivalent of the input voltage in digitized form related to the magnitude of VREF. Possessing high potential accuracy, the circuit using NE531 devices settles in 5s. swing of op amp A-1, and R1/R2 sets the triangle amplitude. The frequency of oscillation in either case is: f+ 1 R2 @ 4RC R1 (1) The square wave will maintain 50% duty cycle even if the amplitude of the oscillation is not symmetrical. The use of the NE531 in this circuit will allow good square waves to be generated to quite high frequencies. Since the amplifier A1 runs open-loop, there is no need for compensation. The triangle-generating amplifier must be compensated. The NE5535 device can be used as well, except for the lower frequency response. TRIANGLE AND SQUARE WAVE GENERATOR The circuit in Figure 2 will generate precision triangle and square waves. The output amplitude of the square wave is set by the output +vcc 10K LOGIC OUT VREF VOUT 0 -VIN + NE531 2K - 20K LOGOUT 10K VIN 20K VREF VIN VREF + NE531 - VREF a. b. Figure 1. Cyclic A-to-D Converter August 31, 1994 77 |
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