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CLC410A/BPA Rochester Electronics - - -
CLC410A8B Rochester Electronics - - -
CLC410A8D Rochester Electronics - - -
CLC410AIB Rochester Electronics - - -
CLC410AID Rochester Electronics - - -
CLC410AJ-QML National Semiconductor Corporation Rochester Electronics 125 $57.32 $46.57
CLC410AJE Rochester Electronics - - -
CLC410AJE National Semiconductor Corporation Bristol Electronics 29 $5.04 $2.52
CLC410AJE-TR13 Rochester Electronics - - -
CLC410AJP Rochester Electronics - - -

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CLC410 datasheet (13)

Part Manufacturer Description Type PDF
CLC410 National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410 National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410 Others Monolithic Op Amp Data Book Scan PDF
CLC410AJE National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410AJE National Semiconductor Fast Settling Video Op Amp with Disable Original PDF
CLC410AJE Others Video Signal Processor IC Data Book 1993 Scan PDF
CLC410AJE-TR13 National Semiconductor Fast Settling Video Op Amp with Disable Original PDF
CLC410AJP National Semiconductor Fast Settling Video Op Amp with Disable Original PDF
CLC410AJP National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410AJP Others Video Signal Processor IC Data Book 1993 Scan PDF
CLC410 MD8 National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410 MD8 National Semiconductor Fast Settling, Video Op Amp with Disable Original PDF
CLC410MDC National Semiconductor Fast Settling Video Op Amp with Disable Original PDF

CLC410 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2000 - Not Available

Abstract: No abstract text available
Text: %/0.01° provide high fidelity and the 60mA output current offers ample drive capability. The CLC410's , of the CLC410. Observe that the gain and phase errors remain low even as the output loading increases , Zi and RfRg at the inverting node of the CLC410. This decrease in bandwidth can be circumvented as , input noise plot shown in the CLC400 datasheet applies equally as well to the CLC410. CAPACITIVE , instability. See Application Note OA-7 for active filter realizations with the CLC410. OFFSET ADJUSTMENT


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PDF CLC410 SNOS854D CLC410 200MHz 160mW -60dBc 20MHz 200ns)
2001 - Not Available

Abstract: No abstract text available
Text: Temperature Range Industrial -40°C to +85°C -40°C to +85°C Part Number CLC410AJP CLC410AJE Package Marking CLC410AJP CLC410AJE NSC Drawing N08A M08A 3 www.national.com CLC410 Typical Performance , output current offers ample drive capability. The CLC410's fast settling, low distortion, and high drive , gain and phase of the CLC410. Observe that the gain and phase errors remain low even as the output , CLC410. This decrease in bandwidth can be circumvented as described in "Increasing Bandwidth at High


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PDF CLC410 CLC410 SNOS854C 160mW 180mW 200MHz
2001 - CLC410

Abstract: CLC410AJE CLC410AJP M08A N08A an300-1
Text: CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC driver. The low , CLC410AJP N08A 8-pin plastic SOIC -40°C to +85°C CLC410AJE CLC410AJE M08A , phase of the CLC410. Observe that the gain and phase errors remain low even as the output loading , the inverting node of the CLC410. This decrease in bandwidth can be circumvented as described in , applies equally as well to the CLC410. Capacitive Feedback Capacitive feedback should not be used with


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PDF CLC410 CLC410 160mW 180mW 200MHz 100ns) 200ns) CLC410AJE CLC410AJP M08A N08A an300-1
Comlinear Corporation

Abstract: No abstract text available
Text: meet a variety of requirements. A three-letter suffix determines the version: CLC410AJP CLC410AJE CLC410AIB CLC410A8B CLC410ALC CLC410AMC -40 C to 4-85 C - 40 "C to +85`C - 40 C to +85 C -55'C to +125'C , provide high fidelity and the 70mA output current offers ample drive capability. The CLC410's fast , AmbientTemperature Ambient Temperature CONDITIONS CLC410A8 /AL/AM CLC410AJ /AI TYP + 25°C +25°C 200 50 0 0 0,6 , measuring the very low differential gain and phase of the CLC410. Observe that the gain and phase errors


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PDF CLC410 200MHz 160mW -60dBc 20MHz 200ns) CLC410 CLC41irally-trimmed RN55D Comlinear Corporation
CLC410

