Statistics
| Branch: | Tag: | Revision:

amiro-lld / drivers / DW1000 / v1 / alld_DW1000_regs.h @ ed9a1bf5

History | View | Annotate | Download (79.928 KB)

1
/*! ------------------------------------------------------------------------------------------------------------------
2
 * @file    deca_regs.h
3
 * @brief   DW1000 Register Definitions
4
 *          This file supports assembler and C development for DW1000 enabled devices
5
 *
6
 * @attention
7
 *
8
 * Copyright 2013 (c) Decawave Ltd, Dublin, Ireland.
9
 *
10
 * All rights reserved.
11
 *
12
 */
13

    
14
#ifndef DECA_REGS_H
15
#define DECA_REGS_H
16

    
17
#ifdef __cplusplus
18
extern "C" {
19
#endif
20

    
21
#include <amiro-lld.h>
22

    
23
/****************************************************************************//**
24
 * @brief Bit definitions for register DEV_ID
25
**/
26
#define DEV_ID_ID               0x00            /* Device ID register, includes revision info (0xDECA0130) */
27
#define DEV_ID_LEN              (4)
28
/* mask and shift */
29
#define DEV_ID_REV_MASK         0x0000000FUL    /* Revision */
30
#define DEV_ID_VER_MASK         0x000000F0UL    /* Version */
31
#define DEV_ID_MODEL_MASK       0x0000FF00UL    /* The MODEL identifies the device. The DW1000 is device type 0x01 */
32
#define DEV_ID_RIDTAG_MASK      0xFFFF0000UL    /* Register Identification Tag 0XDECA */
33

    
34
/****************************************************************************//**
35
 * @brief Bit definitions for register EUI_64
36
**/
37
#define EUI_64_ID               0x01            /* IEEE Extended Unique Identifier (63:0) */
38
#define EUI_64_OFFSET           0x00
39
#define EUI_64_LEN              (8)
40

    
41
/****************************************************************************//**
42
 * @brief Bit definitions for register PANADR
43
**/
44
#define PANADR_ID               0x03            /* PAN ID (31:16) and Short Address (15:0) */
45
#define PANADR_LEN              (4)
46
/*mask and shift */
47
#define PANADR_SHORT_ADDR_OFFSET 0              /* In bytes */
48
#define PANADR_SHORT_ADDR_MASK  0x0000FFFFUL    /* Short Address */
49
#define PANADR_PAN_ID_OFFSET     2              /* In bytes */
50
#define PANADR_PAN_ID_MASK      0xFFFF00F0UL    /* PAN Identifier */
51

    
52
/****************************************************************************//**
53
 * @brief Bit definitions for register 0x05
54
**/
55
#define REG_05_ID_RESERVED      0x05
56

    
57
/****************************************************************************//**
58
 * @brief Bit definitions for register SYS_CFG
59
**/
60
#define SYS_CFG_ID              0x04            /* System Configuration (31:0) */
61
#define SYS_CFG_LEN             (4)
62
/*mask and shift */
63
#define SYS_CFG_MASK            0xF047FFFFUL    /* access mask to SYS_CFG_ID */
64
#define SYS_CFG_FF_ALL_EN       0x000001FEUL    /* Frame filtering options all frames allowed */
65
/*offset 0 */
66
#define SYS_CFG_FFE             0x00000001UL    /* Frame Filtering Enable. This bit enables the frame filtering functionality */
67
#define SYS_CFG_FFBC            0x00000002UL    /* Frame Filtering Behave as a Co-ordinator */
68
#define SYS_CFG_FFAB            0x00000004UL    /* Frame Filtering Allow Beacon frame reception */
69
#define SYS_CFG_FFAD            0x00000008UL    /* Frame Filtering Allow Data frame reception */
70
#define SYS_CFG_FFAA            0x00000010UL    /* Frame Filtering Allow Acknowledgment frame reception */
71
#define SYS_CFG_FFAM            0x00000020UL    /* Frame Filtering Allow MAC command frame reception */
72
#define SYS_CFG_FFAR            0x00000040UL    /* Frame Filtering Allow Reserved frame types */
73
#define SYS_CFG_FFA4            0x00000080UL    /* Frame Filtering Allow frames with frame type field of 4, (binary 100) */
74
/*offset 8 */
75
#define SYS_CFG_FFA5            0x00000100UL    /* Frame Filtering Allow frames with frame type field of 5, (binary 101) */
76
#define SYS_CFG_HIRQ_POL        0x00000200UL    /* Host interrupt polarity */
77
#define SYS_CFG_SPI_EDGE        0x00000400UL    /* SPI data launch edge */
78
#define SYS_CFG_DIS_FCE         0x00000800UL    /* Disable frame check error handling */
79
#define SYS_CFG_DIS_DRXB        0x00001000UL    /* Disable Double RX Buffer */
80
#define SYS_CFG_DIS_PHE         0x00002000UL    /* Disable receiver abort on PHR error */
81
#define SYS_CFG_DIS_RSDE        0x00004000UL    /* Disable Receiver Abort on RSD error */
82
#define SYS_CFG_FCS_INIT2F      0x00008000UL    /* initial seed value for the FCS generation and checking function */
83
/*offset 16 */
84
#define SYS_CFG_PHR_MODE_SHFT   16
85
#define SYS_CFG_PHR_MODE_00     0x00000000UL    /* Standard Frame mode */
86
#define SYS_CFG_PHR_MODE_11     0x00030000UL    /* Long Frames mode */
87
#define SYS_CFG_DIS_STXP        0x00040000UL    /* Disable Smart TX Power control */
88
#define SYS_CFG_RXM110K         0x00400000UL    /* Receiver Mode 110 kbps data rate */
89
/*offset 24 */
90
#define SYS_CFG_RXWTOE          0x10000000UL    /* Receive Wait Timeout Enable. */
91
#define SYS_CFG_RXAUTR          0x20000000UL    /* Receiver Auto-Re-enable. This bit is used to cause the receiver to re-enable automatically */
92
#define SYS_CFG_AUTOACK         0x40000000UL    /* Automatic Acknowledgement Enable */
93
#define SYS_CFG_AACKPEND        0x80000000UL    /* Automatic Acknowledgement Pending bit control */
94

    
95

    
96
/****************************************************************************//**
97
 * @brief Bit definitions for register SYS_TIME
98
**/
99
#define SYS_TIME_ID             0x06            /* System Time Counter (40-bit) */
100
#define SYS_TIME_OFFSET         0x00
101
#define SYS_TIME_LEN            (5)             /* Note 40 bit register */
102

    
103

    
104
/****************************************************************************//**
105
 * @brief Bit definitions for register  0x07
106
**/
107
#define REG_07_ID_RESERVED      0x07
108

    
109
/****************************************************************************//**
110
 * @brief Bit definitions for register TX_FCTRL
111
**/
112
#define TX_FCTRL_ID             0x08            /* Transmit Frame Control */
113
#define TX_FCTRL_LEN            (5)             /* Note 40 bit register */
114
/*masks (low 32 bit) */
115
#define TX_FCTRL_TFLEN_MASK     0x0000007FUL    /* bit mask to access Transmit Frame Length */
116
#define TX_FCTRL_TFLE_MASK      0x00000380UL    /* bit mask to access Transmit Frame Length Extension */
117
#define TX_FCTRL_FLE_MASK       0x000003FFUL    /* bit mask to access Frame Length field */
118
#define TX_FCTRL_TXBR_MASK      0x00006000UL    /* bit mask to access Transmit Bit Rate */
119
#define TX_FCTRL_TXPRF_MASK     0x00030000UL    /* bit mask to access Transmit Pulse Repetition Frequency */
120
#define TX_FCTRL_TXPSR_MASK     0x000C0000UL    /* bit mask to access Transmit Preamble Symbol Repetitions (PSR). */
121
#define TX_FCTRL_PE_MASK        0x00300000UL    /* bit mask to access Preamble Extension */
122
#define TX_FCTRL_TXPSR_PE_MASK  0x003C0000UL    /* bit mask to access Transmit Preamble Symbol Repetitions (PSR). */
123
#define TX_FCTRL_SAFE_MASK_32   0xFFFFE3FFUL    /* FSCTRL has fields which should always be writen zero */
124
/*offset 0 */
125
/*offset 8 */
126
#define TX_FCTRL_TXBR_110k      0x00000000UL    /* Transmit Bit Rate = 110k */
127
#define TX_FCTRL_TXBR_850k      0x00002000UL    /* Transmit Bit Rate = 850k */
128
#define TX_FCTRL_TXBR_6M        0x00004000UL    /* Transmit Bit Rate = 6.8M */
129
#define TX_FCTRL_TXBR_SHFT      (13)            /* shift to access Data Rate field */
130
#define TX_FCTRL_TR             0x00008000UL    /* Transmit Ranging enable */
131
#define TX_FCTRL_TR_SHFT        (15)            /* shift to access Ranging bit */
132
/*offset 16 */
133
#define TX_FCTRL_TXPRF_SHFT     (16)            /* shift to access Pulse Repetition Frequency field */
134
#define TX_FCTRL_TXPRF_4M       0x00000000UL    /* Transmit Pulse Repetition Frequency = 4 Mhz */
135
#define TX_FCTRL_TXPRF_16M      0x00010000UL    /* Transmit Pulse Repetition Frequency = 16 Mhz */
136
#define TX_FCTRL_TXPRF_64M      0x00020000UL    /* Transmit Pulse Repetition Frequency = 64 Mhz */
137
#define TX_FCTRL_TXPSR_SHFT     (18)            /* shift to access Preamble Symbol Repetitions field */
138
#define TX_FCTRL_PE_SHFT        (20)            /* shift to access Preamble length Extension to allow specification of non-standard values */
139
#define TX_FCTRL_TXPSR_PE_16    0x00000000UL    /* bit mask to access Preamble Extension = 16 */
140
#define TX_FCTRL_TXPSR_PE_64    0x00040000UL    /* bit mask to access Preamble Extension = 64 */
141
#define TX_FCTRL_TXPSR_PE_128   0x00140000UL    /* bit mask to access Preamble Extension = 128 */
142
#define TX_FCTRL_TXPSR_PE_256   0x00240000UL    /* bit mask to access Preamble Extension = 256 */
143
#define TX_FCTRL_TXPSR_PE_512   0x00340000UL    /* bit mask to access Preamble Extension = 512 */
144
#define TX_FCTRL_TXPSR_PE_1024  0x00080000UL    /* bit mask to access Preamble Extension = 1024 */
145
#define TX_FCTRL_TXPSR_PE_1536  0x00180000UL    /* bit mask to access Preamble Extension = 1536 */
146
#define TX_FCTRL_TXPSR_PE_2048  0x00280000UL    /* bit mask to access Preamble Extension = 2048 */
147
#define TX_FCTRL_TXPSR_PE_4096  0x000C0000UL    /* bit mask to access Preamble Extension = 4096 */
148
/*offset 22 */
149
#define TX_FCTRL_TXBOFFS_SHFT   (22)            /* Shift to access transmit buffer index offset */
150
#define TX_FCTRL_TXBOFFS_MASK   0xFFC00000UL    /* bit mask to access Transmit buffer index offset 10-bit field */
151
/*offset 32 */
152
#define TX_FCTRL_IFSDELAY_MASK  0xFF00000000ULL /* bit mask to access Inter-Frame Spacing field */
153

    
154
/****************************************************************************//**
155
 * @brief Bit definitions for register TX_BUFFER
156
**/
157
#define TX_BUFFER_ID            0x09            /* Transmit Data Buffer */
158
#define TX_BUFFER_LEN           (1024)
159

    
160
/****************************************************************************//**
161
 * @brief Bit definitions for register  DX_TIME
162
**/
163
#define DX_TIME_ID              0x0A            /* Delayed Send or Receive Time (40-bit) */
164
#define DX_TIME_LEN             (5)
165

    
166
/****************************************************************************//**
167
 * @brief Bit definitions for register 0x08
168
**/
169
#define REG_0B_ID_RESERVED      0x0B
170

    
171
/****************************************************************************//**
172
 * @brief Bit definitions for register RX_FWTO
173
**/
174
#define RX_FWTO_ID              0x0C            /* Receive Frame Wait Timeout Period */
175
#define RX_FWTO_OFFSET          0x00
176
#define RX_FWTO_LEN             (2)             /* doc bug*/
177
/*mask and shift */
178
#define RX_FWTO_MASK            0xFFFF
179

