모듈 참조: 드라이버
하위 카테고리:
MCP23009
Source: drivers/gpio/mcp23009
사용법
MCP23009 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 37
[-D <val>] Direction
default: 0
[-O <val>] Output
default: 0
[-P <val>] Pullups
default: 0
[-U <val>] Update Interval [ms]
default: 0
stop
status print status info
adc
설명
ADC 드라이버
사용법
adc <command> [arguments...]
Commands:
start
test
[-n] Do not publish ADC report, only system power
stop
status print status info
ads1115
설명
Driver to enable an external ADS1115 ADC connected via I2C.
The driver is included by default in firmware for boards that do not have an internal analog to digital converter, such as PilotPi or CUAV Nora (search for CONFIG_DRIVERS_ADC_ADS1115
in board configuration files).
It is enabled/disabled using the ADC_ADS1115_EN parameter, and is disabled by default. If enabled, internal ADCs are not used.
사용법
ads1115 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 72
stop
status print status info
atxxxx
설명
예를 들어 OmnibusF4SD 보드에 장착된 ATXXXX 칩용 OSD 드라이버.
OSD_ATXXXX_CFG 매개변수로 활성화합니다.
사용법
atxxxx <command> [arguments...]
Commands:
start
[-s] Internal SPI bus(es)
[-S] External SPI bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-c <val>] chip-select index (for external SPI)
default: 1
[-m <val>] SPI mode
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
stop
status print status info
batmon
소스: drivers/smart_battery/batmon
설명
BatMon 지원 스마트 배터리와 SMBUS 통신용 드라이버 설정/사용 정보: https://rotoye.com/batmon-tutorial/
예
주소 0x0B에서 시작하려면 버스 4에서
batmon start -X -a 11 -b 4
사용법
batmon <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 11
man_info Prints manufacturer info.
suspend Suspends the driver from rescheduling the cycle.
resume Resumes the driver from suspension.
stop
status print status info
batt_smbus
설명
BQ40Z50 연료 게이지 IC용 스마트 배터리 드라이버.
예
매개변수를 설정하기 위해 플래시에 쓰기. 주소, number_of_bytes, byte0, ..., byteN
batt_smbus -X write_flash 19069 2 27 0
사용법
batt_smbus <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 11
man_info Prints manufacturer info.
unseal Unseals the devices flash memory to enable write_flash
commands.
seal Seals the devices flash memory to disable write_flash commands.
suspend Suspends the driver from rescheduling the cycle.
resume Resumes the driver from suspension.
write_flash Writes to flash. The device must first be unsealed with the
unseal command.
[address] The address to start writing.
[number of bytes] Number of bytes to send.
[data[0]...data[n]] One byte of data at a time separated by spaces.
stop
status print status info
bst
사용법
bst <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 118
stop
status print status info
crsf_rc
Source: drivers/rc/crsf_rc
설명
This module parses the CRSF RC uplink protocol and generates CRSF downlink telemetry data
사용법
crsf_rc <command> [arguments...]
Commands:
start
[-d <val>] RC device
values: <file:dev>, default: /dev/ttyS3
stop
status print status info
dshot
소스: drivers/dshot
설명
이것은 DShot 출력 드라이버입니다. fmu 드라이버와 유사하며, PWM 대신 ESC 통신 프로토콜로 DShot을 사용하기 위하여 사용할 수 있습니다.
On startup, the module tries to occupy all available pins for DShot output. It skips all pins already in use (e.g. by a camera trigger module).
모터 1 영구 역회전 :
- DShot150, DShot300, DShot600, DShot1200
- 별도의 UART를 통한 텔레메트리와 esc_status 메시지로 게시
- CLI를 통해 DShot 명령 보내기
예
Permanently reverse motor 1:
dshot reverse -m 1
dshot save -m 1
After saving, the reversed direction will be regarded as the normal one. So to reverse again repeat the same commands.
사용법
dshot <command> [arguments...]
