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avrdude.conf
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avrdude.conf
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# $Id: avrdude.conf.in 1236 2013-09-16 19:40:15Z joerg_wunsch $ -*- text -*-
#
# AVRDUDE Configuration File
#
# This file contains configuration data used by AVRDUDE which describes
# the programming hardware pinouts and also provides part definitions.
# AVRDUDE's "-C" command line option specifies the location of the
# configuration file. The "-c" option names the programmer configuration
# which must match one of the entry's "id" parameter. The "-p" option
# identifies which part AVRDUDE is going to be programming and must match
# one of the parts' "id" parameter.
#
# Possible entry formats are:
#
# programmer
# parent <id> # optional parent
# id = <id1> [, <id2> [, <id3>] ...] ; # <idN> are quoted strings
# desc = <description> ; # quoted string
# type = <type>; # programmer type, quoted string
# # supported programmer types can be listed by "-c ?type"
# connection_type = parallel | serial | usb
# baudrate = <num> ; # baudrate for avr910-programmer
# vcc = <num1> [, <num2> ... ] ; # pin number(s)
# buff = <num1> [, <num2> ... ] ; # pin number(s)
# reset = <num> ; # pin number
# sck = <num> ; # pin number
# mosi = <num> ; # pin number
# miso = <num> ; # pin number
# errled = <num> ; # pin number
# rdyled = <num> ; # pin number
# pgmled = <num> ; # pin number
# vfyled = <num> ; # pin number
# usbvid = <hexnum>; # USB VID (Vendor ID)
# usbpid = <hexnum>; # USB PID (Product ID)
# usbdev = <interface>; # USB interface or other device info
# usbvendor = <vendorname>; # USB Vendor Name
# usbproduct = <productname>; # USB Product Name
# usbsn = <serialno>; # USB Serial Number
#
# To invert a bit, use = ~ <num>, the spaces are important.
# For a pin list all pins must be inverted.
# A single pin can be specified as usual = ~ <num>, for lists
# specify it as follows = ~ ( <num> [, <num2> ... ] ) .
# ;
#
# part
# id = <id> ; # quoted string
# desc = <description> ; # quoted string
# has_jtag = <yes/no> ; # part has JTAG i/f
# has_debugwire = <yes/no> ; # part has debugWire i/f
# has_pdi = <yes/no> ; # part has PDI i/f
# has_tpi = <yes/no> ; # part has TPI i/f
# devicecode = <num> ; # deprecated, use stk500_devcode
# stk500_devcode = <num> ; # numeric
# avr910_devcode = <num> ; # numeric
# signature = <num> <num> <num> ; # signature bytes
# chip_erase_delay = <num> ; # micro-seconds
# reset = dedicated | io;
# retry_pulse = reset | sck;
# pgm_enable = <instruction format> ;
# chip_erase = <instruction format> ;
# chip_erase_delay = <num> ; # chip erase delay (us)
# # STK500 parameters (parallel programming IO lines)
# pagel = <num> ; # pin name in hex, i.e., 0xD7
# bs2 = <num> ; # pin name in hex, i.e., 0xA0
# serial = <yes/no> ; # can use serial downloading
# parallel = <yes/no/pseudo>; # can use par. programming
# # STK500v2 parameters, to be taken from Atmel's XML files
# timeout = <num> ;
# stabdelay = <num> ;
# cmdexedelay = <num> ;
# synchloops = <num> ;
# bytedelay = <num> ;
# pollvalue = <num> ;
# pollindex = <num> ;
# predelay = <num> ;
# postdelay = <num> ;
# pollmethod = <num> ;
# mode = <num> ;
# delay = <num> ;
# blocksize = <num> ;
# readsize = <num> ;
# hvspcmdexedelay = <num> ;
# # STK500v2 HV programming parameters, from XML
# pp_controlstack = <num>, <num>, ...; # PP only
# hvsp_controlstack = <num>, <num>, ...; # HVSP only
# hventerstabdelay = <num>;
# progmodedelay = <num>; # PP only
# latchcycles = <num>;
# togglevtg = <num>;
# poweroffdelay = <num>;
# resetdelayms = <num>;
# resetdelayus = <num>;
# hvleavestabdelay = <num>;
# resetdelay = <num>;
# synchcycles = <num>; # HVSP only
# chiperasepulsewidth = <num>; # PP only
# chiperasepolltimeout = <num>;
# chiperasetime = <num>; # HVSP only
# programfusepulsewidth = <num>; # PP only
# programfusepolltimeout = <num>;
# programlockpulsewidth = <num>; # PP only
# programlockpolltimeout = <num>;
# # JTAG ICE mkII parameters, also from XML files
# allowfullpagebitstream = <yes/no> ;
# enablepageprogramming = <yes/no> ;
# idr = <num> ; # IO addr of IDR (OCD) reg.
# rampz = <num> ; # IO addr of RAMPZ reg.
# spmcr = <num> ; # mem addr of SPMC[S]R reg.
# eecr = <num> ; # mem addr of EECR reg.
# # (only when != 0x3c)
# is_at90s1200 = <yes/no> ; # AT90S1200 part
# is_avr32 = <yes/no> ; # AVR32 part
#
# memory <memtype>
# paged = <yes/no> ; # yes / no
# size = <num> ; # bytes
# page_size = <num> ; # bytes
# num_pages = <num> ; # numeric
# min_write_delay = <num> ; # micro-seconds
# max_write_delay = <num> ; # micro-seconds
# readback_p1 = <num> ; # byte value
# readback_p2 = <num> ; # byte value
# pwroff_after_write = <yes/no> ; # yes / no
# read = <instruction format> ;
# write = <instruction format> ;
# read_lo = <instruction format> ;
# read_hi = <instruction format> ;
# write_lo = <instruction format> ;
# write_hi = <instruction format> ;
# loadpage_lo = <instruction format> ;
# loadpage_hi = <instruction format> ;
# writepage = <instruction format> ;
# ;
# ;
#
# If any of the above parameters are not specified, the default value
# of 0 is used for numerics or the empty string ("") for string
# values. If a required parameter is left empty, AVRDUDE will
# complain.
#
# Parts can also inherit parameters from previously defined parts
# using the following syntax. In this case specified integer and
# string values override parameter values from the parent part. New
# memory definitions are added to the definitions inherited from the
# parent.
#
# part parent <id> # quoted string
# id = <id> ; # quoted string
# <any set of other parameters from the list above>
# ;
#
# NOTES:
# * 'devicecode' is the device code used by the STK500 (see codes
# listed below)
# * Not all memory types will implement all instructions.
# * AVR Fuse bits and Lock bits are implemented as a type of memory.
# * Example memory types are:
# "flash", "eeprom", "fuse", "lfuse" (low fuse), "hfuse" (high
# fuse), "signature", "calibration", "lock"
# * The memory type specified on the avrdude command line must match
# one of the memory types defined for the specified chip.
# * The pwroff_after_write flag causes avrdude to attempt to
# power the device off and back on after an unsuccessful write to
# the affected memory area if VCC programmer pins are defined. If
# VCC pins are not defined for the programmer, a message
# indicating that the device needs a power-cycle is printed out.
# This flag was added to work around a problem with the
# at90s4433/2333's; see the at90s4433 errata at:
#
# http://www.atmel.com/dyn/resources/prod_documents/doc1280.pdf
#
# INSTRUCTION FORMATS
#
# Instruction formats are specified as a comma separated list of
# string values containing information (bit specifiers) about each
# of the 32 bits of the instruction. Bit specifiers may be one of
# the following formats:
#
# '1' = the bit is always set on input as well as output
#
# '0' = the bit is always clear on input as well as output
#
# 'x' = the bit is ignored on input and output
#
# 'a' = the bit is an address bit, the bit-number matches this bit
# specifier's position within the current instruction byte
#
# 'aN' = the bit is the Nth address bit, bit-number = N, i.e., a12
# is address bit 12 on input, a0 is address bit 0.