    
180
/****************************************************************************//**
181
 * @brief Bit definitions for register SYS_CTRL
182
**/
183
#define SYS_CTRL_ID             0x0D            /* System Control Register */
184
#define SYS_CTRL_OFFSET         0x00
185
#define SYS_CTRL_LEN            (4)
186
/*masks */
187
#define SYS_CTRL_MASK_32        0x010003CFUL    /* System Control Register access mask (all unused fields should always be writen as zero) */
188
/*offset 0 */
189
#define SYS_CTRL_SFCST          0x00000001UL    /* Suppress Auto-FCS Transmission (on this frame) */
190
#define SYS_CTRL_TXSTRT         0x00000002UL    /* Start Transmitting Now */
191
#define SYS_CTRL_TXDLYS         0x00000004UL    /* Transmitter Delayed Sending (initiates sending when SYS_TIME == TXD_TIME */
192
#define SYS_CTRL_CANSFCS        0x00000008UL    /* Cancel Suppression of auto-FCS transmission (on the current frame) */
193
#define SYS_CTRL_TRXOFF         0x00000040UL    /* Transceiver Off. Force Transciever OFF abort TX or RX immediately */
194
#define SYS_CTRL_WAIT4RESP      0x00000080UL    /* Wait for Response */
195
/*offset 8 */
196
#define SYS_CTRL_RXENAB         0x00000100UL    /* Enable Receiver Now */
197
#define SYS_CTRL_RXDLYE         0x00000200UL    /* Receiver Delayed Enable (Enables Receiver when SY_TIME[0x??] == RXD_TIME[0x??] CHECK comment*/
198
/*offset 16 */
199
/*offset 24 */
200
#define SYS_CTRL_HSRBTOGGLE     0x01000000UL    /* Host side receiver buffer pointer toggle - toggles 0/1 host side data set pointer */
201
#define SYS_CTRL_HRBT           (SYS_CTRL_HSRBTOGGLE)
202
#define SYS_CTRL_HRBT_OFFSET    (3)
203

    
204
/****************************************************************************//**
205
 * @brief Bit definitions for register  SYS_MASK
206
**/
207
#define SYS_MASK_ID             0x0E            /* System Event Mask Register */
208
#define SYS_MASK_LEN            (4)
209
/*masks */
210
#define SYS_MASK_MASK_32        0x3FF7FFFEUL    /* System Event Mask Register access mask (all unused fields should always be writen as zero) */
211
/*offset 0 */
212
#define SYS_MASK_MCPLOCK        0x00000002UL    /* Mask clock PLL lock event    */
213
#define SYS_MASK_MESYNCR        0x00000004UL    /* Mask clock PLL lock event    */
214
#define SYS_MASK_MAAT           0x00000008UL    /* Mask automatic acknowledge trigger event */
215
#define SYS_MASK_MTXFRB         0x00000010UL    /* Mask transmit frame begins event */
216
#define SYS_MASK_MTXPRS         0x00000020UL    /* Mask transmit preamble sent event    */
217
#define SYS_MASK_MTXPHS         0x00000040UL    /* Mask transmit PHY Header Sent event  */
218
#define SYS_MASK_MTXFRS         0x00000080UL    /* Mask transmit frame sent event   */
219
/*offset 8 */
220
#define SYS_MASK_MRXPRD         0x00000100UL    /* Mask receiver preamble detected event    */
221
#define SYS_MASK_MRXSFDD        0x00000200UL    /* Mask receiver SFD detected event */
222
#define SYS_MASK_MLDEDONE       0x00000400UL    /* Mask LDE processing done event   */
223
#define SYS_MASK_MRXPHD         0x00000800UL    /* Mask receiver PHY header detect event    */
224
#define SYS_MASK_MRXPHE         0x00001000UL    /* Mask receiver PHY header error event */
225
#define SYS_MASK_MRXDFR         0x00002000UL    /* Mask receiver data frame ready event */
226
#define SYS_MASK_MRXFCG         0x00004000UL    /* Mask receiver FCS good event */
227
#define SYS_MASK_MRXFCE         0x00008000UL    /* Mask receiver FCS error event    */
228
/*offset 16 */
229
#define SYS_MASK_MRXRFSL        0x00010000UL    /* Mask receiver Reed Solomon Frame Sync Loss event */
230
#define SYS_MASK_MRXRFTO        0x00020000UL    /* Mask Receive Frame Wait Timeout event    */
231
#define SYS_MASK_MLDEERR        0x00040000UL    /* Mask leading edge detection processing error event   */
232
#define SYS_MASK_MRXOVRR        0x00100000UL    /* Mask Receiver Overrun event  */
233
#define SYS_MASK_MRXPTO         0x00200000UL    /* Mask Preamble detection timeout event    */
234
#define SYS_MASK_MGPIOIRQ       0x00400000UL    /* Mask GPIO interrupt event    */
235
#define SYS_MASK_MSLP2INIT      0x00800000UL    /* Mask SLEEP to INIT event */
236
/*offset 24*/
237
#define SYS_MASK_MRFPLLLL       0x01000000UL    /* Mask RF PLL Loosing Lock warning event   */
238
#define SYS_MASK_MCPLLLL        0x02000000UL    /* Mask Clock PLL Loosing Lock warning event    */
239
#define SYS_MASK_MRXSFDTO       0x04000000UL    /* Mask Receive SFD timeout event   */
240
#define SYS_MASK_MHPDWARN       0x08000000UL    /* Mask Half Period Delay Warning event */
241
#define SYS_MASK_MTXBERR        0x10000000UL    /* Mask Transmit Buffer Error event */
242
#define SYS_MASK_MAFFREJ        0x20000000UL    /* Mask Automatic Frame Filtering rejection event   */
243

    
244
/****************************************************************************//**
245
 * @brief Bit definitions for register SYS_STATUS
246
**/
247
#define SYS_STATUS_ID           0x0F            /* System event Status Register */
248
#define SYS_STATUS_OFFSET       0x00
249
#define SYS_STATUS_LEN          (5)             /* Note 40 bit register */
250
/*masks */
251
#define SYS_STATUS_MASK_32      0xFFF7FFFFUL    /* System event Status Register access mask (all unused fields should always be writen as zero) */
252
/*offset 0 */
253
#define SYS_STATUS_IRQS         0x00000001UL    /* Interrupt Request Status READ ONLY */
254
#define SYS_STATUS_CPLOCK       0x00000002UL    /* Clock PLL Lock */
255
#define SYS_STATUS_ESYNCR       0x00000004UL    /* External Sync Clock Reset */
256
#define SYS_STATUS_AAT          0x00000008UL    /* Automatic Acknowledge Trigger */
257
#define SYS_STATUS_TXFRB        0x00000010UL    /* Transmit Frame Begins */
258
#define SYS_STATUS_TXPRS        0x00000020UL    /* Transmit Preamble Sent */
259
#define SYS_STATUS_TXPHS        0x00000040UL    /* Transmit PHY Header Sent */
260
#define SYS_STATUS_TXFRS        0x00000080UL    /* Transmit Frame Sent: This is set when the transmitter has completed the sending of a frame */
261
/*offset 8 */
262
#define SYS_STATUS_RXPRD        0x00000100UL    /* Receiver Preamble Detected status */
263
#define SYS_STATUS_RXSFDD       0x00000200UL    /* Receiver Start Frame Delimiter Detected. */
264
#define SYS_STATUS_LDEDONE      0x00000400UL    /* LDE processing done */
265
#define SYS_STATUS_RXPHD        0x00000800UL    /* Receiver PHY Header Detect */
266
#define SYS_STATUS_RXPHE        0x00001000UL    /* Receiver PHY Header Error */
267
#define SYS_STATUS_RXDFR        0x00002000UL    /* Receiver Data Frame Ready */
268
#define SYS_STATUS_RXFCG        0x00004000UL    /* Receiver FCS Good */
269
#define SYS_STATUS_RXFCE        0x00008000UL    /* Receiver FCS Error */
270
/*offset 16 */
271
#define SYS_STATUS_RXRFSL       0x00010000UL    /* Receiver Reed Solomon Frame Sync Loss */
272
#define SYS_STATUS_RXRFTO       0x00020000UL    /* Receive Frame Wait Timeout */
273
#define SYS_STATUS_LDEERR       0x00040000UL    /* Leading edge detection processing error */
274
#define SYS_STATUS_reserved     0x00080000UL    /* bit19 reserved */
275
#define SYS_STATUS_RXOVRR       0x00100000UL    /* Receiver Overrun */
276
#define SYS_STATUS_RXPTO        0x00200000UL    /* Preamble detection timeout */
277
#define SYS_STATUS_GPIOIRQ      0x00400000UL    /* GPIO interrupt */
278
#define SYS_STATUS_SLP2INIT     0x00800000UL    /* SLEEP to INIT */
279
/*offset 24 */
280
#define SYS_STATUS_RFPLL_LL     0x01000000UL    /* RF PLL Losing Lock */
281
#define SYS_STATUS_CLKPLL_LL    0x02000000UL    /* Clock PLL Losing Lock */
282
#define SYS_STATUS_RXSFDTO      0x04000000UL    /* Receive SFD timeout */
283
#define SYS_STATUS_HPDWARN      0x08000000UL    /* Half Period Delay Warning */
284
#define SYS_STATUS_TXBERR       0x10000000UL    /* Transmit Buffer Error */
285
#define SYS_STATUS_AFFREJ       0x20000000UL    /* Automatic Frame Filtering rejection */
286
#define SYS_STATUS_HSRBP        0x40000000UL    /* Host Side Receive Buffer Pointer */
287
#define SYS_STATUS_ICRBP        0x80000000UL    /* IC side Receive Buffer Pointer READ ONLY */
288
/*offset 32 */
289
#define SYS_STATUS_RXRSCS       0x0100000000ULL /* Receiver Reed-Solomon Correction Status */
290
#define SYS_STATUS_RXPREJ       0x0200000000ULL /* Receiver Preamble Rejection */
291
#define SYS_STATUS_TXPUTE       0x0400000000ULL /* Transmit power up time error */
292

    
293
#define SYS_STATUS_TXERR        (0x0408)        /* These bits are the 16 high bits of status register TXPUTE and HPDWARN flags */
294

    
295
/* All RX events after a correct packet reception mask. */
296
#define SYS_STATUS_ALL_RX_GOOD (SYS_STATUS_RXDFR | SYS_STATUS_RXFCG | SYS_STATUS_RXPRD | \
297
                                SYS_STATUS_RXSFDD | SYS_STATUS_RXPHD | SYS_STATUS_LDEDONE)
298

    
299
/* All double buffer events mask. */
300
#define SYS_STATUS_ALL_DBLBUFF (SYS_STATUS_RXDFR | SYS_STATUS_RXFCG)
301

    
302
/* All RX errors mask. */
303
#define SYS_STATUS_ALL_RX_ERR  (SYS_STATUS_RXPHE | SYS_STATUS_RXFCE | SYS_STATUS_RXRFSL | SYS_STATUS_RXSFDTO \
304
                                | SYS_STATUS_AFFREJ | SYS_STATUS_LDEERR)
305

    
306
/* User defined RX timeouts (frame wait timeout and preamble detect timeout) mask. */
307
#define SYS_STATUS_ALL_RX_TO   (SYS_STATUS_RXRFTO | SYS_STATUS_RXPTO)
308

    
309
/* All TX events mask. */
310
#define SYS_STATUS_ALL_TX      (SYS_STATUS_AAT | SYS_STATUS_TXFRB | SYS_STATUS_TXPRS | \
311
                                SYS_STATUS_TXPHS | SYS_STATUS_TXFRS )
312

    
313

    
314
/****************************************************************************//**
315
 * @brief Bit definitions for register RX_FINFO
316
**/
317
#define RX_FINFO_ID             0x10            /* RX Frame Information (in double buffer set) */
318
#define RX_FINFO_OFFSET         0x00
319
#define RX_FINFO_LEN            (4)
320
/*mask and shift */
321
#define RX_FINFO_MASK_32        0xFFFFFBFFUL    /* System event Status Register access mask (all unused fields should always be writen as zero) */
322
#define RX_FINFO_RXFLEN_MASK    0x0000007FUL    /* Receive Frame Length (0 to 127) */
323
#define RX_FINFO_RXFLE_MASK     0x00000380UL    /* Receive Frame Length Extension (0 to 7)<<7 */
324
#define RX_FINFO_RXFL_MASK_1023 0x000003FFUL    /* Receive Frame Length Extension (0 to 1023) */
325

    
326
#define RX_FINFO_RXNSPL_MASK    0x00001800UL    /* Receive Non-Standard Preamble Length */
327
#define RX_FINFO_RXPSR_MASK     0x000C0000UL    /* RX Preamble Repetition. 00 = 16 symbols, 01 = 64 symbols, 10 = 1024 symbols, 11 = 4096 symbols */
328

