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    AN214 PIN CONFIG Search Results

    AN214 PIN CONFIG Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    CS-DSDMDB09MF-010 Amphenol Cables on Demand Amphenol CS-DSDMDB09MF-010 9-Pin (DB9) Deluxe D-Sub Cable - Copper Shielded - Male / Female 10ft Datasheet
    CS-DSDMDB15MF-002.5 Amphenol Cables on Demand Amphenol CS-DSDMDB15MF-002.5 15-Pin (DB15) Deluxe D-Sub Cable - Copper Shielded - Male / Female 2.5ft Datasheet
    CS-DSDMDB15MM-025 Amphenol Cables on Demand Amphenol CS-DSDMDB15MM-025 15-Pin (DB15) Deluxe D-Sub Cable - Copper Shielded - Male / Male 25ft Datasheet
    CS-DSDMDB25MM-010 Amphenol Cables on Demand Amphenol CS-DSDMDB25MM-010 25-Pin (DB25) Deluxe D-Sub Cable - Copper Shielded - Male / Male 10ft Datasheet
    CS-DSDMDB37MM-002.5 Amphenol Cables on Demand Amphenol CS-DSDMDB37MM-002.5 37-Pin (DB37) Deluxe D-Sub Cable - Copper Shielded - Male / Male 2.5ft Datasheet

    AN214 PIN CONFIG Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    BFOOT-66501

    Abstract: AN214 block diagram PIC16C62A PIC16F87X DS30292 93C86 MCP3201 P1451 PIC16C62A PIC16C717 PIC16C771
    Text: AN214 The PICmicro MCU as an IEEE 1451.2 Compatible Smart Transducer Interface Module STIM Authors: The IEEE 1451.2 standard provides the means to connect sensors and actuators to a digital system, typically a network, via a Network Capable Application Processor (NCAP). Figure 2 depicts a general distributed


    Original     		AN214 IEEE-1451 DS00214A-page BFOOT-66501 AN214 block diagram PIC16C62A PIC16F87X DS30292 93C86 MCP3201 P1451 PIC16C62A PIC16C717 PIC16C771 PDF

    block diagram PIC16C62A

    Abstract: TRANSDUCER BFOOT-66501 an214 Q an214 microcontroller relay interfacing with mmt 8870 IEEE-1451 STIM 202 teds ph sensor
    Text: AN214 The PICmicro MCU as an IEEE 1451.2 Compatible Smart Transducer Interface Module STIM Authors: The IEEE 1451.2 standard provides the means to connect sensors and actuators to a digital system, typically a network, via a Network Capable Application Processor (NCAP). Figure 2 depicts a general distributed


    Original     		AN214 IEEE-1451 D-81739 block diagram PIC16C62A TRANSDUCER BFOOT-66501 an214 Q an214 microcontroller relay interfacing with mmt 8870 STIM 202 teds ph sensor PDF

    AN214

    Abstract: AN214R AN214 audio AN214 audio integrated circuit data pc motherboard schematics TOTX173 CS4201 PW-6000 AN-214
    Text: AN214 Application Note CS4201/CS4202 SIX CHANNEL AUDIO DESIGN 1. INTRODUCTION This application note describes how to create a six channel AC '97 audio sub-system on a PC motherboard that can accommodate either the CS4201 or the CS4202 audio codec. U2 CS4201 CS4202


    Original     		AN214 CS4201/CS4202 CS4201 CS4202 CS4202 1000pF AN214 AN214R AN214 audio AN214 audio integrated circuit data pc motherboard schematics TOTX173 PW-6000 AN-214 PDF

    an214

    Abstract: 188-114 AN-108 AN-214 DS1691 DS78LS120 EIA-422-B RS-423
    Text: National Semiconductor Application Note 214 John Abbott John Goldie August 1993 Introduction tor’s application note AN-108 and TIA/EIA standards TIA/ EIA-422-B balanced and TIA/EIA-423-B (unbalanced). In this application note the generic terms of RS-422 and


    Original     		AN-108 EIA-422-B TIA/EIA-423-B RS-422 RS-423 an214 188-114 AN-214 DS1691 DS78LS120 EIA-422-B PDF

    74F295

    Abstract: Generator/AN214 amplifier circuit diagram
    Text: INTEGRATED CIRCUITS AN214 74F extended octal-plus family applications June 1988 Revised June 1996 Philips Semiconductors Philips Semiconductors Application note 74F extended octal-plus family applications “light-load” inputs, “broadside” design and high functional


    Original     		AN214 10-bit 74F295 Generator/AN214 amplifier circuit diagram PDF

    AN214 amplifier circuit diagram

    Abstract: AN214 AN214 amplifier AN214 power amplifier F8234 74F861 F8212 74F series logic family LE841 74F863
    Text: INTEGRATED CIRCUITS AN214 74F extended octal-plus family applications June 1988 Revised June 1996 Philips Semiconductors Philips Semiconductors Application note 74F extended octal-plus family applications “light-load” inputs, “broadside” design and high functional