Commands:
start Start the task (without any mode set, use any of the mode_*
cmds)
All of the mode_* commands will start the module if not running already
mode_gpio
mode_pwm Select all available pins as PWM
mode_pwm14
mode_pwm12
mode_pwm8
mode_pwm6
mode_pwm5
mode_pwm5cap1
mode_pwm4
mode_pwm4cap1
mode_pwm4cap2
mode_pwm3
mode_pwm3cap1
mode_pwm2
mode_pwm2cap2
mode_pwm1
telemetry Enable Telemetry on a UART
<device> UART device
reverse Reverse motor direction
[-m <val>] Motor index (1-based, default=all)
normal Normal motor direction
[-m <val>] Motor index (1-based, default=all)
save Save current settings
[-m <val>] Motor index (1-based, default=all)
3d_on Enable 3D mode
[-m <val>] Motor index (1-based, default=all)
3d_off Disable 3D mode
[-m <val>] Motor index (1-based, default=all)
beep1 Send Beep pattern 1
[-m <val>] Motor index (1-based, default=all)
beep2 Send Beep pattern 2
[-m <val>] Motor index (1-based, default=all)
beep3 Send Beep pattern 3
[-m <val>] Motor index (1-based, default=all)
beep4 Send Beep pattern 4
[-m <val>] Motor index (1-based, default=all)
beep5 Send Beep pattern 5
[-m <val>] Motor index (1-based, default=all)
esc_info Request ESC information
-m <val> Motor index (1-based)
stop
status print status info
fake_gps
설명
사용법
fake_gps <command> [arguments...]
Commands:
start
stop
status print status info
fake_imu
소스: examples/fake_magnetometer
설명
사용법
fake_imu <command> [arguments...]
Commands:
start
stop
status print status info
fake_magnetometer
Source: examples/fake_magnetometer
설명
Publish the earth magnetic field as a fake magnetometer (sensor_mag). Requires vehicle_attitude and vehicle_gps_position.
사용법
fake_magnetometer <command> [arguments...]
Commands:
start
stop
status print status info
ft_technologies_serial
Source: drivers/wind_sensor/ft_technologies
설명
Serial bus driver for the FT Technologies Digital Wind Sensor FT742. This driver is required to operate alongside a RS485 to UART signal transfer module.
Most boards are configured to enable/start the driver on a specified UART using the SENS_FTX_CFG parameter.
예
Attempt to start driver on a specified serial device.
ft_technologies_serial start -d /dev/ttyS1
Stop driver
ft_technologies_serial stop
Usage
ft_technologies_serial <command> [arguments...]
Commands:
start Start driver
-d <val> Serial device
stop Stop driver
gimbal
Source: modules/gimbal
Description
Mount/gimbal Gimbal control driver. It maps several different input methods (eg. RC or MAVLink) to a configured output (eg. AUX channels or MAVLink).
Documentation how to use it is on the gimbal_control page.
예
Test the output by setting a angles (all omitted axes are set to 0):
gimbal test pitch -45 yaw 30
Usage
gimbal <command> [arguments...]
Commands:
start
status
primary-control Set who is in control of gimbal
<sysid> <compid> MAVLink system ID and MAVLink component ID
test Test the output: set a fixed angle for one or multiple axes
(gimbal must be running)
roll|pitch|yaw <angle> Specify an axis and an angle in degrees
stop
status print status info
gps
Source: drivers/gps
Description
GPS driver module that handles the communication with the device and publishes the position via uORB. It supports multiple protocols (device vendors) and by default automatically selects the correct one.
The module supports a secondary GPS device, specified via -e
parameter. The position will be published on the second uORB topic instance, but it's currently not used by the rest of the system (however the data will be logged, so that it can be used for comparisons).
Implementation
There is a thread for each device polling for data. The GPS protocol classes are implemented with callbacks so that they can be used in other projects as well (eg. QGroundControl uses them too).
예
Starting 2 GPS devices (the main GPS on /dev/ttyS3 and the secondary on /dev/ttyS4):
gps start -d /dev/ttyS3 -e /dev/ttyS4
Initiate warm restart of GPS device
gps reset warm
설명
gps <command> [arguments...]