#
# 'i' = the bit is an input data bit
#
# 'o' = the bit is an output data bit
#
# Each instruction must be composed of 32 bit specifiers. The
# instruction specification closely follows the instruction data
# provided in Atmel's data sheets for their parts.
#
# See below for some examples.
#
#
# The following are STK500 part device codes to use for the
# "devicecode" field of the part. These came from Atmel's software
# section avr061.zip which accompanies the application note
# AVR061 available from:
#
# http://www.atmel.com/dyn/resources/prod_documents/doc2525.pdf
#
#define ATTINY10 0x10 /* the _old_ one that never existed! */
#define ATTINY11 0x11
#define ATTINY12 0x12
#define ATTINY15 0x13
#define ATTINY13 0x14
#define ATTINY22 0x20
#define ATTINY26 0x21
#define ATTINY28 0x22
#define ATTINY2313 0x23
#define AT90S1200 0x33
#define AT90S2313 0x40
#define AT90S2323 0x41
#define AT90S2333 0x42
#define AT90S2343 0x43
#define AT90S4414 0x50
#define AT90S4433 0x51
#define AT90S4434 0x52
#define ATMEGA48 0x59
#define AT90S8515 0x60
#define AT90S8535 0x61
#define AT90C8534 0x62
#define ATMEGA8515 0x63
#define ATMEGA8535 0x64
#define ATMEGA8 0x70
#define ATMEGA88 0x73
#define ATMEGA168 0x86
#define ATMEGA161 0x80
#define ATMEGA163 0x81
#define ATMEGA16 0x82
#define ATMEGA162 0x83
#define ATMEGA169 0x84
#define ATMEGA323 0x90
#define ATMEGA32 0x91
#define ATMEGA64 0xA0
#define ATMEGA103 0xB1
#define ATMEGA128 0xB2
#define AT90CAN128 0xB3
#define AT90CAN64 0xB3
#define AT90CAN32 0xB3
#define AT86RF401 0xD0
#define AT89START 0xE0
#define AT89S51 0xE0
#define AT89S52 0xE1
# The following table lists the devices in the original AVR910
# appnote:
# |Device |Signature | Code |
# +-------+----------+------+
# |tiny12 | 1E 90 05 | 0x55 |
# |tiny15 | 1E 90 06 | 0x56 |
# | | | |
# | S1200 | 1E 90 01 | 0x13 |
# | | | |
# | S2313 | 1E 91 01 | 0x20 |
# | S2323 | 1E 91 02 | 0x48 |
# | S2333 | 1E 91 05 | 0x34 |
# | S2343 | 1E 91 03 | 0x4C |
# | | | |
# | S4414 | 1E 92 01 | 0x28 |
# | S4433 | 1E 92 03 | 0x30 |
# | S4434 | 1E 92 02 | 0x6C |
# | | | |
# | S8515 | 1E 93 01 | 0x38 |
# | S8535 | 1E 93 03 | 0x68 |
# | | | |
# |mega32 | 1E 95 01 | 0x72 |
# |mega83 | 1E 93 05 | 0x65 |
# |mega103| 1E 97 01 | 0x41 |
# |mega161| 1E 94 01 | 0x60 |
# |mega163| 1E 94 02 | 0x64 |
# Appnote AVR109 also has a table of AVR910 device codes, which
# lists:
# dev avr910 signature
# ATmega8 0x77 0x1E 0x93 0x07
# ATmega8515 0x3B 0x1E 0x93 0x06
# ATmega8535 0x6A 0x1E 0x93 0x08
# ATmega16 0x75 0x1E 0x94 0x03
# ATmega162 0x63 0x1E 0x94 0x04
# ATmega163 0x66 0x1E 0x94 0x02
# ATmega169 0x79 0x1E 0x94 0x05
# ATmega32 0x7F 0x1E 0x95 0x02
# ATmega323 0x73 0x1E 0x95 0x01
# ATmega64 0x46 0x1E 0x96 0x02
# ATmega128 0x44 0x1E 0x97 0x02
#
# These codes refer to "BOOT" device codes which are apparently
# different than standard device codes, for whatever reasons
# (often one above the standard code).
# There are several extended versions of AVR910 implementations around
# in the Internet. These add the following codes (only devices that
# actually exist are listed):
# ATmega8515 0x3A
# ATmega128 0x43
# ATmega64 0x45
# ATtiny26 0x5E
# ATmega8535 0x69
# ATmega32 0x72
# ATmega16 0x74
# ATmega8 0x76
# ATmega169 0x78
#
# Overall avrdude defaults; suitable for ~/.avrduderc
#
default_parallel = "lpt1";
default_serial = "com1";
default_bitclock = 5;
# Turn off safemode by default
#default_safemode = no;
