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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [ARM7_STR75x_GCC/] [STLibrary/] [src/] [75x_tim.c] - Blame information for rev 598

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1 577 jeremybenn
/******************** (C) COPYRIGHT 2006 STMicroelectronics ********************
2
* File Name          : 75x_tim.c
3
* Author             : MCD Application Team
4
* Date First Issued  : 03/10/2006
5
* Description        : This file provides all the TIM 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_tim.h" 
21
#include "75x_mrcc.h"
22
 
23
/* Private typedef -----------------------------------------------------------*/
24
/* Private define ------------------------------------------------------------*/
25
/* Private macro -------------------------------------------------------------*/
26
/* Private variables ---------------------------------------------------------*/
27
/* TIM interrupt masks */
28
#define TIM_IT_Clear_Mask   0x7FFF
29
#define TIM_IT_Enable_Mask  0x7FFF
30
 
31
/* TIM Input Capture Selection Set/Reset */
32
#define TIM_IC1S_Set    0x0001
33
#define TIM_IC1S_Reset  0x003E
34
 
35
/* TIM Input Capture Selection Set/Reset */
36
#define TIM_IC2S_Set    0x0002
37
#define TIM_IC2S_Reset  0x003D
38
 
39
/* TIM_SCR Masks bit */
40
#define TIM_Encoder_Mask                   0x731C
41
#define TIM_SlaveModeSelection_Mask        0x7307
42
#define TIM_TriggerSelection_Mask          0x701F
43
#define TIM_InternalTriggerSelection_Mask  0x031F
44
 
45
/* TIM Encoder mode Set value */
46
#define TIM_Encoder1_Set  0x0001
47
#define TIM_Encoder2_Set  0x0002
48
#define TIM_Encoder3_Set  0x0003
49
 
50
/* TIM Slave Mode Enable Set/Reset value */
51
#define TIM_SME_Reset  0x731B
52
#define TIM_SME_Set    0x0004
53
 
54
/* TIM Internal Trigger Selection value */
55
#define TIM_ITS_TIM0  0x1000
56
#define TIM_ITS_TIM1  0x2000
57
#define TIM_ITS_TIM2  0x3000
58
#define TIM_ITS_PWM   0x4000
59
 
60
/* TIM Trigger Selection value */
61
#define TIM_TS_IC1_Set  0x0200
62
#define TIM_TS_IC2_Set  0x0300
63
 
64
/* TIM Slave Mode selction external clock Set value */
65
#define TIM_SMS_EXTCLK_Set    0x0008
66
#define TIM_SMS_RESETCLK_Set  0x0000
67
 
68
/* TIM_CR Masks bit */
69
#define TIM_DBASE_Mask                0x077F
70
#define TIM_MasterModeSelection_Mask  0xFC7F
71
#define TIM_CounterMode_Mask          0xFF8F
72
 
73
/* TIM Update flag selection Set/Reset value */
74
#define TIM_UFS_Reset  0xFFFE
75
#define TIM_UFS_Set    0x0001
76
 
77
/* TIM Counter value */
78
#define TIM_COUNTER_Reset  0x0002
79
#define TIM_COUNTER_Start  0x0004
80
#define TIM_COUNTER_Stop   0xFFFB
81
 
82
/* TIM One pulse Mode set value */
83
#define TIM_OPM_Set    0x0008
84
#define TIM_OPM_Reset  0xFFF7
85
 
86
/* TIM Debug Mode Set/Reset value */
87
#define TIM_DBGC_Set    0x0400
88
#define TIM_DBGC_Reset  0xFB7F
89
 
90
/* TIM Input Capture Enable/Disable value */
91
#define TIM_IC1_Enable  0x0004
92
#define TIM_IC2_Enable  0x0010
93
 
94
/* TIM Input Capture Polarity Set/Reset value */
95
#define TIM_IC1P_Set    0x0008
96
#define TIM_IC2P_Set    0x0020
97
#define TIM_IC1P_Reset  0x0037
98
#define TIM_IC2P_Reset  0x001F
99
 
100
/* TIM Output Compare Polarity Set/Reset value */
101
#define TIM_OC1P_Set    0x0020
102
#define TIM_OC2P_Set    0x2000
103
#define TIM_OC1P_Reset  0x3F1F
104
#define TIM_OC2P_Reset  0x1F3F
105
 
106
/* TIM Output Compare control mode constant */
107
#define TIM_OCControl_PWM         0x000C
108
#define TIM_OCControl_OCToggle    0x0006
109
#define TIM_OCControl_OCInactive  0x0004
110
#define TIM_OCControl_OCActive    0x0002
111
#define TIM_OCControl_OCTiming    0x0000
112
 
113
/* TIM Output Compare mode Enable value */
114
#define TIM_OC1_Enable  0x0010
115
#define TIM_OC2_Enable  0x1000
116
 
117
/* TIM Output Compare mode Mask value */
118
#define TIM_OC1C_Mask  0x3F31
119
#define TIM_OC2C_Mask  0x313F
120
 
121
/* TIM Preload bit Set/Reset value */
122
#define TIM_PLD1_Set    0x0001
123
#define TIM_PLD1_Reset  0xFFFE
124
 
125
#define TIM_PLD2_Set    0x0100
126
#define TIM_PLD2_Reset  0xFEFF
127
 
128
/* TIM OCRM Set/Reset value */
129
#define TIM_OCRM_Set    0x0080
130
#define TIM_OCRM_Reset  0x030D
131
 
132
/* Reset Register Masks */
133
#define TIM_Pulse2_Reset_Mask     0x0000
134
#define TIM_Prescaler_Reset_Mask  0x0000
135
#define TIM_Pulse1_Reset_Mask     0x0000
136
#define TIM_Period_Reset_Mask     0xFFFF
137
#define TIM_Counter_Reset         0x0002
138
 
139
/* Private function prototypes -----------------------------------------------*/
140
static void ICAP_ModuleConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct);
141
static void Encoder_ModeConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct);
142
static void OCM_ModuleConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct);
143
 
144
/* Private functions ---------------------------------------------------------*/
145
 
146
/******************************************************************************
147
* Function Name  : TIM_DeInit
148
* Description    : Deinitializes TIM peripheral registers to their default reset
149
*                  values.
150
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
151
* Output         : None
152
* Return         : None
153
*******************************************************************************/
154
void TIM_DeInit(TIM_TypeDef *TIMx)
155
{
156
  if(TIMx == TIM0)
157
  {
158
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM0,ENABLE);
159
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM0,DISABLE);
160
  }
161
  else if(TIMx == TIM1)
162
  {
163
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM1,ENABLE);
164
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM1,DISABLE);
165
  }
166
  else if(TIMx == TIM2)
167
  {
168
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM2,ENABLE);
169
    MRCC_PeripheralSWResetConfig(MRCC_Peripheral_TIM2,DISABLE);
170
  }
171
}
172
 
173
/*******************************************************************************
174
* Function Name  : TIM_Init
175
* Description    : Initializes the TIMx peripheral according to the specified
176
*                  parameters in the TIM_InitStruct .
177
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
178
*                  - TIM_InitStruct: pointer to a TIM_InitTypeDef structure that
179
*                    contains the configuration information for the specified TIM
180
*                    peripheral.
181
* Output         : None
182
* Return         : None
183
*******************************************************************************/
184
void TIM_Init(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct)
185
{
186
  /* Set the prescaler value */
187
  TIMx->PSC = TIM_InitStruct->TIM_Prescaler;
188
 