Commands:
start
[-d <val>] GPS device
values: <file:dev>, default: /dev/ttyS3
[-b <val>] Baudrate (can also be p:<param_name>)
default: 0
[-e <val>] Optional secondary GPS device
values: <file:dev>
[-g <val>] Baudrate (secondary GPS, can also be p:<param_name>)
default: 0
[-i <val>] GPS interface
values: spi|uart, default: uart
[-j <val>] secondary GPS interface
values: spi|uart, default: uart
[-p <val>] GPS Protocol (default=auto select)
values: ubx|mtk|ash|eml|fem|nmea
stop
status print status info
reset Reset GPS device
cold|warm|hot Specify reset type
gz_bridge
Source: modules/simulation/gz_bridge
예
Usage
gz_bridge <command> [arguments...]
Commands:
start
-m <val> Fuel model name
-p <val> Model Pose
-n <val> Model name
-i <val> PX4 instance
[-w <val>] World name
stop
status print status info
ina220
Source: drivers/power_monitor/ina220
Description
Driver for the INA220 power monitor.
Multiple instances of this driver can run simultaneously, if each instance has a separate bus OR I2C address.
For example, one instance can run on Bus 2, address 0x41, and one can run on Bus 2, address 0x43.
If the INA220 module is not powered, then by default, initialization of the driver will fail. To change this, use the -f flag. If this flag is set, then if initialization fails, the driver will keep trying to initialize again every 0.5 seconds. With this flag set, you can plug in a battery after the driver starts, and it will work. Without this flag set, the battery must be plugged in before starting the driver.
Usage
ina220 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 65
[-k] if initialization (probing) fails, keep retrying periodically
[-t <val>] battery index for calibration values (1 or 3)
default: 1
[-T <val>] Type
values: VBATT|VREG, default: VBATT
stop
status print status info
ina226
Source: drivers/power_monitor/ina226
Description
Driver for the INA226 power monitor.
Multiple instances of this driver can run simultaneously, if each instance has a separate bus OR I2C address.
For example, one instance can run on Bus 2, address 0x41, and one can run on Bus 2, address 0x43.
If the INA226 module is not powered, then by default, initialization of the driver will fail. To change this, use the -f flag. If this flag is set, then if initialization fails, the driver will keep trying to initialize again every 0.5 seconds. With this flag set, you can plug in a battery after the driver starts, and it will work. Without this flag set, the battery must be plugged in before starting the driver.
Usage
ina226 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 65
[-k] if initialization (probing) fails, keep retrying periodically
[-t <val>] battery index for calibration values (1 or 3)
default: 1
stop
status print status info
ina228
Source: drivers/power_monitor/ina228
Description
Driver for the INA228 power monitor.
Multiple instances of this driver can run simultaneously, if each instance has a separate bus OR I2C address.
For example, one instance can run on Bus 2, address 0x45, and one can run on Bus 2, address 0x45.
If the INA228 module is not powered, then by default, initialization of the driver will fail. To change this, use the -f flag. If this flag is set, then if initialization fails, the driver will keep trying to initialize again every 0.5 seconds. With this flag set, you can plug in a battery after the driver starts, and it will work. Without this flag set, the battery must be plugged in before starting the driver.
Usage
ina228 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 69
[-k] if initialization (probing) fails, keep retrying periodically
[-t <val>] battery index for calibration values (1 or 3)
default: 1
stop
status print status info
ina238
Source: drivers/power_monitor/ina238
Description
Driver for the INA238 power monitor.
Multiple instances of this driver can run simultaneously, if each instance has a separate bus OR I2C address.
For example, one instance can run on Bus 2, address 0x45, and one can run on Bus 2, address 0x45.
If the INA238 module is not powered, then by default, initialization of the driver will fail. To change this, use the -f flag. If this flag is set, then if initialization fails, the driver will keep trying to initialize again every 0.5 seconds. With this flag set, you can plug in a battery after the driver starts, and it will work. Without this flag set, the battery must be plugged in before starting the driver.
사용법
ina238 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 69
[-k] if initialization (probing) fails, keep retrying periodically
[-t <val>] battery index for calibration values (1 or 3)
default: 1
stop
status print status info
iridiumsbd
Source: drivers/telemetry/iridiumsbd
Description
IridiumSBD driver.
Creates a virtual serial port that another module can use for communication (e.g. mavlink).
Usage
iridiumsbd <command> [arguments...]
