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    MICROPROCESSORS AND INTERFACING PROGRAMMING Search Results

    MICROPROCESSORS AND INTERFACING PROGRAMMING Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MG80C186-12 Rochester Electronics LLC Microprocessor Visit Rochester Electronics LLC Buy
    TB67S539FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=2/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S141AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Phase Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S149AFTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Unipolar Type/Vout(V)=84/Iout(A)=3/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation
    TB67S549FTG Toshiba Electronic Devices & Storage Corporation Stepping Motor Driver/Bipolar Type/Vout(V)=40/Iout(A)=1.5/Clock Interface Visit Toshiba Electronic Devices & Storage Corporation

    MICROPROCESSORS AND INTERFACING PROGRAMMING Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    8086 interrupts application

    Abstract: intel 8086 microprocessor 8086 minimum mode and maximum mode 8086 microprocessor Handshaking 8086 programming manual minimum mode configuration of 8086 8086 microprocessor timing diagram of 8086 maximum mode latch used for 8086 8086 timing diagram
    Text: APPLICATION NOTE INTERFACING THE ISCC TO THE 68000 AND 8086 INTRODUCTION The ISCC™ uses its flexible bus to interface with a variety of microprocessors and microcontrollers; included are the 68000 and 8086. The Z16C35 ISCC is a Superintegration form of the


    Original     		PDF Z16C35 85C30/80C30 680X0 8086 interrupts application intel 8086 microprocessor 8086 minimum mode and maximum mode 8086 microprocessor Handshaking 8086 programming manual minimum mode configuration of 8086 8086 microprocessor timing diagram of 8086 maximum mode latch used for 8086 8086 timing diagram

    Untitled

    Abstract: No abstract text available
    Text: SL- 11 USB Cont rol l er Technical Reference OVERVIEW FEATURES The SL-11 USB Controller is a single chip USB peripheral device solution that enables interfacing to devices such as microprocessors and scanners. The SL11 USB Controller incorporates USB Serial Interface


    Original     		PDF SL-11 SL11DVK WIN95 SL11-USB

    sk 8085

    Abstract: z80-pio Interfacing Keyboard 8085 Z80P10 keyboard controller 8048 COP420 NM93C06 NSC800 UPS for mobile switching centre z80pio
    Text: Fairchild Application Note 338 Masood Alavi June 1983 This application note outlines various methods of interfacing an NM93C06 with the COPS family of microcontrollers and other microprocessors. Figures 1, 2, 3, 4, 5 and Figure 6 show pin connections involved in such interfaces. Figure 7


    Original     		PDF NM93C06 NM93C06; NM93C06. an005286 sk 8085 z80-pio Interfacing Keyboard 8085 Z80P10 keyboard controller 8048 COP420 NSC800 UPS for mobile switching centre z80pio

    nsc810

    Abstract: MX 0841 58167 Transistor TL 31 AC pulse generator 101d NSC888 AN353 AC VOLTS 110 INPUT USED LM317 SCHEMATIC tl 0841 Two Digit bcd counter diagram
    Text: National Semiconductor Application Note 353 Milt Schwartz March 1991 The MM58167B is a real-time 24-hour format clock with input output structure and control lines that facilitate interfacing to microprocessors It provides a reliable source of calendar data from milliseconds through months as well as 6


    Original     		PDF MM58167B 24-hour MM58167B nsc810 MX 0841 58167 Transistor TL 31 AC pulse generator 101d NSC888 AN353 AC VOLTS 110 INPUT USED LM317 SCHEMATIC tl 0841 Two Digit bcd counter diagram

    X40A-A-001-xx

    Abstract: TMPR39XX
    Text: S1D13A05 LCD/USB Companion Chip Interfacing to the Toshiba MIPS TMPR3905/3912 Microprocessors Document Number: X40A-G-002-02 Copyright 2002 - 2009 Epson Research and Development, Inc. All Rights Reserved. Information in this document is subject to change without notice. You may download and use this document, but only for your own use in


    Original     		PDF S1D13A05 TMPR3905/3912 X40A-G-002-02 TMPR3905/12 S1D13A05 X40A-A-001-xx TMPR39XX

