Accelemeter
Overview
This sample reads the value of the accelerometer on the 4-Sensors Leaf and displays it on a serial monitor.
Leaf to use
Use the following leaves.
Type | Name | Q’ty |
---|---|---|
AZ62 | Connector Cover | 1 |
AI01 | 4-Sensors | 1 |
AZ01 | USB | 1 |
AP01 | AVR MCU | 1 |
AV01 | CR2032 | 1 |
CR2032 coin cell battery | 1 | |
M2*15mm screw | 2 |
Assembly
Let’s assemble leaves as shown in the figure below.
Source code
Write the following program in the Arduino IDE.
In order to make this sketch work, you need to install the libraries. If you haven’t installed it yet, refer to Environment to install it.
//=====================================================================
// Accelerometer
//
// (c) 2020 Trillion-Node Study Group
// Released under the MIT license
// https://opensource.org/licenses/MIT
//
// Rev.00 2020/05/05 First release
//=====================================================================
#include <Adafruit_LIS3DH.h>
#define LIS3DH_ADDRESS 0x19
Adafruit_LIS3DH accel = Adafruit_LIS3DH();
void setup() {
// initialize serial communication at 115200 second per second:
Serial.begin(115200);
// initialize i2c communication with LIS3DH:
accel.begin(LIS3DH_ADDRESS);
accel.setClick(0, 0); // Disable Interrupt
accel.setRange(LIS3DH_RANGE_2_G); // Full scale +/- 2G
accel.setDataRate(LIS3DH_DATARATE_10_HZ); // Data rate = 10Hz
delay(100);
}
void loop() {
accel.read();
Serial.print("X [g] = " + String(accel.x_g));
Serial.print(", ");
Serial.print("Y [g] = " + String(accel.y_g));
Serial.print(", ");
Serial.print("Z [g] = " + String(accel.z_g));
Serial.println("");
delay(100);
}
Execution Results
Open the serial monitor of the Arduino IDE and set the baud rate to 115200 bps and you will see the acceleration and tilt.
Last modified 15.03.2021