189
  /* Select the clock source */
190
  TIM_ClockSourceConfig(TIMx, TIM_InitStruct->TIM_ClockSource,
191
                           TIM_InitStruct->TIM_ExtCLKEdge);
192
 
193
  /* Select the counter mode */
194
  TIMx->CR &= TIM_CounterMode_Mask;
195
  TIMx->CR |= TIM_InitStruct->TIM_CounterMode;
196
 
197
  /* Set the period value */
198
  TIMx->ARR = TIM_InitStruct->TIM_Period;
199
 
200
  switch(TIM_InitStruct->TIM_Mode)
201
  {
202
    case TIM_Mode_OCTiming: case TIM_Mode_OCActive: case TIM_Mode_OCInactive:
203
    case TIM_Mode_OCToggle: case TIM_Mode_PWM:
204
      OCM_ModuleConfig(TIMx, TIM_InitStruct);
205
    break;
206
 
207
    case TIM_Mode_PWMI: case TIM_Mode_IC:
208
      ICAP_ModuleConfig(TIMx, TIM_InitStruct);
209
    break;
210
 
211
    case TIM_Mode_Encoder1: case TIM_Mode_Encoder2: case TIM_Mode_Encoder3:
212
      Encoder_ModeConfig(TIMx, TIM_InitStruct);
213
    break;
214
 
215
    case TIM_Mode_OPM_PWM: case TIM_Mode_OPM_Toggle: case TIM_Mode_OPM_Active:
216
 
217
      /* Output module configuration */
218
      OCM_ModuleConfig(TIMx, TIM_InitStruct);
219
 
220
      /* Input module configuration */
221
      ICAP_ModuleConfig(TIMx, TIM_InitStruct);
222
 
223
      /* Set the slave mode to trigger Mode */
224
      TIMx->SCR |= TIM_SynchroMode_Trigger;
225
 
226
      /* Repetitive pulse state selection */
227
      if(TIM_InitStruct->TIM_RepetitivePulse == TIM_RepetitivePulse_Disable)
228
      {
229
        TIMx->CR |= TIM_OPM_Set;
230
      }
231
      else
232
      {
233
        TIMx->CR &= TIM_OPM_Reset;
234
      }
235
    break;
236
 
237
    default:
238
    break;
239
  }
240
}
241
 
242
/*******************************************************************************
243
* Function Name  : TIM_StructInit
244
* Description    : Fills each TIM_InitStruct member with its default value.
245
* Input          : TIM_InitStruct : pointer to a TIM_InitTypeDef structure
246
*                  which will be initialized.
247
* Output         : None
248
* Return         : None.
249
*******************************************************************************/
250
void TIM_StructInit(TIM_InitTypeDef *TIM_InitStruct)
251
{
252
  /* Set the default configuration */
253
  TIM_InitStruct->TIM_Mode = TIM_Mode_OCTiming;
254
  TIM_InitStruct->TIM_Prescaler = TIM_Prescaler_Reset_Mask;
255
  TIM_InitStruct->TIM_ClockSource = TIM_ClockSource_Internal;
256
  TIM_InitStruct->TIM_ExtCLKEdge = TIM_ExtCLKEdge_Rising;
257
  TIM_InitStruct->TIM_CounterMode = TIM_CounterMode_Up;
258
  TIM_InitStruct->TIM_Period = TIM_Period_Reset_Mask;
259
  TIM_InitStruct->TIM_Channel = TIM_Channel_ALL;
260
  TIM_InitStruct->TIM_Pulse1 = TIM_Pulse1_Reset_Mask;
261
  TIM_InitStruct->TIM_Pulse2 = TIM_Pulse2_Reset_Mask;
262
  TIM_InitStruct->TIM_RepetitivePulse = TIM_RepetitivePulse_Disable;
263
  TIM_InitStruct->TIM_Polarity1 = TIM_Polarity1_Low;
264
  TIM_InitStruct->TIM_Polarity2 = TIM_Polarity2_Low;
265
  TIM_InitStruct->TIM_IC1Selection = TIM_IC1Selection_TI1;
266
  TIM_InitStruct->TIM_IC2Selection = TIM_IC2Selection_TI1;
267
  TIM_InitStruct->TIM_IC1Polarity = TIM_IC1Polarity_Rising;
268
  TIM_InitStruct->TIM_IC2Polarity = TIM_IC2Polarity_Rising;
269
  TIM_InitStruct->TIM_PWMI_ICSelection = TIM_PWMI_ICSelection_TI1;
270
  TIM_InitStruct->TIM_PWMI_ICPolarity = TIM_PWMI_ICPolarity_Rising;
271
}
272
 
273
/*******************************************************************************
274
* Function Name  : TIM_Cmd
275
* Description    : Enables or disables the specified TIM peripheral.
276
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
277
*                  - Newstate: new state of the TIMx peripheral.
278
*                    This parameter can be: ENABLE or DISABLE.
279
* Output         : None
280
* Return         : None
281
*******************************************************************************/
282
void TIM_Cmd(TIM_TypeDef *TIMx, FunctionalState Newstate)
283
{
284
 if(Newstate == ENABLE)
285
  {
286
    TIMx->CR |= TIM_COUNTER_Start;
287
  }
288
  else
289
  {
290
    TIMx->CR &= TIM_COUNTER_Stop;
291
  }
292
}
293
 
294
/*******************************************************************************
295
* Function Name  : TIM_ITConfig
296
* Description    : Enables or disables the TIM interrupts.
297
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
298
*                  - TIM_IT: specifies the TIM interrupts sources to be enabled
299
*                    or disabled.
300
*                    This parameter can be any combination of the following values:
301
*                         - TIM_IT_IC1: Input Capture 1 Interrupt
302
*                         - TIM_IT_OC1: Output Compare 1 Interrupt
303
*                         - TIM_IT_Update: Timer update Interrupt
304
*                         - TIM_IT_GlobalUpdate: Timer global update Interrupt
305
*                         - TIM_IT_IC2: Input Capture 2 Interrupt
306
*                         - TIM_IT_OC2: Output Compare 2 Interrupt
307
*                  - Newstate: new state of the specified TIMx interrupts.
308
*                    This parameter can be: ENABLE or DISABLE.
309
* Output         : None
310
* Return         : None
311
*******************************************************************************/
312
void TIM_ITConfig(TIM_TypeDef *TIMx, u16 TIM_IT, FunctionalState Newstate)
313
{
314
  u16 TIM_IT_Enable = 0;
315
 
