Shundo Kishi
Controlor for Humanoid. Walking trajectory generator, sensor reflection etc.
Dependencies: Adafruit-PWM-Servo-Driver MPU6050 RS300 mbed
Source3.cpp
- Committer:
- syundo0730
- Date:
- 2012-08-30
- Revision:
- 2:8a40834788ba
- Parent:
- 1:5c2e40445778
- Child:
- 3:84e5335fab91
File content as of revision 2:8a40834788ba:
#ifndef PWM_H_2012_08_28_
#define PWM_H_2012_08_28_
#include "LPC17xx.h"
#include "mbed.h"
const uint32_t SRV_PERIOD = 2500 - 1;//���/8
const uint32_t SRV_MAX_DUTY = 2100 - 1;//�f���[�e�B�[�ő�l
const uint32_t SRV_MIN_DUTY = 900 - 1;//�f���[�e�B�[�ŏ��l
const uint8_t SRV_IDX_SHIFT = 3;//74HC238�C���f�b�N�X�̓�͒[�q��(A,B,C)
const uint8_t SRV_IDX_NUM = 1 << SRV_IDX_SHIFT;//�C���f�b�N�X�̐�(8)
const uint8_t SRV_IDX_MASK = SRV_IDX_NUM - 1;//�w��ch�̉�3bit����}�X�N���邽�߂̂��
const uint8_t SRV_BANK_NUM = 3;//PWM���̖{��
const uint8_t SRV_CH_NUM = SRV_IDX_NUM * SRV_BANK_NUM;//����”\�ȃT�[�{���[�^��
volatile uint8_t SRV_Idx = 0;//�T�[�{�؂�ւ��p�̃J�E���^
volatile uint32_t SRV_dutyTable[SRV_BANK_NUM][SRV_IDX_NUM];//�f���[�e�B�[�l
//const uint32_t SRV_PWMTable[SRV_BANK_NUM][SRV_IDX_NUM]={
//{0,SRV_PERIOD,0,SRV_PERIOD,0,SRV_PERIOD,0,SRV_PERIOD},
//{0,0,SRV_PERIOD,SRV_PERIOD,0,0,SRV_PERIOD,SRV_PERIOD},
//{0,0,0,0,SRV_PERIOD,SRV_PERIOD,SRV_PERIOD,SRV_PERIOD}
//};
const uint32_t SRV_PWMTable[SRV_BANK_NUM][SRV_IDX_NUM]={
{0,2500,0,2500,0,2500,0,2500},
{0,0,2500,2500,0,0,2500,2500},
{0,0,0,0,2500,2500,2500,2500}
};
void Init_PWM(void);
void SetDuty(uint8_t ch, uint32_t duty);
#endif //PWM_H_2012_08_28_
#ifdef __cplusplus
extern "C" {
void PWM1_IRQHandler();
}
#endif
int main(void) {
for(int i = 0; i < SRV_CH_NUM; i++)
{
SetDuty(i, (SRV_MAX_DUTY + SRV_MIN_DUTY) / 2);
}
Init_PWM();
while (1);
}
void PWM1_IRQHandler (void) {
LPC_PWM1->LER |= 0x7E;
LPC_PWM1->MR1 = 500;//SRV_PWMTable[0][SRV_Idx];
LPC_PWM1->MR2 = SRV_PWMTable[1][SRV_Idx];
LPC_PWM1->MR3 = SRV_PWMTable[2][SRV_Idx];
LPC_PWM1->MR4 = SRV_dutyTable[0][SRV_Idx];
LPC_PWM1->MR5 = SRV_dutyTable[1][SRV_Idx];
LPC_PWM1->MR6 = SRV_dutyTable[2][SRV_Idx];
LPC_PWM1->IR |= (1<<0); // reset PWMMR0 flag
SRV_Idx++;
if(SRV_Idx >= SRV_IDX_NUM){
SRV_Idx = 0;
}
}
void Init_PWM(void) {
LPC_PINCON->PINSEL3 &= ~(3 << 4); // GPIO (00)
LPC_GPIO1->FIODIR |= (1 << 18); // output
LPC_PINCON->PINSEL4 |= 0x555; // GPIO (00)
LPC_GPIO2->FIODIR |= 0x3F; // output
LPC_SC->PCLKSEL0 &= ~(3 << 12); // PCLK_TIMER0 ck/4 (00)
LPC_SC->PCONP |= (1 << 6); // PCPWM1
LPC_PWM1->TCR = (1 << 1);//reset
LPC_PWM1->PR = SystemCoreClock / 4 / 1000000 - 1; // prescale 1000kHz(1us����)�����񂲂ƂɃ^�C�}�J�E���^��J�E���g�A�b�v���邩�Ƃ����ݒ�
LPC_PWM1->CTCR = 0;
LPC_PWM1->MCR |= (1 << 1)|(1 << 0); // MR0R, MR0
LPC_PWM1->MR0 = SRV_PERIOD; // PWM(74HC238��G1)���2500us
//LPC_PWM1->MR1 = SRV_MAX_DUTY;//SRV_PERIOD; // �؂�ւ����(74HC238��A)1
//LPC_PWM1->MR2 = SRV_MAX_DUTY;//SRV_PERIOD; // �؂�ւ����(74HC238��B)
//LPC_PWM1->MR3 = SRV_MAX_DUTY;//SRV_PERIOD; // �؂�ւ����(74HC238��C)
//LPC_PWM1->MR4 = SRV_MAX_DUTY;//(SRV_MAX_DUTY + SRV_MIN_DUTY) / 2; //PWM(74HC238��G1)�f���[�e�B�[(�j���[�g����)
//LPC_PWM1->MR5 = SRV_MAX_DUTY;//(SRV_MAX_DUTY + SRV_MIN_DUTY) / 2;
//LPC_PWM1->MR6 = SRV_MAX_DUTY;//(SRV_MAX_DUTY + SRV_MIN_DUTY) / 2;
LPC_PWM1->IR |= (1<<0);//reset PWMMR0 flag
NVIC_EnableIRQ(PWM1_IRQn);//enable
LPC_PWM1->TCR = (1 << 0)|(1 << 3); // enable
LPC_PWM1->PCR |= (0x3F << 9);//1-6 pwm
__enable_irq();
}
void SetDuty(uint8_t ch, uint32_t duty){
if(ch >= SRV_CH_NUM){
return;
}else if(duty < SRV_MIN_DUTY){
duty = SRV_MIN_DUTY;
}else if(duty > SRV_MAX_DUTY){
duty = SRV_MAX_DUTY;
}
SRV_dutyTable[ch >> SRV_IDX_SHIFT][ch & SRV_IDX_MASK] = duty;
}