/***************************************************************************//** * @file ad9361.h * @brief Header file of AD9361 Driver. ******************************************************************************** * Copyright 2014(c) Analog Devices, Inc. * * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * - Neither the name of Analog Devices, Inc. nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * - The use of this software may or may not infringe the patent rights * of one or more patent holders. This license does not release you * from the requirement that you obtain separate licenses from these * patent holders to use this software. * - Use of the software either in source or binary form, must be run * on or directly connected to an Analog Devices Inc. component. * * THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, INTELLECTUAL PROPERTY RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *******************************************************************************/ #ifndef IIO_FREQUENCY_AD9361_H_ #define IIO_FREQUENCY_AD9361_H_ /******************************************************************************/ /***************************** Include Files **********************************/ /******************************************************************************/ #include #include "common.h" /******************************************************************************/ /********************** Macros and Constants Definitions **********************/ /******************************************************************************/ #define REG_SPI_CONF 0x000 /* SPI Configuration */ #define REG_MULTICHIP_SYNC_AND_TX_MON_CTRL 0x001 /* Multi-Chip Sync and Tx Mon Control */ #define REG_TX_ENABLE_FILTER_CTRL 0x002 /* Tx Enable & Filter Control */ #define REG_RX_ENABLE_FILTER_CTRL 0x003 /* Rx Enable & Filter Control */ #define REG_INPUT_SELECT 0x004 /* Input Select */ #define REG_RFPLL_DIVIDERS 0x005 /* RFPLL Dividers */ #define REG_RX_CLOCK_DATA_DELAY 0x006 /* Rx Clock & Data Delay */ #define REG_TX_CLOCK_DATA_DELAY 0x007 /* Tx Clock & Data Delay */ #define REG_CLOCK_ENABLE 0x009 /* Clock Enable */ #define REG_BBPLL 0x00A /* BBPLL */ #define REG_TEMP_OFFSET 0x00B /* Offset */ #define REG_START_TEMP_READING 0x00C /* Start Temp Reading */ #define REG_TEMP_SENSE2 0x00D /* Temp Sense2 */ #define REG_TEMPERATURE 0x00E /* Temperature */ #define REG_TEMP_SENSOR_CONFIG 0x00F /* Temp Sensor Config */ #define REG_PARALLEL_PORT_CONF_1 0x010 /* Parallel Port Configuration 1 */ #define REG_PARALLEL_PORT_CONF_2 0x011 /* Parallel Port Configuration 2 */ #define REG_PARALLEL_PORT_CONF_3 0x012 /* Parallel Port Configuration 3 */ #define REG_ENSM_MODE 0x013 /* ENSM Mode */ #define REG_ENSM_CONFIG_1 0x014 /* ENSM Config 1 */ #define REG_ENSM_CONFIG_2 0x015 /* ENSM Config 2 */ #define REG_CALIBRATION_CTRL 0x016 /* Calibration Control */ #define REG_STATE 0x017 /* State */ #define REG_AUXDAC_1_WORD 0x018 /* AuxDAC 1 Word */ #define REG_AUXDAC_2_WORD 0x019 /* AuxDAC 2 Word */ #define REG_AUXDAC_1_CONFIG 0x01A /* AuxDAC 1 Config */ #define REG_AUXDAC_2_CONFIG 0x01B /* AuxDAC 2 Config */ #define REG_AUXADC_CLOCK_DIVIDER 0x01C /* AuxADC Clock Divider */ #define REG_AUXADC_CONFIG 0x01D /* Aux ADC Config */ #define REG_AUXADC_WORD_MSB 0x01E /* AuxADC Word MSB */ #define REG_AUXADC_LSB 0x01F /* AuxADC LSB */ #define REG_AUTO_GPO 0x020 /* Auto GPO */ #define REG_AGC_GAIN_LOCK_DELAY 0x021 /* AGC Gain Lock Delay */ #define REG_AGC_ATTACK_DELAY 0x022 /* AGC Attack Delay */ #define REG_AUXDAC_ENABLE_CTRL 0x023 /* AuxDAC Enable Control */ #define REG_RX_LOAD_SYNTH_DELAY 0x024 /* RX Load Synth Delay */ #define REG_TX_LOAD_SYNTH_DELAY 0x025 /* TX Load Synth Delay */ #define REG_EXTERNAL_LNA_CTRL 0x026 /* External LNA control */ #define REG_GPO_FORCE_AND_INIT 0x027 /* GPO Force and Init */ #define REG_GPO0_RX_DELAY 0x028 /* GPO0 Rx delay */ #define REG_GPO1_RX_DELAY 0x029 /* GPO1 Rx delay */ #define REG_GPO2_RX_DELAY 0x02A /* GPO2 Rx delay */ #define REG_GPO3_RX_DELAY 0x02B /* GPO3 Rx delay */ #define REG_GPO0_TX_DELAY 0x02C /* GPO0 Tx Delay */ #define REG_GPO1_TX_DELAY 0x02D /* GPO1 Tx Delay */ #define REG_GPO2_TX_DELAY 0x02E /* GPO2 Tx Delay */ #define REG_GPO3_TX_DELAY 0x02F /* GPO3 Tx Delay */ #define REG_AUXDAC1_RX_DELAY 0x030 /* AuxDAC1 Rx Delay */ #define REG_AUXDAC1_TX_DELAY 0x031 /* AuxDAC1 Tx Delay */ #define REG_AUXDAC2_RX_DELAY 0x032 /* AuxDAC2 Rx Delay */ #define REG_AUXDAC2_TX_DELAY 0x033 /* AuxDAC2 Tx Delay */ #define REG_CTRL_OUTPUT_POINTER 0x035 /* Control Output Pointer */ #define REG_CTRL_OUTPUT_ENABLE 0x036 /* Control Output Enable */ #define REG_PRODUCT_ID 0x037 /* Product ID */ #define REG_REFERENCE_CLOCK_CYCLES 0x03A /* Reference Clock Cycles */ #define REG_DIGITAL_IO_CTRL 0x03B /* Digital I/O Control */ #define REG_LVDS_BIAS_CTRL 0x03C /* LVDS Bias control */ #define REG_LVDS_INVERT_CTRL1 0x03D /* LVDS Invert control1 */ #define REG_LVDS_INVERT_CTRL2 0x03E /* LVDS Invert control2 */ #define REG_SDM_CTRL_1 0x03F /* SDM Control 1 */ #define REG_FRACT_BB_FREQ_WORD_1 0x041 /* Fractional BB Freq Word 1 */ #define REG_FRACT_BB_FREQ_WORD_2 0x042 /* Fractional BB Freq Word 2 */ #define REG_FRACT_BB_FREQ_WORD_3 0x043 /* Fractional BB Freq Word 3 */ #define REG_INTEGER_BB_FREQ_WORD 0x044 /* Integer BB Freq Word */ #define REG_CLOCK_CTRL 0x045 /* Clock Control */ #define REG_CP_CURRENT 0x046 /* CP Current */ #define REG_CP_BLEED_CURRENT 0x047 /* CP Bleed Current */ #define REG_LOOP_FILTER_1 0x048 /* Loop Filter 1 */ #define REG_LOOP_FILTER_2 0x049 /* Loop Filter 2 */ #define REG_LOOP_FILTER_3 0x04A /* Loop Filter 3 */ #define REG_VCO_CTRL 0x04B /* VCO Control */ #define REG_VCO_PROGRAM_1 0x04C #define REG_VCO_PROGRAM_2 0x04D #define REG_SDM_CTRL 0x04E /* SDM Control */ #define REG_RX_SYNTH_POWER_DOWN_OVERRIDE 0x050 /* Rx Synth Power Down Override */ #define REG_TX_SYNTH_POWER_DOWN_OVERRIDE 0x051 /* TX Synth Power Down Override */ #define REG_RX_ANALOG_POWER_DOWN_OVERRIDE_1 0x052 /* Rx Analog Power Down Override 1 */ #define REG_RX_ANALOG_POWER_DOWN_OVERRIDE_2 0x053 /* Rx Analog Power Down Override 2 */ #define REG_RX1_ADC_POWER_DOWN_OVERRIDE 0x054 /* Rx1 ADC Power Down Override */ #define REG_RX2_ADC_POWER_DOWN_OVERRIDE 0x055 /* Rx2 ADC Power Down Override */ #define REG_TX_ANALOG_POWER_DOWN_OVERRIDE_1 0x056 /* Tx Analog Power Down Override 1 */ #define REG_ANALOG_POWER_DOWN_OVERRIDE 0x057 /* Analog Power Down Override */ #define REG_MISC_POWER_DOWN_OVERRIDE 0x058 /* Misc Power Down Override */ #define REG_CH_1_OVERFLOW 0x05E /* CH 1 Overflow */ #define REG_CH_2_OVERFLOW 0x05F /* CH 2 Overflow */ #define REG_TX_FILTER_COEF_ADDR 0x060 /* TX Filter Coefficient Address */ #define REG_TX_FILTER_COEF_WRITE_DATA_1 0x061 /* TX Filter Coefficient Write Data 1 */ #define REG_TX_FILTER_COEF_WRITE_DATA_2 0x062 /* TX Filter Coefficient Write Data 2 */ #define REG_TX_FILTER_COEF_READ_DATA_1 0x063 /* TX Filter Coefficient Read Data 1 */ #define REG_TX_FILTER_COEF_READ_DATA_2 0x064 /* TX Filter Coefficient Read Data 2 */ #define REG_TX_FILTER_CONF 0x065 /* TX Filter Configuration */ #define REG_TX_MON_LOW_GAIN 0x067 /* Tx Mon Low Gain */ #define REG_TX_MON_HIGH_GAIN 0x068 /* Tx Mon High Gain */ #define REG_TX_MON_DELAY 0x069 /* Tx Mon Delay */ #define REG_TX_LEVEL_THRESH 0x06A /* Tx Level Threshold */ #define REG_TX_RSSI1 0x06B /* TX RSSI1 */ #define REG_TX_RSSI2 0x06C /* TX RSSI2 */ #define REG_TX_RSSI_LSB 0x06D /* TX RSSI LSB */ #define REG_TPM_MODE_ENABLE 0x06E /* TPM Mode Enable */ #define REG_TX_MON_TEMP_GAIN_COEF 0x06F /* Temp Gain Coefficient */ #define REG_TX_MON_1_CONFIG 0x070 /* Tx Mon 1 Config */ #define REG_TX_MON_2_CONFIG 0x071 /* Tx Mon 2 Config */ #define REG_TX1_ATTEN_0 0x073 /* Tx1 Atten 0 */ #define REG_TX1_ATTEN_1 0x074 /* Tx1 Atten 1 */ #define REG_TX2_ATTEN_0 0x075 /* Tx2 Atten 0 */ #define REG_TX2_ATTEN_1 0x076 /* Tx2 Atten 1 */ #define REG_TX_ATTEN_OFFSET 0x077 /* Tx Atten Offset */ #define REG_TX_ATTEN_THRESH 0x078 /* Tx Atten Threshold */ #define REG_TX1_DIG_ATTEN 0x079 /* Tx1 Dig Attenuation */ #define REG_TX2_DIG_ATTEN 0x07C /* Tx2 Dig Attenuation */ #define REG_TX1_SYMBOL_ATTEN 0x07F /* TX1 Symbol Attenuation */ #define REG_TX2_SYMBOL_ATTEN 0x080 /* TX2 Symbol Attenuation */ #define REG_TX_SYMBOL_ATTEN_CONFIG 0x081 /* TX Symbol Atten Config */ #define REG_TX1_OUT_1_PHASE_CORR 0x08E /* Tx1 Out 1 Phase Corr */ #define REG_TX1_OUT_1_GAIN_CORR 0x08F /* Tx1 Out 1 Gain Corr */ #define REG_TX2_OUT_1_PHASE_CORR 0x090 /* Tx2 Out 1 Phase Corr */ #define REG_TX2_OUT_1_GAIN_CORR 0x091 /* Tx2 Out 1 Gain Corr */ #define REG_TX1_OUT_1_OFFSET_I 0x092 /* Tx1 Out 1 Offset I */ #define REG_TX1_OUT_1_OFFSET_Q 0x093 /* Tx1 Out 1 Offset Q */ #define REG_TX2_OUT_1_OFFSET_I 0x094 /* Tx2 Out 1 Offset I */ #define REG_TX2_OUT_1_OFFSET_Q 0x095 /* Tx2 Out 1 Offset Q */ #define REG_TX1_OUT_2_PHASE_CORR 0x096 /* Tx1 Out 2 Phase Corr */ #define REG_TX1_OUT_2_GAIN_CORR 0x097 /* Tx1 Out 2 Gain Corr */ #define REG_TX2_OUT_2_PHASE_CORR 0x098 /* Tx2 Out 2 Phase Corr */ #define REG_TX2_OUT_2_GAIN_CORR 0x099 /* Tx2 Out 2 Gain Corr */ #define REG_TX1_OUT_2_OFFSET_I 0x09A /* Tx1 Out 2 Offset I */ #define REG_TX1_OUT_2_OFFSET_Q 0x09B /* Tx1 Out 2 Offset Q */ #define REG_TX2_OUT_2_OFFSET_I 0x09C /* Tx2 Out 2 Offset I */ #define REG_TX2_OUT_2_OFFSET_Q 0x09D /* Tx2 Out 2 Offset Q */ #define REG_TX_FORCE_BITS 0x09F /* Force Bits */ #define REG_QUAD_CAL_NCO_FREQ_PHASE_OFFSET 0x0A0 /* Quad Cal NCO Freq & Phase Offset */ #define REG_QUAD_CAL_CTRL 0x0A1 /* Quad Cal Control */ #define REG_KEXP_1 0x0A2 /* Kexp 1 */ #define REG_KEXP_2 0x0A3 /* Kexp 2 */ #define REG_QUAD_SETTLE_COUNT 0x0A4 /* QUAD Settle count */ #define REG_MAG_FTEST_THRESH 0x0A5 /* Mag. Ftest Thresh */ #define REG_MAG_FTEST_THRESH_2 0x0A6 /* Mag. Ftest Thresh 2 */ #define REG_QUAD_CAL_STATUS_TX1 0x0A7 /* Quad cal status Tx1 */ #define REG_QUAD_CAL_STATUS_TX2 0x0A8 /* Quad cal status Tx2 */ #define REG_QUAD_CAL_COUNT 0x0A9 /* Quad cal Count */ #define REG_TX_QUAD_FULL_LMT_GAIN 0x0AA /* Tx Quad Full/LMT Gain */ #define REG_SQUARER_CONFIG 0x0AB /* Squarer Config */ #define REG_TX_QUAD_CAL_ATTEN 0x0AC /* TX Quad Cal Atten */ #define REG_THRESH_ACCUM 0x0AD /* Thresh Accum */ #define REG_TX_QUAD_LPF_GAIN 0x0AE /* Tx Quad LPF Gain */ #define REG_TXDAC_VDS_I 0x0B0 /* TxDAC Vds I */ #define REG_TXDAC_VDS_Q 0x0B1 /* TxDAC Vds Q */ #define REG_TXDAC_GN_I 0x0B2 /* TxDAC gn I */ #define REG_TXDAC_GN_Q 0x0B3 /* TxDAC gn Q */ #define REG_TXBBF_OPAMP_A 0x0C0 /* TxBBF OpAmp A */ #define REG_TXBBF_OPAMP_B 0x0C1 /* TxBBF OpAmp B */ #define REG_TX_BBF_R1 0x0C2 /* Tx BBF R1 */ #define REG_TX_BBF_R2 0x0C3 /* Tx BBF R2 */ #define REG_TX_BBF_R3 0x0C4 /* Tx BBF R3 */ #define REG_TX_BBF_R4 0x0C5 /* Tx BBF R4 */ #define REG_TX_BBF_RP 0x0C6 /* Tx BBF RP */ #define REG_TX_BBF_C1 0x0C7 /* Tx BBF C1 */ #define REG_TX_BBF_C2 0x0C8 /* Tx BBF C2 */ #define REG_TX_BBF_CP 0x0C9 /* Tx BBF Cp */ #define REG_TX_TUNE_CTRL 0x0CA /* Tx Tune Control */ #define REG_TX_BBF_R2B 0x0CB /* Tx BBF R2b */ #define REG_TX_BBF_TUNE 0x0CC /* Tx BBF Tune */ #define REG_CONFIG0 0x0D0 /* Config0 */ #define REG_RESISTOR 0x0D1 /* Resistor */ #define REG_CAPACITOR 0x0D2 /* Capacitor */ #define REG_LO_CM 0x0D3 /* LO CM */ #define REG_TX_BBF_TUNE_DIVIDER 0x0D6 /* TX BBF Tune Divider */ #define REG_TX_BBF_TUNE_MODE 0x0D7 /* TX BBF Tune Mode */ #define REG_RX_FILTER_COEF_ADDR 0x0F0 /* Rx Filter Coeff Addr */ #define REG_RX_FILTER_COEF_DATA_1 0x0F1 /* Rx Filter Coeff Data 1 */ #define REG_RX_FILTER_COEF_DATA_2 0x0F2 /* Rx Filter Coeff Data 2 */ #define REG_RX_FILTER_COEF_READ_DATA_1 0x0F3 /* Rx Filter Coeff Read Data 1 */ #define REG_RX_FILTER_COEF_READ_DATA_2 0x0F4 /* Rx Filter Coeff Read Data 2 */ #define REG_RX_FILTER_CONFIG 0x0F5 /* Rx Filter Config */ #define REG_RX_FILTER_GAIN 0x0F6 /* Rx Filter Gain */ #define REG_AGC_CONFIG_1 0x0FA /* AGC Config1 */ #define REG_AGC_CONFIG_2 0x0FB /* AGC config2 */ #define REG_AGC_CONFIG_3 0x0FC /* AGC Config3 */ #define REG_MAX_LMT_FULL_GAIN 0x0FD /* Max LMT/Full Gain */ #define REG_PEAK_WAIT_TIME 0x0FE /* Peak Wait Time */ #define REG_DIGITAL_GAIN 0x100 /* Digital Gain */ #define REG_AGC_LOCK_LEVEL 0x101 /* AGC Lock Level */ #define REG_ADC_NOISE_CORRECTION_FACTOR 0x102 /* ADC noise Correction Factor */ #define REG_GAIN_STP_CONFIG1 0x103 /* Gain Step Config1 */ #define REG_ADC_SMALL_OVERLOAD_THRESH 0x104 /* ADC Small Overload Threshold */ #define REG_ADC_LARGE_OVERLOAD_THRESH 0x105 /* ADC Large Overload Threshold */ #define REG_GAIN_STP_CONFIG_2 0x106 /* Gain Step Config 2 */ #define REG_SMALL_LMT_OVERLOAD_THRESH 0x107 /* Small LMT Overload Threshold */ #define REG_LARGE_LMT_OVERLOAD_THRESH 0x108 /* Large LMT Overload Threshold */ #define REG_RX1_MANUAL_LMT_FULL_GAIN 0x109 /* Rx1 Manual LMT/Full Gain */ #define REG_RX1_MANUAL_LPF_GAIN 0x10A /* Rx1 Manual LPF gain */ #define REG_RX1_MANUAL_DIGITALFORCED_GAIN 0x10B /* Rx1 Manual Digital/Forced Gain */ #define REG_RX2_MANUAL_LMT_FULL_GAIN 0x10C /* Rx2 Manual LMT/Full Gain */ #define REG_RX2_MANUAL_LPF_GAIN 0x10D /* Rx2 Manual LPF Gain */ #define REG_RX2_MANUAL_DIGITALFORCED_GAIN 0x10E /* Rx2 Manual Digital/Forced Gain */ #define REG_FAST_CONFIG_1 0x110 /* Config 1 */ #define REG_FAST_CONFIG_2_SETTLING_DELAY 0x111 /* Config 2 & Settling Delay */ #define REG_FAST_ENERGY_LOST_THRESH 0x112 /* Energy Lost Threshold */ #define REG_FAST_STRONGER_SIGNAL_THRESH 0x113 /* Stronger Signal Threshold */ #define REG_FAST_LOW_POWER_THRESH 0x114 /* Low Power Threshold */ #define REG_FAST_STRONG_SIGNAL_FREEZE 0x115 /* Strong Signal Freeze */ #define REG_FAST_FINAL_OVER_RANGE_AND_OPT_GAIN 0x116 /* Final Over Range and Opt Gain */ #define REG_FAST_ENERGY_DETECT_COUNT 0x117 /* Energy Detect Count */ #define REG_FAST_AGCLL_UPPER_LIMIT 0x118 /* AGCLL Upper Limit */ #define REG_FAST_GAIN_LOCK_EXIT_COUNT 0x119 /* Gain Lock Exit Count */ #define REG_FAST_INITIAL_LMT_GAIN_LIMIT 0x11A /* Initial LMT Gain Limit */ #define REG_FAST_INCREMENT_TIME 0x11B /* Increment Time */ #define REG_AGC_INNER_LOW_THRESH 0x120 /* AGC Inner Low Threshold */ #define REG_LMT_OVERLOAD_COUNTERS 0x121 /* LMT Overload Counters */ #define REG_ADC_OVERLOAD_COUNTERS 0x122 /* ADC Overload Counters */ #define REG_GAIN_STP1 0x123 /* Gain Step1 */ #define REG_GAIN_UPDATE_COUNTER1 0x124 /* Gain Update Counter1 */ #define REG_GAIN_UPDATE_COUNTER2 0x125 /* Gain Update Counter2 */ #define REG_DIGITAL_SAT_COUNTER 0x128 /* Digital Sat Counter */ #define REG_OUTER_POWER_THRESHS 0x129 /* Outer Power Thresholds */ #define REG_GAIN_STP_2 0x12A /* Gain Step 2 */ #define REG_EXT_LNA_HIGH_GAIN 0x12C /* Ext LNA High Gain */ #define REG_EXT_LNA_LOW_GAIN 0x12D /* Ext LNA Low Gain */ #define REG_GAIN_TABLE_ADDRESS 0x130 /* Gain Table Address */ #define REG_GAIN_TABLE_WRITE_DATA1 0x131 /* Gain Table Write Data1 */ #define REG_GAIN_TABLE_WRITE_DATA2 0x132 /* Gain Table Write Data2 */ #define REG_GAIN_TABLE_WRITE_DATA3 0x133 /* Gain Table Write Data 3 */ #define REG_GAIN_TABLE_READ_DATA1 0x134 /* Gain Table Read Data 1 */ #define REG_GAIN_TABLE_READ_DATA2 0x135 /* Gain Table Read Data 2 */ #define REG_GAIN_TABLE_READ_DATA3 0x136 /* Gain Table Read Data 3 */ #define REG_GAIN_TABLE_CONFIG 0x137 /* Gain Table Config */ #define REG_GM_SUB_TABLE_ADDRESS 0x138 /* Gm Sub Table Address */ #define REG_GM_SUB_TABLE_GAIN_WRITE 0x139 /* Gm Sub Table Gain Word Write */ #define REG_GM_SUB_TABLE_BIAS_WRITE 0x13A /* Gm Sub Table Bias Word Write */ #define REG_GM_SUB_TABLE_CTRL_WRITE 0x13B /* Gm Sub Table Control Word Write */ #define REG_GM_SUB_TABLE_GAIN_READ 0x13C /* Gm Sub Table Gain Word