OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [ARM7_STR75x_IAR/] [STLibrary/] [src/] [75x_adc.c] - Blame information for rev 867

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 577 jeremybenn
/******************** (C) COPYRIGHT 2006 STMicroelectronics ********************
2
* File Name          : 75x_adc.c
3
* Author             : MCD Application Team
4
* Date First Issued  : 03/10/2006
5
* Description        : This file provides all the ADC software functions.
6
********************************************************************************
7
* History:
8
* 07/17/2006 : V1.0
9
* 03/10/2006 : V0.1
10
********************************************************************************
11
* THE PRESENT SOFTWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
12
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
13
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
14
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
15
* CONTENT OF SUCH SOFTWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
16
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
17
*******************************************************************************/
18
 
19
/* Includes ------------------------------------------------------------------*/
20
#include "75x_adc.h"
21
#include "75x_mrcc.h"
22
 
23
/* Private typedef -----------------------------------------------------------*/
24
/* Private define ------------------------------------------------------------*/
25
/* Private macro -------------------------------------------------------------*/
26
/* Private variables ---------------------------------------------------------*/
27
 
28
/* Mask for Power Down Mode */
29
#define ADC_PowerDown_Enable  0x8000
30
#define ADC_PowerDown_Disable 0x7FFF
31
 
32
/* Mask for Watchdog Thresholds Enable */
33
#define ADC_AnalogWatchdog_Enable  0x8000
34
#define ADC_AnalogWatchdog_Disable 0x7FFF
35
 
36
/* Mask for Injected conversion start */
37
#define ADC_Injec_ConversionStart  0x8000
38
 
39
/* DMA enable */
40
#define ADC_DMA_ExtEnable_Mask  0x4000
41
 
42
/* Injected start trigger enable */
43
#define ADC_Injec_ExtTrigger_Enable   0x4000
44
 
45
/* ADC Masks */
46
#define ADC_DMAFirstEnabledChannel_Mask  0x000F 
47
#define ADC_DataRegisterOffset           0x0050
48
#define ADC_FirstChannel_Mask            0xFFF0
49
#define ADC_ChannelNumber_Mask           0xFC3F
50
#define ADC_Threshold_Mask               0xFC00
51
#define ADC_AnalogWatchdogChannel_Mask   0xC3FF
52
#define ADC_Prescalers_Mask              0x7F18
53
#define ADC_SPEN_Mask                    0x8000
54
#define ADC_FallingEdge_Mask             0xEFFF
55
#define ADC_LowLevel_Mask                0x4000
56
#define ADC_HighLevel_Mask               0xDFFF
57
#define ADC_Calibration_Mask             0x0002
58
 
59
/* Private function prototypes -----------------------------------------------*/
60
/* Private functions ---------------------------------------------------------*/
61
 
62
/*******************************************************************************
63
* Function Name  : ADC_DeInit
64
* Description    : Deinitializes the ADC peripheral registers to their default
65
*                  reset values.
66
* Input          : None.
67
* Output         : None
68
* Return         : None.
69
*******************************************************************************/
70
void ADC_DeInit(void)
71
{
72
  /* Reset the ADC registers values*/
73
  MRCC_PeripheralSWResetConfig(MRCC_Peripheral_ADC,ENABLE);
74
  MRCC_PeripheralSWResetConfig(MRCC_Peripheral_ADC,DISABLE);
75
}
76
 
77
/*******************************************************************************
78
* Function Name  : ADC_Init
79
* Description    : Initializes the ADC  peripheral according to the specified
80
*                  parameters in the ADC_InitStruct.
81
* Input          : - ADC_InitStruct: pointer to an ADC_InitTypeDef structure that
82
                   contains the configuration information for the ADC peripheral.
83
* Output         : None
84
* Return         : None
85
*******************************************************************************/
86
void ADC_Init(ADC_InitTypeDef* ADC_InitStruct)
87
{
88
  /* Configure the conversion mode */
89
  if(ADC_InitStruct->ADC_ConversionMode == ADC_ConversionMode_Scan)
90
  {
91
    /* Set the scan conversion mode */
92
    ADC->CLR2 |= ADC_ConversionMode_Scan;
93
  }
94
  else
95
  {
96
    /* Set the one-shot conversion mode */
97
    ADC->CLR2 &= ADC_ConversionMode_OneShot;
98
  }
99
 
100
  /* Configure the external start conversion trigger */
101
  switch(ADC_InitStruct->ADC_ExtTrigger)
102
  {
103
    case ADC_ExtTrigger_HighLevel:
104
      /* Start conversion on High level of the external trigger (TIM0) */
105
      ADC->CLR0 &= ADC_HighLevel_Mask;
106
      ADC->CLR0 |= ADC_ExtTrigger_HighLevel;
107
      break;
108
 
109
    case ADC_ExtTrigger_LowLevel:
110
      /* Start conversion on low level of the external trigger (TIM0) */
111
      ADC->CLR0 &= ADC_ExtTrigger_LowLevel;
112
      ADC->CLR0 |= ADC_LowLevel_Mask;
113
      break;
114
 
115
    case ADC_ExtTrigger_RisingEdge:
116
      /* Start conversion on rising edge of the external trigger (TIM0) */
117
      ADC->CLR0 |= ADC_ExtTrigger_RisingEdge;
118
      break;
119
 
