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teensy-cores/teensy4/analog.c

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  1. #include "imxrt.h"

  2. #include "core_pins.h"

  3. #include "debug/printf.h"

  4. #include "avr/pgmspace.h"

  5. 

  6. static uint8_t calibrating;

  7. static uint8_t analog_config_bits = 10;

  8. static uint8_t analog_num_average = 4;

  9. 

  10. 

  11. const uint8_t pin_to_channel[] = { // pg 482

  12. 	7,	// 0/A0  AD_B1_02

  13. 	8,	// 1/A1  AD_B1_03

  14. 	12,	// 2/A2  AD_B1_07

  15. 	11,	// 3/A3  AD_B1_06

  16. 	6,	// 4/A4  AD_B1_01

  17. 	5,	// 5/A5  AD_B1_00

  18. 	15,	// 6/A6  AD_B1_10

  19. 	0,	// 7/A7  AD_B1_11

  20. 	13,	// 8/A8  AD_B1_08

  21. 	14,	// 9/A9  AD_B1_09

  22. 	1,	// 24/A10 AD_B0_12 

  23. 	2,	// 25/A11 AD_B0_13

  24. 	128+3,	// 26/A12 AD_B1_14 - only on ADC2, 3

  25. 	128+4,	// 27/A13 AD_B1_15 - only on ADC2, 4

  26. 	7,	// 14/A0  AD_B1_02

  27. 	8,	// 15/A1  AD_B1_03

  28. 	12,	// 16/A2  AD_B1_07

  29. 	11,	// 17/A3  AD_B1_06

  30. 	6,	// 18/A4  AD_B1_01

  31. 	5,	// 19/A5  AD_B1_00

  32. 	15,	// 20/A6  AD_B1_10

  33. 	0,	// 21/A7  AD_B1_11

  34. 	13,	// 22/A8  AD_B1_08

  35. 	14,	// 23/A9  AD_B1_09

  36. 	1,	// 24/A10 AD_B0_12

  37. 	2,	// 25/A11 AD_B0_13

  38. 	128+3,	// 26/A12 AD_B1_14 - only on ADC2, 3

  39. 	128+4,	// 27/A13 AD_B1_15 - only on ADC2, 4

  40. #ifdef ARDUINO_TEENSY41

  41. 	255,	// 28

  42. 	255,	// 29

  43. 	255,	// 30

  44. 	255,	// 31

  45. 	255,	// 32

  46. 	255,	// 33

  47. 	255,	// 34

  48. 	255,	// 35

  49. 	255,	// 36

  50. 	255,	// 37

  51. 	128+1,	// 38/A14 AD_B1_12 - only on ADC2, 1

  52. 	128+2,	// 39/A15 AD_B1_13 - only on ADC2, 2

  53. 	9,	// 40/A16 AD_B1_04

  54. 	10,	// 41/A17 AD_B1_05

  55. #endif

  56. };

  57. 

  58. 

  59. static void wait_for_cal(void)

  60. {

  61. 	//printf("wait_for_cal\n");

  62. 	while (ADC1_GC & ADC_GC_CAL) ;

  63. 	while (ADC2_GC & ADC_GC_CAL) ;

  64. 	// TODO: check CALF, but what do to about CAL failure?

  65. 	calibrating = 0;

  66. 	//printf("cal complete\n");

  67. }

  68. 

  69. 

  70. int analogRead(uint8_t pin)

  71. {

  72. 	if (pin > sizeof(pin_to_channel)) return 0;

  73. 	if (calibrating) wait_for_cal();

  74. 	uint8_t ch = pin_to_channel[pin];

  75. 	if (ch == 255) return 0;

  76. //	printf("%d\n", ch);

  77. //	if (ch > 15) return 0;

  78. 	if(!(ch & 0x80)) {

  79. 		ADC1_HC0 = ch;

  80. 		while (!(ADC1_HS & ADC_HS_COCO0)) ; // wait

  81. 		return ADC1_R0;

  82. 	} else {

  83. 		ADC2_HC0 = ch & 0x7f;

  84. 		while (!(ADC2_HS & ADC_HS_COCO0)) ; // wait

  85. 		return ADC2_R0;

  86. 	}

  87. }

  88. 

  89. void analogReference(uint8_t type)

  90. {

  91. }

  92. 

  93. void analogReadRes(unsigned int bits)

  94. {

  95.   uint32_t tmp32, mode;

  96. 

  97.    if (bits == 8) {

  98.     // 8 bit conversion (17 clocks) plus 8 clocks for input settling

  99.     mode = ADC_CFG_MODE(0) | ADC_CFG_ADSTS(3);

  100.   } else if (bits == 10) {

  101.     // 10 bit conversion (17 clocks) plus 20 clocks for input settling

  102.     mode = ADC_CFG_MODE(1) | ADC_CFG_ADSTS(2) | ADC_CFG_ADLSMP;

  103.   } else {

  104.     // 12 bit conversion (25 clocks) plus 24 clocks for input settling

  105.     mode = ADC_CFG_MODE(2) | ADC_CFG_ADSTS(3) | ADC_CFG_ADLSMP;

  106.   }

  107. 

  108.   tmp32  = (ADC1_CFG & (0xFFFFFC00));

  109.   tmp32 |= (ADC1_CFG & (0x03));  // ADICLK

  110.   tmp32 |= (ADC1_CFG & (0xE0));  // ADIV & ADLPC

  111. 

  112.   tmp32 |= mode; 

  113.   ADC1_CFG = tmp32;

  114.   