Abstract: CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC AN300-1 smd transistor AJp 65
Text: version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC -40c -40c -40c -55 < C to +85 °C C to +85 °C C to +85 , capability. The CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC , the CLC410. Observe that the gain and phase errors remain low even as the output loading increases , that occurs between Z¡ and Rf|Rg at the inverting node of the CLC410. This decrease in bandwidth can , the CLC400 datasheet applies equally as well to the CLC410. Capacitive Feedback Capacitive feedback


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PDF CLC410 160mW 180mW 200MHz 100ns) 200ns) CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC AN300-1 smd transistor AJp 65
CLC400

Abstract: AN300-1 CLC410 CLC410AJE CLC410AJP M08A PRP8351 COMLINEAR CLC410AJE
Text: ds012749 Chris Russell CLC 410 ( ) CLC410 ( ) CLC410 , ) (200ns) CLC410 ( 1 ) 200MHz - 3dB 0.05 12ns 160mW ( 40mW) - 60dBc@20MHz (200ns) 0.01/0.01° / : : ± 1 ± 8 CLC410 / 0.01/0.01° 60mA CLC410 ADC 160mW 40mW , Semiconductor Corporation 1 Printed in Japan NSJ 8/2001 ( ) CLC410 2001 2 CLC410


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PDF nat2000 ds012749 CLC410 160mW 180mW) 200MHz 100ns) 200ns) CLC400 AN300-1 CLC410 CLC410AJE CLC410AJP M08A PRP8351 COMLINEAR CLC410AJE
2001 - AN300-1

Abstract: CLC400 CLC410 CLC410AJE CLC410AJP M08A N08A
Text: CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC driver. The low , CLC410AJE CLC410AJE M08A 3 NSC Drawing www.national.com CLC410 Typical Performance , -08 presents a measurement technique for measuring the very low differential gain and phase of the CLC410. , the CLC410. This decrease in bandwidth can be circumvented as described in "Increasing Bandwidth at , to the CLC410. Capacitive Feedback Capacitive feedback should not be used with the CLC410 because


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PDF CLC410 CLC410 160mW 180mW 200MHz 100ns) 200ns) AN300-1 CLC400 CLC410AJE CLC410AJP M08A N08A
Not Available

Abstract: No abstract text available
Text: /0.01 ° provide high fidelity and the 70mA output current offers ample drive capability. The CLC410†, measurement technique for measuring the very low differential gain and phase of the CLC410. Observe that the , inverting node of the CLC410. This decrease in bandwidth can be circumvented as described in “Increasing , Application Note OA-7 for active filter realizations with the CLC410. Offset Adjustment Pin Pin 1 can be connected to a potentiometer as shown in Fig. 1 and used to adjust the input offset of the CLC410. Full


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PDF CLC41 200MHz 160mW -60dBc 20MHz 200ns) CLC410 PRP8351 RN55D CLC410
1999 - SmD TRANSISTOR av

Abstract: AV smd transistor CLC410A8B CLC410AJE CLC730027 CLC730013 CLC410AMC CLC410ALC CLC410AJP CLC410
Text: current-to-voltage conversion IF processors High-speed communications CLC410 Fast Settling, Video Op Amp with Disable June 1999 The CLC410 is available in several versions to meet a variety of requirements. A three-letter suffix determines the version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC -40°C -40°C -40°C -55°C to to to to +85°C +85°C +85°C +125°C CLC410A8B 8-pin plastic DIP 8-pin plastic , N CLC410 Fast Settling, Video Op Amp with Disable General Description Features s s s s s


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PDF CLC410 200MHz 160mW -60dBc 20MHz 200ns) CLC410 SmD TRANSISTOR av AV smd transistor CLC410A8B CLC410AJE CLC730027 CLC730013 CLC410AMC CLC410ALC CLC410AJP
1996 - COMLINEAR CLC410AJE

Abstract: CLC410 CLC410A8B CLC410A8D CLC410AJE CLC410AJP CLC410ALC CLC410AMC
Text: current-to-voltage conversion IF processors High-speed communications Comlinear CLC410 Fast Settling, Video Op Amp with Disable August 1996 The CLC410 is available in several versions to meet a variety of requirements. A three-letter suffix determines the version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC -40°C -40°C -40°C -55°C to to to to +85°C +85°C +85°C +125°C CLC410A8B -55°C to , N Comlinear CLC410 Fast Settling, Video Op Amp with Disable General Description Features s


