This repository has been archived by the owner on Dec 8, 2024. It is now read-only.
-
Notifications
You must be signed in to change notification settings - Fork 0
/
RH_MRF89.h
628 lines (537 loc) · 27.4 KB
/
RH_MRF89.h
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
// RH_MRF89.h
//
// Definitions for Microchip MRF89XA family radios radios per:
// http://ww1.microchip.com/downloads/en/DeviceDoc/70622C.pdf
// http://ww1.microchip.com/downloads/en/DeviceDoc/75017B.pdf
//
// Author: Mike McCauley ([email protected])
// Copyright (C) 2015 Mike McCauley
// $Id: RH_MRF89.h,v 1.7 2017/07/25 05:26:50 mikem Exp $
//
#ifndef RH_RF95_h
#define RH_RF95_h
#include <RHNRFSPIDriver.h>
// This is the maximum number of interrupts the driver can support
// Most Arduinos can handle 2, Megas can handle more
#define RH_MRF89_NUM_INTERRUPTS 3
// Max number of octets the MRF89XA Rx/Tx FIFO can hold
#define RH_MRF89_FIFO_SIZE 64
// This is the maximum number of bytes that can be carried by the MRF89XA.
// We use some for headers, keeping fewer for RadioHead messages
#define RH_MRF89_MAX_PAYLOAD_LEN RH_MRF89_FIFO_SIZE
// The length of the headers we add.
// The headers are inside the MRF89XA payload
#define RH_MRF89_HEADER_LEN 4
// This is the maximum user message length that can be supported by this driver.
// Can be pre-defined to a smaller size (to save SRAM) prior to including this header
// Here we allow for 4 bytes headers, user data. Message length and CRC are automatically encoded and decoded by
// the MRF89XA
#ifndef RH_MRF89_MAX_MESSAGE_LEN
#define RH_MRF89_MAX_MESSAGE_LEN (RH_MRF89_MAX_PAYLOAD_LEN - RH_MRF89_HEADER_LEN)
#endif
// Bits that must be set to do a SPI read
#define RH_MRF89_SPI_READ_MASK 0x40
// The MRF89XA crystal frequency in MHz
#define RH_MRF89_XTAL_FREQ 12.8
// Register names from Figure 2-18
#define RH_MRF89_REG_00_GCONREG 0x00
#define RH_MRF89_REG_01_DMODREG 0x01
#define RH_MRF89_REG_02_FDEVREG 0x02
#define RH_MRF89_REG_03_BRSREG 0x03
#define RH_MRF89_REG_04_FLTHREG 0x04
#define RH_MRF89_REG_05_FIFOCREG 0x05
#define RH_MRF89_REG_06_R1CREG 0x06
#define RH_MRF89_REG_07_P1CREG 0x07
#define RH_MRF89_REG_08_S1CREG 0x08
#define RH_MRF89_REG_09_R2CREG 0x09
#define RH_MRF89_REG_0A_P2CREG 0x0a
#define RH_MRF89_REG_0B_S2CREG 0x0b
#define RH_MRF89_REG_0C_PACREG 0x0c
#define RH_MRF89_REG_0D_FTXRXIREG 0x0d
#define RH_MRF89_REG_0E_FTPRIREG 0x0e
#define RH_MRF89_REG_0F_RSTHIREG 0x0f
#define RH_MRF89_REG_10_FILCREG 0x10
#define RH_MRF89_REG_11_PFCREG 0x11
#define RH_MRF89_REG_12_SYNCREG 0x12
