JSX

Protocol

Proposal for a protocol to handle a joypad with a variable number of sticks and buttons, plug in the MSX’s general purpose port.

This protocol can manage joypads with up to 15 analog axis (one stick requires 2 axis) and 18 buttons.

A pulse on Pin 8 is used to start communication then (while Pin 8 still HIGH) consecutive pulse on Pin 6 is used to synchronize data transmission (6 bits per 6 bits).

Pin binding for received data:

Bits 7 6 5 4 3 2 1 0
–-–-–-–-–-–-–-–--–-–-
Pins x x 7 6 4 3 2 1

States

No-communication state

Write R#15

Pin 8: LOW

Pin 6: any value

Read R#14

Get 0x0F (JSX idle fingerprint)

(or any value between 00-3F not already return by other MSX devices)

Start communication and get ID

Write R#15

Pin 8: LOW (in case Pin 8 have been modified by another device)

Pin 6: any value

Write R#15

Pin 8: HIGH (start communication)

Pin 6: HIGH

Read R#14

Get JSX device ID

 7 6 5 4 3 2 1 0
–-–-–-–-–-–-–-–--
 x x A A A A B B
     │ │ │ │ └─┴── Number of button rows (0-3)
     └─┴─┴─┴────── Number of axis (0-15)

Note: Number of axis or number of buttons can be zero, but not both. So any device ID is valid except 0x00.

Read bytes

Repeat this step for each axis (if any), then for each button row (if any). Number of axis and button rows is given by the device ID

Write R#15

Pin 8: HIGH

Pin 6: LOW

Write R#15

Pin 8: HIGH

Pin 6: HIGH

Read R#14

Get 6-bits values

For axis: signed 6-bits value [-32 ; 31]

For boutons: bits field for 6 boutons (0: pressed, 1: released)

Example

For a Joypad with a stick with X and Y axis (2 axis), and 4 buttons (1 row), the reading process would be:

• After starting communication, first read to R#14 return the ID.
  ID: 0x09 [00 0010 01] for 2 axis, and 1 buttons row,
• Next reading give X-axis value [-32 ; 31],
• Next reading give Y-axis value [-32 ; 31],
• Next and last reading give button states (for up to 6 boutons).

Note: MSX-HID fingerprint would be: 0Fh, 09h, 0Fh