ATXMEGA128B1 Datasheet, PDF(51/138 Page) ATMEL Corporation – 8/16-bit Atmel XMEGA B1 Microcontroller

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ATXMEGA128B1 Datasheet, PDF (51/138 Pages) ATMEL Corporation – 8/16-bit Atmel XMEGA B1 Microcontroller

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31. Programming and Debugging

31.1

Features

â¢ Programming

â External programming through PDI or JTAG interfaces

Minimal protocol overhead for fast operation

Built-in error detection and handling for reliable operation

â Boot loader support for programming through any communication interface

â¢ Debugging

â Nonintrusive, real-time, on-chip debug system

â No software or hardware resources required from device except pin connection

â Program flow control

Go, Stop, Reset, Step Into, Step Over, Step Out, Run-to-Cursor

â Unlimited number of user program breakpoints

â Unlimited number of user data breakpoints, break on:

Data location read, write, or both read and write

Data location content equal or not equal to a value

Data location content is greater or smaller than a value

Data location content is within or outside a range

â No limitation on device clock frequency

â¢ Program and Debug Interface (PDI)

â Two-pin interface for external programming and debugging

â Uses the Reset pin and a dedicated pin

â No I/O pins required during programming or debugging

â¢ JTAG interface

â Four-pin, IEEE Std. 1149.1 compliant interface for programming and debugging

â Boundary scan capabilities according to IEEE Std. 1149.1 (JTAG)

31.2

Overview

The Program and Debug Interface (PDI) is an Atmel proprietary interface for external programming and on-chip

debugging of a device.

The PDI supports fast programming of nonvolatile memory (NVM) spaces; flash, EEPOM, fuses, lock bits, and the user

signature row.

Debug is supported through an on-chip debug system that offers nonintrusive, real-time debug. It does not require any

software or hardware resources except for the device pin connection. Using the Atmel tool chain, it offers complete

program flow control and support for an unlimited number of program and complex data breakpoints. Application debug

can be done from a C or other high-level language source code level, as well as from an assembler and disassembler

level.

Programming and debugging can be done through two physical interfaces. The primary one is the PDI physical layer,

which is available on all devices. This is a two-pin interface that uses the Reset pin for the clock input (PDI_CLK) and one

other dedicated pin for data input and output (PDI_DATA). A JTAG interface is also available on most devices, and this

can be used for programming and debugging through the four-pin JTAG interface. The JTAG interface is IEEE Std.

1149.1 compliant, and supports boundary scan. Any external programmer or on-chip debugger/emulator can be directly

connected to either of these interfaces. Unless otherwise stated, all references to the PDI assume access through the

PDI physical layer.

XMEGA B1 [DATASHEET] 51

8330CâAVRâ07/2012

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