A program to monitor some parameters for a motor
Dependencies: mbed-dev BufferSerial
Thanks to David Lowe for https://developer.mbed.org/users/gregeric/code/Nucleo_Hello_Encoder/ which I adapted for the use of TIM2 32bit timer as an encoder reader on the Nucleo L432KC board.
main.cpp@6:5d4c09973041, 2017-05-14 (annotated)
- Committer:
- tonnyleonard
- Date:
- Sun May 14 21:44:05 2017 +0000
- Revision:
- 6:5d4c09973041
- Parent:
- 5:29372f6cb533
- Child:
- 7:7f59b69d8895
Preliminary encoder with 3 ADC inputs and one DAC output
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
tonnyleonard | 0:789510d98ade | 1 | /* |
tonnyleonard | 0:789510d98ade | 2 | * Using STM32's counter peripherals to interface rotary encoders. |
tonnyleonard | 0:789510d98ade | 3 | * Encoders are supported on F4xx's TIM1,2,3,4,5. TIM2 & TIM5 have 32bit count, others 16bit. |
tonnyleonard | 0:789510d98ade | 4 | * Beware mbed uses TIM5 for system timer, SPI needs TIM1, others used for PWM. |
tonnyleonard | 0:789510d98ade | 5 | * Check your platform's PeripheralPins.c & PeripheralNames.h if you need both PWM & encoders. |
tonnyleonard | 0:789510d98ade | 6 | * |
tonnyleonard | 0:789510d98ade | 7 | * Edit HAL_TIM_Encoder_MspInitFx.cpp to suit your mcu & board's available pinouts & pullups/downs. |
tonnyleonard | 0:789510d98ade | 8 | * |
tonnyleonard | 0:789510d98ade | 9 | * Thanks to: |
tonnyleonard | 0:789510d98ade | 10 | * http://petoknm.wordpress.com/2015/01/05/rotary-encoder-and-stm32/ |
tonnyleonard | 0:789510d98ade | 11 | * |
tonnyleonard | 0:789510d98ade | 12 | * References: |
tonnyleonard | 0:789510d98ade | 13 | * http://www.st.com/st-web-ui/static/active/en/resource/technical/document/user_manual/DM00122015.pdf |
tonnyleonard | 0:789510d98ade | 14 | * http://www.st.com/st-web-ui/static/active/en/resource/technical/document/reference_manual/DM00096844.pdf |
tonnyleonard | 0:789510d98ade | 15 | * http://www.st.com/web/en/resource/technical/document/application_note/DM00042534.pdf |
tonnyleonard | 0:789510d98ade | 16 | * http://www.st.com/web/en/resource/technical/document/datasheet/DM00102166.pdf |
tonnyleonard | 0:789510d98ade | 17 | * |
tonnyleonard | 0:789510d98ade | 18 | * David Lowe Jan 2015 |
tonnyleonard | 0:789510d98ade | 19 | */ |
tonnyleonard | 0:789510d98ade | 20 | |
tonnyleonard | 0:789510d98ade | 21 | #include "mbed.h" |
tonnyleonard | 0:789510d98ade | 22 | #include "Encoder.h" |
tonnyleonard | 6:5d4c09973041 | 23 | #include "inttypes.h" |
tonnyleonard | 0:789510d98ade | 24 | |
tonnyleonard | 4:4f115819171f | 25 | TIM_Encoder_InitTypeDef encoder1; |
tonnyleonard | 5:29372f6cb533 | 26 | TIM_HandleTypeDef timer2; |
tonnyleonard | 5:29372f6cb533 | 27 | InterruptIn event(PA_8); |
tonnyleonard | 5:29372f6cb533 | 28 | DigitalOut led(LED1); |
tonnyleonard | 6:5d4c09973041 | 29 | AnalogIn adc1(PA_3); //ADC1_IN8 |
tonnyleonard | 6:5d4c09973041 | 30 | AnalogIn adc2(PA_5); //ADC1_IN10 |
tonnyleonard | 6:5d4c09973041 | 31 | AnalogIn adc3(PA_6); //ADC1_IN11 |
tonnyleonard | 6:5d4c09973041 | 32 | AnalogOut dac1(PA_4); // DAC1_OUT1 |
tonnyleonard | 5:29372f6cb533 | 33 | uint32_t count1=0; |
tonnyleonard | 5:29372f6cb533 | 34 | int16_t count2=0; |
tonnyleonard | 5:29372f6cb533 | 35 | int16_t count3=0; |
tonnyleonard | 5:29372f6cb533 | 36 | int16_t adjust=0; |
tonnyleonard | 5:29372f6cb533 | 37 | Timer timer1; |
tonnyleonard | 5:29372f6cb533 | 38 | |
tonnyleonard | 5:29372f6cb533 | 39 | void atint() { |
tonnyleonard | 5:29372f6cb533 | 40 | timer1.start(); |
tonnyleonard | 5:29372f6cb533 | 41 | if (__HAL_TIM_IS_TIM_COUNTING_DOWN(&timer2)) |
tonnyleonard | 5:29372f6cb533 | 42 | { |
