Lee Kai Xuan
mbed-os
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erkin yucel
targets/TARGET_NXP/TARGET_LPC43XX/pwmout_api.c@0:f269e3021894, 2016-10-23 (annotated)
- Committer:
- elessair
- Date:
- Sun Oct 23 15:10:02 2016 +0000
- Revision:
- 0:f269e3021894
Initial commit
Who changed what in which revision?
| User | Revision | Line number | New contents of line |
|---|---|---|---|
| elessair | 0:f269e3021894 | 1 | /* mbed Microcontroller Library |
| elessair | 0:f269e3021894 | 2 | * Copyright (c) 2006-2013 ARM Limited |
| elessair | 0:f269e3021894 | 3 | * |
| elessair | 0:f269e3021894 | 4 | * Licensed under the Apache License, Version 2.0 (the "License"); |
| elessair | 0:f269e3021894 | 5 | * you may not use this file except in compliance with the License. |
| elessair | 0:f269e3021894 | 6 | * You may obtain a copy of the License at |
| elessair | 0:f269e3021894 | 7 | * |
| elessair | 0:f269e3021894 | 8 | * http://www.apache.org/licenses/LICENSE-2.0 |
| elessair | 0:f269e3021894 | 9 | * |
| elessair | 0:f269e3021894 | 10 | * Unless required by applicable law or agreed to in writing, software |
| elessair | 0:f269e3021894 | 11 | * distributed under the License is distributed on an "AS IS" BASIS, |
| elessair | 0:f269e3021894 | 12 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| elessair | 0:f269e3021894 | 13 | * See the License for the specific language governing permissions and |
| elessair | 0:f269e3021894 | 14 | * limitations under the License. |
| elessair | 0:f269e3021894 | 15 | * |
| elessair | 0:f269e3021894 | 16 | * Ported to NXP LPC43XX by Micromint USA <support@micromint.com> |
| elessair | 0:f269e3021894 | 17 | */ |
| elessair | 0:f269e3021894 | 18 | #include "mbed_assert.h" |
| elessair | 0:f269e3021894 | 19 | #include "pwmout_api.h" |
| elessair | 0:f269e3021894 | 20 | #include "cmsis.h" |
| elessair | 0:f269e3021894 | 21 | #include "pinmap.h" |
| elessair | 0:f269e3021894 | 22 | #include "mbed_error.h" |
| elessair | 0:f269e3021894 | 23 | |
| elessair | 0:f269e3021894 | 24 | // PWM implementation for the LPC43xx using State Configurable Timer (SCT) |
| elessair | 0:f269e3021894 | 25 | // * PWM_0 to PWM_15 on mbed use CTOUT_0 to CTOUT_15 outputs on LPC43xx |
| elessair | 0:f269e3021894 | 26 | // * Event 0 is PWM period, events 1 to PWM_EVENT_MAX are PWM channels |
| elessair | 0:f269e3021894 | 27 | // * Default is unified 32-bit timer, but could be configured to use |
| elessair | 0:f269e3021894 | 28 | // a 16-bit timer so a timer is available for other SCT functions |
| elessair | 0:f269e3021894 | 29 | |
| elessair | 0:f269e3021894 | 30 | // configuration options |
| elessair | 0:f269e3021894 | 31 | #define PWM_FREQ_BASE 1000000 // Base frequency 1 MHz = 1000000 |
| elessair | 0:f269e3021894 | 32 | #define PWM_MODE 1 // 0 = 32-bit, 1 = 16-bit low, 2 = 16-bit high |
| elessair | 0:f269e3021894 | 33 | |
| elessair | 0:f269e3021894 | 34 | // macros |
| elessair | 0:f269e3021894 | 35 | #define PWM_SETCOUNT(x) (x - 1) // set count value |
| elessair | 0:f269e3021894 | 36 | #define PWM_GETCOUNT(x) (x + 1) // get count value |
| elessair | 0:f269e3021894 | 37 | #if (PWM_MODE == 0) // unified 32-bit counter, events 1 to 15 |