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PDF CLC410 200MHz 160mW -60dBc 20MHz 200ns) CLC410 COMLINEAR CLC410AJE CLC410A8B CLC410A8D CLC410AJE CLC410AJP CLC410ALC CLC410AMC
1998 - CLC404

Abstract: CLC410 CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC CLC730013 CLC730027
Text: current-to-voltage conversion IF processors High-speed communications CLC410 Fast Settling, Video Op Amp with Disable September 1998 The CLC410 is available in several versions to meet a variety of requirements. A three-letter suffix determines the version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC -40°C -40°C -40°C -55°C to to to to +85°C +85°C +85°C +125°C CLC410A8B 8 , N CLC410 Fast Settling, Video Op Amp with Disable General Description Features s s s s s


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PDF CLC410 200MHz 160mW -60dBc 20MHz 200ns) CLC410 CLC404 CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC CLC730013 CLC730027
Not Available

Abstract: No abstract text available
Text: : CLC410AJP CLC410AJE CLC410ALC CLC410AMC CLC410A8B -40°C -40°C -40°C -55°C to to to to +85°C +85°C +85°C , CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC driver. The low , CLC410. Observe that the gain and phase errors remain low even as the output loading increases, making , node of the CLC410. This decrease in bandwidth can be circumvented as described in "Increasing , eq. (3) The input noise plot shown in the CLC400 datasheet applies equally as well to the CLC410.


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PDF CLC410 160mW 180mW 200MHz 100ns) 200ns)
Not Available

Abstract: No abstract text available
Text: presents a measurement technique for measuring the very low differential gain and phase of the CLC410. , division in feedback current that occurs between Z¡ and Rf|Rg at the inverting node of the CLC410. This , as well to the CLC410. Capacitive Feedback Capacitive feedback should not be used with the CLC410 , with the CLC410. Offset Adjustment Pin Pin 1 can be connected to a potentiom eter as shown in Fig. 1 and used to adjust the input offset of the CLC410. Full range adjustment of ± 5V on pin 1 will


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PDF 160mW -60dB 200ns) CLC410 PRP8351 RN55D
00II

Abstract: No abstract text available
Text: suffix determines the version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC CLC410A8B CLC410A8D -40°C to , current offers ample drive capability. The CLC410's fast settling, low distortion, and high drive , Ambient Temperature CONDITIONS CLC410A8 /AL/AM CLC410AJ /AI TYP + 25°C +25°C 200 50 0 0 0.6 0.2 1.6 6.5 10 , measuring the very low differential gain and phase of the CLC410. Observe that the gain and phase errors , division in feedback current that occurs between Z, and RJ|Rg at the inverting node of the CLC410. This


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PDF CLC410 CLC410 160mW 180mW 200MHz 100ns) 200ns) 00II
Not Available

Abstract: No abstract text available
Text: high fidelity and the 70mA output current offers ample drive capability. The CLC410's fast settling , Temperature Ambient Temperature CONDITIONS CLC410A8 /AL/AM CLC410AJ /AI TYP + 25°C +25°C 200 50 0 0 0.6 , measuring the very low differential gain and phase of the CLC410. Observe that the gain and phase errors , that occurs between Z¡ and R,|Rg at the inverting node of the CLC410. This decrease in bandwidth can , increases. The input noise plot shown in the CLC400 datasheet applies equally as well to the CLC410.


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PDF CLC410 200MHz 160mW -60dBc 20MHz 200ns) CLC410 RN55D
an300-1

Abstract: CLC410 CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC s7511 STI 358
Text: version: CLC410AJP CLC410AJE CLC410ALC CLC410AMC -40c -40c -40c -55c C to +85 °C C to +85 °C C to +85 , capability. The CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC , the CLC410. Observe that the gain and phase errors remain low even as the output loading increases , that occurs between Z¡ and Rf|Rg at the inverting node of the CLC410. This decrease in bandwidth can , the CLC400 datasheet applies equally as well to the CLC410. Capacitive Feedback Capacitive feedback


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PDF CLC410 160mW 180mW 200MHz 100ns) 200ns) an300-1 CLC410A8B CLC410AJE CLC410AJP CLC410ALC CLC410AMC s7511 STI 358
1996 - smd code pa

