rtt-f030/bsp/ls1cdev/libraries/ls1c_pwm.c

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// 封装硬件pwm接口
#include "ls1c_public.h"
#include "ls1c_pin.h"
#include "ls1c_pwm.h"
#include "ls1c_clock.h"
#include "ls1c_regs.h"
// pwm的最大周期
#define PWM_MAX_PERIOD (0xFFFFFF) // 计数器的值
/*
* 根据gpio获取相应pwm的基地址
* @gpio pwm引脚
* @ret pwm基地址
*/
unsigned int pwm_get_reg_base(unsigned int gpio)
{
unsigned int reg_base = 0;
switch (gpio)
{
case LS1C_PWM0_GPIO06:
case LS1C_PWM0_GPIO04:
reg_base = LS1C_REG_BASE_PWM0;
break;
case LS1C_PWM1_GPIO92:
case LS1C_PWM1_GPIO05:
reg_base = LS1C_REG_BASE_PWM1;
break;
case LS1C_PWM2_GPIO52:
case LS1C_PWM2_GPIO46:
reg_base = LS1C_REG_BASE_PWM2;
break;
case LS1C_PWM3_GPIO47:
case LS1C_PWM3_GPIO53:
reg_base = LS1C_REG_BASE_PWM3;
break;
}
return reg_base;
}
/*
* 禁止pwm
* @pwm_info PWMn的详细信息
*/
void pwm_disable(pwm_info_t *pwm_info)
{
unsigned int pwm_reg_base = 0;
// 检查入参
if (NULL == pwm_info)
{
return ;
}
pwm_reg_base = pwm_get_reg_base(pwm_info->gpio);
reg_write_32(0, (volatile unsigned int *)(pwm_reg_base + LS1C_PWM_CTRL));
return ;
}
/*
* 使能PWM
* @pwm_info PWMn的详细信息
*/
void pwm_enable(pwm_info_t *pwm_info)
{
unsigned int pwm_reg_base = 0;
unsigned int ctrl = 0;
// 检查入参
if (NULL == pwm_info)
{
return ;
}
// 获取基地址
pwm_reg_base = pwm_get_reg_base(pwm_info->gpio);
// 清零计数器
reg_write_32(0, (volatile unsigned int *)(pwm_reg_base + LS1C_PWM_CNTR));
// 设置控制寄存器
ctrl = (0 << LS1C_PWM_INT_LRC_EN)
| (0 << LS1C_PWM_INT_HRC_EN)
| (0 << LS1C_PWM_CNTR_RST)
| (0 << LS1C_PWM_INT_SR)
| (0 << LS1C_PWM_INTEN)
| (0 << LS1C_PWM_OE)
| (1 << LS1C_PWM_CNT_EN);
if (PWM_MODE_PULSE == pwm_info->mode) // 单脉冲
{
ctrl |= (1 << LS1C_PWM_SINGLE);
}
else // 连续脉冲
{
ctrl &= ~(1 << LS1C_PWM_SINGLE);
}
reg_write_32(ctrl, (volatile unsigned int *)(pwm_reg_base + LS1C_PWM_CTRL));
return ;
}
/*
* 初始化PWMn
* @pwm_info PWMn的详细信息
*/
void pwm_init(pwm_info_t *pwm_info)
{
unsigned int gpio;
unsigned long pwm_clk = 0; // pwm模块的时钟频率
unsigned long tmp = 0;
unsigned int pwm_reg_base = 0;
unsigned long period = 0;
// 判断入参
if (NULL == pwm_info)
{
// 入参非法,则直接返回
return ;
}
gpio = pwm_info->gpio;
// 配置相应引脚用作pwm而非gpio
pin_set_purpose(gpio, PIN_PURPOSE_OTHER);
// 复用
switch (gpio)
{
// 不需要复用
case LS1C_PWM0_GPIO06:
case LS1C_PWM1_GPIO92:
break;
case LS1C_PWM0_GPIO04: // gpio04的第三复用
pin_set_remap(LS1C_PWM0_GPIO04, PIN_REMAP_THIRD);
break;
case LS1C_PWM1_GPIO05: // gpio05的第三复用
pin_set_remap(LS1C_PWM1_GPIO05, PIN_REMAP_THIRD);
break;
case LS1C_PWM2_GPIO52: // gpio52的第四复用
pin_set_remap(LS1C_PWM2_GPIO52, PIN_REMAP_FOURTH);
break;
case LS1C_PWM2_GPIO46: // gpio46的第四复用
pin_set_remap(LS1C_PWM2_GPIO46, PIN_REMAP_FOURTH);
break;
case LS1C_PWM3_GPIO47: // gpio47的第四复用
pin_set_remap(LS1C_PWM3_GPIO47, PIN_REMAP_FOURTH);
break;
case LS1C_PWM3_GPIO53: // gpio53的第四复用
pin_set_remap(LS1C_PWM3_GPIO53, PIN_REMAP_FOURTH);
break;
default:
break;
}
// 根据占空比和pwm周期计算寄存器HRC和LRC的值
// 两个64位数相乘只能得到低32位linux下却可以得到64位结果
// 暂不清楚原因,用浮点运算代替
pwm_clk = clk_get_apb_rate();
period = (1.0 * pwm_clk * pwm_info->period_ns) / 1000000000;
period = MIN(period, PWM_MAX_PERIOD); // 限制周期不能超过最大值
tmp = period - (period * pwm_info->duty);
// 写寄存器HRC和LRC
pwm_reg_base = pwm_get_reg_base(gpio);
reg_write_32(--tmp, (volatile unsigned int *)(pwm_reg_base + LS1C_PWM_HRC));
reg_write_32(--period, (volatile unsigned int *)(pwm_reg_base + LS1C_PWM_LRC));
// 写主计数器
pwm_enable(pwm_info);
return ;
}