Read */ #define REG_GM_SUB_TABLE_BIAS_READ 0x13D /* Gm Sub Table Bias Word Read */ #define REG_GM_SUB_TABLE_CTRL_READ 0x13E /* Gm Sub Table Control Word Read */ #define REG_GM_SUB_TABLE_CONFIG 0x13F /* Gm Sub Table Config */ #define REG_WORD_ADDRESS 0x140 /* Word Address */ #define REG_GAIN_DIFF_WORDERROR_WRITE 0x141 /* Gain Diff Word/Error Write */ #define REG_GAIN_ERROR_READ 0x142 /* Gain Error Read */ #define REG_CONFIG 0x143 /* Config */ #define REG_LNA_GAIN_DIFF_READ_BACK 0x144 /* LNA Gain Diff Read Back */ #define REG_MAX_MIXER_CALIBRATION_GAIN_INDEX 0x145 /* Max Mixer Calibration Gain Index */ #define REG_TEMP_GAIN_COEF 0x146 /* Temp Gain Coefficient */ #define REG_SETTLE_TIME 0x147 /* Settle Time */ #define REG_MEASURE_DURATION 0x148 /* Measure Duration */ #define REG_CAL_TEMP_SENSOR_WORD 0x149 /* Cal Temp sensor word */ #define REG_MEASURE_DURATION_01 0x150 /* Measure Duration 0&1 */ #define REG_MEASURE_DURATION_23 0x151 /* Measure Duration 2&3 */ #define REG_RSSI_WEIGHT_0 0x152 /* RSSI Weight 0 */ #define REG_RSSI_WEIGHT_1 0x153 /* RSSI Weight 1 */ #define REG_RSSI_WEIGHT_2 0x154 /* RSSI Weight 2 */ #define REG_RSSI_WEIGHT_3 0x155 /* RSSI Weight 3 */ #define REG_RSSI_DELAY 0x156 /* RSSI delay */ #define REG_RSSI_WAIT_TIME 0x157 /* RSSI wait time */ #define REG_RSSI_CONFIG 0x158 /* RSSI Config */ #define REG_ADC_MEASURE_DURATION_01 0x159 /* ADC Measure Duration 0&1 */ #define REG_ADC_WEIGHT_0 0x15A /* ADC Weight 0 */ #define REG_ADC_WEIGHT_1 0x15B /* ADC Weight 1 */ #define REG_DEC_POWER_MEASURE_DURATION_0 0x15C /* Dec Power Measure Duration 0 */ #define REG_LNA_GAIN 0x15D /* LNA Gain */ #define REG_CH1_ADC_POWER 0x160 /* CH1 ADC Power */ #define REG_CH1_RX_FILTER_POWER 0x161 /* CH1 Rx filter Power */ #define REG_CH2_ADC_POWER 0x162 /* CH2 ADC Power */ #define REG_CH2_RX_FILTER_POWER 0x163 /* CH2 Rx filter Power */ #define REG_RX_QUAD_CAL_LEVEL 0x168 /* Rx Quad Cal Level */ #define REG_CALIBRATION_CONFIG_1 0x169 /* Calibration Config 1 */ #define REG_CALIBRATION_CONFIG_2 0x16A /* Calibration config2 */ #define REG_CALIBRATION_CONFIG_3 0x16B /* Calibration config3 */ #define REG_CALIB_COUNT 0x16C /* Calib count */ #define REG_SETTLE_COUNT 0x16D /* Settle count */ #define REG_RX_QUAD_GAIN1 0x16E /* Rx Quad gain1 */ #define REG_RX_QUAD_GAIN2 0x16F /* Rx Quad gain2 */ #define REG_RX1_INPUT_A_PHASE_CORR 0x170 /* Rx1 Input A Phase Corr */ #define REG_RX1_INPUT_A_GAIN_CORR 0x171 /* Rx1 Input A Gain Corr */ #define REG_RX2_INPUT_A_PHASE_CORR 0x172 /* Rx2 Input A Phase Corr */ #define REG_RX2_INPUT_A_GAIN_CORR 0x173 /* Rx2 Input A Gain Corr */ #define REG_RX1_INPUT_A_Q_OFFSET 0x174 /* Rx1 Input A Q" Offset */ #define REG_RX1_INPUT_A_OFFSETS 0x175 /* Rx1 Input A Offsets */ #define REG_INPUT_A_OFFSETS_1 0x176 /* Input A Offsets 1 */ #define REG_RX2_INPUT_A_OFFSETS 0x177 /* Rx2 Input A Offsets */ #define REG_RX2_INPUT_A_I_OFFSET 0x178 /* Rx2 Input A "I" Offset */ #define REG_RX1_INPUT_BC_PHASE_CORR 0x179 /* Rx1 Input B&C Phase Corr */ #define REG_RX1_INPUT_BC_GAIN_CORR 0x17A /* Rx1 Input B&C Gain Corr */ #define REG_RX2_INPUT_BC_PHASE_CORR 0x17B /* Rx2 Input B&C Phase Corr */ #define REG_RX2_INPUT_BC_GAIN_CORR 0x17C /* Rx2 Input B&C Gain Corr */ #define REG_RX1_INPUT_BC_Q_OFFSET 0x17D /* Rx1 Input B&C "Q" Offset */ #define REG_RX1_INPUT_BC_OFFSETS 0x17E /* Rx1 Input B&C Offsets */ #define REG_INPUT_BC_OFFSETS_1 0x17F /* Input B&C Offsets 1 */ #define REG_RX2_INPUT_BC_OFFSETS 0x180 /* Rx2 Input B&C Offsets */ #define REG_RX2_INPUT_BC_I_OFFSET 0x181 /* Rx2 Input B&C "I" Offset */ #define REG_FORCE_BITS 0x182 /* Force Bits */ #define REG_WAIT_COUNT 0x185 /* Wait Count */ #define REG_RF_DC_OFFSET_COUNT 0x186 /* RF DC Offset Count */ #define REG_RF_DC_OFFSET_CONFIG_1 0x187 /* RF DC Offset Config1 */ #define REG_RF_DC_OFFSET_ATTEN 0x188 /* RF DC Offset Attenuation */ #define REG_INVERT_BITS 0x189 /* Invert Bits */ #define REG_DC_OFFSET_CONFIG2 0x18B /* DC Offset Config2 */ #define REG_RF_CAL_GAIN_INDEX 0x18C /* RF Cal Gain Index */ #define REG_SOI_THRESH 0x18D /* SOI Threshold */ #define REG_BB_DC_OFFSET_SHIFT 0x190 /* BB DC Offset Shift */ #define REG_BB_DC_OFFSET_FAST_SETTLE_SHIFT 0x191 /* BB DC Offset Fast Settle Shift */ #define REG_BB_FAST_SETTLE_DUR 0x192 /* BB Fast Settle Dur */ #define REG_BB_DC_OFFSET_COUNT 0x193 /* BB DC Offset Count */ #define REG_BB_DC_OFFSET_ATTEN 0x194 /* BB DC Offset Attenuation */ #define REG_RX1_BB_DC_WORD_I_MSB 0x19A /* RX1 BB DC word I MSB */ #define REG_RX1_BB_DC_WORD_I_LSB 0x19B /* RX1 BB DC word I LSB */ #define REG_RX1_BB_DC_WORD_Q_MSB 0x19C /* RX1 BB DC word Q MSB */ #define REG_RX1_BB_DC_WORD_Q_LSB 0x19D /* RX1 BB DC word Q LSB */ #define REG_RX2_BB_DC_WORD_I_MSB 0x19E /* RX2 BB DC word I MSB */ #define REG_RX2_BB_DC_WORD_I_LSB 0x19F /* RX2 BB DC word I LSB */ #define REG_RX2_BB_DC_WORD_Q_MSB 0x1A0 /* RX2 BB DC word Q MSB */ #define REG_RX2_BB_DC_WORD_Q_LSB 0x1A1 /* RX2 BB DC word Q LSB */ #define REG_BB_TRACK_CORR_WORD_I_MSB 0x1A2 /* BB Track corr word I MSB */ #define REG_BB_TRACK_CORR_WORD_I_LSB 0x1A3 /* BB Track corr word I LSB */ #define REG_BB_TRACK_CORR_WORD_Q_MSB 0x1A4 /* BB Track corr word Q MSB */ #define REG_BB_TRACK_CORR_WORD_Q_LSB 0x1A5 /* BB Track corr word Q LSB */ #define REG_RX1_RSSI_SYMBOL 0x1A7 /* Rx1 RSSI Symbol */ #define REG_RX1_RSSI_PREAMBLE 0x1A8 /* Rx1 RSSI preamble */ #define REG_RX2_RSSI_SYMBOL 0x1A9 /* Rx2 RSSI symbol */ #define REG_RX2_RSSI_PREAMBLE 0x1AA /* Rx2 RSSI preamble */ #define REG_SYMBOL_LSB 0x1AB /* Symbol LSB */ #define REG_PREAMBLE_LSB 0x1AC /* Preamble LSB */ #define REG_RX_PATH_GAIN_MSB 0x1AD /* Rx Path Gain */ #define REG_RX_PATH_GAIN_LSB 0x1AE /* Rx Path Gain */ #define REG_RX_DIFF_LNA_FORCE 0x1B0 /* Rx Diff LNA Force */ #define REG_RX_LNA_BIAS_COARSE 0x1B1 /* Rx LNA Bias Coarse */ #define REG_RX_LNA_BIAS_FINE_0 0x1B2 /* Rx LNA Bias Fine 0 */ #define REG_RX_LNA_BIAS_FINE_1 0x1B3 /* Rx LNA Bias Fine 1 */ #define REG_RX_MIX_GM_CONFIG 0x1C0 /* Rx Mix Gm Config */ #define REG_RX1_MIX_GM_FORCE 0x1C1 /* Rx1 Mix Gm Force */ #define REG_RX1_MIX_GM_BIAS_FORCE 0x1C2 /* Rx1 Mix Gm Bias (Force) */ #define REG_RX2_MIX_GM_FORCE 0x1C3 /* Rx2 Mix Gm Force */ #define REG_RX2_MIX_GM_BIAS_FORCE 0x1C4 /* Rx2 Mix Gm Bias (Force) */ #define REG_INPUT_A_MSBS 0x1C8 /* Input A MSBs */ #define REG_INPUT_A_RX1_I 0x1C9 /* Input A RX1 I */ #define REG_INPUT_A_RX1_Q 0x1CA /* Input A RX1 Q */ #define REG_INPUT_A_RX2_I 0x1CB /* Input A RX2 I */ #define REG_INPUT_A_RX2_Q 0x1CC /* Input A RX2 Q */ #define REG_INPUTS_BC_RX1_I 0x1CD /* Inputs B&C RX1 I */ #define REG_BAND1_RX1_Q 0x1CE /* Band1 RX1 Q */ #define REG_INPUTS_BC_RX2_I 0x1CF /* Inputs B&C RX2 I */ #define REG_INPUTS_BC_RX2_Q 0x1D0 /* Inputs B&C RX2 Q */ #define REG_INPUTS_BC_MSBS 0x1D1 /* Inputs B&C MSBs */ #define REG_FORCE_OS_DAC 0x1D2 /* Force OS DAC */ #define REG_RX_MIX_LO_CM 0x1D5 /* Rx Mix LO CM */ #define REG_RX_CGB_SEG_ENABLE 0x1D6 /* Rx CGB Seg Enable */ #define REG_RX_MIX_INPUTBIAS 0x1D7 /* Rx Mix Input/Bias */ #define REG_RX_TIA_CONFIG 0x1DB /* Rx TIA Config */ #define REG_TIA1_C_LSB 0x1DC /* TIA1 C LSB */ #define REG_TIA1_C_MSB 0x1DD /* TIA1 C MSB */ #define REG_TIA2_C_LSB 0x1DE /* TIA2 C LSB */ #define REG_TIA2_C_MSB 0x1DF /* TIA2 C MSB */ #define REG_RX1_BBF_R1A 0x1E0 /* Rx1 BBF R1A */ #define REG_RX2_BBF_R1A 0x1E1 /* Rx2 BBF R1A */ #define REG_RX1_TUNE_CTRL 0x1E2 /* Rx1 Tune Control */ #define REG_RX2_TUNE_CTRL 0x1E3 /* Rx2 Tune Control */ #define REG_RX1_BBF_R5 0x1E4 /* Rx1 BBF R5 */ #define REG_RX2_BBF_R5 0x1E5 /* Rx2 BBF R5 */ #define REG_RX_BBF_R2346 0x1E6 /* Rx BBF R2346 */ #define REG_RX_BBF_C1_MSB 0x1E7 /* Rx BBF C1 MSB */ #define REG_RX_BBF_C1_LSB 0x1E8 /* Rx BBF C1 LSB */ #define REG_RX_BBF_C2_MSB 0x1E9 /* Rx BBF C2 MSB */ #define REG_RX_BBF_C2_LSB 0x1EA /* Rx BBF C2 LSB */ #define REG_RX_BBF_C3_MSB 0x1EB /* Rx BBF C3 MSB */ #define REG_RX_BBF_C3_LSB 0x1EC /* Rx BBF C3 LSB */ #define REG_RX_BBF_CC1_CTR 0x1ED /* Rx BBF CC1 Ctr */ #define REG_RX_BBF_POW_RZ_BYTE0 0x1EE /* Rx BBF Pow Rz Byte0 */ #define REG_RX_BBF_CC2_CTR 0x1EF /* Rx BBF CC2 Ctr */ #define REG_RX_BBF_POW_RZ_BYTE1 0x1F0 /* Rx BBF Pow Rz Byte1 */ #define REG_RX_BBF_CC3_CTR 0x1F1 /* Rx BBF CC3 Ctr */ #define REG_RX_BBF_R5_TUNE 0x1F2 /* Rx BBF R5 Tune */ #define REG_RX_BBF_TUNE 0x1F3 /* Rx BBF Tune */ #define REG_RX1_BBF_MAN_GAIN 0x1F4 /* Rx1 BBF Man Gain */ #define REG_RX2_BBF_MAN_GAIN 0x1F5 /* Rx2 BBF Man Gain */ #define REG_RX_BBF_TUNE_DIVIDE 0x1F8 /* RX BBF Tune Divide */ #define REG_RX_BBF_TUNE_CONFIG 0x1F9 /* RX BBF Tune Config */ #define REG_POLE_GAIN 0x1FA /* Pole gain */ #define REG_RX_BBBW_MHZ 0x1FB /* Rx BBBW MHz */ #define REG_RX_BBBW_KHZ 0x1FC /* Rx BBBW kHz */ #define REG_FB_DAC_CLK_DELAY1 0x201 /* FB DAC Clk Delay1 */ #define REG_FB_DAC_CLK_DELAY2 0x202 /* FB DAC Clk Delay2 */ #define REG_FLASH_SAMPLE_CLK_DELAY_3P 0x203 /* Flash Sample Clk Delay 3p */ #define REG_FLASH_SAMPLE_CLK_DELAY_3N 0x204 /* Flash Sample Clk Delay 3n */ #define REG_TEST_MUX_2I 0x205 /* Test MUX 2i */ #define REG_TEST_MUX_2Q 0x206 /* Test MUX 2q */ #define REG_INTEGRATOR_1_RESISTANCE 0x207 /* Integrator 1 Resistance */ #define REG_INTEGRATOR_1_CAPACITANCE 0x208 /* Integrator 1 Capacitance */ #define REG_INTEGRATOR_23_RESISTANCE 0x209 /* Integrator 23 Resistance */ #define REG_INTEGRATOR_2_RESISTANCE 0x20A /* Integrator 2 Resistance */ #define REG_INTEGRATOR_2_CAPACITANCE 0x20B /* Integrator 2 Capacitance */ #define REG_INTEGRATOR_3_RESISTANCE 0x20C /* Integrator 3 Resistance */ #define REG_INTEGRATOR_3_CAPACITANCE 0x20D /* Integrator 3 Capacitance */ #define REG_INTEGRATOR_AMP_CC 0x20E /* Integrator Amp Cc */ #define REG_INT_1_FB_DAC_NMOS_CURRENT_SOURCE 0x20F /* Int 1 FB DAC NMOS Current Source */ #define REG_INT_1_FB_DAC_NMOS_CASOADE_BIAS_CURRENT 0x210 /* Int 1 FB DAC NMOS Casoade Bias Current */ #define REG_INT_1_FB_DAC_PMOS_CURRENT_SOURCE 0x211 /* Int 1 FB DAC PMOS Current Source */ #define REG_INT_2_FB_DAC_NMOS_CURRENT_SOURCE 0x212 /* Int 2 FB DAC NMOS Current Source */ #define REG_INT_2_FB_DAC_NMOS_CASCODE_BIAS_CURRENT 0x213 /* Int 2 FB DAC NMOS Cascode Bias Current */ #define REG_INT_2_FB_DAC_PMOS_CURRENT_SOURCE 0x214 /* Int 2 FB DAC PMOS Current Source */ #define REG_INT_3_FB_DAC_NMOS_CURRENT_SOURCE 0x215 /* Int 3 FB DAC NMOS Current Source */ #define REG_INT_3_FB_DAC_NMOS_CASCODE_BIAS_CURRENT 0x216 /* Int 3 FB DAC NMOS Cascode Bias Current */ #define REG_INT_3_FB_DAC_PMOS_CURRENT_SOURCE 0x217 /* Int 3 FB DAC PMOS Current Source */ #define REG_FB_DAC_BIAS_CURRENT 0x218 /* FB DAC Bias Current */ #define REG_INT_1_1ST_STAGE_CURRENT 0x219 /* Int 1 1st Stage Current */ #define REG_INT_1_1ST_STAGE_CASCODE_CURRENT 0x21A /* Int 1 1st Stage Cascode Current */ #define REG_INT_1_2ND_STAGE_CURRENT 0x21B /* Int 1 2nd Stage Current */ #define REG_INTEGRATOR_2_1ST_STAGE_CURRENT 0x21C /* Integrator 2 1st Stage Current */ #define REG_INT_2_1ST_STAGE_CASCODE_CURRENT 0x21D /* Int 2 1st Stage Cascode Current */ #define REG_INT_2_2ND_STAGE_CURRENT 0x21E /* Int 2 2nd Stage Current */ #define REG_INT_3_1ST_STAGE_CURRENT 0x21F /* Int 3 1st Stage Current */ #define REG_INT_3_1ST_STAGE_CASCODE_CURRENT 0x220 /* Int 3 1st Stage Cascode Current */ #define REG_INT_3_2ND_STAGE_CURRENT 0x221 /* Int 3 2nd Stage Current */ #define REG_FLASH_BIAS_CURRENT 0x222 /* Flash Bias Current */ #define REG_FLASH_LADDER_BIAS 0x223 /* Flash Ladder Bias */ #define REG_FLASH_LADDER_CASCODE_CURRENT 0x224 /* Flash Ladder Cascode Current */ #define REG_FLASH_LADDER_BIAS2 0x225 /* Flash Ladder Bias2 */ #define REG_RESET 0x226 /* Reset */ #define REG_RX_PFD_CONFIG 0x230 /* RX PFD Config */ #define REG_RX_INTEGER_BYTE_0 0x231 /* RX Integer Byte 0 */ #define REG_RX_INTEGER_BYTE_1 0x232 /* RX Integer Byte 1 */ #define REG_RX_FRACT_BYTE_0 0x233 /* RX Fractional Byte 0 */ #define REG_RX_FRACT_BYTE_1 0x234 /* RX Fractional Byte 1 */ #define REG_RX_FRACT_BYTE_2 0x235 /* RX Fractional Byte 2 */ #define REG_RX_FORCE_ALC 0x236 /* RX Force ALC */ #define REG_RX_FORCE_VCO_TUNE_0 0x237 /* RX Force VCO Tune 0 */ #define REG_RX_FORCE_VCO_TUNE_1 0x238 /* RX Force VCO Tune 1 */ #define REG_RX_ALC_VARACTOR 0x239 /* RX ALC/Varactor */ #define REG_RX_VCO_OUTPUT 0x23A /* RX VCO Output */ #define REG_RX_CP_CURRENT 0x23B /* RX CP Current */ #define REG_RX_CP_OFFSET 0x23C /* RX CP Offset */ #define REG_RX_CP_CONFIG 0x23D /* RX CP Config */ #define REG_RX_LOOP_FILTER_1 0x23E /* RX Loop Filter 1 */ #define REG_RX_LOOP_FILTER_2 0x23F /* RX Loop Filter 2 */ #define REG_RX_LOOP_FILTER_3 0x240 /* RX Loop Filter 3 */ #define REG_RX_DITHERCP_CAL 0x241 /* RX Dither/CP Cal */ #define REG_RX_VCO_BIAS_1 0x242 /* RX VCO Bias 1 */ #define REG_RX_CAL_STATUS 0x244 /* RX Cal Status */ #define REG_RX_VCO_CAL_REF 0x245 /* RX VCO Cal Ref */ #define REG_RX_VCO_PD_OVERRIDES 0x246 /* RX VCO Pd Overrides */ #define REG_RX_CP_OVERRANGE_VCO_LOCK 0x247 /* RX CP Over Range/VCO Lock */ #define REG_RX_VCO_LDO 0x248 /* RX VCO LDO */ #define REG_RX_VCO_CAL 0x249 /* RX VCO Cal */ #define REG_RX_LOCK_DETECT_CONFIG 0x24A /* RX Lock Detect Config */ #define REG_RX_CP_LEVEL_DETECT 0x24B /* RX CP Level Detect */ #define REG_RX_DSM_SETUP_0 0x24C /* RX DSM Setup 0 */ #define REG_RX_DSM_SETUP_1 0x24D /* RX DSM Setup 1 */ #define REG_RX_CORRECTION_WORD0 0x24E /* RX Correction Word0 */ #define REG_RX_CORRECTION_WORD1 0x24F /* RX Correction Word1 */ #define REG_RX_VCO_VARACTOR_CTRL_0 0x250 /* RX VCO Varactor Control 0 */ #define REG_RX_VCO_VARACTOR_CTRL_1 0x251 /* RX VCO Varactor Control 1 */ #define REG_RX_FAST_LOCK_SETUP 0x25A /* Rx Fast Lock Setup */ #define REG_RX_FAST_LOCK_SETUP_INIT_DELAY 0x25B /* Rx Fast Lock Setup Init Delay */ #define REG_RX_FAST_LOCK_PROGRAM_ADDR 0x25C /* Rx Fast Lock Program Addr */ #define REG_RX_FAST_LOCK_PROGRAM_DATA 0x25D /* Rx Fast Lock Program Data */ #define REG_RX_FAST_LOCK_PROGRAM_READ 0x25E /* Rx Fast Lock Program Read */ #define REG_RX_FAST_LOCK_PROGRAM_CTRL 0x25F /* Rx Fast Lock Program Control */ #define REG_RX_LO_GEN_POWER_MODE 0x261 /* Rx LO Gen Power Mode */ #define REG_TX_PFD_CONFIG 0x270 /* TX PFD Config */ #define REG_TX_INTEGER_BYTE_0 0x271 /* TX Integer Byte 0 */ #define REG_TX_INTEGER_BYTE_1 0x272 /* TX Integer Byte 1 */ #define REG_TX_FRACT_BYTE_0 0x273 /* TX Fractional Byte 0 */ #define REG_TX_FRACT_BYTE_1 0x274 /* TX Fractional Byte 1 */ #define REG_TX_FRACT_BYTE_2 0x275 /* TX Fractional Byte 2 */ #define REG_TX_FORCE_ALC 0x276 /* TX Force ALC */ #define REG_TX_FORCE_VCO_TUNE_0 0x277 /* TX Force VCO Tune 0 */ #define REG_TX_FORCE_VCO_TUNE_1 0x278 /* TX Force VCO Tune 1 */ #define REG_TX_ALCVARACT_OR 0x279 /* TX ALC/Varact or */ #define REG_TX_VCO_OUTPUT 0x27A /* TX VCO Output */ #define REG_TX_CP_CURRENT 0x27B /* TX CP Current */ #define REG_TX_CP_OFFSET 0x27C /* TX CP Offset */ #define REG_TX_CP_CONFIG 0x27D /* TX CP Config */ #define REG_TX_LOOP_FILTER_1 0x27E /* TX Loop Filter 1 */ #define REG_TX_LOOP_FILTER_2 0x27F /* TX Loop Filter 2 */ #define REG_TX_LOOP_FILTER_3 0x280 /* TX Loop Filter 3 */ #define REG_TX_DITHERCP_CAL 0x281 /* TX Dither/CP Cal */ #define REG_TX_VCO_BIAS_1 0x282 /* TX VCO Bias 1 */ #define REG_TX_VCO_BIAS_2 0x283 /* TX VCO Bias 2 */ #define REG_TX_CAL_STATUS 0x284 /* TX Cal Status */ #define REG_TX_VCO_CAL_REF 0x285 /* TX VCO Cal Ref */ #define REG_TX_VCO_PD_OVERRIDES 0x286 /* TX VCO Pd Overrides */ #define REG_TX_CP_OVERRANGE_VCO_LOCK 0x287 /* TX CP Over Range/VCO Lock */ #define REG_TX_VCO_LDO 0x288 /* TX VCO LDO */ #define REG_TX_VCO_CAL 0x289 /* TX VCO Cal */ #define REG_TX_LOCK_DETECT_CONFIG 0x28A /* TX Lock Detect Config */ #define REG_TX_CP_LEVEL_DETECT 0x28B /* TX CP Level Detect */ #define REG_TX_DSM_SETUP_0 