1789 SparkFun BOB-13303 SparkFun NewCondition
6 Degrees of Freedom Breakout - LSM303C diagonal view

6 Degrees of Freedom Breakout - LSM303C

14.18

Product Code : 1789

In Stock Now : 1
Available in 5-7 days : 69 units.
Impuestos Incluídos: 15,88 € Impuestos no Incluídos: 13,24 €
  • 6 Degrees of Freedom Breakout - LSM303C diagonal view
  • 6 Degrees of Freedom Breakout - LSM303C with coin
  • 6 Degrees of Freedom Breakout - LSM303C front view
  • 6 Degrees of Freedom Breakout - LSM303C back view

The LSM303C is a 6 Degrees of Freedom (6DOF) inertial measurement unit (IMU) in a single package, specifically developed as an eCompass device. This small breakout board houses a 3-axis accelerometer and a 3-axis magnetometer at a low cost. Each LSM303C Breakout has been designed to be super-flexible and can be configured specifically for many applications. The LSM303C Breakout can be configured to generate an interrupt signal for free-fall, motion detection and magnetic field detection!

The range of each sensor on the LSM303C is configurable: the accelerometer’s scale can be set to ±2g, ±4g, ±6g, or ±8g, while the magnetometer has full-scale range of ±16 gauss, and supports I2C and SPI communication.

Each pin has been broken out on the LSM303C, with 10 plated through hole connections featuring power and I2C and SPI functionality, interrupt outputs, and accelerometer and magnetometer data out. Please keep in mind that the LSM303C is a 2.5V device so supplying voltages greater than ~4.8V can permanently damage the IC. As long as your Arduino has a 3.3V supply output, you shouldn’t need any extra level shifting.

  • 3 magnetic field channels and 3 acceleration channels
  • ±16 gauss magnetic full scale
  • ±2/±4/±8 g selectable acceleration full scale
  • 16-bit data output
  • SPI / I2C serial interfaces
  • Analog supply voltage 1.9 V to 3.6 V
  • Power-down mode / low-power mode
  • ±2/±4/±8 g selectable acceleration full scale
  • Programmable interrupt generators for freefall, motion detection and magnetic field detection
  • Embedded temperature sensor
  • Embedded FIFO

Escribir Tu Propia Revisión

Sólo usuarios registrados pueden escribir sus opiniones. Conéctese o regístrese