Abstract: ap* op amp op power amplifier CLC406 CLC405 CLC426 CLC402 CLC401 CLC400 CLC114
Text: CLC410 CLC412 CLC414 CLC415 CLC416 CLC417 CLC418 CLC420 CLC425 CLC426 CLC428 CLC430 CLC431 , >100MHz CLC400 CLC402 CLC410 CLC411 CLC420 CLC109 CLC401 CLC404 CLC406 CLC501 CLC502 , CLC410 CLC502 CLC110 CLC405 CLC407 CLC425 CLC426 CLC109 CLC408 Duals CLC412 CLC431 , CLC408 >2nV CLC402 CLC425 CLC426 CLC400 CLC401 CLC406 CLC409 CLC410 CLC411 CLC501


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PDF CLC109 CLC111 CLC114 CLC115 CLC400 CLC401 CLC402 CLC404 CLC405 CLC406 smd code pa ap* op amp op power amplifier CLC406 CLC405 CLC426 CLC402 CLC401 CLC400 CLC114
1999 - "Industry Part"

Abstract: UV-3 5962-9060001PA CLC410 CLC410A J08ARL MNCLC410A-X P000416A
Text: Number NS Part Numbers CLC410A CLC410AJ-QML Prime Die UB1286C Controlling Document , capability. The CLC410's fast settling, low distortion, and high drive capabilities make it an ideal ADC , Description The current-feedback CLC410 is a fast-settling, wideband, monolithic op amp with fast disable/enable feature. Designed for low-gain applications (Av = +1 to +8), the CLC410 consumes only 160mW of , CLC410 offers both high performance and stability without compensation, even at a gain of +1. The


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PDF MNCLC410A-X CLC410 CLC410 160mW 180mW 200MHz 100ns) 200ns) "Industry Part" UV-3 5962-9060001PA CLC410A J08ARL P000416A
CLC410

Abstract: No abstract text available
Text: - 90 - CLC410 mm-t h y y?; T < .xx-7nmm, wmim Coralinear « fl CLC410 * fi Vs=±5V sismn ±7 V Ta=25'C A i) « ffi / V Av-+2 / V RL-100 »fí ¡a AJ/AI: -40~ *85,AM:-55 •c RF=250 lí s » * / ■V a ÍS E s * e s s s # e AzdfWSE Vos 2 5.5 mV Vo«Sffl»Wt' TC/Vos 20 40 uirc vo^sMsge Vos/time / / «v/fl Ib 10000 25000 n A A#t7wmss I os / / nA A^SÍWIEE Vn ® 40 57 //Vp-p en / / nV/y"Hz AASSífSS®« i n / / pA/V~Hz SUÍAÍlSiit Rin ® 0.2 0.1


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PDF CLC410 RL-100 70fSSÂ 200MHz 160iiW 100kHz- 20MHz CLC410
1996 - LM111 3.3V

Abstract: LM1030 QUAD OP 60V LM199A-20 LM7101 lm1202 lf444 LM1575HV LM1575 LF444 op amp
Text: CLC410 CLC412 CLC414 CLC415 CLC416 CLC417 CLC418 CLC420 CLC425 CLC426 CLC428 CLC430 CLC431 , >100MHz CLC400 CLC402 CLC410 CLC411 CLC420 CLC109 CLC401 CLC404 CLC406 CLC501 CLC502 , CLC410 CLC502 CLC110 CLC405 CLC407 CLC425 CLC426 CLC109 CLC408 Duals CLC412 CLC431 , CLC408 >2nV CLC402 CLC425 CLC426 CLC400 CLC401 CLC406 CLC409 CLC410 CLC411 CLC501


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PDF CLC109 CLC111 CLC114 CLC115 CLC400 CLC401 CLC402 CLC404 CLC405 CLC406 LM111 3.3V LM1030 QUAD OP 60V LM199A-20 LM7101 lm1202 lf444 LM1575HV LM1575 LF444 op amp
transistor q3

Abstract: PM5654 DG538ADN DG538ADJ DG538A DG534A DG508A AN502 74LS32 74LS138
Text: System DG538A IN1 IN2 IN3 8 Video IN4 INPUTS IN5 IN6 IN7 IN8 SA1 DA CLC410 DB R1 2 , CLC410 DB R1 SB4 WR 250 W + ­ CLC410 R1 SB4 WR 250 W CLC410 R1 SB4 WR , Gain 1 On Channel, 3 Off 0 ­1 Phase 4 x DG538ADJ CLC410 ­3 1 kW CLC111 ­4 VIN , CLC410 1 4) are loaded with 10 kW to simulate the input impedance of video buffers. 0 Gain , for the CLC111 and CLC410 provide greater detail for individual performance characteristics


