/* * Copyright (c) 2020 PHYTEC Messtechnik GmbH * * SPDX-License-Identifier: Apache-2.0 * * This file is based on dw1000_regs.h and dw1000_mac.c from * https://github.com/Decawave/mynewt-dw1000-core.git * (d6b1414f1b4527abda7521a304baa1c648244108) * The content was modified and restructured to meet the * coding style and resolve namespace issues. * * This file is derived from material that is: * * Copyright (C) 2017-2018, Decawave Limited, All Rights Reserved * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. */ #ifndef ZEPHYR_INCLUDE_DW1000_REGS_H_ #define ZEPHYR_INCLUDE_DW1000_REGS_H_ /* Device ID register, includes revision info (0xDECA0130) */ #define DWT_DEV_ID_ID 0x00 #define DWT_DEV_ID_LEN 4 /* Revision */ #define DWT_DEV_ID_REV_MASK 0x0000000FUL /* Version */ #define DWT_DEV_ID_VER_MASK 0x000000F0UL /* The MODEL identifies the device. The DW1000 is device type 0x01 */ #define DWT_DEV_ID_MODEL_MASK 0x0000FF00UL /* Register Identification Tag 0XDECA */ #define DWT_DEV_ID_RIDTAG_MASK 0xFFFF0000UL /* IEEE Extended Unique Identifier (63:0) */ #define DWT_EUI_64_ID 0x01 #define DWT_EUI_64_OFFSET 0x00 #define DWT_EUI_64_LEN 8 /* PAN ID (31:16) and Short Address (15:0) */ #define DWT_PANADR_ID 0x03 #define DWT_PANADR_LEN 4 #define DWT_PANADR_SHORT_ADDR_OFFSET 0 /* Short Address */ #define DWT_PANADR_SHORT_ADDR_MASK 0x0000FFFFUL #define DWT_PANADR_PAN_ID_OFFSET 2 /* PAN Identifier */ #define DWT_PANADR_PAN_ID_MASK 0xFFFF00F0UL #define DWT_REG_05_ID_RESERVED 0x05 /* System Configuration (31:0) */ #define DWT_SYS_CFG_ID 0x04 #define DWT_SYS_CFG_LEN 4 /* Access mask to SYS_CFG_ID */ #define DWT_SYS_CFG_MASK 0xF047FFFFUL /* Frame filtering options all frames allowed */ #define DWT_SYS_CFG_FF_ALL_EN 0x000001FEUL /* Frame Filtering Enable. This bit enables the frame filtering functionality */ #define DWT_SYS_CFG_FFE 0x00000001UL /* Frame Filtering Behave as a Co-ordinator */ #define DWT_SYS_CFG_FFBC 0x00000002UL /* Frame Filtering Allow Beacon frame reception */ #define DWT_SYS_CFG_FFAB 0x00000004UL /* Frame Filtering Allow Data frame reception */ #define DWT_SYS_CFG_FFAD 0x00000008UL /* Frame Filtering Allow Acknowledgment frame reception */ #define DWT_SYS_CFG_FFAA 0x00000010UL /* Frame Filtering Allow MAC command frame reception */ #define DWT_SYS_CFG_FFAM 0x00000020UL /* Frame Filtering Allow Reserved frame types */ #define DWT_SYS_CFG_FFAR 0x00000040UL /* Frame Filtering Allow frames with frame type field of 4, (binary 100) */ #define DWT_SYS_CFG_FFA4 0x00000080UL /* Frame Filtering Allow frames with frame type field of 5, (binary 101) */ #define DWT_SYS_CFG_FFA5 0x00000100UL /* Host interrupt polarity */ #define DWT_SYS_CFG_HIRQ_POL 0x00000200UL /* SPI data launch edge */ #define DWT_SYS_CFG_SPI_EDGE 0x00000400UL /* Disable frame check error handling */ #define DWT_SYS_CFG_DIS_FCE 0x00000800UL /* Disable Double RX Buffer */ #define DWT_SYS_CFG_DIS_DRXB 0x00001000UL /* Disable receiver abort on PHR error */ #define DWT_SYS_CFG_DIS_PHE 0x00002000UL /* Disable Receiver Abort on RSD error */ #define DWT_SYS_CFG_DIS_RSDE 0x00004000UL /* initial seed value for the FCS generation and checking function */ #define DWT_SYS_CFG_FCS_INIT2F 0x00008000UL #define DWT_SYS_CFG_PHR_MODE_SHFT 16 /* Standard Frame mode */ #define DWT_SYS_CFG_PHR_MODE_00 0x00000000UL /* Long Frames mode */ #define DWT_SYS_CFG_PHR_MODE_11 0x00030000UL /* Disable Smart TX Power control */ #define DWT_SYS_CFG_DIS_STXP 0x00040000UL /* Receiver Mode 110 kbps data rate */ #define DWT_SYS_CFG_RXM110K 0x00400000UL /* Receive Wait Timeout Enable. */ #define DWT_SYS_CFG_RXWTOE 0x10000000UL /* * Receiver Auto-Re-enable. * This bit is used to cause the receiver to re-enable automatically */ #define DWT_SYS_CFG_RXAUTR 0x20000000UL /* Automatic Acknowledgement Enable */ #define DWT_SYS_CFG_AUTOACK 0x40000000UL /* Automatic Acknowledgement Pending bit control */ #define DWT_SYS_CFG_AACKPEND 0x80000000UL /* System Time Counter (40-bit) */ #define DWT_SYS_TIME_ID 0x06 #define DWT_SYS_TIME_OFFSET 0x00 /* Note 40 bit register */ #define DWT_SYS_TIME_LEN 5 #define DWT_REG_07_ID_RESERVED 0x07 /* Transmit Frame Control */ #define DWT_TX_FCTRL_ID 0x08 /* Note 40 bit register */ #define DWT_TX_FCTRL_LEN 5 /* Bit mask to access Transmit Frame Length */ #define DWT_TX_FCTRL_TFLEN_MASK 0x0000007FUL /* Bit mask to access Transmit Frame Length Extension */ #define DWT_TX_FCTRL_TFLE_MASK 0x00000380UL /* Bit mask to access Frame Length field */ #define DWT_TX_FCTRL_FLE_MASK 0x000003FFUL /* Bit mask to access Transmit Bit Rate */ #define DWT_TX_FCTRL_TXBR_MASK 0x00006000UL /* Bit mask to access Transmit Pulse Repetition Frequency */ #define DWT_TX_FCTRL_TXPRF_MASK 0x00030000UL /* Bit mask to access Transmit Preamble Symbol Repetitions (PSR). */ #define DWT_TX_FCTRL_TXPSR_MASK 0x000C0000UL /* Bit mask to access Preamble Extension */ #define DWT_TX_FCTRL_PE_MASK 0x00300000UL /* Bit mask to access Transmit Preamble Symbol Repetitions (PSR). */ #define DWT_TX_FCTRL_TXPSR_PE_MASK 0x003C0000UL /* FSCTRL has fields which should always be writen zero */ #define DWT_TX_FCTRL_SAFE_MASK_32 0xFFFFE3FFUL /* Transmit Bit Rate = 110k */ #define DWT_TX_FCTRL_TXBR_110k 0x00000000UL /* Transmit Bit Rate = 850k */ #define DWT_TX_FCTRL_TXBR_850k 0x00002000UL /* Transmit Bit Rate = 6.8M */ #define DWT_TX_FCTRL_TXBR_6M 0x00004000UL /* Shift to access Data Rate field */ #define DWT_TX_FCTRL_TXBR_SHFT 13 /* Transmit Ranging enable */ #define DWT_TX_FCTRL_TR 0x00008000UL /* Shift to access Ranging bit */ #define DWT_TX_FCTRL_TR_SHFT 15 /* Shift to access Pulse Repetition Frequency field */ #define DWT_TX_FCTRL_TXPRF_SHFT 16 /* Transmit Pulse Repetition Frequency = 4 Mhz */ #define DWT_TX_FCTRL_TXPRF_4M 0x00000000UL /* Transmit Pulse Repetition Frequency = 16 Mhz */ #define DWT_TX_FCTRL_TXPRF_16M 0x00010000UL /* Transmit Pulse Repetition Frequency = 64 Mhz */ #define DWT_TX_FCTRL_TXPRF_64M 0x00020000UL /* Shift to access Preamble Symbol Repetitions field */ #define DWT_TX_FCTRL_TXPSR_SHFT 18 /* * shift to access Preamble length Extension to allow specification * of non-standard values */ #define DWT_TX_FCTRL_PE_SHFT 20 /* Bit mask to access Preamble Extension = 16 */ #define DWT_TX_FCTRL_TXPSR_PE_16 0x00000000UL /* Bit mask to access Preamble Extension = 64 */ #define DWT_TX_FCTRL_TXPSR_PE_64 0x00040000UL /* Bit mask to access Preamble Extension = 128 */ #define DWT_TX_FCTRL_TXPSR_PE_128 0x00140000UL /* Bit mask to access Preamble Extension = 256 */ #define DWT_TX_FCTRL_TXPSR_PE_256 0x00240000UL /* Bit mask to access Preamble Extension = 512 */ #define DWT_TX_FCTRL_TXPSR_PE_512 0x00340000UL /* Bit mask to access Preamble Extension = 1024 */ #define DWT_TX_FCTRL_TXPSR_PE_1024 0x00080000UL /* Bit mask to access Preamble Extension = 1536 */ #define DWT_TX_FCTRL_TXPSR_PE_1536 0x00180000UL /* Bit mask to access Preamble Extension = 2048 */ #define DWT_TX_FCTRL_TXPSR_PE_2048 0x00280000UL /* Bit mask to access Preamble Extension = 4096 */ #define DWT_TX_FCTRL_TXPSR_PE_4096 0x000C0000UL /* Shift to access transmit buffer index offset */ #define DWT_TX_FCTRL_TXBOFFS_SHFT 22 /* Bit mask to access Transmit buffer index offset 10-bit field */ #define DWT_TX_FCTRL_TXBOFFS_MASK 0xFFC00000UL /* Bit mask to access Inter-Frame Spacing field */ #define DWT_TX_FCTRL_IFSDELAY_MASK 0xFF00000000ULL /* Transmit Data Buffer */ #define DWT_TX_BUFFER_ID 0x09 #define DWT_TX_BUFFER_LEN 1024 /* Delayed Send or Receive Time (40-bit) */ #define DWT_DX_TIME_ID 0x0A #define DWT_DX_TIME_LEN 5 #define DWT_REG_0B_ID_RESERVED 0x0B /* Receive Frame Wait Timeout Period */ #define DWT_RX_FWTO_ID 0x0C #define DWT_RX_FWTO_OFFSET 0x00 #define DWT_RX_FWTO_LEN 2 #define DWT_RX_FWTO_MASK 0xFFFF /* System Control Register */ #define DWT_SYS_CTRL_ID 0x0D #define DWT_SYS_CTRL_OFFSET 0x00 #define DWT_SYS_CTRL_LEN 4 /* * System Control Register access mask * (all unused fields should always be writen as zero) */ #define DWT_SYS_CTRL_MASK_32 0x010003CFUL /* Suppress Auto-FCS Transmission (on this frame) */ #define DWT_SYS_CTRL_SFCST 0x00000001UL /* Start Transmitting Now */ #define DWT_SYS_CTRL_TXSTRT 0x00000002UL /* Transmitter Delayed Sending (initiates sending when SYS_TIME == TXD_TIME */ #define DWT_SYS_CTRL_TXDLYS 0x00000004UL /* Cancel Suppression of auto-FCS transmission (on the current frame) */ #define DWT_SYS_CTRL_CANSFCS 0x00000008UL /* Transceiver Off. Force Transciever OFF abort TX or RX immediately */ #define DWT_SYS_CTRL_TRXOFF 0x00000040UL /* Wait for Response */ #define DWT_SYS_CTRL_WAIT4RESP 0x00000080UL /* Enable Receiver Now */ #define DWT_SYS_CTRL_RXENAB 0x00000100UL /* * Receiver Delayed Enable * (Enables Receiver when