CrossChasm C5 Interface

CrossChasm’s C5 OBD interface is compatible with the OpenXC VI firmware. To build for the C5, compile with the flag PLATFORM=CROSSCHASM_C5.

CrossChasm has made the C5 available for purchase from their website, and it comes pre-loaded with the correct bootloader, so you don’t need any additional hardware to load the OpenXC firmware.

The C5 connects to the CAN1 bus pins on the OBD-II connector.

Flashing a Pre-compiled Firmware

Assuming your C5 has the bootloader already flashed, once you have the USB cable attached to your computer and to the C5, follow the same steps to upload as for the chipKIT Max32.

The C5 units offered directly from the CrossChasm website are pre-programmed with the bootloader.


The C5 can be flashed with the same PIC32 avrdude bootloader, as the chipKIT.

The OpenXC fork of the bootloader (the previous link) defines a CROSSCHASM_C5 configuration that exposes a CDC/ACM serial port function over USB. Once the bootloader is flashed, there is a 5 second window when the unit powers on when it will accept bootloader commands.

In Linux and OS X it will show up as something like /dev/ACM0, and you can treat this just as if it were a serial device.

In Windows, you will need to install the stk500v2.inf <> driver before the CDC/ACM modem will show up - download that file, right click and choose Install. The C5 should now show up as a COM port for for 5 seconds on bootup.

The C5 units offered directly from the CrossChasm website are pre-programmed with the bootloader.

If you need to reflash the bootloader yourself, a ready-to-go .hex file is available in the GitHub repository and you can flash it with MPLAB IDE/IPE and an ICSP programmer like the Microchip PICkit 3. You can also build it from source in MPLAB by using the CrossChasm C5 configuration.


The instructions for compiling from source are identical to the chipKIT Max32 except that PLATFORM=CROSSCHASM_C5 instead of CHIPKIT.

If you will not be using the avrdude bootloader and will be flashing directly via ICSP, make sure to also compile with BOOTLOADER=0 to enable the program to run on bare metal.


The micro-USB port on the board is used to send and receive OpenXC messages.


On the C5, UART1A is used for OpenXC output at the 230000 baud rate. Hardware flow control (RTS/CTS) is enabled, so CTS must be pulled low by the receiving device before data will be sent.

TODO add pinout of expansion header, probably a picture

UART data is sent only if pin 0.58 (or PORTB BIT 4, RB4) is pulled high (to 5vv). If you are using a Bluetooth module like the BlueSMiRF from SparkFun, you need to hard-wire 5v into this pin to actually enabling UART. To disable UART, pull this pin low or leave it floating.

Debug Logging

On the C5, logging is on UART3A at 115200 baud (if the firmware was compiled with DEBUG=1).

LED Lights

The C5 has 2 user controllable LEDs. When CAN activity is detected, the green LED will be enabled. When USB or Bluetooth is connected, the blue LED will be enabled.