316
  TIM_IT_Enable = TIM_IT & TIM_IT_Enable_Mask;
317
 
318
  if(Newstate == ENABLE)
319
  {
320
    /* Update interrupt global source: overflow/undeflow, counter reset operation
321
    or slave mode controller in reset mode */
322
    if((TIM_IT & TIM_IT_GlobalUpdate) == TIM_IT_GlobalUpdate)
323
    {
324
      TIMx->CR &= TIM_UFS_Reset;
325
    }
326
    /* Update interrupt source: counter overflow/underflow */
327
    else if((TIM_IT & TIM_IT_Update) == TIM_IT_Update)
328
    {
329
      TIMx->CR |= TIM_UFS_Set;
330
    }
331
    /* Select and enable the interrupts requests */
332
    TIMx->RSR |= TIM_IT_Enable;
333
    TIMx->RER |= TIM_IT_Enable;
334
  }
335
  /* Disable the interrupts requests */
336
  else
337
  {
338
    TIMx->RSR &= ~TIM_IT_Enable;
339
    TIMx->RER &= ~TIM_IT_Enable;
340
  }
341
}
342
 
343
/*******************************************************************************
344
* Function Name  : TIM_PreloadConfig
345
* Description    : Enables or disables TIM peripheral Preload register on OCRx.
346
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
347
*                  - TIM_Channel: specifies the TIM channel to be used.
348
*                    This parameter can be one of the following values:
349
*                         - TIM_Channel_1: TIM Channel 1 is used
350
*                         - TIM_Channel_2: TIM Channel 2 is used
351
*                         - TIM_Channel_ALL: TIM Channel 1and 2 are used
352
*                  - Newstate: new state of the TIMx peripheral Preload register
353
*                    This parameter can be: ENABLE or DISABLE.
354
* Output         : None
355
* Return         : None
356
*******************************************************************************/
357
void TIM_PreloadConfig(TIM_TypeDef *TIMx, u16 TIM_Channel, FunctionalState Newstate)
358
{
359
  if(Newstate == ENABLE)
360
  {
361
    switch (TIM_Channel)
362
    {
363
      case TIM_Channel_1:
364
      TIMx->OMR1 |= TIM_PLD1_Set;
365
      break;
366
 
367
      case TIM_Channel_2:
368
      TIMx->OMR1 |= TIM_PLD2_Set;
369
      break;
370
 
371
      case TIM_Channel_ALL:
372
      TIMx->OMR1 |= TIM_PLD1_Set | TIM_PLD2_Set;
373
      break;
374
 
375
      default:
376
      break;
377
   }
378
  }
379
  else
380
  {
381
    switch (TIM_Channel)
382
    {
383
      case TIM_Channel_1:
384
      TIMx->OMR1 &= TIM_PLD1_Reset;
385
      break;
386
 
387
      case TIM_Channel_2:
388
      TIMx->OMR1 &= TIM_PLD2_Reset;
389
      break;
390
 
391
      case TIM_Channel_ALL:
392
      TIMx->OMR1 &= TIM_PLD1_Reset & TIM_PLD2_Reset;
393
      break;
394
 
395
      default:
396
      break;
397
    }
398
  }
399
}
400
 
401
/*******************************************************************************
402
* Function Name  : TIM_DMAConfig
403
* Description    : Configures the TIM0’s DMA interface.
404
* Input          : - TIM_DMASources: specifies the DMA Request sources.
405
*                    This parameter can be any combination of the following values:
406
*                         - TIM_DMASource_OC1: Output Compare 1 DMA source
407
*                         - TIM_DMASource_OC2: Output Compare 2 DMA source
408
*                         - TIM_DMASource_IC1: Input Capture 1 DMA source
409
*                         - TIM_DMASource_IC2: Input Capture 2 DMA source
410
*                         - TIM_DMASource_Update: Timer Update DMA source
411
*                  - TIM_OCRMState: the state of output compare request mode.
412
*                    This parameter can be one of the following values:
413
*                         - TIM_OCRMState_Enable
414
*                         - TIM_OCRMState_Disable
415
*                  - TIM_DMABase:DMA Base address.
416
*                    This parameter can be one of the following values:
417
*                    TIM_DMABase_CR, TIM_DMABase_SCR, TIM_DMABase_IMCR,
418
*                    TIM_DMABase_OMR1, TIM_DMABase_RSR,
419
*                    TIM_DMABase_RER, TIM_DMABase_ISR, TIM_DMABase_CNT,
420
*                    TIM_DMABase_PSC, TIM_DMABase_ARR, TIM_DMABase_OCR1,
421
*                    TIM_DMABase_OCR2, TIM_DMABase_ICR1, TIM_DMABase_ICR2
422
* Output         : None
423
* Return         : None
424
*******************************************************************************/
425
void TIM_DMAConfig(u16 TIM_DMASources, u16 TIM_OCRMState, u16 TIM_DMABase)
426
{
427
  /* Select the DMA requests */
428
  TIM0->RSR &= TIM_DMASources;
429
 
430
  /* Set the OCRM state */
431
  if(TIM_OCRMState == TIM_OCRMState_Enable)
432
  {
433
    TIM0->RSR |= TIM_OCRM_Set;
434
  }
435
  else
436
  {
437
    TIM0->RSR &= TIM_OCRM_Reset;
438
  }
439
 
440
  /* Set the DMA Base address */
441
  TIM0->CR &= TIM_DBASE_Mask;
442
  TIM0->CR |= TIM_DMABase;
443
}
444
 
445
/*******************************************************************************
446
* Function Name  : TIM_DMACmd
447
* Description    : Enables or disables the TIM0’s DMA interface.
448
* Input          : - TIM_DMASources: specifies the DMA Request sources.
449
*                    This parameter can be any combination of the following values:
450
*                         - TIM_DMASource_OC1: Output Compare 1 DMA source
451
*                         - TIM_DMASource_OC2: Output Compare 2 DMA source
452
*                         - TIM_DMASource_IC1: Input Capture 1 DMA source
453
*                         - TIM_DMASource_IC2: Input Capture 2 DMA source
454
*                         - TIM_DMASource_Update: Timer Update DMA source
455
*                  - Newstate: new state of the DMA Request sources.
456
*                    This parameter can be: ENABLE or DISABLE.
457
* Output         : None
458
* Return         : None
459
*******************************************************************************/
460
void TIM_DMACmd(u16 TIM_DMASources, FunctionalState Newstate)
461
{
462
  if(Newstate == ENABLE)
463
  {
464
    TIM0->RER |= TIM_DMASources;
465
  }
466
  else
467
  {
468
    TIM0->RER &= ~TIM_DMASources;
469
  }
470
}
471
 
472
/*******************************************************************************
473
* Function Name  : TIM_ClockSourceConfig
474
* Description    : Configures the TIM clock source.
475
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
476
*                  - TIM_ClockSource: specifies the TIM clock source to be
477
*                    selected.
478
*                    This parameter can be one of the following values:
479
*                         - TIM_ClockSource_Internal: CK_TIM internal clock
480
*                         - TIM_ClockSource_TI11: External input pin TI1
481
*                           connected to IC1 channel.
482
*                         - TIM_ClockSource_TI12: External input pin TI1
483
*                           connected to IC2 channel.
484
*                         - TIM_ClockSource_TI22: External input pin TI2
485
*                           connected to IC2 channel.
486
*                         - TIM_ClockSource_TI21: External input pin TI2
487
*                           connected to IC1 channel.
488
*                  - TIM_ExtCLKEdge: specifies the External input signal edge.
489
*                    This parameter can be one of the following values:
490
*                         - TIM_ExtCLKEdge_Falling : Falling edge selected.
491
*                         - TIM_ExtCLKEdge_Rising : Rising edge selected.
492
* Output         : None
493
* Return         : None
494
*******************************************************************************/
495
void TIM_ClockSourceConfig(TIM_TypeDef *TIMx, u16 TIM_ClockSource,
496
                           u16 TIM_ExtCLKEdge)
497
{
498
  if(TIM_ClockSource == TIM_ClockSource_Internal)
499
  {
500
    /* CK_TIM is used as clock source */
501
    TIMx->SCR &= TIM_SME_Reset & TIM_SlaveModeSelection_Mask & TIM_TriggerSelection_Mask;
502
  }
503
  else
504
  /* Input Captures are used as TIM external clock */
505
  {
506
    TIMx->SCR &= TIM_SME_Reset & TIM_SlaveModeSelection_Mask & TIM_TriggerSelection_Mask;
507
    TIMx->SCR |= TIM_SMS_EXTCLK_Set | TIM_SME_Set;
508
 
