Controller port pinout: Difference between revisions
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=== Super NES === | === Super NES === | ||
The [[wikipedia:FC Twin|FC Twin]] NES/SNES combo clone uses Super NES controllers, whose pinout is as follows: | The [[wikipedia:FC Twin|FC Twin]] NES/SNES combo clone uses Super NES controllers, whose pinout is as follows:<ref>[https://wiki.superfamicom.org/schematics-ports-and-pinouts superfamicom.org]: Schematics, Ports, and Pinouts.</ref> | ||
1 [oooo|ooo) 7 1:+5V 2:Clk 3:Out 4:D0 5:D1 6: I/O 7:Gnd | 1 [oooo|ooo) 7 1:+5V 2:Clk 3:Out 4:D0 5:D1 6: I/O 7:Gnd | ||
Revision as of 06:25, 4 May 2019
The NES controller pinout:
.-
GND -- |O\
CLK <- |OO\ -- +5V
OUT <- |OO| <- D3
D0 -> |OO| <- D4
'--'
(Directions are relative to the jack on the front of the NES)
PAL
Some PAL region systems have a set of diodes on the inside of the controller port which make it incompatible with NTSC controllers.[1]
+5V --|>|-- jack D3 --|>|-- jack D4 --|>|-- jack D0 --|>|-- jack OUT --|<|-- jack CLK --|<|-- jack
With these diodes, the OUT and CLK lines have to be pulled high by the controller, or else the controller can't receive these signals. See: Standard controller: PAL
Super NES
The FC Twin NES/SNES combo clone uses Super NES controllers, whose pinout is as follows:[2]
1 [oooo|ooo) 7 1:+5V 2:Clk 3:Out 4:D0 5:D1 6: I/O 7:Gnd
An adapter to use Super NES controllers on an NES (or NES controllers on an FC Twin) could be constructed as follows (leaving D3 and D4 unconnected):
.-
GND -- |7\
CLK <- |21\ -- +5V
OUT <- |3o| -- (D3)
D0 -> |4o| -- (D4)
'--'
- Buy two controller extension cables, one for NES and one for Super NES, and cut them apart. Strip the cut ends to reveal a small amount of bare wire.
- Using inline splice technique, wrap each wire from one cable with the corresponding wire from the other cable.
- With solder and a soldering iron, glue each wrapped pair together.
- With electrical tape, wrap each joint to insulate it from the other wires.
- Apply heat shrink around the whole assembly.
Notes
- The signal read by the CPU is logically inverted from the signal input on the D0-4 lines. A low voltage on D0 will be read as a 1 bit from $4016/4017.
- CLK will be low during reads from the CPU, then immediately return to high. This rising edge transition is used to clock the shift register inside the standard controller.
- OUT is a signal latched and held from the last CPU write to $4016:0. For standard controller reads, the program will write a 1 to load the shift register, then return to 0 before reading the results.
See Also
References
- ↑ Forum post: explaining PAL controller diodes and their function.
- ↑ superfamicom.org: Schematics, Ports, and Pinouts.