Commands:
start
-d <val> Serial device
values: <file:dev>
[-v] Enable verbose output
test
[s|read|AT <cmd>] Test command
stop
status print status info
irlock
Source: drivers/irlock
Usage
irlock <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 84
stop
status print status info
linux_pwm_out
Source: drivers/linux_pwm_out
설명
Linux PWM output driver with board-specific backend implementation.
Usage
linux_pwm_out <command> [arguments...]
Commands:
start
stop
status print status info
lsm303agr
Source: drivers/magnetometer/lsm303agr
사용법
lsm303agr <command> [arguments...]
Commands:
start
[-s] Internal SPI bus(es)
[-S] External SPI bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-c <val>] chip-select pin (for internal SPI) or index (for external SPI)
[-m <val>] SPI mode
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-R <val>] Rotation
default: 0
stop
status print status info
msp_osd
Source: drivers/osd/msp_osd
설명
MSP telemetry streamer
Implementation
Converts uORB messages to MSP telemetry packets
예
CLI usage example:
msp_osd
Usage
msp_osd <command> [arguments...]
Commands:
stop
status print status info
newpixel
Source: drivers/lights/neopixel
설명
This module is responsible for driving interfasing to the Neopixel Serial LED
예
It is typically started with:
neopixel -n 8
To drive all available leds.
Usage
newpixel <command> [arguments...]
Commands:
stop
status print status info
paa3905
Source: drivers/optical_flow/paa3905
사용법
paa3905 <command> [arguments...]
Commands:
start
[-s] Internal SPI bus(es)
[-S] External SPI bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-c <val>] chip-select pin (for internal SPI) or index (for external SPI)
[-m <val>] SPI mode
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-Y <val>] custom yaw rotation (degrees)
default: 0
stop
status print status info
paw3902
Source: drivers/optical_flow/paw3902
Usage
paw3902 <command> [arguments...]
Commands:
start
[-s] Internal SPI bus(es)
[-S] External SPI bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-c <val>] chip-select pin (for internal SPI) or index (for external SPI)
[-m <val>] SPI mode
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-Y <val>] custom yaw rotation (degrees)
default: 0
stop
status print status info
pca9685_pwm_out
Source: drivers/pca9685_pwm_out
설명
This is a PCA9685 PWM output driver.
It runs on I2C workqueue which is asynchronous with FC control loop, fetching the latest mixing result and write them to PCA9685 at its scheduling ticks.
It can do full 12bits output as duty-cycle mode, while also able to output precious pulse width that can be accepted by most ESCs and servos.
예
It is typically started with:
pca9685_pwm_out start -a 0x40 -b 1
사용법
pca9685_pwm_out <command> [arguments...]
Commands:
start Start the task
[-a <val>] 7-bits I2C address of PCA9685
values: <addr>, default: 0x40
[-b <val>] bus that pca9685 is connected to
default: 1
stop
status print status info
pm_selector_auterion
Source: drivers/power_monitor/pm_selector_auterion
설명
Driver for starting and auto-detecting different power monitors.
사용법
pm_selector_auterion <command> [arguments...]
Commands:
start
stop
status print status info
pmw3901
Source: drivers/optical_flow/pmw3901
사용법
pmw3901 <command> [arguments...]
Commands:
start
[-s] Internal SPI bus(es)
[-S] External SPI bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-c <val>] chip-select pin (for internal SPI) or index (for external SPI)
[-m <val>] SPI mode
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-R <val>] Rotation
default: 0
stop
status print status info
pps_capture
Source: drivers/pps_capture
설명
This implements capturing PPS information from the GNSS module and calculates the drift between PPS and Real-time clock.
사용법
pps_capture <command> [arguments...]
Commands:
start
stop
status print status info
pwm_out
Source: drivers/pwm_out
설명
This module is responsible for driving the output pins. For boards without a separate IO chip (eg. Pixracer), it uses the main channels. On boards with an IO chip (eg. Pixhawk), it uses the AUX channels, and the px4io driver is used for main ones.
사용법
pwm_out <command> [arguments...]
Commands:
start
stop
status print status info
pwm_out_sim
Source: modules/simulation/pwm_out_sim
설명
Driver for simulated PWM outputs.
