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Part Manufacturer Description Datasheet BUY
LM741CN Texas Instruments OP-AMP, 6000uV OFFSET-MAX, 0.437MHz BAND WIDTH, PDIP8, PLASTIC, DIP-8 visit Texas Instruments
LM741CH Texas Instruments Operational Amplifier 8-TO-99 0 to 70 visit Texas Instruments
LM741 MD8 Texas Instruments Operational Amplifier 0-DIESALE -55 to 125 visit Texas Instruments
LM741H/883 Texas Instruments Operational Amplifier 8-TO-99 -55 to 125 visit Texas Instruments
LM741J Texas Instruments Operational Amplifier 8-CDIP -55 to 125 visit Texas Instruments
LM741J/883 Texas Instruments Operational Amplifier 8-CDIP -55 to 125 visit Texas Instruments

LM358 vs LM741

Catalog Datasheet MFG & Type PDF Document Tags

sine wave generator using LM358

Abstract: LM358 vs LM741 Question 1. The source vS will be the Tektronix function generator at the bench. Apply a sine wave from , overall gain vOUT/vS of the circuit. To approach this problem, use the two Golden Rules of op-amps. 14 , wave from the Tektronix function generator as the input vS. This sine wave should have the following , when the output voltage is 1V. 2. Connect the function generator as the source vS. Set the function generator as described below: · · Type: DC Offset: 0V Measure the output voltage. Increase vS in
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LM358 vs LM741

Abstract: LM607CN differ CMRR, GBW differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ Av, CMRR, GBW, Vs differ , , Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ Av, CMRR, GBW, Vs differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW differ CMRR, GBW
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LM358 vs LM741

Abstract: LM324 vs LM741 mode input range of the operational amplifier includes ground (CA3130, CA3140, LM324, LM358, TLC271 , to Figure 7, VS = (RT/ RT + RDS(on)c)*ID*RDS(on) ~=(RT/ RDS(on)c)*ID*RDS(on) = RT * ID*RDS(on)/ RDS , across the sensing resistor will be: VS = (X/ X+) RDS(on) ID Ideally, it should be: VS = X * RDS(on) ID , ¼W 10 turn pot. 10 turn pot. LM741 Test Equipment: Oscilloscope -Tektronix 7603 Pulse Generator
International Rectifier
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AN-959 LM358 vs LM741 LM324 vs LM741 Wavetek 187 AN959 lm358 multimeter

zero crossing detector using LM358

Abstract: IC LM741 timer circuit diagram as LM324, LM358 and LM741 cannot be used directly in many voltage comparator circuits. OPAMPS can , integrated circuit "Voltage Comparator" is equivalent to an Operational Amplifier, Such as the LM358 or , file:///C:/Users/Ron/Documents/Voltage Comparators.htm Input Vs. Output Results 1. Current WILL
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zero crossing detector using LM358 IC LM741 timer circuit diagram LM339 equivalent LM339 LM393 LM311

ir sensing circuit using LM358

Abstract: IRC520 (CA3130, CA3140, LM324, LM358, TLC271, etc.). flT -X-; â  V Figure 7. Evaluation of Error Introduced by , voltage across the sensing resistor will be: VS RDS(om ID Ideally, it should be: Vs = X â'¢ R[)S(0n) Id , sensitivity of Vs to temperature changes becomes negligible as RT tends to values in the order of 10% of RDs(on)c- With reference to Figure 7, Vs = p + D-' 'D ' ^DS(on) "¡5- ' In ' R|)S(on) KDS|onlc = , Rds(oh)» vs should not be greatly affected by changes in the device temperature. In final analysis
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ir sensing circuit using LM358 IRC520 compare LM324 with LM741 IRCP150 Tektronix 7603 IRCZ20 46S-M20-S1905 J72-0403

lm3242

Abstract: LM356 op-amp datasheet Amplifier LM35 6-2 6-3 Precision Centigrade Temperature Sensor LM350 7-3 * LM358
National Semiconductor
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lm3242 LM356 op-amp datasheet LM356 LM6484 LM380 spice SC14421 TYIN2000

LMC668

Abstract: LM741C gbw LM192 LM741 LM1558 LM4250 LH0042 4 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 20 0.01 0.1 0.1 0.1 0.2 0.1 0.1 , LM1458 LM4250C LM324 LM358 LM301A LM307 LM308 LM312 LM343 LM344 LF347 LF351 LF353 LF355 LF356 LF357 LF444 , programmable amplifiers. The data shown is for Vs 5 5 5 6 6 6 6 6 6 6 6 7 7 7.5 7.5 7.5 7.5 8 8 10 10 10 10
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LM3080 LMC668 LM741C gbw LM146 LM292 LF357 LF351 LM11 op amp LH0044A LM607A LH0044 LM607B LF411A LF441A