0x28C /* TX DSM Setup 0 */ #define REG_TX_DSM_SETUP_1 0x28D /* TX DSM Setup 1 */ #define REG_TX_CORRECTION_WORD0 0x28E /* TX Correction Word0 */ #define REG_TX_CORRECTION_WORD1 0x28F /* TX Correction Word1 */ #define REG_TX_VCO_VARACTOR_CTRL_0 0x290 /* TX VCO Varactor Control 0 */ #define REG_TX_VCO_VARACTOR_CTRL_1 0x291 /* TX VCO Varactor Control 1 */ #define REG_DCXO_COARSE_TUNE 0x292 /* DCXO Coarse Tune */ #define REG_DCXO_FINE_TUNE_HIGH 0x293 /* DCXO Fine Tune2 */ #define REG_DCXO_FINE_TUNE_LOW 0x294 /* DCXO Fine Tune1 */ #define REG_DCXO_CONFIG 0x295 /* DCXO Config */ #define REG_DCXO_TEMPCO_WRITE 0x296 /* DCXO Tempco Write */ #define REG_DCXO_TEMPCO_READ 0x297 /* DCXO Tempco Read */ #define REG_DCXO_TEMPCO_ADDR 0x298 /* DCXO Tempco Addr */ #define REG_DELTA_T_READ 0x299 /* Delta T Read */ #define REG_TX_FAST_LOCK_SETUP 0x29A /* Tx Fast Lock Setup */ #define REG_TX_FAST_LOCK_SETUP_INIT_DELAY 0x29B /* Tx Fast Lock Setup Init Delay */ #define REG_TX_FAST_LOCK_PROGRAM_ADDR 0x29C /* Tx Fast Lock Program Addr */ #define REG_TX_FAST_LOCK_PROGRAM_DATA 0x29D /* Tx Fast Lock Program Data */ #define REG_TX_FAST_LOCK_PROGRAM_READ 0x29E /* Tx Fast Lock Program Read */ #define REG_TX_FAST_LOCK_PROGRAM_CTRL 0x29F /* Tx Fast Lock Program Ctrl */ #define REG_TX_LO_GEN_POWER_MODE 0x2A1 /* Tx LO Gen Power Mode */ #define REG_BANDGAP_CONFIG0 0x2A6 /* Bandgap Config0 */ #define REG_BANDGAP_CONFIG1 0x2A8 /* Bandgap Config1 */ #define REG_REF_DIVIDE_CONFIG_1 0x2AB /* Ref Divide Config 1 */ #define REG_REF_DIVIDE_CONFIG_2 0x2AC /* Ref Divide Config 2 */ #define REG_GAIN_RX1 0x2B0 /* Gain Rx1 */ #define REG_LPF_GAIN_RX1 0x2B1 /* LPF Gain Rx1 */ #define REG_DIG_GAIN_RX1 0x2B2 /* Dig gain Rx1 */ #define REG_FAST_ATTACK_STATE 0x2B3 /* Fast Attack State */ #define REG_SLOW_LOOP_STATE 0x2B4 /* Slow Loop State */ #define REG_GAIN_RX2 0x2B5 /* Gain Rx2 */ #define REG_LPF_GAIN_RX2 0x2B6 /* LPF Gain Rx2 */ #define REG_DIG_GAIN_RX2 0x2B7 /* Dig Gain Rx2 */ #define REG_OVRG_SIGS_RX1 0x2B8 /* Ovrg Sigs Rx1 */ #define REG_OVRG_SIGS_RX2 0x2B9 /* Ovrg Sigs Rx2 */ #define REG_CTRL 0x3DF /* Control */ #define REG_BIST_CONFIG 0x3F4 /* BIST Config */ #define REG_OBSERVE_CONFIG 0x3F5 /* Observe Config */ #define REG_BIST_AND_DATA_PORT_TEST_CONFIG 0x3F6 /* BIST and Data Port Test Config */ #define REG_DAC_TEST_0 0x3FC /* DAC Test 0 */ #define REG_DAC_TEST_1 0x3FD /* DAC Test 1 */ #define REG_DAC_TEST_2 0x3FE /* DAC Test 2 */ /* * REG_SPI_CONF */ #define SOFT_RESET (1 << 7) /* Soft Reset */ #define WIRE3_SPI (1 << 6) /* 3-Wire SPI */ #define LSB_FIRST (1 << 5) /* LSB First */ #define _LSB_FIRST (1 << 2) /* LSB First */ #define _WIRE3_SPI (1 << 1) /* 3-Wire SPI */ #define _SOFT_RESET (1 << 0) /* Soft reset */ /* * REG_MULTICHIP_SYNC_AND_TX_MON_CTRL */ #define TX2_MONITOR_ENABLE (1 << 6) /* Tx2 Monitor Enable */ #define TX1_MONITOR_ENABLE (1 << 5) /* Tx1 Monitor Enable */ #define MCS_RF_ENABLE (1 << 3) /* MCS RF Enable */ #define MCS_BBPLL_ENABLE (1 << 2) /* MCS BBPLL enable */ #define MCS_DIGITAL_CLK_ENABLE (1 << 1) /* MCS Digital CLK Enable */ #define MCS_BB_ENABLE (1 << 0) /* MCS BB Enable */ /* * REG_TX_ENABLE_FILTER_CTRL */ #define THB2_EN (1 << 3) /* THB2 Enable */ #define THB1_EN (1 << 2) /* THB1 Enable */ #define TX_CHANNEL_ENABLE(x) (((x) & 0x3) << 6) /* Tx channel Enable<1:0> */ #define THB3_ENABLE_INTERP(x) (((x) & 0x3) << 4) /* THB3 Enable & Interp<1:0> */ #define TX_FIR_ENABLE_INTERPOLATION(x) (((x) & 0x3) << 0) /* Tx FIR Enable & Interpolation<1:0> */ #define TX_1 1 #define TX_2 2 #define TX_ENABLE 1 #define TX_DISABLE 0 /* * REG_RX_ENABLE_FILTER_CTRL */ #define RHB2_EN (1 << 3) /* RHB2 Enable */ #define RHB1_EN (1 << 2) /* RHB1 Enable */ #define RX_CHANNEL_ENABLE(x) (((x) & 0x3) << 6) /* Rx channel Enable<1:0> */ #define DEC3_ENABLE_DECIMATION(x) (((x) & 0x3) << 4) /* DEC3 Enable & Decimation<1:0> */ #define RX_FIR_ENABLE_DECIMATION(x) (((x) & 0x3) << 0) /* Rx FIR Enable & Decimation<1:0> */ #define RX_1 1 #define RX_2 2 #define RX_ENABLE 1 #define RX_DISABLE 0 /* * REG_INPUT_SELECT */ #define TX_OUTPUT (1 << 6) /* TX Output */ #define RX_INPUT(x) (((x) & 0x3F) << 0) /* RX Input <5:0> */ /* * REG_RFPLL_DIVIDERS */ #define TX_VCO_DIVIDER(x) (((x) & 0xF) << 4) /* TX VCO Divider<3:0> */ #define RX_VCO_DIVIDER(x) (((x) & 0xF) << 0) /* RX VCO Divider<3:0> */ /* * REG_RX_CLOCK_DATA_DELAY */ #define DATA_CLK_DELAY(x) (((x) & 0xF) << 4) /* DATA_CLK Delay<3:0> */ #define RX_DATA_DELAY(x) (((x) & 0xF) << 0) /* Rx Data Delay <3:0> */ /* * REG_TX_CLOCK_DATA_DELAY */ #define FB_CLK_DELAY(x) (((x) & 0xF) << 4) /* FB_CLK Delay<3:0> */ #define TX_DATA_DELAY(x) (((x) & 0xF) << 0) /* Tx Data Delay <3:0> */ /* * REG_CLOCK_ENABLE */ #define XO_BYPASS (1 << 4) /* XO Bypass */ #define DIGITAL_POWER_UP (1 << 2) /* Digital Power Up */ #define CLOCK_ENABLE_DFLT (1 << 1) /* Set to 1 */ #define BBPLL_ENABLE (1 << 0) /* BBPLL Enable */ /* * REG_BBPLL */ #define CLKOUT_ENABLE (1 << 4) /* CLKOUT Enable */ #define DAC_CLK_DIV2 (1 << 3) /* DAC Clk div2 */ #define CLKOUT_SELECT(x) (((x) & 0x7) << 5) /* CLKOUT Select<2:0> */ #define BBPLL_DIVIDER(x) (((x) & 0x7) << 0) /* BBPLL Divider <2:0> */ /* * REG_START_TEMP_READING */ #define START_TEMP_READING (1 << 0) /* Start Temp Reading */ /* * REG_TEMP_SENSE2 */ #define TEMP_SENSE_PERIODIC_ENABLE (1 << 0) /* Temp Sense Periodic Enable */ #define MEASUREMENT_TIME_INTERVAL(x) (((x) & 0x7F) << 1) /* Measurement Time Interval<6:0> */ /* * REG_TEMP_SENSOR_CONFIG */ #define TEMP_SENSOR_DECIMATION(x) (((x) & 0x7) << 0) /* Temp Sensor Decimation<2:0> */ /* * REG_PARALLEL_PORT_CONF_1 */ #define PP_TX_SWAP_IQ (1 << 7) /* PP Tx Swap IQ */ #define PP_RX_SWAP_IQ (1 << 6) /* PP Rx Swap IQ */ #define TX_CHANNEL_SWAP (1 << 5) /* Tx Channel swap */ #define RX_CHANNEL_SWAP (1 << 4) /* Rx Channel swap */ #define RX_FRAME_PULSE_MODE (1 << 3) /* Rx Frame Pulse Mode */ #define R2T2_TIMING (1 << 2) /* 2R2T Timing */ #define INVERT_DATA_BUS (1 << 1) /* Invert data bus */ #define INVERT_DATA_CLK (1 << 0) /* Invert DATA CLK */ /* * REG_PARALLEL_PORT_CONF_2 */ #define FDD_ALT_WORD_ORDER (1 << 7) /* FDD Alt Word Order */ #define INVERT_RX1 (1 << 6) /* Invert Rx1 */ #define INVERT_RX2 (1 << 5) /* Invert Rx2 */ #define INVERT_TX1 (1 << 4) /* Invert Tx1 */ #define INVERT_TX2 (1 << 3) /* Invert Tx2 */ #define INVERT_RX_FRAME (1 << 2) /* Invert Rx Frame */ #define DELAY_RX_DATA(x) (((x) & 0x3) << 0) /* Delay Rx Data<1:0> */ /* * REG_PARALLEL_PORT_CONF_3 */ #define FDD_RX_RATE_2TX_RATE (1 << 7) /* FDD Rx Rate = 2*Tx Rate */ #define SWAP_PORTS (1 << 6) /* Swap Ports */ #define SINGLE_DATA_RATE (1 << 5) /* Single Data Rate */ #define LVDS_MODE (1 << 4) /* LVDS Mode */ #define HALF_DUPLEX_MODE (1 << 3) /* Half Duplex Mode */ #define SINGLE_PORT_MODE (1 << 2) /* Single Port Mode */ #define FULL_PORT (1 << 1) /* Full Port */ #define FULL_DUPLEX_SWAP_BITS (1 << 0) /* Full Duplex Swap Bits */ /* * REG_ENSM_MODE */ #define FDD_MODE (1 << 0) /* FDD Mode */ /* * REG_ENSM_CONFIG_1 */ #define ENABLE_RX_DATA_PORT_FOR_CAL (1 << 7) /* Enable Rx Data Port for Cal */ #define FORCE_RX_ON (1 << 6) /* Force Rx On */ #define FORCE_TX_ON (1 << 5) /* Force Tx On */ #define ENABLE_ENSM_PIN_CTRL (1 << 4) /* Enable ENSM Pin Control */ #define LEVEL_MODE (1 << 3) /* Level Mode */ #define FORCE_ALERT_STATE (1 << 2) /* Force Alert State */ #define AUTO_GAIN_LOCK (1 << 1) /* Auto Gain Lock */ #define TO_ALERT (1 << 0) /* To Alert */ /* * REG_ENSM_CONFIG_2 */ #define FDD_EXTERNAL_CTRL_ENABLE (1 << 7) /* FDD External Control Enable */ #define POWER_DOWN_RX_SYNTH (1 << 6) /* Power Down Rx Synth */ #define POWER_DOWN_TX_SYNTH (1 << 5) /* Power Down Tx Synth */ #define TXNRX_SPI_CTRL (1 << 4) /* TXNRX SPI Control */ #define SYNTH_ENABLE_PIN_CTRL_MODE (1 << 3) /* Synth Enable Pin Control Mode */ #define DUAL_SYNTH_MODE (1 << 2) /* Dual Synth Mode */ #define RX_SYNTH_READY_MASK (1 << 1) /* Rx Synth Ready Mask */ #define TX_SYNTH_READY_MASK (1 << 0) /* Tx Synth Ready Mask */ /* * REG_CALIBRATION_CTRL */ #define RX_BB_TUNE_CAL (1 << 7) /* Rx BB Tune */ #define TX_BB_TUNE_CAL (1 << 6) /* Tx BB Tune */ #define RX_QUAD_CAL (1 << 5) /* Rx Quad Cal */ #define TX_QUAD_CAL (1 << 4) /* Tx Quad Cal */ #define RX_GAIN_STEP_CAL (1 << 3) /* Rx Gain Step Cal */ #define TXMON_CAL (1 << 2) #define RFDC_CAL (1 << 1) /* DC Cal RF Start */ #define BBDC_CAL (1 << 0) /* DC cal BB Start */ /* * REG_STATE */ #define CALIBRATION_SEQUENCE_STATE(x) (((x) & 0xF) << 4) /* Calibration Sequence State<3:0> */ #define ENSM_STATE(x) (((x) & 0xF) << 0) /* ENSM State<3:0> */ #define ENSM_STATE_SLEEP_WAIT 0x0 #define ENSM_STATE_ALERT 0x5 #define ENSM_STATE_TX 0x6 #define ENSM_STATE_TX_FLUSH 0x7 #define ENSM_STATE_RX 0x8 #define ENSM_STATE_RX_FLUSH 0x9 #define ENSM_STATE_FDD 0xA #define ENSM_STATE_FDD_FLUSH 0xB #define ENSM_STATE_INVALID 0xFF #define ENSM_STATE_SLEEP 0x80 /* * REG_AUXDAC_2_WORD */ #define AUXDAC_2_WORD_MSB(x) (((x) & 0x3F) << 2) /* AuxDAC 2 Word<9:2> */ #define AUXDAC_1_WORD(x) (((x) & 0x3) << 0) /* AuxDAC 1 Word <1:0> */ /* * REG_AUXDAC_1_CONFIG */ #define COMP_CTRL_1 (1 << 5) /* Comp Ctrl 1 */ #define AUXDAC1_STP_FACTOR (1 << 4) /* AuxDAC1 Step Factor */ #define AUXDAC_1_VREF(x) (((x) & 0x3) << 2) /* AuxDAC 1 Vref<1:0> */ #define AUXDAC_1_WORD_LSB(x) (((x) & 0x3) << 0) /* AuxDAC 2 Word <1:0> */ /* * REG_AUXDAC_2_CONFIG */ #define COMP_CTRL_2 (1 << 5) /* Comp Ctrl 2 */ #define AUXDAC2_STP_FACTOR (1 << 4) /* AuxDAC2 Step Factor */ #define AUXDAC_2_VREF(x) (((x) & 0xF) << 2) /* AuxDAC 2 Vref<1:0> */ #define AUXDAC_2_WORD_LSB(x) (((x) & 0x3) << 0) /* AuxDAC 2 Word <1:0> */ /* * REG_AUXADC_CLOCK_DIVIDER */ #define AUXADC_CLOCK_DIVIDER(x) (((x) & 0x3F) << 0) /* AuxADC Clock Divider<5:0> */ /* * REG_AUXADC_CONFIG */ #define AUXADC_POWER_DOWN (1 << 0) /* AuxADC Power Down */ #define AUX_ADC_DECIMATION(x) (((x) & 0x7) << 1) /* Aux ADC Decimation<2:0> */ /* * REG_AUXADC_LSB */ #define AUXADC_WORD_LSB(x) (((x) & 0xF) << 0) /* AuxADC Word LSB<3:0> */ /* * REG_AUTO_GPO */ #define GPO_ENABLE_AUTO_RX(x) (((x) & 0xF) << 4) /* GPO Enable Auto Rx<3:0> */ #define GPO_ENABLE_AUTO_TX(x) (((x) & 0xF) << 0) /* GPO Enable Auto Tx<3:0> */ /* * REG_AGC_ATTACK_DELAY */ #define INVERT_BYPASSED_LNA_POLARITY (1 << 6) /* Invert Bypassed LNA Polarity */ #define AGC_ATTACK_DELAY(x) (((x) & 0x3F) << 0) /* AGC Attack Delay<5:0> */ /* * REG_AUXDAC_ENABLE_CTRL */ #define AUXDAC_MANUAL_BAR(x) (((x) & 0x3) << 6) /* AuxDac Manual Bar<1:0> */ #define AUXDAC_AUTO_TX_BAR(x) (((x) & 0x3) << 4) /* AuxDAC Auto Tx Bar<1:0> */ #define AUXDAC_AUTO_RX_BAR(x) (((x) & 0x3) << 2) /* AuxDAC Auto Rx Bar<1:0> */ #define AUXDAC_INIT_BAR(x) (((x) & 0x3) << 0) /* AuxDAC Init Bar<1:0> */ /* * REG_EXTERNAL_LNA_CTRL */ #define AUXDAC_MANUAL_SELECT (1 << 7) /* AuxDAC Manual Select */ #define EXTERNAL_LNA2_CTRL (1 << 6) /* External LNA2 control */ #define EXTERNAL_LNA1_CTRL (1 << 5) /* External LNA1 control */ #define GPO_MANUAL_SELECT (1 << 4) /* GPO manual select */ #define OPEN(x) (((x) & 0xF) << 0) /* Open<3:0> */ /* * REG_GPO_FORCE_AND_INIT */ #define GPO_MANUAL_CTRL(x) (((x) & 0xF) << 4) /* GPO Manual Control<3:0> */ #define GPO_INIT_STATE(x) (((x) & 0xF) << 0) /* GPO Init State<3:0> */ /* * REG_CTRL_OUTPUT_ENABLE */ #define EN_CTRL7 (1 << 7) /* En ctrl7 */ #define EN_CTRL6 (1 << 6) /* En ctrl6 */ #define EN_CTRL5 (1 << 5) /* En ctrl5 */ #define EN_CTRL4 (1 << 4) /* En ctrl4 */ #define EN_CTRL3 (1 << 3) /* En ctrl3 */ #define EN_CTRL2 (1 << 2) /* En ctrl2 */ #define EN_CTRL1 (1 << 1) /* En ctrl1 */ #define EN_CTRL0 (1 << 0) /* En ctrl0 */ /* * REG_PRODUCT_ID */ #define PRODUCT_ID_MASK 0xF8 #define PRODUCT_ID_9361 0x08 #define REV_MASK 0x07 /* * REG_REFERENCE_CLOCK_CYCLES */ #define REFERENCE_CLOCK_CYCLES_PER_US(x) (((x) & 0x7F) << 0) /* Reference Clock Cycles per us<6:0> */ /* * REG_DIGITAL_IO_CTRL */ #define CLK_OUT_DRIVE (1 << 7) /* CLK Out Drive */ #define DATACLK_DRIVE (1 << 6) /* DATACLK drive */ #define DATA_PORT_DRIVE (1 << 2) /* Data Port Drive */ #define DATACLK_SLEW(x) (((x) & 0x3) << 4) /* DATACLK slew <1:0> */ #define DATA_PORT_SLEW(x) (((x) & 0x3) << 0) /* Data Port Slew<1:0> */ /* * REG_LVDS_BIAS_CTRL */ #define RX_ON_CHIP_TERM (1 << 5) /* Rx On Chip Term */ #define LVDS_BYPASS_BIAS_R (1 << 4) /* Bypass Bias R */ #define LVDS_TX_LO_VCM (1 << 3) /* LVDS Tx LO VCM */ #define CLK_OUT_SLEW(x) (((x) & 0x3) << 6) /* CLK Out Slew<1:0> */ #define LVDS_BIAS(x) (((x) & 0x7) << 0) /* LVDS Bias <2:0> */ /* * REG_SDM_CTRL_1 */ #define INIT_BB_FO_CAL (1 << 2) /* Init BB FO CAL */ #define BBPLL_RESET_BAR (1 << 0) /* BBPLL Reset Bar */ /* * REG_CLOCK_CTRL */ #define REF_FREQ_SCALER(x) (((x) & 0x3) << 0) /* Ref Frequency Scaler */ /* * REG_CP_CURRENT */ #define CHARGE_PUMP_CURRENT(x) (((x) & 0x3F) << 0) /* Charge Pump Current<5:0> */ /* * REG_CP_BLEED_CURRENT */ #define MCS_REFCLK_SCALE_EN (1 << 7) /* MCS refclk Scale En */ /* * REG_LOOP_FILTER_1 */ #define C1_WORD(x) (((x) & 0x7) << 5) /* C1 Word<2:0> */ #define R1_WORD(x) (((x) & 0x1F) << 0) /* R1 Word<4:0> */ /* * REG_LOOP_FILTER_2 */ #define R2_WORD (1 << 7) /* R2 Word<0> */ #define C2_WORD(x) (((x) & 0x1F) << 2) /* C2 Word<4:0> */ #define C1_WORD_LSB(x) (((x) & 0x3) << 0) /* C1 Word<4:3> */ /* * REG_LOOP_FILTER_3 */ #define BYPASS_C3 (1 << 7) /* Bypass C3 */ #define BYPASS_R2 (1 << 6) /* Bypass R2 */ #define C3_WORD(x) (((x) & 0xF) << 2) /* C3 Word<3:0> */ #define R2_WORD_LSB(x) (((x) & 0x3) << 0) /* R2 Word<2:1> */ /* * REG_VCO_CTRL */ #define FREQ_CAL_ENABLE (1 << 7) /* Freq Cal Enable */ #define FREQ_CAL_RESET (1 << 4) /* Freq Cal Reset */ #define FREQ_CAL_COUNT_LENGTH(x) (((x) & 0x3) << 5) /* Freq Cal Count Length<1:0> */ /* * REG_SDM_CTRL */ #define CAL_CLOCK_DIV_4 (1 << 4) /* Cal Clock div 4 */ /* * REG_RX_SYNTH_POWER_DOWN_OVERRIDE */ #define RX_LO_POWER_DOWN (1 << 4) /* Rx LO Power Down */ #define RX_SYNTH_VCO_ALC_POWER_DOWN (1 << 3) /* Rx Synth VCO ALC Power Down */ #define RX_SYNTH_PTAT_POWER_DOWN (1 << 2) /* Rx Synth PTAT Power Down */ #define RX_SYNTH_VCO_POWER_DOWN (1 << 1) /* Rx Synth VCO Power Down */ #define RX_SYNTH_VCO_LDO_POWER_DOWN (1 << 0) /* Rx Synth VCO LDO Power Down */ /* * REG_TX_SYNTH_POWER_DOWN_OVERRIDE */ #define TX_LO_POWER_DOWN (1 << 4) /* Tx LO Power Down */ #define TX_SYNTH_VCO_ALC_POWER_DOWN (1 << 3) /* Tx Synth VCO ALC Power Down */ #define TX_SYNTH_PTAT_POWER_DOWN (1 << 2) /* Tx Synth PTAT Power Down */ #define TX_SYNTH_VCO_POWER_DOWN (1 << 1) /* Tx Synth VCO Power Down */ #define TX_SYNTH_VCO_LDO_POWER_DOWN (1 << 0) /* Tx Synth VCO LDO Power Down */ /* * REG_RX_ANALOG_POWER_DOWN_OVERRIDE_1 */ #define RX_OFFSET_DAC_CGIN_POWER_DOWN(x) (((x) & 0x3) << 6) /* Rx Offset DAC CGin Power Down<1:0> */ #define RX_LMT_OVERLOAD_POWER_DOWN(x) (((x) & 0x3) << 4) /* Rx LMT Overload Power Down<1:0> */ #define RX_MIXER_GM_POWER_DOWN(x) (((x) & 0x3) << 2) /* Rx Mixer Gm Power Down<1:0> */ #define RX_CGB_POWER_DOWN(x) (((x) & 0x3) << 0) /* Rx CGB Power Down<1:0> */ /* * REG_RX_ANALOG_POWER_DOWN_OVERRIDE_2 */ #define RX_BBF_POWER_DOWN(x) (((x) & 0x3) << 6) /* Rx BBF Power Down<1:0> */ #define RX_TIA_POWER_DOWN(x) (((x) & 0x3) << 4) /* Rx TIA Power Down<1:0> */ #define RX_MIXER_POWER_DOWN(x) (((x) & 0x3) << 2) /* Rx Mixer Power Down<1:0> */ #define RX_OFFSET_DAC_CGOUT_POWER_DOWN(x) (((x) & 0x3) << 0) /* Rx Offset DAC CGOut Power Down<1:0> */ /* * REG_TX_ANALOG_POWER_DOWN_OVERRIDE_1 */ #define TX_SECONDARY_FILTER_POWER_DOWN(x) (((x) & 0x3) << 6) /* Tx Secondary Filter Power Down<1:0> */ #define TX_BBF_POWER_DOWN(x) (((x) & 0x3) << 4) /* Tx BBF Power Down<1:0> */ #define TX_DAC_POWER_DOWN(x) (((x) & 0x3) << 2) /* Tx DAC Power Down<1:0> */ #define