ANALOG DEVICES OP183/OP283 handbook
Contents
1. 1000 900 Vg 45V 800 R 2k gt 700 Z 600 3 S 500 o 9 S 400 o z i 300 Vg 15V I o OR ul 200 D Vs 3V lt 100 R 2kQ2 B 0 1k 10k 100k 1M 10M 75 50 25 0 25 50 75 100 125 FREQUENCY Hz TEMPERATURE C Figure 24 Open Loop Gain vs Temperature T4 25 C Hz Vs 3V 15V SLEW RATE V us VOLTAGE NOISE DENSITY nV 0 75 50 25 0 25 50 75 TEMPERATURE C 100 125 100 1k FREQUENCY Hz 10k Figure 27 Voltage Noise Density vs Frequency Figure 26 Slew Rate vs Temperature 0P183 0P283 Typical Characteristics TA 25 C N T4 25 C A 4 S Vg 215V VSE tiv x 4 OR i t Vg 3 45V Q o gt q 5 NEGATIVE 7 w tr EDGE z O Ww W z 2 a o Lu a d 2 amp z 2 s o J E z 5 5 POSITIVE o EDGE 0 10 100 1k 10k 100 1k 10k 100k 1M 0 100 200 300 FREQUENCY Hz FREQUENCY Hz CAPACITANCE pF Figure 28 Current Noise Density Figure 29 Closed Loop Output Figure 30 Small Signal Overshoot vs Frequency Impedance vs Frequency vs Load Capacitance pea FUE Shee e deel ol nl ld Figure 31 Large Signal Performance Figure 32 Small Signal Performance Figure 33 0 1 Hz to 10 Hz Noise 9 t 15V 9 t 15V 9 t25V DISTORTION FREQ2. OUTPUT STAGE ROI 99 45 POLY 2 1 98 2 98 0 3 5 3 5 1E6 3 75E 11 1 9 98 1E 6 1E6 7 96E 15 31 98 1E6 1E6 1 106E 15 33 98 1E 6 1E6 15 9E 15 140 OP 183 0P 283 RO2 G7 G8 G9 D7 D8 V7 V8 GSY FSY D9 45 45 50 98 60 62 61 98 99 99 40 50 99 140 99 40 7 14E 3 40 50 7 14E 3 45 40 7 14E 3 DX DX DC 0 DC 0 99 50 5E 6 POLY 2 V7 V81 075E 3 1 1 DX D10 42 40 DX V5 41 45 1 2 V6 45 42 1 5 MODELS USED MODEL DX D MODEL DZ D IS 1E 15 BV 7 0 MODEL QP PNP BF 2143 ENDS OUTLINE DIMENSIONS Dimensions shown in inches and mm 8 Lead Plastic DIP N 8 PIN 1 ei I 0 280 7 11 0 240 6 10 m Ks 430 10 92 0 348 8 NN 0 325 8 25 r 0 300 r 0 060 1 52 0 210 0 195 4 95 5 33 0 015 0 38 0 115 2 93 MAX 0 130 EI 0 160 4 06 3 30 0 015 0 381 0 115 2 93 MIN 0 008 0 204 0 022 s br I 77 X SEATING 0 014 0 356 E a 0 045 1 15 PLANE amp Lead Narrow Body SO SO 8 PIN 1 0 1574 4 00 0 1497 3 80 1 4 0 2440 6 20 0 2284 5 80 0 1968 5 00 0 0196 0 50 0 1890 4 80 6 0095 0 25 0 25 0 0688 1 75 0 0098 0 25 0 0532 1 35 000400304 1 gt n 0 0500 0 0192 0 49 0 0098 0 25 0 0 050027 GEV 00138 035 0 0075 0
3. 160 40 C lt Ty lt 85 C 140 300X OP AMPS PLASTIC PACKAGE 60 QUANTITY Amplifiers R eo TCVog uV C Figure 5 OP183 Input Offset Voltage Drift TCV Distribution 45 V 40 C lt T lt 85 C 590X OP AMPS PLASTIC PACKAGE QUANTITY Amplifiers 0 2 4 6 8 10 12 14 16 TCVos uV C Figure 8 OP283 Input Offset Voltage Drift TCV Distribution 15 V Vs 45V 590X OP AMPS QUANTITY 0 600 400 200 0 200 400 600 INPUT OFFSET VOLTAGE pV Figure 3 OP283 Input Offset Voltage Distribution 45 V 40 C lt T lt 85 C 140 I 300X OP AMPS PLASTIC PACKAGE eo QUANTITY Amplifiers eo o B o 20 0 2 4 6 8 10 12 TCVos uV C Figure 6 OP183 Input Offset Voltage Drift TCV Distribution 15 V MAXIMUM OUTPUT SWING Volts 1k 10k 100k 1M 10M FREQUENCY Hz Figure 9 OP183 OP283 Maximum Output Swing vs Frequency 43 V 30 OP 183 0P283 Typical Characteristics MAXIMUM OUTPUT SWING Volts p p 1k 10k 100k 1M 10M FREQUENCY Hz Figure 10 OP183 OP283 Maximum Output Swing vs Frequency 45 V INPUT BIAS CURRENT nA
