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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [CORTEX_LM3S811_GCC/] [hw_include/] [pwm.c] - Blame information for rev 792

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1 581 jeremybenn
//*****************************************************************************
2
//
3
// pwm.c - API for the PWM modules
4
//
5
// Copyright (c) 2005,2006 Luminary Micro, Inc.  All rights reserved.
6
//
7
// Software License Agreement
8
//
9
// Luminary Micro, Inc. (LMI) is supplying this software for use solely and
10
// exclusively on LMI's Stellaris Family of microcontroller products.
11
//
12
// The software is owned by LMI and/or its suppliers, and is protected under
13
// applicable copyright laws.  All rights are reserved.  Any use in violation
14
// of the foregoing restrictions may subject the user to criminal sanctions
15
// under applicable laws, as well as to civil liability for the breach of the
16
// terms and conditions of this license.
17
//
18
// THIS SOFTWARE IS PROVIDED "AS IS".  NO WARRANTIES, WHETHER EXPRESS, IMPLIED
19
// OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF
20
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE APPLY TO THIS SOFTWARE.
21
// LMI SHALL NOT, IN ANY CIRCUMSTANCES, BE LIABLE FOR SPECIAL, INCIDENTAL, OR
22
// CONSEQUENTIAL DAMAGES, FOR ANY REASON WHATSOEVER.
23
//
24
// This is part of revision 991 of the Stellaris Driver Library.
25
//
26
//*****************************************************************************
27
 
28
//*****************************************************************************
29
//
30
//! \addtogroup pwm_api
31
//! @{
32
//
33
//*****************************************************************************
34
 
35
#include "../hw_ints.h"
36
#include "../hw_memmap.h"
37
#include "../hw_pwm.h"
38
#include "../hw_types.h"
39
#include "debug.h"
40
#include "interrupt.h"
41
#include "pwm.h"
42
 
43
//*****************************************************************************
44
//
45
// Misc macros for manipulating the encoded generator and output defines used
46
// by the API.
47
//
48
//*****************************************************************************
49
#define PWM_GEN_BADDR(_mod_, _gen_)                                           \
50
                                ((_mod_) + (_gen_))
51
#define PWM_OUT_BADDR(_mod_, _out_)                                           \
52
                                ((_mod_) + ((_out_) & 0xFFFFFFC0))
53
#define PWM_IS_OUTPUT_ODD(_out_)                                              \
54
                                ((_out_) & 0x00000001)
55
 
56
//*****************************************************************************
57
//
58
//! Configures a PWM generator.
59
//!
60
//! \param ulBase is the base address of the PWM module.
61
//! \param ulGen is the PWM generator to configure.  Must be one of
62
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
63
//! \param ulConfig is the configuration for the PWM generator.
64
//!
65
//! This function is used to set the mode of operation for a PWM generator.
66
//! The counting mode, synchronization mode, and debug behavior are all
67
//! configured.  After configuration, the generator is left in the disabled
68
//! state.
69
//!
70
//! A PWM generator can count in two different modes:  count down mode or count
71
//! up/down mode.  In count down mode, it will count from a value down to zero,
72
//! and then reset to the preset value.  This will produce left-aligned PWM
73
//! signals (i.e. the rising edge of the two PWM signals produced by the
74
//! generator will occur at the same time).  In count up/down mode, it will
75
//! count up from zero to the preset value, count back down to zero, and then
76
//! repeat the process.  This will produce center-aligned PWM signals (i.e. the
77
//! middle of the high/low period of the PWM signals produced by the generator
78
//! will occur at the same time).
79
//!
80
//! When the PWM generator parameters (period and pulse width) are modified,
81
//! their affect on the output PWM signals can be delayed.  In synchronous
82
//! mode, the parameter updates are not applied until a synchronization event
83
//! occurs.  This allows multiple parameters to be modified and take affect
84
//! simultaneously, instead of one at a time.  Additionally, parameters to
85
//! multiple PWM generators in synchronous mode can be updated simultaneously,
86
//! allowing them to be treated as if they were a unified generator.  In
87
//! non-synchronous mode, the parameter updates are not delayed until a
88
//! synchronization event.  In either mode, the parameter updates only occur
89
//! when the counter is at zero to help prevent oddly formed PWM signals during
90
//! the update (i.e. a PWM pulse that is too short or too long).
91
//!
92
//! The PWM generator can either pause or continue running when the processor
93
//! is stopped via the debugger.  If configured to pause, it will continue to
94
//! count until it reaches zero, at which point it will pause until the
95
//! processor is restarted.  If configured to continue running, it will keep
96
//! counting as if nothing had happened.
97
//!
98
//! The \b ulConfig parameter contains the desired configuration.  It is the
99
//! logical OR of the following: \b PWM_GEN_MODE_DOWN or
100
//! \b PWM_GEN_MODE_UP_DOWN to specify the counting mode, \b PWM_GEN_MODE_SYNC
101
//! or \b PWM_GEN_MODE_NO_SYNC to specify the synchronization mode, and
102
//! \b PWM_GEN_MODE_DBG_RUN or \b PWM_GEN_MODE_DBG_STOP to specify the debug
103
//! behavior.
104
//!
105
//! \note Changes to the counter mode will affect the period of the PWM signals
106
//! produced.  PWMGenPeriodSet() and PWMPulseWidthSet() should be called after
107
//! any changes to the counter mode of a generator.
108
//!
109
//! \return None.
110
//
111
//*****************************************************************************
112
#if defined(GROUP_genconfigure) || defined(BUILD_ALL) || defined(DOXYGEN)
113
void
114
PWMGenConfigure(unsigned long ulBase, unsigned long ulGen,
115
                unsigned long ulConfig)
116
{
117
    //
118
    // Check the arguments.
119
    //
120
    ASSERT(ulBase == PWM_BASE);
121
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
122
           (ulGen == PWM_GEN_2));
123
 
124
    //
125
    // Compute the generator's base address.
126
    //
127
    ulGen = PWM_GEN_BADDR(ulBase, ulGen);
128
 
129
    //
130
    // Change the global configuration of the generator.
131
    //
132
    HWREG(ulGen + PWM_O_X_CTL) = ((HWREG(ulGen + PWM_O_X_CTL) &
133
                                   ~(PWM_X_CTL_MODE | PWM_X_CTL_DEBUG |
134
                                     PWM_X_CTL_LOADUPD | PWM_X_CTL_CMPAUPD |
135
                                     PWM_X_CTL_CMPBUPD)) | ulConfig);
136
 