    
329
#define RX_FINFO_RXPEL_MASK     0x000C1800UL    /* Receive Preamble Length = RXPSR+RXNSPL */
330
#define RX_FINFO_RXPEL_64       0x00040000UL    /* Receive Preamble length = 64 */
331
#define RX_FINFO_RXPEL_128      0x00040800UL    /* Receive Preamble length = 128 */
332
#define RX_FINFO_RXPEL_256      0x00041000UL    /* Receive Preamble length = 256 */
333
#define RX_FINFO_RXPEL_512      0x00041800UL    /* Receive Preamble length = 512 */
334
#define RX_FINFO_RXPEL_1024     0x00080000UL    /* Receive Preamble length = 1024 */
335
#define RX_FINFO_RXPEL_1536     0x00080800UL    /* Receive Preamble length = 1536 */
336
#define RX_FINFO_RXPEL_2048     0x00081000UL    /* Receive Preamble length = 2048 */
337
#define RX_FINFO_RXPEL_4096     0x000C0000UL    /* Receive Preamble length = 4096 */
338

    
339
#define RX_FINFO_RXBR_MASK      0x00006000UL    /* Receive Bit Rate report. This field reports the received bit rate */
340
#define RX_FINFO_RXBR_110k      0x00000000UL    /* Received bit rate = 110 kbps */
341
#define RX_FINFO_RXBR_850k      0x00002000UL    /* Received bit rate = 850 kbps */
342
#define RX_FINFO_RXBR_6M        0x00004000UL    /* Received bit rate = 6.8 Mbps */
343
#define RX_FINFO_RXBR_SHIFT     (13)
344

    
345
#define RX_FINFO_RNG            0x00008000UL    /* Receiver Ranging. Ranging bit in the received PHY header identifying the frame as a ranging packet. */
346
#define RX_FINFO_RNG_SHIFT      (15)
347

    
348
#define RX_FINFO_RXPRF_MASK     0x00030000UL    /* RX Pulse Repetition Rate report */
349
#define RX_FINFO_RXPRF_16M      0x00010000UL    /* PRF being employed in the receiver = 16M */
350
#define RX_FINFO_RXPRF_64M      0x00020000UL    /* PRF being employed in the receiver = 64M */
351
#define RX_FINFO_RXPRF_SHIFT    (16)
352

    
353
#define RX_FINFO_RXPACC_MASK    0xFFF00000UL    /* Preamble Accumulation Count */
354
#define RX_FINFO_RXPACC_SHIFT   (20)
355

    
356

    
357
/****************************************************************************//**
358
 * @brief Bit definitions for register RX_BUFFER
359
**/
360
#define RX_BUFFER_ID            0x11            /* Receive Data Buffer (in double buffer set) */
361
#define RX_BUFFER_LEN           (1024)
362

    
363

    
364
/****************************************************************************//**
365
 * @brief Bit definitions for register RX_FQUAL
366
**/
367
#define RX_FQUAL_ID             0x12            /* Rx Frame Quality information (in double buffer set) */
368
#define RX_FQUAL_LEN            (8)             /* note 64 bit register*/
369
/*mask and shift */
370
/*offset 0 */
371
#define RX_EQUAL_STD_NOISE_MASK 0x0000FFFFULL   /* Standard Deviation of Noise */
372
#define RX_EQUAL_STD_NOISE_SHIFT (0)
373
#define STD_NOISE_MASK          RX_EQUAL_STD_NOISE_MASK
374
#define STD_NOISE_SHIFT         RX_EQUAL_STD_NOISE_SHIFT
375
/*offset 16 */
376
#define RX_EQUAL_FP_AMPL2_MASK  0xFFFF0000ULL   /* First Path Amplitude point 2 */
377
#define RX_EQUAL_FP_AMPL2_SHIFT (16)
378
#define FP_AMPL2_MASK           RX_EQUAL_FP_AMPL2_MASK
379
#define FP_AMPL2_SHIFT          RX_EQUAL_FP_AMPL2_SHIFT
380
/*offset 32*/
381
#define RX_EQUAL_PP_AMPL3_MASK  0x0000FFFF00000000ULL   /* First Path Amplitude point 3 */
382
#define RX_EQUAL_PP_AMPL3_SHIFT (32)
383
#define PP_AMPL3_MASK           RX_EQUAL_PP_AMPL3_MASK
384
#define PP_AMPL3_SHIFT          RX_EQUAL_PP_AMPL3_SHIFT
385
/*offset 48*/
386
#define RX_EQUAL_CIR_MXG_MASK   0xFFFF000000000000ULL   /* Channel Impulse Response Max Growth */
387
#define RX_EQUAL_CIR_MXG_SHIFT  (48)
388
#define CIR_MXG_MASK            RX_EQUAL_CIR_MXG_MASK
389
#define CIR_MXG_SHIFT           RX_EQUAL_CIR_MXG_SHIFT
390

    
391

    
392

    
393
/****************************************************************************//**
394
 * @brief Bit definitions for register RX_TTCKI
395
 *      The value here is the interval over which the timing offset reported
396
 *      in the RXTOFS field of Register file: 0x14 RX_TTCKO is measured.
397
 *      The clock offset is calculated by dividing RXTTCKI by RXTOFS.
398
 *      The value in RXTTCKI will take just one of two values depending on the PRF: 0x01F00000 @ 16 MHz PRF,
399
 *      and 0x01FC0000 @ 64 MHz PRF.
400
**/
401
#define RX_TTCKI_ID             0x13            /* Receiver Time Tracking Interval (in double buffer set) */
402
#define RX_TTCKI_LEN            (4)
403

    
404
/****************************************************************************//**
405
 * @brief Bit definitions for register RX_TTCKO
406
**/
407
#define RX_TTCKO_ID             0x14            /* Receiver Time Tracking Offset (in double buffer set) */
408
#define RX_TTCKO_LEN            (5)             /* Note 40 bit register */
409
/*mask and shift */
410
#define RX_TTCKO_MASK_32        0xFF07FFFFUL    /* Receiver Time Tracking Offset access mask (all unused fields should always be writen as zero) */
411
/*offset 0 */
412
#define RX_TTCKO_RXTOFS_MASK    0x0007FFFFUL    /* RX time tracking offset. This RXTOFS value is a 19-bit signed quantity*/
413
/*offset 24 */
414
#define RX_TTCKO_RSMPDEL_MASK   0xFF000000UL    /* This 8-bit field reports an internal re-sampler delay value */
415
/*offset 32 */
416
#define RX_TTCKO_RCPHASE_MASK   0x7F0000000000ULL   /* This 7-bit field reports the receive carrier phase adjustment at time the ranging timestamp is made. */
417

    
418

    
419
/****************************************************************************//**
420
 * @brief Bit definitions for register RX_TIME
421
**/
422
#define RX_TIME_ID              0x15            /* Receive Message Time of Arrival (in double buffer set) */
423
#define RX_TIME_LLEN            (14)
424
#define RX_TIME_RX_STAMP_LEN    (5)             /* read only 5 bytes (the adjusted timestamp (40:0)) */
425
#define RX_STAMP_LEN            RX_TIME_RX_STAMP_LEN
426
/*mask and shift */
427
#define RX_TIME_RX_STAMP_OFFSET  (0) /* byte 0..4 40 bit Reports the fully adjusted time of reception. */
428
#define RX_TIME_FP_INDEX_OFFSET  (5)    /* byte 5..6 16 bit First path index. */
429
#define RX_TIME_FP_AMPL1_OFFSET  (7)    /* byte 7..8 16 bit First Path Amplitude point 1 */   /* doc bug */
430
#define RX_TIME_FP_RAWST_OFFSET  (9)    /* byte 9..13 40 bit Raw Timestamp for the frame */
431

    
432

    
433
/****************************************************************************//**
434
 * @brief Bit definitions for register
435
**/
436
#define REG_16_ID_RESERVED      0x16
437

    
438

    
439
/****************************************************************************//**
440
 * @brief Bit definitions for register
441
**/
442
#define TX_TIME_ID              0x17            /* Transmit Message Time of Sending */
443
#define TX_TIME_LLEN            (10)
444
#define TX_TIME_TX_STAMP_LEN    (5)             /* 40-bits = 5 bytes */
445
#define TX_STAMP_LEN            TX_TIME_TX_STAMP_LEN
446
/*mask and shift */
447
#define TX_TIME_TX_STAMP_OFFSET  (0) /* byte 0..4 40 bit Reports the fully adjusted time of transmission */
448
#define TX_TIME_TX_RAWST_OFFSET  (5) /* byte 5..9 40 bit Raw Timestamp for the frame */
449

    
450

    
451

    
452

    
453
/****************************************************************************//**
454
 * @brief Bit definitions for register TX_ANTD
455
**/
456
#define TX_ANTD_ID              0x18            /* 16-bit Delay from Transmit to Antenna */
457
#define TX_ANTD_OFFSET          0x00
458
#define TX_ANTD_LEN             (2)
459

    
460

    
461

    
462

    
463
/****************************************************************************//**
464
 * @brief Bit definitions for register SYS_STATES
465
 *        Register map register file 0x19 is reserved
466
 *
467
**/
468
#define SYS_STATE_ID            0x19            /* System State information READ ONLY */
469
#define SYS_STATE_LEN           (5)
470

    
471
/****************************************************************************//**
472
 * @brief Bit definitions for register ACK_RESP_T
473
**/
474
/* Acknowledge (31:24 preamble symbol delay before auto ACK is sent) and respose (19:0 - unit 1us) timer */
475
#define ACK_RESP_T_ID           0x1A            /* Acknowledgement Time and Response Time */
476
#define ACK_RESP_T_LEN          (4)
477
/*mask and shift */
478
#define ACK_RESP_T_MASK         0xFF0FFFFFUL    /* Acknowledgement Time and Response access mask */
479
#define ACK_RESP_T_W4R_TIM_OFFSET 0             /* In bytes */
480
#define ACK_RESP_T_W4R_TIM_MASK 0x000FFFFFUL    /* Wait-for-Response turn-around Time 20 bit field */
481
#define W4R_TIM_MASK            ACK_RESP_T_W4R_TIM_MASK
482
#define ACK_RESP_T_ACK_TIM_OFFSET 3             /* In bytes */
483
#define ACK_RESP_T_ACK_TIM_MASK 0xFF000000UL    /* Auto-Acknowledgement turn-around Time */
484
#define ACK_TIM_MASK            ACK_RESP_T_ACK_TIM_MASK
485

    
486

    
487

    
488
/****************************************************************************//**
489
 * @brief Bit definitions for register 0x1B 0x1C
490
**/
491
#define REG_1B_ID_RESERVED      0x1B
492
#define REG_1C_ID_RESERVED      0x1C
493

    
494
/****************************************************************************//**
495
 * @brief Bit definitions for register RX_SNIFF
496
 *        Sniff Mode Configuration or Pulsed Preamble Reception Configuration
497
**/
498
#define RX_SNIFF_ID             0x1D            /* Sniff Mode Configuration */
499
#define RX_SNIFF_OFFSET         0x00
500
#define RX_SNIFF_LEN            (4)
501
/*mask and shift */
502
#define RX_SNIFF_MASK           0x0000FF0FUL    /*  */
503
#define RX_SNIFF_SNIFF_ONT_MASK 0x0000000FUL    /* SNIFF Mode ON time. Specified in units of PAC */
504
#define SNIFF_ONT_MASK          RX_SNIFF_SNIFF_ONT_MASK
505
#define RX_SNIFF_SNIFF_OFFT_MASK 0x0000FF00UL   /* SNIFF Mode OFF time specified in units of approximately 1mkS, or 128 system clock cycles.*/
506
#define SNIFF_OFFT_MASK         RX_SNIFF_SNIFF_OFFT_MASK
507

    
508

    
509

    
510
/****************************************************************************//**
511
 * @brief Bit definitions for register TX_POWER
512
**/
513
#define TX_POWER_ID             0x1E            /* TX Power Control */
514
#define TX_POWER_LEN            (4)
515
/*mask and shift definition for Smart Transmit Power Control*/
516
#define TX_POWER_BOOSTNORM_MASK 0x00000000UL    /* This is the normal power setting used for frames that do not fall */
517
#define BOOSTNORM_MASK          TX_POWER_BOOSTNORM_MASK
518
#define TX_POWER_BOOSTNORM_SHIFT (0)
519
#define TX_POWER_BOOSTP500_MASK 0x00000000UL    /* This value sets the power applied during transmission at the 6.8 Mbps data rate frames that are less than 0.5 ms duration */
520
#define BOOSTP500_MASK          TX_POWER_BOOSTP500_MASK
521
#define TX_POWER_BOOSTP500_SHIFT (8)
522
#define TX_POWER_BOOSTP250_MASK 0x00000000UL    /* This value sets the power applied during transmission at the 6.8 Mbps data rate frames that are less than 0.25 ms duration */
523
#define BOOSTP250_MASK          TX_POWER_BOOSTP250_MASK
524
#define TX_POWER_BOOSTP250_SHIFT (16)
525
#define TX_POWER_BOOSTP125_MASK 0x00000000UL    /* This value sets the power applied during transmission at the 6.8 Mbps data rate frames that are less than 0.125 ms */
526
#define BOOSTP125_MASK          TX_POWER_BOOSTP125_MASK
527
#define TX_POWER_BOOSTP125_SHIFT (24)
528
/*mask and shift definition for Manual Transmit Power Control (DIS_STXP=1 in SYS_CFG)*/
529
#define TX_POWER_MAN_DEFAULT    0x0E080222UL
530
#define TX_POWER_TXPOWPHR_MASK  0x0000FF00UL    /* This power setting is applied during the transmission of the PHY header (PHR) portion of the frame. */
531
#define TX_POWER_TXPOWSD_MASK   0x00FF0000UL    /* This power setting is applied during the transmission of the synchronisation header (SHR) and data portions of the frame. */
532