// Hmm the addresses of the next 2 is ambiguous in the docs
// this seems to agree with whats in the chip:
#define RH_MRF89_REG_13_RSVREG 0x13
#define RH_MRF89_REG_14_RSTSREG 0x14
#define RH_MRF89_REG_15_OOKCREG 0x15
#define RH_MRF89_REG_16_SYNCV31REG 0x16
#define RH_MRF89_REG_17_SYNCV23REG 0x17
#define RH_MRF89_REG_18_SYNCV15REG 0x18
#define RH_MRF89_REG_19_SYNCV07REG 0x19
#define RH_MRF89_REG_1A_TXCONREG 0x1a
#define RH_MRF89_REG_1B_CLKOREG 0x1b
#define RH_MRF89_REG_1C_PLOADREG 0x1c
#define RH_MRF89_REG_1D_NADDSREG 0x1d
#define RH_MRF89_REG_1E_PKTCREG 0x1e
#define RH_MRF89_REG_1F_FCRCREG 0x1f
// Register bitfield definitions
//#define RH_MRF89_REG_00_GCONREG 0x00
#define RH_MRF89_CMOD 0xe0
#define RH_MRF89_CMOD_TRANSMIT 0x80
#define RH_MRF89_CMOD_RECEIVE 0x60
#define RH_MRF89_CMOD_FS 0x40
#define RH_MRF89_CMOD_STANDBY 0x20
#define RH_MRF89_CMOD_SLEEP 0x00
#define RH_MRF89_FBS 0x18
#define RH_MRF89_FBS_950_960 0x10
#define RH_MRF89_FBS_915_928 0x08
#define RH_MRF89_FBS_902_915 0x00
#define RH_MRF89_VCOT 0x06
#define RH_MRF89_VCOT_180MV 0x06
#define RH_MRF89_VCOT_120MV 0x04
#define RH_MRF89_VCOT_60MV 0x02
#define RH_MRF89_VCOT_TANK 0x00
#define RH_MRF89_RPS 0x01
//#define RH_MRF89_REG_01_DMODREG 0x01
#define RH_MRF89_MODSEL 0xc0
#define RH_MRF89_MODSEL_FSK 0x80
#define RH_MRF89_MODSEL_OOK 0x40
#define RH_MRF89_DMODE0 0x20
#define RH_MRF89_OOKTYP 0x18
#define RH_MRF89_OOKTYP_AVERAGE 0x10
#define RH_MRF89_OOKTYP_PEAK 0x08
#define RH_MRF89_OOKTYP_FIXED 0x00
#define RH_MRF89_DMODE1 0x04
#define RH_MRF89_IFGAIN 0x03
#define RH_MRF89_IFGAIN_M13P5 0x03
#define RH_MRF89_IFGAIN_M9 0x02
#define RH_MRF89_IFGAIN_M4P5 0x01
#define RH_MRF89_IFGAIN_0 0x00
// DMODE1 and DMODE1:
#define RH_MRF89_OPMODE_CONTINUOUS 0x00
#define RH_MRF89_OPMODE_BUFFER RH_MRF89_DMODE0
#define RH_MRF89_OPMODE_PACKET RH_MRF89_DMODE1
//#define RH_MRF89_REG_03_BRSREG 0x03
#define RH_MRF89_BRVAL 0x7f
//#define RH_MRF89_REG_05_FIFOCREG 0x05
#define RH_MRF89_FSIZE 0xc0
#define RH_MRF89_FSIZE_64 0xc0
#define RH_MRF89_FSIZE_48 0x80
#define RH_MRF89_FSIZE_32 0x40
#define RH_MRF89_FSIZE_16 0x00
#define RH_MRF89_FTINT 0x3f
//#define RH_MRF89_REG_0C_PACREG 0x0c
#define RH_MRF89_PARC 0x18
#define RH_MRF89_PARC_23 0x18
#define RH_MRF89_PARC_15 0x10
#define RH_MRF89_PARC_8P5 0x08
#define RH_MRF89_PARC_3 0x00
//#define RH_MRF89_REG_0D_FTXRXIREG 0x0d
#define RH_MRF89_IRQ0RXS 0xc0
#define RH_MRF89_IRQ0RXS_CONT_RSSI 0x40
#define RH_MRF89_IRQ0RXS_CONT_SYNC 0x00
#define RH_MRF89_IRQ0RXS_BUFFER_SYNC 0xc0
#define RH_MRF89_IRQ0RXS_BUFFER_FIFOEMPTY 0x80
#define RH_MRF89_IRQ0RXS_BUFFER_WRITEBYTE 0x40
