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The Trizeps and Myon CPU modules may be configured to have multiple I2C busses.

Myon I

Pins

IO-Port

Driver Index

Description

66,68

I2C4

3

typical connected to touch-controller

119,121

I2C6

5

I2C devices

Trizeps VII

Pins

Port

Driver Index

Description

194,196

I2C2

1

primary I2C interface

94,96

I2C1

0

secondary I2C interface

The PMFP0100 PMIC (7-bit address 0x08) of the Trizeps VII is connected to the primary I2C interface.

Trizeps VIII

Pins

Port

Driver Index

Description

194,196

I2C2

1

primary I2C interface

94,96

I2C1

0

secondary I2C interface

-

I2C3

2

internal I2C interface

The following devices are attached to the internal I2C interface:

7bit

8bit

Description

0x08

0x10

PMFP0100 PMIC

0x10

0x20

MKV11 Kinetis MCU

0x1A

0x34

WM8983 Audio Codec

0x2C

0x58

MIPI to LVDS transceiver

0x40

0x80

FPGA primary config address

0x41

0x82

FPGA primary user mode

0x42

0x84

FPGA secondary user mode

0x43

0x86

FPGA primary config reset

0x60

0xC0

VDD_SOC regulatur

Trizeps VIII Mini

Pins

Port

Driver Index

Description

194,196

I2C2

1

primary I2C interface

94,96

I2C1

0

secondary I2C interface

-

I2C3

2

internal I2C interface

The following devices are attached to the internal I2C interface:

7bit

8bit

Description

0x10

0x20

MKV11 Kinetis MCU

0x1A

0x34

WM8983 Audio Codec

0x2C

0x58

MIPI to LVDS transceiver

0x40

0x80

FPGA primary config address

0x41

0x82

FPGA primary user mode

0x42

0x84

FPGA secondary user mode

0x43

0x86

FPGA primary config reset

0x4B

0x96

BD71847 PMIC

Trizeps VIII Plus

Pins

Port

Driver Index

Description

194,196

I2C2

1

primary I2C interface

94,96

I2C1

0

secondary I2C interface

-

I2C3

2

internal I2C interface

The following devices are attached to the internal I2C interface:

7bit

8bit

Description

0x10

0x20

MKV11 Kinetis MCU

0x1A

0x34

WM8983/WM8962B Audio Codec

0x25

0x4A

PCA9450 PMIC

0x40

0x80

FPGA primary config address

0x41

0x82

FPGA primary user mode

0x43

0x86

FPGA primary config reset

0x4A

0x94

WM8962B test functionality

0x69

0xD2

WM8962B test functionality

0x78

0xF0

???

Myon II

Pins

Port

Driver Index

Description

J70-66,68

I2C2

1

primary I2C interface

J71-67,69

I2C1

0

secondary I2C interface

J71-19,21

I2C3

2

internal I2C interface

[J70-73,75]

I2C4

3

special mounting option!

The following devices are attached to the internal I2C interface:

7bit

8bit

Description

0x1A

0x34

WM8983 Audio Codec

0x2C

0x58

MIPI to LVDS transceiver

0x4B

0x96

BD71847 PMIC

SBCSOM

Pins

Port

Driver Index

Description

L.A04,A05

I2C1

0

left connector, i-MOD I2C, Mini-PCIe socket

R.A04,A05

I2C2

1

right connector, camera , KuK-MODIS

I2C3

2

internal I2C interface

The following devices are attached to the internal I2C interface:

7bit

8bit

Description

0x1A

0x34

WM8983 Audio Codec

0x2C

0x58

MIPI to LVDS transceiver

0x39

0x72

HDMI transceiver

0x49

0x92

Secure Element

0x4B

0x96

BD71847 PMIC

0x50

0xA0

EEPROM

Use I2C from the Command Line

Please view the man-pages of the commands for details. The below instructions are only for a quick reference. On Debian, these tools are contained in the package i2c-tools. Install it with:

sudo apt install i2c-tools

Scan for available I2C devices

In this example we scan the internal I2C interface of Trizeps VIII.

$ i2cdetect -y 2

Which will output:

     0  1  2  3  4  5  6  7  8  9  a  b  c  d  e  f
00:          -- -- -- -- -- 08 -- -- -- -- -- -- --
10: 10 -- -- -- -- -- -- -- -- -- 1a -- -- -- -- --
20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
40: 40 UU -- 43 -- -- -- -- -- -- -- -- -- -- -- --
50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
60: 60 -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
70: -- -- -- -- -- -- -- --

The '-y' option is used to prevent the 'Continue? [Y/n]' question.
'2' is the Driver-Index of the I2C3 interface.
The output shows the found I2C-devices. 'UU' indicates that a driver for this device has been loaded. In the above case it is a driver that communicates with the Trizeps VIII FPGA.

Read from I2C device

$ i2cget -f -y 2 0x41 0

In this example outputs the ID-register of the Trizeps VIII FPGA (depends on FPGA programming):

0x61

The '-f' option forces access to device 0x41. This is used, because a driver for this address has already been loaded and will prevent access without the force option.
The '-y' option is used to prevent the 'Continue? [Y/n]' question.
'2' is the Driver-Index of the I2C3 interface.
'0x41' is the 7bit I2C-address of the Trizeps VIII FPGA. '0' is the ID-register offset.

Write to I2C device

$ i2cset -f y 2 0x41 0x10 0x0

This will write to register 0x10 of device connected to 0x41. In this specific case it disables conversion of the MIPI-DSI stream.
The '-f' option forces access to device 0x41. This is used, because a driver for this address has already been loaded and will prevent access without the force option.
The '-y' option is used to prevent the 'Continue? [Y/n]' question.
'2' is the Driver-Index of the I2C3 interface.
'0x41' is the 7bit I2C-address of the Trizeps VIII FPGA. '0x10' is the display control register.

Other I2C Commands

'i2ctransfer' may be used to have better control on how an I2C packet is sent (Multiple bytes write & read).
'i2cdump' may be used to dump registers of an I2C device.

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