Difference between revisions of "PIC32MX: PWM Motor Control"
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Andrew Long (talk | contribs) |
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==Unidirectional Motor Control== |
==Unidirectional Motor Control== |
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This section will detail how to set up |
This section will detail how to set up 2 simple programs and circuit to control a motor using a PIC microcontroller and PWM. The first program shows how to use a button to switch between 2 duty cycles and the second program shows how to use a timer interrupt to change the duty cycle. |
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===Sample Code=== |
===Button Sample Code=== |
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This code is based off the UBW32 board. If a button called swUser is not defined, the button should be set up. |
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First add the usual includes |
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#include "GenericTypeDefs.h" |
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#include "Compiler.h" |
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#include <plib.h> |
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#include "HardwareProfile.h" |
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Define the system frequency (80MHz) |
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#define SYS_FREQ 80000000L |
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Begin main body of program |
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int main(void) |
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{ |
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Configure the proper PB frequency and the number of wait states |
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SYSTEMConfigPerformance(SYS_FREQ); |
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Initialize Output Compare module 1 and Timer 2. |
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OpenOC1( OC_ON | OC_TIMER2_SRC | OC_PWM_FAULT_PIN_DISABLE, 0, 0); |
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OpenTimer2( T2_ON | T2_PS_1_1 | T2_SOURCE_INT, 0xFFFF); |
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Main Loop |
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while(1) |
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{ |
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if (swUser) |
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{ |
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SetDCOC1PWM(0); // Turns off the motor |
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} |
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else |
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{ |
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SetDCOC1PWM(PR2 / 2); // Turns on the motor with 50% duty cycle |
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} |
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} |
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Close the Output Compare Module |
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CloseOC1(); |
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End Main Function |
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} |
Revision as of 17:17, 29 July 2009
Pulse Width Modulation, or PWM, is a technique used to vary the average magnitude of a signal by changing its duty cycle (the proportion of time that a signal is active or "high"). For a more in-depth introduction to PWM motor control click here.
PWM for PIC32 is discussed in more detail in the Microchip Output Compare documention.
Available Pins
The pins available for PWM are 5 input pins (OC1, OC2, OC3, OC4, and OC5) and 2 output pins (OCFA and OCFB). The output pins are for fault pin protection.
General Approach
PWM can be set up by either changing the directly altering register bits or using the functions in outcompare.h (a header file included in the peripheral library (plib.h). The latter case is more straightforward and easier. This wiki describes how to use the outcompare functions. The register bits approach is described in detail in theMicrochip Output Compare documention.
There are three main functions that are used for PWM.
void OpenOCX( config, value1, value2) void OpenTimerX(config, period) unsigned int SetDCOCXPWM(dutycycle)
where X is the module (1-5) or timer(2-3) that you want to use. Each of these functions are described below.
OpenOCX configures the OCX module and loads the R(value2) and RS (value1) registers with default values. An example is shown below:
OpenOC1( OC_ON | OC_TIMER2_SRC | OC_PWM_FAULT_PIN_DISABLE, 0, 0);
The different configuration constants are shown below. If not specified, the default configuration is used. These constants are mutually exclusive for each category (ie you can only use one of them).
Config Constant | Description |
---|---|
OC_ON | Turns the Module ON |
OC_OFF | Default - Turns the Module Off |
Stop-in-idle control | |
OC_IDLE_STOP | stop in idle mode |
OC_IDLE_CON | Default - continue operation in idle mode |
16/32 bit mode | |
OC_TIMER_MODE32 | Use 32 bit Mode |
OC_TIMER_MODE16 | Default - Use 16 bit Mode |
Timer select | |
OC_TIMER3_SRC | Timer 3 is clock source |
OC_TIMER2_SRC | Default - Timer 2 is clock source |
Operation mode select | |
OC_PWM_FAULT_PIN_ENABLE | PWM Mode on OCx, fault pin enabled |
OC_PWM_FAULT_PIN_DISABLE | PWM Mode on OCx, fault pin disabled |
OC_CONTINUE_PULSE | Generates Continuous Output pulse on OCx Pin |
OC_SINGLE_PULSE | Generates Single Output pulse on OCx Pin |
OC_TOGGLE_PULSE | Compare toggles OCx pin |
OC_HIGH_LOW | Compare1 forces OCx pin Low |
OC_LOW_HIGH | Compare1 forces OCx pin High |
OC_MODE_OFF | Default - OutputCompare x Off |
For the operation mode, to use PWM one of the first two constants must be used.
The output compare modules use either Timer 2 (default) or Timer 3. These must be set up using OpenTimerX function, where X is either 2 or 3. The period can be between 0 and 0xFFFF inclusive. The OC can be configured to use a 32 bit timer in which both Timer 2 and Timer 3 are used. An example is shown below:
OpenTimer2( T2_ON | T2_PS_1_1 | T2_SOURCE_INT, 0xFFFF);
The configuration constants are shown below for Timer 2. Replace the 2 with a 3 for Timer 3.
Config Constant | Description |
---|---|
T2_ON | Turns the Timer ON |
T2_OFF | Default - Turns the Timer Off |
Stop-in-idle control | |
T2_IDLE_STOP | stop in idle mode |
T2_IDLE_CON | Default - continue operation in idle mode |
Timer gate control | |
T2_GATE_ON | Timer Gate accumulation mode ON |
T2_GATE_OFF | Default - Timer Gate accumulation mode OFF |
Prescale values | |
T2_PS_1_256 | Prescaler 1:256 |
T2_PS_1_64 | 1:64 |
T2_PS_1_32 | 1:32 |
T2_PS_1_16 | 1:16 |
T2_PS_1_8 | 1:8 |
T2_PS_1_4 | 1:4 |
T2_PS_1_2 | 1:2 |
T2_PS_1_1 | Default - 1:1 |
32-bit or 16-bit | |
T2_32BIT_MODE_ON | Enable 32-bit mode |
T2_32BIT_MODE_OFF | Default |
Sync external clock option | |
T2_SOURCE_EXT | External clock source |
T2_SOURCE_INT | Internal Clock source |
The duty cycle can be updated by using SetDCOCXPWM(dutycycle) where X is the module. The duty cycle gets updated on the next cycle. The duty cycle must be less than or equal to the period register defined in Timer 2 or Timer 3. An example is shown below:
SetDCOC1PWM(PR2 / 2);
Unidirectional Motor Control
This section will detail how to set up 2 simple programs and circuit to control a motor using a PIC microcontroller and PWM. The first program shows how to use a button to switch between 2 duty cycles and the second program shows how to use a timer interrupt to change the duty cycle.
Button Sample Code
This code is based off the UBW32 board. If a button called swUser is not defined, the button should be set up.
First add the usual includes
#include "GenericTypeDefs.h" #include "Compiler.h" #include <plib.h> #include "HardwareProfile.h"
Define the system frequency (80MHz)
#define SYS_FREQ 80000000L
Begin main body of program
int main(void) {
Configure the proper PB frequency and the number of wait states
SYSTEMConfigPerformance(SYS_FREQ);
Initialize Output Compare module 1 and Timer 2.
OpenOC1( OC_ON | OC_TIMER2_SRC | OC_PWM_FAULT_PIN_DISABLE, 0, 0); OpenTimer2( T2_ON | T2_PS_1_1 | T2_SOURCE_INT, 0xFFFF);
Main Loop
while(1) { if (swUser) { SetDCOC1PWM(0); // Turns off the motor } else { SetDCOC1PWM(PR2 / 2); // Turns on the motor with 50% duty cycle } }
Close the Output Compare Module
CloseOC1();
End Main Function
}