LIS35DE MEMS motion sensor 3-axis - ± 2g/± 8g smart digital output piccolo accelerometer

The LIS35DE is an ultra compact low-power three axis linear accelerometer. It includes a sensing element and an IC interface able to provide the measured acceleration to the external world through I²C/SPI serial interface.

The sensing element, capable of detecting the acceleration, is manufactured using a dedicated process developed by ST to produce inertial sensors and actuators in silicon.

The IC interface is manufactured using a CMOS process that allows to design a dedicated circuit which is trimmed to better match the sensing element characteristics.

The LIS35DE has dynamically user selectable full scales of ±2g/±8g and it is capable of measuring accelerations with an output data rate of 100 Hz or 400 Hz.

The device may be configured to generate inertial wake-up/free-fall interrupt signals when a programmable acceleration threshold is crossed at least in one of the three axes. Thresholds and timing of interrupt generators are programmable by the end user on the fly.

The LIS35DE is available in plastic Thin Land Grid Array package (TGA) and it is designed to operate over an extended temperature range from -40°C to +85°C

技术特性
  • 2.16 V to 3.6 V supply voltage
  • 1.8V compatible IOs
  • < 1 mW power consumption
  • ±2g/±8g dynamically selectable full-scale
  • I²C/SPI digital output interface
  • Programmable multiple interrupt generator
  • Click and double click recognition
  • Embedded high pass filter
  • 10000g high shock survivability
  • ECOPACK® RoHS and "Green" compliant
应用领域
  • Free-fall detection
  • Motion activated functions
  • Gaming and virtual reality input devices
  • Vibration monitoring and compensation
功能框图
LIS35DE 功能框图
LIS35DE 订购信息
订购型号 产品状态 美金价格 数量 封装 包装形式 温度范围 材料声明
LIS35DE Active   1000 LGA 14 3x5x0.9 Tray   LIS35DE
LIS35DETR Active   1000 LGA 14 3x5x0.9 Tape And Reel   LIS35DETR
DATASHEET
描述 版本 大小
LIS35DE :DS6214: MEMS motion sensor 3-axis - ±2g/±8g smart digital output “piccolo” accelerometer 1 646KB