#define RH_MRF89_IRQ0RXS_BUFFER_NONE 0x00
#define RH_MRF89_IRQ0RXS_PACKET_SYNC 0xc0
#define RH_MRF89_IRQ0RXS_PACKET_FIFOEMPTY 0x80
#define RH_MRF89_IRQ0RXS_PACKET_WRITEBYTE 0x40
#define RH_MRF89_IRQ0RXS_PACKET_PLREADY 0x00
#define RH_MRF89_IRQ1RXS 0x30
#define RH_MRF89_IRQ1RXS_CONT_DCLK 0x00
#define RH_MRF89_IRQ1RXS_BUFFER_FIFO_THRESH 0x30
#define RH_MRF89_IRQ1RXS_BUFFER_RSSI 0x20
#define RH_MRF89_IRQ1RXS_BUFFER_FIFOFULL 0x10
#define RH_MRF89_IRQ1RXS_BUFFER_NONE 0x00
#define RH_MRF89_IRQ1RXS_PACKET_FIFO_THRESH 0x30
#define RH_MRF89_IRQ1RXS_PACKET_RSSI 0x20
#define RH_MRF89_IRQ1RXS_PACKET_FIFOFULL 0x10
#define RH_MRF89_IRQ1RXS_PACKET_CRCOK 0x00
#define RH_MRF89_IRQ1TX 0x08
#define RH_MRF89_FIFOFULL 0x04
#define RH_MRF89_FIFOEMPTY 0x02
#define RH_MRF89_FOVRUN 0x01
//#define RH_MRF89_REG_0E_FTPRIREG 0x0e
#define RH_MRF89_FIFOFM 0x80
#define RH_MRF89_FIFOFSC 0x40
#define RH_MRF89_TXDONE 0x20
#define RH_MRF89_IRQ0TXST 0x10
#define RH_MRF89_RIRQS 0x04
#define RH_MRF89_LSTSPLL 0x02
#define RH_MRF89_LENPLL 0x01
//#define RH_MRF89_REG_10_FILCREG 0x10
#define RH_MRF89_PASFILV 0xf0
#define RH_MRF89_PASFILV_987KHZ 0xf0
#define RH_MRF89_PASFILV_676KHZ 0xe0
#define RH_MRF89_PASFILV_514KHZ 0xd0
#define RH_MRF89_PASFILV_458KHZ 0xc0
#define RH_MRF89_PASFILV_414KHZ 0xb0
#define RH_MRF89_PASFILV_378KHZ 0xa0
#define RH_MRF89_PASFILV_321KHZ 0x90
#define RH_MRF89_PASFILV_262KHZ 0x80
#define RH_MRF89_PASFILV_234KHZ 0x70
#define RH_MRF89_PASFILV_211KHZ 0x60
#define RH_MRF89_PASFILV_184KHZ 0x50
#define RH_MRF89_PASFILV_157KHZ 0x40
#define RH_MRF89_PASFILV_137KHZ 0x30
#define RH_MRF89_PASFILV_109KHZ 0x20
#define RH_MRF89_PASFILV_82KHZ 0x10
#define RH_MRF89_PASFILV_65KHZ 0x00
#define RH_MRF89_BUTFILV 0x0f
#define RH_MRF89_BUTFILV_25KHZ 0x00
#define RH_MRF89_BUTFILV_50KHZ 0x01
#define RH_MRF89_BUTFILV_75KHZ 0x02
#define RH_MRF89_BUTFILV_100KHZ 0x03
#define RH_MRF89_BUTFILV_125KHZ 0x04
#define RH_MRF89_BUTFILV_150KHZ 0x05
#define RH_MRF89_BUTFILV_175KHZ 0x06
#define RH_MRF89_BUTFILV_200KHZ 0x07
#define RH_MRF89_BUTFILV_225KHZ 0x08
#define RH_MRF89_BUTFILV_250KHZ 0x09
#define RH_MRF89_BUTFILV_275KHZ 0x0a
#define RH_MRF89_BUTFILV_300KHZ 0x0b
#define RH_MRF89_BUTFILV_325KHZ 0x0c
#define RH_MRF89_BUTFILV_350KHZ 0x0d
#define RH_MRF89_BUTFILV_375KHZ 0x0e
#define RH_MRF89_BUTFILV_400KHZ 0x0f
//#define RH_MRF89_REG_11_PFCREG 0x11
#define RH_MRF89_POLCFV 0xf0
//#define RH_MRF89_REG_12_SYNCREG 0x12
#define RH_MRF89_POLFILEN 0x80
#define RH_MRF89_BSYNCEN 0x40
#define RH_MRF89_SYNCREN 0x20
#define RH_MRF89_SYNCWSZ 0x18