SY_TIME[0x??] == RXD_TIME[0x??] CHECK comment */ #define DWT_SYS_CTRL_RXDLYE 0x00000200UL /* * Host side receiver buffer pointer toggle - toggles 0/1 * host side data set pointer */ #define DWT_SYS_CTRL_HSRBTOGGLE 0x01000000UL #define DWT_SYS_CTRL_HRBT DWT_SYS_CTRL_HSRBTOGGLE #define DWT_SYS_CTRL_HRBT_OFFSET 3 /* System Event Mask Register */ #define DWT_SYS_MASK_ID 0x0E #define DWT_SYS_MASK_LEN 4 /* * System Event Mask Register access mask * (all unused fields should always be writen as zero) */ #define DWT_SYS_MASK_MASK_32 0x3FF7FFFEUL /* Mask clock PLL lock event */ #define DWT_SYS_MASK_MCPLOCK 0x00000002UL /* Mask clock PLL lock event */ #define DWT_SYS_MASK_MESYNCR 0x00000004UL /* Mask automatic acknowledge trigger event */ #define DWT_SYS_MASK_MAAT 0x00000008UL /* Mask transmit frame begins event */ #define DWT_SYS_MASK_MTXFRB 0x00000010UL /* Mask transmit preamble sent event */ #define DWT_SYS_MASK_MTXPRS 0x00000020UL /* Mask transmit PHY Header Sent event */ #define DWT_SYS_MASK_MTXPHS 0x00000040UL /* Mask transmit frame sent event */ #define DWT_SYS_MASK_MTXFRS 0x00000080UL /* Mask receiver preamble detected event */ #define DWT_SYS_MASK_MRXPRD 0x00000100UL /* Mask receiver SFD detected event */ #define DWT_SYS_MASK_MRXSFDD 0x00000200UL /* Mask LDE processing done event */ #define DWT_SYS_MASK_MLDEDONE 0x00000400UL /* Mask receiver PHY header detect event */ #define DWT_SYS_MASK_MRXPHD 0x00000800UL /* Mask receiver PHY header error event */ #define DWT_SYS_MASK_MRXPHE 0x00001000UL /* Mask receiver data frame ready event */ #define DWT_SYS_MASK_MRXDFR 0x00002000UL /* Mask receiver FCS good event */ #define DWT_SYS_MASK_MRXFCG 0x00004000UL /* Mask receiver FCS error event */ #define DWT_SYS_MASK_MRXFCE 0x00008000UL /* Mask receiver Reed Solomon Frame Sync Loss event */ #define DWT_SYS_MASK_MRXRFSL 0x00010000UL /* Mask Receive Frame Wait Timeout event */ #define DWT_SYS_MASK_MRXRFTO 0x00020000UL /* Mask leading edge detection processing error event */ #define DWT_SYS_MASK_MLDEERR 0x00040000UL /* Mask Receiver Overrun event */ #define DWT_SYS_MASK_MRXOVRR 0x00100000UL /* Mask Preamble detection timeout event */ #define DWT_SYS_MASK_MRXPTO 0x00200000UL /* Mask GPIO interrupt event */ #define DWT_SYS_MASK_MGPIOIRQ 0x00400000UL /* Mask SLEEP to INIT event */ #define DWT_SYS_MASK_MSLP2INIT 0x00800000UL /* Mask RF PLL Loosing Lock warning event */ #define DWT_SYS_MASK_MRFPLLLL 0x01000000UL /* Mask Clock PLL Loosing Lock warning event */ #define DWT_SYS_MASK_MCPLLLL 0x02000000UL /* Mask Receive SFD timeout event */ #define DWT_SYS_MASK_MRXSFDTO 0x04000000UL /* Mask Half Period Delay Warning event */ #define DWT_SYS_MASK_MHPDWARN 0x08000000UL /* Mask Transmit Buffer Error event */ #define DWT_SYS_MASK_MTXBERR 0x10000000UL /* Mask Automatic Frame Filtering rejection event */ #define DWT_SYS_MASK_MAFFREJ 0x20000000UL /* System event Status Register */ #define DWT_SYS_STATUS_ID 0x0F #define DWT_SYS_STATUS_OFFSET 0x00 /* Note 40 bit register */ #define DWT_SYS_STATUS_LEN 5 /* * System event Status Register access mask * (all unused fields should always be writen as zero) */ #define DWT_SYS_STATUS_MASK_32 0xFFF7FFFFUL /* Interrupt Request Status READ ONLY */ #define DWT_SYS_STATUS_IRQS 0x00000001UL /* Clock PLL Lock */ #define DWT_SYS_STATUS_CPLOCK 0x00000002UL /* External Sync Clock Reset */ #define DWT_SYS_STATUS_ESYNCR 0x00000004UL /* Automatic Acknowledge Trigger */ #define DWT_SYS_STATUS_AAT 0x00000008UL /* Transmit Frame Begins */ #define DWT_SYS_STATUS_TXFRB 0x00000010UL /* Transmit Preamble Sent */ #define DWT_SYS_STATUS_TXPRS 0x00000020UL /* Transmit PHY Header Sent */ #define DWT_SYS_STATUS_TXPHS 0x00000040UL /* * Transmit Frame Sent: * This is set when the transmitter has completed the sending of a frame */ #define DWT_SYS_STATUS_TXFRS 0x00000080UL /* Receiver Preamble Detected status */ #define DWT_SYS_STATUS_RXPRD 0x00000100UL /* Receiver Start Frame Delimiter Detected. */ #define DWT_SYS_STATUS_RXSFDD 0x00000200UL /* LDE processing done */ #define DWT_SYS_STATUS_LDEDONE 0x00000400UL /* Receiver PHY Header Detect */ #define DWT_SYS_STATUS_RXPHD 0x00000800UL /* Receiver PHY Header Error */ #define DWT_SYS_STATUS_RXPHE 0x00001000UL /* Receiver Data Frame Ready */ #define DWT_SYS_STATUS_RXDFR 0x00002000UL /* Receiver FCS Good */ #define DWT_SYS_STATUS_RXFCG 0x00004000UL /* Receiver FCS Error */ #define DWT_SYS_STATUS_RXFCE 0x00008000UL /* Receiver Reed Solomon Frame Sync Loss */ #define DWT_SYS_STATUS_RXRFSL 0x00010000UL /* Receive Frame Wait Timeout */ #define DWT_SYS_STATUS_RXRFTO 0x00020000UL /* Leading edge detection processing error */ #define DWT_SYS_STATUS_LDEERR 0x00040000UL /* bit19 reserved */ #define DWT_SYS_STATUS_reserved 0x00080000UL /* Receiver Overrun */ #define DWT_SYS_STATUS_RXOVRR 0x00100000UL /* Preamble detection timeout */ #define DWT_SYS_STATUS_RXPTO 0x00200000UL /* GPIO interrupt */ #define DWT_SYS_STATUS_GPIOIRQ 0x00400000UL /* SLEEP to INIT */ #define DWT_SYS_STATUS_SLP2INIT 0x00800000UL /* RF PLL Losing Lock */ #define DWT_SYS_STATUS_RFPLL_LL 0x01000000UL /* Clock PLL Losing Lock */ #define DWT_SYS_STATUS_CLKPLL_LL 0x02000000UL /* Receive SFD timeout */ #define DWT_SYS_STATUS_RXSFDTO 0x04000000UL /* Half Period Delay Warning */ #define DWT_SYS_STATUS_HPDWARN 0x08000000UL /* Transmit Buffer Error */ #define DWT_SYS_STATUS_TXBERR 0x10000000UL /* Automatic Frame Filtering rejection */ #define DWT_SYS_STATUS_AFFREJ 0x20000000UL /* Host Side Receive Buffer Pointer */ #define DWT_SYS_STATUS_HSRBP 0x40000000UL /* IC side Receive Buffer Pointer READ ONLY */ #define DWT_SYS_STATUS_ICRBP 0x80000000UL /* Receiver Reed-Solomon Correction Status */ #define DWT_SYS_STATUS_RXRSCS 0x0100000000ULL /* Receiver Preamble Rejection */ #define DWT_SYS_STATUS_RXPREJ 0x0200000000ULL /* Transmit power up time error */ #define DWT_SYS_STATUS_TXPUTE 0x0400000000ULL /* * These bits are the 16 high bits of status register TXPUTE and * HPDWARN flags */ #define DWT_SYS_STATUS_TXERR (0x0408) /* All RX events after a correct packet reception mask. */ #define DWT_SYS_STATUS_ALL_RX_GOOD (DWT_SYS_STATUS_RXDFR | \ DWT_SYS_STATUS_RXFCG | \ DWT_SYS_STATUS_RXPRD | \ DWT_SYS_STATUS_RXSFDD | \ DWT_SYS_STATUS_RXPHD) /* All TX events mask. */ #define DWT_SYS_STATUS_ALL_TX (DWT_SYS_STATUS_AAT | \ DWT_SYS_STATUS_TXFRB | \ DWT_SYS_STATUS_TXPRS | \ DWT_SYS_STATUS_TXPHS | \ DWT_SYS_STATUS_TXFRS) /* All double buffer events mask. */ #define DWT_SYS_STATUS_ALL_DBLBUFF (DWT_SYS_STATUS_RXDFR | \ DWT_SYS_STATUS_RXFCG) /* All RX errors mask. */ #define DWT_SYS_STATUS_ALL_RX_ERR (DWT_SYS_STATUS_RXPHE | \ DWT_SYS_STATUS_RXFCE | \ DWT_SYS_STATUS_RXRFSL | \ DWT_SYS_STATUS_RXOVRR | \ DWT_SYS_STATUS_RXSFDTO | \ DWT_SYS_STATUS_AFFREJ) #define DWT_SYS_MASK_ALL_RX_ERR (DWT_SYS_MASK_MRXPHE | \ DWT_SYS_MASK_MRXFCE | \ DWT_SYS_MASK_MRXRFSL | \ DWT_SYS_STATUS_RXOVRR | \ DWT_SYS_MASK_MRXSFDTO | \ DWT_SYS_MASK_MAFFREJ) /* * User defined RX timeouts * (frame wait timeout and preamble detect timeout) mask. */ #define DWT_SYS_STATUS_ALL_RX_TO (DWT_SYS_STATUS_RXRFTO | \ DWT_SYS_STATUS_RXPTO) #define DWT_SYS_MASK_ALL_RX_TO (DWT_SYS_MASK_MRXRFTO | \ DWT_SYS_MASK_MRXPTO) /* RX Frame Information (in double buffer set) */ #define DWT_RX_FINFO_ID 0x10 #define DWT_RX_FINFO_OFFSET 0x00 #define DWT_RX_FINFO_LEN 4 /* * System event Status Register access mask * (all unused fields should always be writen as zero) */ #define DWT_RX_FINFO_MASK_32 0xFFFFFBFFUL /* Receive Frame Length (0 to 127) */ #define DWT_RX_FINFO_RXFLEN_MASK 0x0000007FUL /* Receive Frame Length Extension (0 to 7)<<7 */ #define DWT_RX_FINFO_RXFLE_MASK 0x00000380UL /* Receive Frame Length Extension (0 to 1023) */ #define DWT_RX_FINFO_RXFL_MASK_1023 0x000003FFUL /* Receive Non-Standard Preamble Length */ #define DWT_RX_FINFO_RXNSPL_MASK 0x00001800UL /* * RX Preamble Repetition. * 00 = 16 symbols, 01 = 64 symbols, 10 = 1024 symbols, 11 = 4096 symbols */ #define DWT_RX_FINFO_RXPSR_MASK 0x000C0000UL /* Receive Preamble Length = RXPSR+RXNSPL */ #define DWT_RX_FINFO_RXPEL_MASK 0x000C1800UL /* Receive Preamble length = 64 */ #define DWT_RX_FINFO_RXPEL_64 0x00040000UL /* Receive Preamble length = 128 */ #define DWT_RX_FINFO_RXPEL_128 0x00040800UL /* Receive Preamble length = 256 */ #define DWT_RX_FINFO_RXPEL_256 0x00041000UL /* Receive Preamble length = 512 */ #define DWT_RX_FINFO_RXPEL_512 0x00041800UL /* Receive Preamble length = 1024 */ #define DWT_RX_FINFO_RXPEL_1024 0x00080000UL /* Receive Preamble length = 1536 */ #define DWT_RX_FINFO_RXPEL_1536 0x00080800UL /* Receive Preamble length = 2048 */ #define DWT_RX_FINFO_RXPEL_2048 0x00081000UL /* Receive Preamble length = 4096 */ #define DWT_RX_FINFO_RXPEL_4096 