Letux 400 Hardware


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Table of Content

GPIO assignment for the JZ4730 inside the Mipsbook


The GPIO pins are used on the Letux 400 for things like the status LEDs and to control the LCD backlight. The registers on the JZ4730 are arranged as follows:

Register Offset Purpose
PxGPDR 0x00 Port data
PxGPDIR 0x04 Port direction
PxGPPUR 0x0c Pull enable
PxGPALR 0x10 Port function lower
PxGPAUR 0x14 Port function upper
PxGPDLR 0x18 IRQ detect lower
PxGPDUR 0x1c IRQ detect upper
PxGPIER 0x20 IRQ enable
PxGPFR 0x28 IRQ flag

Here, Px refers to a particular port designation. We may use the following convention indicating the pins exposed by each port and the offset from the start of GPIO memory for each port's registers (described above):

Px Port Pins (Global) Offset
PA A 0..31 0x00
PB B 32..63 0x30
PC C 64..95 0x60
PD D 96..127 0x90

GPIO memory is located at 0x10010000 in physical memory space.

Since 32 pins are exposed per port, single registers that configure all pins have a direct bit-to-pin correspondence.

Where upper and lower registers exist, the combination of the registers describes all 32 pins:

Upper: bits 63..32 Lower: bits 31..0
Pins 31..16 Pins 15..0

Each pin is described by two bits, with pin X therefore employing bits X2 and X2+1. Taken together, these bits encode a value in the range 0..3 for the relevant pin configuration.


Unlike other JZ4700-series SoCs, no "set" or "clear" registers are provided. It is therefore necessary to read, update, write when changing a register.

Port Direction

The PxGPDIR register employs bit value 0 for input and IRQ pins, bit value 1 for output pins.

Pull-Up Enable

The PxGPPUR register employs bit value 0 to disable pull-ups on pins, bit value 1 to enable pull-ups.

Port Function

The PxGPALR, PxGPAUR register pair employs pairs of adjacent bits to configure pins:

Bit Values Function
01 Alternate function 1
10 Alternate function 2
11 Alternate function 3

Alternate functions are pin-specific and are defined as follows:

Port Pins Function Peripheral
A 0..11 1 CIM
A 12..15 1 DMA (1 of 2)
A 16..23 1 UART3
A 24..25 1 UART1
A 26..27 1 DMA (2 of 2)
A 28..31 1 USB
B 0..1 1 PS/2
B 2..7 1 MSC
B 2..15 1 UPRT (1 of 2)
B 8..23 1 LCD (16-bit data)
B 27..31 1 LCD (signalling)
B 24..26 1 LCD (slave)
B 24..26 2 LCD (master)
C 0, 2 1 SCC0
C 1, 3 1 SCC1
C 4, 6..7 1 I2S (common)
C 5..7, 13 1 AC97 (1 of 2)
C 8..12 1 SSI
C 13..14 1 I2S (slave)
C 13..14 2 I2S (master)
C 14 2 AC97 (2 of 2)
C 15..23 1 EMC
C 24..29 1 PCMCIA
C 30..31 1 PWM
D 0..14 1 UPRT (2 of 2)
D 15, 29 1 UART2
D 16..28 1 Ethernet
D 30..31 1 UART0

IRQ Detect

The PxGPDLR, PxGPDUR register pair employs pairs of adjacent bits to configure pins:

Bit Values Detection Event
00 Low level
01 High level
10 Negative edge/falling level
11 Positive edge/rising level


The following mapping applies for interrupts triggered by pin activity:

Port IRQ Number
A 28
B 27
C 26
D 25


  • u-boot-1.1.6/include/asm-mips/jz4730.h
  • GPIOs