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Stepper 4 click

Rating:

Author: MIKROE

Last Updated: 2018-01-30

Package Version: 1.0.0.1

mikroSDK Library: 1.0.0.0

Category: Stepper

Downloaded: 7113 times

Not followed.

License: MIT license

Stepper 4 click carries a TB67S269FTG - a two-phase bipolar stepping motor driver using a PWM chopper, with a clock in decoder built in. Rating is 50 V/2.0 A. Microstepping resolution is externally manipulated, as well as output current scaling.

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[older versions]

DOWNLOAD LINK	RELATED COMPILER	CONTAINS
1517320817_stepper_4_click_mikrobasic_arm.mpkg [1.05MB]	mikroBasic PRO for ARM	lib src exa hlp hex sch pcb doc
1517320836_stepper_4_click_mikrobasic_avr.mpkg [619.07KB]	mikroBasic PRO for AVR	lib src exa hlp hex sch pcb doc
1517320852_stepper_4_click_mikrobasic_dspic.mpkg [599.92KB]	mikroBasic PRO for dsPIC30/33 & PIC24	lib src exa hlp hex sch pcb doc
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1517320895_stepper_4_click_mikrobasic_pic.mpkg [841.23KB]	mikroBasic PRO for PIC	lib src exa hlp hex sch pcb doc
1517320906_stepper_4_click_mikrobasic_pic32.mpkg [647.77KB]	mikroBasic PRO for PIC32	lib src exa hlp hex sch pcb doc
1517321037_stepper_4_click_mikroc_arm.mpkg [1.06MB]	mikroC PRO for ARM	lib src exa hlp hex sch pcb doc
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1517321060_stepper_4_click_mikroc_dspic.mpkg [598.99KB]	mikroC PRO for dsPIC30/33 & PIC24	lib src exa hlp hex sch pcb doc
1517321075_stepper_4_click_mikroc_ft90x.mpkg [529.11KB]	mikroC PRO for FT90x	lib src exa hlp hex sch pcb doc
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1517321093_stepper_4_click_mikroc_pic32.mpkg [646.86KB]	mikroC PRO for PIC32	lib src exa hlp hex sch pcb doc
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1517321134_stepper_4_click_mikropascal_ft90x.mpkg [529.89KB]	mikroPascal PRO for FT90x	lib src exa hlp hex sch pcb doc
1517321150_stepper_4_click_mikropascal_pic.mpkg [840.97KB]	mikroPascal PRO for PIC	lib src exa hlp hex sch pcb doc
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mikroSDK Library Blog

Product Page

Stepper 4 click

Native view of the Stepper 4 click board.

Stepper 4 click

Front and back view of the Stepper 4 click board.

The library carries everything needed for stepper motor control including speed
and acceleration setup. The library is also adjustable to working on different amounts of ticks per second, also speed and acceleration can be provided in float format. The buffer used for movement calculation is defined by the user so this library can be adjusted for MCUs with very limited RAM resources. Check the documentation for more details on how to use it.

Key functions:

uint8_t stepper3_setSpeed( float minSpeed, float maxSpeed, float accelRatio, T_STEPPER3_OBJ obj ) - Function for setting the motor speed.
uint8_t stepper3_setRoute( const uint8_t direction, uint32_t steps, T_STEPPER3_OBJ obj ) - Setup new route.
void stepper3_start( T_STEPPER3_OBJ obj ) - Start motor movement.

Examples Description

The application is composed of three sections:

System Initialization - Initializes all GPIO pins found on Stepper_4 Click and timer to 1ms interrupt.
Application Initialization - The first segment initializes the driver and stepper control. The second segment setup movement limits, maximum and minimum speed, and acceleration ratio. The third segment enables motor and setup new route which will be called from application task.
Application Task - (code snippet) - Sequentially moves the motor. The first part of sequence executes movement until the end. The second part stops the motor movement after one second and continues sequence after two seconds.

void applicationTask()
{
 stepper4_start( (T_STEPPER4_OBJ_P)&myStepper );
 while( myStepper.status.running )
 stepper4_process( (T_STEPPER4_OBJ_P)&myStepper );
 Delay_ms( 2000 );

 stepper4_start( (T_STEPPER4_OBJ_P)&myStepper );
 Delay_ms( 1000 );
 stepper4_stop( (T_STEPPER4_OBJ_P)&myStepper );
 Delay_ms( 2000 );
}

In addition to the library function calls example carries the necessary Timer ISR and Timer initialization. Check the Timer initialization settings and update it according to your MCU - Timer Calculator.

The full application code, and ready to use projects can be found on our Libstock page.

Additional notes and information

Depending on the development board you are using, you may need USB UART click, USB UART 2 click or RS232 click to connect to your PC, for development systems with no UART to USB interface available on the board. The terminal available in all MikroElektronika compilers, or any other terminal application of your choice, can be used to read the message.

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