#define RH_MRF89_SYNCWSZ_32 0x18
#define RH_MRF89_SYNCWSZ_24 0x10
#define RH_MRF89_SYNCWSZ_16 0x08
#define RH_MRF89_SYNCWSZ_8 0x00
#define RH_MRF89_SYNCTEN 0x06
#define RH_MRF89_SYNCTEN_3 0x06
#define RH_MRF89_SYNCTEN_2 0x04
#define RH_MRF89_SYNCTEN_1 0x02
#define RH_MRF89_SYNCTEN_0 0x00
//#define RH_MRF89_REG_15_OOKCREG 0x15
#define RH_MRF89_OOTHSV 0xe0
#define RH_MRF89_OOTHSV_6P0DB 0xe0
#define RH_MRF89_OOTHSV_5P0DB 0xc0
#define RH_MRF89_OOTHSV_4P0DB 0xa0
#define RH_MRF89_OOTHSV_3P0DB 0x80
#define RH_MRF89_OOTHSV_2P0DB 0x60
#define RH_MRF89_OOTHSV_1P5DB 0x40
#define RH_MRF89_OOTHSV_1P0DB 0x20
#define RH_MRF89_OOTHSV_0P5DB 0x00
#define RH_MRF89_OOKTHPV 0x1c
#define RH_MRF89_OOKTHPV_16 0x1c
#define RH_MRF89_OOKTHPV_8 0x18
#define RH_MRF89_OOKTHPV_4 0x14
#define RH_MRF89_OOKTHPV_2 0x10
#define RH_MRF89_OOKTHPV_1_IN_8 0x0c
#define RH_MRF89_OOKTHPV_1_IN_4 0x08
#define RH_MRF89_OOKTHPV_1_IN_2 0x04
#define RH_MRF89_OOKTHPV_1_IN_1 0x00
#define RH_MRF89_OOKATHC 0x03
#define RH_MRF89_OOKATHC_32PI 0x03
#define RH_MRF89_OOKATHC_8PI 0x00
//#define RH_MRF89_REG_1A_TXCONREG 0x1a
#define RH_MRF89_TXIPOLFV 0xf0
#define RH_MRF89_TXOPVAL 0x0e
#define RH_MRF89_TXOPVAL_M8DBM 0x0e
#define RH_MRF89_TXOPVAL_M5DBM 0x0c
#define RH_MRF89_TXOPVAL_M2DBM 0x0a
#define RH_MRF89_TXOPVAL_1DBM 0x08
#define RH_MRF89_TXOPVAL_4DBM 0x06
#define RH_MRF89_TXOPVAL_7DBM 0x04
#define RH_MRF89_TXOPVAL_10DBM 0x02
#define RH_MRF89_TXOPVAL_13DBM 0x00
//#define RH_MRF89_REG_1B_CLKOREG 0x1b
#define RH_MRF89_CLKOCNTRL 0x80
#define RH_MRF89_CLKOFREQ 0x7c
//#define RH_MRF89_REG_1C_PLOADREG 0x1c
#define RH_MRF89_MCHSTREN 0x80
#define RH_MRF89_PLDPLEN 0x7f
//#define RH_MRF89_REG_1E_PKTCREG 0x1e
#define RH_MRF89_PKTLENF 0x80
#define RH_MRF89_PRESIZE 0x60
#define RH_MRF89_PRESIZE_4 0x60
#define RH_MRF89_PRESIZE_3 0x40
#define RH_MRF89_PRESIZE_2 0x20
#define RH_MRF89_PRESIZE_1 0x00
#define RH_MRF89_WHITEON 0x10
#define RH_MRF89_CHKCRCEN 0x08
#define RH_MRF89_ADDFIL 0x06
#define RH_MRF89_ADDFIL_NODEADDR_00_FF 0x06
#define RH_MRF89_ADDFIL_NODEADDR_00 0x04
#define RH_MRF89_ADDFIL_NODEADDR 0x02
#define RH_MRF89_ADDFIL_OFF 0x00
#define RH_MRF89_STSCRCEN 0x01
//#define RH_MRF89_REG_1F_FCRCREG 0x1f
#define RH_MRF89_ACFCRC 0x80
#define RH_MRF89_FRWAXS 0x40
/////////////////////////////////////////////////////////////////////
/// \class RH_MRF89 RH_MRF89.h <RH_MRF89.h>
/// \brief Send and receive unaddressed, unreliable datagrams by Microchip MRF89XA and compatible transceivers.
/// and modules.
///
/// The Microchip MRF89XA http://ww1.microchip.com/downloads/en/DeviceDoc/70622C.pdf is a low cost 900MHz