120
    case ADC_ExtTrigger_FallingEdge:
121
      /* Start conversion on falling edge of the external trigger (TIM0) */
122
      ADC->CLR0 &= ADC_FallingEdge_Mask;
123
      ADC->CLR0 |= ADC_ExtTrigger_FallingEdge;
124
      break;
125
 
126
    case ADC_ExtTrigger_Disable:
127
      /* Disable the external trigger and start the conversion by software */
128
      ADC->CLR0 &= ADC_ExtTrigger_Disable;
129
      break;
130
 
131
    default:
132
      break;
133
  }
134
 
135
  /* Configure the auto clock off feature */
136
  if (ADC_InitStruct->ADC_AutoClockOff == ADC_AutoClockOff_Enable)
137
  {
138
    /* Enable the auto clock off feature */
139
    ADC->CLR4 |= ADC_AutoClockOff_Enable;
140
  }
141
  else
142
  {
143
    /* Disable the auto clock off feature */
144
    ADC->CLR4 &= ADC_AutoClockOff_Disable;
145
  }
146
 
147
  /* Clear conversion prescaler CNVP[2:0], sampling prescaler SMPP[2:0] bits
148
     and Sample prescaler enable SPEN bit */
149
  ADC->CLR1 &= ADC_Prescalers_Mask;
150
  /* Set conversion prescaler value (sampling and conversion prescalers are equal
151
     while SPEN bit is reset */
152
  ADC->CLR1 |= (ADC_InitStruct->ADC_ConversionPrescaler<<5);
153
 
154
  /* In case ADC_SamplingPrescaler member is different from the conversion one */
155
  if(ADC_InitStruct->ADC_SamplingPrescaler != ADC_InitStruct->ADC_ConversionPrescaler)
156
  {
157
    /* Set the sampling prescaler value */
158
    ADC->CLR1 |= ADC_InitStruct->ADC_SamplingPrescaler;
159
    /* Set SPEN bit (sampling and conversion prescalers are different */
160
    ADC->CLR1 = (ADC->CLR1 | ADC_SPEN_Mask);
161
  }
162
 
163
  /* Clear first channel to be converted FCH[3:0] bits */
164
  ADC->CLR2 &= ADC_FirstChannel_Mask;
165
  /* Set the first channel to be converted */
166
  ADC->CLR2 |= ADC_InitStruct->ADC_FirstChannel;
167
  /* Clear number of channels to be converted NCH[3:0] bits */
168
  ADC->CLR2 &= ADC_ChannelNumber_Mask;
169
  /* Set the number of channels to be converted */
170
  ADC->CLR2 |= ((ADC_InitStruct->ADC_ChannelNumber)-1<<6);
171
}
172
 
173
/*******************************************************************************
174
* Function Name  : ADC_StructInit
175
* Description    : Fills each ADC_InitStruct member with its default value.
176
* Input          : - ADC_InitStruct: pointer to an ADC_InitTypeDef structure
177
                     which will be initialized.
178
* Output         : None
179
* Return         : None.
180
*******************************************************************************/
181
void ADC_StructInit(ADC_InitTypeDef* ADC_InitStruct)
182
{
183
  /* Initialize the ADC_ConversionMode member */
184
  ADC_InitStruct->ADC_ConversionMode = ADC_ConversionMode_OneShot;
185
 
186
  /* Initialize the ADC_ExtTrigger member */
187
  ADC_InitStruct->ADC_ExtTrigger = ADC_ExtTrigger_Disable;
188
 
189
  /* Initialize the ADC_AutoClockOff member */
190
  ADC_InitStruct->ADC_AutoClockOff = ADC_AutoClockOff_Disable;
191
 
192
  /* Initialize the ADC_SamplingPrescaler member */
193
  ADC_InitStruct->ADC_SamplingPrescaler = 0;
194
 
195
  /* Initialize the ADC_ConversionPrescaler member */
196
  ADC_InitStruct->ADC_ConversionPrescaler = 0;
197
 
198
  /* Initialize the ADC_FirstChannel member */
199
  ADC_InitStruct->ADC_FirstChannel = ADC_CHANNEL0;
200
 
201
  /* Initialize the ADC_ChannelNumber member */
202
  ADC_InitStruct->ADC_ChannelNumber = 1;
203
 }
204
 
205
/*******************************************************************************
206
* Function Name  : ADC_StartCalibration
207
* Description    : Starts the ADC Calibration. Calibration average enabled/disabled.
208
* Input          : - ADC_CalibAverage: Enables or disables ADC calibration average.
209
*                    This parameter can be one of the following values:
210
*                         - ADC_CalibAverage_Enable:  enable calibration average
211
*                         - ADC_CalibAverage_Disable: disable calibration average
212
* Output         : None
213
* Return         : None
214
*******************************************************************************/
215
void ADC_StartCalibration(u16 ADC_CalibAverage)
216
{
217
  if (ADC_CalibAverage == ADC_CalibAverage_Enable)
218
  {
219
    /* Enable ADC Calibration Average */
220
    ADC->CLR4 &= ADC_CalibAverage_Enable;
221
  }
222
  else
223
  {
224
    /* Disable ADC Calibration Average */
225
    ADC->CLR4 |= ADC_CalibAverage_Disable;
226
  }
227
 
