LMS7002M_parameters.cpp 75.5 KB
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/**
@file	LMS7002M_parameters.cpp
@author Lime Microsystems (www.limemicro.com)
@brief 	Definition of LMS7002M transceiver control parameters registers
*/

#include "LMS7002M_parameters.h"

std::vector<const LMS7Parameter*> LMS7parameterList;

const struct LMS7Parameter LRST_TX_B = { 0x0020, 15, 15, 1, "LRST_TX_B", "Resets all the logic registers to the default state for Tx MIMO channel B" };
const struct LMS7Parameter MRST_TX_B = { 0x0020, 14, 14, 1, "MRST_TX_B", "Resets all the configuration memory to the default state for Tx MIMO channel B" };
const struct LMS7Parameter LRST_TX_A = { 0x0020, 13, 13, 1, "LRST_TX_A", "Resets all the logic registers to the default state for Tx MIMO channel A" };
const struct LMS7Parameter MRST_TX_A = { 0x0020, 12, 12, 1, "MRST_TX_A", "Resets all the configuration memory to the default state for Tx MIMO channel A" };
const struct LMS7Parameter LRST_RX_B = { 0x0020, 11, 11, 1, "LRST_RX_B", "Resets all the logic registers to the default state for Rx MIMO channel B" };
const struct LMS7Parameter MRST_RX_B = { 0x0020, 10, 10, 1, "MRST_RX_B", "Resets all the configuration memory to the default state for Rx MIMO channel B" };
const struct LMS7Parameter LRST_RX_A = { 0x0020, 9, 9, 1, "LRST_RX_A", "Resets all the logic registers to the default state for Rx MIMO channel A" };
const struct LMS7Parameter MRST_RX_A = { 0x0020, 8, 8, 1, "MRST_RX_A", "Resets all the configuration memory to the default state for Rx MIMO channel A" };
const struct LMS7Parameter SRST_RXFIFO = { 0x0020, 7, 7, 1, "SRST_RXFIFO", "RX FIFO soft reset (LimeLight Interface)" };
const struct LMS7Parameter SRST_TXFIFO = { 0x0020, 6, 6, 1, "SRST_TXFIFO", "TX FIFO soft reset (LimeLight Interface)" };
const struct LMS7Parameter RXEN_B = { 0x0020, 5, 5, 1, "RXEN_B", "Power control for Rx MIMO channel B" };
const struct LMS7Parameter RXEN_A = { 0x0020, 4, 4, 1, "RXEN_A", "Power control for Rx MIMO channel A" };
const struct LMS7Parameter TXEN_B = { 0x0020, 3, 3, 1, "TXEN_B", "Power control for Tx MIMO channel B" };
const struct LMS7Parameter TXEN_A = { 0x0020, 2, 2, 1, "TXEN_A", "Power control for Tx MIMO channel A" };
const struct LMS7Parameter MAC = { 0x0020, 1, 0, 3, "MAC", "Selects MIMO channel for communication" };
const struct LMS7Parameter TX_CLK_PE = { 0x0021, 11, 11, 1, "TX_CLK_PE", "Pull up control of TX_CLK pad" };
const struct LMS7Parameter RX_CLK_PE = { 0x0021, 10, 10, 1, "RX_CLK_PE", "Pull up control of RX_CLK pad" };
const struct LMS7Parameter SDA_PE = { 0x0021, 9, 9, 1, "SDA_PE", "Pull up control of SDA pad" };
const struct LMS7Parameter SDA_DS = { 0x0021, 8, 8, 0, "SDA_DS", "Driver strength of SDA pad" };
const struct LMS7Parameter SCL_PE = { 0x0021, 7, 7, 1, "SCL_PE", "Pull up control of SCL pad" };
const struct LMS7Parameter SCL_DS = { 0x0021, 6, 6, 0, "SCL_DS", "Driver strength of SCL pad" };
const struct LMS7Parameter SDIO_DS = { 0x0021, 5, 5, 0, "SDIO_DS", "Driver strength of SDIO pad" };
const struct LMS7Parameter SDIO_PE = { 0x0021, 4, 4, 1, "SDIO_PE", "Pull up control of SDIO pad" };
const struct LMS7Parameter SDO_PE = { 0x0021, 3, 3, 1, "SDO_PE", "Pull up control of SDO pad" };
const struct LMS7Parameter SCLK_PE = { 0x0021, 2, 2, 1, "SCLK_PE", "Pull up control of SCLK pad" };
const struct LMS7Parameter SEN_PE = { 0x0021, 1, 1, 1, "SEN_PE", "Pull up control of SEN pad" };
const struct LMS7Parameter SPIMODE = { 0x0021, 0, 0, 1, "SPIMODE", "SPI communication mode" };
const struct LMS7Parameter DIQ2_DS = { 0x0022, 11, 11, 0, "DIQ2_DS", "Driver strength of DIQ2 pad" };
const struct LMS7Parameter DIQ2_PE = { 0x0022, 10, 10, 1, "DIQ2_PE", "Pull up control of DIQ2 pad" };
const struct LMS7Parameter IQ_SEL_EN_2_PE = { 0x0022, 9, 9, 1, "IQ_SEL_EN_2_PE", "Pull up control of IQ_SEL_EN_2 pad" };
const struct LMS7Parameter TXNRX2_PE = { 0x0022, 8, 8, 1, "TXNRX2_PE", "Pull up control of TXNRX2 pad" };
const struct LMS7Parameter FCLK2_PE = { 0x0022, 7, 7, 1, "FCLK2_PE", "Pull up control of FCLK2 pad" };
const struct LMS7Parameter MCLK2_PE = { 0x0022, 6, 6, 1, "MCLK2_PE", "Pull up control of MCLK2 pad" };
const struct LMS7Parameter DIQ1_DS = { 0x0022, 5, 5, 0, "DIQ1_DS", "Pull up control of MCLK2 pad" };
const struct LMS7Parameter DIQ1_PE = { 0x0022, 4, 4, 1, "DIQ1_PE", "Pull up control of DIQ1 pad" };
const struct LMS7Parameter IQ_SEL_EN_1_PE = { 0x0022, 3, 3, 1, "IQ_SEL_EN_1_PE", "Pull up control of IQ_SEL_EN_1 pad" };
const struct LMS7Parameter TXNRX1_PE = { 0x0022, 2, 2, 1, "TXNRX1_PE", "Pull up control of TXNRX1 pad" };
const struct LMS7Parameter FCLK1_PE = { 0x0022, 1, 1, 1, "FCLK1_PE", "Pull up control of FCLK1 pad" };
const struct LMS7Parameter MCLK1_PE = { 0x0022, 0, 0, 1, "MCLK1_PE", "Pull up control of MCLK1 pad" };
const struct LMS7Parameter DIQDIRCTR2 = { 0x0023, 15, 15, 0, "DIQDIRCTR2", "DIQ2 direction control mode" };
const struct LMS7Parameter DIQDIR2 = { 0x0023, 14, 14, 1, "DIQDIR2", "DIQ2 direction" };
const struct LMS7Parameter DIQDIRCTR1 = { 0x0023, 13, 13, 0, "DIQDIRCTR1", "DIQ1 direction control mode" };
const struct LMS7Parameter DIQDIR1 = { 0x0023, 12, 12, 1, "DIQDIR1", "DIQ1 direction" };
const struct LMS7Parameter ENABLEDIRCTR2 = { 0x0023, 11, 11, 0, "ENABLEDIRCTR2", "ENABLE2 direction control mode" };
const struct LMS7Parameter ENABLEDIR2 = { 0x0023, 10, 10, 1, "ENABLEDIR2", "ENABLE2 direction" };
const struct LMS7Parameter ENABLEDIRCTR1 = { 0x0023, 9, 9, 0, "ENABLEDIRCTR1", "ENABLE1 direction control mode" };
const struct LMS7Parameter ENABLEDIR1 = { 0x0023, 8, 8, 1, "ENABLEDIR1", "ENABLE1 direction." };
const struct LMS7Parameter MOD_EN = { 0x0023, 6, 6, 1, "MOD_EN", "LimeLight interface enable" };
