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The following devices are supported by the respective STK600 routing and socket card:
| Routing card | Socket card | Devices |
|---|---|---|
| STK600-ATTINY10 | t4 t5 t9 t10 |
STK600-RC008T-2 | STK600-DIP | t11 t12 t13 t13a t25 t45 t85 |
STK600-RC008T-7 | STK600-DIP | t15 |
STK600-RC014T-42 | STK600-SOIC | t20 |
STK600-RC020T-1 | STK600-DIP | t2313 t2313a t4313 |
| STK600-TinyX3U | t43u |
STK600-RC014T-12 | STK600-DIP | t24 t44 t84 t24a t44a |
STK600-RC020T-8 | STK600-DIP | t26 t261 t261a t461 t861 t861a |
STK600-RC020T-43 | STK600-SOIC | t261 t261a t461 t461a t861 t861a |
STK600-RC020T-23 | STK600-SOIC | t87 t167 |
STK600-RC028T-3 | STK600-DIP | t28 |
STK600-RC028M-6 | STK600-DIP | t48 t88 m8 m8a m48 m88 m168 m48p m48pa m88p m88pa m168p m168pa m328p |
| QT600-ATTINY88-QT8 | t88 |
STK600-RC040M-4 | STK600-DIP | m8515 m162 |
STK600-RC044M-30 | STK600-TQFP44 | m8515 m162 |
STK600-RC040M-5 | STK600-DIP | m8535 m16 m16a m32 m32a m164p m164pa m324p m324pa m644 m644p m644pa m1284p |
STK600-RC044M-31 | STK600-TQFP44 | m8535 m16 m16a m32 m32a m164p m164pa m324p m324pa m644 m644p m644pa m1284p |
| QT600-ATMEGA324-QM64 | m324pa |
STK600-RC032M-29 | STK600-TQFP32 | m8 m8a m48 m88 m168 m48p m48pa m88p m88pa m168p m168pa m328p |
STK600-RC064M-9 | STK600-TQFP64 | m64 m64a m128 m128a m1281 m2561 c32 c64 c128 |
STK600-RC064M-10 | STK600-TQFP64 | m165 m165p m169 m169p m169pa m325 m325p m329 m329p m645 m649 m649p |
STK600-RC100M-11 | STK600-TQFP100 | m640 m1280 m2560 |
| STK600-ATMEGA2560 | m2560 |
STK600-RC100M-18 | STK600-TQFP100 | m3250 m3250p m3290 m3290p m6450 m6490 |
STK600-RC032U-20 | STK600-TQFP32 | usb82 usb162 m8u2 m16u2 m32u2 |
STK600-RC044U-25 | STK600-TQFP44 | m16u4 m32u4 |
STK600-RC064U-17 | STK600-TQFP64 | m32u6 usb646 usb1286 usb647 usb1287 |
STK600-RCPWM-22 | STK600-TQFP32 | m32c1 m64c1 m16m1 m32m1 m64m1 |
STK600-RCPWM-19 | STK600-SOIC | pwm2 pwm3 pwm2b pwm3b pwm216 pwm316 |
STK600-RCPWM-26 | STK600-SOIC | pwm81 |
STK600-RC044M-24 | STK600-TSSOP44 | m16hvb m32hvb |
| STK600-HVE2 | m64hve |
| STK600-ATMEGA128RFA1 | m128rfa1 |
STK600-RC100X-13 | STK600-TQFP100 | x64a1 x128a1 x128A1revd x128a1u |
| STK600-ATXMEGA1281A1 | x128a1 |
| QT600-ATXMEGA128A1-QT16 | x128a1 |
STK600-RC064X-14 | STK600-TQFP64 | x64a3 x128a3 x256a3 x64d3 x128d3 x192d3 x256d3 |
STK600-RC064X-14 | STK600-MLF64 | x256a3b |
STK600-RC044X-15 | STK600-TQFP44 | x32a4 x16a4 x16d4 x32d4 |
| STK600-ATXMEGAT0 | x32t0 |
| STK600-uC3-144 | uc3a0512 uc3a0256b uc3a0128b |
STK600-RCUC3A144-33 | STK600-TQFP144 | uc3a0512 uc3a0256b uc3a0128b |
STK600-RCuC3A100-28 | STK600-TQFP100 | uc3a1512b uc3a1256b uc3a1128b |
STK600-RCuC3B0-21 | STK600-TQFP64-2 | uc3b0256b uc3b0512revcb uc3b0512b uc3b0128b uc3b064b uc3d1128b |
STK600-RCuC3B48-27 | STK600-TQFP48 | uc3b1256b uc3b164b |
STK600-RCUC3A144-32 | STK600-TQFP144 | uc3a3512b uc3a3256b uc3a3128b uc3a364b uc3a3256sb uc3a3128sb uc3a364sb |
STK600-RCUC3C0-36 | STK600-TQFP144 | uc3c0512b uc3c0256b uc3c0128b uc3c064b |
STK600-RCUC3C1-38 | STK600-TQFP100 | uc3c1512b uc3c1256b uc3c1128b uc3c164b |
STK600-RCUC3C2-40 | STK600-TQFP64-2 | uc3c2512b uc3c2256b uc3c2128b uc3c264b |
STK600-RCUC3C0-37 | STK600-TQFP144 | uc3c0512b uc3c0256b uc3c0128b uc3c064b |
STK600-RCUC3C1-39 | STK600-TQFP100 | uc3c1512b uc3c1256b uc3c1128b uc3c164b |
STK600-RCUC3C2-41 | STK600-TQFP64-2 | uc3c2512b uc3c2256b uc3c2128b uc3c264b |
STK600-RCUC3L0-34 | STK600-TQFP48 | uc3l064b uc3l032b uc3l016b |
| QT600-AT32UC3L-QM64 | uc3l064b |
Ensure the correct socket and routing card are mounted before
powering on the STK600. While the STK600 firmware ensures the socket
and routing card mounted match each other (using a table stored
internally in nonvolatile memory), it cannot handle the case where a
wrong routing card is used, e. g. the routing card
STK600-RC040M-5 (which is meant for 40-pin DIP AVRs that have
an ADC, with the power supply pins in the center of the package) was
used but an ATmega8515 inserted (which uses the “industry standard”
pinout with Vcc and GND at opposite corners).
Note that for devices that use the routing card STK600-RC008T-2,
in order to use ISP mode, the jumper for AREF0 must be removed
as it would otherwise block one of the ISP signals. High-voltage
serial programming can be used even with that jumper installed.
The ISP system of the STK600 contains a detection against shortcuts and other wiring errors. AVRDUDE initiates a connection check before trying to enter ISP programming mode, and display the result if the target is not found ready to be ISP programmed.
High-voltage programming requires the target voltage to be set to at least 4.5 V in order to work. This can be done using Terminal Mode, see Terminal Mode Operation.
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