tonnyleonard | 5:29372f6cb533 | 43 | adjust--; |
tonnyleonard | 5:29372f6cb533 | 44 | if (adjust == -3) |
tonnyleonard | 5:29372f6cb533 | 45 | { |
tonnyleonard | 5:29372f6cb533 | 46 | count2--; |
tonnyleonard | 5:29372f6cb533 | 47 | count1 +=__HAL_TIM_GET_COUNTER(&timer2); |
tonnyleonard | 5:29372f6cb533 | 48 | TIM2->CNT = 0x0000; |
tonnyleonard | 5:29372f6cb533 | 49 | adjust = 0; |
tonnyleonard | 5:29372f6cb533 | 50 | led =!led; |
tonnyleonard | 5:29372f6cb533 | 51 | } |
tonnyleonard | 5:29372f6cb533 | 52 | } |
tonnyleonard | 5:29372f6cb533 | 53 | else |
tonnyleonard | 5:29372f6cb533 | 54 | { |
tonnyleonard | 5:29372f6cb533 | 55 | adjust++; |
tonnyleonard | 5:29372f6cb533 | 56 | if (adjust == 3) |
tonnyleonard | 5:29372f6cb533 | 57 | { |
tonnyleonard | 5:29372f6cb533 | 58 | count2++; |
tonnyleonard | 5:29372f6cb533 | 59 | count1 +=__HAL_TIM_GET_COUNTER(&timer2); |
tonnyleonard | 5:29372f6cb533 | 60 | TIM2->CNT = 0x0000; |
tonnyleonard | 5:29372f6cb533 | 61 | adjust = 0; |
tonnyleonard | 5:29372f6cb533 | 62 | led =!led; |
tonnyleonard | 5:29372f6cb533 | 63 | } |
tonnyleonard | 5:29372f6cb533 | 64 | } |
tonnyleonard | 5:29372f6cb533 | 65 | } |
tonnyleonard | 0:789510d98ade | 66 | |
tonnyleonard | 0:789510d98ade | 67 | int main() |
tonnyleonard | 0:789510d98ade | 68 | { |
tonnyleonard | 0:789510d98ade | 69 | |
tonnyleonard | 5:29372f6cb533 | 70 | //counting on both A&B inputs (A at PA0, B at PA1), 4 ticks per cycle, |
tonnyleonard | 5:29372f6cb533 | 71 | //full 32-bit count |
tonnyleonard | 2:958e9094b198 | 72 | //For L432KC to work with TIM2 one needs to reassign the system ticker |
tonnyleonard | 2:958e9094b198 | 73 | //from TIM2 to TIM7 in TARGET/../device/hal_tick.h |
tonnyleonard | 4:4f115819171f | 74 | EncoderInit(&encoder1, &timer2, TIM2, 0xffffffff, TIM_ENCODERMODE_TI12); |
tonnyleonard | 5:29372f6cb533 | 75 | event.rise(&atint); |
tonnyleonard | 0:789510d98ade | 76 | |
tonnyleonard | 4:4f115819171f | 77 | printf("\n\rSTM HAL encoder with ADC and DAC\n\r"); |
tonnyleonard | 0:789510d98ade | 78 | |
tonnyleonard | 6:5d4c09973041 | 79 | //printf("%" PRIu32 "\n", UINT32_MAX); |
tonnyleonard | 6:5d4c09973041 | 80 | |
tonnyleonard | 0:789510d98ade | 81 | while(1) { |
tonnyleonard | 5:29372f6cb533 | 82 | uint32_t count3=0; |
tonnyleonard | 5:29372f6cb533 | 83 | |
tonnyleonard | 4:4f115819171f | 84 | int8_t dir1; |
tonnyleonard | 6:5d4c09973041 | 85 | uint16_t voltage1=0; |
tonnyleonard | 0:789510d98ade | 86 | |
tonnyleonard | 0:789510d98ade | 87 | |
tonnyleonard | 0:789510d98ade | 88 | //OK 401 411 446 NOK 030 |
tonnyleonard | 5:29372f6cb533 | 89 | //count1=TIM2->CNT; |
tonnyleonard | 5:29372f6cb533 | 90 | //dir1=TIM2->CR1&TIM_CR1_DIR; |
tonnyleonard | 5:29372f6cb533 | 91 | count3=__HAL_TIM_GET_COUNTER(&timer2); |
tonnyleonard | 4:4f115819171f | 92 | dir1 = __HAL_TIM_IS_TIM_COUNTING_DOWN(&timer2); |
tonnyleonard | 6:5d4c09973041 | 93 | voltage1=adc1.read_u16(); |
tonnyleonard | 6:5d4c09973041 | 94 | dac1.write_u16(count3*2); |
tonnyleonard | 0:789510d98ade | 95 | |
tonnyleonard | 5:29372f6cb533 | 96 | printf("%ld%s passes=%d short=%ld\r\n", count1+count3, dir1==0 ? "+":"-", count2, count3); |
tonnyleonard | 6:5d4c09973041 | 97 | printf("Voltage= %d, DAC=%f\r\n", voltage1, dac1.read()*3.3); |
tonnyleonard | 6:5d4c09973041 | 98 | printf("percentage: %3.3f%%\r\n", adc2.read()*100.0f); |
tonnyleonard | 6:5d4c09973041 | 99 | printf("percentage: %3.3f%%\r\n", adc3.read()*100.0f); |
tonnyleonard | 6:5d4c09973041 | 100 | |
tonnyleonard | 6:5d4c09973041 | 101 | wait(2.1); |
tonnyleonard | 0:789510d98ade | 102 | } |
tonnyleonard | 0:789510d98ade | 103 | } |