Untitled
Abstract: No abstract text available
Text: RMS to DC CONVERTERS TRUE RMS to DC CONVERTERS MODEL NUMBER Total Error @+25C @Tmax ±mV ± % READING AD536A AD536A AD536A Error Vs Crest Factor CF % Reading CF=3 CF=7 ± 3dB Bandwidth KHZ Input Level Output V rms 10mV 100mV dB Output Error dB Power Supply
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100mV
200mV
AD536A
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AD536A
Abstract: AD636 AD637 AD736 AD737 NA55
Text: RMS to DC CONVERTERS TRUE RMS to DC CONVERTERS MODEL NUMBER Total Error @+25C @Tmax ±mV ± % READING AD536A AD536A AD536A Error ± 3dB Vs Bandwidth Crest Factor CF KHZ % Reading CF=3 CF=7 10mV 100mV 1V Input Level Output V rms dB Power Supply Model Designator
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AD536A
100mV
AD736
200mV
AD737
AD536A
AD636
AD637
AD736
AD737
NA55
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PDF
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AD736
Abstract: AD7116 FULL WAVE RECTIFIER and waveforms FULL WAVE RECTIFIER CIRCUITS AD736A AD736B AD736J AD736JN AD736K AD737
Text: Low Cost, Low Power, True RMS-to-DC Converter AD736 FEATURES GENERAL DESCRIPTION The AD736 is a low power, precision, monolithic true rms-to-dc converter. It is laser trimmed to provide a maximum error of ±0.3 mV ± 0.3% of reading with sine wave inputs. Furthermore,
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AD736
AD736
C00834
AD7116
FULL WAVE RECTIFIER and waveforms
FULL WAVE RECTIFIER CIRCUITS
AD736A
AD736B
AD736J
AD736JN
AD736K
AD737
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PDF
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0834
Abstract: AD736JNZ AD736 AD736JN AD736A AD736B AD736J AD736JR AD736K AD737
Text: Low Cost, Low Power, True RMS-to-DC Converter AD736 FEATURES GENERAL DESCRIPTION The AD736 is a low power, precision, monolithic true rms-todc converter. It is laser trimmed to provide a maximum error of ±0.3 mV ± 0.3% of reading with sine wave inputs. Furthermore,
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AD736
AD736
C00834-0-2/06
0834
AD736JNZ
AD736JN
AD736A
AD736B
AD736J
AD736JR
AD736K
AD737
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PDF
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FULL WAVE RECTIFIER CIRCUITS
Abstract: AD736 AD736JNZ AD736JN TP-104-01-02 AD737-An FULL WAVE RECTIFIER CIRCUITS with scr tp-104-01-00 AD736K AD737
Text: Low Cost, Low Power, True RMS-to-DC Converter AD736 FEATURES GENERAL DESCRIPTION The AD736 is a low power, precision, monolithic true rms-todc converter. It is laser trimmed to provide a maximum error of ±0.3 mV ± 0.3% of reading with sine wave inputs. Furthermore,
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AD736
AD736
C00834-0-2/07
FULL WAVE RECTIFIER CIRCUITS
AD736JNZ
AD736JN
TP-104-01-02
AD737-An
FULL WAVE RECTIFIER CIRCUITS with scr
tp-104-01-00
AD736K
AD737
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PDF
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ad736
Abstract: No abstract text available
Text: Low Cost, Low Power, True RMS-to-DC Converter AD736 FUNCTIONAL BLOCK DIAGRAM FEATURES GENERAL DESCRIPTION The AD736 is a low power, precision, monolithic true rms-todc converter. It is laser trimmed to provide a maximum error of ±0.3 mV ± 0.3% of reading with sine wave inputs. Furthermore,
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AD736
AD736
C00834-0-2/07
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PDF
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AD736
Abstract: AD736-EVALZ
Text: Low Cost, Low Power, True RMS-to-DC Converter AD736 Data Sheet FEATURES GENERAL DESCRIPTION The AD736 is a low power, precision, monolithic true rms-todc converter. It is laser trimmed to provide a maximum error of ±0.3 mV ± 0.3% of reading with sine wave inputs. Furthermore,
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AD737--features
AD736
D00834-0-12/12
AD736
AD736-EVALZ
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PDF
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AD737JR-REEL
Abstract: AD736 AD737J power supply crest factor AD737 AD737A AD737B AD737JR-5 AD737K ad7371
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737 FUNCTIONAL BLOCK DIAGRAM Computes: True rms value Average rectified value Absolute value Provides: 200 mV full-scale input range larger inputs with input attenuator Direct interfacing with 3 1/2 digit CMOS ADCs
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AD737
AD736--a
AD7371
C00828
AD737JR-REEL
AD736
AD737J
power supply crest factor
AD737
AD737A
AD737B
AD737JR-5
AD737K
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PDF
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AD736
Abstract: BQ JN AD737 AD737A AD737B AD737J AD737JR-5 AD737K NTR4501NT1 nichicon CF
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737 FUNCTIONAL BLOCK DIAGRAM Computes True rms value Average rectified value Absolute value Provides 200 mV full-scale input range larger inputs with input attenuator Direct interfacing with 3½ digit CMOS ADCs
