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    SUCCESSIVE APPROXIMATION ADC Search Results

    SUCCESSIVE APPROXIMATION ADC Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    ADC1038CIWM Rochester Electronics LLC ADC1038 - ADC, Successive Approximation, 10-Bit, 1 Func, 8 Channel, Serial Access, PDSO20 Visit Rochester Electronics LLC Buy
    ML2258CIQ Rochester Electronics LLC ML2258 - ADC, Successive Approximation, 8-Bit, 1 Func, 8 Channel, Parallel, 8 Bits Access, PQCC28 Visit Rochester Electronics LLC Buy
    CA3310AM Rochester Electronics LLC CA3310A - ADC, Successive Approximation, 10-Bit, 1 Func, 1 Channel, Parallel, Word Access, CMOS, PDSO24 Visit Rochester Electronics LLC Buy
    CA3310M Rochester Electronics LLC CA3310 - ADC, Successive Approximation, 10-Bit, 1 Func, 1 Channel, Parallel, Word Access, CMOS, PDSO24 Visit Rochester Electronics LLC Buy
    ISL267452IHZ-T Renesas Electronics Corporation 12-Bit, 555kSPS SAR ADC Visit Renesas Electronics Corporation

    SUCCESSIVE APPROXIMATION ADC Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    MC1407

    Abstract: 8 bit ttl ADC pulse generator MC14001 mc14559 AN716 MC14001 MOTOROLA MC1408 A/D MC1408 MC14549B MC14XXXBCL
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC14549B MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8–bit registers providing all the digital control and storage necessary for successive approximation analog–to–digital conversion systems. These


    Original     		MC14549B MC14559B MC14549B MC14559B MC14549B/D* MC1407 8 bit ttl ADC pulse generator MC14001 mc14559 AN716 MC14001 MOTOROLA MC1408 A/D MC1408 MC14XXXBCL PDF

    MC1407

    Abstract: MC1408-8 motorola AN716 htl schmitt MC14559B
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8–bit registers providing all the digital control and storage necessary for successive approximation analog–to–digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC145XXBCP MC14549BCP MC1407 MC1408-8 motorola AN716 htl schmitt PDF

    MC1407

    Abstract: MC1408-8 motorola SAR 444
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8–bit registers providing all the digital control and storage necessary for successive approximation analog–to–digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC145XXBCP r14525 MC1407 MC1408-8 motorola SAR 444 PDF

    Untitled

    Abstract: No abstract text available
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC14559B MC14549B/D PDF

    MC1408

    Abstract: MC14549B MC14549BCP MC14549BCPG MC14549BDWR2 MC14549BDWR2G MC14559B MC14559BCP MC1407 maq52
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC14559B PDIP-16 MC14549B/D MC1408 MC14549BCP MC14549BCPG MC14549BDWR2 MC14549BDWR2G MC14559BCP MC1407 maq52 PDF

    MC1407

    Abstract: MARKING EOC MC14549B
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B PDIP-16 MC145xxBCP MC1407 MARKING EOC PDF

    mc1407

    Abstract: MC1408-8 motorola MC14001 MC1408 MC14549B MC14549BCP MC14549BDWR2 MC14559B MC14559BCP MC14559BDWR2
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8–bit registers providing all the digital control and storage necessary for successive approximation analog–to–digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC14559B r14525 MC14549B/D mc1407 MC1408-8 motorola MC14001 MC1408 MC14549BCP MC14549BDWR2 MC14559BCP MC14559BDWR2 PDF

    MC1408 equivalent

    Abstract: No abstract text available
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC14559B MC14549B/D MC1408 equivalent PDF

    MC14001

    Abstract: MC1408 MC14549B MC14549BCP MC14549BDWR2 MC14559B MC14559BCP MC14559BDWR2 MC1407
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC14559B MC14549B/D MC14001 MC1408 MC14549BCP MC14549BDWR2 MC14559BCP MC14559BDWR2 MC1407 PDF

    Untitled

    Abstract: No abstract text available
    Text: MC14549B, MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8−bit registers providing all the digital control and storage necessary for successive approximation analog−to−digital conversion systems. These parts differ in only one control input. The Master Reset