    S1D13A04

    Abstract: X37A-A-001-xx Toshiba R3900
    Text: S1D13A04 LCD/USB Companion Chip Interfacing to the Toshiba MIPS TMPR3905/3912 Microprocessors Document Number: X37A-G-002-02 Copyright 2001 - 2009 Epson Research and Development, Inc. All Rights Reserved. Information in this document is subject to change without notice. You may download and use this document, but only for your own use in


    Original     		PDF S1D13A04 TMPR3905/3912 X37A-G-002-02 TMPR3905/12 S1D13A04 X37A-A-001-xx Toshiba R3900

    VR4102

    Abstract: S1D13806 transistor NEC D 587 x28b VR4100 microprocessors interfacing NEC V20 hardware add21 Epson M-32T
    Text: S1D13806 Embedded Memory Display Controller Interfacing to the NEC VR4102/VR4111 Microprocessors Document Number: X28B-G-007-04 Copyright 2001 Epson Research and Development, Inc. All Rights Reserved. Information in this document is subject to change without notice. You may download and use this document, but only for your own use in


    Original     		PDF S1D13806 VR4102/VR4111TM X28B-G-007-04 VR4102/VR4111) S1D13806 VR4102 transistor NEC D 587 x28b VR4100 microprocessors interfacing NEC V20 hardware add21 Epson M-32T

    R3900

    Abstract: Epson Electronics America toshiba R3900 microprocessor X31B-G-002-03
    Text: S1D13706 Embedded Memory LCD Controller Interfacing to the Toshiba MIPS TMPR3905/3912 Microprocessors Document Number: X31B-G-002-03 Copyright 2001 - 2009 Epson Research and Development, Inc. All Rights Reserved. Information in this document is subject to change without notice. You may download and use this document, but only for your own use in


    Original     		PDF S1D13706 TMPR3905/3912 X31B-G-002-03 TMPR3905/12 S1D13706 R3900 Epson Electronics America toshiba R3900 microprocessor X31B-G-002-03

    Untitled

    Abstract: No abstract text available
    Text: 19-1236; Rev 0; 6/97 KIT ATION EVALU E L B AVAILA Low -Pow e r, 9 0 M sps, Dua l 6 -Bit ADC The MAX1003 operates with +5V analog and +3.3V digital supplies for easy interfacing to +3.3V-logic-compatible digital signal processors and microprocessors. It comes in a 36-pin SSOP package.


    Original     		PDF MAX1003 36-pin 90Msps 350mW 20MHz 50MHz 55MHz

    Untitled

    Abstract: No abstract text available
    Text: S1D13705 Embedded Memory LCD Controller Interfacing to the Motorola ‘Dragonball’ Family of Microprocessors Document Number: X27A-G-007-05 Copyright 2001 - 2009 Epson Research and Development, Inc. All Rights Reserved. Information in this document is subject to change without notice. You may download and use this document, but only for your own use in


    Original     		PDF S1D13705 X27A-G-007-05 S1D13705

    sk 8085

    Abstract: 8085 opcode sheet Z80-P10 8085 opcode Z80-PIO opcode sheet 8085 8085 mp opcode z80pio keyboard controller 8048 8085 mp opcode data sheet
    Text: National Semiconductor Application Note 338 Masood Alavi June 1983 This application note outlines various methods of interfacing an NM93C06 with the COPSTM family of microcontrollers and other microprocessors Figures 1–6 show pin connections involved in such interfaces Figure 7 shows how parallel data can be converted into a serial format to be inputted to the NM93C06 as well as how serial data outputted


    Original     		PDF NM93C06 NM93C06 sk 8085 8085 opcode sheet Z80-P10 8085 opcode Z80-PIO opcode sheet 8085 8085 mp opcode z80pio keyboard controller 8048 8085 mp opcode data sheet

    8085 intel microprocessor block diagram

    Abstract: INSTRUCTION SET motorola 6802 motorola 6802 intel 8085 microprocessor 8085 block diagram intel 8051 and 68HC11 cpu 6802 INSTRUCTION SET 8085 difference between intel 8085 and motorola 6800 motorola 6802 cpu
    Text: Application Note MSAN-145 How to Interface Mitel Components to Parallel Bus CPUs  ISSUE 1 TABLE OF CONTENTS • Introduction Mitel Semiconductor manufactures a wide variety of components oriented towards microprocessor applications. Obviously, there are many different