137
    //
138
    // Set the individual PWM generator controls.
139
    //
140
    if(ulConfig & PWM_X_CTL_MODE)
141
    {
142
        //
143
        // In up/down count mode, set the signal high on up count comparison
144
        // and low on down count comparison (i.e. center align the signals).
145
        //
146
        HWREG(ulGen + PWM_O_X_GENA) = ((PWM_GEN_ACT_ONE <<
147
                                        PWM_GEN_ACT_A_UP_SHIFT) |
148
                                       (PWM_GEN_ACT_ZERO <<
149
                                        PWM_GEN_ACT_A_DN_SHIFT));
150
        HWREG(ulGen + PWM_O_X_GENB) = ((PWM_GEN_ACT_ONE <<
151
                                        PWM_GEN_ACT_B_UP_SHIFT) |
152
                                       (PWM_GEN_ACT_ZERO <<
153
                                        PWM_GEN_ACT_B_DN_SHIFT));
154
    }
155
    else
156
    {
157
        //
158
        // In down count mode, set the signal high on load and low on count
159
        // comparison (i.e. left align the signals).
160
        //
161
        HWREG(ulGen + PWM_O_X_GENA) = ((PWM_GEN_ACT_ONE <<
162
                                        PWM_GEN_ACT_LOAD_SHIFT) |
163
                                       (PWM_GEN_ACT_ZERO <<
164
                                        PWM_GEN_ACT_A_DN_SHIFT));
165
        HWREG(ulGen + PWM_O_X_GENB) = ((PWM_GEN_ACT_ONE <<
166
                                        PWM_GEN_ACT_LOAD_SHIFT) |
167
                                       (PWM_GEN_ACT_ZERO <<
168
                                        PWM_GEN_ACT_B_DN_SHIFT));
169
    }
170
}
171
#endif
172
 
173
//*****************************************************************************
174
//
175
//! Set the period of a PWM generator.
176
//!
177
//! \param ulBase is the base address of the PWM module.
178
//! \param ulGen is the PWM generator to be modified.  Must be one of
179
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
180
//! \param ulPeriod specifies the period of PWM generator output, measured
181
//! in clock ticks.
182
//!
183
//! This function sets the period of the specified PWM generator block, where
184
//! the period of the generator block is defined as the number of \b PWM 
185
//! clock ticks between pulses on the generator block \b zero signal.
186
//!
187
//! \note Any subsequent calls made to this function before an update occurs
188
//! will cause the previous values to be overwritten.
189
//!
190
//! \return None.
191
//
192
//*****************************************************************************
193
#if defined(GROUP_genperiodset) || defined(BUILD_ALL) || defined(DOXYGEN)
194
void
195
PWMGenPeriodSet(unsigned long ulBase, unsigned long ulGen,
196
                unsigned long ulPeriod)
197
{
198
    //
199
    // Check the arguments.
200
    //
201
    ASSERT(ulBase == PWM_BASE);
202
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
203
           (ulGen == PWM_GEN_2));
204
 
205
    //
206
    // Compute the generator's base address.
207
    //
208
    ulGen = PWM_GEN_BADDR(ulBase, ulGen);
209
 
210
    //
211
    // Set the reload register based on the mode.
212
    //
213
    if(HWREG(ulGen + PWM_O_X_CTL) & PWM_X_CTL_MODE)
214
    {
215
        //
216
        // In up/down count mode, set the reload register to half the requested
217
        // period.
218
        //
219
        ASSERT((ulPeriod / 2) < 65536);
220
        HWREG(ulGen + PWM_O_X_LOAD) = ulPeriod / 2;
221
    }
222
    else
223
    {
224
        //
225
        // In down count mode, set the reload register to the requested period
226
        // minus one.
227
        //
228
        ASSERT((ulPeriod <= 65536) && (ulPeriod != 0));
229
        HWREG(ulGen + PWM_O_X_LOAD) = ulPeriod - 1;
230
    }
231
}
232
#endif
233
 
234
//*****************************************************************************
235
//
236
//! Gets the period of a PWM generator block.
237
//!
238
//! \param ulBase is the base address of the PWM module.
239
//! \param ulGen is the PWM generator to query.  Must be one of
240
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
241
//!
242
//! This function gets the period of the specified PWM generator block.  The
243
//! period of the generator block is defined as the number of \b PWM clock
244
//! ticks between pulses on the generator block \b zero signal.
245
//!
246
//! If the update of the counter for the specified PWM generator has yet
247
//! to be completed, the value returned may not be the active period.  The
248
//! value returned is the programmed period, measured in \b PWM clock ticks.
249
//!
250
//! \return Returns the programmed period of the specified generator block
251
//! in \b PWM clock ticks.
252
//
253
//*****************************************************************************
254
#if defined(GROUP_genperiodget) || defined(BUILD_ALL) || defined(DOXYGEN)
255
unsigned long
256
PWMGenPeriodGet(unsigned long ulBase, unsigned long ulGen)
257
{
258
    //
259
    // Check the arguments.
260
    //
261
    ASSERT(ulBase == PWM_BASE);
262
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
263
           (ulGen == PWM_GEN_2));
264
 
265
    //
266
    // Compute the generator's base address.
267
    //
268
    ulGen = PWM_GEN_BADDR(ulBase, ulGen);
269
 
270
    //
271
    // Figure out the counter mode.
272
    //
273
    if(HWREG(ulGen + PWM_O_X_CTL) & PWM_X_CTL_MODE)
274
    {
275
        //
276
        // The period is twice the reload register value.
277
        //
278
        return(HWREG(ulGen + PWM_O_X_LOAD) * 2);
279
    }
280
    else
281
    {
282
        //
283
        // The period is the reload register value plus one.
284
        //
285
        return(HWREG(ulGen + PWM_O_X_LOAD) + 1);
286
    }
287
}
288
#endif
289
 
