The Fischertechnik Interface is used for the Fischertechnik Trainingsrobot and for the Fischertechnik Computing Experimental kit.
Inputs/Outputs
The interface for the CPC (as well as newer RS232/USB versions) consists of:
- 8 single bit inputs ports (eg. for sensing when a robot-arm reached its end-position)
- 4 "bidirectional" ports (for motor control) (here "bidirectional" rather means "three-state-output" aka "forward/stop/backward")
- 2 analog inputs (eg. for temperature sensor)
Technical
Fischertechnik has built several interfaces:
- Interface for Commodore 24pin User Port (used on C64/VIC20)
- Interface for one-directional 25pin printer port (used on PCs) (this might have been also used by CPC...? if so, with 34pin/36pin connector, of course)
- Interface for RS232 port (used on PCs) (9600 baud, 8bit, no parity, 1 stopbit)
- Interface for USB port (used on PCs)
Parallel Printer Port Interface
Designed for one-directional printer ports: Data is read/sent via Pin11/Pin4 (which data is to be transferred is selected via the other DATA lines) (details on how the data is transferred exactly are unknown?).
Printer Pin Interface Signal Comment Pin2 (Data Bit0) Load-out ;motor control output Pin3 (Data Bit1) Load-in ;digital sensor 8bit input Pin4 (Data Bit2) Data-out ;data from computer Pin5 (Data Bit3) Clock ;data clock Pin6 (Data Bit4) Trigger-x ;analog sensor X input Pin7 (Data Bit5) Trigger-y ;analog sensor Y input Pin11 (Busy) Data/Count-in ;data to computer (some variants seem to have separate pins: Busy=Data-in and Ack=Count-in) Pin.. (GND) Ground ;ground
The parallel fischertechnik interface has a 20pin cable. The supported computers have different pin-outs: 25pin DSUB (PC/Amiga/Atari), 34pin Edge (CPC464/CPC664), or 36pin Centronics (german CPC6128). To solve that, some cables have a N-pin connector on a 20-pin cable. Others have a 20-pin connector, with additional 20-pin to N-pin adaptor.
Pictures
Weblinks
- http://sascha-bader.de/html/ftpc2c64.html - Fischertechnik DIY Adapters