| elessair | 0:f269e3021894 | 38 | #define PWM_EVENT_MAX (CONFIG_SCT_nEV - 1) // Max PWM channels |
| elessair | 0:f269e3021894 | 39 | #define PWM_CONFIG SCT_CONFIG_32BIT_COUNTER // default config |
| elessair | 0:f269e3021894 | 40 | #define PWM_CTRL &LPC_SCT->CTRL_U // control register |
| elessair | 0:f269e3021894 | 41 | #define PWM_HALT SCT_CTRL_HALT_L // halt counter |
| elessair | 0:f269e3021894 | 42 | #define PWM_CLEAR SCT_CTRL_CLRCTR_L // clock clear |
| elessair | 0:f269e3021894 | 43 | #define PWM_PRE(x) SCT_CTRL_PRE_L(x) // clock prescale |
| elessair | 0:f269e3021894 | 44 | #define PWM_EVT_MASK (1 << 12) // event control mask |
| elessair | 0:f269e3021894 | 45 | #define PWM_LIMIT &LPC_SCT->LIMIT_L // limit register |
| elessair | 0:f269e3021894 | 46 | #define PWM_MATCH(x) &LPC_SCT->MATCH[x].U // match register |
| elessair | 0:f269e3021894 | 47 | #define PWM_MR(x) &LPC_SCT->MATCHREL[x].U // 32-bit match reload register |
| elessair | 0:f269e3021894 | 48 | #elif (PWM_MODE == 1) // 16-bit low counter, events 1 to 7 |
| elessair | 0:f269e3021894 | 49 | #define PWM_EVENT_MAX (CONFIG_SCT_nEV/2 - 1) // Max PWM channels |
| elessair | 0:f269e3021894 | 50 | #define PWM_CONFIG SCT_CONFIG_16BIT_COUNTER // default config |
| elessair | 0:f269e3021894 | 51 | #define PWM_CTRL &LPC_SCT->CTRL_L // control register |
| elessair | 0:f269e3021894 | 52 | #define PWM_HALT SCT_CTRL_HALT_L // halt counter |
| elessair | 0:f269e3021894 | 53 | #define PWM_CLEAR SCT_CTRL_CLRCTR_L // clock clear |
| elessair | 0:f269e3021894 | 54 | #define PWM_PRE(x) SCT_CTRL_PRE_L(x) // clock prescale |
| elessair | 0:f269e3021894 | 55 | #define PWM_EVT_MASK (1 << 12) // event control mask |
| elessair | 0:f269e3021894 | 56 | #define PWM_LIMIT &LPC_SCT->LIMIT_L // limit register |
| elessair | 0:f269e3021894 | 57 | #define PWM_MATCH(x) &LPC_SCT->MATCH[x].L // match register |
| elessair | 0:f269e3021894 | 58 | #define PWM_MR(x) &LPC_SCT->MATCHREL[x].L // 16-bit match reload register |
| elessair | 0:f269e3021894 | 59 | #elif (PWM_MODE == 2) // 16-bit high counter, events 1 to 7 |
| elessair | 0:f269e3021894 | 60 | // [TODO] use events 8 to 15 on mode 2 |
| elessair | 0:f269e3021894 | 61 | #define PWM_EVENT_MAX (CONFIG_SCT_nEV/2 - 1) // Max PWM channels |
| elessair | 0:f269e3021894 | 62 | #define PWM_CONFIG SCT_CONFIG_16BIT_COUNTER // default config |
| elessair | 0:f269e3021894 | 63 | #define PWM_CTRL &LPC_SCT->CTRL_H // control register |
| elessair | 0:f269e3021894 | 64 | #define PWM_HALT SCT_CTRL_HALT_L // halt counter |
| elessair | 0:f269e3021894 | 65 | #define PWM_CLEAR SCT_CTRL_CLRCTR_L // clock clear |
| elessair | 0:f269e3021894 | 66 | #define PWM_PRE(x) SCT_CTRL_PRE_L(x) // clock prescale |
| elessair | 0:f269e3021894 | 67 | #define PWM_EVT_MASK ((1 << 4) | (1 << 12)) // event control mask |
| elessair | 0:f269e3021894 | 68 | #define PWM_LIMIT &LPC_SCT->LIMIT_H // limit register |
| elessair | 0:f269e3021894 | 69 | #define PWM_MATCH(x) &LPC_SCT->MATCH[x].H // match register |
| elessair | 0:f269e3021894 | 70 | #define PWM_MR(x) &LPC_SCT->MATCHREL[x].H // 16-bit match reload register |
| elessair | 0:f269e3021894 | 71 | #else |
| elessair | 0:f269e3021894 | 72 | #error "PWM mode not implemented" |
| elessair | 0:f269e3021894 | 73 | #endif |
