- Startup was broken due to unnecessary cyclic check probably introduced during transition to work_queues
- Module never used other than on Teal One which had a hacky heater input GPIO, this enables usage on general boards
drivers: heater: reduce verbosity and simplify commandline options
- We prefer the linux way of only reporting errors and staying quiet when everything is functioning as designed
- Most of the commandline options just read out the values of the system parameters, and one can just check the parameter values directly.
sensor_params: make thermal control parameters system parameters
heater_params: make thermal control parameters system parameters
drivers: heater: remove pin control hacks
- px4_arch_configgpio(GPIO_HEATER_OUTPUT) directly inits the heater pin to OFF, and as a PUSHPULL (TTL totem pole) OUTPUT
drivers: heater: set default device ID to 0
px4_fmuv5:Needed PROGMEM
fmu-v5:Kconfig - add knob to ensure ARCH_MATH_H is kept
Upstream changes added ARCH_HAVE_MATH_H to protect from archs
without math.h from causing isses for users setting
CONFIG_ARCH_MATH_H and getting errors. PX4 provides a math.h
and we need CONFIG_ARCH_MATH_H set. So this Selects
ARCH_HAVE_MATH_H perserving CONFIG_ARCH_MATH_H a defconfig
px4_io - add knob to ensure ARCH_MATH_H is kept
Upstream changes added ARCH_HAVE_MATH_H to protect from archs
without math.h from causing isses for users setting
CONFIG_ARCH_MATH_H and getting errors. PX4 provides a math.h
and we need CONFIG_ARCH_MATH_H set. So this Selects
ARCH_HAVE_MATH_H perserving CONFIG_ARCH_MATH_H a defconfig
The interrupt driven card detect logic was enabled
but the auto mounter was not. That interrupt was
calling mmcsd_mediachange.
There is a reentrancy issues in the kinetis callback logic.
Toplevel calls mmcsd_mediachange calls SDIO_CALLBACKENABLE
that calls kinetis_callbackenable that calls kinetis_callback
that calls mmcsd_mediachange.
This fixes spuriously occuring mag spikes in the external mag of Here2.
The reason for the spikes was that the fact that the I2C registers were
not read out correctly as suggested in the datasheet.
Before we were reading out ST1, data, and ST2 in one pass and ignoring
the data ready bit (DRDY) in ST1. This meant that we could run into race
conditions where the data was not ready when we started reading and
being updated as the registers are read.
Instead, we need to check the read the ST1 register first to check the
data ready bit and then read the data and ST2 if the data is ready. By
reading ST2 we then trigger the next measurement in the chip.
Note: the author name was removed because this file has almost no
resemblence with the code written by that author 4 years ago, has been
copied to new places, and was initially commited without author anyway.
Also, my opinion is that the version control system should take care of
attribution, and not outdated comments.
* ekf_control: Inhibit mag fusion when field magnitude is large
Move mag inhibition check in separate function
* ekf_control: pull out of functionalities out of controlMagFusion
- yaw abd mag bias observability checks
- mag 3D conditions
- load mag covariances
- set and clear mag control modes
* ekf_control: refactor mag heading/3D start/stop.
Move mag declination, mag 3d and mag heading fusion out of the main function
* ekf_control: extract mag yaw reset and mag declination fusion requirements
* ekf_control: use WMM in isStronMagneticField for mag fusion inhibition
- Correct units of WMM strength table
* ekf_control: extract mag_state_only functionality of AUTOFW (VTOL custom)
Also split inAirYawReset from onGroundYawReset
* ekf_control: extract mag automatic selection
- transform if-else into switch-case for parameter fusion type selection
* ekf_control: extract run3DMagAndDeclFusion, reorganize functions, fix
flag naming in Test script
* ekf_control: do not run mag fusion if tilt is not aligned.
Reset some variables on ground even if mag fusion is not running yet. It
could be that it runs later so we need to make sure that those variables
are properly set.
* ekf_control: move controlMagFusion and related functions to mag_control.cpp
* ekf control: check for validity of mag strength from WMM and falls back
to average earth mag field with larger gate if not valid
* ekf control: remove evyaw check for mag inhibition
* ekf control: change nested ternary operator into if-else if
* Ekf: create AlphaFilter template class for simple low-pass filtering
0.1/0.9 type low-pass filters are commonly used to smooth data, this
class is meant to abstract the computation of this filter
* ekf control: reset heading using mag_lpf data to avoid resetting on an outlier
fixes ecl issue #525
* ekf control: replace mag_states_only flag with mag_field_disturbed and
add parameter to enable or disable mag field strength check
* ekf control: remove AUTOFW mag fusion type as not needed This was implemented for VTOL but did not solve the problem and should not be used anymore
* ekf control: use start/stop mag functions everywhere instead of setting the flag
* ekf control: Run mag fusion depending on yaw_align instead of tilt_align
as there is no reason to fuse mag when the ekf isn't aligned
* AlphaFilter: add test for float and Vector3f