290
//*****************************************************************************
291
//
292
//! Enables the timer/counter for a PWM generator block.
293
//!
294
//! \param ulBase is the base address of the PWM module.
295
//! \param ulGen is the PWM generator to be enabled.  Must be one of
296
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
297
//!
298
//! This function allows the \b PWM clock to drive the timer/counter for the
299
//! specified generator block.
300
//!
301
//! \return None.
302
//
303
//*****************************************************************************
304
#if defined(GROUP_genenable) || defined(BUILD_ALL) || defined(DOXYGEN)
305
void
306
PWMGenEnable(unsigned long ulBase, unsigned long ulGen)
307
{
308
    //
309
    // Check the arguments.
310
    //
311
    ASSERT(ulBase == PWM_BASE);
312
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
313
           (ulGen == PWM_GEN_2));
314
 
315
    //
316
    // Enable the PWM generator.
317
    //
318
    HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_CTL) |= PWM_X_CTL_ENABLE;
319
}
320
#endif
321
 
322
//*****************************************************************************
323
//
324
//! Disables the timer/counter for a PWM generator block.
325
//!
326
//! \param ulBase is the base address of the PWM module.
327
//! \param ulGen is the PWM generator to be disabled.  Must be one of
328
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
329
//!
330
//! This function blocks the \b PWM clock from driving the timer/counter for 
331
//! the specified generator block.
332
//!
333
//! \return None.
334
//
335
//*****************************************************************************
336
#if defined(GROUP_gendisable) || defined(BUILD_ALL) || defined(DOXYGEN)
337
void
338
PWMGenDisable(unsigned long ulBase, unsigned long ulGen)
339
{
340
    //
341
    // Check the arguments.
342
    //
343
    ASSERT(ulBase == PWM_BASE);
344
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
345
           (ulGen == PWM_GEN_2));
346
 
347
    //
348
    // Disable the PWM generator.
349
    //
350
    HWREG(PWM_GEN_BADDR(ulBase, + ulGen) + PWM_O_X_CTL) &= ~(PWM_X_CTL_ENABLE);
351
}
352
#endif
353
 
354
//*****************************************************************************
355
//
356
//! Sets the pulse width for the specified PWM output.
357
//!
358
//! \param ulBase is the base address of the PWM module.
359
//! \param ulPWMOut is the PWM output to modify.  Must be one of \b PWM_OUT_0,
360
//! \b PWM_OUT_1, \b PWM_OUT_2, \b PWM_OUT_3, \b PWM_OUT_4, or \b PWM_OUT_5.
361
//! \param ulWidth specifies the width of the positive portion of the pulse.
362
//!
363
//! This function sets the pulse width for the specified PWM output, where the
364
//! pulse width is defined as the number of \b PWM clock ticks.
365
//!
366
//! \note Any subsequent calls made to this function before an update occurs
367
//! will cause the previous values to be overwritten.
368
//!
369
//! \return None.
370
//
371
//*****************************************************************************
372
#if defined(GROUP_pulsewidthset) || defined(BUILD_ALL) || defined(DOXYGEN)
373
void
374
PWMPulseWidthSet(unsigned long ulBase, unsigned long ulPWMOut,
375
                 unsigned long ulWidth)
376
{
377
    unsigned long ulGenBase, ulReg;
378
 
379
    //
380
    // Check the arguments.
381
    //
382
    ASSERT(ulBase == PWM_BASE);
383
    ASSERT((ulPWMOut == PWM_OUT_0) || (ulPWMOut == PWM_OUT_1) ||
384
           (ulPWMOut == PWM_OUT_2) || (ulPWMOut == PWM_OUT_3) ||
385
           (ulPWMOut == PWM_OUT_4) || (ulPWMOut == PWM_OUT_5));
386
 
387
    //
388
    // Compute the generator's base address.
389
    //
390
    ulGenBase = PWM_OUT_BADDR(ulBase, ulPWMOut);
391
 
392
    //
393
    // If the counter is in up/down count mode, divide the width by two.
394
    //
395
    if(HWREG(ulGenBase + PWM_O_X_CTL) & PWM_X_CTL_MODE)
396
    {
397
        ulWidth /= 2;
398
    }
399
 
400
    //
401
    // Get the period.
402
    //
403
    ulReg = HWREG(ulGenBase + PWM_O_X_LOAD);
404
 
405
    //
406
    // Make sure the width is not too large.
407
    //
408
    ASSERT(ulWidth < ulReg);
409
 
410
    //
411
    // Compute the compare value.
412
    //
413
    ulReg = ulReg - ulWidth;
414
 
415
    //
416
    // Write to the appropriate registers.
417
    //
418
    if(PWM_IS_OUTPUT_ODD(ulPWMOut))
419
    {
420
        HWREG(ulGenBase + PWM_O_X_CMPB) = ulReg;
421
    }
422
    else
423
    {
424
        HWREG(ulGenBase + PWM_O_X_CMPA) = ulReg;
425
    }
426
}
427
#endif
428
 
429
//*****************************************************************************
430
//
431
//! Gets the pulse width of a PWM output.
432
//!
433
//! \param ulBase is the base address of the PWM module.
434
//! \param ulPWMOut is the PWM output to query.  Must be one of \b PWM_OUT_0,
435
//! \b PWM_OUT_1, \b PWM_OUT_2, \b PWM_OUT_3, \b PWM_OUT_4, or \b PWM_OUT_5.
436
//!
437
//! This function gets the currently programmed pulse width for the
438
//! specified PWM output.  If the update of the comparator for the specified
439
//! output has yet to be completed, the value returned may not be the active
440
//! pulse width.  The value returned is the programmed pulse width, measured
441
//! in \b PWM clock ticks.
442
//!
443
//! \return Returns the width of the pulse in \b PWM clock ticks.
444
//
445
//*****************************************************************************
446
#if defined(GROUP_pulsewidthget) || defined(BUILD_ALL) || defined(DOXYGEN)
447
unsigned long
448
PWMPulseWidthGet(unsigned long ulBase, unsigned long ulPWMOut)
449
{
450
    unsigned long ulGenBase, ulReg, ulLoad;
451
 
452
    //
453
    // Check the arguments.
454
    //
455
    ASSERT(ulBase == PWM_BASE);
456
    ASSERT((ulPWMOut == PWM_OUT_0) || (ulPWMOut == PWM_OUT_1) ||
457
           (ulPWMOut == PWM_OUT_2) || (ulPWMOut == PWM_OUT_3) ||
458
           (ulPWMOut == PWM_OUT_4) || (ulPWMOut == PWM_OUT_5));
459
 