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PDF AN502 04-Aug-99 CLC410 DG538A transistor q3 PM5654 DG538ADN DG538ADJ DG538A DG534A DG508A AN502 74LS32 74LS138
design adc interfaces with 8085 microprocessor

Abstract: 8085 pin PROTECTION DEGREE SB1- SWITCH CONTROL DG538ADN DG538ADJ DG538A DG534A DG508A AN502 74LS32
Text: Video IN4 INPUTS IN5 IN6 IN7 IN8 SA1 DA CLC410 DB R1 2 Si584s SB4 WR 250W + ­ AV = 2 75 W OUT 1 250 W Video Outputs DG538A SA1 DA CLC410 DB R1 SB4 WR 250 W + ­ CLC410 R1 SB4 WR 250 W CLC410 R1 SB4 WR 250 W Address , ­1 Phase 4 x DG538ADJ CLC410 ­3 1 kW CLC111 ­4 75 W ­40_ 75 W ­60_ 1 kW , 26. Frequency Response of Four DG538As Buffered with CLC111 and CLC410 1 loaded with 10 kW to


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PDF AN502 04-Aug-99 CLC410 DG538A design adc interfaces with 8085 microprocessor 8085 pin PROTECTION DEGREE SB1- SWITCH CONTROL DG538ADN DG538ADJ DG538A DG534A DG508A AN502 74LS32
MC14504

Abstract: cd7407 Z80 PROCESSOR DG508A DG526 DG506A DG536 SD5000 CD4051 pin diagram CD4051 PIN DIAGRAM and block diagram
Text: wideband op-amp ( CLC410 ) is configured to give an inverting unity gain, while removing the +3 V dc by , + D S2 ­ R4 18 kW CLC410 +15 V R2 10 kW CS A0, A1, A2, A3 Video Output , the DG536 as a binary gain select for a video/wideband op-amp ( CLC410 ). The gain of the Si582 is set , resistor tolerances mainly determine the gain error of the circuit. The wideband qualities of the CLC410 , Central office or main telephone exchange 75 W DG535/536 CLC410 ­ 470 W S1 S2 Video Out


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PDF AN501 DG535/536 CD7407 DG535/ DG536 03-Aug-99 MC14504 cd7407 Z80 PROCESSOR DG508A DG526 DG506A DG536 SD5000 CD4051 pin diagram CD4051 PIN DIAGRAM and block diagram
Z80 PROCESSOR

Abstract: MC14504 cd7407 datasheet z80 ultrasound block diagram DG508A DG506A CD4051 Single Phase power monitor with two-level control s4 vishay
Text: the divider network R1 and R2. A wideband op-amp ( CLC410 ) is configured to give an inverting unity , V+ D S2 R2 10 kW ­ R4 18 kW CLC410 +15 V CS A0, A1, A2, A3 Video Output , video/wideband op-amp ( CLC410 ). The gain of the Si582 is set by: PCM AV + 1 ) A more commonly , wideband qualities of the CLC410 allows this circuit to be employed for digital level correction in any , DG535/536 CLC410 ­ 470 W S1 S2 Video Out Rf D S1 S2 S4 S5 RB RC RD RE D


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PDF AN501 DG535/536 CD7407 DG535/ DG536 DG536 Z80 PROCESSOR MC14504 cd7407 datasheet z80 ultrasound block diagram DG508A DG506A CD4051 Single Phase power monitor with two-level control s4 vishay
8085 microprocessor

Abstract: measurement of voltage using 8085 1N4148 RSGB HP4195A DG884DN DG884 CLC410 CLC111 AN504
Text: high-performance analog buffers, such as the Vishay Siliconix CLC111 and CLC410. The accompanying performance curves were derived from an evaluation board consisting of CLC111s at the inputs and gain-of-two CLC410s , as an input buffer and the CLC410 gain-of-two amplifier at the output. The CLC410s provide output , . They are designed to interface directly with the disable pin of the CLC410 current feedback op amp , , or 3 and 4. A suitable wideband differential amplifier ( CLC410 ) at the output will provide


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PDF AN504 DG884 CLC111 CLC410 OA-08. AN501 AN503. 05-Aug-99 8085 microprocessor measurement of voltage using 8085 1N4148 RSGB HP4195A DG884DN AN504
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