- all CLI parameters related to dynamic idle alone re-named with the `dyn_idle_` prefix
- when linear throttle scaling is active, the user's set idle value is now correct whether dynamic idle is on or off. Previously, the idle value fell when dynamic idle was activated at the same time as linear throttle scaling.
- enabling dynamic idle no longer causes a deadband at full throttle
- the setpoint throttle value sent to Blackbox does not include the dynamic idle offset
- the throttle value sent to the antigravity and dynamic lowpass code includes throttle scaling, but no other modifiers, to avoid false elevation of the apparent throttle position from dynamic idle and unnecessary transient changes in their filter cutoffs
- Dynamic Idle now uses a modified PI controller during active rpm control phase
- the D factor provides early detection of rapid falls in rpm, e.g. in hard chops. It is filtered heavily. Inadequate `dyn_idle_d_gain` may lead to a transient drop in rpm immediately after cutting throttle. Default is 50.
- the P factor provides fast control over rpm during the active control phase. Too much `dyn_idle_p_gain` may cause oscillation in that phase. Note enough and a slow drop in rpm will be inadequately corrected. Default is 50. Needs to be higher with heavier larger props.
- An integral element does most of the work. It prevents enduring offsets from the set rpm. The I gain is high when increasing responding to low rpm, and slow to release. The slow release makes a huge difference and avoids I oscillation. Not enough `dyn_idle_i_gain` and there may be wobble in rpm during the control phase, or the idle value may rise too slowly; too much may cause wobble. Default is 50. Needs to be higher with heavier larger props.
- The DYN_IDLE debug shows idle P, I and D in debugs 0, 1 and 2. minRps stays in debug 3.
- Interactions between throttle and thrust linear, dynamic idle, throttle scaling and throttle boost have been checked and work as they should.
First pass at GHST driver including low-latency control, and basic telemetry.
Fix Ghost channel scaling
Use ghstChannelData instead of rxRuntimeState->channelData
Integrate PR feedback
Primarily de-tab and a few cosmetic changes.
Keep Travis CI happy
Removed unused function
Rework ghost driver to reduce time in ISR, move processing
As requested in PR review.
Fixed issue in telemetry driver, mAh consumed is transmitted as units of 10mAh, not 1mAh.
Resolve Packet Collision Issue with GHST
Send telemetry packets only within a well defined time slot after an incoming Rx packet.
Remove unnecessary comment
rxRefreshRate doesn't need to be dynamic.
Ghost - Remove special case from scheduler
No need to reschedule telemetry for the Ghost protocol.
Fixed some code formatting
+fixReorderingArray() for EEPROM load/save and renamings
fix brace new line
moving MOTOR_OUTPUT_REORDERING to MSP2 betaflight specific
validateAndfixConfig now resets reordering motor array to default in case it is invalid
The MSP override mode allows for use of MSP togehter with
another RX feature like SBUS. When enabling the MSP override
mode all channels from the `msp_override_channels` bitmask
will be overwritten by data comming from MSP instead of the
main RX.
Changed mask var from 16 to 32 bits
Changed variables names
Inverse logic
Added definitions to cli settings
Added logging_fields_mask to blackbox header
Fields are selected using a 16bit uint variable
- Added selection to cli
- Added variable to msp (for future checkbox selection in the configurator)
- removed "blackbox_record_acc" as the same function can be achieved in the new code with "bb_log_acc"
Complete refactor logging rate selection in cli, msp and blackbox code
Retains backward compatibility
Fixed tests and requested changes
Fixed blackbox device "SERIAL" not showing in cms menu and whitespace of "FLASH"