509
    if((TIM_ClockSource == TIM_ClockSource_TI11) ||
510
      (TIM_ClockSource == TIM_ClockSource_TI21))
511
    /* Input Capture 1 is selected */
512
    {
513
     /* Input capture  Enable */
514
      TIMx->IMCR |= TIM_IC1_Enable;
515
      TIMx->SCR |= TIM_TS_IC1_Set;
516
 
517
      if(TIM_ExtCLKEdge == TIM_ExtCLKEdge_Falling)
518
      /* Set the corresponding polarity */
519
      {
520
        TIMx->IMCR |= TIM_IC1P_Set;
521
      }
522
      else
523
      {
524
        TIMx->IMCR &= TIM_IC1P_Reset;
525
      }
526
      if(TIM_ClockSource == TIM_ClockSource_TI11)
527
      {
528
        /* External signal TI1 connected to IC1 channel */
529
        TIMx->IMCR &= TIM_IC1S_Reset;
530
      }
531
      else
532
      {
533
        /* External signal TI2 connected to IC1 channel */
534
        TIMx->IMCR |= TIM_IC1S_Set;
535
      }
536
    }
537
    else
538
    /* Input Capture 2 is selected */
539
    {
540
      /* Input capture  Enable */
541
      TIMx->IMCR |= TIM_IC2_Enable;
542
      TIMx->SCR |= TIM_TS_IC2_Set;
543
 
544
      if(TIM_ExtCLKEdge == TIM_ExtCLKEdge_Falling)
545
      /* Set the corresponding polarity */
546
      {
547
        TIMx->IMCR |= TIM_IC2P_Set;
548
      }
549
      else
550
      {
551
         TIMx->IMCR &= TIM_IC2P_Reset;
552
      }
553
      if(TIM_ClockSource == TIM_ClockSource_TI22)
554
      {
555
        /* External signal TI2 connected to IC2 channel */
556
        TIMx->IMCR &= TIM_IC2S_Reset;
557
      }
558
      else
559
      {
560
        /* External signal TI1 connected to IC2 channel */
561
        TIMx->IMCR |= TIM_IC2S_Set;
562
      }
563
    }
564
  }
565
}
566
 
567
/*******************************************************************************
568
* Function Name  : TIM_SetPrescaler
569
* Description    : Sets the TIM prescaler value.
570
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
571
*                  - Prescaler: TIM prescaler new value.
572
* Output         : None
573
* Return         : None
574
*******************************************************************************/
575
void TIM_SetPrescaler(TIM_TypeDef* TIMx, u16 Prescaler)
576
{
577
  TIMx->PSC = Prescaler;
578
}
579
 
580
/*******************************************************************************
581
* Function Name  : TIM_SetPeriod
582
* Description    : Sets the TIM period value.
583
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
584
*                  - Period: TIM period new value.
585
* Output         : None
586
* Return         : None
587
*******************************************************************************/
588
void TIM_SetPeriod(TIM_TypeDef* TIMx, u16 Period)
589
{
590
  TIMx->ARR = Period;
591
}
592
 
593
/*******************************************************************************
594
* Function Name  : TIM_SetPulse
595
* Description    : Sets the TIM pulse value.
596
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
597
*                  - TIM_Channel: specifies the TIM channel to be used.
598
*                    This parameter can be one of the following values:
599
*                         - TIM_Channel_1: TIM Channel 1 is used
600
*                         - TIM_Channel_2: TIM Channel 2 is used
601
*                         - TIM_Channel_ALL: TIM Channel 1and 2 are used
602
*                  - Pulse: TIM pulse new value.
603
* Output         : None
604
* Return         : None
605
*******************************************************************************/
606
void TIM_SetPulse(TIM_TypeDef* TIMx, u16 TIM_Channel, u16 Pulse)
607
{
608
  /* Set Channel 1 pulse value */
609
  if(TIM_Channel == TIM_Channel_1)
610
  {
611
    TIMx->OCR1 = Pulse;
612
  }
613
  /* Set Channel 2 pulse value */
614
  else if(TIM_Channel == TIM_Channel_2)
615
  {
616
   TIMx->OCR2 = Pulse;
617
  }
618
  /* Set Channel 1 and Channel 2 pulse values */
619
  else if(TIM_Channel == TIM_Channel_ALL)
620
  {
621
    TIMx->OCR1 = Pulse;
622
    TIMx->OCR2 = Pulse;
623
  }
624
}
625
 
626
/*******************************************************************************
627
* Function Name  : TIM_GetICAP1
628
* Description    : Gets the Input Capture 1 value.
629
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
630
* Output         : None
631
* Return         : Input Capture 1 Register value.
632
*******************************************************************************/
633
u16 TIM_GetICAP1(TIM_TypeDef *TIMx)
634
{
635
  return TIMx->ICR1;
636
}
637
 
638
/*******************************************************************************
639
* Function Name  : TIM_GetICAP2
640
* Description    : Gets the Input Capture 2 value.
641
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
642
* Output         : None
643
* Return         : Input Capture 2 Register value
644
*******************************************************************************/
645
u16 TIM_GetICAP2(TIM_TypeDef *TIMx)
646
{
647
  return TIMx->ICR2;
648
}
649
 
650
/*******************************************************************************
651
* Function Name  : TIM_GetPWMIPulse
652
* Description    : Gets the PWM Input pulse value.
653
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
654
* Output         : None
655
* Return         : Input Capture 2 Register value
656
*******************************************************************************/
657
u16 TIM_GetPWMIPulse(TIM_TypeDef *TIMx)
658
{
659
  return TIMx->ICR2;
660
}
661
 
662
/*******************************************************************************
663
* Function Name  : TIM_GetPWMIPeriod
664
* Description    : Gets the PWM Input period value.
665
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
666
* Output         : None
667
* Return         : Input Capture 1 Register value
668
*******************************************************************************/
669
u16 TIM_GetPWMIPeriod(TIM_TypeDef *TIMx)
670
{
671
  return TIMx->ICR1;
672
}
673
 
674
/*******************************************************************************
675
* Function Name  : TIM_DebugCmd
676
* Description    : Enables or disables the specified TIM peripheral Debug control.
677
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
678
*                  - Newstate: new state of the TIMx Debug control.
679
                     This parameter can be: ENABLE or DISABLE.
680
* Output         : None
681
* Return         : None
682
*******************************************************************************/
683
void TIM_DebugCmd(TIM_TypeDef *TIMx, FunctionalState Newstate)
684
{
685
  if(Newstate == ENABLE)
686
  {
687
    TIMx->CR |= TIM_DBGC_Set;
688
  }
689
  else
690
  {
691
    TIMx->CR &= TIM_DBGC_Reset;
692
  }
693
}
694
 