4. 15 10 5 0 5 10 13 5 COMMON MODE VOLTAGE Volts Figure 13 Input Bias Current vs Common M ode Voltage 1 50 TA 25 C 1 25 1 00 0 75 0 50 0 25 SUPPLY CURRENT AMPLIFIER mA 0 0 2 55 5 17 5 10 12 5 15 17 5 20 SUPPLY VOLTAGE Volts Figure 16 Supply Current per Amplifier vs Supply Voltage 25 20 MAXIMUM OUTPUT SWING Volts p p a H p a lt 1k 10k 100k 1M 10M FREQUENCY Hz Figure 11 OP183 OP283 Maximum Output Swing vs Frequency 15 V 500 lt 400 a tc 300 tc 2 o o lt 200 a E 2 a 100 0 75 50 25 0 25 50 75 100 125 TEMPERATURE C Figure 14 Input Bias Current vs Temperature E I E z W tc tc 2 o 2 o amp o R tc o rI o 0 75 50 25 0 25 50 75 100 125 TEMPERATURE C Figure 17 Short Circuit Current vs Temperature 45 V OUTPUT VOLTAGE A TO RAIL Volts 10m 1p 10u 100p 1m 10m LOAD CURRENT Amps Figure 12 Output Voltage vs Sink amp Source Current SUPPLY CURRENT AMPLIFIER mA SHORT CIRCUIT CURRENT mA 0 75 50 25 0 25 50 75 100 125 TEMPERATURE C Figure 15 Su
5. 19 9 0100 041 REV B C1858a 3 2 96 PRINTED IN U S A
6. Amplifier for Multimedia Sound Codec SoundPort is a registered trademark of Analog D evices Inc OP 183 0P 283 Low Noise Microphone Amplifier for Multimedia The OP 183 family is ideally suited as a low noise microphone preamp for low voltage audio applications Figure 40 shows a gain of 100 stereo preamp for the AD 1849 16 bit SoundPort Stereo Codec chip T he common mode output buffer serves as a phan tom power driver for the microphones 500 LEFT ELECTRET CONDENSER MIC INPUT RIGHT ELECTRET CONDENSER MIC INPUT L Figure 40 Low Noise Stereo Microphone Amplifier for Multimedia Sound CODEC A 3 Volt 50 Hz 60 Hz Active Notch Filter with False Ground T o process ac signals it may be easier to use a false ground bias rather than the negative supply as a reference ground T his would reject the power line frequency interference which oftentimes can obscure low frequency physiological signals such as heart rates blood pressures EEGs ECGs et cetera R2 2 67kQ NOTE FOR 50Hz APPLICATIONS CHANGE R1 R4 TO 3 1k Q AND R5 TO 1 58k 3 16kQ 2 Figure 41 3 Volt Supply 50 Hz 60 Hz Notch Filter with Pseudo Ground Figure 41 shows a 50 H z 60 H z active notch filter for eliminating line noise in patient monitoring equipment It has several kilohertz bandwidth and is not sensitive to false ground perturbations T he simple false ground circuit shown achieves good rejection of low frequency interference u