    Original     		PDF MSAN-145 MC68HC11 Z80/Z8400 Z8002/Z280 uni45 MT8920B MT8920B 8085 intel microprocessor block diagram INSTRUCTION SET motorola 6802 motorola 6802 intel 8085 microprocessor 8085 block diagram intel 8051 and 68HC11 cpu 6802 INSTRUCTION SET 8085 difference between intel 8085 and motorola 6800 motorola 6802 cpu

    8085 microprocessor

    Abstract: 8085 microprocessor Datasheet intel 8085 ic intel 8085 intel 8085 microprocessor interfacing of memory devices with 8085 8085 intel microprocessor block diagram datasheet 6802 processor motorola motorola 6802 cpu Interfacing 8085
    Text: Application Note MSAN-145 How to Interface Mitel Components to Parallel Bus CPUs  ISSUE 1 TABLE OF CONTENTS • Introduction Mitel Semiconductor manufactures a wide variety of components oriented towards microprocessor applications. Obviously, there are many different


    Original     		PDF MSAN-145 MC68HC11 Z80/Z8400 Z8002/Z280 MT8920B MT8920B AD0-AD15 8085 microprocessor 8085 microprocessor Datasheet intel 8085 ic intel 8085 intel 8085 microprocessor interfacing of memory devices with 8085 8085 intel microprocessor block diagram datasheet 6802 processor motorola motorola 6802 cpu Interfacing 8085

    motorola 6800 8bit hardware architecture

    Abstract: INSTRUCTION SET motorola 6802 8085 microprocessor Datasheet motorola 6800 cpu 8284 intel microprocessor architecture intel 8085 internal structure cpu 6802 INSTRUCTION SET motorola 6800 Intel 8085 8085 microprocessor
    Text: Application Note MSAN-145 How to Interface Zarlink Components to Parallel Bus CPUs ISSUE 1 TABLE OF CONTENTS • Introduction Zarlink Semiconductor manufactures a wide variety of components oriented towards microprocessor applications. Obviously, there are many different


    Original     		PDF MSAN-145 motorola 6800 8bit hardware architecture INSTRUCTION SET motorola 6802 8085 microprocessor Datasheet motorola 6800 cpu 8284 intel microprocessor architecture intel 8085 internal structure cpu 6802 INSTRUCTION SET motorola 6800 Intel 8085 8085 microprocessor

    difference between intel 8085 and motorola 6800

    Abstract: difference between intel 8086 and zilog z80 interfacing 8259 with 8086 interfacing of 8259 devices with 8085 difference between 8086 and zilog z80 intel 8085 microprocessor memory interfacing 8085 with 8086 motorola 6809 intel 8085 motorola 68000 architecture
    Text: Application Note MSAN-145 How to Interface Zarlink Components to Parallel Bus CPUs ISSUE 1 TABLE OF CONTENTS • Introduction Zarlink Semiconductor manufactures a wide variety of components oriented towards microprocessor applications. Obviously, there are many different


    Original     		PDF MSAN-145 difference between intel 8085 and motorola 6800 difference between intel 8086 and zilog z80 interfacing 8259 with 8086 interfacing of 8259 devices with 8085 difference between 8086 and zilog z80 intel 8085 microprocessor memory interfacing 8085 with 8086 motorola 6809 intel 8085 motorola 68000 architecture

    8085 intel microprocessor block diagram

    Abstract: intel 8085 interfacing of memory devices with 8085 8085 microprocessor motorola 6800 cpu 8085 microprocessor Architecture Diagram interfacing 8259 with 8086 8284 intel microprocessor architecture Interfacing 8085 cpu 6802
    Text: Application Note MSAN-145 How to Interface Zarlink Components to Parallel Bus CPUs ISSUE 1 TABLE OF CONTENTS • Introduction Zarlink Semiconductor manufactures a wide variety of components oriented towards microprocessor applications. Obviously, there are many different


    Original     		PDF MSAN-145 8085 intel microprocessor block diagram intel 8085 interfacing of memory devices with 8085 8085 microprocessor motorola 6800 cpu 8085 microprocessor Architecture Diagram interfacing 8259 with 8086 8284 intel microprocessor architecture Interfacing 8085 cpu 6802

    XC6200

    Abstract: XC6216 wait state generator tms320c50 PIN CONFIGURATION TMS320C50
    Text:  Interfacing XC6200 To Microprocessors TMS320C50 Example September 96 Application Note by Bill Wilkie Summary The issues involved in interfacing XC6200 family members to microprocessors are discussed. An example using the Motorola 68020 processor is described.