| elessair | 0:f269e3021894 | 74 | #define PWM_MR0 PWM_MR(0) // MR register 0 is for period |
| elessair | 0:f269e3021894 | 75 | |
| elessair | 0:f269e3021894 | 76 | static uint8_t event = 0; |
| elessair | 0:f269e3021894 | 77 | |
| elessair | 0:f269e3021894 | 78 | // PORT ID, PWM ID, Pin function |
| elessair | 0:f269e3021894 | 79 | static const PinMap PinMap_PWM[] = { |
| elessair | 0:f269e3021894 | 80 | {P1_1, PWM_7, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 81 | {P1_2, PWM_6, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 82 | {P1_3, PWM_8, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 83 | {P1_4, PWM_9, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 84 | {P1_5, PWM_10, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 85 | {P1_7, PWM_13, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 86 | {P1_8, PWM_12, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 87 | {P1_9, PWM_11, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 88 | {P1_10, PWM_14, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 89 | {P1_11, PWM_15, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 90 | {P2_7, PWM_1, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 91 | {P2_8, PWM_0, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 92 | {P2_9, PWM_3, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 93 | {P2_10, PWM_2, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 94 | {P2_11, PWM_5, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 95 | {P2_12, PWM_4, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 96 | {P4_1, PWM_1, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 97 | {P4_2, PWM_0, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 98 | {P4_3, PWM_3, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 99 | {P4_4, PWM_2, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 100 | {P4_5, PWM_5, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 101 | {P4_6, PWM_4, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 102 | {P6_5, PWM_6, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 103 | {P6_12, PWM_7, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 104 | {P7_0, PWM_14, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 105 | {P7_1, PWM_15, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 106 | {P7_4, PWM_13, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 107 | {P7_5, PWM_12, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 108 | {P7_6, PWM_11, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 109 | {P7_7, PWM_8, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 110 | {PA_4, PWM_9, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 111 | {PB_0, PWM_10, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 112 | {PB_1, PWM_6, (SCU_PINIO_FAST | 5)}, |
| elessair | 0:f269e3021894 | 113 | {PB_2, PWM_7, (SCU_PINIO_FAST | 5)}, |
| elessair | 0:f269e3021894 | 114 | {PB_3, PWM_8, (SCU_PINIO_FAST | 5)}, |