#
# PROGRAMMER DEFINITIONS
#
# http://wiring.org.co/
# Basically STK500v2 protocol, with some glue to trigger the
# bootloader.
programmer
id = "wiring";
desc = "Wiring";
type = "wiring";
connection_type = serial;
;
programmer
id = "arduino";
desc = "Arduino";
type = "arduino";
connection_type = serial;
;
# this will interface with the chips on these programmers:
#
# http://real.kiev.ua/old/avreal/en/adapters
# http://www.amontec.com/jtagkey.shtml, jtagkey-tiny.shtml
# http://www.olimex.com/dev/arm-usb-ocd.html, arm-usb-tiny.html
# http://www.ethernut.de/en/hardware/turtelizer/index.html
# http://elk.informatik.fh-augsburg.de/hhweb/doc/openocd/usbjtag/usbjtag.html
# http://dangerousprototypes.com/docs/FT2232_breakout_board
# http://www.ftdichip.com/Products/Modules/DLPModules.htm,DLP-2232*,DLP-USB1232H
# http://flashrom.org/FT2232SPI_Programmer
#
# The drivers will look for a specific device and use the first one found.
# If you have multiple devices, then look for unique information (like SN)
# And fill that in here.
#
# Note that the pin numbers for the main ISP signals (reset, sck,
# mosi, miso) are fixed and cannot be changed, since they must match
# the way the Multi-Protocol Synchronous Serial Engine (MPSSE) of
# these FTDI ICs has been designed.
programmer
id = "avrftdi";
desc = "FT2232D based generic programmer";
type = "avrftdi";
connection_type = usb;
usbvid = 0x0403;
usbpid = 0x6010;
usbvendor = "";
usbproduct = "";
usbdev = "A";
usbsn = "";
#ISP-signals - lower ADBUS-Nibble (default)
reset = 3;
sck = 0;
mosi = 1;
miso = 2;
#LED SIGNALs - higher ADBUS-Nibble
# errled = 4;
# rdyled = 5;
# pgmled = 6;
# vfyled = 7;
#Buffer Signal - ACBUS - Nibble
# buff = 8;
;
# This is an implementation of the above with a buffer IC (74AC244) and
# 4 LEDs directly attached, all active low.
programmer
id = "2232HIO";
desc = "FT2232H based generic programmer";
type = "avrftdi";
connection_type = usb;
usbvid = 0x0403;
# Note: This PID is reserved for generic H devices and
# should be programmed into the EEPROM
# usbpid = 0x8A48;
usbpid = 0x6010;
usbdev = "A";
usbvendor = "";
usbproduct = "";
usbsn = "";
#ISP-signals
reset = 3;
sck = 0;
mosi = 1;
miso = 2;
buff = ~4;
#LED SIGNALs
errled = ~ 11;
rdyled = ~ 14;
pgmled = ~ 13;
vfyled = ~ 12;
;
#The FT4232H can be treated as FT2232H, but it has a different USB
#device ID of 0x6011.
programmer parent "avrftdi"
id = "4232h";
desc = "FT4232H based generic programmer";
usbpid = 0x6011;
;
programmer
id = "jtagkey";
desc = "Amontec JTAGKey, JTAGKey-Tiny and JTAGKey2";
type = "avrftdi";
connection_type = usb;
usbvid = 0x0403;
# Note: This PID is used in all JTAGKey variants
usbpid = 0xCFF8;
usbdev = "A";
usbvendor = "";
usbproduct = "";
usbsn = "";
#ISP-signals => 20 - Pin connector on JTAGKey
reset = 3; # TMS 7 violet
sck = 0; # TCK 9 white
mosi = 1; # TDI 5 green
miso = 2; # TDO 13 orange
buff = ~4;
# VTG VREF 1 brown with red tip
# GND GND 20 black
# The colors are on the 20 pin breakout cable
# from Amontec
;