460
    //
461
    // Compute the generator's base address.
462
    //
463
    ulGenBase = PWM_OUT_BADDR(ulBase, ulPWMOut);
464
 
465
    //
466
    // Then compute the pulse width.  If mode is UpDown, set
467
    // width = (load-compare)*2.  Otherwise, set width = load - compare
468
    //
469
    ulLoad = HWREG(ulGenBase + PWM_O_X_LOAD);
470
    if(PWM_IS_OUTPUT_ODD(ulPWMOut))
471
    {
472
        ulReg = HWREG(ulGenBase + PWM_O_X_CMPB);
473
    }
474
    else
475
    {
476
        ulReg = HWREG(ulGenBase + PWM_O_X_CMPA);
477
    }
478
    ulReg = ulLoad - ulReg;
479
 
480
    //
481
    // If in up/down count mode, double the pulse width.
482
    //
483
    if(HWREG(ulGenBase + PWM_O_X_CTL) & PWM_X_CTL_MODE)
484
    {
485
        ulReg = ulReg * 2;
486
    }
487
 
488
    //
489
    // Return the pulse width.
490
    //
491
    return(ulReg);
492
}
493
#endif
494
 
495
//*****************************************************************************
496
//
497
//! Enables the PWM dead band output, and sets the dead band delays.
498
//!
499
//! \param ulBase is the base address of the PWM module.
500
//! \param ulGen is the PWM generator to modify.  Must be one of
501
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
502
//! \param usRise specifies the width of delay from the rising edge.
503
//! \param usFall specifies the width of delay from the falling edge.
504
//!
505
//! This function sets the dead bands for the specified PWM generator,
506
//! where the dead bands are defined as the number of \b PWM clock ticks
507
//! from the rising or falling edge of the generator's \b OutA signal.
508
//! Note that this function causes the coupling of \b OutB to \b OutA.
509
//!
510
//! \return None.
511
//
512
//*****************************************************************************
513
#if defined(GROUP_deadbandenable) || defined(BUILD_ALL) || defined(DOXYGEN)
514
void
515
PWMDeadBandEnable(unsigned long ulBase, unsigned long ulGen,
516
                  unsigned short usRise, unsigned short usFall)
517
{
518
    //
519
    // Check the arguments.
520
    //
521
    ASSERT(ulBase == PWM_BASE);
522
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
523
           (ulGen == PWM_GEN_2));
524
    ASSERT(usRise < 4096);
525
    ASSERT(usFall < 4096);
526
 
527
    //
528
    // Compute the generator's base address.
529
    //
530
    ulGen = PWM_GEN_BADDR(ulBase, ulGen);
531
 
532
    //
533
    // Write the dead band delay values.
534
    //
535
    HWREG(ulGen + PWM_O_X_DBRISE) = usRise;
536
    HWREG(ulGen + PWM_O_X_DBFALL) = usFall;
537
 
538
    //
539
    // Enable the deadband functionality.
540
    //
541
    HWREG(ulGen + PWM_O_X_DBCTL) |= PWM_DBCTL_ENABLE;
542
}
543
#endif
544
 
545
//*****************************************************************************
546
//
547
//! Disables the PWM dead band output.
548
//!
549
//! \param ulBase is the base address of the PWM module.
550
//! \param ulGen is the PWM generator to modify.  Must be one of
551
//! \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
552
//!
553
//! This function disables the dead band mode for the specified PWM generator.
554
//! Doing so decouples the \b OutA and \b OutB signals.
555
//!
556
//! \return None.
557
//
558
//*****************************************************************************
559
#if defined(GROUP_deadbanddisable) || defined(BUILD_ALL) || defined(DOXYGEN)
560
void
561
PWMDeadBandDisable(unsigned long ulBase, unsigned long ulGen)
562
{
563
    //
564
    // Check the arguments.
565
    //
566
    ASSERT(ulBase == PWM_BASE);
567
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
568
           (ulGen == PWM_GEN_2));
569
 
570
    //
571
    // Disable the deadband functionality.
572
    //
573
    HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_DBCTL) &= ~(PWM_DBCTL_ENABLE);
574
}
575
#endif
576
 
577
//*****************************************************************************
578
//
579
//! Synchronizes all pending updates.
580
//!
581
//! \param ulBase is the base address of the PWM module.
582
//! \param ulGenBits are the PWM generator blocks to be updated.  Must be the
583
//! logical OR of any of \b PWM_GEN_0_BIT, \b PWM_GEN_1_BIT, or
584
//! \b PWM_GEN_2_BIT.
585
//!
586
//! For the selected PWM generators, this function causes all queued updates to
587
//! the period or pulse width to be applied the next time the corresponding
588
//! counter becomes zero.
589
//!
590
//! \return None.
591
//
592
//*****************************************************************************
593
#if defined(GROUP_syncupdate) || defined(BUILD_ALL) || defined(DOXYGEN)
594
void
595
PWMSyncUpdate(unsigned long ulBase, unsigned long ulGenBits)
596
{
597
    //
598
    // Check the arguments.
599
    //
600
    ASSERT(ulBase == PWM_BASE);
601
    ASSERT(!(ulGenBits & ~(PWM_GEN_0_BIT | PWM_GEN_1_BIT | PWM_GEN_2_BIT)));
602
 
603
    //
604
    // Update the PWM timing registers.
605
    //
606
    HWREG(ulBase + PWM_O_CTL) = ulGenBits;
607
}
608
#endif
609
 
610
//*****************************************************************************
611
//
612
//! Synchronizes the counters in one or multiple PWM generator blocks.
613
//!
614
//! \param ulBase is the base address of the PWM module.
615
//! \param ulGenBits are the PWM generator blocks to be synchronized.  Must be
616
//! the logical OR of any of \b PWM_GEN_0_BIT, \b PWM_GEN_1_BIT, or
617
//! \b PWM_GEN_2_BIT.
618
//!
619
//! For the selected PWM module, this function synchronizes the time base
620
//! of the generator blocks by causing the specified generator counters to be
621
//! reset to zero.
622
//!
623
//! \return None.
624
//
625
//*****************************************************************************
626
#if defined(GROUP_synctimebase) || defined(BUILD_ALL) || defined(DOXYGEN)
627
void
628
PWMSyncTimeBase(unsigned long ulBase, unsigned long ulGenBits)
629
{
630
    //
631
    // Check the arguments.
632
    //
633
    ASSERT(ulBase == PWM_BASE);
634
    ASSERT(!(ulGenBits & ~(PWM_GEN_0_BIT | PWM_GEN_1_BIT | PWM_GEN_2_BIT)));
635
 