0x000C0000UL /* Receive Bit Rate report. This field reports the received bit rate */ #define DWT_RX_FINFO_RXBR_MASK 0x00006000UL /* Received bit rate = 110 kbps */ #define DWT_RX_FINFO_RXBR_110k 0x00000000UL /* Received bit rate = 850 kbps */ #define DWT_RX_FINFO_RXBR_850k 0x00002000UL /* Received bit rate = 6.8 Mbps */ #define DWT_RX_FINFO_RXBR_6M 0x00004000UL #define DWT_RX_FINFO_RXBR_SHIFT 13 /* * Receiver Ranging. Ranging bit in the received PHY header * identifying the frame as a ranging packet. */ #define DWT_RX_FINFO_RNG 0x00008000UL #define DWT_RX_FINFO_RNG_SHIFT 15 /* RX Pulse Repetition Rate report */ #define DWT_RX_FINFO_RXPRF_MASK 0x00030000UL /* PRF being employed in the receiver = 16M */ #define DWT_RX_FINFO_RXPRF_16M 0x00010000UL /* PRF being employed in the receiver = 64M */ #define DWT_RX_FINFO_RXPRF_64M 0x00020000UL #define DWT_RX_FINFO_RXPRF_SHIFT 16 /* Preamble Accumulation Count */ #define DWT_RX_FINFO_RXPACC_MASK 0xFFF00000UL #define DWT_RX_FINFO_RXPACC_SHIFT 20 /* Receive Data Buffer (in double buffer set) */ #define DWT_RX_BUFFER_ID 0x11 #define DWT_RX_BUFFER_LEN 1024 /* Rx Frame Quality information (in double buffer set) */ #define DWT_RX_FQUAL_ID 0x12 /* Note 64 bit register */ #define DWT_RX_FQUAL_LEN 8 /* Standard Deviation of Noise */ #define DWT_RX_EQUAL_STD_NOISE_MASK 0x0000FFFFULL #define DWT_RX_EQUAL_STD_NOISE_SHIFT 0 #define DWT_STD_NOISE_MASK DWT_RX_EQUAL_STD_NOISE_MASK #define DWT_STD_NOISE_SHIFT DWT_RX_EQUAL_STD_NOISE_SHIFT /* First Path Amplitude point 2 */ #define DWT_RX_EQUAL_FP_AMPL2_MASK 0xFFFF0000ULL #define DWT_RX_EQUAL_FP_AMPL2_SHIFT 16 #define DWT_FP_AMPL2_MASK DWT_RX_EQUAL_FP_AMPL2_MASK #define DWT_FP_AMPL2_SHIFT DWT_RX_EQUAL_FP_AMPL2_SHIFT /* First Path Amplitude point 3 */ #define DWT_RX_EQUAL_PP_AMPL3_MASK 0x0000FFFF00000000ULL #define DWT_RX_EQUAL_PP_AMPL3_SHIFT 32 #define DWT_PP_AMPL3_MASK DWT_RX_EQUAL_PP_AMPL3_MASK #define DWT_PP_AMPL3_SHIFT DWT_RX_EQUAL_PP_AMPL3_SHIFT /* Channel Impulse Response Max Growth */ #define DWT_RX_EQUAL_CIR_MXG_MASK 0xFFFF000000000000ULL #define DWT_RX_EQUAL_CIR_MXG_SHIFT 48 #define DWT_CIR_MXG_MASK DWT_RX_EQUAL_CIR_MXG_MASK #define DWT_CIR_MXG_SHIFT DWT_RX_EQUAL_CIR_MXG_SHIFT /* Receiver Time Tracking Interval (in double buffer set) */ #define DWT_RX_TTCKI_ID 0x13 #define DWT_RX_TTCKI_LEN 4 /* Receiver Time Tracking Offset (in double buffer set) */ #define DWT_RX_TTCKO_ID 0x14 /* Note 40 bit register */ #define DWT_RX_TTCKO_LEN 5 /* * Receiver Time Tracking Offset access mask * (all unused fields should always be writen as zero) */ #define DWT_RX_TTCKO_MASK_32 0xFF07FFFFUL /* RX time tracking offset. This RXTOFS value is a 19-bit signed quantity */ #define DWT_RX_TTCKO_RXTOFS_MASK 0x0007FFFFUL /* This 8-bit field reports an internal re-sampler delay value */ #define DWT_RX_TTCKO_RSMPDEL_MASK 0xFF000000UL /* * This 7-bit field reports the receive carrier phase adjustment * at time the ranging timestamp is made. */ #define DWT_RX_TTCKO_RCPHASE_MASK 0x7F0000000000ULL /* Receive Message Time of Arrival (in double buffer set) */ #define DWT_RX_TIME_ID 0x15 #define DWT_RX_TIME_LLEN 14 /* read only 5 bytes (the adjusted timestamp (40:0)) */ #define DWT_RX_TIME_RX_STAMP_LEN 5 #define DWT_RX_STAMP_LEN DWT_RX_TIME_RX_STAMP_LEN /* byte 0..4 40 bit Reports the fully adjusted time of reception. */ #define DWT_RX_TIME_RX_STAMP_OFFSET 0 /* byte 5..6 16 bit First path index. */ #define DWT_RX_TIME_FP_INDEX_OFFSET 5 /* byte 7..8 16 bit First Path Amplitude point 1 */ #define DWT_RX_TIME_FP_AMPL1_OFFSET 7 /* byte 9..13 40 bit Raw Timestamp for the frame */ #define DWT_RX_TIME_FP_RAWST_OFFSET 9 #define DWT_REG_16_ID_RESERVED 0x16 /* Transmit Message Time of Sending */ #define DWT_TX_TIME_ID 0x17 #define DWT_TX_TIME_LLEN 10 /* 40-bits = 5 bytes */ #define DWT_TX_TIME_TX_STAMP_LEN 5 #define DWT_TX_STAMP_LEN DWT_TX_TIME_TX_STAMP_LEN /* byte 0..4 40 bit Reports the fully adjusted time of transmission */ #define DWT_TX_TIME_TX_STAMP_OFFSET 0 /* byte 5..9 40 bit Raw Timestamp for the frame */ #define DWT_TX_TIME_TX_RAWST_OFFSET 5 /* 16-bit Delay from Transmit to Antenna */ #define DWT_TX_ANTD_ID 0x18 #define DWT_TX_ANTD_OFFSET 0x00 #define DWT_TX_ANTD_LEN 2 /* System State information READ ONLY */ #define DWT_SYS_STATE_ID 0x19 #define DWT_SYS_STATE_LEN 5 /* 7:0 TX _STATE Bits 3:0 */ #define DWT_TX_STATE_OFFSET 0x00 #define DWT_TX_STATE_MASK 0x07 #define DWT_TX_STATE_IDLE 0x00 #define DWT_TX_STATE_PREAMBLE 0x01 #define DWT_TX_STATE_SFD 0x02 #define DWT_TX_STATE_PHR 0x03 #define DWT_TX_STATE_SDE 0x04 #define DWT_TX_STATE_DATA 0x05 #define DWT_TX_STATE_RSP_DATE 0x06 #define DWT_TX_STATE_TAIL 0x07 #define DWT_RX_STATE_OFFSET 0x01 #define DWT_RX_STATE_IDLE 0x00 #define DWT_RX_STATE_START_ANALOG 0x01 #define DWT_RX_STATE_RX_RDY 0x04 #define DWT_RX_STATE_PREAMBLE_FOUND 0x05 #define DWT_RX_STATE_PRMBL_TIMEOUT 0x06 #define DWT_RX_STATE_SFD_FOUND 0x07 #define DWT_RX_STATE_CNFG_PHR_RX 0x08 #define DWT_RX_STATE_PHR_RX_STRT 0x09 #define DWT_RX_STATE_DATA_RATE_RDY 0x0A #define DWT_RX_STATE_DATA_RX_SEQ 0x0C #define DWT_RX_STATE_CNFG_DATA_RX 0x0D #define DWT_RX_STATE_PHR_NOT_OK 0x0E #define DWT_RX_STATE_LAST_SYMBOL 0x0F #define DWT_RX_STATE_WAIT_RSD_DONE 0x10 #define DWT_RX_STATE_RSD_OK 0x11 #define DWT_RX_STATE_RSD_NOT_OK 0x12 #define DWT_RX_STATE_RECONFIG_110 0x13 #define DWT_RX_STATE_WAIT_110_PHR 0x14 #define DWT_PMSC_STATE_OFFSET 0x02 #define DWT_PMSC_STATE_INIT 0x00 #define DWT_PMSC_STATE_IDLE 0x01 #define DWT_PMSC_STATE_TX_WAIT 0x02 #define DWT_PMSC_STATE_RX_WAIT 0x03 #define DWT_PMSC_STATE_TX 0x04 #define DWT_PMSC_STATE_RX 0x05 /* * Acknowledge (31:24 preamble symbol delay before auto ACK is sent) and * response (19:0 - unit 1us) timer */ /* Acknowledgement Time and Response Time */ #define DWT_ACK_RESP_T_ID 0x1A #define DWT_ACK_RESP_T_LEN 4 /* Acknowledgement Time and Response access mask */ #define DWT_ACK_RESP_T_MASK 0xFF0FFFFFUL #define DWT_ACK_RESP_T_W4R_TIM_OFFSET 0 /* Wait-for-Response turn-around Time 20 bit field */ #define DWT_ACK_RESP_T_W4R_TIM_MASK 0x000FFFFFUL #define DWT_W4R_TIM_MASK DWT_ACK_RESP_T_W4R_TIM_MASK #define DWT_ACK_RESP_T_ACK_TIM_OFFSET 3 /* Auto-Acknowledgement turn-around Time */ #define DWT_ACK_RESP_T_ACK_TIM_MASK 0xFF000000UL #define DWT_ACK_TIM_MASK DWT_ACK_RESP_T_ACK_TIM_MASK #define DWT_REG_1B_ID_RESERVED 0x1B #define DWT_REG_1C_ID_RESERVED 0x1C /* Sniff Mode Configuration */ #define DWT_RX_SNIFF_ID 0x1D #define DWT_RX_SNIFF_OFFSET 0x00 #define DWT_RX_SNIFF_LEN 4 #define DWT_RX_SNIFF_MASK 0x0000FF0FUL /* SNIFF Mode ON time. Specified in units of PAC */ #define DWT_RX_SNIFF_SNIFF_ONT_MASK 0x0000000FUL #define DWT_SNIFF_ONT_MASK DWT_RX_SNIFF_SNIFF_ONT_MASK /* * SNIFF Mode OFF time specified in units of approximately 1mkS, * or 128 system clock cycles. */ #define DWT_RX_SNIFF_SNIFF_OFFT_MASK 0x0000FF00UL #define DWT_SNIFF_OFFT_MASK DWT_RX_SNIFF_SNIFF_OFFT_MASK /* TX Power Control */ #define DWT_TX_POWER_ID 0x1E #define DWT_TX_POWER_LEN 4 /* * Mask and shift definition for Smart Transmit Power Control: * * This is the normal power setting used for frames that do not fall. */ #define DWT_TX_POWER_BOOSTNORM_MASK 0x00000000UL #define DWT_BOOSTNORM_MASK DWT_TX_POWER_BOOSTNORM_MASK #define DWT_TX_POWER_BOOSTNORM_SHIFT 0 /* * This value sets the power applied during transmission * at the 6.8 Mbps data rate frames that are less than 0.5 ms duration */ #define DWT_TX_POWER_BOOSTP500_MASK 0x00000000UL #define DWT_BOOSTP500_MASK DWT_TX_POWER_BOOSTP500_MASK #define DWT_TX_POWER_BOOSTP500_SHIFT 8 /* * This value sets the power applied during transmission * at the 6.8 Mbps data rate frames that are less than 0.25 ms duration */ #define DWT_TX_POWER_BOOSTP250_MASK 0x00000000UL #define DWT_BOOSTP250_MASK DWT_TX_POWER_BOOSTP250_MASK #define DWT_TX_POWER_BOOSTP250_SHIFT 16 /* * This value sets the power applied during transmission * at the 6.8 Mbps data rate frames that are less than 0.125 ms */ #define DWT_TX_POWER_BOOSTP125_MASK 0x00000000UL #define DWT_BOOSTP125_MASK DWT_TX_POWER_BOOSTP125_MASK #define DWT_TX_POWER_BOOSTP125_SHIFT 24 /* * Mask and shift definition for Manual Transmit Power Control * (DIS_STXP=1 in SYS_CFG) */ #define DWT_TX_POWER_MAN_DEFAULT 0x0E080222UL /* * This power setting is applied during the transmission * of the PHY header (PHR) portion of the frame. */ #define DWT_TX_POWER_TXPOWPHR_MASK 0x0000FF00UL /* * This power setting is applied during the transmission * of the synchronisation header (SHR) and data portions of the frame. */ #define DWT_TX_POWER_TXPOWSD_MASK 0x00FF0000UL /* Channel Control */ #define DWT_CHAN_CTRL_ID 0x1F #define DWT_CHAN_CTRL_LEN 4 /* Channel Control Register access mask */ #define DWT_CHAN_CTRL_MASK 0xFFFF00FFUL /* Supported channels are 1, 2, 3, 4, 5, and 7. */ #define DWT_CHAN_CTRL_TX_CHAN_MASK 0x0000000FUL /* Bits 0..3 TX channel number 0-15 selection */ #define DWT_CHAN_CTRL_TX_CHAN_SHIFT 0 #define DWT_CHAN_CTRL_RX_CHAN_MASK 0x000000F0UL /* Bits 4..7 RX channel number 0-15 selection */ #define DWT_CHAN_CTRL_RX_CHAN_SHIFT 4 /* * Bits 18..19 Specify (Force) RX Pulse Repetition Rate: * 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */ #define DWT_CHAN_CTRL_RXFPRF_MASK 0x000C0000UL #define DWT_CHAN_CTRL_RXFPRF_SHIFT 18 /* * Specific RXFPRF configuration: * * Specify (Force) RX Pulse Repetition Rate: * 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */ #define DWT_CHAN_CTRL_RXFPRF_4 0x00000000UL /* * Specify (Force) RX Pulse Repetition Rate: * 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */ #define DWT_CHAN_CTRL_RXFPRF_16 0x00040000UL /* * Specify (Force) RX Pulse Repetition Rate: * 00 = 4 MHz, 01 = 16 MHz, 10 = 64MHz. */ #define DWT_CHAN_CTRL_RXFPRF_64 0x00080000UL /* Bits 22..26 TX Preamble Code selection, 1 to 24. */ #define DWT_CHAN_CTRL_TX_PCOD_MASK 0x07C00000UL #define DWT_CHAN_CTRL_TX_PCOD_SHIFT 22 /* Bits 27..31 RX Preamble Code selection, 1 to 24. */ #define DWT_CHAN_CTRL_RX_PCOD_MASK 0xF8000000UL #define DWT_CHAN_CTRL_RX_PCOD_SHIFT 27 /* Bit 17 This bit enables a non-standard DecaWave proprietary SFD sequence. */ #define DWT_CHAN_CTRL_DWSFD 0x00020000UL #define DWT_CHAN_CTRL_DWSFD_SHIFT 17 /* Bit 20 Non-standard SFD in the transmitter */ #define DWT_CHAN_CTRL_TNSSFD 0x00100000UL #define DWT_CHAN_CTRL_TNSSFD_SHIFT 20 /* Bit 21 Non-standard SFD in the receiver */ #define DWT_CHAN_CTRL_RNSSFD 0x00200000UL #define DWT_CHAN_CTRL_RNSSFD_SHIFT 21 #define DWT_REG_20_ID_RESERVED 0x20 /* User-specified short/long TX/RX SFD sequences */ #define DWT_USR_SFD_ID 0x21 #define DWT_USR_SFD_LEN 41 /* Decawave non-standard SFD length for 110 kbps */ #define DWT_DW_NS_SFD_LEN_110K 64 /* Decawave non-standard SFD length for 850 kbps */ #define DWT_DW_NS_SFD_LEN_850K 16 /* Decawave non-standard SFD length for 6.8 Mbps */ #define DWT_DW_NS_SFD_LEN_6M8 8 #define DWT_REG_22_ID_RESERVED 0x22 /* Automatic Gain Control configuration */ #define DWT_AGC_CTRL_ID 0x23 #define DWT_AGC_CTRL_LEN 32 #define DWT_AGC_CFG_STS_ID DWT_AGC_CTRL_ID #define DWT_AGC_CTRL1_OFFSET (0x02) #define DWT_AGC_CTRL1_LEN 2 /* Access mask to AGC configuration and control register */ #define DWT_AGC_CTRL1_MASK 0x0001 /* Disable AGC Measurement. The DIS_AM bit is set by default. */ #define DWT_AGC_CTRL1_DIS_AM 0x0001 /* * Offset from AGC_CTRL_ID in bytes. * Please take care not to write other values to this register as doing so * may cause the DW1000 to malfunction */ #define DWT_AGC_TUNE1_OFFSET (0x04) #define DWT_AGC_TUNE1_LEN 2 /* It is a 16-bit tuning register for the AGC. */ #define DWT_AGC_TUNE1_MASK 0xFFFF #define DWT_AGC_TUNE1_16M 0x8870 #define DWT_AGC_TUNE1_64M 0x889B /* * Offset from AGC_CTRL_ID in bytes. * Please take care not to write other values to this register as doing so * may cause the DW1000 to malfunction */ #define DWT_AGC_TUNE2_OFFSET (0x0C) #define DWT_AGC_TUNE2_LEN 4 #define DWT_AGC_TUNE2_MASK 0xFFFFFFFFUL #define DWT_AGC_TUNE2_VAL 0X2502A907UL /* * Offset from AGC_CTRL_ID in bytes. * Please take care not to write other values to this register as doing so * may cause the DW1000 to malfunction */ #define DWT_AGC_TUNE3_LEN 2 #define DWT_AGC_TUNE3_MASK 0xFFFF #define DWT_AGC_TUNE3_VAL 0X0055 #define DWT_AGC_STAT1_OFFSET (0x1E) #define DWT_AGC_STAT1_LEN 3 #define DWT_AGC_STAT1_MASK 0x0FFFFF /* This 5-bit gain value relates to input noise power measurement. */ #define DWT_AGC_STAT1_EDG1_MASK 0x0007C0 /* This 9-bit value relates to the input noise power measurement. */ #define DWT_AGC_STAT1_EDG2_MASK 0x0FF800 /* External synchronisation control */ #define DWT_EXT_SYNC_ID 0x24 #define DWT_EXT_SYNC_LEN 12 #define DWT_EC_CTRL_OFFSET (0x00) #define DWT_EC_CTRL_LEN 4 /* * Sub-register 0x00 is the External clock synchronisation counter * configuration register */ #define DWT_EC_CTRL_MASK 0x00000FFBUL /* External transmit synchronisation mode enable */ #define DWT_EC_CTRL_OSTSM 0x00000001UL /* External receive synchronisation mode enable */ #define DWT_EC_CTRL_OSRSM 0x00000002UL /* PLL lock detect enable */ #define DWT_EC_CTRL_PLLLCK 0x04 /* External timebase reset mode enable */ #define DWT_EC_CTRL_OSTRM 0x00000800UL /* * Wait counter used for external transmit synchronisation and * external timebase reset */ #define DWT_EC_CTRL_WAIT_MASK 0x000007F8UL #define DWT_EC_RXTC_OFFSET (0x04) #define DWT_EC_RXTC_LEN 4 /* External clock synchronisation counter captured on RMARKER */ #define DWT_EC_RXTC_MASK 0xFFFFFFFFUL #define DWT_EC_GOLP (0x08) #define DWT_EC_GOLP_LEN 4 /* * Sub-register 0x08 is the External clock offset to first path 1 GHz counter, * EC_GOLP */ #define DWT_EC_GOLP_MASK 0x0000003FUL /* * This register contains the 1 GHz count from the arrival of the RMARKER and * the next edge of the external clock. */ #define DWT_EC_GOLP_OFFSET_EXT_MASK 0x0000003FUL /* Read access to accumulator data */ #define DWT_ACC_MEM_ID 0x25 #define DWT_ACC_MEM_LEN 4064 /* Peripheral register bus 1 access - GPIO control */ #define DWT_GPIO_CTRL_ID 0x26 #define DWT_GPIO_CTRL_LEN 44 /* Sub-register 0x00 is the GPIO Mode Control Register */ #define DWT_GPIO_MODE_OFFSET 0x00 #define DWT_GPIO_MODE_LEN 4 #define DWT_GPIO_MODE_MASK 0x00FFFFC0UL /* Mode Selection for GPIO0/RXOKLED */ #define DWT_GPIO_MSGP0_MASK 0x000000C0UL /* Mode Selection for GPIO1/SFDLED */ #define DWT_GPIO_MSGP1_MASK 0x00000300UL /* Mode Selection for GPIO2/RXLED */ #define DWT_GPIO_MSGP2_MASK 0x00000C00UL /* Mode Selection for GPIO3/TXLED */ #define DWT_GPIO_MSGP3_MASK 0x00003000UL /* Mode Selection for GPIO4/EXTPA */ #define DWT_GPIO_MSGP4_MASK 0x0000C000UL /* Mode Selection for GPIO5/EXTTXE */ #define DWT_GPIO_MSGP5_MASK 0x00030000UL /* Mode Selection for GPIO6/EXTRXE */ #define DWT_GPIO_MSGP6_MASK 0x000C0000UL /* Mode Selection for SYNC/GPIO7 */ #define DWT_GPIO_MSGP7_MASK 0x00300000UL /* Mode Selection for IRQ/GPIO8 */ #define DWT_GPIO_MSGP8_MASK 0x00C00000UL /* The pin operates as the RXLED output */ #define DWT_GPIO_PIN2_RXLED 0x00000400UL /* The pin operates as the TXLED output */ #define DWT_GPIO_PIN3_TXLED 0x00001000UL /* The pin operates as the EXTPA output */ #define DWT_GPIO_PIN4_EXTPA 0x00004000UL /* The pin operates as the EXTTXE output */ #define DWT_GPIO_PIN5_EXTTXE 0x00010000UL /* The pin operates as the EXTRXE output */ #define DWT_GPIO_PIN6_EXTRXE 0x00040000UL /* Sub-register 0x08 is the GPIO Direction Control Register */ #define DWT_GPIO_DIR_OFFSET 0x08 #define DWT_GPIO_DIR_LEN 3 #define DWT_GPIO_DIR_MASK 0x0011FFFFUL /* * GPIO0 only changed if the GxM0 mask bit has a value of 1 * for the write operation */ #define DWT_GxP0 0x00000001UL /* GPIO1. (See GDP0). */ #define DWT_GxP1 0x00000002UL /* GPIO2. (See GDP0). */ #define DWT_GxP2 0x00000004UL /* GPIO3. (See GDP0). */ #define DWT_GxP3 0x00000008UL /* GPIO4. (See GDP0). */ #define DWT_GxP4 0x00000100UL /* GPIO5. (See GDP0). */ #define DWT_GxP5 0x00000200UL /* GPIO6. (See GDP0). */ #define DWT_GxP6 0x00000400UL /* GPIO7. (See GDP0). */ #define DWT_GxP7 0x00000800UL /* GPIO8 */ #define DWT_GxP8 0x00010000UL /* Mask for GPIO0 */ #define DWT_GxM0 0x00000010UL /* Mask for GPIO1. (See GDM0). */ #define DWT_GxM1 0x00000020UL /* Mask for GPIO2. (See GDM0). */ #define DWT_GxM2 0x00000040UL /* Mask for GPIO3. (See GDM0). */ #define DWT_GxM3 0x00000080UL /* Mask for GPIO4. (See GDM0). */ #define DWT_GxM4 0x00001000UL /* Mask for GPIO5. (See GDM0). */ #define DWT_GxM5 0x00002000UL /* Mask for GPIO6. (See GDM0). */ #define DWT_GxM6 0x00004000UL /* Mask for GPIO7. (See GDM0). */ #define DWT_GxM7 0x00008000UL /* Mask for GPIO8. (See GDM0). */ #define DWT_GxM8 0x00100000UL /* * Direction Selection for GPIO0. 