228
  /* Start Calibration */
229
  ADC->CLR0 |= ADC_Calibration_ON;
230
}
231
 
232
/*******************************************************************************
233
* Function Name  : ADC_GetCalibrationStatus
234
* Description    : Get the ADC Calibration Status.
235
* Input          : None
236
* Output         : None
237
* Return         : The NewState of the ADC calibration (SET or RESET).
238
*******************************************************************************/
239
FlagStatus ADC_GetCalibrationStatus(void)
240
{
241
  /* Check the status of the ADC calibration */
242
  if((ADC->CLR0 & ADC_Calibration_Mask) != RESET)
243
  {
244
    /* Return SET if ADC Calibration is on going */
245
    return SET;
246
  }
247
  else
248
  {
249
    /* Return RESET if ADC Calibration is finished */
250
    return RESET;
251
  }
252
}
253
 
254
/*******************************************************************************
255
* Function Name  : ADC_ConversionCmd
256
* Description    : Starts or stops the ADC conversion.
257
* Input          : - ADC_Conversion: specifies the ADC command to apply.
258
*                    This parameter can be one of the following values:
259
*                         - ADC_Conversion_Start: start conversion
260
*                         - ADC_Conversion_Stop:  stop conversion
261
* Output         : None
262
* Return         : None
263
*******************************************************************************/
264
void ADC_ConversionCmd (u16 ADC_Conversion)
265
{
266
  if (ADC_Conversion == ADC_Conversion_Start)
267
  {
268
    /* Start the ADC Conversion */
269
    ADC->CLR0 |= ADC_Conversion_Start;
270
  }
271
  else
272
  {
273
    /* Stop the ADC Conversion */
274
    ADC->CLR0 &= ADC_Conversion_Stop;
275
  }
276
}
277
 
278
/*******************************************************************************
279
* Function Name  : ADC_GetSTARTBitStatus
280
* Description    : Gets the ADC START/STOP bit Status.
281
* Input          : None
282
* Output         : None
283
* Return         : The NewState of the ADC START/STOP bit (SET or RESET).
284
*******************************************************************************/
285
FlagStatus ADC_GetSTARTBitStatus(void)
286
{
287
  /* Check the status of the ADC START/STOP bit */
288
  if((ADC->CLR0 & ADC_Conversion_Start) != RESET)
289
  {
290
    /* Return SET if ADC Conversion is started */
291
    return SET;
292
  }
293
  else
294
  {
295
    /* Return RESET if ADC Conversion is stopped */
296
    return RESET;
297
  }
298
}
299
 
300
/*******************************************************************************
301
* Function Name  : ADC_Cmd
302
* Description    : Enables the ADC peripheral or puts it in power down mode.
303
*                  - NewState: new state of the ADC peripheral.
304
*                    This parameter can be: ENABLE or DISABLE.
305
* Output         : None
306
* Return         : None.
307
*******************************************************************************/
308
void ADC_Cmd(FunctionalState NewState)
309
{
310
  if (NewState == DISABLE)
311
  {
312
    /* Enable ADC Power Down Mode */
313
    ADC->CLR4 |= ADC_PowerDown_Enable;
314
  }
315
  else
316
  {
317
    /* Disable ADC Power Down Mode */
318
    ADC->CLR4 &= ADC_PowerDown_Disable;
319
  }
320
}
321
 
322
/*******************************************************************************
323
* Function Name  : ADC_AutoClockOffConfig
324
* Description    : Enables or disables the Auto clock off feature.
325
*                  - NewState: new state of the Auto clock off feature. This
326
*                    parameter can be: ENABLE or DISABLE.
327
* Output         : None
328
* Return         : None.
329
*******************************************************************************/
330
void ADC_AutoClockOffConfig(FunctionalState NewState)
331
{
332
  if (NewState == ENABLE)
333
  {
334
    /* Enable ADC Auto Clock Off */
335
    ADC->CLR4 |= ADC_AutoClockOff_Enable;
336
  }
337
  else
338
  {
339
    /* Disable ADC Auto Clock Off */
340
    ADC->CLR4 &= ADC_AutoClockOff_Disable;
341
  }
342
}
343
 