const struct LMS7Parameter LML2_FIDM = { 0x0023, 5, 5, 0, "LML2_FIDM", "Frame start ID selection for Port 2 when LML_MODE2 = 0" };
const struct LMS7Parameter LML2_TXNRXIQ = { 0x0023, 4, 4, 1, "LML2_TXNRXIQ", "TXIQ/RXIQ mode selection for Port 2 when LML_MODE2 = 0" };
const struct LMS7Parameter LML2_MODE = { 0x0023, 3, 3, 1, "LML2_MODE", "Mode of LimeLight Port 2" };
const struct LMS7Parameter LML1_FIDM = { 0x0023, 2, 2, 0, "LML1_FIDM", "Frame start ID selection for Port 1 when LML_MODE1 = 0" };
const struct LMS7Parameter LML1_TXNRXIQ = { 0x0023, 1, 1, 0, "LML1_TXNRXIQ", "TXIQ/RXIQ mode selection for Port 1 when LML_MODE1 = 0" };
const struct LMS7Parameter LML1_MODE = { 0x0023, 0, 0, 1, "LML1_MODE", "Mode of LimeLight Port 1" };
const struct LMS7Parameter LML1_S3S = { 0x0024, 15, 14, 3, "LML1_S3S", "Sample source in position 3, when Port 1 is RF2BB" };
const struct LMS7Parameter LML1_S2S = { 0x0024, 13, 12, 2, "LML1_S2S", "Sample source in position 2, when Port 1 is RF2BB" };
const struct LMS7Parameter LML1_S1S = { 0x0024, 11, 10, 1, "LML1_S1S", "Sample source in position 1, when Port 1 is RF2BB" };
const struct LMS7Parameter LML1_S0S = { 0x0024, 9, 8, 0, "LML1_S0S", "Sample source in position 0, when Port 1 is RF2BB" };
const struct LMS7Parameter LML1_BQP = { 0x0024, 7, 6, 3, "LML1_BQP", "BQ sample position in frame, when Port 1 is BB2RF" };
const struct LMS7Parameter LML1_BIP = { 0x0024, 5, 4, 2, "LML1_BIP", "BI sample position in frame, when Port 1 is BB2RF" };
const struct LMS7Parameter LML1_AQP = { 0x0024, 3, 2, 1, "LML1_AQP", "AQ sample position in frame, when Port 1 is BB2RF" };
const struct LMS7Parameter LML1_AIP = { 0x0024, 1, 0, 0, "LML1_AIP", "AI sample position in frame, when Port 1 is BB2RF" };
const struct LMS7Parameter LML1_BB2RF_PST = { 0x0025, 15, 8, 1, "LML1_BB2RF_PST", "Number of clock cycles to wait before data drive stop after burst stop is detected in JESD207 mode on Port 1 and Port 1 BB2RF" };
const struct LMS7Parameter LML1_BB2RF_PRE = { 0x0025, 7, 0, 1, "LML1_BB2RF_PRE", "Number of clock cycles to wait before data drive start after burst start is detected in JESD207 mode on Port 1 and Port 1 BB2RF" };
const struct LMS7Parameter LML1_RF2BB_PST = { 0x0026, 15, 8, 1, "LML1_RF2BB_PST", "Number of clock cycles to wait before data capture stop after burst stop is detected in JESD207 mode on Port 1 and Port 1 is RF2BB" };
const struct LMS7Parameter LML1_RF2BB_PRE = { 0x0026, 7, 0, 1, "LML1_RF2BB_PRE", "Number of clock cycles to wait before data capture start after burst start is detected in JESD207 mode on Port 1 and Port 1 RF2BB" };
const struct LMS7Parameter LML2_S3S = { 0x0027, 15, 14, 3, "LML2_S3S", "Sample source in position 3, when Port 2 is RF2BB" };
const struct LMS7Parameter LML2_S2S = { 0x0027, 13, 12, 2, "LML2_S2S", "Sample source in position 2, when Port 2 is RF2BB" };
const struct LMS7Parameter LML2_S1S = { 0x0027, 11, 10, 1, "LML2_S1S", "Sample source in position 1, when Port 2 is RF2BB" };
const struct LMS7Parameter LML2_S0S = { 0x0027, 9, 8, 0, "LML2_S0S", "Sample source in position 0, when Port 2 is RF2BB" };
const struct LMS7Parameter LML2_BQP = { 0x0027, 7, 6, 3, "LML2_BQP", "BQ sample position in frame, when Port 2 is BB2RF" };
const struct LMS7Parameter LML2_BIP = { 0x0027, 5, 4, 2, "LML2_BIP", "BI sample position in frame, when Port 2 is BB2RF" };
const struct LMS7Parameter LML2_AQP = { 0x0027, 3, 2, 1, "LML2_AQP", "AQ sample position in frame, when Port 2 is BB2RF" };
const struct LMS7Parameter LML2_AIP = { 0x0027, 1, 0, 0, "LML2_AIP", "AI sample position in frame, when Port 2 is BB2RF" };
const struct LMS7Parameter LML2_BB2RF_PST = { 0x0028, 15, 8, 1, "LML2_BB2RF_PST", "Number of clock cycles to wait before data drive stop after burst stop is detected in JESD207 mode on Port 2 and Port 2 BB2RF" };
const struct LMS7Parameter LML2_BB2RF_PRE = { 0x0028, 7, 0, 1, "LML2_BB2RF_PRE", "Number of clock cycles to wait before data drive start after burst start is detected in JESD207 mode on Port 2 and Port 2 BB2RF" };
const struct LMS7Parameter LML2_RF2BB_PST = { 0x0029, 15, 8, 1, "LML2_RF2BB_PST", "Number of clock cycles to wait before data capture stop after burst stop is detected in JESD207 mode on Port 2 and Port 2 RF2BB" };
const struct LMS7Parameter LML2_RF2BB_PRE = { 0x0029, 7, 0, 1, "LML2_RF2BB_PRE", "Number of clock cycles to wait before data capture start after burst start is detected in JESD207 mode on Port 2 and Port 2 RF2BB" };
const struct LMS7Parameter FCLK2_DLY = { 0x002A, 15, 14, 0, "FCLK2_DLY", "" };
const struct LMS7Parameter FCLK1_DLY = { 0x002A, 13, 12, 0, "FCLK1_DLY", "" };
const struct LMS7Parameter RX_MUX = { 0x002A, 11, 10, 0, "RX_MUX", "RxFIFO data source selection" };
const struct LMS7Parameter TX_MUX = { 0x002A, 9, 8, 0, "TX_MUX", "Port selection for data transmit to TSP" };
const struct LMS7Parameter TXRDCLK_MUX = { 0x002A, 7, 6, 2, "TXRDCLK_MUX", "TX FIFO read clock selection" };
const struct LMS7Parameter TXWRCLK_MUX = { 0x002A, 5, 4, 0, "TXWRCLK_MUX", "TX FIFO write clock selection" };
const struct LMS7Parameter RXRDCLK_MUX = { 0x002A, 3, 2, 1, "RXRDCLK_MUX", "RX FIFO read clock selection" };
const struct LMS7Parameter RXWRCLK_MUX = { 0x002A, 1, 0, 2, "RXWRCLK_MUX", "RX FIFO write clock selection" };
const struct LMS7Parameter FCLK2_INV = { 0x002B, 15, 15, 0, "FCLK2_INV", "FCLK2 clock inversion" };
const struct LMS7Parameter FCLK1_INV = { 0x002B, 14, 14, 0, "FCLK1_INV", "FCLK1 clock inversion" };
const struct LMS7Parameter MCLK2DLY = { 0x002B, 13, 12, 0, "MCLK2DLY", "MCLK2 clock internal delay" };
const struct LMS7Parameter MCLK1DLY = { 0x002B, 11, 10, 0, "MCLK1DLY", "MCLK1 clock internal delay" };
const struct LMS7Parameter MCLK2SRC = { 0x002B, 5, 4, 1, "MCLK2SRC", "MCLK2 clock source" };
const struct LMS7Parameter MCLK1SRC = { 0x002B, 3, 2, 0, "MCLK1SRC", "MCLK1 clock source" };
