/** * @file * * @ingroup arm_beagle * * @brief BeagleBone Black BSP definitions. */ /** * Copyright (c) 2016 Punit Vara * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.org/license/LICENSE. */ /** Some constants are taken from * https://github.com/VegetableAvenger/BBBIOlib/blob/master/BBBio_lib/BBBiolib_PWMSS.h */ #ifndef LIBBSP_ARM_BEAGLE_BBB_PWM_H #define LIBBSP_ARM_BEAGLE_BBB_PWM_H #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /** * @brief BeagleBone Black PWM Macros. */ #define BBB_CONTROL_CONF_GPMC_AD(n) (0x800 + (n * 4)) #define BBB_CONTROL_CONF_LCD_DATA(n) (0x8a0 + (n * 4)) #define BBB_PWMSS_COUNT 3 #define BBB_PWMSS0 0 #define BBB_PWMSS1 1 #define BBB_PWMSS2 2 #define BBB_P8_13_2B 3 #define BBB_P8_19_2A 4 #define BBB_P8_45_2A 5 #define BBB_P8_46_2B 6 #define BBB_P8_34_1B 7 #define BBB_P8_36_1A 8 #define BBB_P9_14_1A 9 #define BBB_P9_16_1B 10 #define BBB_P9_21_0B 11 #define BBB_P9_22_0A 12 #define BBB_P9_29_0B 13 #define BBB_P9_31_0A 14 #define BBB_MUX0 0 #define BBB_MUX1 1 #define BBB_MUX2 2 #define BBB_MUX3 3 #define BBB_MUX4 4 #define BBB_MUX5 5 #define BBB_MUX6 6 #define BBB_MUX7 7 #define BBB_EPWM1 1 #define BBB_EPWM2 2 #define BBB_EPWM0 0 /** * @brief BeagleBone Black PWM API. */ /** * @brief This function intilize clock and pinmuxing for pwm sub system. * * @param PWMSS_ID It is the instance number of EPWM of pwm sub system. * * @return true if successful * @return false if not successful * **/ bool beagle_pwm_init(uint32_t pwmss_id); /* PWMSS setting * set pulse argument of epwm module * * @param pwm_id : EPWMSS number , 0~2 * @param pwm_freq : frequency to be generated * @param dutyA : Duty Cycle in ePWM A * @param dutyB : Duty Cycle in ePWM B * * @return : 1 for success * @return : 0 for failed * * @example : PWMSS_Setting(0 , 50.0f , 50.0f , 25.0f); // Generate 50HZ pwm in PWM0 , * // duty cycle is 50% for ePWM0A , 25% for ePWM0B * * @Note : * find an number nearst 65535 for TBPRD , to improve duty precision, * * Using big TBPRD can increase the range of CMPA and CMPB , * and it means we can get better precision on duty cycle. * * EX : 20.25% duty cycle * on TBPRD = 62500 , CMPA = 12656.25 ( .25 rejection) , real duty : 20.2496% (12656 /62500) * on TBPRD = 6250 , CMPA = 1265.625 ( .625 rejection), real duty : 20.24% (1265 6250) * on TBPRD = 500 , CMPA = 101.25 ( .25 rejection) , real duty : 20.2% (101/500) * * Divisor = CLKDIV * HSPCLKDIV * 1 TBPRD : 10 ns (default) * 65535 TBPRD : 655350 ns * 65535 TBPRD : 655350 * Divisor ns = X TBPRD : Cyclens * * accrooding to that , we must find a Divisor value , let X nearest 65535 . * so , Divisor must Nearest Cyclens/655350 */ int beagle_pwmss_setting(uint32_t pwm_id, float pwm_freq, float dutyA, float dutyB); /** * @brief This API enables the particular PWM module. * * @param pwmid It is the instance number of EPWM of pwm sub system. * * @return true if successful * @return false if fail * **/ bool beagle_ehrpwm_enable(uint32_t pwmid); /** * @brief This API disables the HR sub-module. * * @param pwmid It is the instance number of EPWM of pwm sub system. * * @return true if successful * @return false if fail * **/ bool beagle_ehrpwm_disable(uint32_t pwmid); /** * @brief This function Enables pinmuxing for PWM module. * * @param pin_no It is individual pin at which freuqency need to be generated. * It should be according to pwm sub system. * * @param pwm_id It is the instance number of EPWM of pwmsubsystem. * * @return true if successful * @return false if fail * **/ bool beagle_epwm_pinmux_setup(uint32_t pin_no, uint32_t pwm_id); #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* LIBBSP_ARM_BEAGLE_BBB_PWM_H */