    Original     		PDF XC6200 TMS320C50 XC6200 XC6216 wait state generator tms320c50 PIN CONFIGURATION

    XC6216

    Abstract: XC6200 tms320c50 application TMS320C50
    Text: APPLICATION NOTE Interfacing XC6200 To Microprocessors TMS320C50 Example  XAPP 064 October 9, 1996 (Version 1.1) Application Note by Bill Wilkie Summary The issues involved in interfacing XC6200 family members to microprocessors are discussed. An example


    Original     		PDF XC6200 TMS320C50 XC6200 XC6216 tms320c50 application

    XC6200

    Abstract: XC6216 MC68020
    Text:  Interfacing XC6200 To Microprocessors MC68020 Example September 96 Application Note by Bill Wilkie Summary The issues involved in interfacing XC6200 family members to microprocessors are discussed. An example using the Motorola 68020 processor is described.


    Original     		PDF XC6200 MC68020 XC6200 XC6216

    XC6200

    Abstract: XC6216 MC68020
    Text: APPLICATION NOTE Interfacing XC6200 To Microprocessors MC68020 Example  XAPP 063 October 9, 1996 (Version 1.1) Application Note by Bill Wilkie Summary The issues involved in interfacing XC6200 family members to microprocessors are discussed. An example


    Original     		PDF XC6200 MC68020 XC6200 XC6216

    instruction set of TMS320C5x

    Abstract: Architecture of TMS320C4X small signal transistor MOTOROLA DATABOOK D630 diagram PPC403GCX arm microprocessor data sheet block diagram of of TMS320C4X TMS320C5x architecture diagram INSTRUCTION SET of TMS320C4X IBM PowerPC Processor 350 Mips
    Text: E Fast Boot Block CPU Design Guide August 1998 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


    Original     		PDF AP-655 AP-617 instruction set of TMS320C5x Architecture of TMS320C4X small signal transistor MOTOROLA DATABOOK D630 diagram PPC403GCX arm microprocessor data sheet block diagram of of TMS320C4X TMS320C5x architecture diagram INSTRUCTION SET of TMS320C4X IBM PowerPC Processor 350 Mips

    UC3843 spice model

    Abstract: project on water level control using ic 7400 mosfet cross reference mhw612 mc146805g MC88110 MC68020 Minimum System Configuration smart UPS APC CIRCUIT diagram ASSIST09 mhw613
    Text: BR101/D REV 28 Technical and Applications Literature Selector Guide and Cross References Effective Date 1st Half 1998 Semiconductor Products Sector Technical and Applications Literature Selector Guide and Cross References ALExIS, Buffalo, Bullet-Proof, BurstRAM, CDA, CMTL, Ceff-PGA, Customer Defined Array, DECAL, Designerís, DIMMIC,


    Original     		PDF BR101/D ECL300, UC3843 spice model project on water level control using ic 7400 mosfet cross reference mhw612 mc146805g MC88110 MC68020 Minimum System Configuration smart UPS APC CIRCUIT diagram ASSIST09 mhw613

    sk 8085

    Abstract: NM93C06A an-338
    Text: AN-338 Designing with the NM93C06 A Versatile Simple to Use E2 PROM National Semiconductor Application Note 338 Masood Alavi This application note outlines various methods of interfacing an NM93C06 with the COPS family of microcontrollers and other microprocessors. Figures 1 -6 show pin connec­


    OCR Scan     		PDF AN-338 NM93C06 NM93C06; NM93C06. sk 8085 NM93C06A an-338

    27c202

    Abstract: 271122 at3 block diagram
    Text: Ä IW M K g i OMIF@ RQilMO<8fflO M27C202 Fast Word-Wide 256K (16K x 16 EPROM Military • High Speed — 90 ns Access Time Maximizes CPU Performance ■ Rapid Programming — 4 Second Throughput for Automated Manufacturing ■ Low-Power CHMOS* — 100 mA Active, 15 mA Standby


    OCR Scan     		PDF M27C202 Source/16 144-bit, 27c202 271122 at3 block diagram