const struct LMS7Parameter TXDIVEN = { 0x002B, 1, 1, 0, "TXDIVEN", "TX clock divider enable" };
const struct LMS7Parameter RXDIVEN = { 0x002B, 0, 0, 0, "RXDIVEN", "RX clock divider enable" };
const struct LMS7Parameter TXTSPCLKA_DIV = { 0x002C, 15, 8, 255, "TXTSPCLKA_DIV", "TxTSP clock divider, used to produce MCLK(1/2). Clock division ratio is 2(TXTSPCLKA_DIV + 1)"};
const struct LMS7Parameter RXTSPCLKA_DIV = { 0x002C, 7, 0, 255, "RXTSPCLKA_DIV", "RxTSP clock divider, used to produce MCLK(1/2). Clock division ratio is 2(RXTSPCLKA_DIV + 1)"};
const struct LMS7Parameter MIMO_SISO = { 0x002E, 15, 15, 0, "MIMO_SISO", "MIMO channel B enable control" };
const struct LMS7Parameter VER = { 0x002F, 15, 11, 7, "VER", "" };
const struct LMS7Parameter REV = { 0x002F, 10, 6, 1, "REV", "" };
const struct LMS7Parameter MASK = { 0x002F, 5, 0, 0, "MASK", "" };
const struct LMS7Parameter EN_DIR_LDO = { 0x0081, 3, 3, 0, "EN_DIR_LDO", "" };
const struct LMS7Parameter EN_DIR_CGEN = { 0x0081, 2, 2, 0, "EN_DIR_CGEN", "" };
const struct LMS7Parameter EN_DIR_XBUF = { 0x0081, 1, 1, 0, "EN_DIR_XBUF", "" };
const struct LMS7Parameter EN_DIR_AFE = { 0x0081, 0, 0, 0, "EN_DIR_AFE", "" };
const struct LMS7Parameter ISEL_DAC_AFE = { 0x0082, 15, 13, 4, "ISEL_DAC_AFE", "Controls the peak current of the DAC output current" };
const struct LMS7Parameter MODE_INTERLEAVE_AFE = { 0x0082, 12, 12, 0, "MODE_INTERLEAVE_AFE", "time interleaves the two ADCs into one ADC" };
const struct LMS7Parameter MUX_AFE_1 = { 0x0082, 11, 10, 0, "MUX_AFE_1", "Controls the MUX at the input of the ADC channel 1" };
const struct LMS7Parameter MUX_AFE_2 = { 0x0082, 9, 8, 0, "MUX_AFE_2", "Controls the MUX at the input of the ADC channel 2" };
const struct LMS7Parameter PD_AFE = { 0x0082, 5, 5, 0, "PD_AFE", "Power down control for the AFE current mirror in BIAS_TOP" };
const struct LMS7Parameter PD_RX_AFE1 = { 0x0082, 4, 4, 0, "PD_RX_AFE1", "Power down control for the ADC of  channel 1" };
const struct LMS7Parameter PD_RX_AFE2 = { 0x0082, 3, 3, 1, "PD_RX_AFE2", "Power down control for the ADC of channel 2" };
const struct LMS7Parameter PD_TX_AFE1 = { 0x0082, 2, 2, 0, "PD_TX_AFE1", "Power down control for the DAC of channel 1" };
const struct LMS7Parameter PD_TX_AFE2 = { 0x0082, 1, 1, 1, "PD_TX_AFE2", "Power down control for the DAC of channel 2" };
const struct LMS7Parameter EN_G_AFE = { 0x0082, 0, 0, 1, "EN_G_AFE", "Enable control for all the AFE power downs" };
const struct LMS7Parameter MUX_BIAS_OUT = { 0x0084, 12, 11, 0, "MUX_BIAS_OUT", "Test mode of the BIAS_TOP" };
const struct LMS7Parameter RP_CALIB_BIAS = { 0x0084, 10, 6, 16, "RP_CALIB_BIAS", "Calibration code for rppolywo. This code is set by the calibration algorithm: BIAS_RPPOLY_calibration" };
const struct LMS7Parameter PD_FRP_BIAS = { 0x0084, 4, 4, 0, "PD_FRP_BIAS", "Power down signal for Fix/RP block" };
const struct LMS7Parameter PD_F_BIAS = { 0x0084, 3, 3, 0, "PD_F_BIAS", "Power down signal for Fix" };
const struct LMS7Parameter PD_PTRP_BIAS = { 0x0084, 2, 2, 0, "PD_PTRP_BIAS", "Power down signal for PTAT/RP block" };
const struct LMS7Parameter PD_PT_BIAS = { 0x0084, 1, 1, 0, "PD_PT_BIAS", "Power down signal for PTAT block" };
const struct LMS7Parameter PD_BIAS_MASTER = { 0x0084, 0, 0, 0, "PD_BIAS_MASTER", "Enable signal for central bias block" };
const struct LMS7Parameter SLFB_XBUF_RX = { 0x0085, 8, 8, 0, "SLFB_XBUF_RX", "Self biasing digital contol SLFB_XBUF_RX" };
const struct LMS7Parameter SLFB_XBUF_TX = { 0x0085, 7, 7, 0, "SLFB_XBUF_TX", "Self biasing digital contol SLFB_XBUF_TX" };
const struct LMS7Parameter BYP_XBUF_RX = { 0x0085, 6, 6, 0, "BYP_XBUF_RX", "Shorts the Input 3.3V buffer in XBUF" };
const struct LMS7Parameter BYP_XBUF_TX = { 0x0085, 5, 5, 0, "BYP_XBUF_TX", "Shorts the Input 3.3V buffer in XBUF" };
const struct LMS7Parameter EN_OUT2_XBUF_TX = { 0x0085, 4, 4, 0, "EN_OUT2_XBUF_TX", "Enables the 2nd output of TX XBUF. This 2nd buffer goes to XBUF_RX. This should be active when only 1 XBUF is to be used" };
const struct LMS7Parameter EN_TBUFIN_XBUF_RX = { 0x0085, 3, 3, 0, "EN_TBUFIN_XBUF_RX", "Disables the input from the external XOSC and buffers the 2nd input signal (from TX XBUF 2nd output) to the RX. This should be active when only 1 XBUF is to be used" };
const struct LMS7Parameter PD_XBUF_RX = { 0x0085, 2, 2, 0, "PD_XBUF_RX", "Power down signal PD_XBUF_RX" };
const struct LMS7Parameter PD_XBUF_TX = { 0x0085, 1, 1, 0, "PD_XBUF_TX", "Power down signal PD_XBUF_TX" };
const struct LMS7Parameter EN_G_XBUF = { 0x0085, 0, 0, 1, "EN_G_XBUF", "Enable control for all the XBUF power downs" };
const struct LMS7Parameter SPDUP_VCO_CGEN = { 0x0086, 15, 15, 0, "SPDUP_VCO_CGEN", "Bypasses the noise filter resistor for fast setlling time. It should be connected to a 1us pulse" };
const struct LMS7Parameter RESET_N_CGEN = { 0x0086, 14, 14, 1, "RESET_N_CGEN", "A pulse should be used in the start-up to reset ( 1-normal operation)" };
const struct LMS7Parameter EN_ADCCLKH_CLKGN = { 0x0086, 11, 11, 1, "EN_ADCCLKH_CLKGN", "Selects if F_CLKH or F_CLKL is connected to FCLK_ADC" };
const struct LMS7Parameter EN_COARSE_CKLGEN = { 0x0086, 10, 10, 0, "EN_COARSE_CKLGEN", "Enable signal for coarse tuning block" };
const struct LMS7Parameter EN_INTONLY_SDM_CGEN = { 0x0086, 9, 9, 0, "EN_INTONLY_SDM_CGEN", "Enables INTEGER-N mode of the SX " };
const struct LMS7Parameter EN_SDM_CLK_CGEN = { 0x0086, 8, 8, 1, "EN_SDM_CLK_CGEN", "Enables/Disables SDM clock. In INT-N mode or for noise testing, SDM clock can be disabled" };
const struct LMS7Parameter PD_CP_CGEN = { 0x0086, 6, 6, 0, "PD_CP_CGEN", "Power down for Charge Pump" };
const struct LMS7Parameter PD_FDIV_FB_CGEN = { 0x0086, 5, 5, 0, "PD_FDIV_FB_CGEN", "Power down for feedback frequency divider" };