344
/*******************************************************************************
345
* Function Name  : ADC_AnalogWatchdogConfig
346
* Description    : Configures the analog input channel to be used for the selected
347
*                  Analog Watchdog and defines its corresponding High and Low
348
*                  threshold values.
349
* Input          : - ADC_AnalogWatchdog: specifies the analog watchdog which will
350
*                    be affected to the desired converted channel. This parameter
351
*                    can be one of the following values:
352
*                     - ADC_AnalogWatchdog0: select analog watchdog 0
353
*                     - ADC_AnalogWatchdog1: select analog watchdog 1
354
*                     - ADC_AnalogWatchdog2: select analog watchdog 2
355
*                     - ADC_AnalogWatchdog3: select analog watchdog 3
356
*                  - ADC_CHANNEL: specifies the channel linked to the selected
357
*                    analog watchdog. This parameter can be ADC_CHANNELx where x
358
*                    can be (0..15)
359
*                  - LowThreshold: Low Threshold for the selected Analog watchdog
360
*                  - HighThreshold: High Threshold for the selected Analog watchdog
361
* Output         : None
362
* Return         : None
363
*******************************************************************************/
364
void ADC_AnalogWatchdogConfig(u16 ADC_AnalogWatchdog, u8 ADC_CHANNEL,
365
                              u16 LowThreshold, u16 HighThreshold)
366
{
367
  switch (ADC_AnalogWatchdog)
368
  {
369
    /* Set the selected channel and their corresponding High and Low thresholds */
370
    case ADC_AnalogWatchdog0 :
371
      ADC->TRA0 = (ADC->TRA0 & ADC_AnalogWatchdogChannel_Mask) | ((u16) ADC_CHANNEL<<10);
372
      ADC->TRA0 = (ADC->TRA0 & ADC_Threshold_Mask) |  HighThreshold;
373
      ADC->TRB0 = (ADC->TRB0 & ADC_Threshold_Mask) |  LowThreshold;
374
      break;
375
 
376
    case ADC_AnalogWatchdog1 :
377
      ADC->TRA1 = (ADC->TRA1 & ADC_AnalogWatchdogChannel_Mask) | ((u16) ADC_CHANNEL<<10);
378
      ADC->TRA1 = (ADC->TRA1 & ADC_Threshold_Mask) |  HighThreshold;
379
      ADC->TRB1 = (ADC->TRB1 & ADC_Threshold_Mask) |  LowThreshold;
380
      break;
381
 
382
    case ADC_AnalogWatchdog2 :
383
      ADC->TRA2 = (ADC->TRA2 & ADC_AnalogWatchdogChannel_Mask) | ((u16) ADC_CHANNEL<<10);
384
      ADC->TRA2 = (ADC->TRA2 & ADC_Threshold_Mask) |  HighThreshold;
385
      ADC->TRB2 = (ADC->TRB2 & ADC_Threshold_Mask) |  LowThreshold;
386
      break;
387
 
388
    case ADC_AnalogWatchdog3 :
389
      ADC->TRA3 = (ADC->TRA3 & ADC_AnalogWatchdogChannel_Mask) | ((u16) ADC_CHANNEL<<10);
390
      ADC->TRA3 = (ADC->TRA3 & ADC_Threshold_Mask) |  HighThreshold;
391
      ADC->TRB3 = (ADC->TRB3 & ADC_Threshold_Mask) |  LowThreshold;
392
      break;
393
 
394
    default:
395
      break;
396
  }
397
}
398
 
399
/*******************************************************************************
400
* Function Name  : ADC_AnalogWatchdogCmd
401
* Description    : Enables or disables the selected analog Watchdog.
402
* Input          : - ADC_AnalogWatchdog: specifies the analog watchdog to be
403
*                    enabled or disabled. This parameter can be one of the
404
*                    following values:
405
*                     - ADC_AnalogWatchdog0: select analog watchdog 0
406
*                     - ADC_AnalogWatchdog1: select analog watchdog 1
407
*                     - ADC_AnalogWatchdog2: select analog watchdog 2
408
*                     - ADC_AnalogWatchdog3: select analog watchdog 3
409
*                  - NewState: new state of the specified analog watchdog.
410
*                    This parameter can be: ENABLE or DISABLE.
411
* Output         : None
412
* Return         : None.
413
*******************************************************************************/
414
void ADC_AnalogWatchdogCmd(u16 ADC_AnalogWatchdog, FunctionalState NewState)
415
{
416
  if (NewState == ENABLE)
417
  {
418
    /* Enable the selected ADC AnalogWatchdogx */
419
    switch (ADC_AnalogWatchdog)
420
    {
421
      case ADC_AnalogWatchdog0 :
422
        ADC->TRB0 |= ADC_AnalogWatchdog_Enable;
423
        break;
424
 
425
      case ADC_AnalogWatchdog1 :
426
        ADC->TRB1 |= ADC_AnalogWatchdog_Enable;
427
        break;
428
 
429
      case ADC_AnalogWatchdog2 :
430
        ADC->TRB2 |= ADC_AnalogWatchdog_Enable;
431
        break;
432
 
433
      case ADC_AnalogWatchdog3 :
434
        ADC->TRB3 |= ADC_AnalogWatchdog_Enable;
435
        break;
436
 
437
      default:
438
        break;
439
    }
440
  }
441
  else
442
  {
443
    /* Disable the selected ADC AnalogWatchdogx */
444
    switch (ADC_AnalogWatchdog)
445
    {
446
      case ADC_AnalogWatchdog0 :
447
        ADC->TRB0 &= ADC_AnalogWatchdog_Disable;
448
        break;
449
 
450
      case ADC_AnalogWatchdog1 :
451
        ADC->TRB1 &= ADC_AnalogWatchdog_Disable;
452
        break;
453
 
454
      case ADC_AnalogWatchdog2 :
455
        ADC->TRB2 &= ADC_AnalogWatchdog_Disable;
456
        break;
457
 
458
      case ADC_AnalogWatchdog3 :
459
        ADC->TRB3 &= ADC_AnalogWatchdog_Disable;
460
        break;
461
 
