# Prearm, Arm, Disarm Configuration

Vehicles may have moving parts, some of which are potentially dangerous when powered (in particular motors and propellers)!

To reduce the chance of accidents, PX4 has explicit state(s) for powering the vehicle components:

  • Disarmed: There is no power to motors or actuators.
  • Pre-armed: Motors/propellers are locked but actuators for non-dangerous electronics are powered (e.g. ailerons, flaps etc.).
  • Armed: Vehicle is fully powered. Motors/propellers may be turning (dangerous!)

Note Ground stations may display disarmed for both disarmed and pre-armed states. While not technically correct for pre-armed vehicles, it is "safe".

A safety switch (if available) is used as a precondition for arming the vehicle, and may also be used to enable the pre-armed state.

When permitted, arming is enabled using an arming gesture, arming switch or MAVLink command.

PX4 allows you to configure how pre-arming, arming and disarming work using parameters (which can be edited in QGroundControl via the parameter editor), as described in the following sections.

Note Arming/disarming parameters can be found in Parameter Reference > Commander (search for COM_ARM_ and COM_DISARM_*).

# Arming Gesture {#arm_disarm_gestures}

By default, the vehicle is armed and disarmed by moving RC throttle/yaw sticks to particular extremes and holding them for 1 second.

  • Arming: Throttle minimum, yaw maximum
  • Disarming: Throttle minimum, yaw minimum

RC controllers will have different gestures based on their mode (as controller mode affects the sticks used for throttle and yaw):

  • Mode 2:
    • Arm: Left stick to bottom right.
    • Disarm: Left stick to the bottom left.
  • Mode 1:
    • Arm: Left-stick to right, right-stick to bottom.
    • Disarm: Left-stick to left, right-stick to the bottom.

The required hold time can be configured using COM_RC_ARM_HYST.

Parameter Description
COM_RC_ARM_HYST Time that RC stick must be held in arm/disarm position before arming/disarming occurs (default: 1 second).

# Arming Button/Switch {#arm_disarm_switch}

An arming button or "momentary switch" can be configured to trigger arm/disarm instead of gesture-based arming (setting an arming switch disables arming gestures). The button should be held down for (nominally) one second to arm (when disarmed) or disarm (when armed).

A two-position switch can also be used for arming/disarming, where the respective arm/disarm commands are sent on switch transitions.

Tip Two-position arming switches are primarily used in/recommended for racing drones.

The switch or button is assigned (and enabled) using RC_MAP_ARM_SW, and the switch "type" is configured using COM_ARM_SWISBTN.

Parameter Description
RC_MAP_ARM_SW RC arm switch channel (default: 0 - unassigned). If defined, the specified RC channel (button/switch) is used for arming instead of a stick gesture.

Note:

  • This setting disables the stick gesture!
  • This setting applies to RC controllers. It does not apply to Joystick controllers that are connected via QGroundControl. | | COM_ARM_SWISBTN | Arm switch is a button.
  • 0: Arm switch is a 2-position switch where arm/disarm commands are sent on respective switch transitions.
    -1: Arm switch is a button or momentary switch. Arm/disarm command is sent after holding down button for set time (COM_RC_ARM_HYST). |

Note The switch can also be set as part of QGroundControl Flight Mode configuration.

# Auto-Disarming

By default vehicles will automatically disarm on landing, or if you take too long to take off after arming. The feature is configured using the following timeouts.

Parameter Description
COM_DISARM_LAND Time-out for auto disarm after landing. Default: 2s (-1 to disable).
COM_DISARM_PRFLT Time-out for auto disarm if too slow to takeoff. Default: 10s (<=0 to disable).

# Arming Sequence: Pre Arm Mode & Safety Button

The arming sequence depends on whether or not there is a safety switch, and is controlled by the parameters COM_PREARM_MODE (Prearm mode) and CBRK_IO_SAFETY (I/O safety circuit breaker).