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AD737
AD736)
D00828-0-10/08
AD736
BQ JN
AD737
AD737A
AD737B
AD737J
AD737JR-5
AD737K
NTR4501NT1
nichicon CF
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PDF
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AD736
Abstract: ca3046 FULL WAVE RECTIFIER and waveforms tp-104-01-00 AD737 AD737A AD737B AD737J AD737JR-5 AD737K
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737 FUNCTIONAL BLOCK DIAGRAM Computes True rms value Average rectified value Absolute value Provides 200 mV full-scale input range larger inputs with input attenuator Direct interfacing with 3½ digit CMOS ADCs
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AD737
AD736)
C00828-0-12/06
AD736
ca3046
FULL WAVE RECTIFIER and waveforms
tp-104-01-00
AD737
AD737A
AD737B
AD737J
AD737JR-5
AD737K
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PDF
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C1175
Abstract: AD736 AD737 AD737A AD737B AD737J AD737JN AD737K
Text: a FEATURES COMPUTES True RMS Value Average Rectified Value Absolute Value Low Cost, Low Power, True RMS-to-DC Converter AD737 FUNCTIONAL BLOCK DIAGRAM PROVIDES 200 mV Full-Scale Input Range Larger Inputs with Input Attenuator Direct Interfacing with 3 1/2 Digit
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AD737
AD736--A
AD737
C1175a
C1175
AD736
AD737A
AD737B
AD737J
AD737JN
AD737K
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PDF
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AD7136
Abstract: rca CA3046 AD736 FULL WAVE RECTIFIER and waveforms AD737 AD737A AD737B AD737J AD737JR-5 AD737K
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737* FEATURES Computes: True rms Value Average Rectified Value Absolute Value Provides: 200 mV Full-Scale Input Range Larger Inputs with Input Attenuator Direct Interfacing with 3 1/2 Digit CMOS A/D Converters
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AD737*
AD736--A
AD737
C00828
AD7136
rca CA3046
AD736
FULL WAVE RECTIFIER and waveforms
AD737A
AD737B
AD737J
AD737JR-5
AD737K
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PDF
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AD736
Abstract: CA3046 equivalent
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737 FUNCTIONAL BLOCK DIAGRAM Computes True rms value Average rectified value Absolute value Provides 200 mV full-scale input range larger inputs with input attenuator Direct interfacing with 3½ digit CMOS ADCs
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AD737
AD736)
AD737
D00828-0-10/08
AD736
CA3046 equivalent
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PDF
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RMS-to-DC Converters
Abstract: AD737 CA3046 RCA ad736 "pin compatible" AD737AN ad737arz
Text: Low Cost, Low Power, True RMS-to-DC Converter AD737 Data Sheet FEATURES FUNCTIONAL BLOCK DIAGRAM CC 8kΩ 8kΩ COM CF ABSOLUTE VALUE CIRCUIT VIN SQUARER DIVIDER OUTPUT CAV +VS POWER DOWN CAV BIAS SECTION –VS 00828-001 Computes True rms value Average rectified value
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AD737
AD736
AD737
D00828-0-6/12
RMS-to-DC Converters
CA3046 RCA
ad736 "pin compatible"
AD737AN
ad737arz
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PDF
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RMS-to-dc
Abstract: AD636 AD637 AD536A AD736 AD737
Text: TRUE RMS to DC CONVERTERS TRUE RMS to DC CONVERTERS MODEL NUMBER TOTAL ERROR @+25C @Tmax ±mV ± % READING AD536A AD536A AD536A 90 450 2300 7V 0.6 0.3 0.6 15 200mV 0.5 0.2 3 7V 0.5 0.3 2 15 2 POWER DOWN MODE Iq uA NA Model Designator Temperature Range 0 -25 -40 -55
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AD536A
200mV
AD636
AD637
AD736
RMS-to-dc
AD636
AD637
AD536A
AD736
AD737
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PDF
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PRESET 10K
Abstract: AD6480 adsst-mel322 stm 601 stepper motor AD6523 AD6521 ADE7752 AD698 ADM3307 AD7221
Text: GENERAL-PURPOSE COMPONENTS OVERVIEW A/D CONVERTERS AMPLIFIERS OVERVIEW OVERVIEW ANALOG COMPUTATION CIRCUITS Multi/Div/Sq Root True RMS Converters MOD/DEMOD <3 MSPS Low Bias Current >3 MSPS Precision Comparators Sigma-Delta Single Supply Multiplexers Subsystems
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16-Bit
32-Bit
AD8150
AD8151
AD537
AD654
ADVFC32
AD650
AD652
AD7741
PRESET 10K
AD6480
adsst-mel322
stm 601 stepper motor
AD6523
AD6521
ADE7752
AD698
ADM3307
AD7221
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PDF
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AD736
Abstract: AD736A AD736B AD736J AD736JN AD736JR AD736K AD736KR AD737
Text: a FEATURES Computes: True RMS Value Average Rectified Value Absolute Value Provides: 200 mV Full-Scale Input Range Larger Inputs with Input Attenuator High Input Impedance of 1012 V Low Input Bias Current: 25 pA Max High Accuracy: ؎0.3 mV ؎0.3% of Reading
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AD737--An
AD736
AD736A
AD736B
AD736J
AD736JN
AD736JR
AD736K
AD736KR
AD737