| elessair | 0:f269e3021894 | 115 | {PD_0, PWM_15, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 116 | {PD_2, PWM_7, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 117 | {PD_3, PWM_6, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 118 | {PD_4, PWM_8, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 119 | {PD_5, PWM_9, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 120 | {PD_6, PWM_10, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 121 | {PD_9, PWM_13, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 122 | {PD_11, PWM_14, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 123 | {PD_12, PWM_10, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 124 | {PD_13, PWM_13, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 125 | {PD_14, PWM_11, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 126 | {PD_15, PWM_8, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 127 | {PD_16, PWM_12, (SCU_PINIO_FAST | 6)}, |
| elessair | 0:f269e3021894 | 128 | {PE_5, PWM_3, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 129 | {PE_6, PWM_2, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 130 | {PE_7, PWM_5, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 131 | {PE_8, PWM_4, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 132 | {PE_11, PWM_12, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 133 | {PE_12, PWM_11, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 134 | {PE_13, PWM_14, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 135 | {PE_15, PWM_0, (SCU_PINIO_FAST | 1)}, |
| elessair | 0:f269e3021894 | 136 | {PF_9, PWM_1, (SCU_PINIO_FAST | 2)}, |
| elessair | 0:f269e3021894 | 137 | {NC, NC, 0} |
| elessair | 0:f269e3021894 | 138 | }; |
| elessair | 0:f269e3021894 | 139 | |
| elessair | 0:f269e3021894 | 140 | static unsigned int pwm_clock_mhz; |
| elessair | 0:f269e3021894 | 141 | |
| elessair | 0:f269e3021894 | 142 | static void _pwmout_dev_init() { |
| elessair | 0:f269e3021894 | 143 | uint32_t i; |
| elessair | 0:f269e3021894 | 144 | |
| elessair | 0:f269e3021894 | 145 | // set SCT clock and config |
| elessair | 0:f269e3021894 | 146 | LPC_CCU1->CLKCCU[CLK_MX_SCT].CFG = (1 << 0); // enable SCT clock in CCU1 |
| elessair | 0:f269e3021894 | 147 | LPC_SCT->CONFIG |= PWM_CONFIG; // set config options |
| elessair | 0:f269e3021894 | 148 | *PWM_CTRL |= PWM_HALT; // set HALT bit to stop counter |
| elessair | 0:f269e3021894 | 149 | // clear counter and set prescaler for desired freq |
| elessair | 0:f269e3021894 | 150 | *PWM_CTRL |= PWM_CLEAR | PWM_PRE(SystemCoreClock / PWM_FREQ_BASE - 1); |
| elessair | 0:f269e3021894 | 151 | pwm_clock_mhz = PWM_FREQ_BASE / 1000000; |
| elessair | 0:f269e3021894 | 152 | |
| elessair | 0:f269e3021894 | 153 | // configure SCT events |
| elessair | 0:f269e3021894 | 154 | for (i = 0; i < PWM_EVENT_MAX; i++) { |
| elessair | 0:f269e3021894 | 155 | *PWM_MATCH(i) = 0; // match register |
| elessair | 0:f269e3021894 | 156 | *PWM_MR(i) = 0; // match reload register |
| elessair | 0:f269e3021894 | 157 | LPC_SCT->EVENT[i].STATE = 0xFFFFFFFF; // event happens in all states |
| elessair | 0:f269e3021894 | 158 | LPC_SCT->EVENT[i].CTRL = (i << 0) | PWM_EVT_MASK; // match condition only |
| elessair | 0:f269e3021894 | 159 | } |
| elessair | 0:f269e3021894 | 160 | *PWM_LIMIT = (1 << 0) ; // set event 0 as limit |
| elessair | 0:f269e3021894 | 161 | // initialize period to 20ms: standard for servos, and fine for e.g. brightness control |
| elessair | 0:f269e3021894 | 162 | *PWM_MR0 = PWM_SETCOUNT((uint32_t)(((20 * PWM_FREQ_BASE) / 1000000) * 1000)); |