    
533

    
534
/****************************************************************************//**
535
 * @brief Bit definitions for register CHAN_CTRL
536
**/
537
#define CHAN_CTRL_ID            0x1F            /* Channel Control */
538
#define CHAN_CTRL_LEN           (4)
539
/*mask and shift */
540
#define CHAN_CTRL_MASK          0xFFFF00FFUL    /* Channel Control Register access mask */
541
#define CHAN_CTRL_TX_CHAN_MASK  0x0000000FUL    /* Supported channels are 1, 2, 3, 4, 5, and 7.*/
542
#define CHAN_CTRL_TX_CHAN_SHIFT (0)             /* Bits 0..3        TX channel number 0-15 selection */
543

    
544
#define CHAN_CTRL_RX_CHAN_MASK  0x000000F0UL
545
#define CHAN_CTRL_RX_CHAN_SHIFT (4)             /* Bits 4..7        RX channel number 0-15 selection */
546

    
547
#define CHAN_CTRL_RXFPRF_MASK   0x000C0000UL    /* Bits 18..19      Specify (Force) RX Pulse Repetition Rate: 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */
548
#define CHAN_CTRL_RXFPRF_SHIFT  (18)
549
/* Specific RXFPRF configuration */
550
#define CHAN_CTRL_RXFPRF_4      0x00000000UL    /* Specify (Force) RX Pulse Repetition Rate: 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */
551
#define CHAN_CTRL_RXFPRF_16     0x00040000UL    /* Specify (Force) RX Pulse Repetition Rate: 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */
552
#define CHAN_CTRL_RXFPRF_64     0x00080000UL    /* Specify (Force) RX Pulse Repetition Rate: 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */
553
#define CHAN_CTRL_TX_PCOD_MASK  0x07C00000UL    /* Bits 22..26      TX Preamble Code selection, 1 to 24. */
554
#define CHAN_CTRL_TX_PCOD_SHIFT (22)
555
#define CHAN_CTRL_RX_PCOD_MASK  0xF8000000UL    /* Bits 27..31      RX Preamble Code selection, 1 to 24. */
556
#define CHAN_CTRL_RX_PCOD_SHIFT (27)
557
/*offset 16 */
558
#define CHAN_CTRL_DWSFD         0x00020000UL    /* Bit 17 This bit enables a non-standard DecaWave proprietary SFD sequence. */
559
#define CHAN_CTRL_DWSFD_SHIFT   (17)
560
#define CHAN_CTRL_TNSSFD        0x00100000UL    /* Bit 20 Non-standard SFD in the transmitter */
561
#define CHAN_CTRL_TNSSFD_SHIFT  (20)
562
#define CHAN_CTRL_RNSSFD        0x00200000UL    /* Bit 21 Non-standard SFD in the receiver */
563
#define CHAN_CTRL_RNSSFD_SHIFT  (21)
564

    
565

    
566

    
567

    
568
/****************************************************************************//**
569
 * @brief Bit definitions for register 0x20
570
**/
571
#define REG_20_ID_RESERVED      0x20
572

    
573
/****************************************************************************//**
574
 * @brief Bit definitions for register USR_SFD
575
 *        Please read User Manual : User defined SFD sequence
576
**/
577
#define USR_SFD_ID              0x21            /* User-specified short/long TX/RX SFD sequences */
578
#define USR_SFD_LEN             (41)
579
#define DW_NS_SFD_LEN_110K      64              /* Decawave non-standard SFD length for 110 kbps */
580
#define DW_NS_SFD_LEN_850K      16              /* Decawave non-standard SFD length for 850 kbps */
581
#define DW_NS_SFD_LEN_6M8       8               /* Decawave non-standard SFD length for 6.8 Mbps */
582

    
583

    
584
/****************************************************************************//**
585
 * @brief Bit definitions for register
586
**/
587
#define REG_22_ID_RESERVED      0x22
588

    
589
/****************************************************************************//**
590
 * @brief Bit definitions for register AGC_CTRL
591
 * Please take care to write to this register as doing so may cause the DW1000 to malfunction
592
**/
593
#define AGC_CTRL_ID             0x23            /* Automatic Gain Control configuration */
594
#define AGC_CTRL_LEN            (32)
595
#define AGC_CFG_STS_ID          AGC_CTRL_ID
596
/* offset from AGC_CTRL_ID in bytes */
597
#define AGC_CTRL1_OFFSET        (0x02)
598
#define AGC_CTRL1_LEN           (2)
599
#define AGC_CTRL1_MASK          0x0001          /* access mask to AGC configuration and control register */
600
#define AGC_CTRL1_DIS_AM        0x0001          /* Disable AGC Measurement. The DIS_AM bit is set by default. */
601
/* offset from AGC_CTRL_ID in bytes */
602
/* Please take care not to write other values to this register as doing so may cause the DW1000 to malfunction */
603
#define AGC_TUNE1_OFFSET        (0x04)
604
#define AGC_TUNE1_LEN           (2)
605
#define AGC_TUNE1_MASK          0xFFFF          /* It is a 16-bit tuning register for the AGC. */
606
#define AGC_TUNE1_16M           0x8870
607
#define AGC_TUNE1_64M           0x889B
608
/* offset from AGC_CTRL_ID in bytes */
609
/* Please take care not to write other values to this register as doing so may cause the DW1000 to malfunction */
610
#define AGC_TUNE2_OFFSET        (0x0C)
611
#define AGC_TUNE2_LEN           (4)
612
#define AGC_TUNE2_MASK          0xFFFFFFFFUL
613
#define AGC_TUNE2_VAL           0X2502A907UL
614
/* offset from AGC_CTRL_ID in bytes */
615
/* Please take care not to write other values to this register as doing so may cause the DW1000 to malfunction */
616
#define AGC_TUNE3_OFFSET        (0x12)
617
#define AGC_TUNE3_LEN           (2)
618
#define AGC_TUNE3_MASK          0xFFFF
619
#define AGC_TUNE3_VAL           0X0055
620
/* offset from AGC_CTRL_ID in bytes */
621
#define AGC_STAT1_OFFSET        (0x1E)
622
#define AGC_STAT1_LEN           (3)
623
#define AGC_STAT1_MASK          0x0FFFFF
624
#define AGC_STAT1_EDG1_MASK     0x0007C0        /* This 5-bit gain value relates to input noise power measurement. */
625
#define AGC_STAT1_EDG2_MASK     0x0FF800        /* This 9-bit value relates to the input noise power measurement. */
626

    
627
/****************************************************************************//**
628
 * @brief Bit definitions for register EXT_SYNC
629
**/
630
#define EXT_SYNC_ID             0x24            /* External synchronisation control */
631
#define EXT_SYNC_LEN            (12)
632
/* offset from EXT_SYNC_ID in bytes */
633
#define EC_CTRL_OFFSET          (0x00)
634
#define EC_CTRL_LEN             (4)
635
#define EC_CTRL_MASK            0x00000FFBUL    /* sub-register 0x00 is the External clock synchronisation counter configuration register */
636
#define EC_CTRL_OSTSM           0x00000001UL    /* External transmit synchronisation mode enable */
637
#define EC_CTRL_OSRSM           0x00000002UL    /* External receive synchronisation mode enable */
638
#define EC_CTRL_PLLLCK          0x04            /* PLL lock detect enable */
639
#define EC_CTRL_OSTRM           0x00000800UL    /* External timebase reset mode enable */
640
#define EC_CTRL_WAIT_MASK       0x000007F8UL    /* Wait counter used for external transmit synchronisation and external timebase reset */
641
/* offset from EXT_SYNC_ID in bytes */
642
#define EC_RXTC_OFFSET          (0x04)
643
#define EC_RXTC_LEN             (4)
644
#define EC_RXTC_MASK            0xFFFFFFFFUL    /* External clock synchronisation counter captured on RMARKER */
645
/* offset from EXT_SYNC_ID in bytes */
646
#define EC_GOLP                 (0x08)
647
#define EC_GOLP_LEN             (4)
648
#define EC_GOLP_MASK            0x0000003FUL    /* sub-register 0x08 is the External clock offset to first path 1 GHz counter, EC_GOLP */
649
#define EC_GOLP_OFFSET_EXT_MASK 0x0000003FUL    /* This register contains the 1 GHz count from the arrival of the RMARKER and the next edge of the external clock. */
650

    
651

    
652
/****************************************************************************//**
653
 * @brief Bit definitions for register ACC_MEM
654
**/
655
#define ACC_MEM_ID              0x25            /* Read access to accumulator data */
656
#define ACC_MEM_LEN             (4064)
657

    
658

    
659
/****************************************************************************//**
660
 * @brief Bit definitions for register GPIO_CTRL
661
**/
662
#define GPIO_CTRL_ID            0x26            /* Peripheral register bus 1 access - GPIO control */
663
#define GPIO_CTRL_LEN           (44)
664

    
665
/* offset from GPIO_CTRL in bytes */
666
#define GPIO_MODE_OFFSET        0x00            /* sub-register 0x00 is the GPIO Mode Control Register */
667
#define GPIO_MODE_LEN           (4)
668
#define GPIO_MODE_MASK          0x00FFFFC0UL
669

    
670
#define GPIO_MSGP0_MASK         0x000000C0UL    /* Mode Selection for GPIO0/RXOKLED */
671
#define GPIO_MSGP1_MASK         0x00000300UL    /* Mode Selection for GPIO1/SFDLED */
672
#define GPIO_MSGP2_MASK         0x00000C00UL    /* Mode Selection for GPIO2/RXLED */
673
#define GPIO_MSGP3_MASK         0x00003000UL    /* Mode Selection for GPIO3/TXLED */
674
#define GPIO_MSGP4_MASK         0x0000C000UL    /* Mode Selection for GPIO4/EXTPA */
675
#define GPIO_MSGP5_MASK         0x00030000UL    /* Mode Selection for GPIO5/EXTTXE */
676
#define GPIO_MSGP6_MASK         0x000C0000UL    /* Mode Selection for GPIO6/EXTRXE */
677
#define GPIO_MSGP7_MASK         0x00300000UL    /* Mode Selection for SYNC/GPIO7 */
678
#define GPIO_MSGP8_MASK         0x00C00000UL    /* Mode Selection for IRQ/GPIO8 */
679

    
680
#define GPIO_PIN2_RXLED         0x00000400UL    /* The pin operates as the RXLED output */
681
#define GPIO_PIN3_TXLED         0x00001000UL    /* The pin operates as the TXLED output */
682
#define GPIO_PIN4_EXTPA         0x00004000UL    /* The pin operates as the EXTPA output */
683
#define GPIO_PIN5_EXTTXE        0x00010000UL    /* The pin operates as the EXTTXE output */
684
#define GPIO_PIN6_EXTRXE        0x00040000UL    /* The pin operates as the EXTRXE output */
685

    
686
/* offset from GPIO_CTRL in bytes */
687
#define GPIO_DIR_OFFSET         0x08            /* sub-register 0x08 is the GPIO Direction Control Register */
688
#define GPIO_DIR_LEN            (3)
689
#define GPIO_DIR_MASK           0x0011FFFFUL
690

    
691
#define GxP0                    0x00000001UL    /* GPIO0 Only changed if the GxM0 mask bit has a value of 1 for the write operation*/
692
#define GxP1                    0x00000002UL    /* GPIO1. (See GDP0). */
693
#define GxP2                    0x00000004UL    /* GPIO2. (See GDP0). */
694
#define GxP3                    0x00000008UL    /* GPIO3. (See GDP0). */
695
#define GxP4                    0x00000100UL    /* GPIO4. (See GDP0). */
696
#define GxP5                    0x00000200UL    /* GPIO5. (See GDP0). */
697
#define GxP6                    0x00000400UL    /* GPIO6. (See GDP0). */
698
#define GxP7                    0x00000800UL    /* GPIO7. (See GDP0). */
699
#define GxP8                    0x00010000UL    /* GPIO8 */
700