7. OO oP183 0 O ANALOG DEVICES 5 MHz Single Supply Operational Amplifiers OP 183 0P283 PIN CONNECTIONS FEATURES Single Supply 3 Volts to 36 Volts Wide Bandwidth 5 MHz Low Offset Voltage lt 1 mV High Slew Rate 10 V s Low Noise 10 nV VHz Unity Gain Stable Input and Output Range Includes GND No Phase Reversal APPLICATIONS Multimedia Telecom ADC Buffers Wide Band Filters Microphone Preamplifiers GENERAL DESCRIPTION The OP 183 is a single supply 5 MHz bandwidth amplifier with slew rates of 10 V us T he OP283 is a dual version Both can operate from voltages as low as 3 volts and up to 36 volts T his combination of slew rate and bandwidth yields excellent single supply ac performance making them ideally suited for telecom and multimedia audio applications In addition to its ac characteristics the OP 183 family provides good dc performance with guaranteed 1 mV offset N oise is a respectable 10 nV VH z Supply current is only 1 2 mA per amplifier T hese amplifiers are well suited for single supply applications that require moderate bandwidths even when used in high gain configu rations T his makes them useful in filters and instrumentation T heir output drive capability and very wide full power bandwidth make them a good choice for multimedia headphone drivers or microphone input amplifiers The OP183 and OP283 are available in 8 pin plastic DIP and SO 8 surface mount packages T hey are sp
8. UENCY Hz Figure 34 0 1 Hz to 10 Hz Noise Figure 35 THD Noise vs Frequency for Various Loads 15 V 8 REV B OP 183 0P 283 APPLICATIONS OP 183 Offset Adjust Figure 36 shows how the OP 183 s offset voltage can be adjusted by connecting a potentiometer between Pins 1 and 5 and connecting the wiper to V T he recommended value for the potentiometer is 10 kQ T his will give an adjustment range of approximately 1 mV If larger adjustment span is desired a 50 kQ potentiometer will yield a range of 2 5 mV Figure 36 OP183 Offset Adjust Phase Reversal The OP183 family is protected against phase reversal as long as both of the inputs are within the range of the positive supply and the negative supply minus 0 6 volts H owever if there is a possibility of either input going beyond these limits then the inputs should be protected with a series resistor to limit input current to 2 mA Direct Access Arrangement The OP183 OP 283 can be used in a single supply Direct Access Arrangement DAA as is shown in Figure 37 T his figure shows a portion of a typical DAA capable of operating from a single 5 volt supply and it should also work on 3 volt supplies with minor modifications Amplifiers A2 and A3 are configured so that the transmit signal T XA is inverted by A2 and is not inverted by A3 T his arrangement drives the transformer differentially so that the drive to the transformer is effectively doubled over a single ampl
9. ecified over the extended industrial 40 C to 85 C temperature range REV B 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 which may result from its use No license is granted by implication or otherwise under any patent or patent rights of Analog Devices amp Lead Narrow Body SO 8 Lead Epoxy DIP S Suffix P Suffix NC OP183 V TOP VIEW OUT Not to Scale NULL NC NO CONNECT 8 Lead Narrow Body SO 8 L ead Epoxy DIP S Suffix P Suffix V OP283 OUTB TOP VIEW INB