695
/*******************************************************************************
696
* Function Name  : TIM_CounterModeConfig
697
* Description    : Specifies the Counter Mode to be used.
698
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
699
*                  - TIM_CounterMode: specifies the Counter Mode to be used
700
*                    This parameter can be one of the following values:
701
*                       - TIM_CounterMode_Up: TIM Up Counting Mode
702
*                       - TIM_CounterMode_Down: TIM Down Counting Mode
703
*                       - TIM_CounterMode_CenterAligned1: TIM Center Aligned Mode1
704
*                       - TIM_CounterMode_CenterAligned2: TIM Center Aligned Mode2
705
*                       - TIM_CounterMode_CenterAligned3: TIM Center Aligned Mode3
706
* Output         : None
707
* Return         : None
708
*******************************************************************************/
709
void TIM_CounterModeConfig(TIM_TypeDef* TIMx, u16 TIM_CounterMode)
710
{
711
  /* Counter mode configuration */
712
  TIMx->CR &= TIM_CounterMode_Mask;
713
  TIMx->CR |= TIM_CounterMode;
714
}
715
 
716
/*******************************************************************************
717
* Function Name  : TIM_ForcedOCConfig
718
* Description    : Forces the TIM output waveform to active or inactive level.
719
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
720
*                  - TIM_Channel: specifies the TIM channel to be used.
721
*                    This parameter can be one of the following values:
722
*                       - TIM_Channel_1: Timer Channel 1 is used
723
*                       - TIM_Channel_2: Timer Channel 2 is used
724
*                       - TIM_Channel_ALL: Timer Channel 1 and 2 are used
725
*                 - TIM_ForcedAction: specifies the forced Action to be set to
726
*                  the output waveform.
727
*                    This parameter can be one of the following values:
728
*                       - TIM_ForcedAction_Active: Force active level on OCxREF
729
*                       - TIM_ForcedAction_InActive: Force inactive level on
730
*                         OCxREF.
731
* Output         : None
732
* Return         : None
733
*******************************************************************************/
734
void TIM_ForcedOCConfig(TIM_TypeDef* TIMx, u16 TIM_Channel,u16 TIM_ForcedAction)
735
{
736
  /* Channel 1 Forced Output Compare mode configuration */
737
  if(TIM_Channel == TIM_Channel_1)
738
  {
739
    TIMx->OMR1 &= TIM_OC1C_Mask;
740
    TIMx->OMR1 |= TIM_ForcedAction;
741
  }
742
  /* Channel 2 Forced Output Compare mode configuration */
743
  else
744
  {
745
    if(TIM_Channel == TIM_Channel_2)
746
    {
747
      TIMx->OMR1 &= TIM_OC2C_Mask;
748
      TIMx->OMR1 |= (TIM_ForcedAction<<8);
749
    }
750
    /* Channel 1 and Channel 2 Forced Output Compare mode configuration */
751
    else
752
    {
753
      TIMx->OMR1 &= TIM_OC1C_Mask & TIM_OC2C_Mask;
754
      TIMx->OMR1 |= TIM_ForcedAction |(TIM_ForcedAction<<8);
755
    }
756
  }
757
}
758
 
759
/*******************************************************************************
760
* Function Name  : TIM_ResetCounter
761
* Description    : Re-intializes the TIM counter and generates an update of the
762
*                  registers.
763
* Input          : TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
764
* Output         : None
765
* Return         : None
766
*******************************************************************************/
767
void TIM_ResetCounter(TIM_TypeDef* TIMx)
768
{
769
  /* Re-intialize the TIM counter */
770
  TIMx->CR |= TIM_COUNTER_Reset;
771
}
772
 
773
/*******************************************************************************
774
* Function Name  : TIM_SynchroConfig
775
* Description    : Synchronizes two Timers in a specified mode.
776
* Input          : - Master: specifies the peripheral master.
777
*                    This parameter can be one of the following values:
778
*                    PWM_Master, TIM0_Master, TIM1_Master or TIM2_Master.
779
*                  - Slave: specifies the peripheral slave.
780
*                    This parameter can be one of the following values:
781
*                    PWM_Slave, TIM0_Slave, TIM1_Slave or TIM2_Slave.
782
*                  - TIM_SynchroAction: specifies the synchronization Action to
783
*                    be used.
784
*                    This parameter can be one of the following values:
785
*                         - TIM_SynchroAction_Enable: The CNT_EN bit is used as TRGO
786
*                         - TIM_SynchroAction_Update: The Update event is used as TRGO
787
*                         - TIM_SynchroAction_Reset: The CNT_RST bit is used as TRGO
788
*                         - TIM_SynchroAction_OC: The OC1 signal is used as TRGO
789
*                  - TIM_SynchroMode: specifies the synchronization Mode to be used.
790
*                    This parameter can be one of the following values:
791
*                         - TIM_SynchroMode_Gated: Both start and stop of the
792
*                           counter is controlled.
793
*                         - TIM_SynchroMode_Trigger: Only the start of the
794
*                           counter is controlled.
795
*                         - TIM_SynchroMode_External: The rising edge of selected trigger
796
*                           clocks the counter.
797
*                         - TIM_SynchroMode_Reset: The rising edge of the selected trigger
798
*                           signal resets the counter and generates an update of the registers.
799
* Output         : None
800
* Return         : None
801
*******************************************************************************/
802
void TIM_SynchroConfig(Master_TypeDef Master, Slave_TypeDef Slave,
803
                       u16 TIM_SynchroAction, u16 TIM_SynchroMode)
804
{
805
  switch (Slave)
806
  {
807
    case PWM_Slave:
808
    {
809
      PWM->SCR &= TIM_SME_Reset & TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask &
810
                  TIM_InternalTriggerSelection_Mask;
811
      PWM->SCR |= TIM_SynchroMode | TIM_SME_Set;
812
 
813
      if(Master == TIM1_Master)
814
      {
815
        /* Set the internal trigger */
816
        PWM->SCR |= TIM_ITS_TIM1;
817
 
818
        /* Set the synchronization action */
819
        TIM1->CR &= TIM_MasterModeSelection_Mask;
820
        TIM1->CR |= TIM_SynchroAction;
821
      }
822
 
823
      else if(Master == TIM0_Master)
824
      {
825
        /* Set the internal trigger */
826
        PWM->SCR |= TIM_ITS_TIM0;
827
 
828
        /* Set the synchronization action */
829
        TIM0->CR &= TIM_MasterModeSelection_Mask;
830
        TIM0->CR |= TIM_SynchroAction;
831
      }
832
 
833
      else if(Master == TIM2_Master)
834
      {
835
        /* Set the internal trigger */
836
        PWM->SCR |= TIM_ITS_TIM2;
837
 
838
        /* Set the synchronization action */
839
        TIM2->CR &= TIM_MasterModeSelection_Mask;
840
        TIM2->CR |= TIM_SynchroAction;
841
      }
842
    }
843
    break;
844
 
