2. Soldering the headers Before using your click board, make sure to solder 1x8 male headers to both left and right side of the board. Two 1x8 male headers are included with the board in the package. 1 Accel click 2 3 1. Introduction 4. Essential features Accel Click with its ADXL345 module supports several sensing functions such as single/double tap detection, activity/inactivity monitoring, free-fall detection etc. It has memory management system with a 32-level Turn the board upside down so that Turn the board upward again. Make sure FIFO buffer to store data with minimized host bottom side is facing you upwards. Place to align the headers so that they are processor activity. All these features make shorter parts of the header pins in both perpendicular to the board, then solder the this board ideal for mobile devices, medical soldering pad locations. pins carefully. and industrial instrumentation, navigation devices, hard drive protection and more. Accel Click is an accessory board in mikroBUS form factor. Its a compact 3. Plugging the board in and easy solution for adding accelerometer click functionality to your device. It features Once you have soldered the headers your ADXL345 3-axis accelerometer module with board is ready to be placed into desired BOARD ultra-low power and high resolution (13-bit) mikroBUS socket. Make sure to align the www.mikroe.com measurement. Accel Click communicates cut in the lower-right part of the board with 2 with target board via I C or SPI interface. The the markings on the silkscreen at the Accel click Manual Board is designed to use 3.3V power supply mikroBUS socket. If all of the pins ver. 1.00 only. It has a LED diode (GREEN) which are aligned correctly, push the indicates the presence of power supply. board all the way into the socket. 0 100000 0209686. SMD Jumpers 5. Accel Click Board Schematic The Accel Click board communicates 2 with the main board via I C or SPI interface depending on the position of the J1, J2 and J3 SMD jumpers. These jumpers are soldered in 2 I C interface position by default. There is an option to select the alternate address with 2 jumper J4 in the case of I C interface (default position is logic 1). VCC-3.3 R2 R3 7. Code Examples VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3 VCC-3.3 10K 10K SCK/SCL SCK U1 SCK/SCL SPI R1 Once you have done all the necessary C1 C2 AN PWM 1 13 SDI/SDA SCL I2C INT 2K2 100nF 100nF VCC SDA RST INT 2 12 SDO/ADD CS preparations, its time to get your click GND ADD J3 CS TX 3 11 SCK Res Res SDI SCK RX 4 10 SDO SCL board up and running. We have provided LD1 GND NC SDI/SDA SPI MISO SCL 5 9 SDI SDA GND INT2 SDA I2C MOSI SDA 6 8 INT the examples for mikroC, mikroBasic and VCC INT1 +3.3V +5V J1 R4 220 GND GND SDO mikroPascal compilers on our Libstock ADXL345 CS SDO/ADD SPI MIKROBUS DEVICE CONN. I2C website. Just download them and you are R5100K VCC-3.3 J2 ready to start. 1 0 J4 .com 8. Support MikroElektronika oers ff Free Tech Support (www.mikroe.com/esupport) until the end of product lifetime, so if something goes wrong, we are ready and willing to help MikroElektronika assumes no responsibility or liability for any errors or inaccuracies that may appear in the present document. Specification and information contained in the present schematic are subject to change at any time without notice. Copyright 2012 MikroElektronika. All rights reserved. 7 14 CS SCL