# On the adapter you can read "O-Link". On the PCB is printed "OpenJTAG v3.1"
# You can find it as "OpenJTAG ARM JTAG USB" in the internet.
# (But there are also several projects called Open JTAG, eg.
# http://www.openjtag.org, which are completely different.)
# http://www.100ask.net/shop/english.html (website seems to be outdated)
# http://item.taobao.com/item.htm?id=1559277013
# http://www.micro4you.com/store/openjtag-arm-jtag-usb.html (schematics!)
# some other sources which call it O-Link
# http://www.andahammer.com/olink/
# http://www.developmentboard.net/31-o-link-debugger.html
# http://armwerks.com/catalog/o-link-debugger-copy/
# or just have a look at ebay ...
# It is basically the same entry as jtagkey with different usb ids.
programmer parent "jtagkey"
id = "o-link";
desc = "O-Link, OpenJTAG from www.100ask.net";
usbvid = 0x1457;
usbpid = 0x5118;
usbvendor = "www.100ask.net";
usbproduct = "USB<=>JTAG&RS232";
;
# http://wiki.openmoko.org/wiki/Debug_Board_v3
programmer
id = "openmoko";
desc = "Openmoko debug board (v3)";
type = "avrftdi";
usbvid = 0x1457;
usbpid = 0x5118;
usbdev = "A";
usbvendor = "";
usbproduct = "";
usbsn = "";
reset = 3; # TMS 7
sck = 0; # TCK 9
mosi = 1; # TDI 5
miso = 2; # TDO 13
;
# Only Rev. A boards.
# Schematic and user manual: http://www.cs.put.poznan.pl/wswitala/download/pdf/811EVBK.pdf
programmer
id = "lm3s811";
desc = "Luminary Micro LM3S811 Eval Board (Rev. A)";
type = "avrftdi";
connection_type = usb;
usbvid = 0x0403;
usbpid = 0xbcd9;
usbvendor = "LMI";
usbproduct = "LM3S811 Evaluation Board";
usbdev = "A";
usbsn = "";
#ISP-signals - lower ACBUS-Nibble (default)
reset = 3;
sck = 0;
mosi = 1;
miso = 2;
# Enable correct buffers
buff = 7;
;
programmer
id = "avrisp";
desc = "Atmel AVR ISP";
type = "stk500";
connection_type = serial;
;
programmer
id = "avrispv2";
desc = "Atmel AVR ISP V2";
type = "stk500v2";
connection_type = serial;
;
programmer
id = "avrispmkII";
desc = "Atmel AVR ISP mkII";
type = "stk500v2";
connection_type = usb;
;
programmer parent "avrispmkII"
id = "avrisp2";
;
programmer
id = "buspirate";
desc = "The Bus Pirate";
type = "buspirate";
connection_type = serial;
;
programmer
id = "buspirate_bb";
desc = "The Bus Pirate (bitbang interface, supports TPI)";
type = "buspirate_bb";
connection_type = serial;
# pins are bits in bitbang byte (numbers are 87654321)
# 1|POWER|PULLUP|AUX|MOSI|CLK|MISO|CS
reset = 1;
sck = 3;
mosi = 4;
miso = 2;
#vcc = 7; This is internally set independent of this setting.
;
# This is supposed to be the "default" STK500 entry.
# Attempts to select the correct firmware version
# by probing for it. Better use one of the entries
# below instead.
programmer
id = "stk500";
desc = "Atmel STK500";
type = "stk500generic";
connection_type = serial;
;
programmer
id = "stk500v1";
desc = "Atmel STK500 Version 1.x firmware";
type = "stk500";
connection_type = serial;
;
programmer
id = "mib510";
desc = "Crossbow MIB510 programming board";
type = "stk500";
connection_type = serial;
;
programmer
id = "stk500v2";
desc = "Atmel STK500 Version 2.x firmware";
type = "stk500v2";
connection_type = serial;
;
programmer
id = "stk500pp";
desc = "Atmel STK500 V2 in parallel programming mode";
type = "stk500pp";
connection_type = serial;
;
programmer
id = "stk500hvsp";
desc = "Atmel STK500 V2 in high-voltage serial programming mode";
type = "stk500hvsp";
connection_type = serial;
;
programmer
id = "stk600";
desc = "Atmel STK600";
type = "stk600";
connection_type = usb;
;
programmer
id = "stk600pp";
desc = "Atmel STK600 in parallel programming mode";
type = "stk600pp";
connection_type = usb;
;
programmer
id = "stk600hvsp";
desc = "Atmel STK600 in high-voltage serial programming mode";
type = "stk600hvsp";
connection_type = usb;
;
programmer
id = "avr910";
desc = "Atmel Low Cost Serial Programmer";
type = "avr910";
connection_type = serial;
;
programmer
id = "ft245r";
desc = "FT245R Synchronous BitBang";
type = "ftdi_syncbb";
connection_type = usb;
miso = 1; # D1
sck = 0; # D0
mosi = 2; # D2
reset = 4; # D4
;
programmer
id = "ft232r";
desc = "FT232R Synchronous BitBang";
type = "ftdi_syncbb";
connection_type = usb;
miso = 1; # RxD
sck = 0; # RTS
mosi = 2; # TxD
reset = 4; # DTR
;
# see http://www.bitwizard.nl/wiki/index.php/FTDI_ATmega
programmer
id = "bwmega";
desc = "BitWizard ftdi_atmega builtin programmer";
type = "ftdi_syncbb";
connection_type = usb;
miso = 5; # DSR
sck = 6; # DCD
mosi = 3; # CTS
reset = 7; # RI
;