636
    //
637
    // Synchronize the counters in the specified generators by writing to
638
    // the module's synchronization register.
639
    //
640
    HWREG(ulBase + PWM_O_SYNC) = ulGenBits;
641
}
642
#endif
643
 
644
//*****************************************************************************
645
//
646
//! Enables or disables PWM outputs.
647
//!
648
//! \param ulBase is the base address of the PWM module.
649
//! \param ulPWMOutBits are the PWM outputs to be modified.  Must be the
650
//! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT,
651
//! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, or \b PWM_OUT_5_BIT.
652
//! \param bEnable determines if the signal is enabled or disabled.
653
//!
654
//! This function is used to enable or disable the selected PWM outputs.  The
655
//! outputs are selected using the parameter \e ulPWMOutBits.  The parameter
656
//! \e bEnable determines the state of the selected outputs.  If \e bEnable is
657
//! \b true, then the selected PWM outputs are enabled, or placed in the active
658
//! state.  If \e bEnable is \b false, then the selected outputs are disabled,
659
//! or placed in the inactive state.
660
//!
661
//! \return None.
662
//
663
//*****************************************************************************
664
#if defined(GROUP_outputstate) || defined(BUILD_ALL) || defined(DOXYGEN)
665
void
666
PWMOutputState(unsigned long ulBase, unsigned long ulPWMOutBits,
667
               tBoolean bEnable)
668
{
669
    //
670
    // Check the arguments.
671
    //
672
    ASSERT(ulBase == PWM_BASE);
673
    ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT |
674
                              PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT)));
675
 
676
    //
677
    // Read the module's ENABLE output control register, and set or clear
678
    // the requested bits.
679
    //
680
    if(bEnable == true)
681
    {
682
        HWREG(ulBase + PWM_O_ENABLE) |= ulPWMOutBits;
683
    }
684
    else
685
    {
686
        HWREG(ulBase + PWM_O_ENABLE) &= ~(ulPWMOutBits);
687
    }
688
}
689
#endif
690
 
691
//*****************************************************************************
692
//
693
//! Selects the inversion mode for PWM outputs.
694
//!
695
//! \param ulBase is the base address of the PWM module.
696
//! \param ulPWMOutBits are the PWM outputs to be modified.  Must be the
697
//! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT,
698
//! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, or \b PWM_OUT_5_BIT.
699
//! \param bInvert determines if the signal is inverted or passed through.
700
//!
701
//! This function is used to select the inversion mode for the selected PWM
702
//! outputs.  The outputs are selected using the parameter \e ulPWMOutBits.
703
//! The parameter \e bInvert determines the inversion mode for the selected
704
//! outputs.  If \e bInvert is \b true, this function will cause the specified
705
//! PWM output signals to be inverted, or made active low.  If \e bInvert is
706
//! \b false, the specified output will be passed through as is, or be made
707
//! active high.
708
//!
709
//! \return None.
710
//
711
//*****************************************************************************
712
#if defined(GROUP_outputinvert) || defined(BUILD_ALL) || defined(DOXYGEN)
713
void
714
PWMOutputInvert(unsigned long ulBase, unsigned long ulPWMOutBits,
715
                tBoolean bInvert)
716
{
717
    //
718
    // Check the arguments.
719
    //
720
    ASSERT(ulBase == PWM_BASE);
721
    ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT |
722
                              PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT)));
723
 
724
    //
725
    // Read the module's INVERT output control register, and set or clear
726
    // the requested bits.
727
    //
728
    if(bInvert == true)
729
    {
730
        HWREG(ulBase + PWM_O_INVERT) |= ulPWMOutBits;
731
    }
732
    else
733
    {
734
        HWREG(ulBase + PWM_O_INVERT) &= ~(ulPWMOutBits);
735
    }
736
}
737
#endif
738
 
739
//*****************************************************************************
740
//
741
//! Specifies the state of PWM outputs in response to a fault condition.
742
//!
743
//! \param ulBase is the base address of the PWM module.
744
//! \param ulPWMOutBits are the PWM outputs to be modified.  Must be the
745
//! logical OR of any of \b PWM_OUT_0_BIT, \b PWM_OUT_1_BIT, \b PWM_OUT_2_BIT,
746
//! \b PWM_OUT_3_BIT, \b PWM_OUT_4_BIT, or \b PWM_OUT_5_BIT.
747
//! \param bFaultKill determines if the signal is killed or passed through
748
//! during an active fault condition.
749
//!
750
//! This function sets the fault handling characteristics of the selected PWM
751
//! outputs.  The outputs are selected using the parameter \e ulPWMOutBits.
752
//! The parameter \e bFaultKill determines the fault handling characteristics
753
//! for the selected outputs.  If \e bFaultKill is \b true, then the selected
754
//! outputs will be made inactive.  If \e bFaultKill is \b false, then the
755
//! selected outputs are unaffected by the detected fault.
756
//!
757
//! \return None.
758
//
759
//*****************************************************************************
760
#if defined(GROUP_outputfault) || defined(BUILD_ALL) || defined(DOXYGEN)
761
void
762
PWMOutputFault(unsigned long ulBase, unsigned long ulPWMOutBits,
763
               tBoolean bFaultKill)
764
{
765
    //
766
    // Check the arguments.
767
    //
768
    ASSERT(ulBase == PWM_BASE);
769
    ASSERT(!(ulPWMOutBits & ~(PWM_OUT_0_BIT | PWM_OUT_1_BIT | PWM_OUT_2_BIT |
770
                              PWM_OUT_3_BIT | PWM_OUT_4_BIT | PWM_OUT_5_BIT)));
771
 
772
    //
773
    // Read the module's FAULT output control register, and set or clear
774
    // the requested bits.
775
    //
776
    if(bFaultKill == true)
777
    {
778
        HWREG(ulBase + PWM_O_FAULT) |= ulPWMOutBits;
779
    }
780
    else
781
    {
782
        HWREG(ulBase + PWM_O_FAULT) &= ~(ulPWMOutBits);
783
    }
784
}
785
#endif
786
 