1 = input, 0 = output. * Only changed if the GDM0 mask bit has a value of 1 for the write operation */ #define DWT_GDP0 GxP0 /* Direction Selection for GPIO1. (See GDP0). */ #define DWT_GDP1 GxP1 /* Direction Selection for GPIO2. (See GDP0). */ #define DWT_GDP2 GxP2 /* Direction Selection for GPIO3. (See GDP0). */ #define DWT_GDP3 GxP3 /* Direction Selection for GPIO4. (See GDP0). */ #define DWT_GDP4 GxP4 /* Direction Selection for GPIO5. (See GDP0). */ #define DWT_GDP5 GxP5 /* Direction Selection for GPIO6. (See GDP0). */ #define DWT_GDP6 GxP6 /* Direction Selection for GPIO7. (See GDP0). */ #define DWT_GDP7 GxP7 /* Direction Selection for GPIO8 */ #define DWT_GDP8 GxP8 /* Mask for setting the direction of GPIO0 */ #define DWT_GDM0 GxM0 /* Mask for setting the direction of GPIO1. (See GDM0). */ #define DWT_GDM1 GxM1 /* Mask for setting the direction of GPIO2. (See GDM0). */ #define DWT_GDM2 GxM2 /* Mask for setting the direction of GPIO3. (See GDM0). */ #define DWT_GDM3 GxM3 /* Mask for setting the direction of GPIO4. (See GDM0). */ #define DWT_GDM4 GxM4 /* Mask for setting the direction of GPIO5. (See GDM0). */ #define DWT_GDM5 GxM5 /* Mask for setting the direction of GPIO6. (See GDM0). */ #define DWT_GDM6 GxM6 /* Mask for setting the direction of GPIO7. (See GDM0). */ #define DWT_GDM7 GxM7 /* Mask for setting the direction of GPIO8. (See GDM0). */ #define DWT_GDM8 GxM8 /* Sub-register 0x0C is the GPIO data output register. */ #define DWT_GPIO_DOUT_OFFSET 0x0C #define DWT_GPIO_DOUT_LEN 3 #define DWT_GPIO_DOUT_MASK DWT_GPIO_DIR_MASK /* Sub-register 0x10 is the GPIO interrupt enable register */ #define DWT_GPIO_IRQE_OFFSET 0x10 #define DWT_GPIO_IRQE_LEN 4 #define DWT_GPIO_IRQE_MASK 0x000001FFUL /* IRQ bit0 */ #define DWT_GIRQx0 0x00000001UL /* IRQ bit1 */ #define DWT_GIRQx1 0x00000002UL /* IRQ bit2 */ #define DWT_GIRQx2 0x00000004UL /* IRQ bit3 */ #define DWT_GIRQx3 0x00000008UL /* IRQ bit4 */ #define DWT_GIRQx4 0x00000010UL /* IRQ bit5 */ #define DWT_GIRQx5 0x00000020UL /* IRQ bit6 */ #define DWT_GIRQx6 0x00000040UL /* IRQ bit7 */ #define DWT_GIRQx7 0x00000080UL /* IRQ bit8 */ #define DWT_GIRQx8 0x00000100UL /* GPIO IRQ Enable for GPIO0 input. Value 1 = enable, 0 = disable */ #define DWT_GIRQE0 GIRQx0 #define DWT_GIRQE1 GIRQx1 #define DWT_GIRQE2 GIRQx2 #define DWT_GIRQE3 GIRQx3 #define DWT_GIRQE4 GIRQx4 #define DWT_GIRQE5 GIRQx5 #define DWT_GIRQE6 GIRQx6 #define DWT_GIRQE7 GIRQx7 #define DWT_GIRQE8 GIRQx8 /* Sub-register 0x14 is the GPIO interrupt sense selection register */ #define DWT_GPIO_ISEN_OFFSET 0x14 #define DWT_GPIO_ISEN_LEN 4 #define DWT_GPIO_ISEN_MASK DWT_GPIO_IRQE_MASK /* GPIO IRQ Sense selection GPIO0 input. * Value 0 = High or Rising-Edge, * 1 = Low or falling-edge. */ #define DWT_GISEN0 GIRQx0 #define DWT_GISEN1 GIRQx1 #define DWT_GISEN2 GIRQx2 #define DWT_GISEN3 GIRQx3 #define DWT_GISEN4 GIRQx4 #define DWT_GISEN5 GIRQx5 #define DWT_GISEN6 GIRQx6 #define DWT_GISEN7 GIRQx7 #define DWT_GISEN8 GIRQx8 /* Sub-register 0x18 is the GPIO interrupt mode selection register */ #define DWT_GPIO_IMODE_OFFSET 0x18 #define DWT_GPIO_IMODE_LEN 4 #define DWT_GPIO_IMODE_MASK DWT_GPIO_IRQE_MASK /* GPIO IRQ Mode selection for GPIO0 input. * Value 0 = Level sensitive interrupt. * Value 1 = Edge triggered interrupt */ #define DWT_GIMOD0 GIRQx0 #define DWT_GIMOD1 GIRQx1 #define DWT_GIMOD2 GIRQx2 #define DWT_GIMOD3 GIRQx3 #define DWT_GIMOD4 GIRQx4 #define DWT_GIMOD5 GIRQx5 #define DWT_GIMOD6 GIRQx6 #define DWT_GIMOD7 GIRQx7 #define DWT_GIMOD8 GIRQx8 /* Sub-register 0x1C is the GPIO interrupt "Both Edge" selection register */ #define DWT_GPIO_IBES_OFFSET 0x1C #define DWT_GPIO_IBES_LEN 4 #define DWT_GPIO_IBES_MASK DWT_GPIO_IRQE_MASK /* GPIO IRQ "Both Edge" selection for GPIO0 input. * Value 0 = GPIO_IMODE register selects the edge. * Value 1 = Both edges trigger the interrupt. */ #define DWT_GIBES0 GIRQx0 #define DWT_GIBES1 GIRQx1 #define DWT_GIBES2 GIRQx2 #define DWT_GIBES3 GIRQx3 #define DWT_GIBES4 GIRQx4 #define DWT_GIBES5 GIRQx5 #define DWT_GIBES6 GIRQx6 #define DWT_GIBES7 GIRQx7 #define DWT_GIBES8 GIRQx8 /* Sub-register 0x20 is the GPIO interrupt clear register */ #define DWT_GPIO_ICLR_OFFSET 0x20 #define DWT_GPIO_ICLR_LEN 4 #define DWT_GPIO_ICLR_MASK DWT_GPIO_IRQE_MASK /* GPIO IRQ latch clear for GPIO0 input. * Write 1 to clear the GPIO0 interrupt latch. * Writing 0 has no effect. Reading returns zero */ #define DWT_GICLR0 GIRQx0 #define DWT_GICLR1 GIRQx1 #define DWT_GICLR2 GIRQx2 #define DWT_GICLR3 GIRQx3 #define DWT_GICLR4 GIRQx4 #define DWT_GICLR5 GIRQx5 #define DWT_GICLR6 GIRQx6 #define DWT_GICLR7 GIRQx7 #define DWT_GICLR8 GIRQx8 /* Sub-register 0x24 is the GPIO interrupt de-bounce enable register */ #define DWT_GPIO_IDBE_OFFSET 0x24 #define DWT_GPIO_IDBE_LEN 4 #define DWT_GPIO_IDBE_MASK DWT_GPIO_IRQE_MASK /* GPIO IRQ de-bounce enable for GPIO0. * Value 1 = de-bounce enabled. * Value 0 = de-bounce disabled */ #define DWT_GIDBE0 GIRQx0 #define DWT_GIDBE1 GIRQx1 #define DWT_GIDBE2 GIRQx2 #define DWT_GIDBE3 GIRQx3 #define DWT_GIDBE4 GIRQx4 #define DWT_GIDBE5 GIRQx5 #define DWT_GIDBE6 GIRQx6 #define DWT_GIDBE7 GIRQx7 /* Value 1 = de-bounce enabled, 0 = de-bounce disabled */ #define DWT_GIDBE8 GIRQx8 /* Sub-register 0x28 allows the raw state of the GPIO pin to be read. */ #define DWT_GPIO_RAW_OFFSET 0x28 #define DWT_GPIO_RAW_LEN 4 #define DWT_GPIO_RAW_MASK DWT_GPIO_IRQE_MASK /* This bit reflects the raw state of GPIO0 .. GPIO8 */ #define DWT_GRAWP0 GIRQx0 #define DWT_GRAWP1 GIRQx1 #define DWT_GRAWP2 GIRQx2 #define DWT_GRAWP3 GIRQx3 #define DWT_GRAWP4 GIRQx4 #define DWT_GRAWP5 GIRQx5 #define DWT_GRAWP6 GIRQx6 #define DWT_GRAWP7 GIRQx7 #define DWT_GRAWP8 GIRQx8 /* Digital Receiver configuration */ #define DWT_DRX_CONF_ID 0x27 #define DWT_DRX_CONF_LEN 44 /* Sub-register 0x02 is a 16-bit tuning register. */ #define DWT_DRX_TUNE0b_OFFSET (0x02) #define DWT_DRX_TUNE0b_LEN 2 /* 7.2.40.2 Sub-Register 0x27:02 DRX_TUNE0b */ #define DWT_DRX_TUNE0b_MASK 0xFFFF #define DWT_DRX_TUNE0b_110K_STD 0x000A #define DWT_DRX_TUNE0b_110K_NSTD 0x0016 #define DWT_DRX_TUNE0b_850K_STD 0x0001 #define DWT_DRX_TUNE0b_850K_NSTD 0x0006 #define DWT_DRX_TUNE0b_6M8_STD 0x0001 #define DWT_DRX_TUNE0b_6M8_NSTD 0x0002 /* 7.2.40.3 Sub-Register 0x27:04 DRX_TUNE1a */ #define DWT_DRX_TUNE1a_OFFSET 0x04 #define DWT_DRX_TUNE1a_LEN 2 #define DWT_DRX_TUNE1a_MASK 0xFFFF #define DWT_DRX_TUNE1a_PRF16 0x0087 #define DWT_DRX_TUNE1a_PRF64 0x008D /* 7.2.40.4 Sub-Register 0x27:06 DRX_TUNE1b */ #define DWT_DRX_TUNE1b_OFFSET 0x06 #define DWT_DRX_TUNE1b_LEN 2 #define DWT_DRX_TUNE1b_MASK 0xFFFF #define DWT_DRX_TUNE1b_110K 0x0064 #define DWT_DRX_TUNE1b_850K_6M8 0x0020 #define DWT_DRX_TUNE1b_6M8_PRE64 0x0010 /* 7.2.40.5 Sub-Register 0x27:08 DRX_TUNE2 */ #define DWT_DRX_TUNE2_OFFSET 0x08 #define DWT_DRX_TUNE2_LEN 4 #define DWT_DRX_TUNE2_MASK 0xFFFFFFFFUL #define DWT_DRX_TUNE2_PRF16_PAC8 0x311A002DUL #define DWT_DRX_TUNE2_PRF16_PAC16 0x331A0052UL #define DWT_DRX_TUNE2_PRF16_PAC32 0x351A009AUL #define DWT_DRX_TUNE2_PRF16_PAC64 0x371A011DUL #define DWT_DRX_TUNE2_PRF64_PAC8 0x313B006BUL #define DWT_DRX_TUNE2_PRF64_PAC16 0x333B00BEUL #define DWT_DRX_TUNE2_PRF64_PAC32 0x353B015EUL #define DWT_DRX_TUNE2_PRF64_PAC64 0x373B0296UL /* WARNING: Please do NOT set DRX_SFDTOC to zero * (disabling SFD detection timeout) since this risks IC malfunction * due to prolonged receiver activity in the event of false preamble detection. */ /* 7.2.40.7 Sub-Register 0x27:20 DRX_SFDTOC */ #define DWT_DRX_SFDTOC_OFFSET 0x20 #define DWT_DRX_SFDTOC_LEN 2 #define DWT_DRX_SFDTOC_MASK 0xFFFF /* 7.2.40.9 Sub-Register 0x27:24 DRX_PRETOC */ #define DWT_DRX_PRETOC_OFFSET 0x24 #define DWT_DRX_PRETOC_LEN 2 #define DWT_DRX_PRETOC_MASK 0xFFFF /* 7.2.40.10 Sub-Register 0x27:26 DRX_TUNE4H */ #define DWT_DRX_TUNE4H_OFFSET 0x26 #define DWT_DRX_TUNE4H_LEN 2 #define DWT_DRX_TUNE4H_MASK 0xFFFF #define DWT_DRX_TUNE4H_PRE64 0x0010 #define DWT_DRX_TUNE4H_PRE128PLUS 0x0028 /* * Offset from DRX_CONF_ID in bytes to 21-bit signed * RX carrier integrator value */ #define DWT_DRX_CARRIER_INT_OFFSET 0x28 #define DWT_DRX_CARRIER_INT_LEN 3 #define DWT_DRX_CARRIER_INT_MASK 0x001FFFFF /* 7.2.40.11 Sub-Register 0x27:2C - RXPACC_NOSAT */ #define DWT_RPACC_NOSAT_OFFSET 0x2C #define DWT_RPACC_NOSAT_LEN 2 #define DWT_RPACC_NOSAT_MASK 0xFFFF /* Analog RF Configuration */ #define DWT_RF_CONF_ID 0x28 #define DWT_RF_CONF_LEN 58 /* TX enable */ #define DWT_RF_CONF_TXEN_MASK 0x00400000UL /* RX enable */ #define DWT_RF_CONF_RXEN_MASK 0x00200000UL /* Turn on power all LDOs */ #define DWT_RF_CONF_TXPOW_MASK 0x001F0000UL /* Enable PLLs */ #define DWT_RF_CONF_PLLEN_MASK 0x0000E000UL /* Enable TX blocks */ #define DWT_RF_CONF_TXBLOCKSEN_MASK 0x00001F00UL #define DWT_RF_CONF_TXPLLPOWEN_MASK (DWT_RF_CONF_PLLEN_MASK | \ DWT_RF_CONF_TXPOW_MASK) #define DWT_RF_CONF_TXALLEN_MASK (DWT_RF_CONF_TXEN_MASK | \ DWT_RF_CONF_TXPOW_MASK | \ DWT_RF_CONF_PLLEN_MASK | \ DWT_RF_CONF_TXBLOCKSEN_MASK) /* Analog RX Control Register */ #define DWT_RF_RXCTRLH_OFFSET 0x0B #define DWT_RF_RXCTRLH_LEN 1 /* RXCTRLH value for narrow bandwidth channels */ #define DWT_RF_RXCTRLH_NBW 0xD8 /* RXCTRLH value for wide bandwidth channels */ #define DWT_RF_RXCTRLH_WBW 0xBC /* Analog TX Control Register */ #define DWT_RF_TXCTRL_OFFSET 0x0C #define DWT_RF_TXCTRL_LEN 4 /* Transmit mixer tuning register */ #define DWT_RF_TXCTRL_TXMTUNE_MASK 0x000001E0UL /* Transmit mixer Q-factor tuning register */ #define DWT_RF_TXCTRL_TXTXMQ_MASK 0x00000E00UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH1 