/// bancd transceiver chip.
/// It is commonly used on preassembled modules with supporting circcuits and antennas, such as
/// the MRF89XAM9A http://www.microchip.com/wwwproducts/Devices.aspx?product=MRF89XAM9A
/// This class supports all such modules
///
/// This base class provides basic functions for sending and receiving unaddressed, unreliable datagrams
/// of arbitrary length to 59 octets per packet. Use one of the Manager classes to get addressing and
/// acknowledgement reliability, routing, meshes etc.
///
/// Several MRF89XA modules can be connected to an Arduino, permitting the construction of translators
/// and frequency changers, etc. Each instance requires 2 chip select pins, and interrupt pin the standard 3 SPI pins.
///
/// Naturally, for any 2 radios to communicate that must be configured to use the same frequency and
/// data rate, and with identical network addresses.
///
/// Example Arduino programs are included to show the main modes of use.
///
/// All messages sent and received by this class conform to this packet format:
///
/// - 3 octets PREAMBLE
/// - 2 to 4 octets NETWORK ADDRESS (also call Sync Word)
/// - 1 octet message length bits packet control field
/// - 4 to 63 octets PAYLOAD, consisting of:
/// - 1 octet TO header
/// - 1 octet FROM header
/// - 1 octet ID header
/// - 1 octet FLAGS header
/// - 0 to 59 octets of user message
/// - 2 octets CRC
///
/// The payload is whitened. No Manchester encoding is used.
///
/// \par Connecting MRF89XA to Arduino
///
/// The electrical connection between the MRF89XA and the Arduino require 3.3V, the 3 x SPI pins (SCK, SDI, SDO),
/// a 2 Chip Select pins (/CSCON and /CSDAT) and an interrupt.
///
/// Caution: the MRF89XA is a 3.3V part and is not tolerant of 5V inputs. Connecting MRF89XA directly to a 5V
/// MCU such as most Arduinos will damage the MRF89XA.
///
/// Connect the MRF89XA to most 3.3V Arduinos or Teensy 3.1 like this (use 3.3V not 5V).
/// \code
/// Teensy MRF89XAM9A
/// 3.3V-----------VIN (3.3V in)
/// pin D9-----------/CSDAT (data chip select in)
/// SS pin D10----------/CSCON (configuration chip select in)
/// SCK pin D13----------SCK (SPI clock in)
/// MOSI pin D11----------SDI (SPI Data in)
/// MISO pin D12----------SDO (SPI data out)
/// D2-----------IRQ1 (Interrupt 1 output)
/// IRQ0 (Interrupt 0 output, not connected)
/// GND----------GND (ground in)
/// \endcode
/// You can use other pins for /CSDAT, /CSCON, IRQ1 by passing appropriate arguments to the constructor.