787
//*****************************************************************************
788
//
789
//! Registers an interrupt handler for the specified PWM generator block.
790
//!
791
//! \param ulBase is the base address of the PWM module.
792
//! \param ulGen is the PWM generator in question.
793
//! \param pfnIntHandler is a pointer to the function to be called when the PWM
794
//! generator interrupt occurs.
795
//!
796
//! This function will ensure that the interrupt handler specified by
797
//! \e pfnIntHandler is called when an interrupt is detected for the specified
798
//! PWM generator block.  This function will also enable the corresponding
799
//! PWM generator interrupt in the interrupt controller; individual generator
800
//! interrupts and interrupt sources must be enabled with PWMIntEnable() and
801
//! PWMGenIntTrigEnable().
802
//!
803
//! \sa IntRegister() for important information about registering interrupt
804
//! handlers.
805
//!
806
//! \return None.
807
//
808
//*****************************************************************************
809
#if defined(GROUP_genintregister) || defined(BUILD_ALL) || defined(DOXYGEN)
810
void
811
PWMGenIntRegister(unsigned long ulBase, unsigned long ulGen,
812
                  void (*pfnIntHandler)(void))
813
{
814
    unsigned long ulInt;
815
 
816
    //
817
    // Check the arguments.
818
    //
819
    ASSERT(ulBase == PWM_BASE);
820
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
821
           (ulGen == PWM_GEN_2));
822
 
823
    //
824
    // Get the interrupt number associated with the specified generator.
825
    //
826
    ulInt = INT_PWM0 + (ulGen >> 6) - 1;
827
 
828
    //
829
    // Register the interrupt handler.
830
    //
831
    IntRegister(ulInt, pfnIntHandler);
832
 
833
    //
834
    // Enable the PWMx interrupt.
835
    //
836
    IntEnable(ulInt);
837
}
838
#endif
839
 
840
//*****************************************************************************
841
//
842
//! Removes an interrupt handler for the specified PWM generator block.
843
//!
844
//! \param ulBase is the base address of the PWM module.
845
//! \param ulGen is the PWM generator in question.
846
//!
847
//! This function will unregister the interrupt handler for the specified
848
//! PWM generator block.  This function will also disable the corresponding
849
//! PWM generator interrupt in the interrupt controller; individual generator
850
//! interrupts and interrupt sources must be disabled with PWMIntDisable() and
851
//! PWMGenIntTrigDisable().
852
//!
853
//! \sa IntRegister() for important information about registering interrupt
854
//! handlers.
855
//!
856
//! \return None.
857
//
858
//*****************************************************************************
859
#if defined(GROUP_genintunregister) || defined(BUILD_ALL) || defined(DOXYGEN)
860
void
861
PWMGenIntUnregister(unsigned long ulBase, unsigned long ulGen)
862
{
863
    unsigned long ulInt;
864
 
865
    //
866
    // Check the arguments.
867
    //
868
    ASSERT(ulBase == PWM_BASE);
869
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
870
           (ulGen == PWM_GEN_2));
871
 
872
    //
873
    // Get the interrupt number associated with the specified generator.
874
    //
875
    ulInt = INT_PWM0 + (ulGen >> 6) - 1;
876
 
877
    //
878
    // Disable the PWMx interrupt.
879
    //
880
    IntDisable(ulInt);
881
 
882
    //
883
    // Unregister the interrupt handler.
884
    //
885
    IntUnregister(ulInt);
886
}
887
#endif
888
 
889
//*****************************************************************************
890
//
891
//! Registers an interrupt handler for a fault condition detected in a PWM
892
//! module.
893
//!
894
//! \param ulBase is the base address of the PWM module.
895
//! \param pfnIntHandler is a pointer to the function to be called when the PWM
896
//! fault interrupt occurs.
897
//!
898
//! This function will ensure that the interrupt handler specified by
899
//! \e pfnIntHandler is called when a fault interrupt is detected for the
900
//! selected PWM module.  This function will also enable the PWM fault
901
//! interrupt in the NVIC; the PWM fault interrupt must also be enabled at the
902
//! module level using PWMIntEnable().
903
//!
904
//! \sa IntRegister() for important information about registering interrupt
905
//! handlers.
906
//!
907
//! \return None.
908
//
909
//*****************************************************************************
910
#if defined(GROUP_faultintregister) || defined(BUILD_ALL) || defined(DOXYGEN)
911
void
912
PWMFaultIntRegister(unsigned long ulBase, void (*pfnIntHandler)(void))
913
{
914
    //
915
    // Check the arguments.
916
    //
917
    ASSERT(ulBase == PWM_BASE);
918
 
919
    //
920
    // Register the interrupt handler, returning an error if one occurs.
921
    //
922
    IntRegister(INT_PWM_FAULT, pfnIntHandler);
923
 
924
    //
925
    // Enable the PWM fault interrupt.
926
    //
927
    IntEnable(INT_PWM_FAULT);
928
}
929
#endif
930
 
931
//*****************************************************************************
932
//
933
//! Removes the PWM fault condition interrupt handler.
934
//!
935
//! \param ulBase is the base address of the PWM module.
936
//!
937
//! This function will remove the interrupt handler for a PWM fault interrupt
938
//! from the selected PWM module.  This function will also disable the PWM
939
//! fault interrupt in the NVIC; the PWM fault interrupt must also be disabled
940
//! at the module level using PWMIntDisable().
941
//!
942
//! \sa IntRegister() for important information about registering interrupt
943
//! handlers.
944
//!
945
//! \return None.
946
//
947
//*****************************************************************************
948
#if defined(GROUP_faultintunregister) || defined(BUILD_ALL) || defined(DOXYGEN)
949
void
950
PWMFaultIntUnregister(unsigned long ulBase)
951
{
952
    //
953
    // Check the arguments.
954
    //
955
    ASSERT(ulBase == PWM_BASE);
956
 
957
    //
958
    // Disable the PWM fault interrupt.
959
    //
960
    IntDisable(INT_PWM_FAULT);
961
 
962
    //
963
    // Unregister the interrupt handler, returning an error if one occurs.
964
    //
965
    IntUnregister(INT_PWM_FAULT);
966
}
967
#endif
968
 