const struct LMS7Parameter PD_FDIV_O_CGEN = { 0x0086, 4, 4, 0, "PD_FDIV_O_CGEN", "Power down for forward frequency divider of the CGEN block" };
const struct LMS7Parameter PD_SDM_CGEN = { 0x0086, 3, 3, 0, "PD_SDM_CGEN", "Power down for SDM" };
const struct LMS7Parameter PD_VCO_CGEN = { 0x0086, 2, 2, 0, "PD_VCO_CGEN", "Power down for VCO" };
const struct LMS7Parameter PD_VCO_COMP_CGEN = { 0x0086, 1, 1, 0, "PD_VCO_COMP_CGEN", "Power down for VCO comparator" };
const struct LMS7Parameter EN_G_CGEN = { 0x0086, 0, 0, 1, "EN_G_CGEN", "Enable control for all the CGEN power downs" };
const struct LMS7Parameter FRAC_SDM_CGEN_LSB = { 0x0087, 15, 0, 0x0400, "FRAC_SDM_CGEN_LSB", "" };
const struct LMS7Parameter INT_SDM_CGEN = { 0x0088, 13, 4, 120, "INT_SDM_CGEN", "" };
const struct LMS7Parameter FRAC_SDM_CGEN_MSB = { 0x0088, 3, 0, 0, "FRAC_SDM_CGEN_MSB", "" };
const struct LMS7Parameter REV_SDMCLK_CGEN = { 0x0089, 15, 15, 0, "REV_SDMCLK_CGEN", "Reverses the SDM clock" };
const struct LMS7Parameter SEL_SDMCLK_CGEN = { 0x0089, 14, 14, 0, "SEL_SDMCLK_CGEN", "Selects between the feedback divider output and Fref for SDM" };
const struct LMS7Parameter SX_DITHER_EN_CGEN = { 0x0089, 13, 13, 0, "SX_DITHER_EN_CGEN", "Enabled dithering in SDM" };
const struct LMS7Parameter CLKH_OV_CLKL_CGEN = { 0x0089, 12, 11, 0, "CLKH_OV_CLKL_CGEN", "FCLKL here is ADC clock. FCLKH is the clock to the DAC and if no division is added to the ADC as well" };
const struct LMS7Parameter DIV_OUTCH_CGEN = { 0x0089, 10, 3, 4, "DIV_OUTCH_CGEN", "" };
const struct LMS7Parameter TST_CGEN = { 0x0089, 2, 0, 0, "TST_CGEN",
"Controls the test mode of the SX\n\
0 - TST disabled; RSSI analog outputs enabled if RSSI blocks active and when all PLL test signals are off\n\
1 - tstdo[0] = ADC clock; tstdo[1] = DAC clock; tstao = High impedance;\n\
2 - tstdo[0] = SDM clock; tstdo[1] = feedback divider output; tstao = VCO tune through a 60kOhm resistor;\n\
3 - tstdo[0] = Reference clock; tstdo[1] = feedback divider output; tstao = VCO tune through a 10kOhm resistor;\n\
4 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = High impedance;\n\
5 - tstdo[0] = Charge pump Down signal; tstdo[1] = Charge pump Up signal; tstao = High impedance;\n\
6 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = VCO tune through a 60kOhm resistor;\n\
7 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = VCO tune through a 10kOhm resistor;\n\
if TST_SX[2] = 1 --> VCO_TSTBUF active generating VCO_TST_DIV20 and VCO_TST_DIV40"};
const struct LMS7Parameter REV_CLKDAC_CGEN = { 0x008A, 14, 14, 0, "REV_CLKDAC_CGEN", "Inverts the clock F_CLKL" };
const struct LMS7Parameter CMPLO_CTRL_CGEN = { 0x008A, 27, 14, 0, "CMPLO_CTRL_CGEN", "" };
const struct LMS7Parameter REV_CLKADC_CGEN = { 0x008A, 13, 13, 0, "REV_CLKADC_CGEN", "Inverts the clock F_CLKL" };
const struct LMS7Parameter REVPH_PFD_CGEN = { 0x008A, 12, 12, 0, "REVPH_PFD_CGEN", "Reverse the pulses of PFD. It can be used to reverse the polarity of the PLL loop (positive feedback to negative feedback)" };
const struct LMS7Parameter IOFFSET_CP_CGEN = { 0x008A, 11, 6, 20, "IOFFSET_CP_CGEN", "Scales the offset current of the charge pump, 0-->63. This current is used in Fran-N mode to create an offset in the CP response and avoide the non-linear section" };
const struct LMS7Parameter IPULSE_CP_CGEN = { 0x008A, 5, 0, 20, "IPULSE_CP_CGEN", "Scales the pulse current of the charge pump" };
const struct LMS7Parameter ICT_VCO_CGEN = { 0x008B, 13, 9, 16, "ICT_VCO_CGEN", "Scales the VCO bias current from 0 to 2.5xInom" };
const struct LMS7Parameter CSW_VCO_CGEN = { 0x008B, 8, 1, 128, "CSW_VCO_CGEN", "" };
const struct LMS7Parameter COARSE_START_CGEN = { 0x008B, 0, 0, 0, "COARSE_START_CGEN", "Control signal for coarse tuning algorithm (SX_SWC_calibration)" };
const struct LMS7Parameter COARSE_STEPDONE_CGEN = { 0x008C, 15, 15, 0, "COARSE_STEPDONE_CGEN", "" };
const struct LMS7Parameter COARSEPLL_COMPO_CGEN = { 0x008C, 14, 14, 0, "COARSEPLL_COMPO_CGEN", "" };
const struct LMS7Parameter VCO_CMPHO_CGEN = { 0x008C, 13, 13, 0, "VCO_CMPHO_CGEN", "" };
const struct LMS7Parameter VCO_CMPLO_CGEN = { 0x008C, 12, 12, 0, "VCO_CMPLO_CGEN", "" };
const struct LMS7Parameter CP2_CGEN = { 0x008C, 11, 8, 6, "CP2_CGEN", "Controls the value of CP2 (cap from CP output to GND) in the PLL filter" };
const struct LMS7Parameter CP3_CGEN = { 0x008C, 7, 4, 7, "CP3_CGEN", "Controls the value of CP3 (cap from VCO Vtune input to GND) in the PLL filter" };
const struct LMS7Parameter CZ_CGEN = { 0x008C, 3, 0, 11, "CZ_CGEN", "Controls the value of CZ (Zero capacitor) in the PLL filter" };
const struct LMS7Parameter EN_LDO_DIG = { 0x0092, 15, 15, 0, "EN_LDO_DIG", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIGGN = { 0x0092, 14, 14, 0, "EN_LDO_DIGGN", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIGSXR = { 0x0092, 13, 13, 0, "EN_LDO_DIGSXR", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIGSXT = { 0x0092, 12, 12, 0, "EN_LDO_DIGSXT", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIVGN = { 0x0092, 11, 11, 0, "EN_LDO_DIVGN", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIVSXR = { 0x0092, 10, 10, 0, "EN_LDO_DIVSXR", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_DIVSXT = { 0x0092, 9, 9, 0, "EN_LDO_DIVSXT", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_LNA12 = { 0x0092, 8, 8, 0, "EN_LDO_LNA12", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_LNA14 = { 0x0092, 7, 7, 0, "EN_LDO_LNA14", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_MXRFE = { 0x0092, 6, 6, 0, "EN_LDO_MXRFE", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_RBB = { 0x0092, 5, 5, 0, "EN_LDO_RBB", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_RXBUF = { 0x0092, 4, 4, 0, "EN_LDO_RXBUF", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TBB = { 0x0092, 3, 3, 0, "EN_LDO_TBB", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TIA12 = { 0x0092, 2, 2, 0, "EN_LDO_TIA12", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TIA14 = { 0x0092, 1, 1, 0, "EN_LDO_TIA14", "Enables the LDO" };