| elessair | 0:f269e3021894 | 163 | |
| elessair | 0:f269e3021894 | 164 | // initialize SCT outputs |
| elessair | 0:f269e3021894 | 165 | for (i = 0; i < CONFIG_SCT_nOU; i++) { |
| elessair | 0:f269e3021894 | 166 | LPC_SCT->OUT[i].SET = (1 << 0); // event 0 will set SCTOUT_xx |
| elessair | 0:f269e3021894 | 167 | LPC_SCT->OUT[i].CLR = 0; // set clear event when duty cycle |
| elessair | 0:f269e3021894 | 168 | } |
| elessair | 0:f269e3021894 | 169 | LPC_SCT->OUTPUT = 0; // default outputs to clear |
| elessair | 0:f269e3021894 | 170 | |
| elessair | 0:f269e3021894 | 171 | *PWM_CTRL &= ~PWM_HALT; // clear HALT bit to start counter |
| elessair | 0:f269e3021894 | 172 | } |
| elessair | 0:f269e3021894 | 173 | |
| elessair | 0:f269e3021894 | 174 | void pwmout_init(pwmout_t* obj, PinName pin) { |
| elessair | 0:f269e3021894 | 175 | // determine the channel |
| elessair | 0:f269e3021894 | 176 | PWMName pwm = (PWMName)pinmap_peripheral(pin, PinMap_PWM); |
| elessair | 0:f269e3021894 | 177 | MBED_ASSERT((pwm != (PWMName)NC) && (event < PWM_EVENT_MAX)); |
| elessair | 0:f269e3021894 | 178 | |
| elessair | 0:f269e3021894 | 179 | // init SCT clock and outputs on first PWM init |
| elessair | 0:f269e3021894 | 180 | if (event == 0) { |
| elessair | 0:f269e3021894 | 181 | _pwmout_dev_init(); |
| elessair | 0:f269e3021894 | 182 | } |
| elessair | 0:f269e3021894 | 183 | // init PWM object |
| elessair | 0:f269e3021894 | 184 | event++; |
| elessair | 0:f269e3021894 | 185 | obj->pwm = pwm; // pwm output |
| elessair | 0:f269e3021894 | 186 | obj->mr = event; // index of match reload register |
| elessair | 0:f269e3021894 | 187 | |
| elessair | 0:f269e3021894 | 188 | // initial duty cycle is 0 |
| elessair | 0:f269e3021894 | 189 | pwmout_write(obj, 0); |
| elessair | 0:f269e3021894 | 190 | |
| elessair | 0:f269e3021894 | 191 | // Wire pinout |
| elessair | 0:f269e3021894 | 192 | pinmap_pinout(pin, PinMap_PWM); |
| elessair | 0:f269e3021894 | 193 | } |
| elessair | 0:f269e3021894 | 194 | |
| elessair | 0:f269e3021894 | 195 | void pwmout_free(pwmout_t* obj) { |
| elessair | 0:f269e3021894 | 196 | // [TODO] |
| elessair | 0:f269e3021894 | 197 | } |
| elessair | 0:f269e3021894 | 198 | |
| elessair | 0:f269e3021894 | 199 | void pwmout_write(pwmout_t* obj, float value) { |
| elessair | 0:f269e3021894 | 200 | if (value < 0.0f) { |
| elessair | 0:f269e3021894 | 201 | value = 0.0; |
| elessair | 0:f269e3021894 | 202 | } else if (value > 1.0f) { |
| elessair | 0:f269e3021894 | 203 | value = 1.0; |
| elessair | 0:f269e3021894 | 204 | } |
| elessair | 0:f269e3021894 | 205 | |
| elessair | 0:f269e3021894 | 206 | // set new pulse width |
| elessair | 0:f269e3021894 | 207 | uint32_t us = (uint32_t)((float)PWM_GETCOUNT(*PWM_MR0) * value) * pwm_clock_mhz; |
| elessair | 0:f269e3021894 | 208 | pwmout_pulsewidth_us(obj, us); |
| elessair | 0:f269e3021894 | 209 | } |
| elessair | 0:f269e3021894 | 210 | |
| elessair | 0:f269e3021894 | 211 | float pwmout_read(pwmout_t* obj) { |
| elessair | 0:f269e3021894 | 212 | float v = (float)PWM_GETCOUNT(*PWM_MR(obj->mr)) / (float)PWM_GETCOUNT(*PWM_MR0); |
| elessair | 0:f269e3021894 | 213 | return (v > 1.0f) ? (1.0f) : (v); |
| elessair | 0:f269e3021894 | 214 | } |
| elessair | 0:f269e3021894 | 215 | |