Not to Scale INB One Technology Way P O Box 9106 Norwood MA 02062 9106 U S A Tel 617 329 4700 Fax 617 326 8703 OP 183 0P283 SPECIFICATIONS ELECTRICAL CHARACTERI STICS Q V 45 0 V T 25 C unless otherwise noted Parameter Symbol Conditions Min Typ Max Units INPUT CHARACTERISTICS Offset Voltage Vos Vem 25 V Vout 25 V 0 025 1 0 mV 40 C lt T lt 85 C 1 25 mV Input Bias Current lg Vem 25 V Vout 25 V 350 600 nA 40 C T lt 85 C 430 750 nA Input Offset Current los Vem 25 V Vout 2 5 V nA 40 C lt T lt 85 C 11 50 nA Input Voltage Range 0 3 5 V Common M ode Rejection Ratio CMRR Vem 0 to 3 5 V 40 C T lt 85 C 70 104 dB Large S
10. edance Zout f 1MHz Ay 1 15 Q POWER SUPPLY Power Supply Rejection Ratio PSRR V 2 5 V to 18 V 40 C T lt 85 C 70 112 dB Supply C urrent A mplifier la Vs 18 V Vo 0V 40 C lt T lt 85 C 1 2 1 75 mA Supply Voltage Range Vs 3 18 V DYNAMIC PERFORMANCE Slew Rate SR R 2kQ 10 15 V us Full Power Bandwidth BW 1 Distortion 50 kHz Settling T ime ts T0 0 01 1 5 us G ain Bandwidth Product GBP 5 MHz Phase M argin om 56 degrees NOISE PERFORMANCE Voltage N oise op 0 1 Hzto 10 Hz 2 jV p p Voltage N oise Density en f 1kHz 10 nV VH z Current N oise D ensity P 0 4 pANHz NOTES 1L ong term offset voltage is guaranteed by a 1000 hour life test performed on three independent lots at 125 C with an LT PD of 1 3 Specifications subject to change without notice WAFER TEST LI MITS V 5 0 V T 25 C unless otherwise noted Parameter Symbol Conditions Limit Units Offset Voltage Vos V 15V V 0V 1 0 mV max Input Bias C urrent lp Vey 2 5 V 600 nA max Input Offset Current los Vow 722 5 V 50 nA max Common M ode Rejection CMRR Vem 20V to 3 5 V 70 dB min P ower Supply Rejection Ratio PSRR V 2 5V to 18V 70 dB min Large Signal Voltage Gain Avo R 2 kQ 0 2 lt V lt 3 8V 100 V mV min Output Voltage H igh Vou R 2kQ 4 0 V min Output Voltage Low Vor R 2kQ 75 mV max Supply C urrent A mplifier ls V 15V V 0V R e 1 5 mA max NOTE Electrical tests and wafer probe to the limits shown Due to variations in a
11. ifier arrangement T his application takes advantage of the OP 183 283 s ability to drive capacitive loads and to save power in single supply applications 300pF Figure 37 Direct Access Arrangement REV B 5 Volt Only Stereo DAC for Multimedia T he OP283 s low noise and single supply capability are ideally suited for stereo DAC audio reproduction or sound synthesis applications such as multimedia systems F igure 38 shows an 18 bit stereo DAC output setup that is powered from a single 5 volt supply T he low noise preserves the 18 bit dynamic range of the AD 1868 For DACs that operate on dual supplies the OP283 can also be powered from the same supplies 45V SUPPLY E n AD1868 veL ES 18 BI DAC LEFT CHANNEL OUTPUT 2 7 68kQ 100pF 9 dou RIGHT 1 2 OP283 CHANNEL x OUTPUT amko Figure 38 5 Volt Only 18 Bit Stereo DAC eis ETETETETUT E Low Voltage Headphone Amplifiers Figure 39 shows a stereo headphone output amplifier for the AD 1849 16 bit SoundPort Stereo C odec device T he pseudo reference voltage is derived from the common mode voltage generated internally by the AD 1849 thus providing a convenient bias for the headphone output amplifiers OPTIONAL GAIN 1kQ 5kQ E a ger L VOLUME HEADPHONE CONTROL 129 LEFT 47kQ OuF 1 2 OP283 hah R VOLUME 47kQ 10pF CONTROL l 5ko 1ko OPTIONAL GAIN VREF Figure 39 Headphone Output
