PES_4_Spleisser
/
SpleisserProgramm_v5
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Dependencies: mbed mbed-rtos X_NUCLEO_IHM02A1
main.cpp
- Committer:
- scherfa2
- Date:
- 2019-04-07
- Revision:
- 27:23bd03a6a6f6
- Parent:
- 26:caec5f51abe8
- Child:
- 30:e464b2bb2376
File content as of revision 27:23bd03a6a6f6:
/**
******************************************************************************
* @file main.cpp
* @author Fabian Scherrer
* @version V1.0.0
* @date April 7th, 2019
* @brief
******************************************************************************
* @attention
* Verwendete I/O's: Input:
* PA9 (InputKontrollmodul Pin von Kontroll-Modul)(CN5-1)
*
* Output:
* PA10 (D2) (Select Steppmotor Treiber2)
* PA7 (D11) (mosi Steppmotor Treiber1)
* PA6 (D12) (miso Steppmotor Treiber1)
* PA4 (A2) (Select Steppmotor Treiber1)
*
* PB15 (mosi Steppmotor Treiber2)
* PB14 (miso Steppmotor Treiber2)
* PB13 (slk Steppmotor Treiber2)
* PB6 (D10)(pwm_io)(CN5-3)
* PB5 (D4)(Standby_reset Steppmotor)
* PB4 (D5)(pwm_io2)(CN9-6)
* PB3 (D3)(Select Steppmotor Treiber1)
* PC1 (A4)(Flag_irq Steppmotor)
* PC0 (A5)(Busy_irq Steppmotor)
******************************************************************************/
/* Includes ------------------------------------------------------------------*/
/* mbed specific header files. */
#include "mbed.h"
#include "main.h"
#include "PWM.h"
#include "ST_SOLO.h"
#include "ST_DUO.h"
/* Helper header files. */
#include "DevSPI.h"
/* Expansion Board specific header files. */
#include "XNucleoIHM02A1.h"
/* Definitions ---------------------------------------------------------------*/
/* Number of movements per revolution. */
#define MPR_1 4
/* Number of steps. */
#define STEPS_1 (400 * 128) /* 1 revolution given a 400 steps motor configured at 1/128 microstep mode. */
#define STEPS_2 (STEPS_1 * 2)
/* Delay in milliseconds. */
#define DELAY_1 1000
#define DELAY_2 2000
#define DELAY_3 5000
/* Status Spleisser definieren*/
int StatusSpleisser = ST_SOLO;
/*Input initalisieren für Status Spleisser*/
DigitalIn InputKontrollmodul(PA_9);
InterruptIn button1(USER_BUTTON);
volatile int idx = 0;
volatile bool button1_pressed = false; // Used in the main loop
volatile bool button1_enabled = true; // Used for debouncing
Timeout button1_timeout; // Used for debouncing
// Enables button when bouncing is over
void button1_enabled_cb(void)
{
button1_enabled = true;
}
// ISR handling button pressed event
void button1_onpressed_cb(void)
{
if (button1_enabled) { // Disabled while the button is bouncing
button1_enabled = false;
button1_pressed = true; // To be read by the main loop
if(idx<4){
idx++;
}
else{idx=1;}
button1_timeout.attach(callback(button1_enabled_cb), 0.03); // Debounce time 300 ms
}
}
/* Variables -----------------------------------------------------------------*/
/* Motor Control Expansion Board. */
XNucleoIHM02A1 *x_nucleo_ihm02a1_1;
XNucleoIHM02A12 *x_nucleo_ihm02a1_2;
/* Initialization parameters of the motors connected to the expansion board. */
L6470_init_t init[L6470DAISYCHAINSIZE] = {
/* First Motor. */
{
9.0, /* Motor supply voltage in V. */
400, /* Min number of steps per revolution for the motor. */
1.7, /* Max motor phase voltage in A. */
3.06, /* Max motor phase voltage in V. */