const struct LMS7Parameter EN_G_LDO = { 0x0092, 0, 0, 1, "EN_G_LDO", "Enable control for all the LDO power downs" };
const struct LMS7Parameter EN_LOADIMP_LDO_TLOB = { 0x0093, 15, 15, 0, "EN_LOADIMP_LDO_TLOB", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_TPAD = { 0x0093, 14, 14, 0, "EN_LOADIMP_LDO_TPAD", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_TXBUF = { 0x0093, 13, 13, 0, "EN_LOADIMP_LDO_TXBUF", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_VCOGN = { 0x0093, 12, 12, 0, "EN_LOADIMP_LDO_VCOGN", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_VCOSXR = { 0x0093, 11, 11, 0, "EN_LOADIMP_LDO_VCOSXR", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_VCOSXT = { 0x0093, 10, 10, 0, "EN_LOADIMP_LDO_VCOSXT", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LDO_AFE = { 0x0093, 9, 9, 0, "EN_LDO_AFE", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_CPGN = { 0x0093, 8, 8, 0, "EN_LDO_CPGN", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_CPSXR = { 0x0093, 7, 7, 0, "EN_LDO_CPSXR", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TLOB = { 0x0093, 6, 6, 0, "EN_LDO_TLOB", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TPAD = { 0x0093, 5, 5, 0, "EN_LDO_TPAD", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_TXBUF = { 0x0093, 4, 4, 0, "EN_LDO_TXBUF", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_VCOGN = { 0x0093, 3, 3, 0, "EN_LDO_VCOGN", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_VCOSXR = { 0x0093, 2, 2, 0, "EN_LDO_VCOSXR", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_VCOSXT = { 0x0093, 1, 1, 0, "EN_LDO_VCOSXT", "Enables the LDO" };
const struct LMS7Parameter EN_LDO_CPSXT = { 0x0093, 0, 0, 0, "EN_LDO_CPSXT", "Enables the LDO" };
const struct LMS7Parameter EN_LOADIMP_LDO_CPSXT = { 0x0094, 15, 15, 0, "EN_LOADIMP_LDO_CPSXT", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIG = { 0x0094, 14, 14, 0, "EN_LOADIMP_LDO_DIG", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIGGN = { 0x0094, 13, 13, 0, "EN_LOADIMP_LDO_DIGGN", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIGSXR = { 0x0094, 12, 12, 0, "EN_LOADIMP_LDO_DIGSXR", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIGSXT = { 0x0094, 11, 11, 0, "EN_LOADIMP_LDO_DIGSXT", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIVGN = { 0x0094, 10, 10, 0, "EN_LOADIMP_LDO_DIVGN", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIVSXR = { 0x0094, 9, 9, 0, "EN_LOADIMP_LDO_DIVSXR", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIVSXT = { 0x0094, 8, 8, 0, "EN_LOADIMP_LDO_DIVSXT", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_LNA12 = { 0x0094, 7, 7, 0, "EN_LOADIMP_LDO_LNA12", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_LNA14 = { 0x0094, 6, 6, 0, "EN_LOADIMP_LDO_LNA14", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_MXRFE = { 0x0094, 5, 5, 0, "EN_LOADIMP_LDO_MXRFE", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_RBB = { 0x0094, 4, 4, 0, "EN_LOADIMP_LDO_RBB", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_RXBUF = { 0x0094, 3, 3, 0, "EN_LOADIMP_LDO_RXBUF", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_TBB = { 0x0094, 2, 2, 0, "EN_LOADIMP_LDO_TBB", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_TIA12 = { 0x0094, 1, 1, 0, "EN_LOADIMP_LDO_TIA12", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_TIA14 = { 0x0094, 0, 0, 0, "EN_LOADIMP_LDO_TIA14", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter BYP_LDO_TBB = { 0x0095, 15, 15, 0, "BYP_LDO_TBB", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_TIA12 = { 0x0095, 14, 14, 0, "BYP_LDO_TIA12", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_TIA14 = { 0x0095, 13, 13, 0, "BYP_LDO_TIA14", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_TLOB = { 0x0095, 12, 12, 0, "BYP_LDO_TLOB", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_TPAD = { 0x0095, 11, 11, 0, "BYP_LDO_TPAD", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_TXBUF = { 0x0095, 10, 10, 0, "BYP_LDO_TXBUF", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_VCOGN = { 0x0095, 9, 9, 0, "BYP_LDO_VCOGN", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_VCOSXR = { 0x0095, 8, 8, 0, "BYP_LDO_VCOSXR", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_VCOSXT = { 0x0095, 7, 7, 0, "BYP_LDO_VCOSXT", "Bypass signal for the LDO" };
const struct LMS7Parameter EN_LOADIMP_LDO_AFE = { 0x0095, 2, 2, 0, "EN_LOADIMP_LDO_AFE", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_CPGN = { 0x0095, 1, 1, 0, "EN_LOADIMP_LDO_CPGN", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_CPSXR = { 0x0095, 0, 0, 0, "EN_LOADIMP_LDO_CPSXR", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter BYP_LDO_AFE = { 0x0096, 15, 15, 0, "BYP_LDO_AFE", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_CPGN = { 0x0096, 14, 14, 0, "BYP_LDO_CPGN", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_CPSXR = { 0x0096, 13, 13, 0, "BYP_LDO_CPSXR", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_CPSXT = { 0x0096, 12, 12, 0, "BYP_LDO_CPSXT", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIG = { 0x0096, 11, 11, 0, "BYP_LDO_DIG", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIGGN = { 0x0096, 10, 10, 0, "BYP_LDO_DIGGN", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIGSXR = { 0x0096, 9, 9, 0, "BYP_LDO_DIGSXR", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIGSXT = { 0x0096, 8, 8, 0, "BYP_LDO_DIGSXT", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIVGN = { 0x0096, 7, 7, 0, "BYP_LDO_DIVGN", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIVSXR = { 0x0096, 6, 6, 0, "BYP_LDO_DIVSXR", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIVSXT = { 0x0096, 5, 5, 0, "BYP_LDO_DIVSXT", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_LNA12 = { 0x0096, 4, 4, 0, "BYP_LDO_LNA12", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_LNA14 = { 0x0096, 3, 3, 0, "BYP_LDO_LNA14", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_MXRFE = { 0x0096, 2, 2, 0, "BYP_LDO_MXRFE", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_RBB = { 0x0096, 1, 1, 0, "BYP_LDO_RBB", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_RXBUF = { 0x0096, 0, 0, 0, "BYP_LDO_RXBUF", "Bypass signal for the LDO" };