///
/// \par Example programs
///
/// Several example programs are provided.
///
class RH_MRF89 : public RHNRFSPIDriver
{
public:
/// \brief Defines register configuration values for a desired modulation
///
/// Defines values for various configuration fields and registers to
/// achieve a desired modulation speed and frequency deviation.
typedef struct
{
uint8_t MODSEL; ///< Value for MODSEL in RH_MRF89_REG_01_DMODREG
uint8_t FDVAL; ///< Value for FDVAL in RH_MRF89_REG_02_FDEVREG
uint8_t BRVAL; ///< Value for BRVAL RH_MRF89_REG_03_BRSREG
uint8_t FILCREG; ///< Value for PASFILV | BUTFILV in RH_MRF89_REG_10_FILCREG
uint8_t TXIPOLFV; ///< Value for TXIPOLFV in RH_MRF89_REG_1A_TXCONREG
} ModemConfig;
/// Choices for setModemConfig() for a selected subset of common
/// data rates and frequency deviations.
/// Rb is the data rate in kbps. Fd is the FSK Frequency deviation in kHz.
/// These are indexes into MODEM_CONFIG_TABLE. We strongly recommend you use these symbolic
/// definitions and not their integer equivalents: its possible that new values will be
/// introduced in later versions (though we will try to avoid it).
/// OOK is not yet supported.
/// Based on sample configs in MRF89XA.h from Microchip
typedef enum
{
FSK_Rb2Fd33 = 0, ///< FSK, No Manchester, Whitened, Rb = 2kbs, Fd = 33kHz
FSK_Rb5Fd33, ///< FSK, No Manchester, Whitened, Rb = 5kbs, Fd = 33kHz
FSK_Rb10Fd33, ///< FSK, No Manchester, Whitened, Rb = 10kbs, Fd = 33kHz
FSK_Rb20Fd40, ///< FSK, No Manchester, Whitened, Rb = 20kbs, Fd = 40kHz
FSK_Rb40Fd80, ///< FSK, No Manchester, Whitened, Rb = 40kbs, Fd = 80kHz
FSK_Rb50Fd100, ///< FSK, No Manchester, Whitened, Rb = 50kbs, Fd = 100kHz
FSK_Rb66Fd133, ///< FSK, No Manchester, Whitened, Rb = 66kbs, Fd = 133kHz
FSK_Rb100Fd200, ///< FSK, No Manchester, Whitened, Rb = 100kbs, Fd = 200kHz
FSK_Rb200Fd200 ///< FSK, No Manchester, Whitened, Rb = 200kbs, Fd = 200kHz
} ModemConfigChoice;
/// Constructor.
/// Constructor. You can have multiple instances, but each instance must have its own
/// interrupt and 2 slave select pins. After constructing, you must call init() to initialise the interface
/// and the radio module. A maximum of 3 instances can co-exist on one processor, provided there are sufficient
/// distinct interrupt lines, one for each instance.
/// \param[in] csconPin the Arduino pin number connected to the CSCON pin of the MRF89XA.
/// Defaults to the normal SS pin for your Arduino (D10 for Diecimila, Uno etc, D53 for Mega, D10 for Maple)
/// \param[in] csdatPin the Arduino pin number connected to the CSDAT pin of the MRF89XA.
/// Defaults to 9.
/// \param[in] interruptPin The interrupt Pin number that is connected to the IRQ1 pin of the MRF89XA.
/// Defaults to pin 2. (IRQ0 pin of the MRF89XA does not need to be connected).
/// \param[in] spi Pointer to the SPI interface object to use.
/// Defaults to the standard Arduino hardware SPI interface
RH_MRF89(uint8_t csconPin = SS, uint8_t csdatPin = 9, uint8_t interruptPin = 2, RHGenericSPI& spi = hardware_spi);
/// Initialise the Driver transport hardware and software.