12. ignal Voltage G ain Avo R 2 kQ 0 2 lt V lt 3 8 V 100 V mV Offset Voltage Drift AV 9s AT 4 uv C Bias Current Drift Al AT 1 6 nA C OUTPUT CHARACTERISTICS Output Voltage H igh Vou R 2kQtoGND 4 0 4 22 V Output Voltage Low VoL R 22kQ to GND 50 75 mV Short Circuit Limit lsc Source 25 mA Sink 30 mA POWER SUPPLY Power Supply Rejection Ratio PSRR V t4V to 6V 40 C T lt 85 C 70 104 dB Supply Current A mplifier ley Vo 22 5V 40 C T lt 85 C 1 2 1 5 mA Supply Voltage Range Vs 3 18 V DYNAMIC PERFORMANCE Slew Rate SR R 2kQ 5 10 V us Full Power Bandwidth BWp 1 Distortion gt 50 kHz Settling Time t To 0 01 1 5 us Gain Bandwidth Product GBP 5 MHz Phase M argin om 46 D egrees NOISE PERFORMANCE Voltage N oise en p p 0 1 Hzto 10 Hz 2 uV p p Voltage N oise D ensity en f 1kHZ Voy 2 5 V 10 nV VH z Current N oise D ensity in 0 4 pA VH z ELECTRICAL CHARACTERISTICS V 3 0 V T 25 C unless otherwise noted Parameter Symbol Conditions Min Typ Max Units INPUT CHARACTERISTICS Offset Voltage Vos Vem 1 5 V Vout 1 5 V 0 3 1 0 mV 40 C lt T lt 85 C 1 25 mV Input Bias Current lp Vem 1 5 V Voyr 1 5 V 350 600 nA 40 C T lt 85 C 750 nA Input Offset Current los Vem 1 5 V Voyr 1 5 V nA 40 C lt T lt 85 C 11 50 nA Input Voltage Range 0 11 5 V Common M ode Rejection Ratio CMRR Vow 20V to 1 5 V 40 C T lt 85 C 70 103 dB Large Signal Voltage Gain Avo R 2 kQ 0 2 lt V
13. lt 1 8 V 100 260 V mV OUTPUT CHARACTERISTICS Output Voltage High Vou R 2kQtoGND 2 0 2 25 V Output Voltage Low VoL R 2kQtoGND 90 125 mV Short Circuit Limit lsc Source 25 mA Sink 30 mA POWER SUPPLY Power Supply Rejection Ratio PSRR Vs 2 5 V to 43 5 V 40 C lt T lt 85 C 60 113 dB Supply Current A mplifier Icy 40 C lt T 85 C V 1 5 V 1 2 15 mA DYNAMIC PERFORMANCE Gain Bandwidth Product GBP 5 MHz NOISE PERFORMANCE Voltage N oise D ensity en f 1kHz Vem 1 5V 10 nV VH z 2 REV B ELECTRICAL CHARACTERI STICS V 15 0 V T 25 C unless otherwise noted OP 183 0P 283 Parameter Symbol Conditions Min Typ Max Units INPUT CHARACTERISTICS Offset Voltage Vos 0 01 1 0 mV 40 C T 85 C 1 25 mV Input Bias Current lg 300 600 nA 40 C T lt 85 C 400 750 nA Input Offset Current los 40 lt T 85 C 11 50 nA Input Voltage Range 15 113 5 V Common M ode Rejection Ratio CMRR Vem 15 V to 413 5 V 40 C T lt 85 C 70 86 dB Large Signal Voltage G ain Avo R 2kQ 100 1000 V mV Offset Voltage Drift AV os AT 3 uV C Bias Current Drift Al AT 1 6 nA C Long T erm Offset Voltage Vos Note 1 15 mV OUTPUT CHARACTERISTICS Output Voltage H igh Vou R 2kQto GND 40 C lt T lt 85 C 13 9 141 V Output Voltage L ow VoL R 2 kQ to GND 40 C lt T 85 C 14 05 13 9 V Short C ircuit Limit lsc Source 30 mA Sink 50 mA Open Loop Output Imp