# see http://www.geocities.jp/arduino_diecimila/bootloader/index_en.html
# Note: pins are numbered from 1!
programmer
id = "arduino-ft232r";
desc = "Arduino: FT232R connected to ISP";
type = "ftdi_syncbb";
connection_type = usb;
miso = 3; # CTS X3(1)
sck = 5; # DSR X3(2)
mosi = 6; # DCD X3(3)
reset = 7; # RI X3(4)
;
# website mentioned above uses this id
programmer parent "arduino-ft232r"
id = "diecimila";
desc = "alias for arduino-ft232r";
;
programmer
id = "usbasp";
desc = "USBasp, http://www.fischl.de/usbasp/";
type = "usbasp";
connection_type = usb;
usbvid = 0x16C0; # VOTI
usbpid = 0x05DC; # Obdev's free shared PID
usbvendor = "www.fischl.de";
usbproduct = "USBasp";
# following variants are autodetected for id "usbasp"
# original usbasp from fischl.de
# see above "usbasp"
# old usbasp from fischl.de
#usbvid = 0x03EB; # ATMEL
#usbpid = 0xC7B4; # (unofficial) USBasp
#usbvendor = "www.fischl.de";
#usbproduct = "USBasp";
# NIBObee (only if -P nibobee is given on command line)
# see below "nibobee"
;
programmer
id = "nibobee";
desc = "NIBObee";
type = "usbasp";
connection_type = usb;
usbvid = 0x16C0; # VOTI
usbpid = 0x092F; # NIBObee PID
usbvendor = "www.nicai-systems.com";
usbproduct = "NIBObee";
;
programmer
id = "usbasp-clone";
desc = "Any usbasp clone with correct VID/PID";
type = "usbasp";
connection_type = usb;
usbvid = 0x16C0; # VOTI
usbpid = 0x05DC; # Obdev's free shared PID
#usbvendor = "";
#usbproduct = "";
;
programmer
id = "usbtiny";
desc = "USBtiny simple USB programmer, http://www.ladyada.net/make/usbtinyisp/";
type = "usbtiny";
connection_type = usb;
usbvid = 0x1781;
usbpid = 0x0c9f;
;
programmer
id = "arduinoisp";
desc = " ";
type = "usbtiny";
connection_type = usb;
usbvid = 0x2341;
usbpid = 0x0049;
;
programmer
id = "butterfly";
desc = "Atmel Butterfly Development Board";
type = "butterfly";
connection_type = serial;
;
programmer
id = "avr109";
desc = "Atmel AppNote AVR109 Boot Loader";
type = "butterfly";
connection_type = serial;
;
programmer
id = "avr911";
desc = "Atmel AppNote AVR911 AVROSP";
type = "butterfly";
connection_type = serial;
;
# suggested in http://forum.mikrokopter.de/topic-post48317.html
programmer
id = "mkbutterfly";
desc = "Mikrokopter.de Butterfly";
type = "butterfly_mk";
connection_type = serial;
;
programmer parent "mkbutterfly"
id = "butterfly_mk";
;
programmer
id = "jtagmkI";
desc = "Atmel JTAG ICE (mkI)";
baudrate = 115200; # default is 115200
type = "jtagmki";
connection_type = serial;
;
# easier to type
programmer parent "jtagmkI"
id = "jtag1";
;
# easier to type
programmer parent "jtag1"
id = "jtag1slow";
baudrate = 19200;
;