const struct LMS7Parameter SPDUP_LDO_DIVSXR = { 0x0097, 15, 15, 0, "SPDUP_LDO_DIVSXR", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIVSXT = { 0x0097, 14, 14, 0, "SPDUP_LDO_DIVSXT", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_LNA12 = { 0x0097, 13, 13, 0, "SPDUP_LDO_LNA12", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_LNA14 = { 0x0097, 12, 12, 0, "SPDUP_LDO_LNA14", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_MXRFE = { 0x0097, 11, 11, 0, "SPDUP_LDO_MXRFE", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_RBB = { 0x0097, 10, 10, 0, "SPDUP_LDO_RBB", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_RXBUF = { 0x0097, 9, 9, 0, "SPDUP_LDO_RXBUF", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TBB = { 0x0097, 8, 8, 0, "SPDUP_LDO_TBB", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TIA12 = { 0x0097, 7, 7, 0, "SPDUP_LDO_TIA12", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TIA14 = { 0x0097, 6, 6, 0, "SPDUP_LDO_TIA14", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TLOB = { 0x0097, 5, 5, 0, "SPDUP_LDO_TLOB", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TPAD = { 0x0097, 4, 4, 0, "SPDUP_LDO_TPAD", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_TXBUF = { 0x0097, 3, 3, 0, "SPDUP_LDO_TXBUF", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_VCOGN = { 0x0097, 2, 2, 0, "SPDUP_LDO_VCOGN", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_VCOSXR = { 0x0097, 1, 1, 0, "SPDUP_LDO_VCOSXR", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_VCOSXT = { 0x0097, 0, 0, 0, "SPDUP_LDO_VCOSXT", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_AFE = { 0x0098, 8, 8, 0, "SPDUP_LDO_AFE", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_CPGN = { 0x0098, 7, 7, 0, "SPDUP_LDO_CPGN", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_CPSXR = { 0x0098, 6, 6, 0, "SPDUP_LDO_CPSXR", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_CPSXT = { 0x0098, 5, 5, 0, "SPDUP_LDO_CPSXT", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIG = { 0x0098, 4, 4, 0, "SPDUP_LDO_DIG", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIGGN = { 0x0098, 3, 3, 0, "SPDUP_LDO_DIGGN", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIGSXR = { 0x0098, 2, 2, 0, "SPDUP_LDO_DIGSXR", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIGSXT = { 0x0098, 1, 1, 0, "SPDUP_LDO_DIGSXT", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIVGN = { 0x0098, 0, 0, 0, "SPDUP_LDO_DIVGN", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter RDIV_VCOSXR = { 0x0099, 15, 8, 101, "RDIV_VCOSXR", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_VCOSXT = { 0x0099, 7, 0, 101, "RDIV_VCOSXT", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TXBUF = { 0x009A, 15, 8, 101, "RDIV_TXBUF", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_VCOGN = { 0x009A, 7, 0, 140, "RDIV_VCOGN", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TLOB = { 0x009B, 15, 8, 101, "RDIV_TLOB", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TPAD = { 0x009B, 7, 0, 101, "RDIV_TPAD", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TIA12 = { 0x009C, 15, 8, 101, "RDIV_TIA12", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TIA14 = { 0x009C, 7, 0, 140, "RDIV_TIA14", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_RXBUF = { 0x009D, 15, 8, 101, "RDIV_RXBUF", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_TBB = { 0x009D, 7, 0, 101, "RDIV_TBB", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_MXRFE = { 0x009E, 15, 8, 101, "RDIV_MXRFE", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_RBB = { 0x009E, 7, 0, 140, "RDIV_RBB", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_LNA12 = { 0x009F, 15, 8, 101, "RDIV_LNA12", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_LNA14 = { 0x009F, 7, 0, 140, "RDIV_LNA14", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIVSXR = { 0x00A0, 15, 8, 101, "RDIV_DIVSXR", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIVSXT = { 0x00A0, 7, 0, 101, "RDIV_DIVSXT", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIGSXT = { 0x00A1, 15, 8, 101, "RDIV_DIGSXT", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIVGN = { 0x00A1, 7, 0, 101, "RDIV_DIVGN", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIGGN = { 0x00A2, 15, 8, 101, "RDIV_DIGGN", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIGSXR = { 0x00A2, 7, 0, 101, "RDIV_DIGSXR", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_CPSXT = { 0x00A3, 15, 8, 101, "RDIV_CPSXT", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIG = { 0x00A3, 7, 0, 101, "RDIV_DIG", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_CPGN = { 0x00A4, 15, 8, 101, "RDIV_CPGN", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_CPSXR = { 0x00A4, 7, 0, 101, "RDIV_CPSXR", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_SPIBUF = { 0x00A5, 15, 8, 101, "RDIV_SPIBUF", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_AFE = { 0x00A5, 7, 0, 101, "RDIV_AFE", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter SPDUP_LDO_SPIBUF = { 0x00A6, 12, 12, 0, "SPDUP_LDO_SPIBUF", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIGIp2 = { 0x00A6, 11, 11, 0, "SPDUP_LDO_DIGIp2", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter SPDUP_LDO_DIGIp1 = { 0x00A6, 10, 10, 0, "SPDUP_LDO_DIGIp1", "Short the noise filter resistor to speed up the settling time" };
