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| FilesSoftwaretool | |
|---|---|
| .. | |
| avrdude-mac.conf | |
| avrdude.conf | |
| avrdude.exe | |
| unload_apple_driver.sh | |
| upload_attiny2313.bat | |
| upload_attiny25.bat | |
| upload_attmega16.bat |
avrdude-mac.conf# $Id: avrdude.conf.in,v 1.116 2006/12/22 22:52:34 joerg_wunsch Exp $ # # 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 # id = <id1> [, <id2> [, <id3>] ...] ; # <idN> are quoted strings # desc = <description> ; # quoted string # type = par | stk500 | stk500v2 | stk500pp | stk500hvsp | stk500generic | # avr910 | butterfly | usbasp | serjtag | ft245r | # jtagmki | jtagmkii | jtagmkii_isp | jtagmkii_dw | # dragon_dw | dragon_jtag | dragon_isp | dragon_pp | # dragon_hvsp; # programmer type # baudrate = <num> ; # baudrate for avr910-programmer # vcc = <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 # ; # # 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 # 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) # # 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. # # 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/atmel/acrobat/doc1280.pdf # # INSTRUCTION FORMATS # # Instruction formats are specified as a comma seperated 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/atmel/acrobat/doc2525.pdf # #define ATTINY10 0x10 #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 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 # Note that both lists contradict for the ATmega32 and the ATmega163. # We go with the original AVR910 in these cases. As AVR910 still has # the originally name ATmega83 for the ATmega8535, we use the AVR109 # code here. # # Overall avrdude defaults # default_parallel = "ft0"; default_serial = "com1"; #default_bitclock = 38400; default_programmer = "2ftbb"; # # PROGRAMMER DEFINITIONS # #FTDI_Bitbang programmer id = "2ftbb"; desc = "FT232R Synchronous BitBang"; type = "avrftdi"; baudrate = 9600; miso = 5; # DCD mosi = 4; # CTS sck = 6; # DSR reset = 7; # RI ;