    
701
#define GxM0                    0x00000010UL    /* Mask for GPIO0 */
702
#define GxM1                    0x00000020UL    /* Mask for GPIO1. (See GDM0). */
703
#define GxM2                    0x00000040UL    /* Mask for GPIO2. (See GDM0). */
704
#define GxM3                    0x00000080UL    /* Mask for GPIO3. (See GDM0). */
705
#define GxM4                    0x00001000UL    /* Mask for GPIO4. (See GDM0). */
706
#define GxM5                    0x00002000UL    /* Mask for GPIO5. (See GDM0). */
707
#define GxM6                    0x00004000UL    /* Mask for GPIO6. (See GDM0). */
708
#define GxM7                    0x00008000UL    /* Mask for GPIO7. (See GDM0). */
709
#define GxM8                    0x00100000UL    /* Mask for GPIO8. (See GDM0). */
710

    
711
#define GDP0    GxP0    /* Direction Selection for GPIO0. 1 = input, 0 = output. Only changed if the GDM0 mask bit has a value of 1 for the write operation*/
712
#define GDP1    GxP1    /* Direction Selection for GPIO1. (See GDP0). */
713
#define GDP2    GxP2    /* Direction Selection for GPIO2. (See GDP0). */
714
#define GDP3    GxP3    /* Direction Selection for GPIO3. (See GDP0). */
715
#define GDP4    GxP4    /* Direction Selection for GPIO4. (See GDP0). */
716
#define GDP5    GxP5    /* Direction Selection for GPIO5. (See GDP0). */
717
#define GDP6    GxP6    /* Direction Selection for GPIO6. (See GDP0). */
718
#define GDP7    GxP7    /* Direction Selection for GPIO7. (See GDP0). */
719
#define GDP8    GxP8    /* Direction Selection for GPIO8 */
720

    
721
#define GDM0    GxM0    /* Mask for setting the direction of GPIO0 */
722
#define GDM1    GxM1    /* Mask for setting the direction of GPIO1. (See GDM0). */
723
#define GDM2    GxM2    /* Mask for setting the direction of GPIO2. (See GDM0). */
724
#define GDM3    GxM3    /* Mask for setting the direction of GPIO3. (See GDM0). */
725
#define GDM4    GxM4    /* Mask for setting the direction of GPIO4. (See GDM0). */
726
#define GDM5    GxM5    /* Mask for setting the direction of GPIO5. (See GDM0). */
727
#define GDM6    GxM6    /* Mask for setting the direction of GPIO6. (See GDM0). */
728
#define GDM7    GxM7    /* Mask for setting the direction of GPIO7. (See GDM0). */
729
#define GDM8    GxM8    /* Mask for setting the direction of GPIO8. (See GDM0). */
730

    
731
/* offset from GPIO_CTRL in bytes */
732
#define GPIO_DOUT_OFFSET        0x0C            /* sub-register 0x0C is the GPIO data output register. */
733
#define GPIO_DOUT_LEN           (3)
734
#define GPIO_DOUT_MASK          GPIO_DIR_MASK
735

    
736
/* offset from GPIO_CTRL in bytes */
737
#define GPIO_IRQE_OFFSET        0x10            /* sub-register 0x10 is the GPIO interrupt enable register */
738
#define GPIO_IRQE_LEN           (4)
739
#define GPIO_IRQE_MASK          0x000001FFUL
740
#define GIRQx0                  0x00000001UL    /* IRQ bit0 */
741
#define GIRQx1                  0x00000002UL    /* IRQ bit1 */
742
#define GIRQx2                  0x00000004UL    /* IRQ bit2 */
743
#define GIRQx3                  0x00000008UL    /* IRQ bit3 */
744
#define GIRQx4                  0x00000010UL    /* IRQ bit4 */
745
#define GIRQx5                  0x00000020UL    /* IRQ bit5 */
746
#define GIRQx6                  0x00000040UL    /* IRQ bit6 */
747
#define GIRQx7                  0x00000080UL    /* IRQ bit7 */
748
#define GIRQx8                  0x00000100UL    /* IRQ bit8 */
749
#define GIRQE0  GIRQx0  /* GPIO IRQ Enable for GPIO0 input. Value 1 = enable, 0 = disable*/
750
#define GIRQE1  GIRQx1  /*  */
751
#define GIRQE2  GIRQx2  /*  */
752
#define GIRQE3  GIRQx3  /*  */
753
#define GIRQE4  GIRQx4  /*  */
754
#define GIRQE5  GIRQx5  /*  */
755
#define GIRQE6  GIRQx6  /*  */
756
#define GIRQE7  GIRQx7  /*  */
757
#define GIRQE8  GIRQx8  /* Value 1 = enable, 0 = disable */
758

    
759
/* offset from GPIO_CTRL in bytes */
760
#define GPIO_ISEN_OFFSET        0x14    /* sub-register 0x14 is the GPIO interrupt sense selection register */
761
#define GPIO_ISEN_LEN           (4)
762
#define GPIO_ISEN_MASK          GPIO_IRQE_MASK
763
#define GISEN0  GIRQx0  /* GPIO IRQ Sense selection GPIO0 input. Value 0 = High or Rising-Edge, 1 = Low or falling-edge.*/
764
#define GISEN1  GIRQx1  /*  */
765
#define GISEN2  GIRQx2  /*  */
766
#define GISEN3  GIRQx3  /*  */
767
#define GISEN4  GIRQx4  /*  */
768
#define GISEN5  GIRQx5  /*  */
769
#define GISEN6  GIRQx6  /*  */
770
#define GISEN7  GIRQx7  /*  */
771
#define GISEN8  GIRQx8  /* Value 0 = High or Rising-Edge, 1 = Low or falling-edge */
772

    
773
/* offset from GPIO_CTRL in bytes */
774
#define GPIO_IMODE_OFFSET       0x18    /* sub-register 0x18 is the GPIO interrupt mode selection register */
775
#define GPIO_IMODE_LEN          (4)
776
#define GPIO_IMODE_MASK         GPIO_IRQE_MASK
777
#define GIMOD0  GIRQx0  /* GPIO IRQ Mode selection for GPIO0 input. Value 0 = Level sensitive interrupt. Value 1 = Edge triggered interrupt */
778
#define GIMOD1  GIRQx1  /*  */
779
#define GIMOD2  GIRQx2  /*  */
780
#define GIMOD3  GIRQx3  /*  */
781
#define GIMOD4  GIRQx4  /*  */
782
#define GIMOD5  GIRQx5  /*  */
783
#define GIMOD6  GIRQx6  /*  */
784
#define GIMOD7  GIRQx7  /*  */
785
#define GIMOD8  GIRQx8  /* Value 0 = Level, 1 = Edge. */
786

    
787
/* offset from EXT_SYNC_ID in bytes */
788
#define GPIO_IBES_OFFSET        0x1C    /* sub-register 0x1C is the GPIO interrupt Both Edge selection register */
789
#define GPIO_IBES_LEN           (4)
790
#define GPIO_IBES_MASK          GPIO_IRQE_MASK  /*  */
791
#define GIBES0  GIRQx0  /* GPIO IRQ Both Edge selection for GPIO0 input. Value 0 = GPIO_IMODE register selects the edge. Value 1 = Both edges trigger the interrupt. */
792
#define GIBES1  GIRQx1  /*  */
793
#define GIBES2  GIRQx2  /*  */
794
#define GIBES3  GIRQx3  /*  */
795
#define GIBES4  GIRQx4  /*  */
796
#define GIBES5  GIRQx5  /*  */
797
#define GIBES6  GIRQx6  /*  */
798
#define GIBES7  GIRQx7  /*  */
799
#define GIBES8  GIRQx8  /* Value 0 = use GPIO_IMODE, 1 = Both Edges */
800

    
801
/* offset from GPIO_CTRL in bytes */
802
#define GPIO_ICLR_OFFSET        0x20    /* sub-register 0x20 is the GPIO interrupt clear register */
803
#define GPIO_ICLR_LEN           (4)
804
#define GPIO_ICLR_MASK          GPIO_IRQE_MASK  /*  */
805
#define GICLR0  GIRQx0  /* GPIO IRQ latch clear for GPIO0 input. Write 1 to clear the GPIO0 interrupt latch. Writing 0 has no effect. Reading returns zero */
806
#define GICLR1  GIRQx1  /*  */
807
#define GICLR2  GIRQx2  /*  */
808
#define GICLR3  GIRQx3  /*  */
809
#define GICLR4  GIRQx4  /*  */
810
#define GICLR5  GIRQx5  /*  */
811
#define GICLR6  GIRQx6  /*  */
812
#define GICLR7  GIRQx7  /*  */
813
#define GICLR8  GIRQx8  /* Write 1 to clear the interrupt latch */
814

    
815
/* offset from GPIO_CTRL in bytes */
816
#define GPIO_IDBE_OFFSET        0x24    /* sub-register 0x24 is the GPIO interrupt de-bounce enable register */
817
#define GPIO_IDBE_LEN           (4)
818
#define GPIO_IDBE_MASK          GPIO_IRQE_MASK
819
#define GIDBE0  GIRQx0  /* GPIO IRQ de-bounce enable for GPIO0. Value 1 = de-bounce enabled. Value 0 = de-bounce disabled */
820
#define GIDBE1  GIRQx1  /*  */
821
#define GIDBE2  GIRQx2  /*  */
822
#define GIDBE3  GIRQx3  /*  */
823
#define GIDBE4  GIRQx4  /*  */
824
#define GIDBE5  GIRQx5  /*  */
825
#define GIDBE6  GIRQx6  /*  */
826
#define GIDBE7  GIRQx7  /*  */
827
#define GIDBE8  GIRQx8  /* Value 1 = de-bounce enabled, 0 = de-bounce disabled */
828

    
829
/* offset from GPIO_CTRL in bytes */
830
#define GPIO_RAW_OFFSET         0x28    /* sub-register 0x28 allows the raw state of the GPIO pin to be read. */
831
#define GPIO_RAW_LEN            (4)
832
#define GPIO_RAW_MASK           GPIO_IRQE_MASK
833
#define GRAWP0  GIRQx0  /* This bit reflects the raw state of GPIO0 */
834
#define GRAWP1  GIRQx1  /*  */
835
#define GRAWP2  GIRQx2  /*  */
836
#define GRAWP3  GIRQx3  /*  */
837
#define GRAWP4  GIRQx4  /*  */
838
#define GRAWP5  GIRQx5  /*  */
839
#define GRAWP6  GIRQx6  /*  */
840
#define GRAWP7  GIRQx7  /*  */
841
#define GRAWP8  GIRQx8  /* This bit reflects the raw state of GPIO8 */
842

    
843
/****************************************************************************//**
844
 * @brief Bit definitions for register  DRX_CONF
845
 * Digital Receiver configuration block
846
**/
847
#define DRX_CONF_ID             0x27            /* Digital Receiver configuration */
848
#define DRX_CONF_LEN            (44)
849
/* offset from DRX_CONF_ID in bytes */
850
#define DRX_TUNE0b_OFFSET       (0x02)  /* sub-register 0x02 is a 16-bit tuning register. */
851
#define DRX_TUNE0b_LEN          (2)
852
#define DRX_TUNE0b_MASK         0xFFFF  /* 7.2.40.2 Sub-Register 0x27:02  DRX_TUNE0b */
853
#define DRX_TUNE0b_110K_STD     0x000A
854
#define DRX_TUNE0b_110K_NSTD    0x0016
855
#define DRX_TUNE0b_850K_STD     0x0001
856
#define DRX_TUNE0b_850K_NSTD    0x0006
857
#define DRX_TUNE0b_6M8_STD      0x0001
858
#define DRX_TUNE0b_6M8_NSTD     0x0002
859

    
860
/* offset from DRX_CONF_ID in bytes */
861
#define DRX_TUNE1a_OFFSET       0x04    /* 7.2.40.3 Sub-Register 0x27:04  DRX_TUNE1a */
862
#define DRX_TUNE1a_LEN          (2)
863
#define DRX_TUNE1a_MASK         0xFFFF
864
#define DRX_TUNE1a_PRF16        0x0087
865
#define DRX_TUNE1a_PRF64        0x008D
866

    
867
/* offset from DRX_CONF_ID in bytes */
868
#define DRX_TUNE1b_OFFSET       0x06    /* 7.2.40.4 Sub-Register 0x27:06  DRX_TUNE1b */
869
#define DRX_TUNE1b_LEN          (2)
870
#define DRX_TUNE1b_MASK         0xFFFF
871
#define DRX_TUNE1b_110K         0x0064
872
#define DRX_TUNE1b_850K_6M8     0x0020
873
#define DRX_TUNE1b_6M8_PRE64    0x0010
874

