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    AVR1001: GETTING STARTED WITH THE XMEGA EVENT SYSTEM Search Results

    AVR1001: GETTING STARTED WITH THE XMEGA EVENT SYSTEM Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM4GQF15FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4GRF20FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP176-2020-0.40-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4KMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4MMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4NQF10FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation

    AVR1001: GETTING STARTED WITH THE XMEGA EVENT SYSTEM Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    AVR1001: Getting Started With the XMEGA Event System

    Abstract: Application Notes AVR1001 AVR1306 AVR1600 Rotary Sensors XMEGA Application Notes decoder quadrature
    Text: AVR1001: Getting Started With the XMEGA Event System Features • Flexible routing of peripheral events - 8 configurable event channels - Signal filtering • Ability to control peripherals independent of CPU • Quadrature decoding 8-bit Microcontrollers


    Original     		PDF AVR1001: 071A-AVR-02/08 AVR1001: Getting Started With the XMEGA Event System Application Notes AVR1001 AVR1306 AVR1600 Rotary Sensors XMEGA Application Notes decoder quadrature

    AVR1005: Getting started with XMEGA

    Abstract: Application Notes xmega 128 xmega 128 A1 xmega 16 A4 XMEGA Application Notes xmega 128 a3 AVR1005 AVR1302 xmega a3* pdi
    Text: AVR1005: Getting started with XMEGA Features • • • • • XMEGA vs. megaAVR XMEGA feature and peripherals Tool-chain - programming and debugging In-system Programming Hardware design considerations 1 Introduction 8-bit Microcontrollers Application Note


    Original     		PDF AVR1005: 8169B-AVR-11/09 AVR1005: Getting started with XMEGA Application Notes xmega 128 xmega 128 A1 xmega 16 A4 XMEGA Application Notes xmega 128 a3 AVR1005 AVR1302 xmega a3* pdi

    Counter

    Abstract: AVR1306 AVR1001 AVR1304 AVR1311 DIV1024 DIV256 AVR130 xmega ocd TCX0
    Text: AVR1306: Using the XMEGA Timer/Counter Features • True 16 bit operation • Double buffered timer period setting • 4 2 compare or capture channels per timer - 4 channels on each Timer 0 - 2 channels on each Timer 1 - Double buffered • 32 bit operation with 32 bit input capture by timer cascading


    Original     		PDF AVR1306: 16-bit 804nts 045A-AVR-02/08 Counter AVR1306 AVR1001 AVR1304 AVR1311 DIV1024 DIV256 AVR130 xmega ocd TCX0

    Atmel AVR XMEGA dma

    Abstract: xmega ADC AVR1001 AVR1301 sample code adc store avr XMEGA D AVR1305 AVR120 AVR121 AVR1304
    Text: AVR1300: Using the XMEGA ADC Features • • • • • • • • • • Up to 12 bit resolution Up to 2M samples per second Signed and unsigned mode Selectable gain Pipelined architecture Up to 4 virtual channels Result comparator Automatic calibration


    Original     		PDF AVR1300: 8032E-AVR-10/10 Atmel AVR XMEGA dma xmega ADC AVR1001 AVR1301 sample code adc store avr XMEGA D AVR1305 AVR120 AVR121 AVR1304

    AVR121

    Abstract: AVR1301 AVR1300 xmega ADC AVR1304 AVR1001 xmega 128 AVR120 XMega 256 Atmel AVR XMEGA dma
    Text: AVR1300: Using the XMEGA ADC Features • • • • • • • • • • Up to 12 bit resolution Up to 2M samples per second Signed and unsigned mode Selectable gain Pipelined architecture 4 virtual channels Result comparator Automatic calibration Internal connection to DAC output


    Original     		PDF AVR1300: 8032C-AVR-09/09 AVR121 AVR1301 AVR1300 xmega ADC AVR1304 AVR1001 xmega 128 AVR120 XMega 256 Atmel AVR XMEGA dma

    AVR1501

    Abstract: AVR1504 AVR1001 AVR1500 LED project using avr avr dac
    Text: AVR1504: Xplain training - XMEGA Event system Prerequisites • Required knowledge Basic knowledge of microcontrollers and the C programming language Completed AVR1500: Xplain training – XMEGA Basics Recommended to have finished AVR1501: Xplain training – XMEGA


    Original     		PDF AVR1504: AVR1500: AVR1501: 313A-AVR-06/10 AVR1501 AVR1504 AVR1001 AVR1500 LED project using avr avr dac

    AVR121

    Abstract: 8032d XMega 256 AVR1301 AVR120 xmega ADC AVR1300 AVR1304 sample code adc store avr XMEGA Application Notes
    Text: AVR1300: Using the XMEGA ADC Features • • • • • • • • • • Up to 12 bit resolution Up to 2M samples per second Signed and unsigned mode Selectable gain Pipelined architecture Up to 4 virtual channels Result comparator Automatic calibration


    Original     		PDF AVR1300: 8032D-AVR-02/10 AVR121 8032d XMega 256 AVR1301 AVR120 xmega ADC AVR1300 AVR1304 sample code adc store avr XMEGA Application Notes

    MC310 schematic

    Abstract: SOCKET TQFP100 tiny23 ATSTK504 ATSTK503 ATTINY44 AT32UC3A0512
    Text: AVR Microcontrollers ATMEL CORPORATION AVR® Microcontrollers: Product Line Reference December 2008 Customer Edition Table of Contents 1 AVR Product Family . 2


    Original     		PDF AT32UC3Bx AVR32 MC310 schematic SOCKET TQFP100 tiny23 ATSTK504 ATSTK503 ATTINY44 AT32UC3A0512