| elessair | 0:f269e3021894 | 216 | void pwmout_period(pwmout_t* obj, float seconds) { |
| elessair | 0:f269e3021894 | 217 | pwmout_period_us(obj, seconds * 1000000.0f); |
| elessair | 0:f269e3021894 | 218 | } |
| elessair | 0:f269e3021894 | 219 | |
| elessair | 0:f269e3021894 | 220 | void pwmout_period_ms(pwmout_t* obj, int ms) { |
| elessair | 0:f269e3021894 | 221 | pwmout_period_us(obj, ms * 1000); |
| elessair | 0:f269e3021894 | 222 | } |
| elessair | 0:f269e3021894 | 223 | |
| elessair | 0:f269e3021894 | 224 | // Set the PWM period, keeping the duty cycle the same. |
| elessair | 0:f269e3021894 | 225 | void pwmout_period_us(pwmout_t* obj, int us) { |
| elessair | 0:f269e3021894 | 226 | // calculate number of ticks |
| elessair | 0:f269e3021894 | 227 | uint32_t ticks = pwm_clock_mhz * us; |
| elessair | 0:f269e3021894 | 228 | uint32_t old_ticks = PWM_GETCOUNT(*PWM_MR0); |
| elessair | 0:f269e3021894 | 229 | uint32_t i, v; |
| elessair | 0:f269e3021894 | 230 | |
| elessair | 0:f269e3021894 | 231 | // set new period |
| elessair | 0:f269e3021894 | 232 | *PWM_MR0 = PWM_SETCOUNT(ticks); |
| elessair | 0:f269e3021894 | 233 | |
| elessair | 0:f269e3021894 | 234 | // Scale pulse widths to preserve the duty ratio |
| elessair | 0:f269e3021894 | 235 | for (i = 1; i < PWM_EVENT_MAX; i++) { |
| elessair | 0:f269e3021894 | 236 | v = PWM_GETCOUNT(*PWM_MR(i)); |
| elessair | 0:f269e3021894 | 237 | if (v > 1) { |
| elessair | 0:f269e3021894 | 238 | v = (v * ticks) / old_ticks; |
| elessair | 0:f269e3021894 | 239 | *PWM_MR(i) = PWM_SETCOUNT(v); |
| elessair | 0:f269e3021894 | 240 | } |
| elessair | 0:f269e3021894 | 241 | } |
| elessair | 0:f269e3021894 | 242 | } |
| elessair | 0:f269e3021894 | 243 | |
| elessair | 0:f269e3021894 | 244 | void pwmout_pulsewidth(pwmout_t* obj, float seconds) { |
| elessair | 0:f269e3021894 | 245 | pwmout_pulsewidth_us(obj, seconds * 1000000.0f); |
| elessair | 0:f269e3021894 | 246 | } |
| elessair | 0:f269e3021894 | 247 | |
| elessair | 0:f269e3021894 | 248 | void pwmout_pulsewidth_ms(pwmout_t* obj, int ms) { |
| elessair | 0:f269e3021894 | 249 | pwmout_pulsewidth_us(obj, ms * 1000); |
| elessair | 0:f269e3021894 | 250 | } |
| elessair | 0:f269e3021894 | 251 | |
| elessair | 0:f269e3021894 | 252 | void pwmout_pulsewidth_us(pwmout_t* obj, int us) { |
| elessair | 0:f269e3021894 | 253 | // calculate number of ticks |
| elessair | 0:f269e3021894 | 254 | uint32_t v = pwm_clock_mhz * us; |
| elessair | 0:f269e3021894 | 255 | //MBED_ASSERT(PWM_GETCOUNT(*PWM_MR0) >= v); |
| elessair | 0:f269e3021894 | 256 | |
| elessair | 0:f269e3021894 | 257 | if (v > 0) { |
| elessair | 0:f269e3021894 | 258 | // set new match register value and enable SCT output |
| elessair | 0:f269e3021894 | 259 | *PWM_MR(obj->mr) = PWM_SETCOUNT(v); |
| elessair | 0:f269e3021894 | 260 | LPC_SCT->OUT[obj->pwm].CLR = (1 << obj->mr); // on event will clear PWM_XX |
| elessair | 0:f269e3021894 | 261 | } else { |
| elessair | 0:f269e3021894 | 262 | // set match to zero and disable SCT output |
| elessair | 0:f269e3021894 | 263 | *PWM_MR(obj->mr) = 0; |
| elessair | 0:f269e3021894 | 264 | LPC_SCT->OUT[obj->pwm].CLR = 0; |
| elessair | 0:f269e3021894 | 265 | } |
| elessair | 0:f269e3021894 | 266 | } |