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    0A5H PART Search Results

    0A5H PART Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    0201DS-0N6XKL Coilcraft Inc OLD PART NUMBER.(Change 'L' to 'E' for new halogen-free part number.) Visit Coilcraft Inc
    0201DS-2N3XJL Coilcraft Inc OLD PART NUMBER.(Change 'L' to 'E' for new halogen-free part number.) Visit Coilcraft Inc
    0201DS-4N8XJL Coilcraft Inc OLD PART NUMBER.(Change 'L' to 'E' for new halogen-free part number.) Visit Coilcraft Inc
    0201DS-9N6XJL Coilcraft Inc OLD PART NUMBER.(Change 'L' to 'E' for new halogen-free part number.) Visit Coilcraft Inc
    LPS3008-124 Coilcraft Inc OLD PART NUMBER.(Change final L\\ to \\R\\ for new halogen-free part number.)\\ Visit Coilcraft Inc

    0A5H PART Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    6 PIN EEPROM

    Abstract: EEPROM Infineon communication 240R C868 i2c and spi communication program AP08006 eeprom 4 pin
    Text: App lica tion No te , V 1 .1 , A p r. 2005 AP08006 C868 Interfacing SPI/I2C Serial EEPROM with C868 Microcontroller Mic r ocont rollers N e v e r s t o p t h i n k i n g . Edition 2005-04-01 Published by Infineon Technologies AG 81726 München, Germany Infineon Technologies AG 2006.


    Original     		AP08006 0FF00H 6 PIN EEPROM EEPROM Infineon communication 240R C868 i2c and spi communication program AP08006 eeprom 4 pin PDF

    Migrating from Philips P89LPC913 to Atmel AT89LP214

    Abstract: p1m21 3617A 0a5h part P89LPC913 P3M10 AT89LP BUT12
    Text: Migrating from Philips P89LPC913 to Atmel AT89LP214 1. Introduction The Atmel AT89LP214 can replace the Philips® P89LPC913 directly in an existing application provided that the following software differences are taken into consideration. 2. Pin Mapping


    Original     		P89LPC913 AT89LP214 AT89LP214 P89LPC913 AT89LP214. Migrating from Philips P89LPC913 to Atmel AT89LP214 p1m21 3617A 0a5h part P3M10 AT89LP BUT12 PDF

    TLC320AD77

    Abstract: VOICE msp430 TL78M05 msp430 RS232 bass treble circuit schematic dual parametric EQ transistor 016h volume bass eq board MSP430 SLAS226
    Text: TAS3001 EVM User’s Guide February 2001 Digital Speaker Products SLAU060 IMPORTANT NOTICE Texas Instruments and its subsidiaries TI reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest version of relevant information


    Original     		TAS3001 SLAU060 vectors-31 MSP430 TLC320AD77 VOICE msp430 TL78M05 msp430 RS232 bass treble circuit schematic dual parametric EQ transistor 016h volume bass eq board SLAS226 PDF

    SBAA076

    Abstract: MSC1210 application note Y44K MSC1210 programming MSC1210 F800H 1MHZ crystal
    Text: Application Report SBAA076 - April 2002 PROGRAMMING THE MSC1210 By Russell Anderson SERIAL FLASH PROGRAMMING AUTOBAUD AND SETUP The BootROM start address is F800H for User Application Mode UAM , and 0000H for Flash Programming Mode (FPM). Since the 2kB BootROM code is using only an 11-bit address


    Original     		SBAA076 MSC1210 F800H 0000H 11-bit 0000H 8000H, MSC1210 application note Y44K MSC1210 programming MSC1210 1MHZ crystal PDF

    Migrating from AT89S52 to AT89LP52

    Abstract: AT89S52 INSTRUCTION SET crystal oscillator 11.0592 mhz in at89s52 AT89S52 specification flash programmer circuit for AT89s52 AT89S52 specification microcontroller Microcontroller AT89s52 counter time pin of Atmel AT89s52 AT89S52 circuit xtal 11.0592
    Text: Migrating from AT89S52 to AT89LP52 New Features • • • • • • • • • • • • • • • • • • • • • SIngle Clock Cycle per Byte Fetch with 20 MIPS Throughput at 20MHz Clock Frequency 12 Clock Instruction Compatibility Mode 4-level Interrupt Priority


    Original     		AT89S52 AT89LP52 20MHz Migrating from AT89S52 to AT89LP52 AT89S52 INSTRUCTION SET crystal oscillator 11.0592 mhz in at89s52 AT89S52 specification flash programmer circuit for AT89s52 AT89S52 specification microcontroller Microcontroller AT89s52 counter time pin of Atmel AT89s52 AT89S52 circuit xtal 11.0592 PDF

    MSP430

    Abstract: 000000000H fractional number in MSP430
    Text: MSP430 Family Integer Calculation Topics 4 Integer Calculation Subroutines 4-3 4.1 Unsigned Multiplication 16 x 16 bits 4-4 4.2 Signed Multiplication 16 x 16 bits 4-5 4.3 Unsigned Multiplication 8 x 8 bits 4-6 4.4 Signed Multiplication 8 x 8 bits 4-7 4.5 Unsigned Division 32/16 bits