const struct LMS7Parameter BYP_LDO_SPIBUF = { 0x00A6, 9, 9, 0, "BYP_LDO_SPIBUF", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIGIp2 = { 0x00A6, 8, 8, 0, "BYP_LDO_DIGIp2", "Bypass signal for the LDO" };
const struct LMS7Parameter BYP_LDO_DIGIp1 = { 0x00A6, 7, 7, 0, "BYP_LDO_DIGIp1", "Bypass signal for the LDO" };
const struct LMS7Parameter EN_LOADIMP_LDO_SPIBUF = { 0x00A6, 6, 6, 0, "EN_LOADIMP_LDO_SPIBUF", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIGIp2 = { 0x00A6, 5, 5, 0, "EN_LOADIMP_LDO_DIGIp2", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter EN_LOADIMP_LDO_DIGIp1 = { 0x00A6, 4, 4, 0, "EN_LOADIMP_LDO_DIGIp1", "Enables the load dependent bias to optimize the load regulation" };
const struct LMS7Parameter PD_LDO_SPIBUF = { 0x00A6, 3, 3, 1, "PD_LDO_SPIBUF", "Enables the LDO" };
const struct LMS7Parameter PD_LDO_DIGIp2 = { 0x00A6, 2, 2, 1, "PD_LDO_DIGIp2", "Enables the LDO" };
const struct LMS7Parameter PD_LDO_DIGIp1 = { 0x00A6, 1, 1, 1, "PD_LDO_DIGIp1", "Enables the LDO" };
const struct LMS7Parameter EN_G_LDOP = { 0x00A6, 0, 0, 1, "EN_G_LDOP", "Enable control for all the LDO power downs" };
const struct LMS7Parameter RDIV_DIGIp2 = { 0x00A7, 15, 8, 101, "RDIV_DIGIp2", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter RDIV_DIGIp1 = { 0x00A7, 7, 0, 101, "RDIV_DIGIp1", "Controls the output voltage of the LDO by setting the resistive voltage divider ratio" };
const struct LMS7Parameter BSIGT = { 0x00A8, 31, 9, 0, "BSIGT", "" };
const struct LMS7Parameter BSTATE = { 0x00A8, 8, 8, 0, "BSTATE", "" };
const struct LMS7Parameter EN_SDM_TSTO_SXT = { 0x00A8, 6, 6, 0, "EN_SDM_TSTO_SXT", "Enables the SDM_TSTO_SXT" };
const struct LMS7Parameter EN_SDM_TSTO_SXR = { 0x00A8, 5, 5, 0, "EN_SDM_TSTO_SXR", "Enables the SDM_TSTO_SXR" };
const struct LMS7Parameter EN_SDM_TSTO_CGEN = { 0x00A8, 4, 4, 0, "EN_SDM_TSTO_CGEN", "Enables the SDM_TSTO_CGEN" };
const struct LMS7Parameter BENC = { 0x00A8, 3, 3, 0, "BENC", "enables CGEN BIST" };
const struct LMS7Parameter BENR = { 0x00A8, 2, 2, 0, "BENR", "enables SXR BIST" };
const struct LMS7Parameter BENT = { 0x00A8, 1, 1, 0, "BENT", "enables SXT BIST" };
const struct LMS7Parameter BSTART = { 0x00A8, 0, 0, 0, "BSTART", "Starts delta sigma built in self test. Keep it at 1 one at least three clock cycles" };
const struct LMS7Parameter BSIGR = { 0x00AA, 22, 0, 0, "BSIGR", "" };
const struct LMS7Parameter BSIGC = { 0x00AB, 29, 7, 0, "BSIGC", "" };
const struct LMS7Parameter CDS_MCLK2 = { 0x00AD, 15, 14, 0, "CDS_MCLK2", "MCLK2 clock delay" };
const struct LMS7Parameter CDS_MCLK1 = { 0x00AD, 13, 12, 0, "CDS_MCLK1", "MCLK1 clock delay" };
const struct LMS7Parameter CDSN_TXBTSP = { 0x00AD, 9, 9, 1, "CDSN_TXBTSP", "TX TSPB clock inversion control" };
const struct LMS7Parameter CDSN_TXATSP = { 0x00AD, 8, 8, 1, "CDSN_TXATSP", "TX TSPA clock inversion control" };
const struct LMS7Parameter CDSN_RXBTSP = { 0x00AD, 7, 7, 1, "CDSN_RXBTSP", "RX TSPB clock inversion control" };
const struct LMS7Parameter CDSN_RXATSP = { 0x00AD, 6, 6, 1, "CDSN_RXATSP", "RX TSPA clock inversion control" };
const struct LMS7Parameter CDSN_TXBLML = { 0x00AD, 5, 5, 1, "CDSN_TXBLML", "TX LMLB clock inversion control" };
const struct LMS7Parameter CDSN_TXALML = { 0x00AD, 4, 4, 1, "CDSN_TXALML", "TX LMLA clock inversion control" };
const struct LMS7Parameter CDSN_RXBLML = { 0x00AD, 3, 3, 1, "CDSN_RXBLML", "RX LMLB clock inversion control" };
const struct LMS7Parameter CDSN_RXALML = { 0x00AD, 2, 2, 1, "CDSN_RXALML", "RX LMLA clock inversion control" };
const struct LMS7Parameter CDSN_MCLK2 = { 0x00AD, 1, 1, 1, "CDSN_MCLK2", "MCLK2 clock inversion control" };
const struct LMS7Parameter CDSN_MCLK1 = { 0x00AD, 0, 0, 1, "CDSN_MCLK1", "MCLK1 clock inversion control" };
const struct LMS7Parameter CDS_TXBTSP = { 0x00AE, 15, 14, 0, "CDS_TXBTSP", "TX TSP B clock delay" };
const struct LMS7Parameter CDS_TXATSP = { 0x00AE, 13, 12, 0, "CDS_TXATSP", "TX TSP A clock delay" };
const struct LMS7Parameter CDS_RXBTSP = { 0x00AE, 11, 10, 0, "CDS_RXBTSP", "RX TSP B clock delay" };
const struct LMS7Parameter CDS_RXATSP = { 0x00AE, 9, 8, 0, "CDS_RXATSP", "RX TSP A clock delay" };
const struct LMS7Parameter CDS_TXBLML = { 0x00AE, 7, 6, 0, "CDS_TXBLML", "TX LML B clock delay" };
const struct LMS7Parameter CDS_TXALML = { 0x00AE, 5, 4, 0, "CDS_TXALML", "TX LML A clock delay" };
const struct LMS7Parameter CDS_RXBLML = { 0x00AE, 3, 2, 0, "CDS_RXBLML", "RX LML B clock delay" };
const struct LMS7Parameter CDS_RXALML = { 0x00AE, 1, 0, 0, "CDS_RXALML", "RX LML A clock delay" };
const struct LMS7Parameter EN_LOWBWLOMX_TMX_TRF = { 0x0100, 15, 15, 0, "EN_LOWBWLOMX_TMX_TRF", "Controls the high pass pole frequency of the RC biasing the gate of the mixer switches" };
const struct LMS7Parameter EN_NEXTTX_TRF = { 0x0100, 14, 14, 0, "EN_NEXTTX_TRF", "Enables the daisy change LO buffer going from TRF_1 to TRF2" };
const struct LMS7Parameter EN_AMPHF_PDET_TRF = { 0x0100, 13, 12, 3, "EN_AMPHF_PDET_TRF", "Enables the TXPAD power detector preamplifier" };
const struct LMS7Parameter LOADR_PDET_TRF = { 0x0100, 11, 10, 1, "LOADR_PDET_TRF", "Controls the resistive load of the Power detector" };
const struct LMS7Parameter PD_PDET_TRF = { 0x0100, 3, 3, 1, "PD_PDET_TRF", "Powerdown signal for Power Detector" };
const struct LMS7Parameter PD_TLOBUF_TRF = { 0x0100, 2, 2, 0, "PD_TLOBUF_TRF", "Powerdown signal for TX LO buffer" };
const struct LMS7Parameter PD_TXPAD_TRF = { 0x0100, 1, 1, 0, "PD_TXPAD_TRF", "Powerdown signal for TXPAD" };