TX_DAC_BIAS_POWER_DOWN(x) (((x) & 0x3) << 0) /* Tx DAC Bias Power Down<1:0> */ /* * REG_ANALOG_POWER_DOWN_OVERRIDE */ #define RX_EXT_VCO_BUFFER_POWER_DOWN (1 << 5) /* Rx Ext VCO Buffer Power Down */ #define TX_EXT_VCO_BUFFER_POWER_DOWN (1 << 4) /* Tx Ext VCO Buffer Power Down */ #define TX_MONITOR_POWER_DOWN(x) (((x) & 0x3) << 2) /* Tx Monitor Power Down<1:0> */ #define TX_UPCONVERTER_POWER_DOWN(x) (((x) & 0x3) << 0) /* Tx Upconverter Power Down<1:0> */ /* * REG_MISC_POWER_DOWN_OVERRIDE */ #define RX_LNA_POWER_DOWN (1 << 6) /* Rx LNA Power Down */ #define DCXO_POWER_DOWN (1 << 1) /* DCXO Power Down */ #define MASTER_BIAS_POWER_DOWN (1 << 0) /* Master Bias Power Down */ #define RX_CALIBRATION_POWER_DOWN(x) (((x) & 0x3) << 2) /* Rx Calibration Power Down<1:0> */ /* * REG_CH_1_OVERFLOW */ #define BBPLL_LOCK (1 << 7) /* BBPLL Lock */ #define CH_1_INT3 (1 << 6) /* CH 1 INT3 */ #define CH1_HB3 (1 << 5) /* CH1 HB3 */ #define CH1_HB2 (1 << 4) /* CH1 HB2 */ #define CH1_QEC (1 << 3) /* CH1 QEC */ #define CH1_HB1 (1 << 2) /* CH1 HB1 */ #define CH1_TFIR (1 << 1) /* CH1 TFIR */ #define CH1_RFIR (1 << 0) /* CH1 RFIR */ /* * REG_CH_2_OVERFLOW */ #define CH2_INT3 (1 << 6) /* CH2 INT3 */ #define CH2_HB3 (1 << 5) /* CH2 HB3 */ #define CH2_HB2 (1 << 4) /* CH2 HB2 */ #define CH2_QEC (1 << 3) /* CH2 QEC */ #define CH2_HB1 (1 << 2) /* CH2 HB1 */ #define CH2_TFIR (1 << 1) /* CH2 TFIR */ #define CH2_RFIR (1 << 0) /* CH2 RFIR */ /* * REG_TX_FILTER_CONF */ #define TX_FIR_GAIN_6DB (1 << 0) /* Filter Gain */ #define FIR_START_CLK (1 << 1) /* Start Tx/Rx Clock */ #define FIR_WRITE (1 << 2) /* Write Tx/Rx */ #define FIR_SELECT(x) (((x) & 0x3) << 3) /* Select Tx/Rx CH<1:0> */ #define FIR_NUM_TAPS(x) (((x) & 0x7) << 5) /* Number of Taps<2:0> */ /* * REG_TX_MON_LOW_GAIN */ #define TX_MON_TRACK (1 << 5) /* Tx Mon Track */ #define TX_MON_LOW_GAIN(x) (((x) & 0x1F) << 0) /* Tx Mon Low Gain<4:0> */ /* * REG_TX_MON_HIGH_GAIN */ #define TX_MON_HIGH_GAIN(x) (((x) & 0x1F) << 0) /* Tx Mon High Gain<4:0> */ /* * REG_TX_LEVEL_THRESH */ #define TX_LEVEL_THRESH(x) (((x) & 0x3F) << 2) /* Tx Level Threshold<5:0> */ #define TX_MON_DELAY_COUNTER(x) (((x) & 0x3) << 0) /* Tx Mon Delay Counter<9:8> */ /* * REG_TX_RSSI_LSB */ #define TX_RSSI_2 (1 << 1) /* Tx RSSI 2<0> */ #define TX_RSSI_1 (1 << 0) /* TX RSSI 1<0> */ /* * REG_TPM_MODE_ENABLE */ #define TX2_MON_ENABLE (1 << 7) /* Tx2 Monitor Enable */ #define TX1_MON_ENABLE (1 << 5) /* Tx1 Monitor Enable */ #define ONE_SHOT_MODE (1 << 6) /* One Shot Mode */ #define TX_MON_DURATION(x) (((x) & 0xF) << 0) /* Tx Mon Duration<3:0> */ /* * REG_TX_MON_1_CONFIG */ #define TX_MON_1_LO_CM(x) (((x) & 0x3F) << 2) /* Tx Mon 1 LO CM<5:0> */ #define TX_MON_1_GAIN(x) (((x) & 0x3) << 0) /* Tx Mon 1 Gain<1:0> */ /* * REG_TX_MON_2_CONFIG */ #define TX_MON_2_LO_CM(x) (((x) & 0x3F) << 2) /* Tx Mon 2 LO CM<5:0> */ #define TX_MON_2_GAIN(x) (((x) & 0x3) << 0) /* Tx Mon 2 Gain<1:0> */ /* * REG_TX1_ATTEN_1 */ #define TX_1_ATTEN (1 << 0) /* Tx 1 Atten <8> */ /* * REG_TX2_ATTEN_1 */ #define TX_2_ATTEN (1 << 0) /* Tx 2 Atten <8> */ /* * REG_TX_ATTEN_OFFSET */ #define MASK_CLR_ATTEN_UPDATE (1 << 6) /* Mask Clr Atten Update */ #define TX_ATTEN_OFFSET(x) (((x) & 0x3F) << 0) /* Tx Atten Offset<5:0> */ /* * REG_TX1_DIG_ATTEN */ #define SEL_TX1_TX2 (1 << 6) /* Sel Tx1 & Ttx2 */ /* * REG_TX2_DIG_ATTEN */ #define IMMEDIATELY_UPDATE_TPC_ATTEN (1 << 6) /* Immediately Update TPC Atten */ /* * REG_TX1_SYMBOL_ATTEN */ #define TX_1_SYMBOL_ATTEN(x) (((x) & 0x7F) << 0) /* Tx 1 Symbol Attenuation<6:0> */ /* * REG_TX2_SYMBOL_ATTEN */ #define TX_2_SYMBOL_ATTEN(x) (((x) & 0x7F) << 0) /* Tx 2 Symbol Attenuation<6:0> */ /* * REG_TX_SYMBOL_ATTEN_CONFIG */ #define USE_TX1_PIN_SYMBOL_ATTEN (1 << 3) /* Use Tx1 Pin & Symbol Atten */ #define USE_CTRL_IN_FOR_SYMBOL_ATTEN (1 << 1) /* Use CTRL IN for symbol Atten */ #define ENABLE_SYMBOL_ATTEN (1 << 0) /* Enable Symbol Atten */ /* * REG_TX_FORCE_BITS */ #define FORCE_OUT_2_TX2_OFFSET (1 << 7) /* Force Out 2 Tx2 Offset */ #define FORCE_OUT_2_TX1_OFFSET (1 << 6) /* Force Out 2 Tx1 Offset */ #define FORCE_OUT_2_TX2_PHASE_GAIN (1 << 5) /* Force Out 2 Tx2 Phase & Gain */ #define FORCE_OUT_2_TX1_PHASE_GAIN (1 << 4) /* Force Out 2 Tx1 Phase & Gain */ #define FORCE_OUT_1_TX2_OFFSET (1 << 3) /* Force Out 1 Tx2 Offset */ #define FORCE_OUT_1_TX1_OFFSET (1 << 2) /* Force Out 1 Tx1 Offset */ #define FORCE_OUT_1_TX2_PHASE_GAIN (1 << 1) /* Force Out 1 Tx2 Phase & Gain */ #define FORCE_OUT_1_TX1_PHASE_GAIN (1 << 0) /* Force Out 1 Tx1 Phase & Gain */ /* * REG_QUAD_CAL_NCO_FREQ_PHASE_OFFSET */ #define RX_NCO_FREQ(x) (((x) & 0x3) << 5) /* Rx NCO Frequency<1:0> */ #define RX_NCO_PHASE_OFFSET(x) (((x) & 0x1F) << 0) /* Rx NCO Phase Offset<4:0> */ /* * REG_QUAD_CAL_CTRL */ #define FREE_RUN_ENABLE (1 << 7) /* Free Run Enable */ #define SETTLE_MAIN_ENABLE (1 << 6) /* Settle Main Enable */ #define DC_OFFSET_ENABLE (1 << 5) /* DC Offset Enable */ #define GAIN_ENABLE (1 << 4) /* Gain Enable */ #define PHASE_ENABLE (1 << 3) /* Phase Enable */ #define QUAD_CAL_SOFT_RESET (1 << 2) /* Quad Cal Soft Reset */ #define M_DECIM(x) (((x) & 0x3) << 0) /* M<1:0> */ /* * REG_KEXP_1 */ #define KEXP_TX(x) (((x) & 0x3) << 6) /* Kexp Tx<1:0> */ #define KEXP_TX_COMP(x) (((x) & 0x3) << 4) /* Kexp Tx_comp <1:0> */ #define KEXP_DC_I(x) (((x) & 0x3) << 2) /* Kexp DC I <1:0> */ #define KEXP_DC_Q(x) (((x) & 0x3) << 0) /* Kexp DC Q <1:0> */ /* * REG_KEXP_2 */ #define INVERT_I_DATA (1 << 5) /* Invert I data */ #define INVERT_Q_DATA (1 << 4) /* Invert Q data */ #define TX_NCO_FREQ(x) (((x) & 0x3) << 6) /* Tx NCO frequency<1:0> */ #define KEXP_PHASE(x) (((x) & 0x3) << 2) /* Kexp Phase <1:0> */ #define KEXP_AMP(x) (((x) & 0x3) << 0) /* Kexp Amp <1:0> */ /* * REG_QUAD_CAL_STATUS_TX1 */ #define TX1_LO_CONV (1 << 1) /* Tx1 LO Conv */ #define TX1_SSB_CONV (1 << 0) /* Tx1 SSB Conv */ #define TX1_CONVERGENCE_COUNT(x) (((x) & 0x3F) << 2) /* Tx1 Convergence Count<5:0> */ /* * REG_QUAD_CAL_STATUS_TX2 */ #define TX2_LO_CONV (1 << 1) /* Tx2 LO Conv */ #define TX2_SSB_CONV (1 << 0) /* Tx2 SSB Conv */ #define TX2_CONVERGENCE_COUNT(x) (((x) & 0x3F) << 2) /* Tx2 Convergence Count<5:0> */ /* * REG_TX_QUAD_FULL_LMT_GAIN */ #define RX_FULL_TABLELMT_TABLE_GAIN(x) (((x) & 0x7F) << 0) /* RX Full table/LMT table gain<6:0> */ /* * REG_SQUARER_CONFIG */ #define GM_STAGE_TIME_CON_OVERRIDE (1 << 5) /* Gm Stage Time Con Override */ #define GM_STAGE_MV_HP_POLE (1 << 4) /* Gm Stage MV HP Pole */ #define GM_STAGE_LOWER_CM (1 << 3) /* Gm Stage Lower CM */ #define BYPASS_BIAS_R (1 << 0) /* Bypass Bias R */ #define VBIAS_CTRL(x) (((x) & 0x3) << 1) /* Vbias Control<1:0> */ /* * REG_THRESH_ACCUM */ #define THRESH_ACCUMULATOR(x) (((x) & 0xF) << 0) /* Threshold Accumulator<3:0> */ /* * REG_TX_QUAD_LPF_GAIN */ #define RX_LPF_GAIN(x) (((x) & 0x1F) << 0) /* RX LPF gain<4:0> */ /* * REG_TXDAC_VDS_I */ #define TXDAC_VDS_I(x) (((x) & 0x3F) << 0) /* TxDAC Vds I<5:0> */ /* * REG_TXDAC_VDS_Q */ #define TXDAC_VDS_Q(x) (((x) & 0x3F) << 0) /* TxDAC Vds Q<5:0> */ /* * REG_TXDAC_GN_I */ #define TXDAC_GN_I(x) (((x) & 0x3F) << 0) /* txDAC_gn_I<5:0> */ /* * REG_TXDAC_GN_Q */ #define TXDAC_GN_Q(x) (((x) & 0x3F) << 0) /* txDAC_gn_Q<5:0> */ /* * REG_TXBBF_OPAMP_A */ #define OPAMPA_OUTPUT_BIAS(x) (((x) & 0x3) << 5) /* OpAmpA Output Bias<1:0> */ #define OPAMPA_RZ(x) (((x) & 0x3) << 3) /* OpAmpA RZ<1:0> */ #define OPAMP_A_CC(x) (((x) & 0x7) << 0) /* OpAmp A CC<2:0> */ /* * REG_TXBBF_OPAMP_B */ #define OPAMPB_OUTPUT_BIAS(x) (((x) & 0x3) << 5) /* OpAmpB Output Bias<1:0> */ #define OPAMPB_RZ(x) (((x) & 0x3) << 3) /* OpAmpB RZ<1:0> */ #define OPAMP_B_CC(x) (((x) & 0x7) << 0) /* OpAmp B CC<2:0> */ /* * REG_TX_BBF_R1 */ #define OVERRIDE_ENABLE (1 << 7) /* Override enable */ #define R1(x) (((x) & 0x1F) << 0) /* R1<4:0> */ /* * REG_TX_BBF_R2 */ #define R2(x) (((x) & 0x1F) << 0) /* R2<4:0> */ /* * REG_TX_BBF_R3 */ #define R3(x) (((x) & 0x1F) << 0) /* R3<4:0> */ /* * REG_TX_BBF_R4 */ #define R4(x) (((x) & 0x1F) << 0) /* R4<4:0> */ /* * REG_TX_BBF_RP */ #define RP(x) (((x) & 0x1F) << 0) /* Rp<4:0> */ /* * REG_TX_BBF_C1 */ #define C1(x) (((x) & 0x3F) << 0) /* C1<5:0> */ /* * REG_TX_BBF_C2 */ #define C2(x) (((x) & 0x3F) << 0) /* C2<5:0> */ /* * REG_TX_BBF_CP */ #define CP(x) (((x) & 0x3F) << 0) /* Cp<5:0> */ /* * REG_TX_TUNE_CTRL */ #define PD_TUNE (1 << 2) /* PD Tune */ #define TUNER_RESAMPLE (1 << 1) /* Tuner Resample */ #define TUNER_RESAMPLE_PHASE (1 << 0) /* Tuner Resample Phase */ #define TUNE_CTRL(x) (((x) & 0x3) << 5) /* Tune Control<1:0> */ /* * REG_TX_BBF_R2B */ #define TX_BBF_BYPASS_BIAS_R (1 << 7) /* Bypass Bias R */ #define R2B_OVR (1 << 5) /* R2b Ovr */ #define R2B(x) (((x) & 0x1F) << 0) /* R2b<4:0> */ /* * REG_TX_BBF_TUNE */ #define BBF1_COMP_I (1 << 3) /* BBF1 Comp I */ #define BBF1_COMP_Q (1 << 2) /* BBF1 Comp Q */ #define BBF2_COMP_I (1 << 1) /* BBF2 Comp I */ #define BBF2_COMP_Q (1 << 0) /* BBF2 Comp Q */ /* * REG_CONFIG0 */ #define BIAS(x) (((x) & 0x3) << 6) /* Bias<1:0> */ #define RGM(x) (((x) & 0x3) << 4) /* Rgm<1:0> */ #define CC(x) (((x) & 0x3) << 2) /* Cc<1:0> */ #define AMPBIAS(x) (((x) & 0x3) << 0) /* AmpBias<1:0> */ /* * REG_RESISTOR */ #define RESISTOR(x) (((x) & 0xF) << 0) /* Resistor<3:0> */ /* * REG_CAPACITOR */ #define CAPACITOR(x) (((x) & 0x3F) << 0) /* Capacitor<5:0> */ /* * REG_LO_CM */ #define LO_COMMON_MODE(x) (((x) & 0x3) << 5) /* LO Common Mode<1:0> */ /* * REG_TX_BBF_TUNE_MODE */ #define EVALTIME (1 << 4) /* EvalTime */ #define TX_BBF_TUNE_DIVIDER (1 << 0) /* TX BBF Tune Divider<8> */ #define TUNE_COMP_MASK(x) (((x) & 0x3) << 5) /* Tune Comp Mask<1:0> */ #define TUNER_MODE(x) (((x) & 0x7) << 1) /* Tuner Mode<2:0> */ /* * REG_RX_FILTER_CONFIG */ #define WRITE_RX (1 << 2) /* Write Rx */ #define START_RX_CLOCK (1 << 1) /* Start Rx Clock */ #define NUMBER_OF_TAPS(x) (((x) & 0x7) << 5) /* Number of Taps */ #define SELECT_RX_CH(x) (((x) & 0x3) << 3) /* Select Rx Ch<1:0> */ /* * REG_RX_FILTER_GAIN */ #define FILTER_GAIN(x) (((x) & 0x3) << 0) /* Filter gain<1:0> */ /* * REG_AGC_CONFIG_1 */ #define DEC_PWR_FOR_LOW_PWR (1 << 7) /* Dec Pwr for Low Pwr */ #define DEC_PWR_FOR_LOCK_LEVEL (1 << 6) /* Dec Pwr for Lock Level */ #define DEC_PWR_FOR_GAIN_LOCK_EXIT (1 << 5) /* Dec Pwr for Gain Lock Exit */ #define SLOW_ATTACK_HYBRID_MODE (1 << 4) /* Slow Attack Hybrid Mode */ #define RX2_GAIN_CTRL_SETUP(x) (((x) & 0x3) << 2) /* Rx 2 Gain Control Setup<1:0> */ #define RX1_GAIN_CTRL_SETUP(x) (((x) & 0x3) << 0) /* Rx 1 Gain Control Setup<1:0> */ #define RX_GAIN_CTL_MASK 0x03 #define RX2_GAIN_CTRL_SHIFT 2 #define RX1_GAIN_CTRL_SHIFT 0 #define RX_GAIN_CTL_MGC 0x00 #define RX_GAIN_CTL_AGC_FAST_ATK 0x01 #define RX_GAIN_CTL_AGC_SLOW_ATK 0x02 #define RX_GAIN_CTL_AGC_SLOW_ATK_HYBD 0x03 /* * REG_AGC_CONFIG_2 */ #define AGC_SOFT_RESET (1 << 7) /* Soft Reset */ #define AGC_GAIN_UNLOCK_CTRL (1 << 6) /* Gain Unlock Control */ #define AGC_USE_FULL_GAIN_TABLE (1 << 3) /* Use Full Gain Table */ #define DIG_GAIN_EN (1 << 2) /* Enable Digital Gain */ #define MAN_GAIN_CTRL_RX2 (1 << 1) /* Manual Gain Control Rx 2 */ #define MAN_GAIN_CTRL_RX1 (1 << 0) /* Manual Gain Control Rx 1 */ /* * REG_AGC_CONFIG_3 */ #define INCDEC_LMT_GAIN (1 << 4) /* Inc/Dec LMT Gain */ #define USE_AGC_FOR_LMTLPF_GAIN (1 << 3) /* Use AGC for LMT/LPF Gain */ #define MANUAL_INCR_STEP_SIZE(x) (((x) & 0x7) << 5) /* Manual (CTRL_IN) Incr Gain Step Size<2:0> */ #define ADC_OVERRANGE_SAMPLE_SIZE(x) (((x) & 0x7) << 0) /* ADC Overrange Sample Size<2:0> */ /* * REG_MAX_LMT_FULL_GAIN */ #define MAXIMUM_FULL_TABLELMT_TABLE_INDEX(x) (((x) & 0x7F) << 0) /* Maximum Full Table/LMT Table Index<6:0> */ /* * REG_PEAK_WAIT_TIME */ #define MANUAL_CTRL_IN_DECR_GAIN_STP_SIZE(x) (((x) & 0x7) << 5) /* Manual (CTRL_IN) Decr Gain Step Size<2:0> */ #define PEAK_OVERLOAD_WAIT_TIME(x) (((x) & 0x1F) << 0) /* Peak Overload Wait Time<4:0> */ /* * REG_DIGITAL_GAIN */ #define DIG_GAIN_STP_SIZE(x) (((x) & 0x7) << 5) /* Dig Gain Step Size<2:0> */ #define MAXIMUM_DIGITAL_GAIN(x) (((x) & 0x1F) << 0) /* Maximum Digital Gain<4:0> */ /* * REG_AGC_LOCK_LEVEL */ #define ENABLE_DIG_SAT_OVRG (1 << 7) /* Enable Dig Sat Ovrg */ #define AGC_LOCK_LEVEL_FAST_AGC_INNER_HIGH_THRESH_SLOW(x) (((x) & 0x7F) << 0) /* AGC Lock Level (Fast)/ AGC Inner High Threshold (Slow) <6:0> */ /* * REG_GAIN_STP_CONFIG1 */ #define LMT_DETECTOR_SETTLING_TIME(x) (((x) & 0x7) << 5) /* LMT Detector Settling Time<2:0> */ #define DEC_STP_SIZE_FOR_LARGE_LMT_OVERLOAD(x) (((x) & 0x7) << 2) /* Dec Step Size for: Large LMT Overload/ Full Table Case #3 <2:0> */ #define ADC_NOISE_CORRECTION_FACTOR(x) (((x) & 0x3) << 0) /* ADC Noise Correction Factor<1:0> */ /* * REG_GAIN_STP_CONFIG_2 */ #define DECREMENT_STP_SIZE_FOR_SMALL_LPF_GAIN_CHANGE(x) (((x) & 0x7) << 4) /* Fast Attack Only. Decrement Step Size for: Small LPF Gain Change / Full Table Case #2 <2:0> */ #define LARGE_LPF_GAIN_STEP(x) (((x) & 0xF) << 0) /* Decrement Step Size for: Large LPF Gain Change / Full Table Case #1<3:0> */ /* * REG_SMALL_LMT_OVERLOAD_THRESH */ #define FORCE_PD_RESET_RX2 (1 << 7) /* Force PD Reset Rx2 */ #define FORCE_PD_RESET_RX1 (1 << 6) /* Force PD Reset Rx1 */ #define SMALL_LMT_OVERLOAD_THRESH(x) (((x) & 0x3F) << 0) /* Small LMT Overload Threshold<5:0> */ /* * REG_LARGE_LMT_OVERLOAD_THRESH */ #define LARGE_LMT_OVERLOAD_THRESH(x) (((x) & 0x3F) << 0) /* Large LMT Overload Threshold<5:0> */ /* * REG_RX1_MANUAL_LMT_FULL_GAIN */ #define POWER_MEAS_IN_STATE_5_MSB (1 << 7) /* Power Meas in State 5 <3> */ #define RX1_MANUAL_FULL_TABLE_LMT_TABLE_GAIN_INDEX(x) (((x) & 0x7F) << 0) /* Rx1 Manual Full table/LMT table Gain Index<6:0> */ #define RX_FULL_TBL_IDX_MASK RX1_MANUAL_FULL_TABLE_LMT_TABLE_GAIN_INDEX(~0) /* * REG_RX1_MANUAL_LPF_GAIN */ #define POWER_MEAS_IN_STATE_5(x) (((x) & 0x7) << 5) /* Power Meas in State 5<2:0> */ #define RX1_MANUAL_LPF_GAIN(x) (((x) & 0x1F) << 0) /* Rx1 Manual LPF Gain <4:0> */ #define RX_LPF_IDX_MASK RX1_MANUAL_LPF_GAIN(~0) /* * REG_RX1_MANUAL_DIGITALFORCED_GAIN */ #define FORCE_RX1_DIGITAL_GAIN (1 << 5) /* Force Rx1 Digital Gain */ #define RX1_MANUALFORCED_DIGITAL_GAIN(x) (((x) & 0x1F) << 0) /* Rx1 Manual/Forced Digital Gain<4:0> */ #define RX_DIGITAL_IDX_MASK RX1_MANUALFORCED_DIGITAL_GAIN(~0) /* * REG_RX2_MANUAL_LMT_FULL_GAIN */ #define RX2_MANUAL_FULL_TABLE_LMT_TABLE_GAIN_INDEX(x) (((x) & 0x7F) << 0) /* Rx2 Manual Full table/ LMT table Gain Index<6:0> */ /* * REG_RX2_MANUAL_LPF_GAIN */ #define RX2_MANUAL_LPF_GAIN(x) (((x) & 0x1F) << 0) /* Rx2 Manual LPF Gain<4:0> */ /* * REG_RX2_MANUAL_DIGITALFORCED_GAIN */ #define FORCE_RX2_DIGITAL_GAIN (1 << 5) /* Force Rx2 Digital Gain */ #define RX2_MANUALFORCED_DIGITAL_GAIN(x) (((x) & 0x1F) << 0) /* Rx2 Manual/Forced Digital Gain<4:0> */ /* * REG_FAST_CONFIG_1 */ #define ENABLE_GAIN_INC_AFTER_GAIN_LOCK (1 << 7) /* Enable Gain Inc after Gain Lock */ #define GOTO_OPT_GAIN_IF_ENERGY_LOST_OR_EN_AGC_HIGH (1 << 6) /* Goto Opt Gain if Energy Lost or EN_AGC High */ #define GOTO_SET_GAIN_IF_EN_AGC_HIGH (1 << 5) /* Goto Set Gain if EN_AGC High */ #define GOTO_SET_GAIN_IF_EXIT_RX_STATE (1 << 4) /* Goto Set Gain if Exit Rx State */ #define DONT_UNLOCK_GAIN_IF_ENERGY_LOST (1 << 3) /* Don't Unlock Gain if Energy Lost */ #define GOTO_OPTIMIZED_GAIN_IF_EXIT_RX_STATE (1 << 2) /* Goto Optimized Gain if Exit Rx State */ #define DONT_UNLOCK_GAIN_IF_LG_ADC_OR_LMT_OVRG (1 << 1) /* Don't Unlock Gain If Lg ADC or LMT Ovrg */ #define ENABLE_INCR_GAIN (1 << 0) /* Enable Incr Gain */ /* * REG_FAST_CONFIG_2_SETTLING_DELAY */ #define USE_LAST_LOCK_LEVEL_FOR_SET_GAIN (1 << 7) /* Use Last Lock Level for Set Gain */ #define ENABLE_LMT_GAIN_INC_FOR_LOCK_LEVEL (1 << 6) /* Enable LMT Gain Inc for Lock Level */ #define GOTO_MAX_GAIN_OR_OPT_GAIN_IF_EN_AGC_HIGH (1 << 5) /* Goto Max Gain or Opt Gain if EN_AGC High */ #define SETTLING_DELAY(x) (((x) & 0x1F) << 0) /* Settling Delay<4:0> */ /* * REG_FAST_ENERGY_LOST_THRESH */ #define POST_LOCK_LEVEL_STP_SIZE_FOR_LPF_TABLE_FULL_TABLE(x) (((x) & 0x3) << 6) /* Post Lock Level Step Size for: LPF Table/ Full Table <1:0> */ #define ENERGY_LOST_THRESH(x) (((x) & 0x3F) << 0) /* Energy lost threshold<5:0> */ /* * REG_FAST_STRONGER_SIGNAL_THRESH */ #define POST_LOCK_LEVEL_STP_FOR_LMT_TABLE(x) (((x) & 0x3) << 6) /* Post Lock Level Step for LMT Table <1:0> */ #define STRONGER_SIGNAL_THRESH(x) (((x) & 0x3F) << 0) /* Stronger Signal Threshold<5:0> */ /* * REG_FAST_LOW_POWER_THRESH */ #define DONT_UNLOCK_GAIN_IF_ADC_OVRG (1 << 7) /* Don't unlock gain if ADC Ovrg */ #define LOW_POWER_THRESH(x) (((x) & 0x7F) << 0) /* Low Power Threshold<6:0> */ /* * REG_FAST_STRONG_SIGNAL_FREEZE */ #define DONT_UNLOCK_GAIN_IF_STRONGER_SIGNAL (1 << 7) /* Don't unlock gain if Stronger Signal */ /* * REG_FAST_FINAL_OVER_RANGE_AND_OPT_GAIN */ #define FINAL_OVER_RANGE_COUNT(x) (((x) & 0x7) << 5) /* Final Over Range Count<2:0> */ #define OPTIMIZE_GAIN_OFFSET(x) (((x) & 0xF) << 0) /* Optimize Gain Offset<3:0> */ /* * REG_FAST_ENERGY_DETECT_COUNT */ #define INCREMENT_GAIN_STP_LPFLMT(x) (((x) & 0x7) << 5) /* Increment Gain Step (LPF/LMT)<2:0> */ #define ENERGY_DETECT_COUNT(x) (((x) & 0x1F) << 0) /* Energy Detect count<4:0> */ /* * REG_FAST_AGCLL_UPPER_LIMIT */ #define AGCLL_MAX_INCREASE(x) (((x) & 0x3F) << 0) /* AGCLL Max Increase<5:0> */ /* * REG_FAST_GAIN_LOCK_EXIT_COUNT */ #define GAIN_LOCK_EXIT_COUNT(x) (((x) & 0x3F) << 0) /* Gain Lock Exit Count<5:0> */ /* * REG_FAST_INITIAL_LMT_GAIN_LIMIT */ #define INITIAL_LMT_GAIN_LIMIT(x) (((x) & 0x7F) << 0) /* Initial LMT Gain Limit<6:0> */ /* * REG_AGC_INNER_LOW_THRESH */ #define PREVENT_GAIN_INC (1 << 7) /* Prevent Gain Inc */ #define AGC_INNER_LOW_THRESH(x) (((x) & 0x7F) << 0) /* AGC Inner Low Threshold<6:0> */ /* * REG_LMT_OVERLOAD_COUNTERS */ #define LARGE_LMT_OVERLOAD_EXED_COUNTER(x) (((x) & 0xF) << 4) /* Large LMT Overload Exceeded Counter<3:0> */ #define SMALL_LMT_OVERLOAD_EXED_COUNTER(x) (((x) & 0xF) << 0) /* Small LMT Overload Exceeded Counter<3:0> */ /* * REG_ADC_OVERLOAD_COUNTERS */ #define LARGE_ADC_OVERLOAD_EXED_COUNTER(x) (((x) & 0xF) << 4) /* Large ADC Overload Exceeded Counter<3:0> */ #define SMALL_ADC_OVERLOAD_EXED_COUNTER(x) (((x) & 0xF) << 0) /* Small ADC Overload Exceeded Counter<3:0> */ /* * REG_GAIN_STP1 */ #define IMMED_GAIN_CHANGE_IF_LG_LMT_OVERLOAD (1 << 7) /* Immed. Gain Change if Lg LMT Overload */ #define IMMED_GAIN_CHANGE_IF_LG_ADC_OVERLOAD (1 << 3) /* Immed. Gain Change if Lg ADC Overload */ #define AGC_INNER_HIGH_THRESH_EXED_STP_SIZE(x) (((x) & 0x7) << 4) /* AGC Inner High Threshold Exceeded Step Size<2:0> */ #define AGC_INNER_LOW_THRESH_EXED_STP_SIZE(x) (((x) & 0x7) << 0) /* AGC Inner Low Threshold Exceeded Step Size<2:0> */ /* * REG_DIGITAL_SAT_COUNTER */ #define DOUBLE_GAIN_COUNTER (1 << 5) /* Double Gain Counter */ #define ENABLE_SYNC_FOR_GAIN_COUNTER (1 << 4) /* Enable Sync for Gain Counter */ #define DIG_SATURATION_EXED_COUNTER(x) (((x) & 0xF) << 0) /* Dig Saturation Exceeded Counter<3:0> */ /* * REG_OUTER_POWER_THRESHS */ #define AGC_OUTER_HIGH_THRESH(x) (((x) & 0xF) << 4) /* AGC Outer High Threshold<3:0> */ #define AGC_OUTER_LOW_THRESH(x) (((x) & 0xF) << 0) /* AGC Outer Low Threshold<3:0> */ /* * REG_GAIN_STP_2 */ #define AGC_OUTER_HIGH_THRESH_EXED_STP_SIZE(x) (((x) & 0xF) << 4) /* AGC outer High Threshold Exceeded Step Size<3:0> */ #define AGC_OUTER_LOW_THRESH_EXED_STP_SIZE(x) (((x) & 0xF) << 0) /* AGC Outer Low Threshold Exceeded Step Size<3:0> */ /* * REG_EXT_LNA_HIGH_GAIN */ #define EXT_LNA_HIGH_GAIN(x) (((x) & 0x3F) << 0) /* Ext LNA High Gain<5:0> */ /* * REG_EXT_LNA_LOW_GAIN */ #define EXT_LNA_LOW_GAIN(x) (((x) & 0x3F) << 0) /* Ext LNA Low Gain<5:0> */ /* * REG_GAIN_TABLE_ADDRESS */ #define GAIN_TABLE_ADDRESS(x) (((x) & 0x7F) << 0) /* Gain Table Address<6:0> */ /* * REG_GAIN_TABLE_WRITE_DATA1 */ #define EXT_LNA_CTRL (1 << 7) /* Ext LNA Ctrl */ #define LNA_GAIN(x) (((x) & 0x3) << 5) /* LNA Gain <1:0> */ #define MIXER_GM_GAIN(x) (((x) & 0x1F) << 0) /* Mixer Gm Gain <4:0> */ /* * REG_GAIN_TABLE_WRITE_DATA2 */ #define TIA_GAIN (1 << 5) /* TIA Gain */ #define LPF_GAIN(x) (((x) & 0x1F) << 0) /* LPF Gain <4:0> */ /* * REG_GAIN_TABLE_WRITE_DATA_3 */ #define RF_DC_CAL (1 << 5) /* RF DC Cal */ #define DIGITAL_GAIN(x) (((x) & 0x1F) << 0) /* Digital Gain <4:0> */ /* * REG_GAIN_TABLE_READ_DATA_1 */ #define TO_LNA_GAIN(x) (((x) >> 5) & 0x3) /* LNA Gain <1:0> */ #define TO_MIXER_GM_GAIN(x) (((x) >> 0) & 0x1F) /* Mixer Gm Gain <4:0> */ /* * REG_GAIN_TABLE_READ_DATA_2 */ #define TO_LPF_GAIN(x) (((x) >> 0) & 0x1F) /* LPF Gain <4:0> */ /* * REG_GAIN_TABLE_READ_DATA_3 */ #define TO_DIGITAL_GAIN(x) (((x) >> 0) & 0x1F) /* Digital Gain <4:0> */ /* * REG_GAIN_TABLE_CONFIG */ #define WRITE_GAIN_TABLE (1 << 2) /* Write Gain Table */ #define START_GAIN_TABLE_CLOCK (1 << 1) /* Start Gain Table Clock */ #define RECEIVER_SELECT(x) (((x) & 0x3) << 3) /* Receiver Select<1:0> */ #define GT_RX1 1 #define GT_RX2 2 /* * REG_GM_SUB_TABLE_GAIN_WRITE */ #define GM_SUB_TABLE_GAIN_WRITE(x) (((x) & 0x7F) << 0) /* Gm Sub Table Gain Word Write<6:0> */ /* * REG_GM_SUB_TABLE_BIAS_WRITE */ #define GM_SUB_TABLE_BIAS_WRITE(x) (((x) & 0x1F) << 0) /* Gm Sub Table Bias Word Write<4:0> */ /* * REG_GM_SUB_TABLE_CTRL_WRITE */ #define GM_SUB_TABLE_CTRL_WRITE(x) (((x) & 0x3F) << 0) /* Gm Sub Table Control Word Write<5:0> */ /* * REG_GM_SUB_TABLE_GAIN_READ */ #define GM_SUB_TABLE_GAIN_READ(x) (((x) & 0x7F) << 0) /* Gm Sub Table Gain Word Read<6:0> */ /* * REG_GM_SUB_TABLE_BIAS_READ */ #define GM_SUB_TABLE_BIAS_READ(x) (((x) & 0x1F) << 0) /* Gm Sub Table Bias Word Read<4:0> */ /* * REG_GM_SUB_TABLE_CTRL_READ */ #define GM_SUB_TABLE_CTRL_READ(x) (((x) & 0x3F) << 0) /* Gm Sub Table Control Word Read<5:0> */ /* * REG_GM_SUB_TABLE_CONFIG */ #define WRITE_GM_SUB_TABLE (1 << 2) /* Write Gm Sub Table */ #define START_GM_SUB_TABLE_CLOCK (1 << 1) /* Start Gm Sub Table Clock */ /* * REG_GAIN_DIFF_WORDERROR_WRITE */ #define CALIB_TABLE_GAIN_DIFFERROR_WORD(x) (((x) & 0x3F) << 0) /* Calib Table Gain Diff/Error Word<5:0> */ /* * REG_GAIN_ERROR_READ */ #define CALIB_TABLE_GAIN_ERROR(x) (((x) & 0x1F) << 0) /* Calib Table Gain Error<4:0> */ /* * REG_CONFIG */ #define READ_SELECT (1 << 4) /* Read Select */ #define WRITE_MIXER_ERROR_TABLE (1 << 3) /* Write Mixer Error Table */ #define WRITE_LNA_ERROR_TABLE (1 << 2) /* Write LNA Error Table */ #define WRITE_LNA_GAIN_DIFF (1 << 1) /* Write LNA Gain Diff */ #define START_CALIB_TABLE_CLOCK (1 << 0) /* Start Calib Table Clock */ #define CALIB_TABLE_SELECT(x) (((x) & 0x3) << 5) /* Calib Table Select<1:0> */ /* * REG_LNA_GAIN_DIFF_READ_BACK */ #define LNA_CALIB_TABLE_GAIN_DIFFERENCE_WORD(x) (((x) & 0x3F) << 0) /* LNA Calib Table Gain Difference Word<5:0> */ /* * REG_MAX_MIXER_CALIBRATION_GAIN_INDEX */ #define MAX_MIXER_CALIBRATION_GAIN_INDEX(x) (((x) & 0x1F) << 0) /* Max Mixer Calibration Gain Index<4:0> */ /* * REG_SETTLE_TIME */ #define ENABLE_DIG_GAIN_CORR (1 << 7) /* Enable Dig Gain Corr */ #define FORCE_TEMP_SENSOR_FOR_CAL (1 << 6) /* Force Temp Sensor for Cal */ #define SETTLE_TIME(x) (((x) & 0x3F) << 0) /* Settle Time<5:0> */ /* * REG_MEASURE_DURATION */ #define GAIN_CAL_MEAS_DURATION(x) (((x) & 0xF) << 0) /* Gain Cal Meas Duration<3:0> */ /* * REG_MEASURE_DURATION_01 */ #define MEASUREMENT_DURATION_1(x) (((x) & 0xF) << 4) /* Measurement duration 1 <3:0> */ #define MEASUREMENT_DURATION_0(x) (((x) & 0xF) << 0) /* Measurement duration 0 <3:0> */ /* * REG_MEASURE_DURATION_23 */ #define MEASUREMENT_DURATION_3(x) (((x) & 0xF) << 4) /* Measurement duration 3 <3:0> */ #define MEASUREMENT_DURATION_2(x) (((x) & 0xF) << 0) /* Measurement duration 2 <3:0> */ /* * REG_RSSI_CONFIG */ #define START_RSSI_MEAS (1 << 5) /* Start RSSI Meas (Mode 4) */ #define ENABLE_ADC_POWER_MEAS (1 << 1) /* Enable ADC Power Meas. */ #define DEFAULT_RSSI_MEAS_MODE (1 << 0) /* Default RSSI Meas Mode */ #define RFIR_FOR_RSSI_MEASUREMENT(x) (((x) & 0x3) << 6) /* RFIR for RSSI measurement<1:0> */ #define RSSI_MODE_SELECT(x) (((x) & 0x7) << 2) /* RSSI Mode Select<2:0> */ /* * REG_ADC_MEASURE_DURATION_01 */ #define ADC_POWER_MEASUREMENT_DURATION_1(x) (((x) & 0xF) << 4) /* ADC Power Measurement Duration 1<3:0> */ #define ADC_POWER_MEASUREMENT_DURATION_0(x) (((x) & 0xF) << 0) /* ADC Power Measurement Duration 0 <3:0> */ /* * REG_DEC_POWER_MEASURE_DURATION_0 */ #define USE_HB3_OUT_FOR_ADC_PWR_MEAS (1 << 7) /* Use HB3 Out for ADC Pwr Meas */ #define USE_HB1_OUT_FOR_DEC_PWR_MEAS (1 << 6) /* Use HB1 Out for Dec pwr Meas */ #define ENABLE_DEC_PWR_MEAS (1 << 5) /* Enable Dec Pwr Meas */ #define DEFAULT_MODE_ADC_POWER (1 << 4) /* Default Mode ADC Power */ #define DEC_POWER_MEASUREMENT_DURATION(x) (((x) & 0xF) << 0) /* Dec Power Measurement Duration <3:0> */ /* * REG_LNA_GAIN */ #define DB_GAIN_READBACK_CHANNEL (1 << 0) /* dB Gain Read-back Channel */ #define MAX_LNA_GAIN(x) (((x) & 0x7F) << 1) /* Max LNA Gain<6:0> */ /* * REG_RX_QUAD_CAL_LEVEL */ #define RX_QUAD_CAL_LEVEL(x) (((x) & 0xF) << 0) /* Rx Quad Cal Level <3 :0> */ /* * REG_CALIBRATION_CONFIG_1 */ #define ENABLE_PHASE_CORR (1 << 7) /* Enable Phase Corr */ #define ENABLE_GAIN_CORR (1 << 6) /* Enable Gain Corr */ #define USE_SETTLE_COUNT_FOR_DC_CAL_WAIT (1 << 5) /* Use Settle Count for DC Cal Wait */ #define FIXED_DC_CAL_WAIT_TIME (1 << 4) /* Fixed DC Cal Wait Time */ #define FREE_RUN_MODE (1 << 3) /* Free Run Mode */ #define ENABLE_CORR_WORD_DECIMATION (1 << 2) /* Enable Corr Word Decimation */ #define ENABLE_TRACKING_MODE_CH2 (1 << 1) /* Enable Tracking Mode CH2 */ #define ENABLE_TRACKING_MODE_CH1 (1 << 0) /* Enable Tracking Mode CH1 */ /* * REG_CALIBRATION_CONFIG_2 */ #define SOFT_RESET (1 << 7) /* Soft Reset */ #define CALIBRATION_CONFIG2_DFLT (0x3 << 5) /* Must be 2'b11 */ #define K_EXP_PHASE(x) (((x) & 0x1F) << 0) /* K exp Phase<4:0> */ /* * REG_CALIBRATION_CONFIG_3 */ #define PREVENT_POS_LOOP_GAIN (1 << 7) /* Prevent Pos Loop Gain */ #define K_EXP_AMPLITUDE(x) (((x) & 0x1F) << 0) /* K exp Amplitude<4:0> */ /* * REG_RX_QUAD_GAIN1 */ #define RX_FULL_TABLELMT_TABLE_GAIN(x) (((x) & 0x7F) << 0) /* Rx Full table/LMT table gain<6:0> */ /* * REG_RX_QUAD_GAIN2 */ #define CORRECTION_WORD_DECIMATION_M(x) (((x) & 0x7) << 5) /* Correction Word Decimation M<2:0> */ #define RX_LPF_GAIN(x) (((x) & 0x1F) << 0) /* Rx LPF gain<4:0> */ /* * REG_RX1_INPUT_A_OFFSETS */ #define RX1_INPUT_A_I_DC_OFFSET_LSB(x) (((x) & 0x3F) << 2) /* Rx1 Input A "I" DC Offset<5:0> */ #define RX1_INPUT_A_Q_DC_OFFSET(x) (((x) & 0x3) << 0) /* Rx1 Input A "Q" DC Offset<9:8> */ /* * REG_INPUT_A_OFFSETS_1 */ #define RX2_INPUT_A_Q_DC_OFFSET_LSB(x) (((x) & 0xF) << 4) /* Rx2 Input A "Q" DC Offset<3:0> */ #define RX1_INPUT_A_I_DC_OFFSET_MSB(x) (((x) & 0xF) << 0) /* Rx1 Input A "I" DC Offset<9:6> */ /* * REG_RX2_INPUT_A_OFFSETS */ #define RX2_INPUT_A_I_DC_OFFSET(x) (((x) & 0x3) << 6) /* Rx2 Input A "I" DC Offset<1:0> */ #define RX2_INPUT_A_Q_DC_OFFSET_MSB(x) (((x) & 0x3F) << 0) /* Rx2 Input A "Q" DC Offset<9:4> */ /* * REG_RX1_INPUT_BC_OFFSETS */ #define RX1_INPUT_BC_I_DC_OFFSET_LSB(x) (((x) & 0x3F) << 2) /* Rx1 Input B&C "I" DC Offset<5:0> */ #define RX1_INPUT_BC_Q_DC_OFFSET(x) (((x) & 0x3) << 0) /* Rx1 Input B&C "Q" DC Offset<9:8> */ /* * REG_INPUT_BC_OFFSETS_1 */ #define RX2_INPUT_BC_Q_DC_OFFSET_LSB(x) (((x) & 0xF) << 4) /* Rx2 Input B&C "Q" DC Offset<3:0> */ #define RX1_INPUT_BC_I_DC_OFFSET_MSB(x) (((x) & 0xF) << 0) /* Rx1 Input B&C "I" DC Offset<9:6> */ /* * REG_RX2_INPUT_BC_OFFSETS */ #define RX2_INPUT_BC_I_DC_OFFSET(x) (((x) & 0x3) << 6) /* Rx2 Input B&C "I" DC Offset<1:0> */ #define RX2_INPUT_BC_Q_DC_OFFSET_MSB(x) (((x) & 0x3F) << 0) /* Rx2 Input B&C "Q" DC Offset<9:4> */ /* * REG_FORCE_BITS */ #define RX2_INPUT_BC_FORCE_OFFSET (1 << 7) /* Rx2 Input B&C Force offset */ #define RX1_INPUT_BC_FORCE_OFFSET (1 << 6) /* Rx1 Input B&C Force offset */ #define RX2_INPUT_BC_FORCE_PHGAIN (1 << 5) /* Rx2 Input B&C Force Ph/Gain */ #define RX1_INPUT_BC_FORCE_PHGAIN (1 << 4) /* Rx1 Input B&C Force Ph/Gain */ #define RX2_INPUT_A_FORCE_OFFSET (1 << 3) /* Rx2 Input A Force offset */ #define RX1_INPUT_A_FORCE_OFFSET (1 << 2) /* Rx1 Input A Force offset */ #define RX2_INPUT_A_FORCE_PHGAIN (1 << 1) /* Rx2 Input A Force Ph/Gain */ #define RX1_INPUT_A_FORCE_PHGAIN (1 << 0) /* Rx1 Input A Force Ph/Gain */ /* * REG_RF_DC_OFFSET_CONFIG_1 */ #define DAC_FS(x) (((x) & 0x3) << 4) /* DAC FS<1:0> */ #define RF_DC_CALIBRATION_COUNT(x) (((x) & 0xF) << 0) /* RF DC Calibration Count<3:0> */ /* * REG_RF_DC_OFFSET_ATTEN */ #define RF_DC_OFFSET_TABLE_UPDATE_COUNT(x) (((x) & 0x7) << 5) /* RF DC Offset Table Update Count<2:0> */ #define RF_DC_OFFSET_ATTEN(x) (((x) & 0x1F) << 0) /* RF DC Offset Attenuation<4:0> */ /* * REG_INVERT_BITS */ #define INVERT_RX2_RF_DC_CGIN_WORD (1 << 7) /* Invert Rx2 RF DC CGin Word */ #define INVERT_RX1_RF_DC_CGIN_WORD (1 << 6) /* Invert Rx1 RF DC CGin Word */ #define INVERT_RX2_RF_DC_CGOUT_WORD (1 << 5) /* Invert Rx2 RF DC CGout Word */ #define INVERT_RX1_RF_DC_CGOUT_WORD (1 << 4) /* Invert Rx1 RF DC CGout Word */ /* * REG_DC_OFFSET_CONFIG2 */ #define USE_WAIT_COUNTER_FOR_RF_DC_INIT_CAL (1 << 7) /* Use Wait Counter for RF DC Init Cal */ #define ENABLE_FAST_SETTLE_MODE (1 << 6) /* Enable Fast Settle Mode */ #define ENABLE_BB_DC_OFFSET_TRACKING (1 << 5) /* Enable BB DC Offset Tracking */ #define RESET_ACC_ON_GAIN_CHANGE (1 << 4) /* Reset Acc on Gain Change */ #define ENABLE_RF_OFFSET_TRACKING (1 << 3) /* Enable RF Offset Tracking */ #define DC_OFFSET_UPDATE(x) (((x) & 0x7) << 0) /* DC Offset Update<2:0> */ /* * REG_RF_CAL_GAIN_INDEX */ #define RF_MINIMUM_CALIBRATION_GAIN_INDEX(x) (((x) & 0x7F) << 0) /* RF Minimum Calibration Gain Index<6:0> */ /* * REG_SOI_THRESH */ #define RF_SOI_THRESH(x) (((x) & 0x7F) << 0) /* RF SOI Threshold<6:0> */ /* * REG_BB_DC_OFFSET_SHIFT */ #define INCREASE_COUNT_DURATION (1 << 7) /* Increase Count Duration */ #define BB_TRACKING_DECIMATE(x) (((x) & 0x3) << 5) /* BB Tracking Decimate<1:0> */ #define BB_DC_M_SHIFT(x) (((x) & 0x1F) << 0) /* BB DC M Shift<4:0> */ /* * REG_BB_DC_OFFSET_FAST_SETTLE_SHIFT */ #define READ_BACK_CH_SEL (1 << 7) /* Read Back CH Sel */ #define UPDATE_TRACKING_WORD (1 << 6) /* Update Tracking Word */ #define FORCE_RX_NULL (1 << 5) /* Force Rx Null */ #define BB_DC_TRACKING_FAST_SETTLE_M_SHIFT(x) (((x) & 0x1F) << 0) /* BB DC Tracking Fast Settle M Shift<4:0> */ /* * REG_BB_DC_OFFSET_ATTEN */ #define BB_DC_OFFSET_ATTEN(x) (((x) & 0xF) << 0) /* BB DC Offset Atten<3:0> */ /* * REG_RX1_BB_DC_WORD_I_MSB */ #define RX1_BB_DC_OFFSET_CORRECTION_WORD_I(x) (((x) & 0x7F) << 0) /* RX1 BB DC Offset Correction word I<14:8> */ /* * REG_RX1_BB_DC_WORD_Q_MSB */ #define RX1_BB_DC_OFFSET_CORRECTION_WORD_Q(x) (((x) & 0x7F) << 0) /* RX1 BB DC Offset Correction word Q<14:8> */ /* * REG_RX2_BB_DC_WORD_I_MSB */ #define RX2_BB_DC_OFFSET_CORRECTION_WORD_I(x) (((x) & 0x7F) << 0) /* RX2 BB DC Offset Correction word I<14:8> */ /* * REG_RX2_BB_DC_WORD_Q_MSB */ #define RX2_BB_DC_OFFSET_CORRECTION_WORD_Q(x) (((x) & 0x7F) << 0) /* RX2 BB DC Offset Correction word Q<14:8> */ /* * REG_BB_TRACK_CORR_WORD_I_MSB */ #define RX1RX2_BB_DC_OFFSET_TRACKING_CORRECTION_WORD_I(x) (((x) & 0x7F) << 0) /* RX1/RX2 BB DC Offset Tracking correction word I<14:8> */ /* * REG_BB_TRACK_CORR_WORD_Q_MSB */ #define RX1RX2_BB_DC_OFFSET_TRACKING_CORRECTION_WORD_Q(x) (((x) & 0x7F) << 0) /* RX1/RX2 BB DC Offset Tracking correction word Q<14:8> */ /* * REG_SYMBOL_LSB */ #define RX2_RSSI_SYMBOL (1 << 1) /* Rx2 RSSI symbol <0> */ #define RX1_RSSI_SYMBOL (1 << 0) /* Rx1 RSSI symbol <0> */ /* * REG_PREAMBLE_LSB */ #define RX2_RSSI_PREAMBLE (1 << 1) /* Rx2 RSSI preamble <0> */ #define RX1_RSSI_PREAMBLE (1 << 0) /* Rx1 RSSI preamble <0> */ /* * REG_RX1_RSSI_SYMBOL, REG_RX1_RSSI_PREAMBLE, * REG_RX2_RSSI_SYMBOL, REG_RX2_RSSI_PREAMBLE */ #define RSSI_LSB_SHIFT 1 #define RSSI_LSB_MASK1 0x01 #define RSSI_LSB_MASK2 0x02 /* * REG_RX_PATH_GAIN_LSB */ #define RX_PATH_GAIN (1 << 0) /* Rx Path Gain<0> */ /* * REG_RX_DIFF_LNA_FORCE */ #define FORCE_RX2_LNA_GAIN (1 << 7) /* Force Rx2 LNA Gain */ #define RX2_LNA_BYPASS (1 << 6) /* Rx2 LNA Bypass */ #define FORCE_RX1_LNA_GAIN (1 << 3) /* Force Rx1 LNA Gain */ #define RX1_LNA_BYPASS (1 << 2) /* Rx1 LNA Bypass */ #define RX2_LNA_GAIN(x) (((x) & 0x3) << 4) /* Rx2 LNA Gain<1:0> */ #define RX1_LNA_GAIN(x) (((x) & 0x3) << 0) /* Rx1 LNA Gain<1:0> */ /* * REG_RX_LNA_BIAS_COARSE */ #define RX_LNA_BIAS_COARSE(x) (((x) & 0xF) << 0) /* Rx LNA Bias Coarse<3:0> */ /* * REG_RX_LNA_BIAS_FINE_0 */ #define RX_LNA_PCASCODE_BIAS(x) (((x) & 0x7) << 5) /* Rx LNA p-Cascode Bias<2:0> */ #define RX_LNA_BIAS(x) (((x) & 0x1F) << 0) /* Rx LNA Bias<4:0> */ /* * REG_RX_LNA_BIAS_FINE_1 */ #define RX_LNA_P_CASCODE_BIAS_FINE(x) (((x) & 0x3) << 0) /* Rx LNA p- Cascode Bias Fine<4:3> */ /* * REG_RX_MIX_GM_CONFIG */ #define RX_MIX_GM_CM_OUT(x) (((x) & 0x7) << 5) /* Rx Mix Gm CM Out<2:0> */ #define RX_MIX_GM_PLOAD(x) (((x) & 0x3) << 0) /* Rx Mix Gm pload <1:0> */ /* * REG_RX1_MIX_GM_FORCE */ #define FORCE_RX1_MIX_GM (1 << 6) /* Force Rx1 Mix Gm */ #define RX1_MIX_GM_GAIN(x) (((x) & 0x3F) << 0) /* Rx1 Mix Gm Gain<5:0> */ /* * REG_RX1_MIX_GM_BIAS_FORCE */ #define RX1_MIX_GM_BIAS(x) (((x) & 0x1F) << 0) /* Rx1 Mix Gm Bias<4:0> */ /* * REG_RX2_MIX_GM_FORCE */ #define FORCE_RX2_MIX_GM (1 << 6) /* Force Rx2 Mix Gm */ #define RX2_MIX_GM_GAIN(x) (((x) & 0x3F) << 0) /* Rx2 Mix Gm Gain<5:0> */ /* * REG_RX2_MIX_GM_BIAS_FORCE */ #define RX2_MIX_GM_BIAS(x) (((x) & 0x1F) << 0) /* Rx2 Mix Gm Bias<4:0> */ /* * REG_INPUT_A_MSBS */ #define INPUT_A_RX1_Q(x) (((x) & 0x3) << 6) /* Input A RX1 Q<9:8> */ #define INPUT_A_RX1_I(x) (((x) & 0x3) << 4) /* Input A RX1 I<9:8> */ #define INPUT_A_RX2_I(x) (((x) & 0x3) << 2) /* Input A RX2 I<9:8> */ #define INPUT_A_RX2_Q(x) (((x) & 0x3) << 0) /* Input A RX2 Q<9:8> */ /* * REG_INPUTS_BC_MSBS */ #define INPUTS_BC_RX1_Q(x) (((x) & 0x3) << 6) /* Inputs B&C RX1 Q<9:8> */ #define INPUTS_BC_RX1_I(x) (((x) & 0x3) << 4) /* Inputs B&C RX1 I<9:8> */ #define INPUTS_BC_RX2_I(x) (((x) & 0x3) << 2) /* Inputs B&C RX2 I<9:8> */ #define INPUTS_BC_RX2_Q(x) (((x) & 0x3) << 0) /* Inputs B&C RX2 Q<9:8> */ /* * REG_FORCE_OS_DAC */ #define FORCE_CGIN_DAC (1 << 2) /* Force CGin DAC */ /* * REG_RX_MIX_LO_CM */ #define RX_MIX_LO_CM(x) (((x) & 0x3F) << 0) /* Rx Mix LO CM<5:0> */ /* * REG_RX_CGB_SEG_ENABLE */ #define RX_CGB_SEG_ENABLE(x) (((x) & 0x3F) << 0) /* Rx CGB Seg Enable<5:0> */ /* * REG_RX_MIX_INPUTBIAS */ #define RX_CGB_INPUT_CM_SEL(x) (((x) & 0x3) << 4) /* Rx CGB Input CM Sel<1:0> */ #define RX_CGB_BIAS(x) (((x) & 0xF) << 0) /* Rx CGB Bias<3:0> */ /* * REG_RX_TIA_CONFIG */ #define TIA2_OVERRIDE_C (1 << 3) /* TIA2 Override C */ #define TIA2_OVERRIDE_R (1 << 2) /* TIA2 Override R */ #define TIA1_OVERRIDE_C (1 << 1) /* TIA1 Override C */ #define TIA1_OVERRIDE_R (1 << 0) /* TIA1 Override R */ #define TIA_SEL_CC(x) (((x) & 0x7) << 5) /* TIA Sel CC<2:0> */ /* * REG_TIA1_C_LSB */ #define TIA1_RF(x) (((x) & 0x3) << 6) /* TIA1 RF<1:0> */ #define TIA1_C_LSB(x) (((x) & 0x3F) << 0) /* TIA1 C LSB<5:0> */ /* * REG_TIA1_C_MSB */ #define TIA1_C_MSB(x) (((x) & 0x7F) << 0) /* TIA1 C MSB<6:0> */ /* * REG_TIA2_C_LSB */ #define TIA2_RF(x) (((x) & 0x3) << 6) /* TIA2 RF<1:0> */ #define TIA2_C_LSB(x) (((x) & 0x3F) << 0) /* TIA2 C LSB<5:0> */ /* * REG_TIA2_C_MSB */ #define TIA2_C_MSB(x) (((x) & 0x7F) << 0) /* TIA2 C MSB<6:0> */ /* * REG_RX1_BBF_R1A */ #define FORCE_RX1_RESISTORS (1 << 7) /* Force Rx1 Resistors */ #define RX1_BBF_R1A(x) (((x) & 0x3F) << 0) /* Rx1 BBF R1A<5:0> */ /* * REG_RX2_BBF_R1A */ #define FORCE_RX2_RESISTORS (1 << 7) /* Force Rx2 Resistors */ #define RX2_BBF_R1A(x) (((x) & 0x3F) << 0) /* Rx2 BBF R1A<5:0> */ /* * REG_RX1_TUNE_CTRL */ #define RX1_TUNE_RESAMPLE_PHASE (1 << 2) /* Rx1 Tune Resample Phase */ #define RX1_TUNE_RESAMPLE (1 << 1) /* Rx1 Tune Resample */ #define RX1_PD_TUNE (1 << 0) /* Rx1 PD Tune */ /* * REG_RX2_TUNE_CTRL */ #define RX2_TUNE_RESAMPLE_PHASE (1 << 2) /* Rx2 Tune Resam ple Phase */ #define RX2_TUNE_RESAMPLE (1 << 1) /* Rx2 Tune Resample */ #define RX2_PD_TUNE (1 << 0) /* Rx2 PD Tune */ /* * REG_RX_BBF_R2346 */ #define TUNE_OVERRIDE (1 << 7) /* Tune Override */ #define RX_BBF_R2346(x) (((x) & 0x7) << 0) /* Rx BBF R2346<2:0> */ /* * REG_RX_BBF_C1_MSB */ #define RX_BBF_C1_MSB(x) (((x) & 0x3F) << 0) /* Rx BBF C1 MSB<5:0> */ /* * REG_RX_BBF_C1_LSB */ #define RX_BBF_C1_LSB(x) (((x) & 0x7F) << 0) /* Rx BBF C1 LSB<6:0> */ /* * REG_RX_BBF_C2_MSB */ #define RX_BBF_C2_MSB(x) (((x) & 0x3F) << 0) /* Rx BBF C2 MSB<5:0> */ /* * REG_RX_BBF_C2_LSB */ #define RX_BBF_C2_LSB(x) (((x) & 0x7F) << 0) /* Rx BBF C2 LSB<6:0> */ /* * REG_RX_BBF_C3_MSB */ #define RX_BBF_C3_MSB(x) (((x) & 0x3F) << 0) /* Rx BBF C3 MSB<5:0> */ /* * REG_RX_BBF_C3_LSB */ #define RX_BBF_C3_LSB(x) (((x) & 0x7F) << 0) /* Rx BBF C3 LSB<6:0> */ /* * REG_RX_BBF_CC1_CTR */ #define RX_BBF_CC1_CTR(x) (((x) & 0x7F) << 0) /* Rx BBF CC1 Ctr<6:0> */ /* * REG_RX_BBF_POW_RZ_BYTE0 */ #define MUST_BE_ZERO (1 << 7) /* Must be zero */ #define RX1_BBF_POW_CTR(x) (((x) & 0x3) << 5) /* Rx1 BBF Pow Ctr<1:0> */ #define RX_BBF_RZ1_CTR(x) (((x) & 0x3) << 3) /* Rx BBF Rz1 Ctr<1:0> */ /* * REG_RX_BBF_CC2_CTR */ #define RX_BBF_CC2_CTR(x) (((x) & 0x7F) << 0) /* Rx BBF CC2 Ctr<6:0> */ /* * REG_RX_BBF_POW_RZ_BYTE1 */ #define RX_BBF_POW3_CTR(x) (((x) & 0x3) << 6) /* Rx BBF Pow3 Ctr<1:0> */ #define RX_BBF_RZ3_CTR(x) (((x) & 0x3) << 4) /* Rx BBF RZ3 Ctr<1:0> */ #define RX_BBF_POW2_CTR(x) (((x) & 0x3) << 2) /* Rx BBF Pow2 Ctr<1:0> */ #define RX_BBF_RZ2_CTR(x) (((x) & 0x3) << 0) /* Rx BBF Rz2 Ctr<1:0> */ /* * REG_RX_BBF_CC3_CTR */ #define RX_BBF_CC3_CTR(x) (((x) & 0x7F) << 0) /* Rx BBF CC3 Ctr<6:0> */ /* * REG_RX_BBF_TUNE */ #define RXBBF_BYPASS_BIAS_R (1 << 7) /* RxBBF Bypass Bias R */ #define RX_BBF_R5_TUNE (1 << 4) /* Rx BBF R5 Tune */ #define RX1_BBF_TUNE_COMP_I (1 << 3) /* Rx1 BBF Tune Comp I */ #define RX1_BBF_TUNE_COMP_Q (1 << 2) /* Rx1 BBF Tune Comp Q */ #define RX2_BBF_TUNE_COMP_I (1 << 1) /* Rx2 BBF Tune Comp I */ #define RX2_BBF_TUNE_COMP_Q (1 << 0) /* Rx2 BBF Tune Comp Q */ #define RX_BBF_TUNE_CTR(x) (((x) & 0x3) << 5) /* Rx BBF Tune Ctr<1:0> */ /* * REG_RX1_BBF_MAN_GAIN */ #define RX1_BBF_FORCE_GAIN (1 << 5) /* Rx1 BBF Force Gain */ #define RX1_BBF_BQ_GAIN(x) (((x) & 0x3) << 3) /* Rx1 BBF BQ Gain<1:0> */ #define RX1_BBF_POLE_GAIN(x) (((x) & 0x7) << 0) /* Rx1 BBF Pole Gain<2:0> */ /* * REG_RX2_BBF_MAN_GAIN */ #define RX2_BBF_FORCE_GAIN (1 << 5) /* Rx2 BBF Force Gain */ #define RX2_BBF_BQ_GAIN(x) (((x) & 0x3) << 3) /* Rx2 BBF BQ Gain<1:0> */ #define RX2_BBF_POLE_GAIN(x) (((x) & 0x7) << 0) /* Rx2 BBF Pole Gain<2:0> */ /* * REG_RX_BBF_TUNE_CONFIG */ #define RX_TUNE_EVALTIME (1 << 4) /* Rx Tune Evaltime */ #define RX_BBF_TUNE_DIVIDE (1 << 0) /* RX BBF Tune Divide<8> */ #define TUNE_COMP_MASK(x) (((x) & 0x3) << 5) /* Tune Comp Mask <1:0> */ #define RX_TUNE_MODE(x) (((x) & 0x7) << 1) /* Rx Tune Mode<2:0> */ /* * REG_POLE_GAIN */ #define POLE_GAIN_TUNE(x) (((x) & 0x3) << 0) /* Pole Gain Tune<1:0> */ /* * REG_RX_BBBW_MHZ */ #define RX_TUNE_BBBW_MHZ(x) (((x) & 0x1F) << 0) /* Rx Tune BBBW MHz<4::0> */ /* * REG_RX_BBBW_KHZ */ #define RX_TUNE_BBBW_KHZ(x) (((x) & 0x7F) << 0) /* Rx Tune BBBW kHz<6:0> */ /* * REG_RX_PFD_CONFIG */ #define BYPASS_LD_SYNTH (1 << 0) /* Bypass Ld Synth */ /* * REG_RX_INTEGER_BYTE_1 */ #define SYNTH_INTEGER_WORD(x) (((x) & 0x7) << 0) /* Synthesizer Integer Word<10:8> */ /* * REG_RX_FRACT_BYTE_2 */ #define SYNTH_FRACT_WORD(x) (((x) & 0x7F) << 0) /* Synthesizer Fractional Word <22:16> */ /* * REG_RX_FORCE_VCO_TUNE_1 */ #define VCO_CAL_OFFSET(x) (((x) & 0xF) << 3) /* VCO Cal Offset<3:0> */ /* * REG_RX_ALC_VARACTOR */ #define INIT_ALC_VALUE(x) (((x) & 0xF) << 4) /* Init ALC Value<3:0> */ #define VCO_VARACTOR(x) (((x) & 0xF) << 0) /* VCO Varactor<3:0> */ /* * REG_RX_VCO_OUTPUT */ #define PORB_VCO_LOGIC (1 << 6) /* PORb VCO Logic */ #define VCO_OUTPUT_LEVEL(x) (((x) & 0xF) << 0) /* VCO Output Level<3:0> */ /* * REG_RX_CP_CURRENT */ #define CHARGE_PUMP_CURRENT(x) (((x) & 0x3F) << 0) /* Charge Pump Current<5:0> */ /* * REG_RX_CP_OFFSET */ #define SYNTH_RECAL (1 << 7) /* Synth Re-Cal */ /* * REG_RX_CP_CONFIG */ #define HALF_VCO_CAL_CLK (1 << 7) /* Half Vco Cal Clk */ #define F_CPCAL (1 << 3) /* F Cpcal */ #define CP_CAL_ENABLE (1 << 2) /* Cp Cal Enable */ /* * REG_RX_LOOP_FILTER_1 */ #define LOOP_FILTER_C2(x) (((x) & 0xF) << 4) /* Loop Filter C2<3:0> */ #define LOOP_FILTER_C1(x) (((x) & 0xF) << 0) /* Loop Filter C1<3:0> */ /* * REG_RX_LOOP_FILTER_2 */ #define LOOP_FILTER_R1(x) (((x) & 0xF) << 4) /* Loop Filter R1<3:0> */ #define LOOP_FILTER_C3(x) (((x) & 0xF) << 0) /* Loop Filter C3<3:0> */ /* * REG_RX_LOOP_FILTER_3 */ #define LOOP_FILTER_BYPASS_R3 (1 << 7) /* Loop Filter Bypass R3 */ #define LOOP_FILTER_BYPASS_R1 (1 << 6) /* Loop Filter Bypass R1 */ #define LOOP_FILTER_BYPASS_C2 (1 << 5) /* Loop Filter Bypass C2 */ #define LOOP_FILTER_BYPASS_C1 (1 << 4) /* Loop Filter Bypass C1 */ #define LOOP_FILTER_R3(x) (((x) & 0xF) << 0) /* Loop Filter R3<3:0> */ /* * REG_RX_DITHERCP_CAL */ #define FORCED_CP_CAL_WORD(x) (((x) & 0xF) << 0) /* Forced CP Cal Word<3:0> */ /* * REG_RX_VCO_BIAS_1 */ #define VCO_BIAS_TCF(x) (((x) & 0x3) << 3) /* VCO Bias Tcf<1:0> */ #define VCO_BIAS_REF(x) (((x) & 0x7) << 0) /* VCO Bias Ref<2:0> */ /* * REG_RX_CAL_STATUS */ #define CP_CAL_VALID (1 << 7) /* CP Cal Valid */ #define CP_CAL_DONE (1 << 5) /* CP Cal Done */ #define VCO_CAL_BUSY (1 << 4) /* VCO Cal Busy */ #define CP_CAL_WORD(x) (((x) & 0xF) << 0) /* CP Cal Word<3:0> */ /* * REG_RX_VCO_CAL_REF */ #define VCO_CAL_REF_TCF(x) (((x) & 0x7) << 0) /* VCO Cal Ref Tcf<2:0> */ /* * REG_RX_VCO_PD_OVERRIDES */ #define POWER_DOWN_VARACTOR_REF (1 << 3) /* Power Down Varactor Ref */ #define PWR_DOWN_VARACT_REF_TCF (1 << 2) /* Pwr Down Varact Ref Tcf */ #define POWER_DOWN_CAL_TCF (1 << 1) /* Power Down Cal Tcf */ #define POWER_DOWN_VCO_BUFFFER (1 << 0) /* Power Down VCO Bufffer */ /* * REG_RX_CP_OVERRANGE_VCO_LOCK */ #define CP_OVRG_HIGH (1 << 7) /* CP Ovrg High */ #define CP_OVRG_LOW (1 << 6) /* CP Ovrg Low */ #define VCO_LOCK (1 << 1) /* Lock */ /* * REG_RX_VCO_LDO */ #define VCO_LDO_BYPASS (1 << 7) /* VCO LDO Bypass */ #define VCO_LDO_INRUSH(x) (((x) & 0x3) << 5) /* VCO LDO Inrush<1:0> */ #define VCO_LDO_SEL(x) (((x) & 0x7) << 2) /* VCO LDO Sel<2:0> */ #define VCO_LDO_VDROP_SEL(x) (((x) & 0x3) << 0) /* VCO LDO Vdrop Sel<1:0> */ /* * REG_RX_VCO_CAL */ #define VCO_CAL_EN (1 << 7) /* VCO Cal En */ #define VCO_CAL_ALC_WAIT(x) (((x) & 0x7) << 4) /* VCO Cal ALC Wait <2:0> */ #define VCO_CAL_COUNT(x) (((x) & 0x3) << 2) /* VCO Cal Count <1:0> */ /* * REG_RX_LOCK_DETECT_CONFIG */ #define LOCK_DETECT_COUNT(x) (((x) & 0x3) << 2) /* Lock Detect Count<1:0> */ #define LOCK_DETECT_MODE(x) (((x) & 0x3) << 0) /* Lock Detect Mode<1:0> */ /* * REG_RX_CP_LEVEL_DETECT */ #define CP_LEVEL_DETECT_POWER_DOWN (1 << 6) /* CP Level Detect Power Down */ #define CP_LEVEL_THRESH_LOW(x) (((x) & 0x7) << 3) /* CP Level Threshold Low<2:0> */ #define CP_LEVEL_THRESH_HIGH(x) (((x) & 0x7) << 0) /* CP Level Threshold High<2:0> */ /* * REG_RX_DSM_SETUP_0 */ #define DSM_PROG(x) (((x) & 0xF) << 0) /* DSM Prog<3:0> */ /* * REG_RX_DSM_SETUP_1 */ #define SIF_CLOCK (1 << 6) /* SIF clock */ #define SIF_RESET_BAR (1 << 5) /* SIF Reset Bar */ #define SIF_ADDR(x) (((x) & 0x1F) << 0) /* SIF Addr<4:0> */ /* * REG_RX_CORRECTION_WORD0 */ #define UPDATE_FREQ_WORD (1 << 7) /* Update Freq Word */ #define READ_EFFECTIVE_TUNING_WORD (1 << 5) /* Read Effective Tuning Word */ #define FREQ_CORRECTION_WORD_MSB(x) (((x) & 0x1F) << 0) /* Frequency Correction Word<11:7> */ /* * REG_RX_CORRECTION_WORD1 */ #define UPDATE_FREQ_WORD (1 << 7) /* Update Freq Word */ #define FREQ_CORRECTION_WORD_LSB(x) (((x) & 0x7F) << 0) /* Frequency Correction Word<6:0> */ /* * REG_RX_VCO_VARACTOR_CTRL_0 */ #define VCO_VARACTOR_REFERENCE_TCF(x) (((x) & 0x7) << 4) /* VCO Varactor Reference Tcf<2:0> */ #define VCO_VARACTOR_OFFSET(x) (((x) & 0xF) << 0) /* VCO Varactor Offset<3:0> */ /* * REG_RX_VCO_VARACTOR_CTRL_1 */ #define VCO_VARACTOR_REFERENCE(x) (((x) & 0xF) << 0) /* VCO Varactor Reference<3:0> */ /* * REG_RX_FAST_LOCK_SETUP */ #define RX_FAST_LOCK_LOAD_SYNTH (1 << 3) /* Rx Fast Lock Load Synth */ #define RX_FAST_LOCK_PROFILE_INIT (1 << 2) /* Rx Fast Lock Profile Init */ #define RX_FAST_LOCK_PROFILE_PIN_SELECT (1 << 1) /* Rx Fast Lock Profile Pin Select */ #define RX_FAST_LOCK_MODE_ENABLE (1 << 0) /* Rx Fast Lock Mode Enable */ #define RX_FAST_LOCK_PROFILE(x) (((x) & 0x7) << 5) /* Rx Fast Lock Profile<2:0> */ /* * REG_RX_FAST_LOCK_PROGRAM_ADDR */ #define RX_FAST_LOCK_PROFILE_ADDR(x) (((x) & 0x7) << 4) /* Rx Fast Lock Profile<2:0> */ #define RX_FAST_LOCK_PROFILE_WORD(x) (((x) & 0xF) << 0) /* Configuration Word <3:0> */ /* * REG_RX_FAST_LOCK_PROGRAM_CTRL */ #define RX_FAST_LOCK_PROGRAM_WRITE (1 << 1) /* Rx Fast Lock Program Write */ #define RX_FAST_LOCK_PROGRAM_CLOCK_ENABLE (1 << 0) /* Rx Fast Lock Program Clock Enable */ #define RX_FAST_LOCK_CONFIG_WORD_NUM 16 /* * REG_RX_LO_GEN_POWER_MODE */ #define RX_LO_GEN_POWER_MODE(x) (((x) & 0x3) << 4) /* Power Mode<3:0> */ /* * REG_TX_PFD_CONFIG */ #define DIV_TEST_EN (1 << 5) /* Div Test En */ #define PFD_CLK_EDGE (1 << 1) /* PFD Clk Edge */ #define BYPASS_LD_SYNTH (1 << 0) /* Bypass Ld Synth */ #define PFD_WIDTH(x) (((x) & 0x3) << 2) /* PFD Width <1:0> */ /* * REG_TX_INTEGER_BYTE_1 */ #define SDM_BYPASS (1 << 7) /* SDM Bypass */ #define SDM_POWER_DOWN (1 << 6) /* SDM Power Down */ #define SYNTH_INTEGER_WORD(x) (((x) & 0x7) << 0) /* Synthesizer Integer Word<10:8> */ /* * REG_TX_FRACT_BYTE_2 */ #define SYNTH_FRACT_WORD(x) (((x) & 0x7F) << 0) /* Synthesizer Fractional Word <22:16> */ /* * REG_TX_FORCE_ALC */ #define FORCE_ALC_ENABLE (1 << 7) /* Force ALC Enable */ #define FORCE_ALC_WORD(x) (((x) & 0x7F) << 0) /* Force ALC Word<6:0> */ /* * REG_TX_FORCE_VCO_TUNE_1 */ #define BYPASS_LOAD_DELAY (1 << 7) /* Bypass Load Delay */ #define FORCE_VCO_TUNE_ENABLE (1 << 1) /* Force VCO Tune Enable */ #define FORCE_VCO_TUNE (1 << 0) /* Force VCO Tune */ #define VCO_CAL_OFFSET(x) (((x) & 0xF) << 3) /* VCO Cal Offset<3:0> */ /* * REG_TX_ALCVARACT_OR */ #define INIT_ALC_VALUE(x) (((x) & 0xF) << 4) /* Init ALC Value<3:0> */ #define VCO_VARACTOR(x) (((x) & 0xF) << 0) /* VCO Varactor<3:0> */ /* * REG_TX_VCO_OUTPUT */ #define PORB_VCO_LOGIC (1 << 6) /* PORb VCO Logic */ #define VCO_OUTPUT_LEVEL(x) (((x) & 0xF) << 0) /* VCO Output Level<3:0> */ /* * REG_TX_CP_CURRENT */ #define TX_CP_CURRENT_DFLT (1 << 7) /* Set to 1 */ #define VTUNE_FORCE (1 << 6) /* Vtune Force */ #define CHARGE_PUMP_CURRENT(x) (((x) & 0x3F) << 0) /* Charge Pump Current<5:0> */ /* * REG_TX_CP_OFFSET */ #define SYNTH_RECAL (1 << 7) /* Synth Re-Cal */ #define CHARGE_PUMP_OFFSET(x) (((x) & 0x3F) << 0) /* Charge Pump Offset<5:0> */ /* * REG_TX_CP_CONFIG */ #define HALF_VCO_CAL_CLK (1 << 7) /* Half Vco Cal Clk */ #define DITHER_MODE (1 << 6) /* Dither Mode */ #define CP_OFFSET_OFF (1 << 4) /* Cp Offset Off */ #define F_CPCAL (1 << 3) /* F Cpcal */ #define CP_CAL_ENABLE (1 << 2) /* Cp Cal Enable */ #define