845
    case TIM0_Slave:
846
    {
847
      TIM0->SCR &= TIM_SME_Reset & TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask &
848
                   TIM_InternalTriggerSelection_Mask;
849
      TIM0->SCR |= TIM_SynchroMode | TIM_SME_Set;
850
 
851
      if(Master == PWM_Master)
852
      {
853
        /* Set the internal trigger */
854
        TIM0->SCR |= TIM_ITS_PWM;
855
 
856
        /* Set the synchronization action */
857
        PWM->CR &= TIM_MasterModeSelection_Mask;
858
        PWM->CR |= TIM_SynchroAction;
859
      }
860
 
861
      else if(Master == TIM1_Master)
862
      {
863
        /* Set the internal trigger */
864
        TIM0->SCR |= TIM_ITS_TIM1;
865
 
866
        /* Set the synchronization action */
867
        TIM1->CR &= TIM_MasterModeSelection_Mask;
868
        TIM1->CR |= TIM_SynchroAction;
869
      }
870
 
871
      else if(Master == TIM2_Master)
872
      {
873
        /* Set the internal trigger */
874
        TIM0->SCR |= TIM_ITS_TIM2;
875
 
876
        /* Set the synchronization action */
877
        TIM2->CR &= TIM_MasterModeSelection_Mask;
878
        TIM2->CR |= TIM_SynchroAction;
879
      }
880
    }
881
    break;
882
 
883
    case TIM1_Slave:
884
    {
885
 
886
      TIM1->SCR &= TIM_SME_Reset & TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask &
887
                   TIM_InternalTriggerSelection_Mask;
888
      TIM1->SCR |= TIM_SynchroMode | TIM_SME_Set;
889
 
890
      if(Master == PWM_Master)
891
      {
892
         /* Set the internal trigger */
893
         TIM1->SCR |= TIM_ITS_PWM;
894
 
895
        /* Set the synchronization action */
896
        PWM->CR &= TIM_MasterModeSelection_Mask;
897
        PWM->CR |= TIM_SynchroAction;
898
      }
899
      else if(Master == TIM0_Master)
900
      {
901
        /* Set the internal trigger */
902
        TIM1->SCR |= TIM_ITS_TIM0;
903
 
904
        /* Set the synchronization action */
905
        TIM0->CR &= TIM_MasterModeSelection_Mask;
906
        TIM0->CR |= TIM_SynchroAction;
907
      }
908
 
909
      else if(Master == TIM2_Master)
910
      {
911
        /* Set the internal trigger */
912
        TIM1->SCR |= TIM_ITS_TIM2;
913
 
914
        /* Set the synchronization action */
915
        TIM2->CR &= TIM_MasterModeSelection_Mask;
916
        TIM2->CR |= TIM_SynchroAction;
917
      }
918
    }
919
    break;
920
 
921
    case TIM2_Slave:
922
    {
923
 
924
      TIM2->SCR &= TIM_SME_Reset & TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask &
925
                   TIM_InternalTriggerSelection_Mask;
926
      TIM2->SCR |= TIM_SynchroMode | TIM_SME_Set;
927
 
928
      if(Master == PWM_Master)
929
      {
930
        /* Internal trigger selection */
931
        TIM2->SCR |= TIM_ITS_PWM;
932
 
933
        /* Set the synchronization action */
934
        PWM->CR &= TIM_MasterModeSelection_Mask;
935
        PWM->CR |= TIM_SynchroAction;
936
      }
937
 
938
      else if(Master == TIM1_Master)
939
      {
940
        /* Internal trigger selection */
941
        TIM2->SCR |= TIM_ITS_TIM1;
942
 
943
        /* Set the synchronization action */
944
        TIM1->CR &= TIM_MasterModeSelection_Mask;
945
        TIM1->CR |= TIM_SynchroAction;
946
      }
947
 
948
      else if(Master == TIM0_Master)
949
      {
950
        /* Internal trigger selection */
951
        TIM2->SCR |= TIM_ITS_TIM0;
952
 
953
        /* Set the synchronization action */
954
        TIM0->CR &= TIM_MasterModeSelection_Mask;
955
        TIM0->CR |= TIM_SynchroAction;
956
      }
957
    }
958
    break;
959
 
960
    default:
961
    break;
962
  }
963
}
964
 
965
/*******************************************************************************
966
* Function Name  : TIM_GetFlagStatus
967
* Description    : Checks whether the specified TIM flag is set or not.
968
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
969
*                  - TIM_FLAG: specifies the flag to check.
970
*                    This parameter can be one of the following values:
971
*                         - TIM_FLAG_IC1: Input Capture 1 Flag
972
*                         - TIM_FLAG_OC1: Output Compare 1 Flag
973
*                         - TIM_FLAG_Update: Timer update Flag
974
*                         - TIM_FLAG_IC2: Input Capture 2 Flag
975
*                         - TIM_FLAG_OC2: Output Compare 2 Flag
976
* Output         : None
977
* Return         : The new state of TIM_FLAG (SET or RESET).
978
*******************************************************************************/
979
FlagStatus TIM_GetFlagStatus(TIM_TypeDef* TIMx, u16 TIM_FLAG)
980
{
981
  if((TIMx->ISR & TIM_FLAG) != RESET )
982
  {
983
    return SET;
984
  }
985
  else
986
  {
987
    return RESET;
988
  }
989
}
990
 
991
/*******************************************************************************
992
* Function Name  : TIM_ClearFlag
993
* Description    : Clears the TIMx's pending flags.
994
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
995
*                  - TIM_FLAG: specifies the flag bit to clear.
996
*                    This parameter can be any combination of the following values:
997
*                         - TIM_FLAG_IC1: Timer Input Capture 1 flag
998
*                         - TIM_FLAG_OC1: Timer Output Compare 1 flag
999
*                         - TIM_FLAG_Update: Timer update flag
1000
*                         - TIM_FLAG_IC2: Timer Input Capture 2 flag
1001
*                         - TIM_FLAG_OC2: Timer Output Compare 2 flag
1002
* Output         : None
1003
* Return         : None
1004
*******************************************************************************/
1005
void TIM_ClearFlag(TIM_TypeDef* TIMx, u16 TIM_FLAG)
1006
{
1007
  /* Clear the flags */
1008
  TIMx->ISR &= ~TIM_FLAG;
1009
}
1010
 
1011
/*******************************************************************************
1012
* Function Name  : TIM_GetITStatus
1013
* Description    : Checks whether the specified TIM interrupt has occurred or not.
1014
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
1015
*                  - TIM_IT: specifies the TIM interrupt source to check.
1016
*                    This parameter can be one of the following values:
1017
*                         - TIM_IT_IC1: Input Capture 1 interrupt
1018
*                         - TIM_IT_OC1: Output Compare 1 interrupt
1019
*                         - TIM_IT_Update: Timer update interrupt
1020
*                         - TIM_IT_GlobalUpdate: Timer global update interrupt
1021
*                         - TIM_IT_IC2: Input Capture 2 interrupt
1022
*                         - TIM_IT_OC2: Output Compare 2 interrupt
1023
* Output         : None
1024
* Return         : The new state of TIM_IT(SET or RESET).
1025
*******************************************************************************/
1026
ITStatus TIM_GetITStatus(TIM_TypeDef* TIMx, u16 TIM_IT)
1027
{
1028
  u16 TIM_IT_Check = 0;
1029
 