14. pply Current per Amplifier vs Temperature 0 75 50 25 0 25 50 75 100 125 TEMPERATURE C Figure 18 Short Circuit Current vs Temperature 15 V REV B OP 183 0P 283 140 120 COMMON MODE REJECTION dB 1k 10k 100k FREQUENCY Hz 100 1M Figure 19 Common Mode Rejection vs Frequency GAIN dB 1k 10k 100k 1M FREQUENCY Hz Figure 22 Open Loop Gain and Phase vs Frequency 9 45 V 50 Ta 25 C ig Vg 15V Ay 1 y 100 v 30 z lt 20 Ay 10 9 9 10 B o d Ay 2 Hl 10 20 1k 10k 100k 1M 10M FREQUENCY Hz Figure 25 Closed Loop Gain vs Frequency REV B PHASE Degrees POWER SUPPLY REJECTION dB Figure 20 Power Supply Rejection vs Frequency GAIN dB Figure 23 Open Loop Gain and Phase vs Frequency 9 15 V Ta 25 C Vg 15V GAIN dB a PHASE Degrees 1k 10k 100k FREQUENCY Hz 1M 100k FREQUENCY Hz 1M Figure 21 Open Loop Gain and Phase vs Frequency 43V
15. r a Wireless Transceiver T he resistors used in the low pass filter should be of low to moderate values to reduce noise contribution due to the input bias current as well as the resistors themselves T he filter cutoff frequency should be chosen to optimize the loop constant 10 REV B OP 183 0P 283 Figure 43 OP183 Simplified Schematic OP283 SPICE M acro model Rev A 9 93 JCB ADI Copyright 1993 by Analog D evices Refer to README DOC file for License Statement Useof this model indicates your acceptance of the terms and provisions in the License Statement N ode assignments noninverting input inverting input positive supply negative supply output E ub l 1 99 50 45 Lo8E MEL SN GC SI 6 SUBCKT OP283 2 INPUT STAGE AND POLE AT 600 kHz I1 99 8 1E 4 Ql 4 1 6 QP Q2 5 3 7 QP CIN 1 2 1 5PF R1 50 4 1591 R2 50 5 1591 C1 4 5 83 4E 12 R3 6 8 1075 R4 7 8 1075 10S 1 2 12 5E 9 EOS 3 2 POLY 1 15 98 25E 6 1 DCI 2 36 DZ DC2 1 36 DZ GAIN STAGE AND DOMINANT POLE AT 10Hz EREF 98 0 POLY 2 99 0 50 0 0 0 5 0 5 REV B G1 98 R5 9 C2 9 D1 9 D2 11 El 10 V2 50 1 59E9 POLY 1 99 98 1 35 1 03 0 63 COMMON MODE STAGE WITH ZERO AT 353Hz ECM 14 R7 14 C4 14 R8 15 GP2 98 RP2 31 CP2 31 ZERO AT 1 5 MHz EZ1 32 RZ1 32 RZ2 33 CZ1 32 POLE AT 10M Hz GP10 98 RP10 40 CP10 40
16. sing standard off the shelf components Amplifier A3 biases A1 and A2 to the middle of their input common mode range When operating on a 3 V supply the center of the OP283 s common mode range is 0 75 V T his notch filter effectively squelches 60 Hz pickup at a filter Q of 0 75 To reject 50 H z interference simply change the resistors in the twin T section R1 through R5 from 2 67 kQ to 3 16 kQ T he filter section uses an OP283 dual op amp in a twin T configu ration whose frequency selectivity is very sensitive to the relative matching of the capacitors and resistors in the twin T section M ylar is the material of choice for the capacitors and the relative matching of the capacitors and resistors determines the filter s pass band symmetry U sing 196 