CP_TEST(x) (((x) & 0x3) << 0) /* Cp Test <1:0> */ /* * REG_TX_LOOP_FILTER_1 */ #define LOOP_FILTER_C2(x) (((x) & 0xF) << 4) /* Loop Filter C2<3:0> */ #define LOOP_FILTER_C1(x) (((x) & 0xF) << 0) /* Loop Filter C1<3:0> */ /* * REG_TX_LOOP_FILTER_2 */ #define LOOP_FILTER_R1(x) (((x) & 0xF) << 4) /* Loop Filter R1<3:0> */ #define LOOP_FILTER_C3(x) (((x) & 0xF) << 0) /* Loop Filter C3<3:0> */ /* * REG_TX_LOOP_FILTER_3 */ #define LOOP_FILTER_BYPASS_R3 (1 << 7) /* Loop Filter Bypass R3 */ #define LOOP_FILTER_BYPASS_R1 (1 << 6) /* Loop Filter Bypass R1 */ #define LOOP_FILTER_BYPASS_C2 (1 << 5) /* Loop Filter Bypass C2 */ #define LOOP_FILTER_BYPASS_C1 (1 << 4) /* Loop Filter Bypass C1 */ #define LOOP_FILTER_R3(x) (((x) & 0xF) << 0) /* Loop Filter R3<3:0> */ /* * REG_TX_DITHERCP_CAL */ #define NUMBER_SDM_DITHER_BITS(x) (((x) & 0xF) << 4) /* Number SDM Dither Bits<3:0> */ #define FORCED_CP_CAL_WORD(x) (((x) & 0xF) << 0) /* Forced CP Cal Word<3:0> */ /* * REG_TX_VCO_BIAS_1 */ #define MUST_BE_ZEROS(x) (((x) & 0x3) << 5) /* Must be zeros */ #define VCO_BIAS_TCF(x) (((x) & 0x3) << 3) /* VCO Bias Tcf<1:0> */ #define VCO_BIAS_REF(x) (((x) & 0x7) << 0) /* VCO Bias Ref<2:0> */ /* * REG_TX_VCO_BIAS_2 */ #define VCO_BYPASS_BIAS_DAC_R (1 << 7) /* VCO Bypass Bias DAC R */ #define VCO_COMP_BYPASS_BIAS_R (1 << 4) /* VCO Comp Bypass Bias R */ #define BYPASS_PRESCALE_R (1 << 3) /* Bypass Prescale R */ #define LAST_ALC_ENABLE (1 << 2) /* Last ALC Enable */ #define PRESCALE_BIAS(x) (((x) & 0x3) << 0) /* Prescale Bias <1:0> */ /* * REG_TX_CAL_STATUS */ #define CP_CAL_VALID (1 << 7) /* CP Cal Valid */ #define COMP_OUT (1 << 6) /* Comp Out */ #define CP_CAL_DONE (1 << 5) /* CP Cal Done */ #define VCO_CAL_BUSY (1 << 4) /* VCO Cal Busy */ #define CP_CAL_WORD(x) (((x) & 0xF) << 0) /* CP Cal Word<3:0> */ /* * REG_TX_VCO_CAL_REF */ #define VCO_CAL_REF_MONITOR (1 << 3) /* VCO Cal Ref Monitor */ #define VCO_CAL_REF_TCF(x) (((x) & 0x7) << 0) /* VCO Cal Ref Tcf<2:0> */ /* * REG_TX_VCO_PD_OVERRIDES */ #define POWER_DOWN_VARACTOR_REF (1 << 3) /* Power Down Varactor Ref */ #define POWER_DOWN_VARACT_REF_TCF (1 << 2) /* Power Down Varact Ref Tcf */ #define POWER_DOWN_CAL_TCF (1 << 1) /* Power Down Cal Tcf */ #define POWER_DOWN_VCO_BUFFFER (1 << 0) /* Power Down VCO Bufffer */ /* * REG_TX_CP_OVERRANGE_VCO_LOCK */ #define CP_OVRG_HIGH (1 << 7) /* CP Ovrg High */ #define CP_OVRG_LOW (1 << 6) /* CP Ovrg Low */ #define VCO_LOCK (1 << 1) /* Lock */ /* * REG_TX_VCO_LDO */ #define VCO_LDO_BYPASS (1 << 7) /* VCO LDO Bypass */ #define VCO_LDO_INRUSH(x) (((x) & 0x3) << 5) /* VCO LDO Inrush<1:0> */ #define VCO_LDO_VOUT_SEL(x) (((x) & 0x7) << 2) /* VCO LDO Vout Sel<2:0> */ #define VCO_LDO_VDROP_SEL(x) (((x) & 0x3) << 0) /* VCO LDO Vdrop Sel<1:0> */ /* * REG_TX_VCO_CAL */ #define VCO_CAL_EN (1 << 7) /* VCO Cal En */ #define VCO_CAL_ALC_WAIT(x) (((x) & 0x7) << 4) /* VCO Cal ALC Wait<2:0) */ #define VCO_CAL_COUNT(x) (((x) & 0x3) << 2) /* VCO Cal Count<1:0> */ #define FB_CLOCK_ADV(x) (((x) & 0x3) << 0) /* FB Clock Adv<1:0> */ /* * REG_TX_LOCK_DETECT_CONFIG */ #define LOCK_DETECT_COUNT(x) (((x) & 0x3) << 2) /* Lock Detect Count<1:0> */ #define LOCK_DETECT_MODE(x) (((x) & 0x3) << 0) /* Lock Detect Mode<1:0> */ /* * REG_TX_CP_LEVEL_DETECT */ #define CP_LEVEL_DETECT_POWER_DOWN (1 << 6) /* CP Level Detect Power Down */ #define CP_LEVEL_DETECT_THRESH_LOW(x) (((x) & 0x7) << 3) /* CP Level Detect Threshold Low<2:0> */ #define CP_LEVEL_DETECT_THRESH_HIGH(x) (((x) & 0x7) << 0) /* CP Level Detect Threshold High<2:0> */ /* * REG_TX_DSM_SETUP_0 */ #define DSM_PROG(x) (((x) & 0xF) << 0) /* DSM Prog<3:0> */ /* * REG_TX_DSM_SETUP_1 */ #define SIF_CLOCK (1 << 6) /* SIF clock */ #define SIF_RESET_BAR (1 << 5) /* SIF Reset Bar */ #define SIF_ADDR(x) (((x) & 0x1F) << 0) /* SIF Addr<4:0> */ /* * REG_TX_CORRECTION_WORD0 */ #define UPDATE_FREQ_WORD (1 << 7) /* Update Freq Word */ #define READ_EFFECTIVE_TUNING_WORD (1 << 5) /* Read Effective Tuning Word */ #define FREQ_CORRECTION_WORD_MSB(x) (((x) & 0x1F) << 0) /* Frequency Correction Word<11:7> */ /* * REG_TX_CORRECTION_WORD1 */ #define UPDATE_FREQ_WORD (1 << 7) /* Update Freq Word */ #define FREQ_CORRECTION_WORD_LSB(x) (((x) & 0x7F) << 0) /* Frequency Correction Word<6:0> */ /* * REG_TX_VCO_VARACTOR_CTRL_0 */ #define VCO_VARACTOR_REFERENCE_TCF(x) (((x) & 0x7) << 4) /* VCO Varactor Reference Tcf<2:0> */ #define VCO_VARACTOR_OFFSET(x) (((x) & 0xF) << 0) /* VCO Varactor Offset<3:0> */ /* * REG_TX_VCO_VARACTOR_CTRL_1 */ #define VCO_VARACTOR_REFERENCE(x) (((x) & 0xF) << 0) /* VCO Varactor Reference<3:0> */ /* * REG_DCXO_COARSE_TUNE */ #define DCXO_TUNE_COARSE(x) (((x) & 0x3F) << 0) /* DCXO Tune Coarse<5:0> */ /* * REG_DCXO_FINE_TUNE_LOW */ #define DCXO_TUNE_FINE_LOW(x) (((x) & 0x1F) << 3) /* DCXO Tune Fine<4:0> */ /* * REG_DCXO_FINE_TUNE_HIGH */ #define DCXO_TUNE_FINE_HIGH(x) ((x) >> 5) /* DCXO Tune Fine<12:5> */ /* * REG_DCXO_CONFIG */ #define MUST_BE_ZERO (1 << 7) /* Must be zero */ #define DCXO_RTAIL(x) (((x) & 0x7) << 4) /* DCXO Rtail<2:0> */ #define DCXO_RD(x) (((x) & 0x3) << 2) /* DCXO Rd<1:0> */ /* * REG_DCXO_TEMPCO_ADDR */ #define DCXO_TEMPCO_EN (1 << 7) /* DCXO Tempco En */ #define DCXO_TEMPCO_CLK (1 << 6) /* DCXO Tempco Clk */ #define DCXO_TEMPERATURE_COEF_ADDRESS(x) (((x) & 0x3F) << 0) /* DCXO Temperature Coefficient Address<5:0> */ /* * REG_TX_FAST_LOCK_SETUP */ #define TX_FAST_LOCK_LOAD_SYNTH (1 << 3) /* Tx Fast Lock Load Synth */ #define TX_FAST_LOCK_PROFILE_INIT (1 << 2) /* Tx Fast Lock Profile Init */ #define TX_FAST_LOCK_PROFILE_PIN_SELECT (1 << 1) /* Tx Fast Lock Profile Pin Select */ #define TX_FAST_LOCK_MODE_ENABLE (1 << 0) /* Tx Fast Lock Mode Enable */ #define TX_FAST_LOCK_PROFILE(x) (((x) & 0x7) << 5) /* Tx Fast Lock Profile<2:0> */ /* * REG_TX_FAST_LOCK_PROGRAM_CTRL */ #define TX_FAST_LOCK_PROGRAM_WRITE (1 << 1) /* Tx Fast Lock Program Write */ #define TX_FAST_LOCK_PROGRAM_CLOCK_ENABLE (1 << 0) /* Tx Fast Lock Program Clock Enable */ /* * REG_TX_LO_GEN_POWER_MODE */ #define TX_LO_GEN_POWER_MODE(x) (((x) & 0xF) << 4) /* Power Mode<3:0> */ /* * REG_BANDGAP_CONFIG0 */ #define POWER_DOWN_BANDGAP_REF (1 << 7) /* Power Down Bandgap Ref */ #define MASTER_BIAS_FILTER_BYPASS (1 << 6) /* Master Bias Filter Bypass */ #define MASTER_BIAS_REF_SEL (1 << 5) /* Master Bias Ref Sel */ #define MASTER_BIAS_TRIM(x) (((x) & 0x1F) << 0) /* Master Bias Trim<4:0> */ /* * REG_BANDGAP_CONFIG1 */ #define VCO_LDO_FILTER_BYPASS (1 << 7) /* VCO LDO Filter Bypass */ #define VCO_LDO_REF_SEL (1 << 6) /* VCO LDO Ref Sel */ #define BANDGAP_REF_RESET (1 << 5) /* Bandgap Ref Reset */ #define BANDGAP_TEMP_TRIM(x) (((x) & 0x1F) << 0) /* Bandgap Temp Trim<4:0> */ /* * REG_REF_DIVIDE_CONFIG_1 */ #define REF_DIVIDE_CONFIG_1_DFLT (1 << 2) /* Set to 1 */ #define RX_REF_RESET_BAR (1 << 1) /* Rx Ref Reset Bar */ #define RX_REF_DIVIDER_MSB (1 << 0) /* Rx Ref Divider<1> */ /* * REG_REF_DIVIDE_CONFIG_2 */ #define RX_REF_DIVIDER_LSB (1 << 7) /* Rx Ref Divider< 0> */ #define TX_REF_RESET_BAR (1 << 4) /* Tx Ref Reset Bar */ #define RX_REF_DOUBLER_FB_DELAY(x) (((x) & 0x3) << 5) /* Rx Ref Doubler FB Delay<1:0> */ #define TX_REF_DIVIDER(x) (((x) & 0x3) << 2) /* Tx Ref Divider<1:0> */ #define TX_REF_DOUBLER_FB_DELAY(x) (((x) & 0x3) << 0) /* Tx Ref Doubler FB Delay<1:0> */ /* * REG_GAIN_RX1,2 */ #define FULL_TABLE_GAIN_INDEX(x) (((x) & 0x7F) << 0) /* Full Table Gain Index Rx1/LMT Gain Rx1<6:0> */ /* * REG_LPF_GAIN_RX1,2 */ #define LPF_GAIN_RX(x) (((x) & 0x1F) << 0) /* LPF gain Rx1<4:0> */ /* * REG_DIG_GAIN_RX1,2 */ #define DIGITAL_GAIN_RX(x) (((x) & 0x1F) << 0) /* Digital gain Rx1<4:0> */ /* * REG_FAST_ATTACK_STATE */ #define FAST_ATTACK_STATE_RX2(x) (((x) & 0x7) << 4) /* Fast Attack State Rx2<2:0> */ #define FAST_ATTACK_STATE_RX1(x) (((x) & 0x7) << 0) /* Fast Attack State Rx1<2:0> */ #define FAST_ATK_MASK 0x7 #define RX1_FAST_ATK_SHIFT 0 #define RX2_FAST_ATK_SHIFT 4 #define FAST_ATK_RESET 0 #define FAST_ATK_PEAK_DETECT 1 #define FAST_ATK_PWR_MEASURE 2 #define FAST_ATK_FINAL_SETTELING 3 #define FAST_ATK_FINAL_OVER 4 #define FAST_ATK_GAIN_LOCKED 5 /* * REG_SLOW_LOOP_STATE */ #define SLOW_LOOP_STATE_RX2(x) (((x) & 0x7) << 4) /* Slow Loop State Rx2<2:0> */ #define SLOW_LOOP_STATE_RX1(x) (((x) & 0x7) << 0) /* Slow Loop State Rx1<2:0> */ /* * REG_OVRG_SIGS_RX1,2 */ #define GAIN_LOCK_1 (1 << 6) /* Gain Lock 1 */ #define LOW_POWER_1 (1 << 5) /* Low Power 1 */ #define LARGE_LMT_OL (1 << 4) /* Large LMT OL */ #define SMALL_LMT_OL (1 << 3) /* Small LMT OL */ #define LARGE_ADC_OL (1 << 2) /* Large ADC OL */ #define SMALL_ADC_OL (1 << 1) /* Small ADC OL */ #define DIG_SAT (1 << 0) /* Dig Sat */ /* * REG_CTRL */ #define CTRL_ENABLE (1 << 0) /* Set to 1 */ /* * REG_BIST_CONFIG */ #define TONE_PRBS (1 << 1) /* Tone/ PRBS */ #define BIST_ENABLE (1 << 0) /* BIST Enable */ #define TONE_FREQ(x) (((x) & 0x3) << 6) /* Tone Frequency<1:0> */ #define TONE_LEVEL(x) (((x) & 0x3) << 4) /* Tone Level<1:0> */ #define BIST_CTRL_POINT(x) (((x) & 0x3) << 2) /* BIST Control Point <1:0> */ /* * REG_OBSERVE_CONFIG */ #define DATA_PORT_SP_HD_LOOP_TEST_OE (1 << 7) /* Data Port SP, HD Loop Test OE */ #define RX_MASK (1 << 6) /* Rx Mask */ #define CHANNEL (1 << 5) /* Channel */ #define DATA_PORT_LOOP_TEST_ENABLE (1 << 0) /* Data Port Loop Test Enable */ #define OBSERVATION_POINT(x) (((x) & 0xF) << 1) /* Observation Point<2:0> */ /* * REG_BIST_AND_DATA_PORT_TEST_CONFIG */ #define BIST_MASK_CHANNEL_2_Q_DATA (1 << 5) /* BIST Mask Channel 2 Q data */ #define BIST_MASK_CHANNEL_2_I_DATA (1 << 4) /* BIST Mask Channel 2 I data */ #define BIST_MASK_CHANNEL_1_Q_DATA (1 << 3) /* BIST Mask Channel 1 Q data */ #define BIST_MASK_CHANNEL_1_I_DATA (1 << 2) /* BIST Mask Channel 1 I data */ #define DATA_PORT_HILOW (1 << 1) /* Data Port Hi/Low */ #define USE_DATA_PORT (1 << 0) /* Use Data Port */ #define TEMP_SENSE_VBE_TEST(x) (((x) & 0x3) << 6) /* Temp Sense Vbe Test<1:0> */ /* * REG_DAC_TEST_2 */ #define DAC_TEST_ENABLE (1 << 7) /* DAC Test Enable */ #define DAC_TEST_WORD(x) (((x) & 0x7F) << 0) /* DAC test Word <22:16> */ /* * SPI Comm Helpers */ #define AD_READ (0 << 15) #define AD_WRITE (1 << 15) #define AD_CNT(x) ((((x) - 1) & 0x7) << 12) #define AD_ADDR(x) ((x) & 0x3FF) /* * AD9361 Limits */ #define RSSI_MULTIPLIER 100 #define RSSI_RESOLUTION ((int) (0.25 * RSSI_MULTIPLIER)) #define RSSI_MAX_WEIGHT 255 #define MAX_LMT_INDEX 40 #define MAX_LPF_GAIN 24 #define MAX_DIG_GAIN 31 #define MAX_BBPLL_FREF 70000000UL /* 70 MHz */ #define MIN_BBPLL_FREQ 715000000UL /* 715 MHz */ #define MAX_BBPLL_FREQ 1430000000UL /* 1430 MHz */ #define MAX_BBPLL_DIV 64 #define MIN_BBPLL_DIV 2 /* * The ADC minimum and maximum operating output data rates * are 25MHz and 640MHz respectively. * For more information see here: https://ez.analog.com/docs/DOC-12763 */ #define MIN_ADC_CLK 25000000UL /* 25 MHz */ //#define MIN_ADC_CLK (MIN_BBPLL_FREQ / MAX_BBPLL_DIV) /* 11.17MHz */ #define MAX_ADC_CLK 640000000UL /* 640 MHz */ #define MAX_DAC_CLK (MAX_ADC_CLK / 2) #define MAX_MBYTE_SPI 8 #define RFPLL_MODULUS 8388593UL #define BBPLL_MODULUS 2088960UL #define MAX_SYNTH_FREF 80000000UL /* 80 MHz */ #define MIN_SYNTH_FREF 10000000UL /* 10 MHz */ #define MIN_VCO_FREQ_HZ 6000000000ULL #define MAX_CARRIER_FREQ_HZ 6000000000ULL #define MIN_CARRIER_FREQ_HZ 47000000ULL /* Nuand modification */ #define AD9363A_MAX_CARRIER_FREQ_HZ 3800000000ULL #define AD9363A_MIN_CARRIER_FREQ_HZ 325000000ULL /* * Driver */ enum rx_gain_table_type { RXGAIN_FULL_TBL, RXGAIN_SPLIT_TBL, }; enum rx_gain_table_name { TBL_200_1300_MHZ, TBL_1300_4000_MHZ, TBL_4000_6000_MHZ, RXGAIN_TBLS_END, }; enum fir_dest { FIR_TX1 = 0x01, FIR_TX2 = 0x02, FIR_TX1_TX2 = 0x03, FIR_RX1 = 0x81, FIR_RX2 = 0x82, FIR_RX1_RX2 = 0x83, FIR_IS_RX = 0x80, }; struct rf_gain_ctrl { uint32_t ant; uint8_t mode; }; enum rf_gain_ctrl_mode { RF_GAIN_MGC, RF_GAIN_FASTATTACK_AGC, RF_GAIN_SLOWATTACK_AGC, RF_GAIN_HYBRID_AGC }; enum f_agc_target_gain_index_type { MAX_GAIN, SET_GAIN, OPTIMIZED_GAIN, NO_GAIN_CHANGE, }; struct gain_control { enum rf_gain_ctrl_mode rx1_mode; enum rf_gain_ctrl_mode rx2_mode; /* Common */ uint8_t adc_ovr_sample_size; /* 1..8 Sum x samples, AGC_CONFIG_3 */ uint8_t adc_small_overload_thresh; /* 0..255, 0x105 */ uint8_t adc_large_overload_thresh; /* 0..255, 0x104 */ uint16_t lmt_overload_high_thresh; /* 16..800 mV, 0x107 */ uint16_t lmt_overload_low_thresh; /* 16..800 mV, 0x108 */ uint16_t dec_pow_measuremnt_duration; /* Samples, 0x15C */ uint8_t low_power_thresh; /* -64..0 dBFS, 0x114 */ bool dig_gain_en; /* should be turned off, since ADI GT doesn't use dig gain */ uint8_t max_dig_gain; /* 0..31 */ /* MGC */ bool mgc_rx1_ctrl_inp_en; /* Enables Pin control on RX1 default SPI ctrl */ bool mgc_rx2_ctrl_inp_en; /* Enables Pin control on RX2 default SPI ctrl */ uint8_t mgc_inc_gain_step; /* 1..8 */ uint8_t mgc_dec_gain_step; /* 1..8 */ uint8_t mgc_split_table_ctrl_inp_gain_mode; /* 0=AGC determine this, 1=only in LPF, 2=only in LMT */ /* AGC */ uint8_t agc_attack_delay_extra_margin_us; /* 0..31 us */ uint8_t agc_outer_thresh_high; uint8_t agc_outer_thresh_high_dec_steps; uint8_t agc_inner_thresh_high; uint8_t agc_inner_thresh_high_dec_steps; uint8_t agc_inner_thresh_low; uint8_t agc_inner_thresh_low_inc_steps; uint8_t agc_outer_thresh_low; uint8_t agc_outer_thresh_low_inc_steps; uint8_t adc_small_overload_exceed_counter; /* 0..15, 0x122 */ uint8_t adc_large_overload_exceed_counter; /* 0..15, 0x122 */ uint8_t adc_large_overload_inc_steps; /* 0..15, 0x106 */ bool adc_lmt_small_overload_prevent_gain_inc; /* 0x120 */ uint8_t lmt_overload_large_exceed_counter; /* 0..15, 0x121 */ uint8_t lmt_overload_small_exceed_counter; /* 0..15, 0x121 */ uint8_t lmt_overload_large_inc_steps; /* 0..7, 0x121 */ uint8_t dig_saturation_exceed_counter; /* 0..15, 0x128 */ uint8_t dig_gain_step_size; /* 1..8, 0x100 */ bool sync_for_gain_counter_en; /* 0x128:4 !Hybrid */ uint32_t gain_update_interval_us; /* in us */ bool immed_gain_change_if_large_adc_overload; /* 0x123:3 */ bool immed_gain_change_if_large_lmt_overload; /* 0x123:7 */ /* * Fast AGC */ uint32_t f_agc_dec_pow_measuremnt_duration; /* Samples, 0x15C */ uint32_t f_agc_state_wait_time_ns; /* 0x117 0..31 RX samples -> time_ns */ /* Fast AGC - Low Power */ bool f_agc_allow_agc_gain_increase; /* 0x110:1 */ uint8_t f_agc_lp_thresh_increment_time; /* 0x11B RX samples */ uint8_t f_agc_lp_thresh_increment_steps; /* 0x117 1..8 */ /* Fast AGC - Lock Level */ uint8_t f_agc_lock_level; /* 0x101 0..