AVR JTAGICE mkII
The JTAGICE mkII is a mid-range development tool for use with 8- and 32- bit AVR devices with On Chip Debug capability. JTAGICE mkII is used for source level debugging, NanoTrace (if supported by the device) and device programming.
JTAGICE mkII supports the following programming modes:
- SPI
- JTAG
- PDI
- aWire
- debugWIRE
- JTAG
- PDI
- aWire
AVR JTAGICE mkII 订购型号Ordering Code: ATJTAGICE2
| 技术资料下载Documents | |
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AVR067: JTAGICE mkII Communication Protocol(Application Note, 69 pages, revision D, updated 11/09) This document describes the communication protocol used between AVR Studio and JTAGICE mkII. |
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AVR1016: AVR Training QTouch Xplained(Application Note, 18 pages, revision A, updated 5/10) The purpose of this training is to get familiar with the Atmel QTouch Library 4.0 and how to use it in your own applications. |
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AVR1500: Xplain training - XMEGA Basics (Application Note, 16 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ basics, using the IO ports to show various concepts in four tasks. You will learn to use small code fragments, utilizing the XMEGA header files and some of the XMEGA features for more efficient and compact code. |
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AVR1501: Xplain training - XMEGA Timer/Counter(Application Note, 15 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ timers, PWM generation, High resolution Extension, Advanced Waveform extension and many other features of the high-end and very flexible XMEGA 16-bit Timer/Counters. |
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AVR1502: Xplain Training - Direct Memory Access Controller(Application Note, 10 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ Direct Memory Access Controller (DMAC). You will learn to perform simple memory transfers almost without using CPU time, and reading and writing to peripherals with hardly any CPU intervention. |
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AVR1503: Xplain training - XMEGA Programmable Multi Interrupt Controller(Application Note, 7 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ advanced Programmable Multi-level Interrupt Controller (PMIC) which allows control over interrupt priorities and scheduling of interrupts. |
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AVR1504: Xplain training - XMEGA Event System(Application Note, 15 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ Event System which allows inter-peripheral communication, enabling a change of state in one peripheral to automatically trigger actions in other peripherals, without any use of interrupts or CPU and DMA resources. |
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AVR1505: XMEGA training - ADC(Application Note, 11 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ ADC which has an optional gain stage and is capable of 12-bit resolution and 2 million samples per second (MSPS), single-ended or differential measurements, signed or unsigned results. |
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AVR1506: Xplain training - XMEGA clock system(Application Note, 12 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ clock system which supports a large number of clock sources, oscillators, PLL, prescalers, a calibration system and clock monitoring. More details of the XMEGA clock system are also available in AVR1003. |
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AVR1507: Xplain training - XMEGA Crypto Engines(Application Note, 11 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ powerful hardware support for encryption algorithms. Details of the mathematics behind the DES and AES algorithms are beyond the scope of this application note and will not be covered. |
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AVR1508: Xplain training - XMEGA DAC(Application Note, 11 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ Digital to Analog Converter (DAC) which is capable of 12-bit resolution and 1 million samples per second (MSPS). |