    
875
/* offset from DRX_CONF_ID in bytes */
876
#define DRX_TUNE2_OFFSET        0x08    /* 7.2.40.5 Sub-Register 0x27:08  DRX_TUNE2 */
877
#define DRX_TUNE2_LEN           (4)
878
#define DRX_TUNE2_MASK          0xFFFFFFFFUL
879
#define DRX_TUNE2_PRF16_PAC8    0x311A002DUL
880
#define DRX_TUNE2_PRF16_PAC16   0x331A0052UL
881
#define DRX_TUNE2_PRF16_PAC32   0x351A009AUL
882
#define DRX_TUNE2_PRF16_PAC64   0x371A011DUL
883
#define DRX_TUNE2_PRF64_PAC8    0x313B006BUL
884
#define DRX_TUNE2_PRF64_PAC16   0x333B00BEUL
885
#define DRX_TUNE2_PRF64_PAC32   0x353B015EUL
886
#define DRX_TUNE2_PRF64_PAC64   0x373B0296UL
887

    
888
/* offset from DRX_CONF_ID in bytes */
889
/* WARNING: Please do NOT set DRX_SFDTOC to zero (disabling SFD detection timeout)
890
 * since this risks IC malfunction due to prolonged receiver activity in the event of false preamble detection.
891
 */
892
#define DRX_SFDTOC_OFFSET       0x20    /* 7.2.40.7 Sub-Register 0x27:20  DRX_SFDTOC */
893
#define DRX_SFDTOC_LEN          (2)
894
#define DRX_SFDTOC_MASK         0xFFFF
895

    
896
/* offset from DRX_CONF_ID in bytes */
897
#define DRX_PRETOC_OFFSET       0x24    /* 7.2.40.9 Sub-Register 0x27:24  DRX_PRETOC */
898
#define DRX_PRETOC_LEN          (2)
899
#define DRX_PRETOC_MASK         0xFFFF
900

    
901
/* offset from DRX_CONF_ID in bytes */
902
#define DRX_TUNE4H_OFFSET       0x26    /* 7.2.40.10 Sub-Register 0x27:26  DRX_TUNE4H */
903
#define DRX_TUNE4H_LEN          (2)
904
#define DRX_TUNE4H_MASK         0xFFFF
905
#define DRX_TUNE4H_PRE64        0x0010
906
#define DRX_TUNE4H_PRE128PLUS   0x0028
907

    
908

    
909
/****************************************************************************//**
910
 * @brief Bit definitions for register  RF_CONF
911
 * Analog RF Configuration block
912
 * Refer to section 7.2.41 Register file: 0x28  Analog RF configuration block
913
**/
914
#define RF_CONF_ID              0x28            /* Analog RF Configuration */
915
#define RF_CONF_LEN             (58)
916
#define RF_CONF_TXEN_MASK       0x00400000UL   /* TX enable */
917
#define RF_CONF_RXEN_MASK       0x00200000UL   /* RX enable */
918
#define RF_CONF_TXPOW_MASK      0x001F0000UL   /* turn on power all LDOs */
919
#define RF_CONF_PLLEN_MASK      0x0000E000UL   /* enable PLLs */
920
#define RF_CONF_PGMIXBIASEN_MASK    0x0000A700UL    /* Enable TX mixer bias and pulse gen */
921
#define RF_CONF_TXBLOCKSEN_MASK 0x00001F00UL   /* enable TX blocks */
922
#define RF_CONF_TXPLLPOWEN_MASK (RF_CONF_PLLEN_MASK | RF_CONF_TXPOW_MASK)
923
#define RF_CONF_TXALLEN_MASK    (RF_CONF_TXEN_MASK | RF_CONF_TXPOW_MASK | RF_CONF_PLLEN_MASK | RF_CONF_TXBLOCKSEN_MASK)
924
/* offset from TX_CAL_ID in bytes */
925
#define RF_RXCTRLH_OFFSET       0x0B            /* Analog RX Control Register */
926
#define RF_RXCTRLH_LEN          (1)
927
#define RF_RXCTRLH_NBW          0xD8            /* RXCTRLH value for narrow bandwidth channels */
928
#define RF_RXCTRLH_WBW          0xBC            /* RXCTRLH value for wide bandwidth channels */
929
/* offset from TX_CAL_ID in bytes */
930
#define RF_TXCTRL_OFFSET        0x0C            /* Analog TX Control Register */
931
#define RF_TXCTRL_LEN           (4)
932
#define RF_TXCTRL_TXMTUNE_MASK  0x000001E0UL    /* Transmit mixer tuning register */
933
#define RF_TXCTRL_TXTXMQ_MASK   0x00000E00UL    /* Transmit mixer Q-factor tuning register */
934
#define RF_TXCTRL_CH1           0x00005C40UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
935
#define RF_TXCTRL_CH2           0x00045CA0UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
936
#define RF_TXCTRL_CH3           0x00086CC0UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
937
#define RF_TXCTRL_CH4           0x00045C80UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
938
#define RF_TXCTRL_CH5           0x001E3FE0UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
939
#define RF_TXCTRL_CH7           0x001E7DE0UL    /* 32-bit value to program to Sub-Register 0x28:0C  RF_TXCTRL */
940

    
941
/* offset from TX_CAL_ID in bytes */
942
#define RF_STATUS_OFFSET        0x2C
943

    
944
/****************************************************************************//**
945
 * @brief Bit definitions for register
946
**/
947
#define REG_29_ID_RESERVED      0x29
948

    
949
/****************************************************************************//**
950
 * @brief Bit definitions for register TX_CAL
951
 * Refer to section 7.2.43 Register file: 0x2A  Transmitter Calibration block
952
**/
953
#define TX_CAL_ID                   0x2A        /* Transmitter calibration block */
954
#define TX_CAL_LEN                  (52)
955
/* offset from TX_CAL_ID in bytes */
956
#define TC_SARL_SAR_C               (0)         /* SAR control */
957
/*cause bug in register block TX_CAL, we need to read 1 byte in a time*/
958
#define TC_SARL_SAR_LVBAT_OFFSET    (3)         /* Latest SAR reading for Voltage level */
959
#define TC_SARL_SAR_LTEMP_OFFSET    (4)         /* Latest SAR reading for Temperature level */
960
#define TC_SARW_SAR_WTEMP_OFFSET    0x06        /* SAR reading of Temperature level taken at last wakeup event */
961
#define TC_SARW_SAR_WVBAT_OFFSET    0x07        /* SAR reading of Voltage level taken at last wakeup event */
962

    
963
#define TC_PGCCTRL_OFFSET       0x08        /* Pulse Generator Calibration control */
964
#define TC_PGCCTRL_LEN          (1)
965
#define TC_PGCCTRL_CALSTART     0x01        /* Start PG cal procedure */
966
#define TC_PGCCTRL_AUTOCAL      0x02        /* Starts a PG autocalibration loop */
967
#define TC_PGCCTRL_TMEAS_MASK   0x3C        /* Mask to retrieve number of clock cycles over which to run PG cal counter */
968
#define TC_PGCCTRL_ON_TX        0x40        /* Perform autocal on each TX enable */
969
#define TC_PGCCTRL_DIR_CONV     0x80        /* Direction (converging) of autocal binary search */
970

    
971
#define TC_PGCAL_STATUS_OFFSET      0x09    /* Status register from PG calibration block */
972
#define TC_PGCAL_STATUS_LEN         (1)
973
#define TC_PGCAL_STATUS_DELAY_MASK  0xFFF   /* Mask to retrieve PG delay count from calibration */
974

    
975
/* offset from TX_CAL_ID in bytes */
976
#define TC_PGDELAY_OFFSET       0x0B            /* Transmitter Calibration  Pulse Generator Delay */
977
#define TC_PGDELAY_LEN          (1)
978
#define TC_PGDELAY_CH1          0xC9            /* Recommended value for channel 1 */
979
#define TC_PGDELAY_CH2          0xC2            /* Recommended value for channel 2 */
980
#define TC_PGDELAY_CH3          0xC5            /* Recommended value for channel 3 */
981
#define TC_PGDELAY_CH4          0x95            /* Recommended value for channel 4 */
982
#define TC_PGDELAY_CH5          0xC0            /* Recommended value for channel 5 */
983
#define TC_PGDELAY_CH7          0x93            /* Recommended value for channel 7 */
984
/* offset from TX_CAL_ID in bytes */
985
#define TC_PGTEST_OFFSET        0x0C            /* Transmitter Calibration  Pulse Generator Test */
986
#define TC_PGTEST_LEN           (1)
987
#define TC_PGTEST_NORMAL        0x00            /* Normal operation */
988
#define TC_PGTEST_CW            0x13            /* Continuous Wave (CW) Test Mode */
989

    
990
/****************************************************************************//**
991
 * @brief Bit definitions for register
992
 * Refer to section 7.2.44 Register file: 0x2B  Frequency synthesiser control block
993
**/
994
#define FS_CTRL_ID              0x2B            /* Frequency synthesiser control block */
995
#define FS_CTRL_LEN             (21)
996
/* offset from FS_CTRL_ID in bytes */
997
#define FS_RES1_OFFSET          0x00            /* reserved area. Please take care not to write to this area as doing so may cause the DW1000 to malfunction. */
998
#define FS_RES1_LEN             (7)
999
/* offset from FS_CTRL_ID in bytes */
1000
#define FS_PLLCFG_OFFSET        0x07            /* Frequency synthesiser  PLL configuration */
1001
#define FS_PLLCFG_LEN           (5)
1002
#define FS_PLLCFG_CH1           0x09000407UL    /* Operating Channel 1 */
1003
#define FS_PLLCFG_CH2           0x08400508UL    /* Operating Channel 2 */
1004
#define FS_PLLCFG_CH3           0x08401009UL    /* Operating Channel 3 */
1005
#define FS_PLLCFG_CH4           FS_PLLCFG_CH2   /* Operating Channel 4 (same as 2) */
1006
#define FS_PLLCFG_CH5           0x0800041DUL    /* Operating Channel 5 */
1007
#define FS_PLLCFG_CH7           FS_PLLCFG_CH5   /* Operating Channel 7 (same as 5) */
1008
/* offset from FS_CTRL_ID in bytes */
1009
#define FS_PLLTUNE_OFFSET       0x0B            /* Frequency synthesiser  PLL Tuning */
1010
#define FS_PLLTUNE_LEN          (1)
1011
#define FS_PLLTUNE_CH1          0x1E            /* Operating Channel 1 */
1012
#define FS_PLLTUNE_CH2          0x26            /* Operating Channel 2 */
1013
#define FS_PLLTUNE_CH3          0x56            /* Operating Channel 3 */
1014
#define FS_PLLTUNE_CH4          FS_PLLTUNE_CH2  /* Operating Channel 4 (same as 2) */
1015
#define FS_PLLTUNE_CH5          0xBE            /* Operating Channel 5 */
1016
#define FS_PLLTUNE_CH7          FS_PLLTUNE_CH5  /* Operating Channel 7 (same as 5) */
1017
/* offset from FS_CTRL_ID in bytes */
1018
#define FS_RES2_OFFSET          0x0C    /* reserved area. Please take care not to write to this area as doing so may cause the DW1000 to malfunction. */
1019
#define FS_RES2_LEN             (2)
1020
/* offset from FS_CTRL_ID in bytes */
1021
#define FS_XTALT_OFFSET         0x0E    /* Frequency synthesiser  Crystal trim */
1022
#define FS_XTALT_LEN            (1)
1023
#define FS_XTALT_MASK           0x1F    /* Crystal Trim. Crystals may be trimmed using this register setting to tune out errors, see 8.1  IC Calibration  Crystal Oscillator Trim. */
1024
#define FS_XTALT_MIDRANGE       0x10
1025
/* offset from FS_CTRL_ID in bytes */
1026
#define FS_RES3_OFFSET          0x0F    /* reserved area. Please take care not to write to this area as doing so may cause the DW1000 to malfunction. */
1027
#define FS_RES3_LEN             (6)
1028

