rt-thread/bsp/ls1cdev/libraries/ls1c_pwm.c

202 lines
4.6 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Copyright (c) 2006-2018, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2017-09-06 勤为本 first version
*/
// 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 ;
}