    Original     		MSP430 MMM000 01234H 00678H 4-11Error! 000000000H fractional number in MSP430 PDF

    SBAA076A

    Abstract: msc1210 flash programming F800H MSC1210
    Text: Application Report SBAA076A - April 2002 PROGRAMMING THE MSC1210 By Russell Anderson SERIAL FLASH PROGRAMMING AUTOBAUD AND SETUP The BootROM start address is F800H for User Application Mode UAM , and 0000H for Flash Programming Mode (FPM). Since the 2kB BootROM code is using only an 11-bit address


    Original     		SBAA076A MSC1210 F800H 0000H 11-bit 0000H 8000H, msc1210 flash programming MSC1210 PDF

    SBAA076

    Abstract: SBAA076B MSC1210 programming MSC1210 msc1210 flash programming MSC1210 application note F800H 1MHZ crystal
    Text: Application Report SBAA076B - April 2002 - Revised September 2002 PROGRAMMING THE MSC1210 By Russell Anderson SERIAL FLASH PROGRAMMING AUTOBAUD AND SETUP The BootROM start address is F800H for User Application Mode UAM , and 0000H for Flash Programming Mode (FPM).


    Original     		SBAA076B MSC1210 F800H 0000H 11-bit 0000H 8000H, SBAA076 MSC1210 programming MSC1210 msc1210 flash programming MSC1210 application note 1MHZ crystal PDF

    24810

    Abstract: 240R C868 8K10
    Text: Application Note, V 0.1, July 2003 AP08009 C868P Data Scrambling Feature in C868P Microcontroller Microcontrollers N e v e r s t o p t h i n k i n g . Edition 2003-07-01 Published by Infineon Technologies AG 81726 München, Germany Infineon Technologies AG 2006.


    Original     		AP08009 C868P C868P 0000H 24810 240R C868 8K10 PDF

    M33 63

    Abstract: PTR 80 AP-930 245045 3x3 matrix c1b24 m6636 matrix multiplication M-128 EDX20
    Text: AP-930 Streaming SIMD Extensions Matrix Multiplication June 1999 Order Number: 245045-001 Information in this document is provided in connection with Intel products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Intel's Terms and Conditions of Sale for such products, Intel


    Original     		AP-930 M33 63 PTR 80 AP-930 245045 3x3 matrix c1b24 m6636 matrix multiplication M-128 EDX20 PDF

    89lp51

    Abstract: FC51 at89lp programmer p2m0 TPS30 atmel AT89C51RD2 PROGRAMMER FC516 at89lp51ed2 AT89LP51RC2 AT89LP51
    Text: Migrating from AT89C51RB2/RC2/RD2/ED2/IC2/ID2 to AT89LP51RB2/RC2/RD2/ED2/IC2/ID2 New Features • • • • • • • • • • • • • • • • • • • • • • • • SIngle Clock Cycle per Byte Fetch with 20 MIPS Throughput at 20MHz Clock Frequency


    Original     		AT89C51RB2/RC2/RD2/ED2/IC2/ID2 AT89LP51RB2/RC2/RD2/ED2/IC2/ID2 20MHz 40-bit 16x16 32-byte AT89LP51ED2 AT89LP51ID2 AT89LP51RB2/RC2/RD2/ED2 89lp51 FC51 at89lp programmer p2m0 TPS30 atmel AT89C51RD2 PROGRAMMER FC516 at89lp51ed2 AT89LP51RC2 AT89LP51 PDF

    AN431

    Abstract: No abstract text available
    Text:  APPLICATION NOTE USING ST6 ANALOG INPUTS FOR MULTIPLE KEY DECODING J.Stockinger INTRODUCTION The ST6 on-chip Analog to Digital Converter ADC is a useful peripheral integrated into the silicon of the ST6 family members. The flexibility of the I/O port structure allows


    Original     		ST6210/15 ST6220/25 AN431 PDF

    ACE1101

    Abstract: ACE1202 AN-2004
    Text: AN-2004 EEPROM Integrity on ACE Controllers Fairchild App Note 2004 Maurizio Zecchini August 2000 1.0 Introduction 3.0 Electrical Consideration The goal of this application note is to give some guideline to how preserve EEPROM contents under uncertain power-up/down


    Original     		AN-2004 ACE1101/1202) AN-2004 ACE1101 ACE1202 PDF

    ADC and analog keyboard configuration

    Abstract: PEG1 AN431 ST6 family
    Text:  APPLICATION NOTE USING ST6 ANALOG INPUTS FOR MULTIPLE KEY DECODING J.Stockinger INTRODUCTION The ST6 on-chip Analog to Digital Converter ADC is a useful peripheral integrated into the silicon of the ST6 family members. The flexibility of the I/O port structure allows