462
      default:
463
        break;
464
    }
465
  }
466
}
467
 
468
/*******************************************************************************
469
* Function Name  : ADC_GetAnalogWatchdogResult
470
* Description    : Returns the comparison result of the selected analog watchdog.
471
* Input          : - ADC_AnalogWatchdog: specifies the analog watchdog channel
472
*                    which its comparison result will be returned. This parameter
473
*                    can be one of the following values:
474
*                     - ADC_AnalogWatchdog0: select analog watchdog 0
475
*                     - ADC_AnalogWatchdog1: select analog watchdog 1
476
*                     - ADC_AnalogWatchdog2: select analog watchdog 2
477
*                     - ADC_AnalogWatchdog3: select analog watchdog 3
478
* Output         : None
479
* Return         : The analog watchdog comparaison result value
480
*******************************************************************************/
481
u16 ADC_GetAnalogWatchdogResult(u16 ADC_AnalogWatchdog)
482
{
483
  /* Return the selected ADC AnalogWatchdogx comparaison result */
484
  switch(ADC_AnalogWatchdog)
485
  {
486
    case ADC_AnalogWatchdog0 :
487
      return ((ADC->PBR & ADC_AnalogWatchdog)>>4);
488
 
489
    case ADC_AnalogWatchdog1 :
490
      return ((ADC->PBR & ADC_AnalogWatchdog)>>6);
491
 
492
    case ADC_AnalogWatchdog2 :
493
      return ((ADC->PBR & ADC_AnalogWatchdog)>>8);
494
 
495
    case ADC_AnalogWatchdog3 :
496
      return ((ADC->PBR & ADC_AnalogWatchdog)>>10);
497
 
498
    default : return (0xFF);  /* if a wrong value of ADC_AnalogWatchdog is selected */
499
  }
500
}
501
 
502
/*******************************************************************************
503
* Function Name  : ADC_InjectedConversionConfig
504
* Description    : Configures the start trigger level for the injected channels
505
*                  and the injected analog input channels to be converted.
506
* Input          : - ADC_Injec_ExtTrigger: specifies the start trigger level.
507
*                    This parameter can be one of the following values:
508
*                         - ADC_Injec_ExtTrigger_Disable : external trigger disabled
509
*                         - ADC_Injec_ExtTrigger_RisingEdge: external trigger
510
*                           configured as rising edge of PWM Timer TRGO signal
511
*                         - ADC_Injec_ExtTrigger_FallingEdge: external trigger
512
*                           configured as falling edge of PWM Timer TRGO signal
513
*                  - FirstChannel: specifies the first injected channel to be
514
*                    converted.
515
*                    This parameter can be ADC_CHANNELx  where x can be (0..15).
516
*                  - ChannelNumber: specifies the Number of the injected channels
517
*                    to be converted. This parameter can be a  value from 1 to 16.
518
* Output         : None
519
* Return         : None
520
*******************************************************************************/
521
void ADC_InjectedConversionConfig(u16 ADC_Injec_ExtTrigger, u8 FirstChannel, u8 ChannelNumber)
522
{
523
  /* Configure the external start injected conversion trigger */
524
  switch (ADC_Injec_ExtTrigger)
525
  {
526
    case ADC_Injec_ExtTrigger_Disable  :
527
      /* Disable the external trigger and start the injected conversion by software */
528
      ADC->CLR3 &= ADC_Injec_ExtTrigger_Disable ;
529
      break;
530
    case ADC_Injec_ExtTrigger_RisingEdge :
531
      /* Start injected conversion on rising edge of the external trigger (PWM) */
532
      ADC->CLR3 |= ADC_Injec_ExtTrigger_RisingEdge;
533
      break;
534
    case ADC_Injec_ExtTrigger_FallingEdge :
535
      /* Start injected conversion on falling edge of the external trigger (PWM) */
536
      ADC->CLR3 |= ADC_Injec_ExtTrigger_Enable;
537
      ADC->CLR3 &= ADC_Injec_ExtTrigger_FallingEdge;
538
      break;
539
 
540
    default:
541
      break;
542
  }
543
 
544
  /* Clear first injected channel to be converted JFCH[3:0] bits */
545
  ADC->CLR3 &= ADC_FirstChannel_Mask;
546
  /* Set the first injected channel to be converted */
547
  ADC->CLR3 |= FirstChannel;
548
  /* Clear number of injected channels to be converted JNCH[3:0] bits */
549
  ADC->CLR3 &= ADC_ChannelNumber_Mask;
550
  /* Set the number of injected channels to be converted */
551
  ADC->CLR3 |= ((ChannelNumber-1)<<6);
552
}
553
 
554
/*******************************************************************************
555
* Function Name  : ADC_StartInjectedConversion
556
* Description    : Starts by software the conversion of the injected input channels.
557
* Input          : None
558
* Output         : None
559
* Return         : None
560
*******************************************************************************/
561
void ADC_StartInjectedConversion(void)
562
{
563
  /* Start the injected ADC Conversion */
564
  ADC->CLR3 |= ADC_Injec_ConversionStart;
565
}
566
 