  115.   tmp32  = (ADC2_CFG & (0xFFFFFC00));

  116.   tmp32 |= (ADC2_CFG & (0x03));  // ADICLK

  117.   tmp32 |= (ADC2_CFG & (0xE0));  // ADIV & ADLPC

  118. 

  119.   tmp32 |= mode; 

  120.   ADC2_CFG = tmp32;

  121. }

  122. 

  123. void analogReadAveraging(unsigned int num)

  124. {

  125.   uint32_t mode, mode1;

  126.   

  127.   //disable averaging, ADC1 and ADC2

  128.   ADC1_GC &= ~0x20;

  129.   mode = ADC1_CFG & ~0xC000;

  130.   ADC2_GC &= ~0x20;

  131.   mode1 = ADC2_CFG & ~0xC000;

  132.   

  133.     if (num >= 32) {

  134.       mode |= ADC_CFG_AVGS(3);

  135.       mode1 |= ADC_CFG_AVGS(3);

  136. 

  137.     } else if (num >= 16) {

  138.       mode |= ADC_CFG_AVGS(2);

  139.       mode1 |= ADC_CFG_AVGS(2);

  140. 

  141.     } else if (num >= 8) {

  142.       mode |= ADC_CFG_AVGS(1);

  143.       mode1 |= ADC_CFG_AVGS(1);

  144. 

  145.     } else if (num >= 4) {

  146.       mode |= ADC_CFG_AVGS(0);

  147.       mode1 |= ADC_CFG_AVGS(0);

  148. 

  149.     } else {

  150.       mode |= 0;

  151.       mode1 |= 0;

  152.     }

  153. 

  154.   ADC1_CFG = mode;

  155.   ADC2_CFG = mode1;

  156.   

  157.   if(num >= 4){

  158.       ADC1_GC |= ADC_GC_AVGE;// turns on averaging

  159.       ADC2_GC |= ADC_GC_AVGE;// turns on averaging

  160.   }

  161. }

  162. 

  163. #define MAX_ADC_CLOCK 20000000

  164. 

  165. FLASHMEM void analog_init(void)

  166. {

  167. 	uint32_t mode, avg=0;

  168. 

  169. 	printf("analogInit\n");

  170. 

  171. 	CCM_CCGR1 |= CCM_CCGR1_ADC1(CCM_CCGR_ON);

  172. 	CCM_CCGR1 |= CCM_CCGR1_ADC2(CCM_CCGR_ON);

  173. 	

  174. 	if (analog_config_bits == 8) {

  175. 		// 8 bit conversion (17 clocks) plus 8 clocks for input settling

  176. 		mode = ADC_CFG_MODE(0) | ADC_CFG_ADSTS(3);

  177. 	} else if (analog_config_bits == 10) {

  178. 		// 10 bit conversion (17 clocks) plus 20 clocks for input settling

  179. 		mode = ADC_CFG_MODE(1) | ADC_CFG_ADSTS(2) | ADC_CFG_ADLSMP;

  180. 	} else {

  181. 		// 12 bit conversion (25 clocks) plus 24 clocks for input settling

  182. 		mode = ADC_CFG_MODE(2) | ADC_CFG_ADSTS(3) | ADC_CFG_ADLSMP;

  183. 	}

  184. 	if (analog_num_average >= 4) {

  185. 		if (analog_num_average >= 32) {

  186. 			mode |= ADC_CFG_AVGS(3);

  187. 		} else if (analog_num_average >= 16) {

  188. 			mode |= ADC_CFG_AVGS(2);

  189. 		} else if (analog_num_average >= 8) {

  190. 			mode |= ADC_CFG_AVGS(1);

  191. 		}

  192. 		avg = ADC_GC_AVGE;

  193. 	}

  194. #if 1

  195. 	mode |= ADC_CFG_ADIV(1) | ADC_CFG_ADICLK(3); // async clock

  196. #else

  197. 	uint32_t clock = F_BUS;

  198. 	if (clock > MAX_ADC_CLOCK*8) {

  199. 		mode |= ADC_CFG_ADIV(3) | ADC_CFG_ADICLK(1); // use IPG/16

  200. 	} else if (clock > MAX_ADC_CLOCK*4) {

  201. 		mode |= ADC_CFG_ADIV(2) | ADC_CFG_ADICLK(1); // use IPG/8

  202. 	} else if (clock > MAX_ADC_CLOCK*2) {

  203. 		mode |= ADC_CFG_ADIV(1) | ADC_CFG_ADICLK(1); // use IPG/4

  204. 	} else if (clock > MAX_ADC_CLOCK) {

  205. 		mode |= ADC_CFG_ADIV(0) | ADC_CFG_ADICLK(1); // use IPG/2

  206. 	} else {

  207. 		mode |= ADC_CFG_ADIV(0) | ADC_CFG_ADICLK(0); // use IPG

  208. 	}

  209. #endif

  210. 	//ADC1

  211. 	ADC1_CFG = mode | ADC_CFG_ADHSC;

  212. 	ADC1_GC = avg | ADC_GC_CAL;		// begin cal

  213. 	calibrating = 1;

  214. 	while (ADC1_GC & ADC_GC_CAL) ;

  215. 	calibrating = 0;

  216. 	//ADC2

  217. 	ADC2_CFG = mode | ADC_CFG_ADHSC;

  218. 	ADC2_GC = avg | ADC_GC_CAL;		// begin cal

  219. 	calibrating = 1;

  220. 	while (ADC2_GC & ADC_GC_CAL) ;

  221. 	calibrating = 0;

  222. }

  223.