Its only function is to take actuator_control
uORB messages, mix them with any loaded mixer and output the result to the actuator_output
uORB topic.
It is used in SITL and HITL.
사용법
pwm_out_sim <command> [arguments...]
Commands:
start Start the module
[-m <val>] Mode
values: hil|sim, default: sim
stop
status print status info
px4flow
Source: drivers/optical_flow/px4flow
사용법
px4flow <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 66
stop
status print status info
px4io
Source: drivers/px4io
설명
Output driver communicating with the IO co-processor.
사용법
px4io <command> [arguments...]
Commands:
start
checkcrc Check CRC for a firmware file against current code on IO
<filename> Firmware file
update Update IO firmware
[<filename>] Firmware file
debug set IO debug level
<debug_level> 0=disabled, 9=max verbosity
bind DSM bind
dsm2|dsmx|dsmx8 protocol
sbus1_out enable sbus1 out
sbus2_out enable sbus2 out
supported Returns 0 if px4io is supported
test_fmu_fail test: turn off IO updates
test_fmu_ok re-enable IO updates
stop
status print status info
rc_input
Source: drivers/rc_input
설명
This module does the RC input parsing and auto-selecting the method. Supported methods are:
- PPM
- SBUS
- DSM
- SUMD
- ST24
- TBS Crossfire (CRSF)
사용법
rc_input <command> [arguments...]
Commands:
start
[-d <val>] RC device
values: <file:dev>, default: /dev/ttyS3
bind Send a DSM bind command (module must be running)
stop
status print status info
rgbled
Source: drivers/lights/rgbled_ncp5623c
사용법
rgbled <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 57
[-o <val>] RGB PWM Assignment
default: 123
stop
status print status info
rgbled_is31fl3195
Source: drivers/lights/rgbled_is31fl3195
사용법
rgbled_is31fl3195 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 84
[-o <val>] RGB PWM Assignment
default: 123
[-i <val>] Current Band
default: 0.5
stop
status print status info
rgbled_lp5562
Source: drivers/lights/rgbled_lp5562
설명
Driver for LP5562 LED driver connected via I2C.
This used in some GPS modules by Holybro for PX4 status notification
The driver is included by default in firmware (KConfig key DRIVERS_LIGHTS_RGBLED_LP5562) and is always enabled.
사용법
rgbled_lp5562 <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 48
[-u <val>] Current in mA
default: 17.5
stop
status print status info
roboclaw
Source: drivers/roboclaw
설명
This driver communicates over UART with the Roboclaw motor driver. It performs two tasks:
- Control the motors based on the OutputModuleInterface.
- Read the wheel encoders and publish the raw data in the
wheel_encoders
uORB topic
In order to use this driver, the Roboclaw should be put into Packet Serial mode (see the linked documentation), and your flight controller's UART port should be connected to the Roboclaw as shown in the documentation. The driver needs to be enabled using the parameter RBCLW_SER_CFG
, the baudrate needs to be set correctly and the address RBCLW_ADDRESS
needs to match the ESC configuration.
The command to start this driver is: $ roboclaw start <UART device> <baud rate>
사용법
roboclaw <command> [arguments...]
Commands:
start
stop
status print status info
safety_button
Source: drivers/safety_button
설명
This module is responsible for the safety button. Pressing the safety button 3 times quickly will trigger a GCS pairing request.
사용법
safety_button <command> [arguments...]
Commands:
start
stop
status print status info
sht3x
Source: drivers/hygrometer/sht3x
설명
SHT3x Temperature and Humidity Sensor Driver by Senserion.
예
CLI usage example:
sht3x start -X
Start the sensor driver on the external bus
sht3x status
Print driver status
sht3x values
Print last measured values
sht3x reset
Reinitialize senzor, reset flags
Usage
sht3x <command> [arguments...]
Commands:
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 68
[-k] if initialization (probing) fails, keep retrying periodically
stop
status print status info
values Print actual data
reset Reinitialize sensor
tap_esc
Source: drivers/tap_esc
Description
This module controls the TAP_ESC hardware via UART. It listens on the actuator_controls topics, does the mixing and writes the PWM outputs.