567
/*******************************************************************************
568
* Function Name  : ADC_GetConversionValue
569
* Description    : Reads the conversion result from the appropriate data register.
570
* Input          : - ADC_CHANNEL :specifies the ADC channel which its conversion
571
*                    value have to be returned. This parameter can be ADC_CHANNELx
572
*                    where x can be (0..15) to select channelx
573
* Output         : None
574
* Return         : The returned value holds the conversion result of the selected
575
*                  channel.
576
*******************************************************************************/
577
u16 ADC_GetConversionValue(u8 ADC_CHANNEL)
578
{
579
  /* Return the conversion result of the selected channel */
580
  return *((u16 *)(ADC_BASE + ((ADC_CHANNEL<<2) + ADC_DataRegisterOffset)));
581
}
582
 
583
/*******************************************************************************
584
* Function Name  : ADC_ITConfig
585
* Description    : Enables or disables the specified ADC interrupts.
586
* Input          : - ADC_IT: specifies the ADC interrupts to be enabled or disabled.
587
*                    This parameter can be any combination of the following values:
588
*                         - ADC_IT_ECH:  End of chain conversion interrupt
589
*                         - ADC_IT_EOC:  End of channel conversion interrupt
590
*                         - ADC_IT_JECH: Injected end of chain conversion interrupt
591
*                         - ADC_IT_JEOC: Injected end of channel conversion interrupt
592
*                         - ADC_IT_AnalogWatchdog0_LowThreshold:
593
*                                        Analog Watchdog 0 LowThreshold interrupt
594
*                         - ADC_IT_AnalogWatchdog0_HighThreshold:
595
*                                        Analog Watchdog 0 HighThreshold interrupt
596
*                         - ADC_IT_AnalogWatchdog1_LowThreshold:
597
*                                        Analog Watchdog 1 LowThreshold interrupt
598
*                         - ADC_IT_AnalogWatchdog1_HighThreshold:
599
*                                        Analog Watchdog 1 HighThreshold interrupt
600
*                         - ADC_IT_AnalogWatchdog2_LowThreshold:
601
*                                        Analog Watchdog 2 LowThreshold interrupt
602
*                         - ADC_IT_AnalogWatchdog2_HighThreshold:
603
*                                        Analog Watchdog 2 HighThreshold interrupt
604
*                         - ADC_IT_AnalogWatchdog3_LowThreshold:
605
*                                        Analog Watchdog 3 LowThreshold interrupt
606
*                         - ADC_IT_AnalogWatchdog3_HighThreshold:
607
*                                         Analog Watchdog 5 HighThreshold interrupt
608
*                         - ADC_IT_ALL:  All interrupts
609
*                  - NewState: new state of the specified ADC interrupts.
610
*                    This parameter can be: ENABLE or DISABLE.
611
* Output         : None
612
* Return         : None
613
*******************************************************************************/
614
void ADC_ITConfig(u16 ADC_IT, FunctionalState NewState)
615
{
616
  if (NewState == ENABLE)
617
  {
618
    /* Enable the selected ADC interrupts */
619
    ADC->IMR |= ADC_IT;
620
  }
621
  else
622
  {
623
    /* Disable the selected ADC interrupts */
624
    ADC->IMR &= ~ADC_IT;
625
  }
626
}
627
 
628
/*******************************************************************************
629
* Function Name  : ADC_DMAConfig
630
* Description    : Configures the ADC’s DMA interface.
631
* Input          : - ADC_DMA_CHANNEL: specifies the channels to be enabled or
632
*                    disabled for DMA transfer. This parameter can be any
633
*                    combination of ADC_DMA_CHANNELx where x can be (0..15).
634
*                  - NewState: new state of the specified ADC DMA channels.
635
*                    This parameter can be: ENABLE or DISABLE.
636
* Output         : None
637
* Return         : None
638
*******************************************************************************/
639
void ADC_DMAConfig(u16 ADC_DMA_CHANNEL, FunctionalState NewState)
640
{
641
  if(NewState == ENABLE)
642
  {
643
    /* Enable DMA for the selected channels */
644
    ADC->DMAR |= ADC_DMA_CHANNEL ;
645
  }
646
  else
647
  {
648
    /* Disable DMA for the selected channels */
649
    ADC->DMAR &= ~ADC_DMA_CHANNEL;
650
  }
651
}
652
 
653
/*******************************************************************************
654
* Function Name  : ADC_DMACmd
655
* Description    : Enable or disable the DMA transfer for the ADC.
656
* Input          : - ADC_DMA: specifies the DMA command. This parameter can be
657
*                    one of the following values:
658
*                         - ADC_DMA_Disable: disable the DMA capability
659
*                         - ADC_DMA_Enable: enabled by setting the global
660
*                           enable bit
661
*                         - ADC_DMA_ExtTrigger_HighLevel: enabled by detection of
662
*                           high level of TIM2 OC2 signal
663
*                         - ADC_DMA_ExtTrigger_LowLevel: enabled by detection of
664
*                           low level of TIM2 OC2 signal
665
* Output         : None
666
* Return         : None
667
*******************************************************************************/
668
void ADC_DMACmd(u16 ADC_DMA)
669
{
670
  /* Configure the DMA external trigger enable */
671
  switch (ADC_DMA)
672
  {
673
    case ADC_DMA_Disable :
674
      /* Disable DMA transfer */
675
      ADC->DMAE &= ADC_DMA_Disable;
676
      break;
677
 