    Original     		AN214 10-bit AN214 amplifier circuit diagram AN214 AN214 amplifier AN214 power amplifier F8234 74F861 F8212 74F series logic family LE841 74F863 PDF

    "1 wire slave interface" verilog

    Abstract: UART using VHDL AN214 1 wire verilog code IC AN214 uart verilog code vhdl code for uart communication DS1WM 2N7002 MC68SZ328
    Text: Application Note 214 Using a UART to Implement a 1-Wire Bus Master www.maxim-ic.com INTRODUCTION 1-Wire devices provide economical solutions for identification, memory, time keeping, measurement and control. The 1-Wire data interface is reduced to the absolute minimum, i.e., a single data line plus


    Original     		16kbps 16-bit 32-bit 100MHz "1 wire slave interface" verilog UART using VHDL AN214 1 wire verilog code IC AN214 uart verilog code vhdl code for uart communication DS1WM 2N7002 MC68SZ328 PDF

    AN214

    Abstract: IC AN214 DS1990A DS2401 DS2438 DS2740 DS9097E MC68SZ328 NC7WZ07 PXA250
    Text: Maxim > App Notes > 1-Wire Devices UARTs Keywords: UART, DS9097E, 1-Wire, iButton, bus master, 1-Wire signals, microprocessor, 1wire Sep 10, 2002 APPLICATION NOTE 214 Using a UART to Implement a 1-Wire Bus Master Abstract: This application note explains how to use a microprocessor's UART to implement a 1-Wire® bus


    Original     		DS9097E, DS1990A: DS2401: DS2438: DS2740: DS2751: DS2760: DS2761: DS2762: DS9097E: AN214 IC AN214 DS1990A DS2401 DS2438 DS2740 DS9097E MC68SZ328 NC7WZ07 PXA250 PDF

    DS1990A

    Abstract: DS2401 DS2438 DS2740 DS9097E MC68SZ328 NC7WZ07 PXA250 SA-1110 UART abstract
    Text: Maxim > App Notes > 1-Wire Devices UARTs Keywords: UART, DS9097E, 1-Wire, iButton, bus master, 1-Wire signals, microprocessor, 1wire Sep 10, 2002 APPLICATION NOTE 214 Using a UART to Implement a 1-Wire Bus Master Abstract: This application note explains how to use a microprocessor's UART to implement a 1-Wire® bus


    Original     		DS9097E, DS2740: DS2762: DS9097E: com/an214 AN214, APP214, Appnote214, DS1990A DS2401 DS2438 DS2740 DS9097E MC68SZ328 NC7WZ07 PXA250 SA-1110 UART abstract PDF

    AN-108

    Abstract: AN-214 DS1691 DS78LS120 EIA-422-B RS-423
    Text: INTRODUCTION With the advent of the microprocessor, logic designs have become both sophisticated and modular in concept. Frequently the modules making up the system are very closely coupled on a single printed circuit board or cardfile. In a majority of these cases a standard bus transceiver will be adequate. However because of the distributed intelligence ability of the microprocessor, it is becoming common practice for


    Original     		an005854 AN-108 AN-214 DS1691 DS78LS120 EIA-422-B RS-423 PDF

    AN214 audio integrated circuit data

    Abstract: AN214 pc motherboard schematics PW60 TOTX173 C2621
    Text: AN213 Application Note CS4201/CS4202 TWO CHANNEL AUDIO DESIGN 1. INTRODUCTION This application note describes how to create a two channel AC '97 audio sub-system on a PC motherboard, with buffered Line Outputs, that can accommodate either the CS4201 or CS4202 audio


    Original     		AN213 CS4201/CS4202 CS4201 CS4202 1000pF CS4201, AN214 audio integrated circuit data AN214 pc motherboard schematics PW60 TOTX173 C2621 PDF

    AN-214 Application Note

    Abstract: DS88LS120 AN-108 AN-214 DS1691 DS78LS120 EIA-422-B RS-423
    Text: National Semiconductor Application Note 214 John Abbott John Goldie August 1993 INTRODUCTION With the advent of the microprocessor, logic designs have become both sophisticated and modular in concept. Frequently the modules making up the system are very closely


    Original     		an005854 AN-214 Application Note DS88LS120 AN-108 AN-214 DS1691 DS78LS120 EIA-422-B RS-423 PDF

    188-114

    Abstract: application note AN-214 an-214 ir receiver transistor AN-108 C1996 DS1691 DS78LS120 EIA-422-B RS-423
    Text: National Semiconductor Application Note 214 John Abbott John Goldie August 1993 INTRODUCTION With the advent of the microprocessor logic designs have become both sophisticated and modular in concept Frequently the modules making up the system are very closely


