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Phyton PICE-AVR In-Circuit Emulator for the Atmel AVR Family |
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The PHY-PICE-AVR In-System Emulator consists of a "sandwich-style" palm-size header formed by three stacked-up boards:
The Main Board; The main board comes in several types allowing options in various speeds and memory size. To choose the correct main board for your PHY-PICE-AVR please choose the main board option link from either system contents or associated products that best suits your needs.
The POD; The pod board must be picked to compliment the choice of main board combined with the Atmel AVR Microcontroller you wish to emulate. For the range of Pod Boards available to choose from for your PHY-PICE-AVR please see the link for the Pod Board in associated products or system contents.
The Adapter; The adaptor board is the third board and connects the emulator to the target board. This must be chosen from a range of adaptors to suit the main and pod boards you want combined with the chip package that you wish to emulate. To choose your adaptor for your PHY-PICE-AVR please follow the links for the adaptor in either associated products or system contents.
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Summary of Main Features |
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- Real-time non-intrusive emulation of the Classic and Tiny AVR families up to 8 MHz
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Uses Atmel AVR emulation bond-out chips for accurate emulation
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Up to 256K of 16-bit words of program memory (varies for particular AVR derivatives)
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Up to 256K of data memory (varies for particular AVR derivatives)
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Finest external data memory mapping with one byte resolution
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Up to 256K true hardware breakpoints on code memory address access
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Up to 256K true hardware breakpoints on external data memory access (read, write, or both read and write)
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Four complex breakpoints and triggers
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16K frames deep by 120 bit wide real-time tracer with programmable filters
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Several modes of trace recording: synchronies, forward, reverse and dynamic
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"On-the-fly" access to the code memory, shadow memory, breakpoints, tracer and timer
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48-bit timer provides timing and clock frequency measurement with 0.1% accuracy
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Software programmable clock generator - from 1 KHz to 8 MHz with 0.5% accuracy
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Programmable regulator precisely auto-adjusts to the target's voltage level (1.2V to 5.5V) and allows working alone at 1.2V to 5.5V settable with +/-20 mV accuracy
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8 probe inputs and 4 trigger outputs
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High-speed host link via 115 KBPS serial PC port opto-isolated for extra protection
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Tiny tool - 3-1/2" x 2-1/2" x 2" (95 x 65 x 50 mm)
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Windows-based integrated development environment Project-AVR that includes an editor, a project manager, the MCA-AVR macro assembler and the PDS-AVR software simulator
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Source level debugging for the assemblers and C compilers from Atmel, IAR, ImageCrafts, HP InfoTech and others, as well for the Phyton MCA-AVR macro assembler
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Project-level support for C compilers from IAR and ImageCraft, and for the Phyton MCA-AVR macro assembler - editing, compiling, debugging in one development IDE
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Embedded C-like script language for automated testing and custom commands
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Device Support (by family) |
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| This product supports devices from the families listed below: |
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Atmel (Microchip):
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AT90S AVR - FLASH Microcontroller Family
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ATtiny AVR - FLASH Microcontroller Family
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Please note:
Not all devices may be supported within a family.
Please see the Detailed Device Support List for a list of all devices which the product supports.
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