resistors and 596 capacitors produces satisfactory results A Low Voltage Frequency Synthesizer for Wireless Transceiver T he OP 183 s low noise and the low voltage operation capability serves well for the loop filter of a frequency synthesizer Figure 42 shows a typical application in a radio transceiver T he phase noise performance of the synthesizer depends on low noise contribution from each component in the loop as the noise is amplified by the frequency division factor of the prescaler CRYSTAL REFERENCE OSCILLATOR PHASE DETECTOR PRESCALER Pur VcoNrRoL RF our VCO VARACTER 7 DIODE 900MHz Figure 42 A Low Voltage Frequency Synthesizer fo
17. ssembly 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 lot assembly and testing REV B 3 OP 183 0P 283 ABSOLUTE MAXIMUM RATINGS Supply Voltage s oie gehe Akar eee he 18 V Input Voltage isses nn 18V Differential Input Voltage eee 7V Output Short Circuit Duration to GND Indefinite Storage T emperature Range PS Package hho ae eee Va TR ees 65 C to 150 C Operating T emperature Range OP183 OP283G cece eens 40 C to 85 C Junction T emperature Range PS Package cet tanita oe va diva 65 C to 150 C Lead T emperature Range Soldering 60 Sec 300 C Package T ype Oya c Units 8 Pin Plastic DIP P 103 43 C W 8 Pin SOIC S 158 43 C W NOTES lAbsolute maximum ratings apply to both DICE and packaged parts unless otherwise noted For supply voltages less than 7 V the absolute maximum input voltage is equal to the supply voltage M aximum input current should not exceed 2 mA 30 is specified for the worst case conditions i e 6 is specified for device in socket for P DIP packages 9 is specified for device soldered in circuit board for SOIC packages ORDERING GUIDE Temperature Package Package Model Range Description Option OP183GP 40 C to 85 C 8 Pin Plastic DIP N 8 OP183GS 40 C
18. to 85 C 8 Pin SOIC SO 8 OP283GP 40 C to 85 C 8 Pin Plastic DIP N 8 OP283GS 40 C to 85 C 8 Pin SOIC SO 8 DICE CHARACTERISTICS V OUT NULL IN IN Vv OP183 Die Size 0 058 X 0 063 Inch 3 717 Sq Mils Substrate Die Backside Is Connected to V Transistor Count 30 V OUTB INB INB OUTA INA INA Vv OP283 Die Size 0 063 X 0 092 Inch 5 796 Sq Mils Substrate Die Backside Is Connected to V Transistor Count 55 REV B QUANTITY 0 600 400 200 0 4200 400 4600 INPUT OFFSET VOLTAGE pV Figure 1 OP183 Input Offset Voltage Distribution 45 V Vs 15V 590X OP AMPS QUANTITY 0 600 400 200 0 4200 400 4600 INPUT OFFSET VOLTAGE pV Figure 4 OP283 Input Offset Voltage Distribution 9 15 V Ty 85 C 590X OP AMPS PLASTIC PACKAGE QUANTITY Amplifiers TCVog uV C Figure 7 OP283 Input Offset Voltage Drift TCV Distribution 9 45 V REV B Typical Characteristics OP183 0P283 Vg 15V 300X OP AMPS QUANTITY 0 600 400 200 0 200 400 600 INPUT OFFSET VOLTAGE pV Figure 2 OP183 Input Offset Voltage Distribution 15 V
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ANALOG DEVICES OP183/OP283 handbook op amp applications handbook pdf