    
1029
/****************************************************************************//**
1030
 * @brief Bit definitions for register
1031
**/
1032
#define AON_ID                  0x2C            /* Always-On register set */
1033
#define AON_LEN                 (12)
1034
/* offset from AON_ID in bytes */
1035
#define AON_WCFG_OFFSET         0x00    /* used to control what the DW1000 IC does as it wakes up from low-power SLEEP or DEEPSLEEPstates. */
1036
#define AON_WCFG_LEN            (2)
1037
#define AON_WCFG_MASK           0x09CB  /* access mask to AON_WCFG register*/
1038
#define AON_WCFG_ONW_RADC       0x0001  /* On Wake-up Run the (temperature and voltage) Analog-to-Digital Convertors */
1039
#define AON_WCFG_ONW_RX         0x0002  /* On Wake-up turn on the Receiver */
1040
#define AON_WCFG_ONW_LEUI       0x0008  /* On Wake-up load the EUI from OTP memory into Register file: 0x01  Extended Unique Identifier. */
1041
#define AON_WCFG_ONW_LDC        0x0040  /* On Wake-up load configurations from the AON memory into the host interface register set */
1042
#define AON_WCFG_ONW_L64P       0x0080  /* On Wake-up load the Length64 receiver operating parameter set */
1043
#define AON_WCFG_PRES_SLEEP     0x0100  /* Preserve Sleep. This bit determines what the DW1000 does with respect to the ARXSLP and ATXSLP sleep controls */
1044
#define AON_WCFG_ONW_LLDE       0x0800  /* On Wake-up load the LDE microcode. */
1045
#define AON_WCFG_ONW_LLDO       0x1000  /* On Wake-up load the LDO tune value. */
1046
/* offset from AON_ID in bytes */
1047
#define AON_CTRL_OFFSET         0x02    /* The bits in this register in general cause direct activity within the AON block with respect to the stored AON memory */
1048
#define AON_CTRL_LEN            (1)
1049
#define AON_CTRL_MASK           0x8F    /* access mask to AON_CTRL register */
1050
#define AON_CTRL_RESTORE        0x01    /* When this bit is set the DW1000 will copy the user configurations from the AON memory to the host interface register set. */
1051
#define AON_CTRL_SAVE           0x02    /* When this bit is set the DW1000 will copy the user configurations from the host interface register set into the AON memory */
1052
#define AON_CTRL_UPL_CFG        0x04    /* Upload the AON block configurations to the AON  */
1053
#define AON_CTRL_DCA_READ       0x08    /* Direct AON memory access read */
1054
#define AON_CTRL_DCA_ENAB       0x80    /* Direct AON memory access enable bit */
1055
/* offset from AON_ID in bytes */
1056
#define AON_RDAT_OFFSET         0x03    /* AON Direct Access Read Data Result */
1057
#define AON_RDAT_LEN            (1)
1058
/* offset from AON_ID in bytes */
1059
#define AON_ADDR_OFFSET         0x04    /* AON Direct Access Address */
1060
#define AON_ADDR_LEN            (1)
1061
#define AON_ADDR_LPOSC_CAL_0    117     /* Address of low-power oscillator calibration value (lower byte) */
1062
#define AON_ADDR_LPOSC_CAL_1    118     /* Address of low-power oscillator calibration value (lower byte) */
1063

    
1064
/* offset from AON_ID in bytes */
1065
#define AON_CFG0_OFFSET             0x06    /* 32-bit configuration register for the always on block. */
1066
#define AON_CFG0_LEN                (4)
1067
#define AON_CFG0_SLEEP_EN           0x00000001UL    /* This is the sleep enable configuration bit */
1068
#define AON_CFG0_WAKE_PIN           0x00000002UL    /* Wake using WAKEUP pin */
1069
#define AON_CFG0_WAKE_SPI           0x00000004UL    /* Wake using SPI access SPICSn */
1070
#define AON_CFG0_WAKE_CNT           0x00000008UL    /* Wake when sleep counter elapses */
1071
#define AON_CFG0_LPDIV_EN           0x00000010UL    /* Low power divider enable configuration */
1072
#define AON_CFG0_LPCLKDIVA_MASK     0x0000FFE0UL    /* divider count for dividing the raw DW1000 XTAL oscillator frequency to set an LP clock frequency */
1073
#define AON_CFG0_LPCLKDIVA_SHIFT    (5)
1074
#define AON_CFG0_SLEEP_TIM          0xFFFF0000UL    /* Sleep time. This field configures the sleep time count elapse value */
1075
#define AON_CFG0_SLEEP_SHIFT        (16)
1076
#define AON_CFG0_SLEEP_TIM_OFFSET   2               /* In bytes */
1077
/* offset from AON_ID in bytes */
1078
#define AON_CFG1_OFFSET         0x0A
1079
#define AON_CFG1_LEN            (2)
1080
#define AON_CFG1_MASK           0x0007  /* aceess mask to AON_CFG1 */
1081
#define AON_CFG1_SLEEP_CEN      0x0001  /* This bit enables the sleep counter */
1082
#define AON_CFG1_SMXX           0x0002  /* This bit needs to be set to 0 for correct operation in the SLEEP state within the DW1000 */
1083
#define AON_CFG1_LPOSC_CAL      0x0004  /* This bit enables the calibration function that measures the period of the IC\92s internal low powered oscillator */
1084

    
1085
/****************************************************************************//**
1086
 * @brief Bit definitions for register OTP_IF
1087
 * Refer to section 7.2.46 Register file: 0x2D  OTP Memory Interface
1088
**/
1089
#define OTP_IF_ID               0x2D            /* One Time Programmable Memory Interface */
1090
#define OTP_IF_LEN              (18)
1091
/* offset from OTP_IF_ID in bytes */
1092
#define OTP_WDAT                0x00            /* 32-bit register. The data value to be programmed into an OTP location  */
1093
#define OTP_WDAT_LEN            (4)
1094
/* offset from OTP_IF_ID in bytes */
1095
#define OTP_ADDR                0x04            /* 16-bit register used to select the address within the OTP memory block */
1096
#define OTP_ADDR_LEN            (2)
1097
#define OTP_ADDR_MASK           0x07FF          /* This 11-bit field specifies the address within OTP memory that will be accessed read or written. */
1098
/* offset from OTP_IF_ID in bytes */
1099
#define OTP_CTRL                0x06            /* used to control the operation of the OTP memory */
1100
#define OTP_CTRL_LEN            (2)
1101
#define OTP_CTRL_MASK           0x8002
1102
#define OTP_CTRL_OTPRDEN        0x0001          /* This bit forces the OTP into manual read mode */
1103
#define OTP_CTRL_OTPREAD        0x0002          /* This bit commands a read operation from the address specified in the OTP_ADDR register */
1104
#define OTP_CTRL_LDELOAD        0x8000          /* This bit forces a load of LDE microcode */
1105
#define OTP_CTRL_OTPPROG        0x0040          /* Setting this bit will cause the contents of OTP_WDAT to be written to OTP_ADDR. */
1106
/* offset from OTP_IF_ID in bytes */
1107
#define OTP_STAT                0x08
1108
#define OTP_STAT_LEN            (2)
1109
#define OTP_STAT_MASK           0x0003
1110
#define OTP_STAT_OTPPRGD        0x0001          /* OTP Programming Done */
1111
#define OTP_STAT_OTPVPOK        0x0002          /* OTP Programming Voltage OK */
1112
/* offset from OTP_IF_ID in bytes */
1113
#define OTP_RDAT                0x0A            /* 32-bit register. The data value read from an OTP location will appear here */
1114
#define OTP_RDAT_LEN            (4)
1115
/* offset from OTP_IF_ID in bytes */
1116
#define OTP_SRDAT               0x0E            /* 32-bit register. The data value stored in the OTP SR (0x400) location will appear here after power up */
1117
#define OTP_SRDAT_LEN           (4)
1118
/* offset from OTP_IF_ID in bytes */
1119
#define OTP_SF                  0x12            /*8-bit special function register used to select and load special receiver operational parameter */
1120
#define OTP_SF_LEN              (1)
1121
#define OTP_SF_MASK             0x63
1122
#define OTP_SF_OPS_KICK         0x01            /* This bit when set initiates a load of the operating parameter set selected by the OPS_SEL */
1123
#define OTP_SF_LDO_KICK         0x02            /* This bit when set initiates a load of the LDO tune code */
1124
#define OTP_SF_OPS_SEL_SHFT     5
1125
#define OTP_SF_OPS_SEL_MASK     0x60
1126
#define OTP_SF_OPS_SEL_L64      0x00            /* Operating parameter set selection: Length64 */
1127
#define OTP_SF_OPS_SEL_TIGHT    0x40            /* Operating parameter set selection: Tight */
1128

    
1129
/****************************************************************************//**
1130
 * @brief Bit definitions for register LDE_IF
1131
 * Refer to section 7.2.47 Register file: 0x2E  Leading Edge Detection Interface
1132
 * PLEASE NOTE: Other areas within the address space of Register file: 0x2E  Leading Edge Detection Interface
1133
 * are reserved. To ensure proper operation of the LDE algorithm (i.e. to avoid loss of performance or a malfunction),
1134
 * care must be taken not to write to any byte locations other than those defined in the sub-sections below.
1135
**/
1136
#define LDE_IF_ID               0x2E            /* Leading edge detection control block */
1137
#define LDE_IF_LEN              (0)
1138
/* offset from LDE_IF_ID in bytes */
1139
#define LDE_THRESH_OFFSET       0x0000  /* 16-bit status register reporting the threshold that was used to find the first path */
1140
#define LDE_THRESH_LEN          (2)
1141
/* offset from LDE_IF_ID in bytes */
1142
#define LDE_CFG1_OFFSET         0x0806  /*8-bit configuration register*/
1143
#define LDE_CFG1_LEN            (1)
1144
#define LDE_CFG1_NSTDEV_MASK    0x1F    /* Number of Standard Deviations mask. */
1145
#define LDE_CFG1_PMULT_MASK     0xE0    /* Peak Multiplier mask. */
1146
/* offset from LDE_IF_ID in bytes */
1147
#define LDE_PPINDX_OFFSET       0x1000  /* reporting the position within the accumulator that the LDE algorithm has determined to contain the maximum */
1148
#define LDE_PPINDX_LEN          (2)
1149
/* offset from LDE_IF_ID in bytes */
1150
#define LDE_PPAMPL_OFFSET       0x1002  /* reporting the magnitude of the peak signal seen in the accumulator data memory */
1151
#define LDE_PPAMPL_LEN          (2)
1152
/* offset from LDE_IF_ID in bytes */
1153
#define LDE_RXANTD_OFFSET       0x1804  /* 16-bit configuration register for setting the receive antenna delay */
1154
#define LDE_RXANTD_LEN          (2)
1155
/* offset from LDE_IF_ID in bytes */
1156
#define LDE_CFG2_OFFSET         0x1806  /* 16-bit LDE configuration tuning register */
1157
#define LDE_CFG2_LEN            (2)
1158
/* offset from LDE_IF_ID in bytes */
1159
#define LDE_REPC_OFFSET         0x2804  /* 16-bit configuration register for setting the replica avoidance coefficient */
1160
#define LDE_REPC_LEN            (2)
1161
#define LDE_REPC_PCODE_1        0x5998
1162
#define LDE_REPC_PCODE_2        0x5998
1163
#define LDE_REPC_PCODE_3        0x51EA
1164
#define LDE_REPC_PCODE_4        0x428E
1165
#define LDE_REPC_PCODE_5        0x451E
1166
#define LDE_REPC_PCODE_6        0x2E14
1167
#define LDE_REPC_PCODE_7        0x8000
1168
#define LDE_REPC_PCODE_8        0x51EA
1169
#define LDE_REPC_PCODE_9        0x28F4
1170
#define LDE_REPC_PCODE_10       0x3332
1171
#define LDE_REPC_PCODE_11       0x3AE0
1172
#define LDE_REPC_PCODE_12       0x3D70
1173
#define LDE_REPC_PCODE_13       0x3AE0
1174
#define LDE_REPC_PCODE_14       0x35C2
1175
#define LDE_REPC_PCODE_15       0x2B84
1176
#define LDE_REPC_PCODE_16       0x35C2
1177
#define LDE_REPC_PCODE_17       0x3332
1178
#define LDE_REPC_PCODE_18       0x35C2
1179
#define LDE_REPC_PCODE_19       0x35C2
1180
#define LDE_REPC_PCODE_20       0x47AE
1181
#define LDE_REPC_PCODE_21       0x3AE0
1182
#define LDE_REPC_PCODE_22       0x3850
1183
#define LDE_REPC_PCODE_23       0x30A2
1184
#define LDE_REPC_PCODE_24       0x3850
1185

    
1186
/****************************************************************************//**
1187
 * @brief Bit definitions for register DIG_DIAG
1188
 * Digital Diagnostics interface.
1189
 * It contains a number of sub-registers that give diagnostics information.
1190
**/
1191
#define DIG_DIAG_ID             0x2F        /* Digital Diagnostics Interface */
1192
#define DIG_DIAG_LEN            (41)
1193

    
1194
/* offset from DIG_DIAG_ID in bytes */
1195
#define EVC_CTRL_OFFSET         0x00        /* Event Counter Control */
1196
#define EVC_CTRL_LEN            (4)
1197
#define EVC_CTRL_MASK           0x00000003UL/* access mask to Register for bits should always be set to zero to avoid any malfunction of the device. */
1198
#define EVC_EN                  0x00000001UL/* Event Counters Enable bit */
1199
#define EVC_CLR                 0x00000002UL
1200

