amba H2平台用PWM控制LCD背光

ambarella H2系列Soc的GPIO口能作PWM使用的个数有限（GPIO0-GPIO3），从PRM里GPIO: Function Selection章节可以得到如何配置GPIO为PWM功能。

假设想把GPIO0配置成PWM输出，根据上图修改ambarella/boards/h2_xxx/bsp/bsp.h ，如下：

即DEFAULT_IOMUX_REG0_2、DEFAULT_IOMUX_REG0_1、DEFAULT_IOMUX_REG0_0的第0位要分别设为0、1、1。

一、系统层用脚本控制PWM0示例

echo  > /sys/class/pwm/pwmchip0/export

echo  > /sys/class/pwm/pwmchip0/pwm0/period （设置周期）

echo  > /sys/class/pwm/pwmchip0/pwm0/duty_cycle （设置有效时间）

echo  > /sys/class/pwm/pwmchip0/pwm0/enable （使能PWM）

占空比= 有效时间/周期，占空比越大，LCD背光越亮（有效时间要小于等于周期时间）。

为了方便使用写成脚本set_pwm.sh：

#! /bin/bash

#

# set_pwm.sh <gpio_id>  <  |  > <duty_cycle> <period>

do_cmd()

{

        local id=$

        local ena=$

        local d_cycle=$

        local per=$

        local GPIO_ROOT=/sys/class/pwm/pwmchip0

        local GPIO_DIR=$GPIO_ROOT/pwm$id

        if [[ ! -d $GPIO_DIR ]]; then

                echo $id > $GPIO_ROOT/export

        fi

        echo $ena > $GPIO_DIR/enable

        echo $per > $GPIO_DIR/period

        echo $d_cycle > $GPIO_DIR/duty_cycle

}

usage()

{

        echo " set_pwm.sh <gpio_id>  < 1 | 0 > <duty_cycle> <period>"

}

do_main()

{

        case "$2" in

                )

                        do_cmd $  $ $

                        ;;

                )

                        do_cmd $  $ $

                        ;;

                *)

                        usage

                        ;;

        esac

}

if [[ -z $ ]]; then

        usage

else

        do_main $*

fi

二、写一个pwm驱动: pwm.c

#include <linux/init.h>

#include <linux/module.h>

#include <linux/miscdevice.h>

#include <linux/fs.h>

#include <linux/ioctl.h>

#include <linux/pwm.h>

#include <linux/uaccess.h>

#define PWM_MAGIC 'P' //定义一个幻数

#define PWM_ON _IOW(PWM_MAGIC, 0, struct pwm_capture_t) //定义一个ioctl cmd
#define PWM_OFF _IOW(PWM_MAGIC, 1, struct pwm_capture_t) //定义另一个ioctl cmd

struct pwm_device *pwm_dev_0;

struct pwm_capture_t {

    unsigned int period;

    unsigned int duty_cycle;

}pwmm;

static long pwm_ioctl(struct file *file,

        unsigned int cmd,

        unsigned long arg)

{

    int ret;

    switch(cmd) {

    case PWM_ON:

        ret = copy_from_user(&pwmm, (void *)arg, sizeof(struct pwm_capture_t));

        if (ret < )

            return ret;

        ret = pwm_config(pwm_dev_0, pwmm.duty_cycle, pwmm.period);

        if (ret < ) {

            printk("pwm_dev_0 ioctl fail");

            return ;

        }

        pwm_enable(pwm_dev_0);

        break;

    case PWM_OFF:

        ret = copy_from_user(&pwmm, (void *)arg, sizeof(struct pwm_capture_t));

        if (ret < )

            return ret;

        ret = pwm_config(pwm_dev_0, , pwmm.period);

        if (ret < ) {

            printk("pwm_dev_2 ioctl fail");

            return ;

        }

        pwm_disable(pwm_dev_0);

        break;

    }

    return ;