-127 dBFS */ bool f_agc_lock_level_lmt_gain_increase_en; /* 0x111:6 */ uint8_t f_agc_lock_level_gain_increase_upper_limit; /* 0x118 0..63 */ /* Fast AGC - Peak Detectors and Final Settling */ uint8_t f_agc_lpf_final_settling_steps; /* 0x112:6 0..3 (Post Lock Level Step)*/ uint8_t f_agc_lmt_final_settling_steps; /* 0x113:6 0..3 (Post Lock Level Step)*/ uint8_t f_agc_final_overrange_count; /* 0x116:5 0..7 */ /* Fast AGC - Final Power Test */ bool f_agc_gain_increase_after_gain_lock_en; /* 0x110:7 */ /* Fast AGC - Unlocking the Gain */ /* 0 = MAX Gain, 1 = Set Gain, 2 = Optimized Gain */ enum f_agc_target_gain_index_type f_agc_gain_index_type_after_exit_rx_mode; /* 0x110:[4,2] */ bool f_agc_use_last_lock_level_for_set_gain_en; /* 0x111:7 */ uint8_t f_agc_optimized_gain_offset; /*0x116 0..15 steps */ bool f_agc_rst_gla_stronger_sig_thresh_exceeded_en; /* 0x110:~6 */ uint8_t f_agc_rst_gla_stronger_sig_thresh_above_ll; /*0x113 0..63 dbFS */ bool f_agc_rst_gla_engergy_lost_sig_thresh_exceeded_en; /* 0x110:6 */ bool f_agc_rst_gla_engergy_lost_goto_optim_gain_en; /* 0x110:6 */ uint8_t f_agc_rst_gla_engergy_lost_sig_thresh_below_ll; /* 0x112:6 */ uint8_t f_agc_energy_lost_stronger_sig_gain_lock_exit_cnt; /* 0x119 0..63 RX samples */ bool f_agc_rst_gla_large_adc_overload_en; /*0x110:~1 and 0x114:~7 */ bool f_agc_rst_gla_large_lmt_overload_en; /*0x110:~1 */ bool f_agc_rst_gla_en_agc_pulled_high_en; /* 0 = Max Gain, 1 = Set Gain, 2 = Optimized Gain, 3 = No Gain Change */ enum f_agc_target_gain_index_type f_agc_rst_gla_if_en_agc_pulled_high_mode; /* 0x0FB, 0x111 */ uint8_t f_agc_power_measurement_duration_in_state5; /* 0x109, 0x10a RX samples 0..524288*/ }; struct auxdac_control { uint16_t dac1_default_value; uint16_t dac2_default_value; bool auxdac_manual_mode_en; bool dac1_in_rx_en; bool dac1_in_tx_en; bool dac1_in_alert_en; bool dac2_in_rx_en; bool dac2_in_tx_en; bool dac2_in_alert_en; uint8_t dac1_rx_delay_us; uint8_t dac1_tx_delay_us; uint8_t dac2_rx_delay_us; uint8_t dac2_tx_delay_us; }; enum rssi_restart_mode { AGC_IN_FAST_ATTACK_MODE_LOCKS_THE_GAIN, EN_AGC_PIN_IS_PULLED_HIGH, ENTERS_RX_MODE, GAIN_CHANGE_OCCURS, SPI_WRITE_TO_REGISTER, GAIN_CHANGE_OCCURS_OR_EN_AGC_PIN_PULLED_HIGH, }; struct rssi_control { enum rssi_restart_mode restart_mode; bool rssi_unit_is_rx_samples; /* default unit is time */ uint32_t rssi_delay; uint32_t rssi_wait; uint32_t rssi_duration; }; struct rx_gain_info { enum rx_gain_table_type tbl_type; int32_t starting_gain_db; int32_t max_gain_db; int32_t gain_step_db; int32_t max_idx; int32_t idx_step_offset; }; struct port_control { uint8_t pp_conf[3]; uint8_t rx_clk_data_delay; uint8_t tx_clk_data_delay; uint8_t digital_io_ctrl; uint8_t lvds_bias_ctrl; uint8_t lvds_invert[2]; #ifdef NUAND_MODIFICATIONS // add digital interface drive and clock skew uint8_t clk_out_drive; uint8_t dataclk_drive; uint8_t data_port_drive; uint8_t clk_out_slew; uint8_t dataclk_slew; uint8_t data_port_slew; #endif // NUAND_MODIFICATIONS }; struct ctrl_outs_control { uint8_t index; uint8_t en_mask; }; struct elna_control { uint16_t gain_mdB; uint16_t bypass_loss_mdB; uint32_t settling_delay_ns; bool elna_1_control_en; /* GPO0 */ bool elna_2_control_en; /* GPO1 */ bool elna_in_gaintable_all_index_en; }; struct auxadc_control { int8_t offset; uint32_t temp_time_inteval_ms; uint32_t temp_sensor_decimation; bool periodic_temp_measuremnt; uint32_t auxadc_clock_rate; uint32_t auxadc_decimation; }; struct gpo_control { bool gpo0_inactive_state_high_en; bool gpo1_inactive_state_high_en; bool gpo2_inactive_state_high_en; bool gpo3_inactive_state_high_en; bool gpo0_slave_rx_en; bool gpo0_slave_tx_en; bool gpo1_slave_rx_en; bool gpo1_slave_tx_en; bool gpo2_slave_rx_en; bool gpo2_slave_tx_en; bool gpo3_slave_rx_en; bool gpo3_slave_tx_en; uint8_t gpo0_rx_delay_us; uint8_t gpo0_tx_delay_us; uint8_t gpo1_rx_delay_us; uint8_t gpo1_tx_delay_us; uint8_t gpo2_rx_delay_us; uint8_t gpo2_tx_delay_us; uint8_t gpo3_rx_delay_us; uint8_t gpo3_tx_delay_us; }; struct tx_monitor_control { bool tx_mon_track_en; bool one_shot_mode_en; uint32_t low_high_gain_threshold_mdB; uint8_t low_gain_dB; uint8_t high_gain_dB; uint16_t tx_mon_delay; uint16_t tx_mon_duration; uint8_t tx1_mon_front_end_gain; uint8_t tx2_mon_front_end_gain; uint8_t tx1_mon_lo_cm; uint8_t tx2_mon_lo_cm; }; enum ad9361_pdata_rx_freq { BBPLL_FREQ, ADC_FREQ, R2_FREQ, R1_FREQ, CLKRF_FREQ, RX_SAMPL_FREQ, NUM_RX_CLOCKS, }; enum ad9361_pdata_tx_freq { #ifdef NUAND_MODIFICATIONS // this is a name conflict on some platforms IGNORE_FREQ, #else IGNORE, #endif // NUAND_MODIFICATIONS DAC_FREQ, T2_FREQ, T1_FREQ, CLKTF_FREQ, TX_SAMPL_FREQ, NUM_TX_CLOCKS, }; enum ad9361_clkout { CLKOUT_DISABLE, BUFFERED_XTALN_DCXO, ADC_CLK_DIV_2, ADC_CLK_DIV_3, ADC_CLK_DIV_4, ADC_CLK_DIV_8, ADC_CLK_DIV_16, }; struct ad9361_phy_platform_data { bool rx2tx2; bool fdd; bool fdd_independent_mode; bool split_gt; bool use_extclk; bool ensm_pin_pulse_mode; bool ensm_pin_ctrl; bool debug_mode; bool tdd_use_dual_synth; bool tdd_skip_vco_cal; bool use_ext_rx_lo; bool use_ext_tx_lo; bool rx1rx2_phase_inversion_en; bool qec_tracking_slow_mode_en; uint8_t dc_offset_update_events; uint8_t dc_offset_attenuation_high; uint8_t dc_offset_attenuation_low; uint8_t rf_dc_offset_count_high; uint8_t rf_dc_offset_count_low; uint8_t dig_interface_tune_skipmode; uint8_t dig_interface_tune_fir_disable; uint32_t dcxo_coarse; uint32_t dcxo_fine; uint32_t rf_rx_input_sel; uint32_t rf_tx_output_sel; uint32_t rx1tx1_mode_use_rx_num; uint32_t rx1tx1_mode_use_tx_num; uint32_t rx_path_clks[NUM_RX_CLOCKS]; uint32_t tx_path_clks[NUM_TX_CLOCKS]; uint32_t trx_synth_max_fref; uint64_t rx_synth_freq; uint64_t tx_synth_freq; uint32_t rf_rx_bandwidth_Hz; uint32_t rf_tx_bandwidth_Hz; int32_t tx_atten; bool update_tx_gain_via_alert; uint32_t rx_fastlock_delay_ns; uint32_t tx_fastlock_delay_ns; bool trx_fastlock_pinctrl_en[2]; enum ad9361_clkout ad9361_clkout_mode; struct gain_control gain_ctrl; struct rssi_control rssi_ctrl; struct port_control port_ctrl; struct ctrl_outs_control ctrl_outs_ctrl; struct elna_control elna_ctrl; struct auxadc_control auxadc_ctrl; struct auxdac_control auxdac_ctrl; struct gpo_control gpo_ctrl; struct tx_monitor_control txmon_ctrl; int32_t gpio_resetb; /* MCS SYNC */ int32_t gpio_sync; int32_t gpio_cal_sw1; int32_t gpio_cal_sw2; }; struct rf_rx_gain { uint32_t ant; /* Antenna number to read gain */ int32_t gain_db; /* gain value in dB */ uint32_t fgt_lmt_index; /* Full Gain Table / LNA-MIXER-TIA gain index */ uint32_t lmt_gain; /* LNA-MIXER-TIA gain in dB (Split GT mode only)*/ uint32_t lpf_gain; /* Low pass filter gain in dB / index (Split GT mode only)*/ uint32_t digital_gain; /* Digital gain in dB / index */ /* Debug only */ uint32_t lna_index; /* LNA Index (Split GT mode only) */ uint32_t tia_index; /* TIA Index (Split GT mode only) */ uint32_t mixer_index; /* MIXER Index (Split GT mode only) */ }; struct rf_rssi { uint32_t ant; /* Antenna number for which RSSI is reported */ uint32_t symbol; /* Runtime RSSI */ uint32_t preamble; /* Initial RSSI */ int32_t multiplier; /* Multiplier to convert reported RSSI */ uint8_t duration; /* Duration to be considered for measuring */ }; struct SynthLUT { uint16_t VCO_MHz; uint8_t VCO_Output_Level; uint8_t VCO_Varactor; uint8_t VCO_Bias_Ref; uint8_t VCO_Bias_Tcf; uint8_t VCO_Cal_Offset; uint8_t VCO_Varactor_Reference; uint8_t Charge_Pump_Current; uint8_t LF_C2; uint8_t LF_C1; uint8_t LF_R1; uint8_t LF_C3; uint8_t LF_R3; }; enum { LUT_FTDD_40, LUT_FTDD_60, LUT_FTDD_80, LUT_FTDD_ENT, }; enum ad9361_clocks { BB_REFCLK, RX_REFCLK, TX_REFCLK, BBPLL_CLK, ADC_CLK, R2_CLK, R1_CLK, CLKRF_CLK, RX_SAMPL_CLK, DAC_CLK, T2_CLK, T1_CLK, CLKTF_CLK, TX_SAMPL_CLK, RX_RFPLL_INT, TX_RFPLL_INT, RX_RFPLL_DUMMY, TX_RFPLL_DUMMY, RX_RFPLL, TX_RFPLL, NUM_AD9361_CLKS, EXT_REF_CLK, }; struct ad9361_debugfs_entry { struct ad9361_rf_phy *phy; const char *propname; void *out_value; uint32_t val; uint8_t size; uint8_t cmd; }; struct ad9361_fastlock_entry { #define FASTLOOK_INIT 1 uint8_t flags; uint8_t alc_orig; uint8_t alc_written; }; struct ad9361_fastlock { uint8_t save_profile; uint8_t current_profile[2]; struct ad9361_fastlock_entry entry[2][8]; }; enum dig_tune_flags { BE_VERBOSE = 1, BE_MOREVERBOSE = 2, DO_IDELAY = 4, DO_ODELAY = 8, SKIP_STORE_RESULT = 16, RESTORE_DEFAULT = 32, }; enum ad9361_bist_mode { BIST_DISABLE, BIST_INJ_TX, BIST_INJ_RX, }; enum dev_id { ID_AD9361, ID_AD9364, ID_AD9363A }; struct ad9361_rf_phy { enum dev_id dev_sel; uint8_t id_no; struct spi_device *spi; #ifdef NUAND_MODIFICATIONS // add gpio device struct struct gpio_device *gpio; #endif // NUAND_MODIFICATIONS struct clk *clk_refin; struct clk *clks[NUM_AD9361_CLKS]; struct refclk_scale *ref_clk_scale[NUM_AD9361_CLKS]; struct clk_onecell_data clk_data; uint32_t (*ad9361_rfpll_ext_recalc_rate)(struct refclk_scale *clk_priv); int32_t (*ad9361_rfpll_ext_round_rate)(struct refclk_scale *clk_priv, uint32_t rate); int32_t (*ad9361_rfpll_ext_set_rate)(struct refclk_scale *clk_priv, uint32_t rate); struct ad9361_phy_platform_data *pdata; uint8_t prev_ensm_state; uint8_t curr_ensm_state; uint8_t cached_rx_rfpll_div; uint8_t cached_tx_rfpll_div; struct rx_gain_info rx_gain[RXGAIN_TBLS_END]; enum rx_gain_table_name current_table; bool ensm_pin_ctl_en; bool auto_cal_en; uint64_t last_tx_quad_cal_freq; uint32_t last_tx_quad_cal_phase; uint64_t current_tx_lo_freq; uint64_t current_rx_lo_freq; bool current_tx_use_tdd_table; bool current_rx_use_tdd_table; uint32_t flags; uint32_t cal_threshold_freq; uint32_t current_rx_bw_Hz; uint32_t current_tx_bw_Hz; uint32_t rxbbf_div; uint32_t rate_governor; bool bypass_rx_fir; bool bypass_tx_fir; bool rx_eq_2tx; bool filt_valid; uint32_t filt_rx_path_clks[NUM_RX_CLOCKS]; uint32_t filt_tx_path_clks[NUM_TX_CLOCKS]; uint32_t filt_rx_bw_Hz; uint32_t filt_tx_bw_Hz; uint8_t tx_fir_int; uint8_t tx_fir_ntaps; uint8_t rx_fir_dec; uint8_t rx_fir_ntaps; uint8_t agc_mode[2]; bool rfdc_track_en; bool bbdc_track_en; bool quad_track_en; bool txmon_tdd_en; uint16_t auxdac1_value; uint16_t auxdac2_value; uint32_t tx1_atten_cached; uint32_t tx2_atten_cached; struct ad9361_fastlock fastlock; struct axiadc_converter *adc_conv; struct axiadc_state *adc_state; int32_t bist_loopback_mode; enum ad9361_bist_mode bist_prbs_mode; enum ad9361_bist_mode bist_tone_mode; uint32_t bist_tone_freq_Hz; uint32_t bist_tone_level_dB; uint32_t bist_tone_mask; bool bbpll_initialized; }; struct refclk_scale { struct spi_device *spi; struct ad9361_rf_phy *phy; uint32_t mult; uint32_t div; enum ad9361_clocks source; enum ad9361_clocks parent_source; }; enum debugfs_cmd { DBGFS_NONE, DBGFS_INIT, DBGFS_LOOPBACK, DBGFS_BIST_PRBS, DBGFS_BIST_TONE, DBGFS_BIST_DT_ANALYSIS, DBGFS_RXGAIN_1, DBGFS_RXGAIN_2, }; /******************************************************************************/ /************************ Functions Declarations ******************************/ /******************************************************************************/ int32_t ad9361_spi_readm(struct spi_device *spi, uint32_t reg, uint8_t *rbuf, uint32_t num); int32_t ad9361_spi_read(struct spi_device *spi, uint32_t reg); int32_t ad9361_spi_write(struct spi_device *spi, uint32_t reg, uint32_t val); int32_t ad9361_reset(struct ad9361_rf_phy *phy); int32_t register_clocks(struct ad9361_rf_phy *phy); int32_t ad9361_init_gain_tables(struct ad9361_rf_phy *phy); int32_t ad9361_setup(struct ad9361_rf_phy *phy); int32_t ad9361_post_setup(struct ad9361_rf_phy *phy); int32_t ad9361_set_ensm_mode(struct ad9361_rf_phy *phy, bool fdd, bool pinctrl); int32_t ad9361_ensm_set_state(struct ad9361_rf_phy *phy, uint8_t ensm_state, bool pinctrl); int32_t ad9361_set_rx_gain(struct ad9361_rf_phy *phy, uint32_t rx_id, struct rf_rx_gain *rx_gain); int32_t ad9361_get_rx_gain(struct ad9361_rf_phy *phy, uint32_t rx_id, struct rf_rx_gain *rx_gain); int32_t ad9361_update_rf_bandwidth(struct ad9361_rf_phy *phy, uint32_t rf_rx_bw, uint32_t rf_tx_bw); int32_t ad9361_calculate_rf_clock_chain(struct ad9361_rf_phy *phy, uint32_t tx_sample_rate, uint32_t rate_gov, uint32_t *rx_path_clks, uint32_t *tx_path_clks); int32_t ad9361_set_trx_clock_chain(struct ad9361_rf_phy *phy, uint32_t *rx_path_clks, uint32_t *tx_path_clks); int32_t ad9361_get_trx_clock_chain(struct ad9361_rf_phy *phy, uint32_t *rx_path_clks, uint32_t *tx_path_clks); uint32_t ad9361_to_clk(uint64_t freq); uint64_t ad9361_from_clk(uint32_t freq); int32_t ad9361_read_rssi(struct ad9361_rf_phy *phy, struct rf_rssi *rssi); int32_t ad9361_set_gain_ctrl_mode(struct ad9361_rf_phy *phy, struct rf_gain_ctrl *gain_ctrl); int32_t ad9361_load_fir_filter_coef(struct ad9361_rf_phy *phy, enum fir_dest dest, int32_t gain_dB, uint32_t ntaps, short *coef); int32_t ad9361_validate_enable_fir(struct ad9361_rf_phy *phy); int32_t ad9361_set_tx_atten(struct ad9361_rf_phy *phy, uint32_t atten_mdb, bool tx1, bool tx2, bool immed); int32_t ad9361_get_tx_atten(struct ad9361_rf_phy *phy, uint32_t tx_num); uint32_t ad9361_clk_factor_recalc_rate(struct refclk_scale *clk_priv, uint32_t parent_rate); int32_t ad9361_clk_factor_round_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t *prate); int32_t ad9361_clk_factor_set_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t parent_rate); uint32_t ad9361_bbpll_recalc_rate(struct refclk_scale *clk_priv, uint32_t parent_rate); int32_t ad9361_bbpll_round_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t *prate); int32_t ad9361_bbpll_set_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t parent_rate); uint32_t ad9361_rfpll_int_recalc_rate(struct refclk_scale *clk_priv, uint32_t parent_rate); int32_t ad9361_rfpll_int_round_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t *prate); int32_t ad9361_rfpll_int_set_rate(struct refclk_scale *clk_priv, uint32_t rate, uint32_t parent_rate); uint32_t ad9361_rfpll_dummy_recalc_rate(struct refclk_scale *clk_priv); int32_t ad9361_rfpll_dummy_set_rate(struct refclk_scale *clk_priv, uint32_t rate); uint32_t ad9361_rfpll_recalc_rate(struct refclk_scale *clk_priv); int32_t ad9361_rfpll_round_rate(struct refclk_scale *clk_priv, uint32_t rate); int32_t ad9361_rfpll_set_rate(struct refclk_scale *clk_priv, uint32_t rate); int32_t ad9361_clk_mux_set_parent(struct refclk_scale *clk_priv, uint8_t index); int32_t ad9361_tracking_control(struct ad9361_rf_phy *phy, bool bbdc_track, bool rfdc_track, bool rxquad_track); int32_t ad9361_bist_loopback(struct ad9361_rf_phy *phy, int32_t mode); void ad9361_get_bist_loopback(struct ad9361_rf_phy *phy, int32_t *mode); int32_t ad9361_bist_prbs(struct ad9361_rf_phy *phy, enum ad9361_bist_mode mode); void ad9361_get_bist_prbs(struct ad9361_rf_phy *phy, enum ad9361_bist_mode *mode); int32_t ad9361_bist_tone(struct ad9361_rf_phy *phy, enum ad9361_bist_mode mode, uint32_t freq_Hz, uint32_t level_dB, uint32_t mask); void ad9361_get_bist_tone(struct ad9361_rf_phy *phy, enum ad9361_bist_mode *mode, uint32_t *freq_Hz, uint32_t *level_dB, uint32_t *mask); int32_t ad9361_rf_port_setup(struct ad9361_rf_phy *phy, bool is_out, uint32_t rx_inputs, uint32_t txb); int32_t ad9361_mcs(struct ad9361_rf_phy *phy, int32_t step); int32_t ad9361_do_calib_run(struct ad9361_rf_phy *phy, uint32_t cal, int32_t arg); int32_t ad9361_fastlock_store(struct ad9361_rf_phy *phy, bool tx, uint32_t profile); int32_t ad9361_fastlock_recall(struct ad9361_rf_phy *phy, bool tx, uint32_t profile); int32_t ad9361_fastlock_load(struct ad9361_rf_phy *phy, bool tx, uint32_t profile, uint8_t *values); int32_t ad9361_fastlock_save(struct ad9361_rf_phy *phy, bool tx, uint32_t profile, uint8_t *values); void ad9361_ensm_force_state(struct ad9361_rf_phy *phy, uint8_t ensm_state); void ad9361_ensm_restore_prev_state(struct ad9361_rf_phy *phy); int32_t ad9361_set_trx_clock_chain_freq(struct ad9361_rf_phy *phy, uint32_t freq); int32_t ad9361_find_opt(uint8_t *field, uint32_t size, uint32_t *ret_start); int32_t ad9361_hdl_loopback(struct ad9361_rf_phy *phy, bool enable); int32_t ad9361_dig_interface_timing_analysis(struct ad9361_rf_phy *phy, char *buf, int32_t buflen); int32_t ad9361_dig_tune(struct ad9361_rf_phy *phy, uint32_t max_freq, enum dig_tune_flags flags); int32_t ad9361_en_dis_tx(struct ad9361_rf_phy *phy, uint32_t tx_if, uint32_t enable); int32_t ad9361_en_dis_rx(struct ad9361_rf_phy *phy, uint32_t rx_if, uint32_t enable); int32_t ad9361_1rx1tx_channel_map(struct ad9361_rf_phy *phy, bool tx, int32_t channel); int32_t ad9361_rssi_gain_step_calib(struct ad9361_rf_phy *phy); int32_t ad9361_set_dcxo_tune(struct ad9361_rf_phy *phy, uint32_t coarse, uint32_t fine); int32_t ad9361_tx_mute(struct ad9361_rf_phy *phy, uint32_t state); uint32_t ad9361_validate_rf_bw(struct ad9361_rf_phy *phy, uint32_t bw); #endif