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AVR1509: Xplain training - Low Power(Application Note, 12 pages, revision A, updated 8/10) This Application Note will get you started with Atmel® AVR® XMEGA™ various sleep modes and software controlled clock gating which allow to tailor power consumption to the application's requirement. |
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AVR1510: Xplain training - XMEGA USART(Application Note, 10 pages, revision A, updated 8/10) This Application Note will get you started with using Atmel® AVR® XMEGA™ USART (Universal Synchronous Asynchronous Receiver Transmitter) in polling mode, interrupt mode and how to use the DMA Controller to transfer data without CPU interaction. |
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AVR1922: Xplain Board Controller Firmware(Application Note, 6 pages, revision A, updated 5/10) The Xplain board controller, an AT90USB1287, is in charge of some of the low-level tasks on boards in the Xplain series. The board controller improves usability of the main microcontroller, and adds features the main controller lacks, like USB. |
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AVR32917: Getting started with the picoPower Board (Application Note, 16 pages, revision A, updated 12/09) This application note describes the picoPower function of ATmega48PA, ATxmega32A4 and AT32UC3L064 and the picoPower Board which purpose is to get familiar with the general power-saving features of AVR microcontrollers. |
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Designing for Efficient Production with In-System Re-programmable Flash Microcontrollers(Article, 2 pages, updated 02/05) |
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AVR JTAGICE mkII On-Chip Debug System(Flyer, 2 pages, updated 02/04) |
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AVR JTAGICE mkII Quick Start Guide(User Guide, 4 pages, revision C, updated 07/06) |
AVR JTAGICE mkII 相关芯片
AT32AP7000 AT32AP7001 AT32AP7002 AT32UC3A0128 AT32UC3A0256 AT32UC3A0512
AT32UC3A1128 AT32UC3A1256 AT32UC3A1512 AT32UC3A3128 AT32UC3A3128S AT32UC3A3256
AT32UC3A3256S AT32UC3A364 AT32UC3A364S AT32UC3B0128 AT32UC3B0256 AT32UC3B0512
AT32UC3B064 AT32UC3B1128 AT32UC3B1256 AT32UC3B1512 AT32UC3B164 AT32UC3C0128C
AT32UC3C0256C AT32UC3C0512C AT32UC3C064C AT32UC3C1128C AT32UC3C1256C AT32UC3C1512C
AT32UC3C164C AT32UC3C2128C AT32UC3C2256C AT32UC3C2512C AT32UC3C264C AT32UC3L016
AT32UC3L032 AT32UC3L064 AT90CAN128 AT90CAN128 Automotive AT90CAN32 AT90CAN32 Automotive
AT90CAN64 AT90CAN64 Automotive AT90PWM1 AT90PWM2 AT90PWM216 AT90PWM2B
AT90PWM3 AT90PWM316 AT90PWM3B AT90PWM81 AT90USB1286 AT90USB1287
AT90USB162 AT90USB646 AT90USB647 AT90USB82 ATmega128 ATmega1280
ATmega1280R212 ATmega1280R231 ATmega1281 ATmega1281R212 ATmega1281R231 ATmega1284
ATmega1284P ATmega1284PR231 ATmega1284RZAP ATmega128A ATmega128RZAV ATmega128RZBV
ATmega16 ATmega162 ATmega164A ATmega164P ATmega164P Automotive ATmega164PA
ATmega165 ATmega165P ATmega165PA ATmega168 ATmega168 Automotive ATmega168A
ATmega168P ATmega168PA ATmega169 ATmega169A ATmega169P ATmega169P Automotive
ATmega169PA ATmega16A ATmega16HVA ATmega16HVB ATmega16M1 ATmega16U2
ATmega16U4 ATmega2560 ATmega2560R212 ATmega2560R231 ATmega2561 ATmega2561R212
ATmega2561R231 ATmega256RZAV ATmega256RZBV ATmega32 ATmega324A ATmega324P
ATmega324P Automotive ATmega324PA ATmega325 ATmega3250 ATmega3250A ATmega3250P
ATmega325A ATmega325P ATmega325PA ATmega328 ATmega328P ATmega328P Automotive
ATmega329 ATmega3290 ATmega3290A ATmega3290P ATmega329A ATmega329P
ATmega329PA ATmega32A ATmega32C1 Automotive ATmega32HVB ATmega32M1 ATmega32M1 Automotive
ATmega32U2 ATmega32U4 ATmega406 ATmega48 ATmega48 Automotive ATmega48A
ATmega48P ATmega48PA ATmega64 ATmega640 ATmega644 ATmega644A
ATmega644P ATmega644P Automotive ATmega644PA ATmega644PR231 ATmega644R212 ATmega645
ATmega6450 ATmega6450A ATmega6450P ATmega645A ATmega645P ATmega649
ATmega6490 ATmega6490A ATmega6490P ATmega649A ATmega649P ATmega64A
ATmega64C1 Automotive ATmega64M1 ATmega64M1 Automotive ATmega64RZAPV ATmega64RZAV ATmega88
ATmega88 Automotive ATmega88A ATmega88P ATmega88PA ATmega8U2 ATtiny13
ATtiny13A ATtiny167 ATtiny167 Automotive ATtiny2313 ATtiny2313A ATtiny24
ATtiny24 Automotive ATtiny24A ATtiny25 ATtiny25 Automotive ATtiny261 ATtiny261 Automotive
ATtiny261A ATtiny4313 ATtiny43U ATtiny44 ATtiny44 Automotive ATtiny44A