Implementation
Currently the module is implemented as a threaded version only, meaning that it runs in its own thread instead of on the work queue.
Example
The module is typically started with:
tap_esc start -d /dev/ttyS2 -n <1-8>
사용법
tap_esc <command> [arguments...]
Commands:
start Start the task
[-d <val>] Device used to talk to ESCs
values: <device>
[-n <val>] Number of ESCs
default: 4
tone_alarm
Source: drivers/tone_alarm
설명
This module is responsible for the tone alarm.
사용법
tone_alarm <command> [arguments...]
Commands:
start
stop
status print status info
uwb
Source: drivers/uwb/uwb_sr150
설명
Driver for NXP UWB_SR150 UWB positioning system. This driver publishes a uwb_distance
message whenever the UWB_SR150 has a position measurement available.
Example
Start the driver with a given device:
uwb start -d /dev/ttyS2
사용법
uwb <command> [arguments...]
Commands:
start
-d <val> Name of device for serial communication with UWB
values: <file:dev>
-b <val> Baudrate for serial communication
values: <int>
stop
status
voxl2_io
Source: drivers/voxl2_io
Description
This module is responsible for driving the output pins. For boards without a separate IO chip (eg. Pixracer), it uses the main channels. On boards with an IO chip (eg. Pixhawk), it uses the AUX channels, and the px4io driver is used for main ones.
사용법
voxl2_io <command> [arguments...]
Commands:
start Start the task
-v Verbose messages
-d Disable PWM
-e Disable RC
-p <val> UART port
calibrate_escs Calibrate ESCs min/max range
calibrate_escs Calibrate ESCs min/max range
pwm Open-Loop PWM test control request
-c <val> PWM OUTPUT Channel, 0-3
-r <val> Duty Cycle value, 0 to 800
-n <val> Command repeat count, 0 to INT_MAX
-t <val> Delay between repeated commands (microseconds), 0 to INT_MAX
stop
status print status info
voxl_esc
Source: drivers/actuators/voxl_esc
Description
This module is responsible for...
Implementation
By default the module runs on a work queue with a callback on the uORB actuator_controls topic.
Examples
It is typically started with:
todo
Usage
voxl_esc <command> [arguments...]
Commands:
start Start the task
reset Send reset request to ESC
-i <val> ESC ID, 0-3
version Send version request to ESC
-i <val> ESC ID, 0-3
version-ext Send extended version request to ESC
-i <val> ESC ID, 0-3
rpm Closed-Loop RPM test control request
-i <val> ESC ID, 0-3
-r <val> RPM, -32,768 to 32,768
-n <val> Command repeat count, 0 to INT_MAX
-t <val> Delay between repeated commands (microseconds), 0 to INT_MAX
pwm Open-Loop PWM test control request
-i <val> ESC ID, 0-3
-r <val> Duty Cycle value, 0 to 800
-n <val> Command repeat count, 0 to INT_MAX
-t <val> Delay between repeated commands (microseconds), 0 to INT_MAX
tone Send tone generation request to ESC
-i <val> ESC ID, 0-3
-p <val> Period of sound, inverse frequency, 0-255
-d <val> Duration of the sound, 0-255, 1LSB = 13ms
-v <val> Power (volume) of sound, 0-100
led Send LED control request
-l <val> Bitmask 0x0FFF (12 bits) - ESC0 (RGB) ESC1 (RGB) ESC2 (RGB)
ESC3 (RGB)
stop
status print status info
voxlpm
Source: drivers/power_monitor/voxlpm
Usage
voxlpm [arguments...]
start
[-I] Internal I2C bus(es)
[-X] External I2C bus(es)
[-b <val>] board-specific bus (default=all) (external SPI: n-th bus
(default=1))
[-f <val>] bus frequency in kHz
[-q] quiet startup (no message if no device found)
[-a <val>] I2C address
default: 68
[-T <val>] Type
values: VBATT|P5VDC|P12VDC, default: VBATT
[-k] if initialization (probing) fails, keep retrying periodically
stop
status print status info
zenoh
Source: modules/zenoh
Description
Zenoh demo bridge
Usage
zenoh <command> [arguments...]
Commands:
start
stop
status
config