1030
  /* Calculates the pending bits to be checked */
1031
  TIM_IT_Check = TIM_IT & TIM_IT_Clear_Mask;
1032
 
1033
  if((TIMx->ISR & TIM_IT_Check) != RESET )
1034
  {
1035
    return SET;
1036
  }
1037
  else
1038
  {
1039
    return RESET;
1040
  }
1041
}
1042
 
1043
/*******************************************************************************
1044
* Function Name  : TIM_ClearITPendingBit
1045
* Description    : Clears the TIM's interrupt pending bits.
1046
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral.
1047
*                  - TIM_IT: specifies the interrupt pending bit to clear.
1048
*                    This parameter can be one of the following values:
1049
*                         - TIM_IT_IC1: Input Capture 1 Interrupt
1050
*                         - TIM_IT_OC1: Output Compare 1 Interrupt
1051
*                         - TIM_IT_Update: Timer update Interrupt
1052
*                         - TIM_IT_GlobalUpdate: Timer global update Interrupt
1053
*                         - TIM_IT_IC2: Input Capture 2 Interrupt
1054
*                         - TIM_IT_OC2: Output Compare 2 Interrupt
1055
* Output         : None
1056
* Return         : None
1057
*******************************************************************************/
1058
void TIM_ClearITPendingBit(TIM_TypeDef* TIMx, u16 TIM_IT)
1059
{
1060
  u16 TIM_IT_Clear = 0;
1061
 
1062
  /* Calculate the pending bits to be cleared */
1063
  TIM_IT_Clear = TIM_IT & TIM_IT_Clear_Mask;
1064
 
1065
  /* Clear the pending bits */
1066
  TIMx->ISR &= ~TIM_IT_Clear;
1067
}
1068
 
1069
/*******************************************************************************
1070
* Function Name  : OCM_ModuleConfig
1071
* Description    : Output Compare Module configuration
1072
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
1073
*                  - TIM_InitStruct: pointer to a TIM_InitTypeDef structure that
1074
*                  contains the configuration information for the specified TIM
1075
*                  peripheral.
1076
* Output         : None
1077
* Return         : None
1078
*******************************************************************************/
1079
static void OCM_ModuleConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct)
1080
{
1081
  u16 TIM_OCControl = 0x0000;
1082
 
1083
  if(TIM_InitStruct->TIM_Mode == TIM_Mode_OCTiming)
1084
  {
1085
    TIM_OCControl = TIM_OCControl_OCTiming;
1086
  }
1087
  else
1088
  {
1089
    if((TIM_InitStruct->TIM_Mode == TIM_Mode_OCActive) ||
1090
       (TIM_InitStruct->TIM_Mode == TIM_Mode_OPM_Active))
1091
    {
1092
      TIM_OCControl = TIM_OCControl_OCActive;
1093
    }
1094
    else
1095
    {
1096
      if(TIM_InitStruct->TIM_Mode == TIM_Mode_OCInactive)
1097
      {
1098
        TIM_OCControl = TIM_OCControl_OCInactive;
1099
      }
1100
      else
1101
      {
1102
         if((TIM_InitStruct->TIM_Mode == TIM_Mode_OCToggle) ||
1103
            (TIM_InitStruct->TIM_Mode == TIM_Mode_OPM_Toggle))
1104
        {
1105
          TIM_OCControl = TIM_OCControl_OCToggle;
1106
        }
1107
        else
1108
        {
1109
          TIM_OCControl = TIM_OCControl_PWM;
1110
 
1111
        }
1112
      }
1113
    }
1114
  }
1115
 
1116
  if(TIM_InitStruct->TIM_Channel == TIM_Channel_1)
1117
  {
1118
    /* Configure Channel 1 on Output Compare mode */
1119
    TIMx->OMR1 &= TIM_OC1C_Mask;
1120
    TIMx->OMR1 |= TIM_OCControl|TIM_OC1_Enable;
1121
    TIMx->OMR1 |= TIM_PLD1_Set;
1122
    TIMx->OCR1 = TIM_InitStruct->TIM_Pulse1;
1123
 
1124
    /* Set the OC1 wave polarity */
1125
    if(TIM_InitStruct->TIM_Polarity1 == TIM_Polarity1_Low)
1126
    {
1127
      TIMx->OMR1 |= TIM_OC1P_Set;
1128
    }
1129
    else
1130
    {
1131
      TIMx->OMR1 &= TIM_OC1P_Reset;
1132
    }
1133
  }
1134
  else
1135
  {
1136
    if(TIM_InitStruct->TIM_Channel == TIM_Channel_2)
1137
    {
1138
      /* Configure Channel 2 on Output Compare mode */
1139
      TIMx->OMR1 &= TIM_OC2C_Mask;
1140
      TIMx->OMR1 |= TIM_OCControl<<8|TIM_OC2_Enable;
1141
      TIMx->OMR1 |= TIM_PLD2_Set;
1142
      TIMx->OCR2 = TIM_InitStruct->TIM_Pulse2;
1143
 
1144
      /* Set the OCB wave polarity */
1145
      if(TIM_InitStruct->TIM_Polarity2 == TIM_Polarity2_Low)
1146
      {
1147
        TIMx->OMR1 |= TIM_OC2P_Set;
1148
      }
1149
      else
1150
      {
1151
        TIMx->OMR1 &= TIM_OC2P_Reset;
1152
      }
1153
    }
1154
     /* Configure Channel 1 and Channel 2 on Output Compare mode */
1155
    else
1156
    {
1157
      TIMx->OMR1 &= TIM_OC1C_Mask & TIM_OC2C_Mask;
1158
      TIMx->OMR1 |= TIM_OCControl|(TIM_OCControl<<8)|TIM_OC1_Enable|TIM_OC2_Enable|
1159
                   TIM_PLD1_Set|TIM_PLD2_Set;
1160
 
1161
      TIMx->OCR1 = TIM_InitStruct->TIM_Pulse1;
1162
      TIMx->OCR2 = TIM_InitStruct->TIM_Pulse2;
1163
 
1164
      /* Set the OC1 wave polarity */
1165
      if(TIM_InitStruct->TIM_Polarity1 == TIM_Polarity1_Low)
1166
      {
1167
        TIMx->OMR1 |= TIM_OC1P_Set;
1168
      }
1169
      else
1170
      {
1171
        TIMx->OMR1 &= TIM_OC1P_Reset;
1172
      }
1173
 
1174
      /* Set the OC2 wave polarity */
1175
      if(TIM_InitStruct->TIM_Polarity2 == TIM_Polarity2_Low)
1176
      {
1177
        TIMx->OMR1 |= TIM_OC2P_Set;
1178
      }
1179
      else
1180
      {
1181
        TIMx->OMR1 &= TIM_OC2P_Reset;
1182
      }
1183
    }
1184
  }
1185
}
1186
 