The COM_PREARM_MODE parameter defines when/if pre-arm mode is enabled ("safe"/non-throttling actuators are able to move):

  • Disabled: Pre-arm mode disabled (there is no stage where only "safe"/non-throttling actuators are enabled).
  • Safety Switch (Default): The pre-arm mode is enabled by the safety switch. If there is no safety switch then pre-arm mode will not be enabled.
  • Always: Prearm mode is enabled from power up.

If there is a safety switch then this will be a precondition for arming. If there is no safety switch the I/O safety circuit breaker must be engaged (CBRK_IO_SAFETY), and arming will depend only on the arm command.

The sections below detail the startup sequences for the different configurations

# Default: COM_PREARM_MODE=Safety and Safety Switch

The default configuration uses safety switch to prearm. From prearm you can then arm to engage all motors/actuators. It corresponds to: COM_PREARM_MODE=1 (safety switch) and CBRK_IO_SAFETY=0 (I/O safety circuit breaker disabled).

The default startup sequence is:

  1. Power-up.
    • All actuators locked into disarmed position
    • Not possible to arm.
  2. Safety switch is pressed.
    • System now prearmed: non-throttling actuators can move (e.g. ailerons).
    • System safety is off: Arming possible.
  3. Arm command is issued.
    • The system is armed.
    • All motors and actuators can move.

# COM_PREARM_MODE=Disabled and Safety Switch

When prearm mode is Disabled, engaging the safety switch does not unlock the "safe" actuators, though it does allow you to then arm the vehicle. This corresponds to COM_PREARM_MODE=0 (Disabled) and CBRK_IO_SAFETY=0 (I/O safety circuit breaker disabled).

The startup sequence is:

  1. Power-up.
    • All actuators locked into disarmed position
    • Not possible to arm.
  2. Safety switch is pressed.
    • All actuators stay locked into disarmed position (same as disarmed).
    • System safety is off: Arming possible.
  3. Arm command is issued.
    • The system is armed.
    • All motors and actuators can move.

# COM_PREARM_MODE=Always and Safety Switch

When prearm mode is Always, prearm mode is enabled from power up. To arm, you still need the safety switch. This corresponds to COM_PREARM_MODE=2 (Always) and CBRK_IO_SAFETY=0 (I/O safety circuit breaker disabled).

The startup sequence is:

  1. Power-up.
    • System now prearmed: non-throttling actuators can move (e.g. ailerons).
    • Not possible to arm.
  2. Safety switch is pressed.
    • System safety is off: Arming possible.
  3. Arm command is issued.
    • The system is armed.
    • All motors and actuators can move.

# COM_PREARM_MODE=Safety or Disabled and No Safety Switch

With no safety switch, when COM_PREARM_MODE is set to Safety or Disabled prearm mode cannot be enabled (same as disarmed). This corresponds to COM_PREARM_MODE=0 or 1 (Disabled/Safety Switch) and CBRK_IO_SAFETY=22027 (I/O safety circuit breaker engaged).

The startup sequence is:

  1. Power-up.
    • All actuators locked into disarmed position
    • System safety is off: Arming possible.
  2. Arm command is issued.
    • The system is armed.
    • All motors and actuators can move.

# COM_PREARM_MODE=Always and No Safety Switch

When prearm mode is Always, prearm mode is enabled from power up. This corresponds to COM_PREARM_MODE=2 (Always) and CBRK_IO_SAFETY=22027 (I/O safety circuit breaker engaged).

The startup sequence is:

  1. Power-up.
    • System now prearmed: non-throttling actuators can move (e.g. ailerons).
    • System safety is off: Arming possible.
  2. Arm command is issued.
    • The system is armed.
    • All motors and actuators can move.

# Parameters

Parameter Description
COM_PREARM_MODE Condition to enter prearmed mode. 0: Disabled, 1: Safety switch (prearm mode enabled by safety switch; if no switch present cannot be enabled), 2: Always (prearm mode enabled from power up). Default: 1 (safety button).
CBRK_IO_SAFETY Circuit breaker for IO safety.