2. Soldering the headers Before using your clickTM 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. DC MOTOR click 2 1 3 1. Introduction Turn the board upside down so that the bottom side is facing you upwards. Place shorter pins of the header into the appropriate soldering pads. DC MOTOR clickTM is a DC motor driver board in mikroBUSTM form factor. It features the DRV8833RTY H-Bridge motor driver, 74HC4053 multiplexer and two screw terminals. DC MOTOR clickTM communicates with the target board via SELECT1, SELECT2 and nSLEEP control lines, PWM input line and nFAULT feedback line. The board is designed to use 3.3V or 5V power supplies. It has a GREEN power supply indicator LED and a RED LED that indicates active nFAULT line (in case of short-circuit). Turn the board upward again. Make sure to align the headers so that they are perpendicular to the board, then solder the pins carefully. 3. Plugging the board in Once you have soldered the headers your board is ready to be placed into the desired mikroBUSTM socket. Make sure to align the cut in the lower-right part of the board with the markings on the silkscreen at the mikroBUSTM socket. If all the pins are aligned correctly, push the board all the way into the socket. 4. Essential features DC MOTOR clickTM with its DRV8833RTY IC's is limited to a 0.9A driving current with 0.22 current sense resistor. The 74HC4053 IC is incorporated into the design in order to run the motor with only one PWM line available on the mikroBUSTM socket. Use jumper J2 to select whether you want to power the board with the on-board or external power supply connected to the CN2 screw terminal. The motor should be connected to the CN1 screw terminal. click BOARD www.mikroe.com DC Motor click Manual ver. 1.01 0 100000 025468 6. SMD Jumpers R3 47K VCC VM VCC C1 C2 10uF 100nF C3 VM OUT2 R2 0.22 GND C4 VINT GND VM VCP 10nF 12 11 10 9 DRV8833RTY PWM1 PWM0 GPIOB SELECT1 GPIOA 1 2 3 4 5 6 7 8 C5 2.2uF VCC U2 2Y1 2Y0 3Y1 3Z 3Y0 E VEE GND VDD 2Z 1Z 1Y1 1Y0 S1 S2 S3 R7 10K 16 15 PWM 14 13 12 11 10 SELECT2 9 FAULT CN1 J2B R1 2K2 POWER LD2 74HC4053 VCC-EXT OUT1 nFAULT GPIOB PWM1 VM VCC R5 0.22 AISEN AOUT2 BOUT2 BISEN Q1 BC856 220 5 6 7 8 MIKROBUS DEVICE CONN. 1 2 3 4 AOUT1 nSLEEP AIN1 AIN2 PWM nFAULT PWM INT TX RX SCL SDA +5V GND BOUT1 nFAULT BIN1 BIN2 AN RST CS SCK MISO MOSI +3.3V GND There is a single SMD jumper (zero-ohm resistor) J1 which is used to select between 3.3V or 5V power supplies. By default, it's soldered in the 3.3V position. VCC R4 2K2 R6 VCC U1 nSLEEP SELECT1 SELECT2 nFAULT 100nF 74HC4053 VCC VM 16 15 14 13 J1A VCC OUT1 nSLEEP PWM0 GPIOA 5. DC MOTOR clickTM Board Schematic OUT2 OUT1 LD1 7. Code Examples Once you have done all the necessary preparations, it's time to get your clickTM board up and running. We have provided examples for mikroCTM, mikroBasicTM and mikroPascalTM compilers on our Libstock website. Just download them and you are ready to start. SCREW TERMINAL CN2 SCREW TERMINAL .com With two control lines SELECT1, SELECT2 and PWM input you can choose from the following driving options described in the table: SELECT1 SELECT2 PWM ROTATION SPEED BRAKE DECAY 0 0 0-100% Forward MIN-MAX @ 0% PWM Fast 0 1 0-100% Reverse MIN-MAX @ 0% PWM Fast 1 0 0-100% Reverse MAX-MIN @ 100% PWM Slow 1 1 0-100% Forward MAX-MIN @ 100% PWM Slow 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 (c) 2014 MikroElektronika. All rights reserved. 8. Support MikroElektronika offers Free Tech Support (www.mikroe.com/support/) until the end of the product's lifetime, so if something goes wrong, we're ready and willing to help!