}

//定义初始化硬件操作方法

static struct file_operations pwm_fops = {

    .owner = THIS_MODULE,

    .unlocked_ioctl = pwm_ioctl

};

//定义初始化混杂设备对象

static struct miscdevice pwm_misc = {

    .minor = MISC_DYNAMIC_MINOR, //动态分配次设备号

    .name = "mypwm",             //dev/mypwm

    .fops = &pwm_fops

};

static int pwm_init(void)

{

    int ret;

    printk("regisger pwm_misc device\n");

    //1.申请pwm资源，设置输出为0

    pwm_dev_0 = pwm_request(, "pwm_0");

    if (pwm_dev_0 == NULL) {

        printk("pwm_dev_0 register fail\n");

    }

    ret = pwm_config(pwm_dev_0, , );

    if (ret < ) {

        printk("pwm_dev_0 config fail\n");

        return ;

    }

    ret = pwm_enable(pwm_dev_0);

    if (ret == ) {

        printk("pwm_dev_0 enable success\n");

    } else if (ret <  ) {

        printk("pwm_dev_0 enable fail\n");

        return ;

    }

    //2.注册混杂设备

    misc_register(&pwm_misc);

    return ;

}

static void pwm_exit(void)

{

    printk("unregister pwm_misc device\n");

    //1.卸载混杂设备

    misc_deregister(&pwm_misc);

    //2.释放pwm资源

    pwm_config(pwm_dev_0, , );

    pwm_disable(pwm_dev_0);

    pwm_free(pwm_dev_0);

}

module_init(pwm_init);

module_exit(pwm_exit);

MODULE_LICENSE("GPL");

测试程序pwm_test.c：

#include <stdio.h>

#include <sys/types.h>

#include <sys/stat.h>

#include <sys/ioctl.h>

#include <fcntl.h>

#include <unistd.h>

#include <string.h>

#include <stdlib.h>

#define PWM_MAGIC 'P' //定义一个幻数，要和pwm.c里定义的相同

#define PWM_ON _IOW(PWM_MAGIC, 0, struct pwm_capture_t)  //定义一个ioctl cmd， 要和pwm.c里定义的相同

#define PWM_OFF _IOW(PWM_MAGIC, 1, struct pwm_capture_t) //同上

struct pwm_capture_t {

    unsigned int period;

    unsigned int duty_cycle;

};

int main(int argc, char **argv)

{

    int fd;

    int a;

    int period, duty_cycle;

    if (argc < ) {

        printf("usage: %s on/off duty_cycle period\n", argv[]);

        return -;

    }

    duty_cycle = strtol(argv[], NULL, );

    period = strtol(argv[], NULL, );

    if (duty_cycle > period) {

        printf("duty_cycle shouldn't larger than period\n");

        return -;

    }

    struct pwm_capture_t pwmm = {period, duty_cycle};

    fd = open("/dev/mypwm", O_RDWR);

    if (fd < )

        return -;

    while() {

    /*    for(a = 0; a <= period; a += 5) {

            pwmm.duty_cycle = a;

            ioctl(fd, PWM_ON, &pwmm);

            usleep(1000);

        }

        for(a = period; a >= 0; a -= 5) {

            pwmm.duty_cycle = a;

            ioctl(fd, PWM_ON, &pwmm);

            usleep(1000);

        }

        usleep(1000000);

    }

    */

    if (strcmp(argv[], "on") == ) {

        ioctl(fd, PWM_ON, &pwmm);

    } else if (strcmp(argv[], "off") == ) {

        ioctl(fd, PWM_OFF, &pwmm);

    } else {

        printf("invalid parameter\n");

    }

    close(fd);

    return ;

}

执行./pwm_test on 200000 500000，会看到LCD背光点亮，增加duty_cycle的值，背光会变得更亮。

pwm除了可以控制屏幕亮度外还可以控制风扇转速，根据cpu负载大小调整散热风扇的转速，也是一个常用的功能。