678
    case ADC_DMA_Enable :
679
      /* Enable DMA transfer */
680
      ADC->DMAE |= ADC_DMA_Enable;
681
      break;
682
 
683
    case ADC_DMA_ExtTrigger_HighLevel :
684
      /* Enable DMA transfer on high level of the external trigger (TIM2) */
685
      ADC->DMAE &= ADC_DMA_Disable;
686
      ADC->DMAE |= ADC_DMA_ExtTrigger_HighLevel;
687
      break;
688
 
689
    case ADC_DMA_ExtTrigger_LowLevel :
690
      /* Enable DMA transfer on low level of the external trigger (TIM2) */
691
      ADC->DMAE |= ADC_DMA_ExtEnable_Mask;
692
      ADC->DMAE &= ADC_DMA_ExtTrigger_LowLevel;
693
      break;
694
 
695
    default:
696
      break;
697
  }
698
}
699
 
700
/*******************************************************************************
701
* Function Name  : ADC_GetDMAFirstEnabledChannel
702
* Description    : Gets the first DMA-enabled channel configured at the time that
703
*                  DMA was last globally enabled.
704
* Input          : None
705
* Output         : None
706
* Return         : The first DMA enabled channel
707
*******************************************************************************/
708
u16 ADC_GetDMAFirstEnabledChannel(void)
709
{
710
  /* Return the DMA first enabled channel */
711
  return (ADC->DMAE & ADC_DMAFirstEnabledChannel_Mask);
712
}
713
 
714
/*******************************************************************************
715
* Function Name  : ADC_GetFlagStatus
716
* Description    : Checks whether the specified ADC flag is set or not.
717
* Input          : - ADC_FLAG: specifies the ADC flag to check. This parameter
718
*                    can be one of the following values:
719
*                         - ADC_FLAG_ECH:  End of chain conversion Flag
720
*                         - ADC_FLAG_EOC:  End of channel conversion Flag
721
*                         - ADC_FLAG_JECH: End of injected chain conversion Flag
722
*                         - ADC_FLAG_JEOC: End of injected channel conversion Flag
723
*                         - ADC_FLAG_AnalogWatchdog0_LowThreshold:
724
*                                          Analog Watchdog 0 LowThreshold Flag
725
*                         - ADC_FLAG_AnalogWatchdog0_HighThreshold:
726
*                                          Analog Watchdog 0 HighThreshold Flag
727
*                         - ADC_FLAG_AnalogWatchdog1_LowThreshold:
728
*                                          Analog Watchdog 1 LowThreshold Flag
729
*                         - ADC_FLAG_AnalogWatchdog1_HighThreshold:
730
*                                          Analog Watchdog 1 HighThreshold Flag
731
*                         - ADC_FLAG_AnalogWatchdog2_LowThreshold:
732
*                                          Analog Watchdog 2 LowThreshold Flag
733
*                         - ADC_FLAG_AnalogWatchdog2_HighThreshold:
734
*                                          Analog Watchdog 2 HighThreshold Flag
735
*                         - ADC_FLAG_AnalogWatchdog3_LowThreshold:
736
*                                          Analog Watchdog 3 LowThreshold Flag
737
*                         - ADC_FLAG_AnalogWatchdog3_HighThreshold:
738
*                                          Analog Watchdog 3 HighThreshold Flag
739
* Output         : None
740
* Return         : The new state of the ADC_FLAG (SET or RESET).
741
*******************************************************************************/
742
FlagStatus ADC_GetFlagStatus(u16 ADC_FLAG)
743
{
744
  /* Check the status of the specified ADC flag */
745
  if((ADC->PBR & ADC_FLAG) != RESET)
746
  {
747
    /* Return SET if ADC_FLAG is set */
748
    return SET;
749
  }
750
  else
751
  {
752
    /* Return RESET if ADC_FLAG is reset */
753
    return RESET;
754
  }
755
}
756
 
757
/*******************************************************************************
758
* Function Name  : ADC_ClearFlag
759
* Description    : Clears the ADC’s pending flags.
760
* Input          : - ADC_FLAG: specifies the flag to clear. This parameter can
761
*                    be any combination of the following values:
762
*                         - ADC_FLAG_ECH:  End of chain conversion flag
763
*                         - ADC_FLAG_EOC:  End of channel conversion flag
764
*                         - ADC_FLAG_JECH: Injected end of chain conversion flag
765
*                         - ADC_FLAG_JEOC: Injected end of channel conversion flag
766
*                         - ADC_FLAG_AnalogWatchdog0_LowThreshold:
767
*                                         Analog Watchdog 0 LowThreshold flag
768
*                         - ADC_FLAG_AnalogWatchdog0_HighThreshold:
769
*                                         Analog Watchdog 0 HighThreshold flag
770
*                         - ADC_FLAG_AnalogWatchdog1_LowThreshold:
771
*                                         Analog Watchdog 1 LowThreshold flag
772
*                         - ADC_FLAG_AnalogWatchdog1_HighThreshold:
773
*                                         Analog Watchdog 1 HighThreshold flag
774
*                         - ADC_FLAG_AnalogWatchdog2_LowThreshold:
775
*                                         Analog Watchdog 2 LowThreshold flag
776
*                         - ADC_FLAG_AnalogWatchdog2_HighThreshold:
777
*                                         Analog Watchdog 2 HighThreshold flag
778
*                         - ADC_FLAG_AnalogWatchdog3_LowThreshold:
779
*                                         Analog Watchdog 3 LowThreshold flag
780
*                         - ADC_FLAG_AnalogWatchdog3_HighThreshold:
781
*                                         Analog Watchdog 3 HighThreshold flag
782
* Output         : None
783
* Return         : None
784
*******************************************************************************/
785
void ADC_ClearFlag(u16 ADC_FLAG)
786
{
787
  /* Clear the selected ADC flag */
788
  ADC->PBR = ADC_FLAG;
789
}
790
 
