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Sensores

Bloques Arduino Sensor.

Configure bloques de sensores para leer y medir propiedades físicas de los sensores conectados a placas Arduino®. Estas propiedades físicas se utilizan en varios ejemplos basados en aplicaciones.

Bloques de sensores de aceleración

ADIS16505 IMU SensorMeasure acceleration, angular rate, and temperature along axes of ADIS16505 sensor
ADXL34x AccelerometerMeasure linear acceleration along axes of ADXL34x family of accelerometers
BNO055 IMU SensorMeasure acceleration, angular rate, and magnetic field, and calculate fusion values such as Euler angles, quaternion, linear acceleration, and gravity vector along the axes of BNO055 sensor
ICM20948 IMU SensorMeasure linear acceleration, angular velocity, magnetic field, and temperature from ICM20948 IMU sensor
LIS3DH Accelerometer SensorMeasure linear acceleration, voltage, and temperature from LIS3DH sensor
LSM303C IMU SensorMeasure linear acceleration, magnetic field strength, and temperature from LSM303C sensor
LSM6DS3 IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DS3 sensor
LSM6DS3H IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DS3H sensor
LSM6DSM IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DSM sensor
LSM6DSR IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DSR sensor
LSM6DSO IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DSO sensor
LSM6DSL IMU SensorMeasure linear acceleration, angular rate, and temperature from LSM6DSL sensor
LSM9DS1 IMU SensorMeasure linear acceleration, angular rate, and magnetic field along X, Y, and Z axis
MPU6050 IMU SensorMeasure acceleration, angular rate, and temperature along axes of MPU-6050 sensor
MPU9250 IMU SensorMeasure acceleration, angular rate, magnetic field, and temperature along axes of MPU-9250 sensor

Bloques de sensores de proximidad

APDS9960 SensorRead proximity, gesture, ambient light, and RGB color data from APDS9960 I2C sensor
Ultrasonic SensorMeasure distance between ultrasonic sensor and object

Bloques de sensores ambientales

BME68x Gas SensorMeasure barometric air pressure, relative humidity, ambient temperature, IAQ, eCO2, and bVOC from BME68x sensor
BMP280 Pressure SensorMeasure barometric air pressure and ambient temperature from BMP280 sensor
CCS811 Air Quality SensorMeasure equivalent CO2 (eCO2) and the equivalent total volatile organic compound concentration (eTVOC)
HTS221 Humidity SensorMeasure relative humidity and temperature from HTS221 sensor
LPS22HB Pressure SensorMeasure barometric air pressure and temperature from LPS22HB sensor

Bloques de sensores de vídeo y visión

Pixy2 Vision SensorRepresent connected CMUcam5 Pixy2 vision sensor and tracks object (color blob)
OV2640 Camera SensorCapture JPEG images using ArduCam 2MP Mini Plus camera module with OV2640 sensor

Bloques de sensores de motor y vehículo

EncoderMeasure incremental position and direction of rotating motor
TachometerRead rotational speed of shaft
VL53L0X Time of Flight SensorMeasure distance to a target object

Temas

Aplicaciones de robótica con Arduino y Simulink

Resolución de problemas

Ejemplos destacados

Read Data from ICM20948 Sensor Using Data Ready Interrupt

Read Data from ICM20948 Sensor Using Data Ready Interrupt

Use the interrupt generated by ICM20948 IMU Sensor block to trigger a downstream function-call subsystem that reads acceleration and angular velocity data from the ICM-20948 sensor connected to an Arduino® board.

Triple-Axis Tilt Calculation Using LIS3DH FIFO Data Ready Interrupt

Triple-Axis Tilt Calculation Using LIS3DH FIFO Data Ready Interrupt

Use the FIFO data ready interrupt of LIS3DH linear accelerometer connected to an Arduino® board to sense the tilt of the sensor. This is done using a downstream function-call subsystem that reads acceleration values from FIFO buffer sensor.

Single Click and Double Click Detection Using LIS3DH Single Click Interrupt

Single Click and Double Click Detection Using LIS3DH Single Click Interrupt

Use the Single Click interrupt of LIS3DH linear accelerometer connected to an Arduino® board to sense the single click and double click of the sensor.

Free-Fall Detection Using LIS3DH Freefall Application Interrupt

Free-Fall Detection Using LIS3DH Freefall Application Interrupt

Use the Inertial freefall application interrupt of LIS3DH linear accelerometer connected to an Arduino® board to sense the free-fall of the sensor.

Impact Detection Using LIS3DH Inertial Wakeup Interrupt

Impact Detection Using LIS3DH Inertial Wakeup Interrupt

Use the Inertial wake-up interrupt of LIS3DH linear accelerometer connected to an Arduino® board to sense the impact of the sensor.

Raspberry Pi's Pan Tilt HAT Control Using Arduino MKR WiFi 1010 and LIS3DH Interface

Raspberry Pi's Pan Tilt HAT Control Using Arduino MKR WiFi 1010 and LIS3DH Interface

Configure use the example Simulink model interfacing a Raspberry Pi® hardware with a Pan Tilt HAT control. The model receives information from an Arduino WiFi MKR 1010 connected to a LIS3DH accelerometer sensor. The Pan tilt HAT orientation is controlled based on the received data from the Arduino.

Capture Images Using ArduCam OV2640 Camera Module and ESP32 Hardware

Capture Images Using ArduCam OV2640 Camera Module and ESP32 Hardware

Capture JPEG images using the ArduCam OV2640 camera module with ESP32 hardware.

Estimate Orientation Using AHRS Filter and IMU Data in Simulink

Estimate Orientation Using AHRS Filter and IMU Data in Simulink

Stream IMU data from sensors connected to Arduino® board and estimate orientation using AHRS filter and IMU sensor.