Fork from inav at github. Modified for some special functions needs.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 

8.6 KiB

Mixer and platform type

Mixing rules determine how servos and motors react to user and FC inputs. INAV supports various preset mixer configurations as well as custom mixing rules.

Configuration

The mixer can be configured through the Mixer tab of the graphical user interface or using the CLI commands mmix and smix. mmix to define motor mixing rules and smix to define servo mixing rules.

To use a mixer preset first select the platform type then the mixer preset matching your aircraft and either press the Load and apply or Load mixer buttons. The Load and apply button will load the mixer, save it and ask to reboot the flight controller. The Load mixer button only loads the preset mixing rules, you can then edit them to suit your needs and when you are done you need to press the Save and Reboot button to save the rules.

Watch this video for a detailed description of the GUI and the documentation bellow for more details.

Platform type

The platform type determines what features will be available to match the type of aircraft: available flight modes, flight modes behaviour, availability of flaps and displayed types of mixer presets. It can be set through the GUI's Mixer tab or through the CLI's platform_type setting.

Currently, following platform types are supported:

  • MULTIROTOR
  • AIRPLANE
  • TRICOPTER

Writing custom mixing rules

Motor Mixing

A motor mixing rule is needed for each motor. Each rule defines weights that determine how the motor it applies to will change its speed relative to the requested throttle and flight dynamics: roll rate, pitch rate and yaw rate. The heigher a weight the more the input will have an impact on the speed of the motor. Refer to the following table for the meaning of each weight.

Weight Definition
THROTTLE Speed of the motor relative to throttle. Range [0.0, 1.0]. A motor with a weight of 0.5 will receive a command that will half of a motor with a 1.0 weight
ROLL Indicates how much roll authority this motor imparts to the roll rate of the aircraft. Range [-1.0, 1.0]. For fixed wing models this is usually set to 0. A positive value means that the motor needs to accelerate for a positive roll rate request (rolling right). A negative value means that the motor needs to decelerate.
PITCH Indicates how much pitch authority this motor imparts to the pitch rate of the aircraft. Range [-1.0, 1.0]. For fixed wing models this is usually set to 0. A positive value means that the motor needs to accelerate for a positive pitch rate request (pitching down). A negative value means that the motor needs to decelerate.
YAW Indicates how much yaw authority this motor imparts to the yaw rate of the aircraft. Range [-1.0, 1.0]. For fixed wing models with more than one motor this weight can be used to setup differential thrust. For fixed wing models with only one motor this is usually set to 0. A positive value means that the motor needs to accelerate for a positive yaw rate request (clockwise yaw seen from the top of the model). A negative value means that the motor needs to decelerate

CLI commands to configure motor mixing rules:

The mmix reset command removes all the existing motor mixing rules.

The mmix command is used to list, create or modify rules. To list the currently defined rules run the mmix command without parameters.

To create or modify rules use the mmix command with the following syntax: mmix <n> <throttle> <roll> <pitch> <yaw>. <n> is representing the index of the motor output pin (integer). The other parameters are decimal weights for each of the inputs. To disable a mixing rule set the throttle weight to 0.

Servo Mixing

At least one servo mixing rule is needed for each servo. Each rule defines how a servo will move relative to a specific input like a RC channel, or a requested flight dynamics rate or position from the flight controller.

Each servo mixing rule has the following parameters:

  • Servo index: defines which servo the rule will apply to. The absolute value of the index is not important, what matters is only the relative difference between the used indexes. The rule with the smaller servo index will apply to the first servo, the next higher servo index to the second servo, etc. More than one rule can use the same servo index. The output of the rules with the same servo index are added together to give the final output for the specified servo.
  • Input: the input for the mixing rule, see a summary of the input types table bellow.
  • Weight: percentage of the input to forward to the servo. Range [-1000, 1000]. Mixing rule output = input * weight. If the output of a set of mixing rules is lower/higher than the defined servo min/max the output is clipped (the servo will never travel farther than the set min/max).
  • Speed: maximum rate of change of the mixing rule output. Used to limit the servo speed. 1 corresponds to maximum 10µs/s output rate of change. Set to 0 for no speed limit. For example: 10 = full sweep (1000 to 2000) in 10s, 100 = full sweep in 1s.
CLI input ID Mixer input Description
0 Stabilised ROLL Roll command from the flight controller. Depends on the selected flight mode(s)
1 Stabilised PITCH Pitch command from the flight controller. Depends on the selected flight mode(s)
2 Stabilised YAW Yaw command from the flight controller. Depends on the selected flight mode(s)
3 Stabilised THROTTLE Throttle command from the flight controller. Depends on the selected flight mode(s)
4 RC ROLL Raw roll RC channel
5 RC PITCH Raw pitch RC channel
6 RC YAW Raw yaw RC channel
7 RC THROTTLE Raw throttle RC channel
8 RC channel 5 Raw RC channel 5
9 RC channel 6 Raw RC channel 6
10 RC channel 7 Raw RC channel 7
11 RC channel 8 Raw RC channel 8
12 GIMBAL PITCH Scaled pitch attitude of the aircraft [-90°, 90°] => [-500, 500]
13 GIMBAL ROLL Scaled roll attitude of the aircraft [-180°, 180°] => [-500, 500]
14 FEATURE FLAPS This input value is equal to the flaperon_throw_offset setting when the FLAPERON flight mode is enabled, 0 otherwise
15 RC channel 9 Raw RC channel 9
16 RC channel 10 Raw RC channel 10
17 RC channel 11 Raw RC channel 11
18 RC channel 12 Raw RC channel 12
19 RC channel 13 Raw RC channel 13
20 RC channel 14 Raw RC channel 14
21 RC channel 15 Raw RC channel 15
22 RC channel 16 Raw RC channel 16
23 Stabilized ROLL+ Clipped between 0 and 1000
24 Stabilized ROLL- Clipped between -1000 and 0
25 Stabilized PITCH+ Clipped between 0 and 1000
26 Stabilized PITCH- Clipped between -1000 and 0
27 Stabilized YAW+ Clipped between 0 and 1000
28 Stabilized YAW- Clipped between -1000 and 0
29 MAX Constant value of 500

The smix reset command removes all the existing motor mixing rules.

The smix command is used to list, create or modify rules. To list the currently defined rules run the smix command without parameters.

To create or modify rules use the smix command with the following syntax: smix <n> <servo_index> <input_id> <weight> <speed> <logic_condition_id>. <n> is representing the index of the servo mixing rule to create or modify (integer). To disable a mixing rule set the weight to 0.

logic_condition_id default value is -1 for rules that should be always executed.

Logic Conditions

Logic Conditions allows to activate/deactivate smix rules based on user input and flight parameters. If Logic Condition evaluates as false, smix rule connected with with LC will not be active and used inside the Mixer.

This mechanism allows to move servos when desired conditions are met. For example, if an airplane is equipped with a pitot tube and flaps, flaps can be automatically deployed when airspeed goes below a threshold.

Other usages can be:

  • automatic parachute deployment
  • VTOL and especially tail-sitters that require change in mixings during flight mode transition
  • crowbar airbrakes
  • any kind of servo mixings that should be changed during flight