    Original     		PDF

    AN-214

    Abstract: AN-457 AN-805 DS26C31 DS34LV87T DS34LV87TM M16A
    Text: DS34LV87T Enhanced CMOS Quad Differential Line Driver General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered


    Original     		DS34LV87T DS34LV87T TIA/EIA-422-B AN-214 AN-457 AN-805 DS26C31 DS34LV87TM M16A PDF

    DS26C31

    Abstract: DS34LV87T DS34LV87TM DS34LV87TN M16A N16A
    Text: DS34LV87T Enhanced CMOS Quad Differential Line Driver General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered


    Original     		DS34LV87T DS34LV87T TIA/EIA-422-B VOD959 DS26C31 DS34LV87TM DS34LV87TN M16A N16A PDF

    DS26C31

    Abstract: DS34LV87T DS34LV87TM DS34LV87TN M16A N16A
    Text: DS34LV87T Enhanced CMOS Quad Differential Line Driver General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered


    Original     		DS34LV87T DS34LV87T TIA/EIA-422-B VOD7018 DS26C31 DS34LV87TM DS34LV87TN M16A N16A PDF

    DS1691

    Abstract: AN-108 AN-214 DS78LS120 EIA-422-B RS-423 188-114 application note AN-214
    Text: National Semiconductor Application Note 214 John Abbott John Goldie August 1993 INTRODUCTION With the advent of the microprocessor, logic designs have become both sophisticated and modular in concept. Frequently the modules making up the system are very closely


    Original     		PDF

    DS26C31

    Abstract: DS34LV87T DS34LV87TM M16A
    Text: DS34LV87T Enhanced CMOS Quad Differential Line Driver General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered


    Original     		DS34LV87T DS34LV87T TIA/EIA-422-B DS26C31 DS34LV87TM M16A PDF

    an214 circuit diagram

    Abstract: DS26C31 DS34LV87T DS34LV87TM M16A
    Text: DS34LV87T Enhanced CMOS Quad Differential Line Driver General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered


    Original     		DS34LV87T DS34LV87T TIA/EIA-422-B an214 circuit diagram DS26C31 DS34LV87TM M16A PDF

    an214 circuit diagram

    Abstract: DS26C31 DS34LV87T DS34LV87TM DS34LV87TN M16A N16A
    Text: General Description Features The DS34LV87T is a high speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS34LV87T features low static ICC of 100 µA max which makes it ideal for battery powered and power conscious applications. The TRI-STATE enable,


    Original     		DS34LV87T TIA/EIA-422-B ds012645 an214 circuit diagram DS26C31 DS34LV87TM DS34LV87TN M16A N16A PDF

    eia 422 DS26C31

    Abstract: DS26C31 DS26LV31T DS26LV31TM DS26LV31TN M16A N16A
    Text: JOBNAME: No Job Name PAGE: 1 SESS: 2 OUTPUT: Wed Jan 29 12:49:19 1997 General Description Features The DS26LV31T is a high-speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS26LV31T features low static


    Original     		DS26LV31T TIA/EIA-422-B RS-422) RS-422 eia 422 DS26C31 DS26C31 DS26LV31TM DS26LV31TN M16A N16A PDF

    DS26C31

    Abstract: DS26LV31T DS26LV31TM DS26LV31TN M16A N16A DS012642
    Text: DS26LV31T 3V Enhanced CMOS Quad Differential Line Driver General Description Features The DS26LV31T is a high-speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS26LV31T features low static ICC of 100 µA MAX which makes it ideal for battery powered


    Original     		DS26LV31T DS26LV31T TIA/EIA-422-B RS-422) RS-422 pa7018 DS26C31 DS26LV31TM DS26LV31TN M16A N16A DS012642 PDF

    AN-214

    Abstract: DS26C31 DS26LV31T DS26LV31TM DS26LV31W M16A W16A
    Text: DS26LV31T 3V Enhanced CMOS Quad Differential Line Driver General Description The DS26LV31T is a high-speed quad differential CMOS driver that meets the requirements of both TIA/EIA-422-B and ITU-T V.11. The CMOS DS26LV31T features low static ICC of 100 µA MAX which makes it ideal for battery powered


    Original     		DS26LV31T DS26LV31T TIA/EIA-422-B AN-214 DS26C31 DS26LV31TM DS26LV31W M16A W16A PDF

    AN214

    Abstract: AN214D DS78LS12
    Text: AN-214 Transmission Line Drivers and Receivers for EIA Standards RS-422 and RS-423 National Sem iconductor Application N ote 2 1 4 John Abbott With the advent of the microprocessor, logic designs have become both sophisticated and modular in concept. Fre­


    OCR Scan     		AN-214 RS-422 RS-423 RS-423 AN214 AN214D DS78LS12 PDF