# Avionics Anonymous Laser Altimeter DroneCan Interface

Note

In 2022, UAVCAN (v0) was forked and is maintained as DroneCAN. While this product still mentions "UAVCAN", it is fully compatible with PX4's DroneCAN support.

The Avionics Anonymous Laser Altimeter Interface (opens new window) allows a number of common rangefinders to be connected via the CAN bus (this is a more robust interface than I2C).

Avionics Anonymous Laser Altimeter DroneCAN Interface

# Where to Buy

# Supported Rangefinders

A full list of supported rangefinders can be found on the link above.

At time of writing the following rangefinders are supported:

  • Lightware SF30/D
  • Lightware SF10/a
  • Lightware SF10/b
  • Lightware SF10/c
  • Lightware SF11/c
  • Lightware SF/LW20/b
  • Lightware SF/LW20/c

# Hardware Setup

# Wiring

The rangefinder (laser) is connected to the AvAnon interface board, which is connected to one of the CAN ports on your autopilot. The wiring is as per the pinout above, or the necessary cables can be purchased to connect to your system right out of the box. These are available at the links here (opens new window).

The interface board provides a filtered power output for the laser, but does not provide its own regulation. Therefore the laser must be compatible with whatever voltage is supplied to the board.

# Pinouts

# CAN Connector

Pin Name Description
1 POWER_IN Power Supply. 4.0-5.5V supported, but must also be compatible with connected laser.
2 TX/SCL TX for serial mode, Clock for I2C mode.
3 RX/SDA RX for serial mode, Data for I2C mode.
4 GND Signal/power ground.

# Laser Connector

Pin Name Description
1 POWER_OUT Filtered power at the supply voltage.
2 CAN+ TX for serial mode, Clock for I2C mode.
3 RX/SDA RX for serial mode, Data for I2C mode.
4 GND Signal/power ground.

# PX4 Configuration

To enable the laser altimeter you will need to set the following parameters (in QGroundControl):