# CAN

Controller Area Network (CAN) (opens new window) is a robust wired network that allows drone components such as flight controller, ESCs, sensors, and other peripherals, to communicate with each other. Because it is designed to be democratic and uses differential signaling, it is very robust even over longer cable lengths (on large vehicles), and avoids a single point of failure. CAN also allows status feedback from peripherals and convenient firmware upgrades over the bus.

PX4 supports two software protocols for communicating with CAN devices:

  • DroneCAN: PX4 recommends this for most common setups. It is well supported by PX4, is a mature product with extensive peripheral support, and has had years of testing.
  • Cyphal (opens new window): PX4 support is a "work in progress". Cyphal is a much newer protocol which allows more flexibility and configuration, especially on larger and more complex vehicles. It has not yet seen significant adoption.

注解

Both DroneCAN and Cyphal originate from an earlier project named UAVCAN. In 2022 the project split into two: the original version of UAVCAN (UAVCAN v0) was renamed to DroneCAN, and the newer UAVCAN v1 was renamed Cyphal. The differences between the two protocols are outlined in Cyphal vs. DroneCAN (opens new window).

注意

PX4 does not support other CAN software protocols for drones such as KDECAN (at time of writing).

# Wiring

The wiring for CAN networks is the same for both DroneCAN and Cyphal/CAN (in fact, for all CAN networks).

Devices are connected in a chain in any order. At either end of the chain, a 120Ω termination resistor should be connected between the two data lines. Flight controllers and some GNSS modules have built in termination resistors for convenience, thus should be placed at opposite ends of the chain. Otherwise, you can use a termination resistor such as this one from Zubax Robotics (opens new window), or solder one yourself if you have access to a JST-GH crimper.

The following diagram shows an example of a CAN bus connecting a flight controller to 4 CAN ESCs and a GNSS.

CAN Wiring

The diagram does not show any power wiring. Refer to your manufacturer instructions to confirm whether components require separate power or can be powered from the CAN bus itself.

For more information, see Cyphal/CAN device interconnection (opens new window) (kb.zubax.com). While the article is written with the Cyphal protocol in mind, it applies equally to DroneCAN hardware and any other CAN setup. For more advanced scenarios, consult with On CAN bus topology and termination (opens new window).

# Connectors

Pixhawk standard compatible CAN devices use 4 pin JST-GH connectors for CAN. Two connectors are used for input and output when wiring in a chain (except for flight controllers and some GNSS devices with builtin termination, which only have a single JST-GH connector).

Other (non-Pixhawk compatible) devices may use different connectors. However, as long as the device firmware supports DroneCAN or Cyphal, it can be used.

# Redundancy

DroneCAN and Cyphal/CAN support using a second (redundant) CAN interface. This is completely optional but increases the robustness of the connection. All Pixhawk flight controllers come with 2 CAN interfaces; if your peripherals support 2 CAN interfaces as well, it is recommended to wire both up for increased safety.

# Firmware

CAN peripherals may run proprietary or open source firmware (check manufacturer guides to confirm the required setup).

PX4 can be built to run as open-source DroneCAN firmware on supported CAN hardware. See PX4 DroneCAN Firmware for more information.

# Support and Configuration

DroneCAN Setup and Configuration

PX4 DroneCAN Firmware

# Videos

# DroneCAN

Intro to DroneCAN (UAVCANv0) and practical example with setup in QGroundControl:

# Cyphal

UAVCAN v1 for drones — PX4 Developer Summit Virtual 2020


Getting started using UAVCAN v1 with PX4 on the NXP UAVCAN Board — PX4 Developer Summit Virtual 2020


UAVCAN: a highly dependable publish-subscribe protocol for hard real-time intra-vehicular networking — PX4 Developer Summit Virtual 2019