# The JTAG ICE mkII has both, serial and USB connectivity. As it is
# mostly used through USB these days (AVR Studio 5 only supporting it
# that way), we make connection_type = usb the default. Users are
# still free to use a serial port with the -P option.
programmer
id = "jtagmkII";
desc = "Atmel JTAG ICE mkII";
baudrate = 19200; # default is 19200
type = "jtagmkii";
connection_type = usb;
;
# easier to type
programmer parent "jtagmkII"
id = "jtag2slow";
;
# JTAG ICE mkII @ 115200 Bd
programmer parent "jtag2slow"
id = "jtag2fast";
baudrate = 115200;
;
# make the fast one the default, people will love that
programmer parent "jtag2fast"
id = "jtag2";
;
# JTAG ICE mkII in ISP mode
programmer
id = "jtag2isp";
desc = "Atmel JTAG ICE mkII in ISP mode";
baudrate = 115200;
type = "jtagmkii_isp";
connection_type = usb;
;
# JTAG ICE mkII in debugWire mode
programmer
id = "jtag2dw";
desc = "Atmel JTAG ICE mkII in debugWire mode";
baudrate = 115200;
type = "jtagmkii_dw";
connection_type = usb;
;
# JTAG ICE mkII in AVR32 mode
programmer
id = "jtagmkII_avr32";
desc = "Atmel JTAG ICE mkII im AVR32 mode";
baudrate = 115200;
type = "jtagmkii_avr32";
connection_type = usb;
;
# JTAG ICE mkII in AVR32 mode
programmer
id = "jtag2avr32";
desc = "Atmel JTAG ICE mkII im AVR32 mode";
baudrate = 115200;
type = "jtagmkii_avr32";
connection_type = usb;
;
# JTAG ICE mkII in PDI mode
programmer
id = "jtag2pdi";
desc = "Atmel JTAG ICE mkII PDI mode";
baudrate = 115200;
type = "jtagmkii_pdi";
connection_type = usb;
;
# AVR Dragon in JTAG mode
programmer
id = "dragon_jtag";
desc = "Atmel AVR Dragon in JTAG mode";
baudrate = 115200;
type = "dragon_jtag";
connection_type = usb;
;
# AVR Dragon in ISP mode
programmer
id = "dragon_isp";
desc = "Atmel AVR Dragon in ISP mode";
baudrate = 115200;
type = "dragon_isp";
connection_type = usb;
;
# AVR Dragon in PP mode
programmer
id = "dragon_pp";
desc = "Atmel AVR Dragon in PP mode";
baudrate = 115200;
type = "dragon_pp";
connection_type = usb;
;
# AVR Dragon in HVSP mode
programmer
id = "dragon_hvsp";
desc = "Atmel AVR Dragon in HVSP mode";
baudrate = 115200;
type = "dragon_hvsp";
connection_type = usb;
;
# AVR Dragon in debugWire mode
programmer
id = "dragon_dw";
desc = "Atmel AVR Dragon in debugWire mode";
baudrate = 115200;
type = "dragon_dw";
connection_type = usb;
;
# AVR Dragon in PDI mode
programmer
id = "dragon_pdi";
desc = "Atmel AVR Dragon in PDI mode";
baudrate = 115200;
type = "dragon_pdi";
connection_type = usb;
;
programmer
id = "jtag3";
desc = "Atmel AVR JTAGICE3 in JTAG mode";
type = "jtagice3";
connection_type = usb;
;
programmer
id = "jtag3pdi";
desc = "Atmel AVR JTAGICE3 in PDI mode";
type = "jtagice3_pdi";
connection_type = usb;
;
programmer
id = "jtag3dw";
desc = "Atmel AVR JTAGICE3 in debugWIRE mode";
type = "jtagice3_dw";
connection_type = usb;
;
programmer
id = "jtag3isp";
desc = "Atmel AVR JTAGICE3 in ISP mode";
type = "jtagice3_isp";
connection_type = usb;
;
programmer
id = "atmelice";
desc = "Atmel-ICE (ARM/AVR) in JTAG mode";
type = "jtagice3";
connection_type = usb;
usbpid = 0x2141;
;
programmer
id = "atmelice_pdi";
desc = "Atmel-ICE (ARM/AVR) in PDI mode";
type = "jtagice3_pdi";
connection_type = usb;
usbpid = 0x2141;
;
programmer
id = "atmelice_dw";
desc = "Atmel-ICE (ARM/AVR) in debugWIRE mode";
type = "jtagice3_dw";
connection_type = usb;
usbpid = 0x2141;
;
programmer
id = "atmelice_isp";
desc = "Atmel-ICE (ARM/AVR) in ISP mode";
type = "jtagice3_isp";
connection_type = usb;
usbpid = 0x2141;