Shake2Wake Click Board
Introduce shake functionality to the device with the Shake2Wake Click Board. The board features two chips from Analog Devices: an ADXL362 accelerometer that includes several activity detection modes, which is connected to an ADP195 power switch IC. This power switch IC is in turn connected to a screw terminal for controlling external devices. Upon shaking, the accelerometer sends an interrupt to the switch, which in turn, powers up the external components. The intensity and duration of shaking required for waking it up is programmable, as well as the period of inactivity, which leads to switching off the external device. Shake2Wake click can also function as a regular accelerometer, wherein the board uses the MikroBUS SPI interface for communication to the target microcontroller. This click board is designed to operate using a 3.3V power supply only. Shake2Wake click works on two main operating modes:.
- Based on the ADXL3623-axis MEMS accelerometer with several activity modes
- ADP195 power switch IC
- SPI digital interface
- Screw terminal for connecting external devices
- Supported by all mikroElektronika compilers
- Can also be used as a regular accelerometer
- Low power consumption in
- Uses 3.3V power supply only
IC/Module: ADXL362 Digital Output MEMS Accelerometer
ADXL362 is a 3-axis MEMS accelerometer designed to operate on low power consumption modes (consumes less than 2 A at a 100 Hz output data rate and 270 nA when in motion triggered wake-up mode). It provides 12-bit output resolution. Also, in situations where lower resolution is adequate, it also provides 8-bit formatted data for more efficient single-byte transfers. It operates on a wide 1.6V to 3.5V supply range.
Shake2Wake click has an INT SEL jumper that allows user to specify which of the available interrupt pins are utilized. The specified pin is connected both to the integrated power switch as well as to the mikroBUS socket.
- Shake2Wake Click Board (1)
- 1x8 male headers (2)
- Printed User Manual and Board Schematic (1)