0x00005C40UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH2 0x00045CA0UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH3 0x00086CC0UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH4 0x00045C80UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH5 0x001E3FE0UL /* 32-bit value to program to Sub-Register 0x28:0C RF_TXCTRL */ #define DWT_RF_TXCTRL_CH7 0x001E7DE0UL #define DWT_RF_STATUS_OFFSET 0x2C #define DWT_REG_29_ID_RESERVED 0x29 /* Transmitter calibration block */ #define DWT_TX_CAL_ID 0x2A #define DWT_TX_CAL_LEN 52 /* SAR control */ #define DWT_TC_SARL_SAR_C 0 /* Cause bug in register block TX_CAL, we need to read 1 byte in a time */ /* Latest SAR reading for Voltage level */ #define DWT_TC_SARL_SAR_LVBAT_OFFSET 3 /* Latest SAR reading for Temperature level */ #define DWT_TC_SARL_SAR_LTEMP_OFFSET 4 /* SAR reading of Temperature level taken at last wakeup event */ #define DWT_TC_SARW_SAR_WTEMP_OFFSET 0x06 /* SAR reading of Voltage level taken at last wakeup event */ #define DWT_TC_SARW_SAR_WVBAT_OFFSET 0x07 /* Transmitter Calibration Pulse Generator Delay */ #define DWT_TC_PGDELAY_OFFSET 0x0B #define DWT_TC_PGDELAY_LEN 1 /* Recommended value for channel 1 */ #define DWT_TC_PGDELAY_CH1 0xC9 /* Recommended value for channel 2 */ #define DWT_TC_PGDELAY_CH2 0xC2 /* Recommended value for channel 3 */ #define DWT_TC_PGDELAY_CH3 0xC5 /* Recommended value for channel 4 */ #define DWT_TC_PGDELAY_CH4 0x95 /* Recommended value for channel 5 */ #define DWT_TC_PGDELAY_CH5 0xC0 /* Recommended value for channel 7 */ #define DWT_TC_PGDELAY_CH7 0x93 /* Transmitter Calibration Pulse Generator Test */ #define DWT_TC_PGTEST_OFFSET 0x0C #define DWT_TC_PGTEST_LEN 1 /* Normal operation */ #define DWT_TC_PGTEST_NORMAL 0x00 /* Continuous Wave (CW) Test Mode */ #define DWT_TC_PGTEST_CW 0x13 /* Frequency synthesiser control block */ #define DWT_FS_CTRL_ID 0x2B #define DWT_FS_CTRL_LEN 21 /* * Offset from FS_CTRL_ID in bytes, reserved area. * Please take care not to write to this area as doing so * may cause the DW1000 to malfunction. */ #define DWT_FS_RES1_OFFSET 0x00 #define DWT_FS_RES1_LEN 7 /* Frequency synthesiser PLL configuration */ #define DWT_FS_PLLCFG_OFFSET 0x07 #define DWT_FS_PLLCFG_LEN 5 /* Operating Channel 1 */ #define DWT_FS_PLLCFG_CH1 0x09000407UL /* Operating Channel 2 */ #define DWT_FS_PLLCFG_CH2 0x08400508UL /* Operating Channel 3 */ #define DWT_FS_PLLCFG_CH3 0x08401009UL /* Operating Channel 4 (same as 2) */ #define DWT_FS_PLLCFG_CH4 DWT_FS_PLLCFG_CH2 /* Operating Channel 5 */ #define DWT_FS_PLLCFG_CH5 0x0800041DUL /* Operating Channel 7 (same as 5) */ #define DWT_FS_PLLCFG_CH7 DWT_FS_PLLCFG_CH5 /* Frequency synthesiser PLL Tuning */ #define DWT_FS_PLLTUNE_OFFSET 0x0B #define DWT_FS_PLLTUNE_LEN 1 /* Operating Channel 1 */ #define DWT_FS_PLLTUNE_CH1 0x1E /* Operating Channel 2 */ #define DWT_FS_PLLTUNE_CH2 0x26 /* Operating Channel 3 */ #define DWT_FS_PLLTUNE_CH3 0x56 /* Operating Channel 4 (same as 2) */ #define DWT_FS_PLLTUNE_CH4 DWT_FS_PLLTUNE_CH2 /* Operating Channel 5 */ #define DWT_FS_PLLTUNE_CH5 0xBE /* Operating Channel 7 (same as 5) */ #define DWT_FS_PLLTUNE_CH7 DWT_FS_PLLTUNE_CH5 /* * Offset from FS_CTRL_ID in bytes. * Please take care not to write to this area as doing so * may cause the DW1000 to malfunction. */ #define DWT_FS_RES2_OFFSET 0x0C #define DWT_FS_RES2_LEN 2 /* Frequency synthesiser Crystal trim */ #define DWT_FS_XTALT_OFFSET 0x0E #define DWT_FS_XTALT_LEN 1 /* * Crystal Trim. * Crystals may be trimmed using this register setting to tune out errors, * see 8.1 IC Calibration Crystal Oscillator Trim. */ #define DWT_FS_XTALT_MASK 0x1F #define DWT_FS_XTALT_MIDRANGE 0x10 /* * Offset from FS_CTRL_ID in bytes. * Please take care not to write to this area as doing so * may cause the DW1000 to malfunction. */ #define DWT_FS_RES3_OFFSET 0x0F #define DWT_FS_RES3_LEN 6 /* Always-On register set */ #define DWT_AON_ID 0x2C #define DWT_AON_LEN 12 /* * Offset from AON_ID in bytes * Used to control what the DW1000 IC does as it wakes up from * low-power SLEEP or DEEPSLEEPstates. */ #define DWT_AON_WCFG_OFFSET 0x00 #define DWT_AON_WCFG_LEN 2 /* Access mask to AON_WCFG register */ #define DWT_AON_WCFG_MASK 0x09CB /* On Wake-up Run the (temperature and voltage) Analog-to-Digital Converters */ #define DWT_AON_WCFG_ONW_RADC 0x0001 /* On Wake-up turn on the Receiver */ #define DWT_AON_WCFG_ONW_RX 0x0002 /* * On Wake-up load the EUI from OTP memory into Register file: * 0x01 Extended Unique Identifier. */ #define DWT_AON_WCFG_ONW_LEUI 0x0008 /* * On Wake-up load configurations from the AON memory * into the host interface register set */ #define DWT_AON_WCFG_ONW_LDC 0x0040 /* On Wake-up load the Length64 receiver operating parameter set */ #define DWT_AON_WCFG_ONW_L64P 0x0080 /* * Preserve Sleep. This bit determines what the DW1000 does * with respect to the ARXSLP and ATXSLP sleep controls */ #define DWT_AON_WCFG_PRES_SLEEP 0x0100 /* On Wake-up load the LDE microcode. */ #define DWT_AON_WCFG_ONW_LLDE 0x0800 /* On Wake-up load the LDO tune value. */ #define DWT_AON_WCFG_ONW_LLDO 0x1000 /* * The bits in this register in general cause direct activity * within the AON block with respect to the stored AON memory */ #define DWT_AON_CTRL_OFFSET 0x02 #define DWT_AON_CTRL_LEN 1 /* Access mask to AON_CTRL register */ #define DWT_AON_CTRL_MASK 0x8F /* * When this bit is set the DW1000 will copy the user configurations * from the AON memory to the host interface register set. */ #define DWT_AON_CTRL_RESTORE 0x01 /* * When this bit is set the DW1000 will copy the user configurations * from the host interface register set into the AON memory */ #define DWT_AON_CTRL_SAVE 0x02 /* Upload the AON block configurations to the AON */ #define DWT_AON_CTRL_UPL_CFG 0x04 /* Direct AON memory access read */ #define DWT_AON_CTRL_DCA_READ 0x08 /* Direct AON memory access enable bit */ #define DWT_AON_CTRL_DCA_ENAB 0x80 /* AON Direct Access Read Data Result */ #define DWT_AON_RDAT_OFFSET 0x03 #define DWT_AON_RDAT_LEN 1 /* AON Direct Access Address */ #define DWT_AON_ADDR_OFFSET 0x04 #define DWT_AON_ADDR_LEN 1 /* Address of low-power oscillator calibration value (lower byte) */ #define DWT_AON_ADDR_LPOSC_CAL_0 117 /* Address of low-power oscillator calibration value (lower byte) */ #define DWT_AON_ADDR_LPOSC_CAL_1 118 /* 32-bit configuration register for the always on block. */ #define DWT_AON_CFG0_OFFSET 0x06 #define DWT_AON_CFG0_LEN 4 /* This is the sleep enable configuration bit */ #define DWT_AON_CFG0_SLEEP_EN 0x00000001UL /* Wake using WAKEUP pin */ #define DWT_AON_CFG0_WAKE_PIN 0x00000002UL /* Wake using SPI access SPICSn */ #define DWT_AON_CFG0_WAKE_SPI 0x00000004UL /* Wake when sleep counter elapses */ #define DWT_AON_CFG0_WAKE_CNT 0x00000008UL /* Low power divider enable configuration */ #define DWT_AON_CFG0_LPDIV_EN 0x00000010UL /* * Divider count for dividing the raw DW1000 XTAL oscillator frequency * to set an LP clock frequency */ #define DWT_AON_CFG0_LPCLKDIVA_MASK 0x0000FFE0UL #define DWT_AON_CFG0_LPCLKDIVA_SHIFT 5 /* Sleep time. This field configures the sleep time count elapse value */ #define DWT_AON_CFG0_SLEEP_TIM 0xFFFF0000UL #define DWT_AON_CFG0_SLEEP_SHIFT 16 #define DWT_AON_CFG0_SLEEP_TIM_OFFSET 2 #define DWT_AON_CFG1_OFFSET 0x0A #define DWT_AON_CFG1_LEN 2 /* access mask to AON_CFG1 */ #define DWT_AON_CFG1_MASK 0x0007 /* This bit enables the sleep counter */ #define DWT_AON_CFG1_SLEEP_CEN 0x0001 /* * This bit needs to be set to 0 for correct operation * in the SLEEP state within the DW1000 */ #define DWT_AON_CFG1_SMXX 0x0002 /* * This bit enables the calibration function that measures * the period of the ICs internal low powered oscillator. */ #define DWT_AON_CFG1_LPOSC_CAL 0x0004 /* One Time Programmable Memory Interface */ #define DWT_OTP_IF_ID 0x2D #define DWT_OTP_IF_LEN 18 /* 32-bit register. The data value to be programmed into an OTP location */ #define DWT_OTP_WDAT 0x00 #define DWT_OTP_WDAT_LEN 4 /* 16-bit register used to select the address within the OTP memory block */ #define DWT_OTP_ADDR 0x04 #define DWT_OTP_ADDR_LEN 2 /* * This 11-bit field specifies the address within OTP memory * that will be accessed read or written. */ #define DWT_OTP_ADDR_MASK 0x07FF /* used to control the operation of the OTP memory */ #define DWT_OTP_CTRL 0x06 #define DWT_OTP_CTRL_LEN 2 #define DWT_OTP_CTRL_MASK 0x8002 /* This bit forces the OTP into manual read mode */ #define DWT_OTP_CTRL_OTPRDEN 0x0001 /* * This bit commands a read operation from the address specified * in the OTP_ADDR register */ #define DWT_OTP_CTRL_OTPREAD 0x0002 /* This bit forces a load of LDE microcode */ #define DWT_OTP_CTRL_LDELOAD 0x8000 /* * Setting this bit will