    
1201
/* offset from DIG_DIAG_ID in bytes */
1202
#define EVC_PHE_OFFSET          0x04        /* PHR Error Event Counter */
1203
#define EVC_PHE_LEN             (2)
1204
#define EVC_PHE_MASK            0x0FFF
1205
/* offset from DIG_DIAG_ID in bytes */
1206
#define EVC_RSE_OFFSET          0x06        /* Reed Solomon decoder (Frame Sync Loss) Error Event Counter */
1207
#define EVC_RSE_LEN             (2)
1208
#define EVC_RSE_MASK            0x0FFF
1209

    
1210
/* offset from DIG_DIAG_ID in bytes */
1211
#define EVC_FCG_OFFSET          0x08        /* The EVC_FCG field is a 12-bit counter of the frames received with good CRC/FCS sequence. */
1212
#define EVC_FCG_LEN             (2)
1213
#define EVC_FCG_MASK            0x0FFF
1214
/* offset from DIG_DIAG_ID in bytes */
1215
#define EVC_FCE_OFFSET          0x0A        /* The EVC_FCE field is a 12-bit counter of the frames received with bad CRC/FCS sequence. */
1216
#define EVC_FCE_LEN             (2)
1217
#define EVC_FCE_MASK            0x0FFF
1218

    
1219
/* offset from DIG_DIAG_ID in bytes */
1220
#define EVC_FFR_OFFSET          0x0C        /* The EVC_FFR field is a 12-bit counter of the frames rejected by the receive frame filtering function. */
1221
#define EVC_FFR_LEN             (2)
1222
#define EVC_FFR_MASK            0x0FFF
1223
/* offset from DIG_DIAG_ID in bytes */
1224
#define EVC_OVR_OFFSET          0x0E        /* The EVC_OVR field is a 12-bit counter of receive overrun events */
1225
#define EVC_OVR_LEN             (2)
1226
#define EVC_OVR_MASK            0x0FFF
1227

    
1228
/* offset from DIG_DIAG_ID in bytes */
1229
#define EVC_STO_OFFSET          0x10        /* The EVC_STO field is a 12-bit counter of SFD Timeout Error events */
1230
#define EVC_OVR_LEN             (2)
1231
#define EVC_OVR_MASK            0x0FFF
1232
/* offset from DIG_DIAG_ID in bytes */
1233
#define EVC_PTO_OFFSET          0x12        /* The EVC_PTO field is a 12-bit counter of Preamble detection Timeout events */
1234
#define EVC_PTO_LEN             (2)
1235
#define EVC_PTO_MASK            0x0FFF
1236

    
1237
/* offset from DIG_DIAG_ID in bytes */
1238
#define EVC_FWTO_OFFSET         0x14        /* The EVC_FWTO field is a 12-bit counter of receive frame wait timeout events */
1239
#define EVC_FWTO_LEN            (2)
1240
#define EVC_FWTO_MASK           0x0FFF
1241
/* offset from DIG_DIAG_ID in bytes */
1242
#define EVC_TXFS_OFFSET         0x16        /* The EVC_TXFS field is a 12-bit counter of transmit frames sent. This is incremented every time a frame is sent */
1243
#define EVC_TXFS_LEN            (2)
1244
#define EVC_TXFS_MASK           0x0FFF
1245

    
1246
/* offset from DIG_DIAG_ID in bytes */
1247
#define EVC_HPW_OFFSET          0x18        /* The EVC_HPW field is a 12-bit counter of Half Period Warnings\94. */
1248
#define EVC_HPW_LEN             (2)
1249
#define EVC_HPW_MASK            0x0FFF
1250
/* offset from DIG_DIAG_ID in bytes */
1251
#define EVC_TPW_OFFSET          0x1A        /* The EVC_TPW field is a 12-bit counter of Transmitter Power-Up Warnings\94. */
1252
#define EVC_TPW_LEN             (2)
1253
#define EVC_TPW_MASK            0x0FFF
1254

    
1255
/* offset from DIG_DIAG_ID in bytes */
1256
#define EVC_RES1_OFFSET         0x1C        /* Please take care not to write to this register as doing so may cause the DW1000 to malfunction. */
1257

    
1258
/* offset from DIG_DIAG_ID in bytes */
1259
#define DIAG_TMC_OFFSET         0x24
1260
#define DIAG_TMC_LEN            (2)
1261
#define DIAG_TMC_MASK           0x0010
1262
#define DIAG_TMC_TX_PSTM        0x0010      /* This test mode is provided to help support regulatory approvals spectral testing. When the TX_PSTM bit is set it enables a repeating transmission of the data from the TX_BUFFER */
1263

    
1264

    
1265
/****************************************************************************//**
1266
 * @brief Bit definitions for register 0x30-0x35
1267
 * Please take care not to write to these registers as doing so may cause the DW1000 to malfunction.
1268
**/
1269
#define REG_30_ID_RESERVED      0x30
1270
#define REG_31_ID_RESERVED      0x31
1271
#define REG_32_ID_RESERVED      0x32
1272
#define REG_33_ID_RESERVED      0x33
1273
#define REG_34_ID_RESERVED      0x34
1274
#define REG_35_ID_RESERVED      0x35
1275

    
1276
/****************************************************************************//**
1277
 * @brief Bit definitions for register PMSC
1278
**/
1279
#define PMSC_ID                 0x36            /* Power Management System Control Block */
1280
#define PMSC_LEN                (48)
1281
/* offset from PMSC_ID in bytes */
1282
#define PMSC_CTRL0_OFFSET       0x00
1283
#define PMSC_CTRL0_LEN          (4)
1284
#define PMSC_CTRL0_MASK         0xF18F847FUL    /* access mask to register PMSC_CTRL0 */
1285
#define PMSC_CTRL0_SYSCLKS_AUTO 0x00000000UL    /* The system clock will run off the 19.2 MHz XTI clock until the PLL is calibrated and locked, then it will switch over the 125 MHz PLL clock */
1286
#define PMSC_CTRL0_SYSCLKS_19M  0x00000001UL    /* Force system clock to be the 19.2 MHz XTI clock. */
1287
#define PMSC_CTRL0_SYSCLKS_125M 0x00000002UL    /* Force system clock to the 125 MHz PLL clock. */
1288
#define PMSC_CTRL0_RXCLKS_AUTO  0x00000000UL    /* The RX clock will be disabled until it is required for an RX operation */
1289
#define PMSC_CTRL0_RXCLKS_19M   0x00000004UL    /* Force RX clock enable and sourced clock from the 19.2 MHz XTI clock */
1290
#define PMSC_CTRL0_RXCLKS_125M  0x00000008UL    /* Force RX clock enable and sourced from the 125 MHz PLL clock */
1291
#define PMSC_CTRL0_RXCLKS_OFF   0x0000000CUL    /* Force RX clock off. */
1292
#define PMSC_CTRL0_TXCLKS_AUTO  0x00000000UL    /* The TX clock will be disabled until it is required for a TX operation */
1293
#define PMSC_CTRL0_TXCLKS_19M   0x00000010UL    /* Force TX clock enable and sourced clock from the 19.2 MHz XTI clock */
1294
#define PMSC_CTRL0_TXCLKS_125M  0x00000020UL    /* Force TX clock enable and sourced from the 125 MHz PLL clock */
1295
#define PMSC_CTRL0_TXCLKS_OFF   0x00000030UL    /* Force TX clock off */
1296
#define PMSC_CTRL0_FACE         0x00000040UL    /* Force Accumulator Clock Enable */
1297
#define PMSC_CTRL0_GPDCE        0x00040000UL    /* GPIO De-bounce Clock Enable */
1298
#define PMSC_CTRL0_KHZCLEN      0x00800000UL    /* Kilohertz Clock Enable */
1299
#define PMSC_CTRL0_PLL2_SEQ_EN  0x01000000UL    /* Enable PLL2 on/off sequencing by SNIFF mode */
1300
#define PMSC_CTRL0_SOFTRESET_OFFSET 3           /* In bytes */
1301
#define PMSC_CTRL0_RESET_ALL    0x00            /* Assuming only 4th byte of the register is read */
1302
#define PMSC_CTRL0_RESET_RX     0xE0            /* Assuming only 4th byte of the register is read */
1303
#define PMSC_CTRL0_RESET_CLEAR  0xF0            /* Assuming only 4th byte of the register is read */
1304
/* offset from PMSC_ID in bytes */
1305
#define PMSC_CTRL1_OFFSET       0x04
1306
#define PMSC_CTRL1_LEN          (4)
1307
#define PMSC_CTRL1_MASK         0xFC02F802UL    /* access mask to register PMSC_CTRL1 */
1308
#define PMSC_CTRL1_ARX2INIT     0x00000002UL    /* Automatic transition from receive mode into the INIT state */
1309
#define PMSC_CTRL1_ATXSLP       0x00000800UL    /* If this bit is set then the DW1000 will automatically transition into SLEEP or DEEPSLEEP mode after transmission of a frame */
1310
#define PMSC_CTRL1_ARXSLP       0x00001000UL    /* this bit is set then the DW1000 will automatically transition into SLEEP mode after a receive attempt */
1311
#define PMSC_CTRL1_SNOZE        0x00002000UL    /* Snooze Enable */
1312
#define PMSC_CTRL1_SNOZR        0x00004000UL    /* The SNOZR bit is set to allow the snooze timer to repeat twice */
1313
#define PMSC_CTRL1_PLLSYN       0x00008000UL    /* This enables a special 1 GHz clock used for some external SYNC modes */
1314
#define PMSC_CTRL1_LDERUNE      0x00020000UL    /* This bit enables the running of the LDE algorithm */
1315
#define PMSC_CTRL1_KHZCLKDIV_MASK   0xFC000000UL    /* Kilohertz clock divisor */
1316
#define PMSC_CTRL1_PKTSEQ_DISABLE   0x00        /* writing this to PMSC CONTROL 1 register (bits 10-3) disables PMSC control of analog RF subsystems */
1317
#define PMSC_CTRL1_PKTSEQ_ENABLE    0xE7        /* writing this to PMSC CONTROL 1 register (bits 10-3) enables PMSC control of analog RF subsystems */
1318
/* offset from PMSC_ID in bytes */
1319
#define PMSC_RES1_OFFSET        0x08
1320
/* offset from PMSC_ID in bytes */
1321
#define PMSC_SNOZT_OFFSET       0x0C            /* PMSC Snooze Time Register */
1322
#define PMSC_SNOZT_LEN          (1)
1323
/* offset from PMSC_ID in bytes */
1324
#define PMSC_RES2_OFFSET        0x10
1325
/* offset from PMSC_ID in bytes */
1326
#define PMSC_RES3_OFFSET        0x24
1327
/* offset from PMSC_ID in bytes */
1328
#define PMSC_TXFINESEQ_OFFSET   0x26
1329
#define PMSC_TXFINESEQ_DISABLE  0x0             /* Writing this disables fine grain sequencing in the transmitter */
1330
#define PMSC_TXFINESEQ_ENABLE   0x0B74          /* Writing this enables fine grain sequencing in the transmitter */
1331
/* offset from PMSC_ID in bytes */
1332
#define PMSC_LEDC_OFFSET        0x28
1333
#define PMSC_LEDC_LEN           (4)
1334
#define PMSC_LEDC_MASK          0x000001FFUL    /* 32-bit LED control register. */
1335
#define PMSC_LEDC_BLINK_TIM_MASK 0x000000FFUL   /* This field determines how long the LEDs remain lit after an event that causes them to be set on. */
1336
#define PMSC_LEDC_BLNKEN        0x00000100UL    /* Blink Enable. When this bit is set to 1 the LED blink feature is enabled. */
1337
/* Default blink time. Blink time is expressed in multiples of 14 ms. The value defined here is ~225 ms. */
1338
#define PMSC_LEDC_BLINK_TIME_DEF 0x10
1339
/* Command a blink of all LEDs */
1340
#define PMSC_LEDC_BLINK_NOW_ALL 0x000F0000UL
1341

    
1342
/****************************************************************************//**
1343
 * @brief Bit definitions for register 0x37-0x3F
1344
 * Please take care not to write to these registers as doing so may cause the DW1000 to malfunction.
1345
**/
1346
#define REG_37_ID_RESERVED      0x37
1347
#define REG_38_ID_RESERVED      0x38
1348
#define REG_39_ID_RESERVED      0x39
1349
#define REG_3A_ID_RESERVED      0x3A
1350
#define REG_3B_ID_RESERVED      0x3B
1351
#define REG_3C_ID_RESERVED      0x3C
1352
#define REG_3D_ID_RESERVED      0x3D
1353
#define REG_3E_ID_RESERVED      0x3E
1354
#define REG_3F_ID_RESERVED      0x3F
1355

    
1356
/* END DW1000 REGISTER DEFINITION */
1357

    
1358
#ifdef __cplusplus
1359
}
1360
#endif
1361

    
1362
#endif /*DECA_REGS_H*/