969
//*****************************************************************************
970
//
971
//! Enables interrupts and triggers for the specified PWM generator block.
972
//!
973
//! \param ulBase is the base address of the PWM module.
974
//! \param ulGen is the PWM generator to have interrupts and triggers enabled.
975
//! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
976
//! \param ulIntTrig specifies the interrupts and triggers to be enabled.
977
//!
978
//! Unmasks the specified interrupt(s) and trigger(s) by setting the
979
//! specified bits of the interrupt/trigger enable register for the specified
980
//! PWM generator.  The defined values for the bits are as follows:
981
//!
982
//! - PWM_INT_CNT_ZERO
983
//! - PWM_INT_CNT_LOAD
984
//! - PWM_INT_CMP_AU
985
//! - PWM_INT_CMP_AD
986
//! - PWM_INT_CMP_BU
987
//! - PWM_INT_CMP_BD
988
//! - PWM_TR_CNT_ZERO
989
//! - PWM_TR_CNT_LOAD
990
//! - PWM_TR_CMP_AU
991
//! - PWM_TR_CMP_AD
992
//! - PWM_TR_CMP_BU
993
//! - PWM_TR_CMP_BD
994
//!
995
//! \return None.
996
//
997
//*****************************************************************************
998
#if defined(GROUP_geninttrigenable) || defined(BUILD_ALL) || defined(DOXYGEN)
999
void
1000
PWMGenIntTrigEnable(unsigned long ulBase, unsigned long ulGen,
1001
                    unsigned long ulIntTrig)
1002
{
1003
    //
1004
    // Check the arguments.
1005
    //
1006
    ASSERT(ulBase == PWM_BASE);
1007
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
1008
           (ulGen == PWM_GEN_2));
1009
 
1010
    //
1011
    // Enable the specified interrupts/triggers.
1012
    //
1013
    HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_INTEN) |= ulIntTrig;
1014
}
1015
#endif
1016
 
1017
//*****************************************************************************
1018
//
1019
//! Disables interrupts for the specified PWM generator block.
1020
//!
1021
//! \param ulBase is the base address of the PWM module.
1022
//! \param ulGen is the PWM generator to have interrupts and triggers disabled.
1023
//! Must be one of \b PWM_GEN_0, \b PWM_GEN_1, or \b PWM_GEN_2.
1024
//! \param ulIntTrig specifies the interrupts and triggers to be disabled.
1025
//!
1026
//! Masks the specified interrupt(s) and trigger(s) by clearing the
1027
//! specified bits of the interrupt/trigger enable register for the specified
1028
//! PWM generator.  The defined values for the bits are as follows:
1029
//!
1030
//! - PWM_INT_CNT_ZERO
1031
//! - PWM_INT_CNT_LOAD
1032
//! - PWM_INT_CMP_AU
1033
//! - PWM_INT_CMP_AD
1034
//! - PWM_INT_CMP_BU
1035
//! - PWM_INT_CMP_BD
1036
//! - PWM_TR_CNT_ZERO
1037
//! - PWM_TR_CNT_LOAD
1038
//! - PWM_TR_CMP_AU
1039
//! - PWM_TR_CMP_AD
1040
//! - PWM_TR_CMP_BU
1041
//! - PWM_TR_CMP_BD
1042
//!
1043
//! \return None.
1044
//
1045
//*****************************************************************************
1046
#if defined(GROUP_geninttrigdisable) || defined(BUILD_ALL) || defined(DOXYGEN)
1047
void
1048
PWMGenIntTrigDisable(unsigned long ulBase, unsigned long ulGen,
1049
                     unsigned long ulIntTrig)
1050
{
1051
    //
1052
    // Check the arguments.
1053
    //
1054
    ASSERT(ulBase == PWM_BASE);
1055
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
1056
           (ulGen == PWM_GEN_2));
1057
 
1058
    //
1059
    // Disable the specified interrupts/triggers.
1060
    //
1061
    HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_INTEN) &= ~(ulIntTrig);
1062
}
1063
#endif
1064
 
1065
//*****************************************************************************
1066
//
1067
//! Gets interrupt status for the specified PWM generator block.
1068
//!
1069
//! \param ulBase is the base address of the PWM module.
1070
//! \param ulGen is the PWM generator to query.  Must be one of \b PWM_GEN_0,
1071
//! \b PWM_GEN_1, or \b PWM_GEN_2.
1072
//! \param bMasked specifies whether masked or raw interrupt status is
1073
//! returned.
1074
//!
1075
//! If \e bMasked is set as \b true, then the masked interrupt status is
1076
//! returned; otherwise, the raw interrupt status will be returned.
1077
//!
1078
//! \return Returns the contents of the interrupt status register, or the
1079
//! contents of the raw interrupt status register, for the specified
1080
//! PWM generator.
1081
//
1082
//*****************************************************************************
1083
#if defined(GROUP_genintstatus) || defined(BUILD_ALL) || defined(DOXYGEN)
1084
unsigned long
1085
PWMGenIntStatus(unsigned long ulBase, unsigned long ulGen, tBoolean bMasked)
1086
{
1087
    //
1088
    // Check the arguments.
1089
    //
1090
    ASSERT(ulBase == PWM_BASE);
1091
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
1092
           (ulGen == PWM_GEN_2));
1093
 
1094
    //
1095
    // Compute the generator's base address.
1096
    //
1097
    ulGen = PWM_GEN_BADDR(ulBase, ulGen);
1098
 
1099
    //
1100
    // Read and return the specified generator's raw or enabled interrupt
1101
    // status.
1102
    //
1103
    if(bMasked == true)
1104
    {
1105
        return(HWREG(ulGen + PWM_O_X_ISC));
1106
    }
1107
    else
1108
    {
1109
        return(HWREG(ulGen + PWM_O_X_RIS));
1110
    }
1111
}
1112
#endif
1113
 