300.0, /* Motor initial speed [step/s]. */
500.0, /* Motor acceleration [step/s^2] (comment for infinite acceleration mode). */
500.0, /* Motor deceleration [step/s^2] (comment for infinite deceleration mode). */
992.0, /* Motor maximum speed [step/s]. */
0.0, /* Motor minimum speed [step/s]. */
602.7, /* Motor full-step speed threshold [step/s]. */
3.06, /* Holding kval [V]. */
3.06, /* Constant speed kval [V]. */
3.06, /* Acceleration starting kval [V]. */
3.06, /* Deceleration starting kval [V]. */
61.52, /* Intersect speed for bemf compensation curve slope changing [step/s]. */
392.1569e-6, /* Start slope [s/step]. */
643.1372e-6, /* Acceleration final slope [s/step]. */
643.1372e-6, /* Deceleration final slope [s/step]. */
0, /* Thermal compensation factor (range [0, 15]). */
3.06 * 1000 * 1.10, /* Ocd threshold [ma] (range [375 ma, 6000 ma]). */
3.06 * 1000 * 1.00, /* Stall threshold [ma] (range [31.25 ma, 4000 ma]). */
StepperMotor::STEP_MODE_1_128, /* Step mode selection. */
0xFF, /* Alarm conditions enable. */
0x2E88 /* Ic configuration. */
},
/* Second Motor. */
{
9.0, /* Motor supply voltage in V. */
400, /* Min number of steps per revolution for the motor. */
1.7, /* Max motor phase voltage in A. */
3.06, /* Max motor phase voltage in V. */
300.0, /* Motor initial speed [step/s]. */
500.0, /* Motor acceleration [step/s^2] (comment for infinite acceleration mode). */
500.0, /* Motor deceleration [step/s^2] (comment for infinite deceleration mode). */
992.0, /* Motor maximum speed [step/s]. */
0.0, /* Motor minimum speed [step/s]. */
602.7, /* Motor full-step speed threshold [step/s]. */
3.06, /* Holding kval [V]. */
3.06, /* Constant speed kval [V]. */
3.06, /* Acceleration starting kval [V]. */
3.06, /* Deceleration starting kval [V]. */
61.52, /* Intersect speed for bemf compensation curve slope changing [step/s]. */
392.1569e-6, /* Start slope [s/step]. */
643.1372e-6, /* Acceleration final slope [s/step]. */
643.1372e-6, /* Deceleration final slope [s/step]. */
0, /* Thermal compensation factor (range [0, 15]). */
3.06 * 1000 * 1.10, /* Ocd threshold [ma] (range [375 ma, 6000 ma]). */
3.06 * 1000 * 1.00, /* Stall threshold [ma] (range [31.25 ma, 4000 ma]). */
StepperMotor::STEP_MODE_1_128, /* Step mode selection. */
0xFF, /* Alarm conditions enable. */
0x2E88 /* Ic configuration. */
}
};
/* Main ----------------------------------------------------------------------*/
int main()
{
/*----- Initialization. -----*/
pwm_io2(20000, 0.075);
/* Initializing Motor Control Expansion Board. */
x_nucleo_ihm02a1_2 = new XNucleoIHM02A12(&init[0], &init[1],A4, A5, D4, D2, PB_15, PB_14, PB_13 );
x_nucleo_ihm02a1_1 = new XNucleoIHM02A1(&init[0], &init[1], A4, A5, D4, A2, D11, D12, D3 );
printf("--> bis hier gehts2.\r\n");
/* Building a list of motor control components. */
L6470B **motors2 = x_nucleo_ihm02a1_2->get_components();
L6470 **motors = x_nucleo_ihm02a1_1->get_components();
printf("--> bis hier gehts3.\r\n");
button1.fall(callback(button1_onpressed_cb)); // Attach ISR to handle button press event
while(1)
{
switch (StatusSpleisser)
{
case ST_SOLO:
if(InputKontrollmodul ==0)
{
EntrySOLO();
}
else
{
StatusSpleisser = ST_DUO;
}
break;
case ST_DUO:
if(InputKontrollmodul ==1)
{
EntryDUO();
}
else
{
StatusSpleisser = ST_SOLO;
}
break;
}
}
}