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PDF
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AD736
Abstract: AD736A AD736B AD736J AD736JN AD736K AD737 cerdip 16 lead AD737-An
Text: a FEATURES COMPUTES True RMS Value Average Rectified Value Absolute Value PROVIDES 200 mV Full-Scale Input Range Larger Inputs with Input Attenuator High Input Impedance of 1012 ⍀ Low Input Bias Current: 25 pA max High Accuracy: ؎0.3 mV ؎0.3% of Reading
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AD737--An
AD736
C1174a
AD736A
AD736B
AD736J
AD736JN
AD736K
AD737
cerdip 16 lead
AD737-An
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PDF
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AD736
Abstract: AD736A AD736B AD736J AD736JN AD736K AD737
Text: a FEATURES Computes: True rms Value Average Rectified Value Absolute Value Provides: 200 mV Full-Scale Input Range Larger Inputs with Input Attenuator High Input Impedance of 10 12 V Low Input Bias Current: 25 pA Max High Accuracy: ؎0.3 mV ؎0.3% of Reading
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AD737--An
AD736
AD736A
AD736B
AD736J
AD736JN
AD736K
AD737
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PDF
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precision rectifier
Abstract: ac voltmeter circuit build ad636 AC digital voltmeter using ad737 FLUKE rms dc converter ac voltmeter circuit build DC to 500 MHz RMS-to-DC Converter RMS-to-DC Converter fluke voltmeter SCR Applications Handbook AD737
Text: ANALOG DEVICES AN-268 APPLICATION NOTE □ ONE TECHNOLOGY WAY • P.O. BOX 9106 • NORWOOD, MASSACHUSETTS 02062-9106 • 617/329-4700 RMS-to-DC Converters Ease Measurement Tasks RMS-to-DC converters compute the true rms value of a signal without regard to waveform.
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OCR Scan
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AN-268
AD536A,
AD636,
AD637,
AD736,
AD737.
AD637
RN55C
precision rectifier
ac voltmeter circuit build ad636
AC digital voltmeter using ad737
FLUKE rms dc converter
ac voltmeter circuit build
DC to 500 MHz RMS-to-DC Converter
RMS-to-DC Converter
fluke voltmeter
SCR Applications Handbook
AD737
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PDF
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fluke 931B
Abstract: AD694 AC digital voltmeter using ad737 AD536A m7cf fluke voltmeter AD737 Absolute Value Circuit ac voltmeter circuit build ad636 AD636
Text: rm ANALOG U AN-268 APPLICATION NOTE DEVICES ONE TECHNOLOGY WAY • P.O. BOX 9106 • NORWOOD, MASSACHUSETTS 02062-9106 • 617/329-4700 RMS-to-DC Converters Ease Measurement Tasks RMS-to-DC converters compute the true rms value of a signal without regard to waveform.
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OCR Scan
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AN-268
AD536A,
AD636,
AD637,
AD736,
AD737.
AD637
Edi744
fluke 931B
AD694
AC digital voltmeter using ad737
AD536A
m7cf
fluke voltmeter
AD737
Absolute Value Circuit
ac voltmeter circuit build ad636
AD636
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PDF
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AD694
Abstract: AC digital voltmeter using ad737 fluke 931B ac voltmeter circuit build ad636 FLUKE rms dc converter AD736 AD744 AD636 AD637 AD637K
Text: ANALOG DEVICES AN-268 APPLICATION NOTE □ ONE TECHNOLOGY WAY • P.O. BOX 9106 • NORWOOD, MASSACHUSETTS 02062-9106 • 617/329-4700 RMS-to-DC Converters Ease Measurement Tasks RMS-to-DC converters compute the true rms value of a signal without regard to waveform.
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OCR Scan
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AN-268
AD536A,
AD636,
AD637,
AD736,
AD737.
AD637
RN55C
AD694
AC digital voltmeter using ad737
fluke 931B
ac voltmeter circuit build ad636
FLUKE rms dc converter
AD736
AD744
AD636
AD637K
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PDF
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Untitled
Abstract: No abstract text available
Text: ANALOG DEVICES □ FEATURES COMPUTES True RMS Value Average Rectified Value Absolute Value PROVIDES 200mV Full-Scale Input Range Larger Inputs with Input Attenuator High Input Impedance of 10120 Low Input Bias Current: 25pA max High Accuracy: 1 0.3mV ± 0.3% of Reading
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OCR Scan
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200mV
AD737
AD736
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PDF
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Untitled
Abstract: No abstract text available
Text: □ ANALOG DEVICES FEATURES COM PUTES True RMS Value Average Rectified Value Absolute Value PROVIDES 200mV Full-Scale Input Range Larger Inputs with Input Attenuator Direct Interfacing with 3 1/2 Digit CMOS A/D Converters Power Down Feature Which Reduces Supply Current
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OCR Scan
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200mV
AD736
AD737
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PDF
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