1114
//*****************************************************************************
1115
//
1116
//! Clears the specified interrupt(s) for the specified PWM generator block.
1117
//!
1118
//! \param ulBase is the base address of the PWM module.
1119
//! \param ulGen is the PWM generator to query.  Must be one of \b PWM_GEN_0,
1120
//! \b PWM_GEN_1, or \b PWM_GEN_2.
1121
//! \param ulInts specifies the interrupts to be cleared.
1122
//!
1123
//! Clears the specified interrupt(s) by writing a 1 to the specified bits
1124
//! of the interrupt status register for the specified PWM generator.  The
1125
//! defined values for the bits are as follows:
1126
//!
1127
//! - PWM_INT_CNT_ZERO
1128
//! - PWM_INT_CNT_LOAD
1129
//! - PWM_INT_CMP_AU
1130
//! - PWM_INT_CMP_AD
1131
//! - PWM_INT_CMP_BU
1132
//! - PWM_INT_CMP_BD
1133
//!
1134
//! \return None.
1135
//
1136
//*****************************************************************************
1137
#if defined(GROUP_genintclear) || defined(BUILD_ALL) || defined(DOXYGEN)
1138
void
1139
PWMGenIntClear(unsigned long ulBase, unsigned long ulGen, unsigned long ulInts)
1140
{
1141
    //
1142
    // Check the arguments.
1143
    //
1144
    ASSERT(ulBase == PWM_BASE);
1145
    ASSERT((ulGen == PWM_GEN_0) || (ulGen == PWM_GEN_1) ||
1146
           (ulGen == PWM_GEN_2));
1147
 
1148
    //
1149
    // Clear the requested interrupts by writing ones to the specified bit
1150
    // of the module's interrupt enable register.
1151
    //
1152
    HWREG(PWM_GEN_BADDR(ulBase, ulGen) + PWM_O_X_ISC) = ulInts;
1153
}
1154
#endif
1155
 
1156
//*****************************************************************************
1157
//
1158
//! Enables generator and fault interrupts for a PWM module.
1159
//!
1160
//! \param ulBase is the base address of the PWM module.
1161
//! \param ulGenFault contains the interrupts to be enabled.  Must be a logical
1162
//! OR of any of \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2, or
1163
//! \b PWM_INT_FAULT.
1164
//!
1165
//! Unmasks the specified interrupt(s) by setting the specified bits of
1166
//! the interrupt enable register for the selected PWM module.
1167
//!
1168
//! \return None.
1169
//
1170
//*****************************************************************************
1171
#if defined(GROUP_intenable) || defined(BUILD_ALL) || defined(DOXYGEN)
1172
void
1173
PWMIntEnable(unsigned long ulBase, unsigned long ulGenFault)
1174
{
1175
    //
1176
    // Check the arguments.
1177
    //
1178
    ASSERT(ulBase == PWM_BASE);
1179
 
1180
    //
1181
    // Read the module's interrupt enable register, and enable interrupts
1182
    // for the specified PWM generators.
1183
    //
1184
    HWREG(ulBase + PWM_O_INTEN) |= ulGenFault;
1185
}
1186
#endif
1187
 
1188
//*****************************************************************************
1189
//
1190
//! Disables generator and fault interrupts for a PWM module.
1191
//!
1192
//! \param ulBase is the base address of the PWM module.
1193
//! \param ulGenFault contains the interrupts to be disabled.  Must be a
1194
//! logical OR of any of \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2,
1195
//! or \b PWM_INT_FAULT.
1196
//!
1197
//! Masks the specified interrupt(s) by clearing the specified bits of
1198
//! the interrupt enable register for the selected PWM module.
1199
//!
1200
//! \return None.
1201
//
1202
//*****************************************************************************
1203
#if defined(GROUP_intdisable) || defined(BUILD_ALL) || defined(DOXYGEN)
1204
void
1205
PWMIntDisable(unsigned long ulBase, unsigned long ulGenFault)
1206
{
1207
    //
1208
    // Check the arguments.
1209
    //
1210
    ASSERT(ulBase == PWM_BASE);
1211
 
1212
    //
1213
    // Read the module's interrupt enable register, and disable interrupts
1214
    // for the specified PWM generators.
1215
    //
1216
    HWREG(ulBase + PWM_O_INTEN) &= ~(ulGenFault);
1217
}
1218
#endif
1219
 
1220
//*****************************************************************************
1221
//
1222
//! Clears the fault interrupt for a PWM module.
1223
//!
1224
//! \param ulBase is the base address of the PWM module.
1225
//!
1226
//! Clears the fault interrupt by writing to the appropriate bit of the
1227
//! interrupt status register for the selected PWM module.
1228
//!
1229
//! \return None.
1230
//
1231
//*****************************************************************************
1232
#if defined(GROUP_faultintclear) || defined(BUILD_ALL) || defined(DOXYGEN)
1233
void
1234
PWMFaultIntClear(unsigned long ulBase)
1235
{
1236
    //
1237
    // Check the arguments.
1238
    //
1239
    ASSERT(ulBase == PWM_BASE);
1240
 
1241
    //
1242
    // Write the only writeable bit in the module's interrupt register.
1243
    //
1244
    HWREG(ulBase + PWM_O_ISC) = PWM_INT_INTFAULT;
1245
}
1246
#endif
1247
 
1248
//*****************************************************************************
1249
//
1250
//! Gets the interrupt status for a PWM module.
1251
//!
1252
//! \param ulBase is the base address of the PWM module.
1253
//! \param bMasked specifies whether masked or raw interrupt status is
1254
//! returned.
1255
//!
1256
//! If \e bMasked is set as \b true, then the masked interrupt status is
1257
//! returned; otherwise, the raw interrupt status will be returned.
1258
//!
1259
//! \return The current interrupt status, enumerated as a bit field of
1260
//! \b PWM_INT_GEN_0, \b PWM_INT_GEN_1, \b PWM_INT_GEN_2, and \b PWM_INT_FAULT.
1261
//!
1262
//*****************************************************************************
1263
#if defined(GROUP_intstatus) || defined(BUILD_ALL) || defined(DOXYGEN)
1264
unsigned long
1265
PWMIntStatus(unsigned long ulBase, tBoolean bMasked)
1266
{
1267
    //
1268
    // Check the arguments.
1269
    //
1270
    ASSERT(ulBase == PWM_BASE);
1271
 
1272
    //
1273
    // Read and return either the module's raw or enabled interrupt status.
1274
    //
1275
    if(bMasked == true)
1276
    {
1277
        return(HWREG(ulBase + PWM_O_ISC));
1278
    }
1279
    else
1280
    {
1281
        return(HWREG(ulBase + PWM_O_RIS));
1282
    }
1283
}
1284
#endif
1285
 
1286
//*****************************************************************************
1287
//
1288
// Close the Doxygen group.
1289
//! @}
1290
//
1291
//*****************************************************************************

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