1187
/*******************************************************************************
1188
* Function Name  : ICAP_ModuleConfig
1189
* Description    : Input Capture Module configuration
1190
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
1191
*                  - TIM_InitStruct: pointer to a TIM_InitTypeDef structure that
1192
*                  contains the configuration information for the specified TIM
1193
*                  peripheral.
1194
* Output         : None
1195
* Return         : None
1196
*******************************************************************************/
1197
static void ICAP_ModuleConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct)
1198
{
1199
  if(TIM_InitStruct->TIM_Mode == TIM_Mode_PWMI)
1200
  { /* PWM input mode configuration */
1201
    TIMx->SCR |= TIM_TS_IC1_Set|TIM_SMS_RESETCLK_Set|TIM_SME_Set;
1202
 
1203
    /* Channel 1 and channel 2 input selection */
1204
    if(TIM_InitStruct->TIM_PWMI_ICSelection == TIM_PWMI_ICSelection_TI1)
1205
    {
1206
      TIMx->IMCR &= TIM_IC1S_Reset;
1207
      TIMx->IMCR |= TIM_IC2S_Set;
1208
    }
1209
    else
1210
    {
1211
      TIMx->IMCR |= TIM_IC1S_Set;
1212
      TIMx->IMCR &= TIM_IC2S_Reset;
1213
    }
1214
 
1215
    /* Channel polarity */
1216
    if(TIM_InitStruct->TIM_PWMI_ICPolarity == TIM_PWMI_ICPolarity_Rising)
1217
    {
1218
      TIMx->IMCR &= TIM_IC1P_Reset;
1219
      TIMx->IMCR |= TIM_IC2P_Set;
1220
    }
1221
    else
1222
    {
1223
      TIMx->IMCR |= TIM_IC1P_Set;
1224
      TIMx->IMCR &= TIM_IC2P_Reset;
1225
    }
1226
 
1227
    /* Input capture  Enable */
1228
    TIMx->IMCR |= TIM_IC1_Enable |TIM_IC2_Enable;
1229
  }
1230
  else
1231
  {
1232
    if(TIM_InitStruct->TIM_Channel == TIM_Channel_1)
1233
    {
1234
      /* Input Capture 1 mode configuration */
1235
      TIMx->SCR &= TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask;
1236
      TIMx->SCR |= TIM_TS_IC1_Set|TIM_SMS_RESETCLK_Set|TIM_SME_Set;
1237
 
1238
      /* Channel 1 input selection */
1239
      if(TIM_InitStruct->TIM_IC1Selection == TIM_IC1Selection_TI1)
1240
      {
1241
        TIMx->IMCR &= TIM_IC1S_Reset;
1242
      }
1243
      else
1244
      {
1245
        TIMx->IMCR |= TIM_IC1S_Set;
1246
      }
1247
      /* Channel 1 polarity */
1248
      if(TIM_InitStruct->TIM_IC1Polarity == TIM_IC1Polarity_Rising)
1249
      {
1250
        TIMx->IMCR &= TIM_IC1P_Reset;
1251
      }
1252
      else
1253
      {
1254
        TIMx->IMCR |= TIM_IC1P_Set;
1255
      }
1256
 
1257
      /* Input capture  Enable */
1258
      TIMx->IMCR |= TIM_IC1_Enable;
1259
    }
1260
    else
1261
    {
1262
      /* Input Capture 2 mode configuration */
1263
      TIMx->SCR &= (TIM_TriggerSelection_Mask & TIM_SlaveModeSelection_Mask);
1264
      TIMx->SCR |= TIM_TS_IC2_Set|TIM_SMS_RESETCLK_Set|TIM_SME_Set;
1265
 
1266
      /* Channel 2 input selection */
1267
      if(TIM_InitStruct->TIM_IC2Selection == TIM_IC2Selection_TI2)
1268
      {
1269
        TIMx->IMCR &= TIM_IC2S_Reset;
1270
      }
1271
      else
1272
      {
1273
        TIMx->IMCR |= TIM_IC2S_Set;
1274
      }
1275
 
1276
      /* Channel 2 polarity */
1277
      if(TIM_InitStruct->TIM_IC2Polarity == TIM_IC2Polarity_Rising)
1278
      {
1279
        TIMx->IMCR &= TIM_IC2P_Reset;
1280
      }
1281
      else
1282
      {
1283
        TIMx->IMCR |= TIM_IC2P_Set;
1284
      }
1285
 
1286
      /* Input capture  Enable */
1287
      TIMx->IMCR |= TIM_IC2_Enable;
1288
    }
1289
  }
1290
}
1291
 
1292
/*******************************************************************************
1293
* Function Name  : Encoder_ModeConfig
1294
* Description    : Encoder Mode configuration
1295
* Input          : - TIMx: where x can be 0, 1 or 2 to select the TIM peripheral
1296
*                  - TIM_InitStruct: pointer to a TIM_InitTypeDef structure that
1297
*                  contains the configuration information for the specified TIM
1298
*                  peripheral.
1299
* Output         : None
1300
* Return         : None
1301
*******************************************************************************/
1302
static void Encoder_ModeConfig(TIM_TypeDef* TIMx, TIM_InitTypeDef* TIM_InitStruct)
1303
{
1304
  /* Set Encoder mode */
1305
  TIMx->SCR &= TIM_Encoder_Mask;
1306
 
1307
  if(TIM_InitStruct->TIM_Mode == TIM_Mode_Encoder1)
1308
  {
1309
    TIMx->SCR |= TIM_Encoder1_Set;
1310
  }
1311
  else if (TIM_InitStruct->TIM_Mode == TIM_Mode_Encoder2)
1312
  {
1313
    TIMx->SCR |= TIM_Encoder2_Set;
1314
  }
1315
  else
1316
  {
1317
    TIMx->SCR |= TIM_Encoder3_Set;
1318
  }
1319
 
1320
  /* Channel 1 input selection */
1321
  if(TIM_InitStruct->TIM_IC1Selection == TIM_IC1Selection_TI2)
1322
  {
1323
    TIMx->IMCR |= TIM_IC1S_Set;
1324
  }
1325
  else
1326
  {
1327
    TIMx->IMCR &= TIM_IC1S_Reset;
1328
  }
1329
 
1330
   /* Channel 2 input selection */
1331
   if(TIM_InitStruct->TIM_IC2Selection == TIM_IC2Selection_TI1)
1332
   {
1333
     TIMx->IMCR |= TIM_IC2S_Set;
1334
   }
1335
   else
1336
   {
1337
     TIMx->IMCR &= TIM_IC2S_Reset;
1338
   }
1339
 
1340
   /* Channel 1 polarity */
1341
   if(TIM_InitStruct->TIM_IC1Polarity == TIM_IC1Polarity_Falling)
1342
   {
1343
     TIMx->IMCR |= TIM_IC1P_Set;
1344
   }
1345
   else
1346
   {
1347
     TIMx->IMCR &= TIM_IC1P_Reset;
1348
   }
1349
 
1350
   /* Channel 2 polarity */
1351
   if(TIM_InitStruct->TIM_IC2Polarity == TIM_IC2Polarity_Falling)
1352
   {
1353
     TIMx->IMCR |= TIM_IC2P_Set;
1354
   }
1355
   else
1356
   {
1357
     TIMx->IMCR &= TIM_IC2P_Reset;
1358
   }
1359
}
1360
/******************* (C) COPYRIGHT 2006 STMicroelectronics *****END OF FILE****/

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