791
/*******************************************************************************
792
* Function Name  : ADC_GetITStatus
793
* Description    : Checks whether the specified ADC interrupt has occured or not.
794
* Input          : - ADC_IT: specifies the ADC interrupt source to check. This
795
*                    parameter can be one of the following values:
796
*                         - ADC_IT_ECH :End of chain conversion interrupt
797
*                         - ADC_IT_EOC :End of channel conversion interrupt
798
*                         - ADC_IT_JECH :End of injected chain conversion interrupt
799
*                         - ADC_IT_JEOC :End of injected channel conversion interrupt
800
*                         - ADC_IT_AnalogWatchdog0_LowThreshold:
801
*                                         Analog Watchdog 0 LowThreshold interrupt
802
*                         - ADC_IT_AnalogWatchdog0_HighThreshold:
803
*                                         Analog Watchdog 0 HighThreshold interrupt
804
*                         - ADC_IT_AnalogWatchdog1_LowThreshold:
805
*                                         Analog Watchdog 1 LowThreshold interrupt
806
*                         - ADC_IT_AnalogWatchdog1_HighThreshold:
807
*                                         Analog Watchdog 1 HighThreshold interrupt
808
*                         - ADC_IT_AnalogWatchdog2_LowThreshold:
809
*                                         Analog Watchdog 2 LowThreshold interrupt
810
*                         - ADC_IT_AnalogWatchdog2_HighThreshold:
811
*                                         Analog Watchdog 2 HighThreshold interrupt
812
*                         - ADC_IT_AnalogWatchdog3_LowThreshold:
813
*                                         Analog Watchdog 3 LowThreshold interrupt
814
*                         - ADC_IT_AnalogWatchdog3_HighThreshold:
815
*                                         Analog Watchdog 3 HighThreshold interrupt
816
* Output         : None
817
* Return         : The new state of the ADC_IT (SET or RESET).
818
*******************************************************************************/
819
ITStatus ADC_GetITStatus(u16 ADC_IT)
820
{
821
  /* Check the status of the specified ADC interrupt */
822
  if((ADC->PBR & ADC_IT) != RESET)
823
  {
824
    /* Return SET if the ADC interrupt flag is set */
825
    return SET;
826
  }
827
  else
828
  {
829
    /* Return RESET if the ADC interrupt flag is reset */
830
    return RESET;
831
  }
832
}
833
 
834
/*******************************************************************************
835
* Function Name  : ADC_ClearITPendingBit
836
* Description    : Clears the ADC’s interrupt pending bits.
837
* Input          : - ADC_IT: specifies the interrupt pending bit to clear. This
838
*                    parameter can be can be any combination of the following
839
*                    values:
840
*                         - ADC_IT_ECH:  End of chain conversion interrupt
841
*                         - ADC_IT_EOC:  End of channel conversion interrupt
842
*                         - ADC_IT_JECH: Injected end of chain conversion interrupt
843
*                         - ADC_IT_JEOC: Injected end of channel conversion interrupt
844
*                         - ADC_IT_AnalogWatchdog0_LowThreshold:
845
*                                         Analog Watchdog 0 LowThreshold interrupt
846
*                         - ADC_IT_AnalogWatchdog0_HighThreshold:
847
*                                         Analog Watchdog 0 HighThreshold interrupt
848
*                         - ADC_IT_AnalogWatchdog1_LowThreshold:
849
*                                         Analog Watchdog 1 LowThreshold interrupt
850
*                         - ADC_IT_AnalogWatchdog1_HighThreshold:
851
*                                         Analog Watchdog 1 HighThreshold interrupt
852
*                         - ADC_IT_AnalogWatchdog2_LowThreshold:
853
*                                         Analog Watchdog 2 LowThreshold interrupt
854
*                         - ADC_IT_AnalogWatchdog2_HighThreshold:
855
*                                         Analog Watchdog 2 HighThreshold interrupt
856
*                         - ADC_IT_AnalogWatchdog3_LowThreshold:
857
*                                         Analog Watchdog 3 LowThreshold interrupt
858
*                         - ADC_IT_AnalogWatchdog3_HighThreshold:
859
*                                         Analog Watchdog 5 HighThreshold interrupt
860
* Output         : None
861
* Return         : None
862
*******************************************************************************/
863
void ADC_ClearITPendingBit(u16 ADC_IT)
864
{
865
  /* Clear the selected ADC interrupts pending bits */
866
  ADC->PBR = ADC_IT;
867
}
868
 
869
/******************* (C) COPYRIGHT 2006 STMicroelectronics *****END OF FILE****/

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.