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Table of Contents
PMIC
The gamepad's power management IC is a Texas Instruments SN1010007. So far no datasheet has been found.
It is connected to the UIC's I2C bus, where its device ID is 0x48.
Pinout
| Pin | Desc. |
|---|---|
| 1 | ?? |
| 2 | ?? |
| 3 | ?? |
| 4 | ?? |
| 5 | Battery pin 1 (red) |
| 6 | Battery pin 1 (red) |
| 7 | ?? |
| 8 | ?? |
| 9 | ?? |
| 10 | 4.75V input from AC adapter |
| 11 | ?? |
| 12 | ?? |
| 13 | ?? |
| 14 | ?? |
| 15 | ?? |
| 16 | ?? |
| 17 | Ground |
| 18 | ?? |
| 19 | ?? |
| 20 | ?? |
| 21 | ?? |
| 22 | ?? |
| 23 | ?? |
| 24 | ?? |
| 25 | ?? |
| 26 | ?? |
| 27 | ?? |
| 28 | ?? |
| 29 | ?? |
| 30 | Ground |
| 31 | ?? |
| 32 | ?? |
| 33 | ?? |
| 34 | ?? |
| 35 | ?? |
| 36 | ?? |
| 37 | ?? |
| 38 | ?? |
| 39 | ?? |
| 40 | ?? |
| 41 | ?? |
| 42 | Ground |
| 43 | Battery pin 4 (white) |
| 44 | ?? |
| 45 | ?? |
| 46 | ?? |
| 47 | ?? |
| 48 | ?? |
The gamepad is rated for 4.75V 1.6A. In practice, the PMIC accepts an input voltage of up to 5.2V (as often delivered by third-party AC adapters) without problem. This makes USB chargers a viable substitute for the proprietary AC adapter, as long as they can deliver enough current.
I2C communications
Communications to the PMIC always start by writing one byte, which is likely a register ID/address. Then further bytes are written or read in order to access the registers themselves.
The UIC firmware has code for accessing the following registers:
| Register | Description |
|---|---|
| 0x01 | Charge status – bit6=AC, bit7=USB (1=connected) |
| 0x02 | ?? |
| 0x03 | ?? |
| 0x04 | ?? |
| 0x06 | ?? |
| 0x07 | ?? |
| 0x08 | ?? – seemingly accessed after 0x07 |
| 0x09 | Battery level LSB (format/bounds unknown) |
| 0x0A | Battery level MSB |
| 0x0D | ?? |
| 0x0F | ?? |
| 0x18 | Backlight related – 0x90=on 0x10=off |
| 0x19 | Backlight related – maybe timeout/delay? |
Which battery level is read out of registers 0x09/0x0A seems to depend on settings in register 0x07.