    Original     		MC14549B, MC14559B MC14549B MC145x9BCP PDIP-16 PDF

    AD7266

    Abstract: AD7352 AD7356 AD7357 AD7366 AD7367 AD7866
    Text: Differential Input, Dual, Simultaneous Sampling, 4.2 MSPS, 14-Bit, SAR ADC AD7357 FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM VDD VDRIVE AD7357 VINA+ 14-BIT SUCCESSIVE APPROXIMATION ADC T/H VINA– REFA BUF REFB VINB+ 14-BIT SUCCESSIVE APPROXIMATION ADC


    Original     		14-Bit, AD7357 14-bit 16-lead 14-BIT D07757-0-2/11 AD7266 AD7352 AD7356 AD7357 AD7366 AD7367 AD7866 PDF

    Untitled

    Abstract: No abstract text available
    Text: Differential Input, Dual, Simultaneous Sampling, 4.2 MSPS, 14-Bit, SAR ADC AD7357 FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM VDD VDRIVE AD7357 VINA+ 14-BIT SUCCESSIVE APPROXIMATION ADC T/H VINA– REFA BUF REFB VINB+ 14-BIT SUCCESSIVE APPROXIMATION ADC


    Original     		14-Bit, AD7357 14-bit 16-lead 14ith D07757-0-8/11 PDF

    Untitled

    Abstract: No abstract text available
    Text: Differential Input, Dual, Simultaneous Sampling, 4.2 MSPS, 14-Bit, SAR ADC AD7357 FUNCTIONAL BLOCK DIAGRAM FEATURES APPLICATIONS VDD VDRIVE AD7357 VINA+ 14-BIT SUCCESSIVE APPROXIMATION ADC T/H VINA– REFA BUF REFB VINB+ 14-BIT SUCCESSIVE APPROXIMATION ADC


    Original     		14-Bit, AD7357 14-bit 16-lead 14-BIT D07757-0-8/11 PDF

    Untitled

    Abstract: No abstract text available
    Text: Differential Input, Dual, Simultaneous Sampling, 4.2 MSPS, 14-Bit, SAR ADC AD7357 FEATURES APPLICATIONS FUNCTIONAL BLOCK DIAGRAM VDD VDRIVE AD7357 VINA+ 14-BIT SUCCESSIVE APPROXIMATION ADC T/H VINA– REFA BUF REFB VINB+ 14-BIT SUCCESSIVE APPROXIMATION ADC


    Original     		14-Bit, AD7357 14-bit 16-lead 14-BIT D07757-0-8/11 PDF

    finger print sensor pcb with circuit

    Abstract: AN2041 finger print sensor psoc based innovative project medical flow sensor bypass o2 sensor Cypress Capsense
    Text: WHITE PAPER Cypress’ CapSense Successive Approximation Algorithm By Robert Jania, Cypress Semiconductor Global Marketing Manager RJO Executive Summary Successive Approximation algorithm (CSA) is Cypress’s new capacitive sensing algorithm for the CY8C20x34 PSoC device


    Original     		CY8C20x34 finger print sensor pcb with circuit AN2041 finger print sensor psoc based innovative project medical flow sensor bypass o2 sensor Cypress Capsense PDF

    ADC002

    Abstract: ADC-002
    Text: ADC002 10 bit Successive Approximation A/D Converter • 10 bits resolution at 200 ksps • Successive approximation architecture • Rail-to-rail operation • 24mW power at 5V • Requires external reference voltage • C5 0.5µ double-poly processes 1.0 Description


    Original     		ADC002 10-bit ADC-002 PDF

    ami 98

    Abstract: ADC10R05 Successive approximation ADC
    Text: ADC10R05 +4.5V TO +5.5V, 10-Bit 84 KSPS Successive Approximation ADC DAC/ADC AMI 0.6 micron CMOS Features General Description • The ADC10R05 is a 10 bit successive approximation charge redistribution ADC. • The converter allows high resolution of up to 10 bit.