/// Make sure the Driver is properly configured before calling init().
/// \return true if initialisation succeeded.
virtual bool init();
/// Prints the value of all chip registers
/// to the Serial device if RH_HAVE_SERIAL is defined for the current platform
/// For debugging purposes only.
/// \return true on success
bool printRegisters();
/// Sets the radio into low-power sleep mode.
/// If successful, the transport will stay in sleep mode until woken by
/// changing mode to idle, transmit or receive (eg by calling send(), recv(), available() etc)
/// Caution: there is a time penalty as the radio takes a finite time to wake from sleep mode.
/// \return true if sleep mode was successfully entered.
virtual bool sleep();
/// If current mode is Rx or Tx changes it to Idle. If the transmitter or receiver is running,
/// disables them.
void setModeIdle();
/// If current mode is Tx or Idle, changes it to Rx.
/// Starts the receiver in the radio.
// the next valid packet received will cause available() to be true.
void setModeRx();
/// If current mode is Rx or Idle, changes it to Rx. F
/// Starts the transmitter in the radio.
void setModeTx();
/// Sets the transmitter power output level in register RH_MRF89_REG_1A_TXCONREG.
/// Be a good neighbour and set the lowest power level you need.
/// After init(), the power will be set to RH_MRF89_TXOPVAL_1DBM (1dBm)
/// The highest power available is RH_MRF89_TXOPVAL_13DBM (13dBm)
/// Caution: In some countries you may only select certain higher power levels if you
/// are also using frequency hopping. Make sure you are aware of the legal
/// limitations and regulations in your region.
/// Caution: in some countries the maximum permitted power level may depend on the Bit rate
/// \param[in] power Transmitter power level, one of RH_MRF89_TXOPVAL*
void setTxPower(uint8_t power);
/// Select one of the predefined modem configurations. If you need a modem configuration not provided
/// here, use setModemRegisters() with your own ModemConfig.
/// \param[in] index The configuration choice.
/// \return true if index is a valid choice.
bool setModemConfig(ModemConfigChoice index);
/// Tests whether a new message is available
/// from the Driver.
/// On most drivers, this will also put the Driver into RHModeRx mode until
/// a message is actually received by the transport, when it will be returned to RHModeIdle.
/// This can be called multiple times in a timeout loop
/// \return true if a new, complete, error-free uncollected message is available to be retreived by recv()
virtual bool available();
/// Turns the receiver on if it not already on.
/// If there is a valid message available, copy it to buf and return true
/// else return false.
/// If a message is copied, *len is set to the length (Caution, 0 length messages are permitted).
/// You should be sure to call this function frequently enough to not miss any messages
/// It is recommended that you call it in your main loop.
/// \param[in] buf Location to copy the received message
/// \param[in,out] len Pointer to available space in buf. Set to the actual number of octets copied.
/// \return true if a valid message was copied to buf
virtual bool recv(uint8_t* buf, uint8_t* len);
/// Waits until any previous transmit packet is finished being transmitted with waitPacketSent().
/// Then loads a message into the transmitter and starts the transmitter. Note that a message length
/// of 0 is permitted.
/// \param[in] data Array of data to be sent
/// \param[in] len Number of bytes of data to send
/// \return true if the message length was valid and it was correctly queued for transmit
virtual bool send(const uint8_t* data, uint8_t len);
/// Returns the maximum message length
/// available in this Driver.
/// \return The maximum legal message length
virtual uint8_t maxMessageLength();
/// Sets the centre frequency in MHz.
/// Permitted ranges are: 902.0 to 928.0 and 950.0 to 960.0 (inclusive)
/// Caution not all freqs are supported on all modules: check your module specifications
/// Caution: not all available and supported frequencies are legal in every country: check
/// Regulatory Approval eg for MRF89XAM9A (in 75015B.pdf)
/// Australia 915.0 to 928.0
bool setFrequency(float centre);
/// Sets the length of the preamble
/// in bytes.