cause the contents of OTP_WDAT to be written * to OTP_ADDR. */ #define DWT_OTP_CTRL_OTPPROG 0x0040 #define DWT_OTP_STAT 0x08 #define DWT_OTP_STAT_LEN 2 #define DWT_OTP_STAT_MASK 0x0003 /* OTP Programming Done */ #define DWT_OTP_STAT_OTPPRGD 0x0001 /* OTP Programming Voltage OK */ #define DWT_OTP_STAT_OTPVPOK 0x0002 /* 32-bit register. The data value read from an OTP location will appear here */ #define DWT_OTP_RDAT 0x0A #define DWT_OTP_RDAT_LEN 4 /* * 32-bit register. The data value stored in the OTP SR (0x400) location * will appear here after power up */ #define DWT_OTP_SRDAT 0x0E #define DWT_OTP_SRDAT_LEN 4 /* * 8-bit special function register used to select and * load special receiver operational parameter */ #define DWT_OTP_SF 0x12 #define DWT_OTP_SF_LEN 1 #define DWT_OTP_SF_MASK 0x63 /* * This bit when set initiates a load of the operating parameter set * selected by the OPS_SEL */ #define DWT_OTP_SF_OPS_KICK 0x01 /* This bit when set initiates a load of the LDO tune code */ #define DWT_OTP_SF_LDO_KICK 0x02 #define DWT_OTP_SF_OPS_SEL_SHFT 5 #define DWT_OTP_SF_OPS_SEL_MASK 0x60 /* Operating parameter set selection: Length64 */ #define DWT_OTP_SF_OPS_SEL_L64 0x00 /* Operating parameter set selection: Tight */ #define DWT_OTP_SF_OPS_SEL_TIGHT 0x40 /* Leading edge detection control block */ #define DWT_LDE_IF_ID 0x2E #define DWT_LDE_IF_LEN 0 /* * 16-bit status register reporting the threshold that was used * to find the first path */ #define DWT_LDE_THRESH_OFFSET 0x0000 #define DWT_LDE_THRESH_LEN 2 /*8-bit configuration register */ #define DWT_LDE_CFG1_OFFSET 0x0806 #define DWT_LDE_CFG1_LEN 1 /* Number of Standard Deviations mask. */ #define DWT_LDE_CFG1_NSTDEV_MASK 0x1F /* Peak Multiplier mask. */ #define DWT_LDE_CFG1_PMULT_MASK 0xE0 /* * Reporting the position within the accumulator that the LDE algorithm * has determined to contain the maximum */ #define DWT_LDE_PPINDX_OFFSET 0x1000 #define DWT_LDE_PPINDX_LEN 2 /* * Reporting the magnitude of the peak signal seen * in the accumulator data memory */ #define DWT_LDE_PPAMPL_OFFSET 0x1002 #define DWT_LDE_PPAMPL_LEN 2 /* 16-bit configuration register for setting the receive antenna delay */ #define DWT_LDE_RXANTD_OFFSET 0x1804 #define DWT_LDE_RXANTD_LEN 2 /* 16-bit LDE configuration tuning register */ #define DWT_LDE_CFG2_OFFSET 0x1806 #define DWT_LDE_CFG2_LEN 2 /* * 16-bit configuration register for setting * the replica avoidance coefficient */ #define DWT_LDE_REPC_OFFSET 0x2804 #define DWT_LDE_REPC_LEN 2 #define DWT_LDE_REPC_PCODE_1 0x5998 #define DWT_LDE_REPC_PCODE_2 0x5998 #define DWT_LDE_REPC_PCODE_3 0x51EA #define DWT_LDE_REPC_PCODE_4 0x428E #define DWT_LDE_REPC_PCODE_5 0x451E #define DWT_LDE_REPC_PCODE_6 0x2E14 #define DWT_LDE_REPC_PCODE_7 0x8000 #define DWT_LDE_REPC_PCODE_8 0x51EA #define DWT_LDE_REPC_PCODE_9 0x28F4 #define DWT_LDE_REPC_PCODE_10 0x3332 #define DWT_LDE_REPC_PCODE_11 0x3AE0 #define DWT_LDE_REPC_PCODE_12 0x3D70 #define DWT_LDE_REPC_PCODE_13 0x3AE0 #define DWT_LDE_REPC_PCODE_14 0x35C2 #define DWT_LDE_REPC_PCODE_15 0x2B84 #define DWT_LDE_REPC_PCODE_16 0x35C2 #define DWT_LDE_REPC_PCODE_17 0x3332 #define DWT_LDE_REPC_PCODE_18 0x35C2 #define DWT_LDE_REPC_PCODE_19 0x35C2 #define DWT_LDE_REPC_PCODE_20 0x47AE #define DWT_LDE_REPC_PCODE_21 0x3AE0 #define DWT_LDE_REPC_PCODE_22 0x3850 #define DWT_LDE_REPC_PCODE_23 0x30A2 #define DWT_LDE_REPC_PCODE_24 0x3850 /* Digital Diagnostics Interface */ #define DWT_DIG_DIAG_ID 0x2F #define DWT_DIG_DIAG_LEN 41 /* Event Counter Control */ #define DWT_EVC_CTRL_OFFSET 0x00 #define DWT_EVC_CTRL_LEN 4 /* * Access mask to Register for bits should always be set to zero * to avoid any malfunction of the device. */ #define DWT_EVC_CTRL_MASK 0x00000003UL /* Event Counters Enable bit */ #define DWT_EVC_EN 0x00000001UL #define DWT_EVC_CLR 0x00000002UL /* PHR Error Event Counter */ #define DWT_EVC_PHE_OFFSET 0x04 #define DWT_EVC_PHE_LEN 2 #define DWT_EVC_PHE_MASK 0x0FFF /* Reed Solomon decoder (Frame Sync Loss) Error Event Counter */ #define DWT_EVC_RSE_OFFSET 0x06 #define DWT_EVC_RSE_LEN 2 #define DWT_EVC_RSE_MASK 0x0FFF /* * The EVC_FCG field is a 12-bit counter of the frames received with * good CRC/FCS sequence. */ #define DWT_EVC_FCG_OFFSET 0x08 #define DWT_EVC_FCG_LEN 2 #define DWT_EVC_FCG_MASK 0x0FFF /* * The EVC_FCE field is a 12-bit counter of the frames received with * bad CRC/FCS sequence. */ #define DWT_EVC_FCE_OFFSET 0x0A #define DWT_EVC_FCE_LEN 2 #define DWT_EVC_FCE_MASK 0x0FFF /* * The EVC_FFR field is a 12-bit counter of the frames rejected * by the receive frame filtering function. */ #define DWT_EVC_FFR_OFFSET 0x0C #define DWT_EVC_FFR_LEN 2 #define DWT_EVC_FFR_MASK 0x0FFF /* The EVC_OVR field is a 12-bit counter of receive overrun events */ #define DWT_EVC_OVR_OFFSET 0x0E #define DWT_EVC_OVR_LEN 2 #define DWT_EVC_OVR_MASK 0x0FFF /* The EVC_STO field is a 12-bit counter of SFD Timeout Error events */ #define DWT_EVC_STO_OFFSET 0x10 #define DWT_EVC_OVR_LEN 2 #define DWT_EVC_OVR_MASK 0x0FFF /* The EVC_PTO field is a 12-bit counter of Preamble detection Timeout events */ #define DWT_EVC_PTO_OFFSET 0x12 #define DWT_EVC_PTO_LEN 2 #define DWT_EVC_PTO_MASK 0x0FFF /* * The EVC_FWTO field is a 12-bit counter of receive * frame wait timeout events */ #define DWT_EVC_FWTO_OFFSET 0x14 #define DWT_EVC_FWTO_LEN 2 #define DWT_EVC_FWTO_MASK 0x0FFF /* * The EVC_TXFS field is a 12-bit counter of transmit frames sent. * This is incremented every time a frame is sent */ #define DWT_EVC_TXFS_OFFSET 0x16 #define DWT_EVC_TXFS_LEN 2 #define DWT_EVC_TXFS_MASK 0x0FFF /* The EVC_HPW field is a 12-bit counter of Half Period Warnings. */ #define DWT_EVC_HPW_OFFSET 0x18 #define DWT_EVC_HPW_LEN 2 #define DWT_EVC_HPW_MASK 0x0FFF /* The EVC_TPW field is a 12-bit counter of Transmitter Power-Up Warnings. */ #define DWT_EVC_TPW_OFFSET 0x1A #define DWT_EVC_TPW_LEN 2 #define DWT_EVC_TPW_MASK 0x0FFF /* * Offset from DIG_DIAG_ID in bytes, * Please take care not to write to this area as doing so * may cause the DW1000 to malfunction. */ #define DWT_EVC_RES1_OFFSET 0x1C #define DWT_DIAG_TMC_OFFSET 0x24 #define DWT_DIAG_TMC_LEN 2 #define DWT_DIAG_TMC_MASK 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 */ #define DWT_DIAG_TMC_TX_PSTM 0x0010 #define DWT_REG_30_ID_RESERVED 0x30 #define DWT_REG_31_ID_RESERVED 0x31 #define DWT_REG_32_ID_RESERVED 0x32 #define DWT_REG_33_ID_RESERVED 0x33 #define DWT_REG_34_ID_RESERVED 0x34 #define DWT_REG_35_ID_RESERVED 0x35 /* Power Management System Control Block */ #define DWT_PMSC_ID 0x36 #define DWT_PMSC_LEN 48 #define DWT_PMSC_CTRL0_OFFSET 0x00 #define DWT_PMSC_CTRL0_LEN 4 /* Access mask to register PMSC_CTRL0 */ #define DWT_PMSC_CTRL0_MASK 0xF18F847FUL /* * 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 */ #define DWT_PMSC_CTRL0_SYSCLKS_AUTO 0x00000000UL /* Force system clock to be the 19.2 MHz XTI clock. */ #define DWT_PMSC_CTRL0_SYSCLKS_19M 0x00000001UL /* Force system clock to the 125 MHz PLL clock. */ #define DWT_PMSC_CTRL0_SYSCLKS_125M 0x00000002UL /* The RX clock will be disabled until it is required for an RX operation */ #define DWT_PMSC_CTRL0_RXCLKS_AUTO 0x00000000UL /* Force RX clock enable and sourced clock from the 19.2 MHz XTI clock */ #define DWT_PMSC_CTRL0_RXCLKS_19M 0x00000004UL /* Force RX clock enable and sourced from the 125 MHz PLL clock */ #define DWT_PMSC_CTRL0_RXCLKS_125M 0x00000008UL /* Force RX clock off. */ #define DWT_PMSC_CTRL0_RXCLKS_OFF 0x0000000CUL /* The TX clock will be disabled until it is required for a TX operation */ #define DWT_PMSC_CTRL0_TXCLKS_AUTO 0x00000000UL /* Force TX clock enable and sourced clock from the 19.2 MHz XTI clock */ #define DWT_PMSC_CTRL0_TXCLKS_19M 0x00000010UL /* Force TX clock enable and sourced from the 125 MHz PLL clock */ #define DWT_PMSC_CTRL0_TXCLKS_125M 0x00000020UL /* Force TX clock off */ #define DWT_PMSC_CTRL0_TXCLKS_OFF 0x00000030UL /* Force Accumulator Clock Enable */ #define DWT_PMSC_CTRL0_FACE 0x00000040UL /* GPIO clock enable */ #define DWT_PMSC_CTRL0_GPCE 0x00010000UL /* GPIO reset (NOT), active low */ #define DWT_PMSC_CTRL0_GPRN 0x00020000UL /* GPIO De-bounce Clock Enable */ #define DWT_PMSC_CTRL0_GPDCE 0x00040000UL /* Kilohertz Clock Enable */ #define DWT_PMSC_CTRL0_KHZCLEN 0x00800000UL /* Enable PLL2 on/off sequencing by SNIFF mode */ #define DWT_PMSC_CTRL0_PLL2_SEQ_EN 0x01000000UL #define DWT_PMSC_CTRL0_SOFTRESET_OFFSET 3 /* Assuming only 4th byte of the register is read */ #define DWT_PMSC_CTRL0_RESET_ALL 0x00 /* Assuming only 4th byte of the register is read */ #define DWT_PMSC_CTRL0_RESET_RX 0xE0 /* Assuming only 4th byte of the register is read */ #define DWT_PMSC_CTRL0_RESET_CLEAR 0xF0 #define DWT_PMSC_CTRL1_OFFSET 