#include "foc.h" #include "foc_math.h" /* Private macro -------------------------------------------------------------*/ // sin(0-90度)分为256份,最大值为32766/32768 #define SIN_COS_TABLE {\ 0x0000,0x00C9,0x0192,0x025B,0x0324,0x03ED,0x04B6,0x057F,\ 0x0648,0x0711,0x07D9,0x08A2,0x096A,0x0A33,0x0AFB,0x0BC4,\ 0x0C8C,0x0D54,0x0E1C,0x0EE3,0x0FAB,0x1072,0x113A,0x1201,\ 0x12C8,0x138F,0x1455,0x151C,0x15E2,0x16A8,0x176E,0x1833,\ 0x18F9,0x19BE,0x1A82,0x1B47,0x1C0B,0x1CCF,0x1D93,0x1E57,\ 0x1F1A,0x1FDD,0x209F,0x2161,0x2223,0x22E5,0x23A6,0x2467,\ 0x2528,0x25E8,0x26A8,0x2767,0x2826,0x28E5,0x29A3,0x2A61,\ 0x2B1F,0x2BDC,0x2C99,0x2D55,0x2E11,0x2ECC,0x2F87,0x3041,\ 0x30FB,0x31B5,0x326E,0x3326,0x33DF,0x3496,0x354D,0x3604,\ 0x36BA,0x376F,0x3824,0x38D9,0x398C,0x3A40,0x3AF2,0x3BA5,\ 0x3C56,0x3D07,0x3DB8,0x3E68,0x3F17,0x3FC5,0x4073,0x4121,\ 0x41CE,0x427A,0x4325,0x43D0,0x447A,0x4524,0x45CD,0x4675,\ 0x471C,0x47C3,0x4869,0x490F,0x49B4,0x4A58,0x4AFB,0x4B9D,\ 0x4C3F,0x4CE0,0x4D81,0x4E20,0x4EBF,0x4F5D,0x4FFB,0x5097,\ 0x5133,0x51CE,0x5268,0x5302,0x539B,0x5432,0x54C9,0x5560,\ 0x55F5,0x568A,0x571D,0x57B0,0x5842,0x58D3,0x5964,0x59F3,\ 0x5A82,0x5B0F,0x5B9C,0x5C28,0x5CB3,0x5D3E,0x5DC7,0x5E4F,\ 0x5ED7,0x5F5D,0x5FE3,0x6068,0x60EB,0x616E,0x61F0,0x6271,\ 0x62F1,0x6370,0x63EE,0x646C,0x64E8,0x6563,0x65DD,0x6656,\ 0x66CF,0x6746,0x67BC,0x6832,0x68A6,0x6919,0x698B,0x69FD,\ 0x6A6D,0x6ADC,0x6B4A,0x6BB7,0x6C23,0x6C8E,0x6CF8,0x6D61,\ 0x6DC9,0x6E30,0x6E96,0x6EFB,0x6F5E,0x6FC1,0x7022,0x7083,\ 0x70E2,0x7140,0x719D,0x71F9,0x7254,0x72AE,0x7307,0x735E,\ 0x73B5,0x740A,0x745F,0x74B2,0x7504,0x7555,0x75A5,0x75F3,\ 0x7641,0x768D,0x76D8,0x7722,0x776B,0x77B3,0x77FA,0x783F,\ 0x7884,0x78C7,0x7909,0x794A,0x7989,0x79C8,0x7A05,0x7A41,\ 0x7A7C,0x7AB6,0x7AEE,0x7B26,0x7B5C,0x7B91,0x7BC5,0x7BF8,\ 0x7C29,0x7C59,0x7C88,0x7CB6,0x7CE3,0x7D0E,0x7D39,0x7D62,\ 0x7D89,0x7DB0,0x7DD5,0x7DFA,0x7E1D,0x7E3E,0x7E5F,0x7E7E,\ 0x7E9C,0x7EB9,0x7ED5,0x7EEF,0x7F09,0x7F21,0x7F37,0x7F4D,\ 0x7F61,0x7F74,0x7F86,0x7F97,0x7FA6,0x7FB4,0x7FC1,0x7FCD,\ 0x7FD8,0x7FE1,0x7FE9,0x7FF0,0x7FF5,0x7FF9,0x7FFD,0x7FFE} //最大值为32766 #define SIN_MASK 0x0300u // 十进制768, 数字后面有u声明这是一个无符号数 #define U0_90 0x0200u #define U90_180 0x0300u #define U180_270 0x0000u #define U270_360 0x0100u #define divSQRT_3 (int32_t)0x49E6 /* 1/sqrt(3) in q1.15 format=0.5773315*/ const int16_t h_sin_cos_table[256] = SIN_COS_TABLE; /** * @brief 反park变换:将同步旋转坐标系下的vqd,变换为静止坐标系的v_alpha,v_beta * @param volt_input: vqd * @param theta: 电角度值 */ alphabeta_t mc_rev_park(qd_t volt_input, int16_t theta) { int32_t q_v_alpha_tmp1, q_v_alpha_tmp2, q_v_beta_tmp1, q_v_beta_tmp2; trig_components local_vector_components; alphabeta_t volt_output; local_vector_components = mc_trig_functions(theta); q_v_alpha_tmp1 = volt_input.q * ( int32_t )local_vector_components.h_cos; q_v_alpha_tmp2 = volt_input.d * ( int32_t )local_vector_components.h_sin; volt_output.alpha = ( int16_t )( ( ( q_v_alpha_tmp1 ) + ( q_v_alpha_tmp2 ) ) / 32768 ); q_v_beta_tmp1 = volt_input.q * ( int32_t )local_vector_components.h_sin; q_v_beta_tmp2 = volt_input.d * ( int32_t )local_vector_components.h_cos; volt_output.beta = ( int16_t )( ( q_v_beta_tmp2 - q_v_beta_tmp1 ) / 32768 ); return (volt_output); } /** * @brief 根据输入的电角度,计算三角正弦和余弦 * @param h_angle: 电角度值 */ trig_components mc_trig_functions( int16_t h_angle ) { int32_t shindex; uint16_t uhindex; trig_components local_components; /* 10 bit index computation */ shindex = ( ( int32_t )32768 + ( int32_t )h_angle ); uhindex = ( uint16_t )shindex; uhindex /= ( uint16_t )64; //在正弦表中把90度分成了256份 switch ( ( uint16_t )( uhindex ) & SIN_MASK ) { case U0_90: local_components.h_sin = h_sin_cos_table[( uint8_t )( uhindex )]; local_components.h_cos = h_sin_cos_table[( uint8_t )( 0xFFu - ( uint8_t )( uhindex ) )]; break; case U90_180: local_components.h_sin = h_sin_cos_table[( uint8_t )( 0xFFu - ( uint8_t )( uhindex ) )]; local_components.h_cos = -h_sin_cos_table[( uint8_t )( uhindex )]; break; case U180_270: local_components.h_sin = -h_sin_cos_table[( uint8_t )( uhindex )]; local_components.h_cos = -h_sin_cos_table[( uint8_t )( 0xFFu - ( uint8_t )( uhindex ) )]; break; case U270_360: local_components.h_sin = -h_sin_cos_table[( uint8_t )( 0xFFu - ( uint8_t )( uhindex ) )]; local_components.h_cos = h_sin_cos_table[( uint8_t )( uhindex )]; break; default: break; } return ( local_components ); } /* MMI Table Motor 1 MAX_MODULATION_92_PER_CENT */ #define START_INDEX 54 #define MAX_MODULE 30145 // root(Vd^2+Vq^2) <= MAX_MODULE = 32767*92% #define MMITABLE {\ 32424,32091,31929,31611,31302,31002,30855,30568,30289,30017,\ 29884,29622,29368,29243,28998,28759,28526,28412,28187,27968,\ 27753,27648,27441,27238,27040,26942,26750,26563,26470,26288,\ 26110,25935,25849,25679,25513,25350,25269,25111,24955,24803,\ 24727,24579,24433,24361,24219,24079,23942,23874,23740,23609,\ 23479,23415,23289,23165,23042,22982,22863,22745,22629,22572,\ 22459,22347,22292,22183,22075,21970,21917,21813,21711,21610,\ 21561,21462,21365,21268\ } uint16_t circle_limit_table[74] = MMITABLE; /* Check whether Vqd.q^2 + Vqd.d^2 <= 32767^2 and if not it applies a limitation keeping constant ratio Vqd.q / Vqd.d. */ qd_t circle_limitation(qd_t v_qd) { uint16_t table_element; uint32_t uw_temp; int32_t sw_temp; qd_t local_vqd = v_qd; sw_temp = (int32_t)(v_qd.q) * (v_qd.q) + (int32_t)(v_qd.d) * (v_qd.d); uw_temp = (uint32_t)sw_temp; /* uw_temp 最小值 0, 最大值 2*32767*32767 */ if (uw_temp > (uint32_t)(MAX_MODULE) * MAX_MODULE) { uw_temp /= (uint32_t)(16777216); // 16777216 = 2 * 32768 * 256 // 计算前,uw_temp 最小值 p_handle->start_index, 最大值 127 // 计算后,uw_temp 最小值0, 最大值127 - p_handle->start_index uw_temp -= START_INDEX; table_element = circle_limit_table[(uint8_t)uw_temp]; sw_temp = v_qd.q * (int32_t)table_element; local_vqd.q = (int16_t)(sw_temp / 32768); sw_temp = v_qd.d * (int32_t)(table_element); local_vqd.d = (int16_t)(sw_temp / 32768); } return (local_vqd); }