Working with the ISIS-OBC


This document covers the KubOS Linux features which are specific to the ISIS-OBC target, also known as the iOBC.

Reference Documents

iOBC Documentation

The ISIS-OBC Quickstart Guide should have been packaged with the iOBC and is a useful document for learning what each of the hardware components are, how to connect them, and what drivers need to be installed to support them.

Kubos Documentation

USB Connection

The iOBC should be shipped with an FTDI cable. This cable should be connected to the programming adapter, which should then be connected to the iOBC, to create the debug UART connection. User file transfer will take place using this connection.

Additionally, a SAM-ICE JTAG must also be connected in order to successfully connect with an iOBC.


The iOBC has several different ports available for interacting with peripheral devices. Currently, users should interact with these devices using the standard Linux functions. A Kubos HAL will be added in the future for the iOBC.


The iOBC has 2 UART ports available for use in varying capacities:

Linux Device TX Pin RX Pin RTS Pin CTS Pin
/dev/ttyS1 TX0 RX0    
/dev/ttyS3 TX2 RX2 RTS2 CTS2

Users can interact with these ports using Linux’s termios interface.

A tutorial on this interface can be found here


I2C Standards Doc

KubOS Linux is currently configured to support the I2C standard-mode speed of 100kHz.

The I2C bus is available through the Kubos HAL as K_I2C1.

For examples and instructions, see the Using I2C and I2C API documents.


The iOBC has 27 GPIO pins available. These pins can be dynamically controlled via the Linux GPIO Sysfs Interface for Userspace as long as they have not already been assigned to another peripheral.

To interact with a pin, the user will first need to generate the pin’s device name:

$ echo {pin} > /sys/class/gpio/export

The {pin} value can be found in the below chart:

iOBC GPIO # Linux GPIO Value
0 42
1 43
2 44
3 45
4 52
5 53
6 54
7 55
8 56
9 57
10 58
11 59
12 60
13 61
14 62
15 63
16 12
17 13
18 14
19 15
20 16
21 17
22 18
23 19
24 20
25 21
26 22

For example, to interact with the iOBC’s GPIO5 pin, which has a Linux GPIO value of 53, the user will use:

$ echo 53 > /sys/class/gpio/export

Once this command has been issued, the pin will be defined to the system as ‘/sys/class/gpio/gpio{pin}’. The user can then set and check the pins direction and value.

Set GPIO5 as output:
$ echo out > /sys/class/gpio/gpio53/direction

Set GPIO23's value to 1:
$ echo 1 > /sys/class/gpio/gpio19/value

Get GPIO10's value:
$ cat /sys/class/gpio/gpio58/value


The external SPI bus is not currently available to the userspace. It will be added in a future release.

User Data Partition

The iOBC has a single user data partition which maps to the /home directory.

The home directories of all user accounts, except root, should live under this directory.


Any files not residing under the /home directory will be destroyed during an upgrade/downgrade