0x04 #define DWT_PMSC_CTRL1_LEN 4 /* Access mask to register PMSC_CTRL1 */ #define DWT_PMSC_CTRL1_MASK 0xFC02F802UL /* Automatic transition from receive mode into the INIT state */ #define DWT_PMSC_CTRL1_ARX2INIT 0x00000002UL /* * If this bit is set then the DW1000 will automatically transition * into SLEEP or DEEPSLEEP mode after transmission of a frame */ #define DWT_PMSC_CTRL1_ATXSLP 0x00000800UL /* * This bit is set then the DW1000 will automatically transition * into SLEEP mode after a receive attempt */ #define DWT_PMSC_CTRL1_ARXSLP 0x00001000UL /* Snooze Enable */ #define DWT_PMSC_CTRL1_SNOZE 0x00002000UL /* The SNOZR bit is set to allow the snooze timer to repeat twice */ #define DWT_PMSC_CTRL1_SNOZR 0x00004000UL /* This enables a special 1 GHz clock used for some external SYNC modes */ #define DWT_PMSC_CTRL1_PLLSYN 0x00008000UL /* This bit enables the running of the LDE algorithm */ #define DWT_PMSC_CTRL1_LDERUNE 0x00020000UL /* Kilohertz clock divisor */ #define DWT_PMSC_CTRL1_KHZCLKDIV_MASK 0xFC000000UL /* * Writing this to PMSC CONTROL 1 register (bits 10-3) disables * PMSC control of analog RF subsystems */ #define DWT_PMSC_CTRL1_PKTSEQ_DISABLE 0x00 /* * Writing this to PMSC CONTROL 1 register (bits 10-3) enables * PMSC control of analog RF subsystems */ #define DWT_PMSC_CTRL1_PKTSEQ_ENABLE 0xE7 #define DWT_PMSC_RES1_OFFSET 0x08 /* PMSC Snooze Time Register */ #define DWT_PMSC_SNOZT_OFFSET 0x0C #define DWT_PMSC_SNOZT_LEN 1 #define DWT_PMSC_RES2_OFFSET 0x10 #define DWT_PMSC_RES3_OFFSET 0x24 #define DWT_PMSC_TXFINESEQ_OFFSET 0x26 /* Writing this disables fine grain sequencing in the transmitter */ #define DWT_PMSC_TXFINESEQ_DISABLE 0x0 /* Writing this enables fine grain sequencing in the transmitter */ #define DWT_PMSC_TXFINESEQ_ENABLE 0x0B74 #define DWT_PMSC_LEDC_OFFSET 0x28 #define DWT_PMSC_LEDC_LEN 4 /* 32-bit LED control register. */ #define DWT_PMSC_LEDC_MASK 0x000001FFUL /* * This field determines how long the LEDs remain lit after an event * that causes them to be set on. */ #define DWT_PMSC_LEDC_BLINK_TIM_MASK 0x000000FFUL /* Blink Enable. When this bit is set to 1 the LED blink feature is enabled. */ #define DWT_PMSC_LEDC_BLNKEN 0x00000100UL /* * Default blink time. Blink time is expressed in multiples of 14 ms. * The value defined here is ~225 ms. */ #define DWT_PMSC_LEDC_BLINK_TIME_DEF 0x10 /* Command a blink of all LEDs */ #define DWT_PMSC_LEDC_BLINK_NOW_ALL 0x000F0000UL #define DWT_REG_37_ID_RESERVED 0x37 #define DWT_REG_38_ID_RESERVED 0x38 #define DWT_REG_39_ID_RESERVED 0x39 #define DWT_REG_3A_ID_RESERVED 0x3A #define DWT_REG_3B_ID_RESERVED 0x3B #define DWT_REG_3C_ID_RESERVED 0x3C #define DWT_REG_3D_ID_RESERVED 0x3D #define DWT_REG_3E_ID_RESERVED 0x3E #define DWT_REG_3F_ID_RESERVED 0x3F /* * Map the channel number to the index in the configuration arrays below. * Channel: na 1 2 3 4 5 na 7 */ const uint8_t dwt_ch_to_cfg[] = {0, 0, 1, 2, 3, 4, 0, 5}; /* Defaults from Table 38: Sub-Register 0x28:0C– RF_TXCTRL values */ const uint32_t dwt_txctrl_defs[] = { DWT_RF_TXCTRL_CH1, DWT_RF_TXCTRL_CH2, DWT_RF_TXCTRL_CH3, DWT_RF_TXCTRL_CH4, DWT_RF_TXCTRL_CH5, DWT_RF_TXCTRL_CH7, }; /* Defaults from Table 43: Sub-Register 0x2B:07 – FS_PLLCFG values */ const uint32_t dwt_pllcfg_defs[] = { DWT_FS_PLLCFG_CH1, DWT_FS_PLLCFG_CH2, DWT_FS_PLLCFG_CH3, DWT_FS_PLLCFG_CH4, DWT_FS_PLLCFG_CH5, DWT_FS_PLLCFG_CH7 }; /* Defaults from Table 44: Sub-Register 0x2B:0B – FS_PLLTUNE values */ const uint8_t dwt_plltune_defs[] = { DWT_FS_PLLTUNE_CH1, DWT_FS_PLLTUNE_CH2, DWT_FS_PLLTUNE_CH3, DWT_FS_PLLTUNE_CH4, DWT_FS_PLLTUNE_CH5, DWT_FS_PLLTUNE_CH7 }; /* Defaults from Table 37: Sub-Register 0x28:0B– RF_RXCTRLH values */ const uint8_t dwt_rxctrlh_defs[] = { DWT_RF_RXCTRLH_NBW, DWT_RF_RXCTRLH_NBW, DWT_RF_RXCTRLH_NBW, DWT_RF_RXCTRLH_WBW, DWT_RF_RXCTRLH_NBW, DWT_RF_RXCTRLH_WBW }; /* Defaults from Table 40: Sub-Register 0x2A:0B – TC_PGDELAY */ const uint8_t dwt_pgdelay_defs[] = { DWT_TC_PGDELAY_CH1, DWT_TC_PGDELAY_CH2, DWT_TC_PGDELAY_CH3, DWT_TC_PGDELAY_CH4, DWT_TC_PGDELAY_CH5, DWT_TC_PGDELAY_CH7 }; /* * Defaults from Table 19: Reference values for Register file: * 0x1E – Transmit Power Control for Smart Transmit Power Control * Transmit Power Control values for 16 MHz, with DIS_STXP = 0 */ const uint32_t dwt_txpwr_stxp0_16[] = { 0x15355575, 0x15355575, 0x0F2F4F6F, 0x1F1F3F5F, 0x0E082848, 0x32527292 }; /* * Defaults from Table 19: Reference values for Register file: * 0x1E – Transmit Power Control for Smart Transmit Power Control * Transmit Power Control values for 64 MHz, with DIS_STXP = 0 */ const uint32_t dwt_txpwr_stxp0_64[] = { 0x07274767, 0x07274767, 0x2B4B6B8B, 0x3A5A7A9A, 0x25456585, 0x5171B1D1 }; /* * Default from Table 20: Reference values Register file: * 0x1E – Transmit Power Control for Manual Transmit Power Control * Transmit Power Control values for 16 MHz, with DIS_STXP = 1 */ const uint32_t dwt_txpwr_stxp1_16[] = { 0x75757575, 0x75757575, 0x6F6F6F6F, 0x5F5F5F5F, 0x48484848, 0x92929292 }; /* * Default from Table 20: Reference values Register file: * 0x1E – Transmit Power Control for Manual Transmit Power Control * Transmit Power Control values for 64 MHz, with DIS_STXP = 1 */ const uint32_t dwt_txpwr_stxp1_64[] = { 0x67676767, 0x67676767, 0x8B8B8B8B, 0x9A9A9A9A, 0x85858585, 0xD1D1D1D1 }; enum dwt_pulse_repetition_frequency { DWT_PRF_16M = 0, DWT_PRF_64M, DWT_NUMOF_PRFS, }; /* Defaults from Table 24: Sub-Register 0x23:04 – AGC_TUNE1 values */ const uint16_t dwt_agc_tune1_defs[] = { DWT_AGC_TUNE1_16M, DWT_AGC_TUNE1_64M }; enum dwt_baud_rate { DWT_BR_110K = 0, DWT_BR_850K, DWT_BR_6M8, DWT_NUMOF_BRS, }; /* Decawave non-standard SFD lengths */ const uint8_t dwt_ns_sfdlen[] = { DWT_DW_NS_SFD_LEN_110K, DWT_DW_NS_SFD_LEN_850K, DWT_DW_NS_SFD_LEN_6M8 }; /* Defaults from Table 30: Sub-Register 0x27:02 – DRX_TUNE0b values */ const uint16_t dwt_tune0b_defs[DWT_NUMOF_BRS][2] = { { DWT_DRX_TUNE0b_110K_STD, DWT_DRX_TUNE0b_110K_NSTD }, { DWT_DRX_TUNE0b_850K_STD, DWT_DRX_TUNE0b_850K_NSTD }, { DWT_DRX_TUNE0b_6M8_STD, DWT_DRX_TUNE0b_6M8_NSTD } }; /* Defaults from Table 31: Sub-Register 0x27:04 – DRX_TUNE1a values */ const uint16_t dwt_tune1a_defs[] = { DWT_DRX_TUNE1a_PRF16, DWT_DRX_TUNE1a_PRF64 }; enum dwt_acquisition_chunk_size { DWT_PAC8 = 0, DWT_PAC16, DWT_PAC32, DWT_PAC64, DWT_NUMOF_PACS, }; /* Defaults from Table 33: Sub-Register 0x27:08 – DRX_TUNE2 values */ const uint32_t dwt_tune2_defs[DWT_NUMOF_PRFS][DWT_NUMOF_PACS] = { { DWT_DRX_TUNE2_PRF16_PAC8, DWT_DRX_TUNE2_PRF16_PAC16, DWT_DRX_TUNE2_PRF16_PAC32, DWT_DRX_TUNE2_PRF16_PAC64 }, { DWT_DRX_TUNE2_PRF64_PAC8, DWT_DRX_TUNE2_PRF64_PAC16, DWT_DRX_TUNE2_PRF64_PAC32, DWT_DRX_TUNE2_PRF64_PAC64 } }; /* * Defaults from Table 51: * Sub-Register 0x2E:2804 – LDE_REPC configurations for (850 kbps & 6.8 Mbps) * * For 110 kbps the values have to be divided by 8. */ const uint16_t dwt_lde_repc_defs[] = { 0, DWT_LDE_REPC_PCODE_1, DWT_LDE_REPC_PCODE_2, DWT_LDE_REPC_PCODE_3, DWT_LDE_REPC_PCODE_4, DWT_LDE_REPC_PCODE_5, DWT_LDE_REPC_PCODE_6, DWT_LDE_REPC_PCODE_7, DWT_LDE_REPC_PCODE_8, DWT_LDE_REPC_PCODE_9, DWT_LDE_REPC_PCODE_10, DWT_LDE_REPC_PCODE_11, DWT_LDE_REPC_PCODE_12, DWT_LDE_REPC_PCODE_13, DWT_LDE_REPC_PCODE_14, DWT_LDE_REPC_PCODE_15, DWT_LDE_REPC_PCODE_16, DWT_LDE_REPC_PCODE_17, DWT_LDE_REPC_PCODE_18, DWT_LDE_REPC_PCODE_19, DWT_LDE_REPC_PCODE_20, DWT_LDE_REPC_PCODE_21, DWT_LDE_REPC_PCODE_22, DWT_LDE_REPC_PCODE_23, DWT_LDE_REPC_PCODE_24 }; enum dwt_plen_idx { DWT_PLEN_64 = 0, DWT_PLEN_128, DWT_PLEN_256, DWT_PLEN_512, DWT_PLEN_1024, DWT_PLEN_2048, DWT_PLEN_4096, DWT_NUM_OF_PLEN, }; /* * Transmit Preamble Symbol Repetitions (TXPSR) and Preamble Extension (PE) * constants for TX_FCTRL - Transmit Frame Control register. * From Table 16: Preamble length selection * BIT(19) | BIT(18) | BIT(21) | BIT(20) */ const uint32_t dwt_plen_cfg[] = { (0 | BIT(18) | 0 | 0), (0 | BIT(18) | 0 | BIT(20)), (0 | BIT(18) | BIT(21) | 0), (0 | BIT(18) | BIT(21) | BIT(20)), (BIT(19) | 0 | 0 | 0), (BIT(19) | 0 | BIT(21) | 0), (BIT(19) | BIT(18) | 0 | 0), }; /* * Noise Threshold Multiplier (default NTM is 13) and * Peak Multiplier (default PMULT is 3). */ #define DWT_DEFAULT_LDE_CFG1 ((3 << 5) | 13) /* From Table 50: Sub-Register 0x2E:1806– LDE_CFG2 values */ #define DWT_DEFAULT_LDE_CFG2_PRF64 0x0607 #define DWT_DEFAULT_LDE_CFG2_PRF16 0x1607 #define DWT_RX_SIG_PWR_A_CONST_PRF64 121.74 #define DWT_RX_SIG_PWR_A_CONST_PRF16 113.77 #define DWT_DEVICE_ID 0xDECA0130 #define DWT_SFDTOC_DEF 0x1041 #define DWT_OTP_LDOTUNE_ADDR 0x04 #define DWT_OTP_PARTID_ADDR 0x06 #define DWT_OTP_LOTID_ADDR 0x07 #define DWT_OTP_VBAT_ADDR 0x08 #define DWT_OTP_VTEMP_ADDR 0x09 #define DWT_OTP_XTRIM_ADDR 0x1E #endif /* ZEPHYR_INCLUDE_DW1000_REGS_H_ */