    Original     		ADC10R05 10-Bit ADC10R05 GA98095PM8/98 ami 98 Successive approximation ADC PDF

    TAD100

    Abstract: No abstract text available
    Text: 8-BIT 250KSPS SAR ADC ADC_PCI2010_CS2 FEATURES GENERAL DESCRIPTION The adc_pci2010_cs2 is a CMOS 8-bit low supply, low power, successive approximation A/D converter which is composed of auto-zeroing comparator, 8-bit DAC, clock generator, successive approximation register SAR and


    Original     		250KSPS PCI2010 250KSPS. 250KSPS TAD100 PDF

    ADC1255

    Abstract: load cell interface WITH ADC ADC1255X comparator 10 bit LOAD CELL ADC
    Text: 10-BIT 250KSPS SAR ADC ADC1255X FEATURES GENERAL DESCRIPTION The ADC1255X is a CMOS 10-bit low supply, low power, successive approximation A/D converter which is composed of auto-zeroing comparator, 10-bit DAC, clock generator, successive approximation register SAR and


    Original     		10-BIT 250KSPS ADC1255X ADC1255X 250KSPS. 10-Bit ADC1255 load cell interface WITH ADC comparator 10 bit LOAD CELL ADC PDF

    MAX1065

    Abstract: MAX1066 MAX1086 MAX1111 MAX1118 MAX1132 MAX1133 MAX1286 MAX195
    Text: Maxim > App Notes > A/D and D/A CONVERSION/SAMPLING CIRCUITS Keywords: sar, successive approximation, adc, analog to digital, converter, precision Mar 01, 2001 APPLICATION NOTE 1080 Understanding SAR ADCs Abstract: Successive-approximation-register SAR analog-to-digital converters (ADCs) represent the majority


    Original     		MAX1111: MAX1118: MAX1132: MAX1133: MAX1162: MAX1165: MAX1166: MAX1280: MAX1290: MAX195: MAX1065 MAX1066 MAX1086 MAX1111 MAX1118 MAX1132 MAX1133 MAX1286 MAX195 PDF

    Untitled

    Abstract: No abstract text available
    Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MC14549B MC14559B Successive Approximation Registers The MC14549B and MC14559B successive approximation registers are 8 -b it registers providing all the digital control and storage necessary for successive approxim ation a n a lo g -to -d ig ita l conversion system s. These


    OCR Scan     		MC14549B MC14559B MC14549B MC14559B MC14549B/D PDF

    574akd

    Abstract: 574akn
    Text: 8-BIT SUCCESSIVE APPROXIMATION A/D CONVERTER SUFFIX CODE DEVICE ADC0802 LCN OUTPUTS CONV. TYPE 8-Bit Three-State Successive Approximation CONV. TECH­ RATE KSPS NOLOGY 10 POWER SUPPLY (V) INPUT RANGE (V) INL (LSB) TEMP. RANGE +5 5 ±1/2 COM CMOS ADC0802


    OCR Scan     		ADC0802 ADC0803 ADC0804 80C48 80C80/85 574akd 574akn PDF

    sd 6109

    Abstract: 74HC AD7582
    Text: ANALOG DEVICES □ CMOS 12-Bit Successive Approximation ADC AD7582 1.1 Scope. This specification covers the detail requirements for a monolithic CMOS 4-channel 12-bit analog-to-digital converter which uses the successive approximation technique to provide a conversion time of lOO^s per


    OCR Scan     		12-Bit AD7582 12-bit AD7582T /883B ADI-M-1000: 28-Pin Ceramic7582 MIL-STD-883 sd 6109 74HC AD7582 PDF

    74121 full internal circuit diagram

    Abstract: digital clock using 8086 asl 086 interfacing ADC with 8086 microprocessor MC68008 AD7578 AD7578-8088 8088 microprocessor circuit diagram 49878.2 cmos 4004
    Text: ANALOG DEVICES □ CMOS 12-Bit Successive Approximation ADC FEATURES 12-Bit Successive Approximation ADC No Missed Codes Over Full Tem perature Range Low Total Unadjusted Error ± 1LSB max High Impedance Analog Input Autozero Cycle for Low Offset Voltage Low Power, 75m W typ


    OCR Scan     		12-Bit AD7578 24-Pin AD7578 74121 full internal circuit diagram digital clock using 8086 asl 086 interfacing ADC with 8086 microprocessor MC68008 AD7578-8088 8088 microprocessor circuit diagram 49878.2 cmos 4004 PDF