    Original     		ST6210/15 ST6220/25 ADC and analog keyboard configuration PEG1 AN431 ST6 family PDF

    om02

    Abstract: boot loader code serial port msp430 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F110IPW MSP430F112 MSP430F112IDW 0C00h
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256B – NOVEMBER 1999 – REVISED JUNE 2000 D D D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultralow-Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 200 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430F11x SLAS256B 16-Bit om02 boot loader code serial port msp430 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F110IPW MSP430F112 MSP430F112IDW 0C00h PDF

    MSP430 Manual

    Abstract: MSP430 pin diagram MSP430 SN74AHC244 SLAU038
    Text: MSP430 Family Architectural Guide and Module Library User’s Guide VOLUME 2 2000 Mixed Signal Products SLAU038 IMPORTANT NOTICE Texas Instruments and its subsidiaries TI reserve the right to make changes to their products or to discontinue any product or service without notice, and advise customers to obtain the latest version of relevant information


    Original     		MSP430 SLAU038 MSP430 Manual MSP430 pin diagram SN74AHC244 SLAU038 PDF

    boot loader code serial port msp430

    Abstract: 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F112 MSP430F112IDW SLAS256
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256 – NOVEMBER 1999 D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultra-Low Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 250 µA at 1 MHz, 2.2 V Five Power Saving Modes: Standby Mode: 0.8 µA,


    Original     		MSP430F11x SLAS256 16-Bit boot loader code serial port msp430 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F112 MSP430F112IDW SLAS256 PDF

    om02

    Abstract: 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F112 MSP430F112IDW
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256A – NOVEMBER 1999 – REVISED JANUARY 2000 D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultra-Low Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 250 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430F11x SLAS256A 16-Bit om02 20-PIN MSP430 MSP430F110 MSP430F110IDW MSP430F112 MSP430F112IDW PDF

    code bootstrap loader MSP430

    Abstract: msp430f112
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256B – NOVEMBER 1999 – REVISED JUNE 2000 D D D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultralow-Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 200 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430F11x SLAS256B 16-Bit MSP-FET430X110 MSP-PRGS430 MSP430FREETOOLS MSP430 code bootstrap loader MSP430 msp430f112 PDF

    SLAA116

    Abstract: No abstract text available
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256B – NOVEMBER 1999 – REVISED JUNE 2000 D D D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultralow-Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 200 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430F11x SLAS256B 16-Bit MSP4X110 MSP-PRGS430 MSP-US-TRF6900 MSP430FREETOOLS SLAA116 PDF

    RF sensor

    Abstract: OM02 optical SLAU049 OM01 optical msp430 pwm dc motor control on watchdog timer
    Text: MSP430F11x MIXED SIGNAL MICROCONTROLLER SLAS256B – NOVEMBER 1999 – REVISED JUNE 2000 D D D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultralow-Power Consumption Low Operation Current, 1.6 µA at 4 kHz, 2.2 V 200 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430F11x SLAS256B 16-Bit MSP4MSP-FET430X110 MSP-PRGS430 MSP-US-TRF6900 MSP430FREETOOLS RF sensor OM02 optical SLAU049 OM01 optical msp430 pwm dc motor control on watchdog timer PDF

    SLAS241C

    Abstract: om02 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121 MSP430F1101 SLAU049
    Text: MSP430x11x1 MIXED SIGNAL MICROCONTROLLER SLAS241C – SEPTEMBER 1999 – REVISED JUNE 2000 D D D D D D D D D Low Supply Voltage Range 1.8 V – 3.6 V Ultralow-Power Consumption Low Operation Current, 1.3 µA at 4 kHz, 2.2 V 160 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430x11x1 SLAS241C 16-Bit SLAS241C om02 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121 MSP430F1101 SLAU049 PDF

    boot loader code serial port msp430

    Abstract: om02 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121
    Text: MSP430x11x1 MIXED SIGNAL MICROCONTROLLER SLAS241B – SEPTEMBER 1999 – REVISED JANUARY 2000 D D D D D D D Low Supply Voltage Range 2.2 V – 3.6 V Ultra-Low Power Consumption Low Operation Current, 1.3 µA at 4 kHz, 2.2 V 160 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430x11x1 SLAS241B 16-Bit boot loader code serial port msp430 om02 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121 PDF

    om02

    Abstract: 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121
    Text: MSP430x11x1 MIXED SIGNAL MICROCONTROLLER SLAS241A – SEPTEMBER 1999 – REVISED NOVEMBER 1999 D D D D D D D Low Supply Voltage Range 2.2 V – 3.6 V Ultra-Low Power Consumption Low Operation Current, 1.3 µA at 4 kHz, 2.2 V 160 µA at 1 MHz, 2.2 V Five Power Saving Modes:


    Original     		MSP430x11x1 SLAS241A 16-Bit om02 20-PIN MSP430 MSP430C1111 MSP430C1111IDW MSP430C1121 MSP430F1101 MSP430F1121 PDF