/// Caution: this should be set to the same
/// value on all nodes in your network. Default is 4.
/// Sets the message preamble length in RH_MRF89_REG_1E_PKTCREG
/// \param[in] bytes Preamble length in bytes of 8 bits each.
void setPreambleLength(uint8_t bytes);
/// Sets the sync words for transmit and receive in registers RH_MRF89_REG_16_SYNCV31REG
/// et seq.
/// Caution: SyncWords should be set to the same
/// value on all nodes in your network. Nodes with different SyncWords set will never receive
/// each others messages, so different SyncWords can be used to isolate different
/// networks from each other. Default is { 0x69, 0x81, 0x7e, 0x96 }.
/// Caution, sync words of 2 bytes and less do not work well with this chip.
/// \param[in] syncWords Array of sync words, 1 to 4 octets long
/// \param[in] len Number of sync words to set, 1 to 4.
void setSyncWords(const uint8_t* syncWords = NULL, uint8_t len = 0);
protected:
/// Called automatically when a CRCOK or TXDONE interrupt occurs.
/// Handles the interrupt.
void handleInterrupt();
/// Reads a single register from the MRF89XA
/// \param[in] reg Register number, one of RH_MRF89_REG
/// \return The value of the register
uint8_t spiReadRegister(uint8_t reg);
/// Writes to a single single register on the MRF89XA
/// \param[in] reg Register number, one of RH_MRF89_REG_*
/// \param[in] val The value to write
/// \return the current value of RH_MRF89_REG_00_GCONREG (read while the command is sent)
uint8_t spiWriteRegister(uint8_t reg, uint8_t val);
/// Writes a single byte to the MRF89XA data FIFO.
/// \param[in] data The data value to write
/// \return 0
uint8_t spiWriteData(uint8_t data);
/// Write a number of bytes from a buffer to the MRF89XA data FIFO.
/// \param[in] data Pointer to a buffer containing the len bytes to be written
/// \param[in] len The number of bytes to write to teh FIFO
/// \return 0;
uint8_t spiWriteData(const uint8_t* data, uint8_t len);
/// Reads a single byte from the MRF89XA data FIFO.
/// \return The next data byte in the FIFO
uint8_t spiReadData();
/// Sets the operating mode in the CMOD bits in RH_MRF89_REG_00_GCONREG
/// which controls what mode the MRF89XA is running in
/// \param[in] mode One of RH_MRF89_CMOD_*
void setOpMode(uint8_t mode);
/// Verifies that the MRF89XA PLL has locked on the slected frequency.
/// This needs to be called if the frequency is changed
bool verifyPLLLock();
/// Examine the revceive buffer to determine whether the message is for this node
void validateRxBuf();
/// Clear our local receive buffer
void clearRxBuf();
private:
/// Low level interrupt service routine for device connected to interrupt 0
static void isr0();
/// Low level interrupt service routine for device connected to interrupt 1
static void isr1();
/// Low level interrupt service routine for device connected to interrupt 1
static void isr2();
/// Array of instances connected to interrupts 0 and 1
static RH_MRF89* _deviceForInterrupt[];
/// Index of next interrupt number to use in _deviceForInterrupt
static uint8_t _interruptCount;
// Sigh: this chip has 2 differnt chip selects.
// We have to set one or the other as the SPI slave select pin depending
// on which block of registers we are accessing
uint8_t _csconPin;
uint8_t _csdatPin;
/// The configured interrupt pin connected to this instance
uint8_t _interruptPin;
/// The index into _deviceForInterrupt[] for this device (if an interrupt is already allocated)
/// else 0xff
uint8_t _myInterruptIndex;
/// Number of octets in the buffer
volatile uint8_t _bufLen;
/// The receiver/transmitter buffer
uint8_t _buf[RH_MRF89_MAX_PAYLOAD_LEN];
/// True when there is a valid message in the buffer
volatile bool _rxBufValid;
};
/// @example mrf89_client.pde
/// @example mrf89_server.pde
#endif