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 4. Essential features Tilt click 2 3 All Tilt click does is tell you whether its leaning left, right, forward or backward at a given moment. The optical type of direction detector it employs is highly reliable. Compared to mechanical solutions, optical direction detectors are less prone to noise caused by vibrations. Compared to magnetic-based direction detectors, they Turn the board upside down so that Turn the board upward again. Make sure are not influenced by magnetic disturbances. the bottom side is facing you upwards. to align the headers so that they are This makes Tilt click a robust and simple to Place shorter pins of the header into the perpendicular to the board, then solder the implement solution for all those that need appropriate soldering pads. pins carefully. direction detection without the need for highly precise positional measurements. 1. Introduction Tilt click carries RPI-1035, a 4-directional 3. Plugging the board in optical tilt sensor. This type of sensor click provides positional feedback for left, right, Once you have soldered the headers your forward or backward movements. Tilt board is ready to be placed into the desired BOARD click communicates with the target board mikroBUS socket. Make sure to align the cut in www.mikroe.com microcontroller through mikroBUS PWM the lower-right part of the board with the and INT lines, used here for Vout1 and Vout2 markings on the silkscreen outputs from the sensor. In addition, two at the mikroBUS socket. TILT click manual ver 1.00 onboard LEDs provide visual feedback from If all the pins are aligned the sensor. The board can use either a 3.3V correctly, push the board all or 5V power supply. the way into the socket. 01000000738728. Code examples 5. Schematic VCC Once you have done all the necessary R5 preparations, its time to get your click board 2K2 up and running. We have provided examples Q2 for mikroC , mikroBasic and mikroPascal LD2 PDTC114EU compilers on our Libstock website. Just R1 Vout2 download them and you are ready to start. R2 VCC VCC VCC VCC .com GND J1 U1 6 3 VCC 5 2 VCC VCC R6 GND 9. Support Vout1 Vout1 4 1 Vout2 2K2 AN PWM Vout2 RST INT RPI-1035 CS TX Q1 LD3 SCK RX MikroElektronika offers free tech support PDTC114EU C1 SCL MISO R1 SDA MOSI (www.mikroe.com/support) until the end of R1 100nF 2K2 +3.3V +5V Vout1 GND GND GND GND the products lifetime, so if something goes R2 MIKROBUS DEVICE CONN. LD1 wrong, were ready and willing to help GND GND GND GND GND 6. Dimensions 7. SMD jumper 10. Disclaimer There is one zero- MikroElektronika assumes no responsibility mm mils ohm SMD jumper or liability for any errors or inaccuracies J1 used to select that may appear in the present document. LENGTH 28.5 1122 whether 3.3V or 5V Specification and information contained in WIDTH 25.4 1000 I/O voltage level is the present schematic are subject to change HEIGHT 4 157.5 used. Jumper J1 at any time without notice. is soldered in 3.3V position by default. 28.5 mm / 1122 mils Copyright 2015 MikroElektronika. All rights reserved. 25.4 mm / 1000 mils R2 22K R4 150 R3 22K