LM358 vs LM741

Abstract: LM324 vs LM741 LM614 LM392 LM346 LM348 LM349 LM741C LM1458 LM4250C LM324 LM358 LM301A LM307 LM308 LM343 LF347 LF351 , (Note 5) Quad Minimum Gain of 5, Quad Dual LM146 LM148 LM149 LM158 LM741 LM1558 LM4250 LH0042 20 , Supply Voltage Min V Max V Specs at Ta = 25"C and Vs = + 5V Duals Continued LMC6582A LMC6582 LMC6682A , Supply Voltage SV (Vs = 6V) 12V Part Power [THD £ 1% (Typ)l Power Specified as Continuous RMS 4SI , Above (Vs = 20V) (VS = 20V) (VS = 28V) (VS - ±25V) (VS = ±35V) (Vs = ± 35V) (Vs = ±35V) LM1877 LM2877
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transistor m 4995 LMC6601 LMC6082A LM741 audio amplifiers with 10w 41W SOT23 LMC6142 LM6142A LM6144A LM6142B LM6144B LM833 LP2902

LM11 op amp

Abstract: LM604 LM148 LM149 LM158 LM741 LM1558 LM4250 LH0042 4 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 20 0.01 0.1 0.1 0.1 , Special Features LM614 LM392 LM833 LM346 LM348 LM349 LM741C LM1458 LM4250C LM324 LM358 LM301A LM307 , R L = 100 k il Specs at T a = 25°C and Vs = + 5V Quads (Continued) LMC6024 LMC660A LMC660 LMC6034
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LM604 LM627 LMC8041 OP27 lm24 LM627a LH2108A LM108A LH0052 LF412A LF442A LH0004

IC LM741 timer circuit diagram

Abstract: how to use STRAIN GAUGE with lm358 the frequency doesn't change With low tempco components for RT and CT frequency stability vs , LM308A 1 2 LM358A LF351B or similar A2 General purpose such as LF351 1 2 LM358A or LM741 TL H 8742 ­ , amp should be a type such as 1 2 LM358 or 1 4 LM324 which has a common-mode range that includes the , circuit (Figure 6) that Stable components with low tempco fOUT e V1 V2 c c 10 kHz 10V 10V VS e 15V regulated and stable R3 e 15 00V c 750X with g 1% tolerance a VS A1 A2 Each is 1
National Semiconductor
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how to use STRAIN GAUGE with lm358 2n3565 equivalent transistor LM307 equivalent ics simple LM324 COMPARATOR CIRCUIT DIAGRAM lm307 substitution LM351* op amp LM131

tlo82

Abstract: TLO82 datasheet LM358 2-17, 2-18 Programmable Quad Operational Amplifier Precision Controller for GTLP and GTL
National Semiconductor
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tlo82 TLO82 datasheet lm147 lm117 3.3V JM38510/10901BGA TLO82 application I-20089 D-82256

LMC7301

Abstract: LM338 model SPICE LM158/LM258/LM358 Low Power Dual Operational Amplifier , .3-187 LM741/LM741A/LM741C/LM741E Operational A m p lifie r
National Semiconductor
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LMC7301 LM338 model SPICE Step-Down Voltage Regulator smd 5pin ic VARIABLE POWER SUPPLY. 0 - 30V, LM723 LM338 TO-3 spice model diode smd marking BUF GP 750 S-12123

VARIABLE POWER SUPPLY. 0 - 30V, LM723

Abstract: LM741 audio amplifiers range; and second-source products which follow the original manufacturers numbering system, i.e. LM741
National Semiconductor
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LM741 audio amplifiers lm35 sensor interfacing with adc0808 diagram lm1485 LM1084 spice LM741 AND LM386 Audio Amplifier LF351 op-amp audio equalizer

AM97C11CN

Abstract: AM9711CN . 3-3 LM358* Dual Operational Amplifiers for Commercial Industrial, and Military Applications , . 2-26 LM741 * NOTE: Bold Type Designates a New Product from Harris. 1-7 PRODUCT INDEX BY
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AM97C11CN AM9711CN SVI 3102 b LM1850 MC1733CL AM9709CN
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