const struct LMS7Parameter EN_G_TRF = { 0x0100, 0, 0, 1, "EN_G_TRF", "Enable control for all the TRF_1 power downs" };
const struct LMS7Parameter F_TXPAD_TRF = { 0x0101, 15, 13, 3, "F_TXPAD_TRF", "Controls the switched capacitor at the TXPAD output. Is used for fine tuning of the TXPAD output" };
const struct LMS7Parameter L_LOOPB_TXPAD_TRF = { 0x0101, 12, 11, 3, "L_LOOPB_TXPAD_TRF", "Controls the loss of the of the loopback path at the TX side" };
const struct LMS7Parameter LOSS_LIN_TXPAD_TRF = { 0x0101, 10, 6, 0, "LOSS_LIN_TXPAD_TRF", "Controls the gain of the linearizing part of of the TXPAD" };
const struct LMS7Parameter LOSS_MAIN_TXPAD_TRF = { 0x0101, 5, 1, 0, "LOSS_MAIN_TXPAD_TRF", "Controls the gain  output power of the TXPAD" };
const struct LMS7Parameter EN_LOOPB_TXPAD_TRF = { 0x0101, 0, 0, 0, "EN_LOOPB_TXPAD_TRF", "Enables the TXPAD loopback path" };
const struct LMS7Parameter GCAS_GNDREF_TXPAD_TRF = { 0x0102, 15, 15, 0, "GCAS_GNDREF_TXPAD_TRF", "Controls if the TXPAD cascode transistor gate bias is referred to VDD or GND" };
const struct LMS7Parameter ICT_LIN_TXPAD_TRF = { 0x0102, 14, 10, 12, "ICT_LIN_TXPAD_TRF", "Control the bias current of the linearization section of the TXPAD" };
const struct LMS7Parameter ICT_MAIN_TXPAD_TRF = { 0x0102, 9, 5, 12, "ICT_MAIN_TXPAD_TRF", "Control the bias current of the main gm section of the TXPAD" };
const struct LMS7Parameter VGCAS_TXPAD_TRF = { 0x0102, 4, 0, 0, "VGCAS_TXPAD_TRF", "Controls the bias voltage at the gate of TXPAD cascade" };
const struct LMS7Parameter SEL_BAND1_TRF = { 0x0103, 11, 11, 1, "SEL_BAND1_TRF", "" };
const struct LMS7Parameter SEL_BAND2_TRF = { 0x0103, 10, 10, 0, "SEL_BAND2_TRF", "" };
const struct LMS7Parameter LOBIASN_TXM_TRF = { 0x0103, 9, 5, 16, "LOBIASN_TXM_TRF", "Controls the bias at the gate of the mixer NMOS" };
const struct LMS7Parameter LOBIASP_TXX_TRF = { 0x0103, 4, 0, 18, "LOBIASP_TXX_TRF", "Controls the bias at the gate of the mixer PMOS" };
const struct LMS7Parameter CDC_I_TRF = { 0x0104, 7, 4, 8, "CDC_I_TRF", "" };
const struct LMS7Parameter CDC_Q_TRF = { 0x0104, 3, 0, 8, "CDC_Q_TRF", "" };
const struct LMS7Parameter STATPULSE_TBB = { 0x0105, 15, 15, 0, "STATPULSE_TBB", "" };
const struct LMS7Parameter LOOPB_TBB = { 0x0105, 14, 12, 0, "LOOPB_TBB", "This controls which signal is connected to the loopback output pins. Note: when both the lowpass ladder and real pole are powered down, the output of the active highband biquad is routed to the loopb output" };
const struct LMS7Parameter PD_LPFH_TBB = { 0x0105, 4, 4, 0, "PD_LPFH_TBB", "This selectively powers down the LPFH_TBB biquad" };
const struct LMS7Parameter PD_LPFIAMP_TBB = { 0x0105, 3, 3, 0, "PD_LPFIAMP_TBB", "selectively powers down the LPFIAMP_TBB front-end current amp of the transmitter baseband" };
const struct LMS7Parameter PD_LPFLAD_TBB = { 0x0105, 2, 2, 1, "PD_LPFLAD_TBB", "This selectively powers down the LPFLAD_TBB low pass ladder filter of the transmitter baseband" };
const struct LMS7Parameter PD_LPFS5_TBB = { 0x0105, 1, 1, 1, "PD_LPFS5_TBB", "This selectively powers down the LPFS5_TBB low pass real-pole filter of the transmitter baseband" };
const struct LMS7Parameter EN_G_TBB = { 0x0105, 0, 0, 1, "EN_G_TBB", "Enable control for all the TBB_TOP power downs" };
const struct LMS7Parameter ICT_LPFS5_F_TBB = { 0x0106, 14, 10, 12, "ICT_LPFS5_F_TBB", "This controls the operational amplifier's output stage bias current of the low band real pole filter of the transmitter's baseband" };
const struct LMS7Parameter ICT_LPFS5_PT_TBB = { 0x0106, 9, 5, 12, "ICT_LPFS5_PT_TBB", "This controls the operational amplifier's input stage bias current of the low band real pole filter of the transmitter's baseband" };
const struct LMS7Parameter ICT_LPF_H_PT_TBB = { 0x0106, 4, 0, 12, "ICT_LPF_H_PT_TBB", "This controls the operational amplifiers input stage bias reference current of the high band low pass filter of the transmitter's baseband " };
const struct LMS7Parameter ICT_LPFH_F_TBB = { 0x0107, 14, 10, 12, "ICT_LPFH_F_TBB", "controls the operational amplifiers output stage bias reference current of the high band low pass filter of the transmitter's baseband (LPFH_TBB)" };
const struct LMS7Parameter ICT_LPFLAD_F_TBB = { 0x0107, 9, 5, 12, "ICT_LPFLAD_F_TBB", "This controls the operational amplfiers' output stages bias referene current of the low band ladder filter of the transmisster's baseband" };
const struct LMS7Parameter ICT_LPFLAD_PT_TBB = { 0x0107, 4, 0, 12, "ICT_LPFLAD_PT_TBB", "This controls the operational amplifers' input stages bias reference current of the low band ladder filter of the transmitter's baseband" };
const struct LMS7Parameter CG_IAMP_TBB = { 0x0108, 15, 10, 37, "CG_IAMP_TBB", "This controls the frontend gain of the TBB. For a given gain value, this control value varies with the set TX mode. After resistance calibration, the following table gives the nominal values for each frequency setting. However, this table is to be updated and corrected after calibration" };
const struct LMS7Parameter ICT_IAMP_FRP_TBB = { 0x0108, 9, 5, 1, "ICT_IAMP_FRP_TBB", "This controls the reference bias current of the IAMP main bias current sources" };
const struct LMS7Parameter ICT_IAMP_GG_FRP_TBB = { 0x0108, 4, 0, 6, "ICT_IAMP_GG_FRP_TBB", "This controls the reference bias current of the IAMP's cascode transistors gate voltages that set the IAMP's input voltage level. The IAMP's input is connected to the DAC output" };
const struct LMS7Parameter RCAL_LPFH_TBB = { 0x0109, 15, 8, 97, "RCAL_LPFH_TBB", "This controls the value of the equivalent resistance of the resistor banks of the biquad filter stage (of the high band section) of the transmitter baseband(TBB)" };
const struct LMS7Parameter RCAL_LPFLAD_TBB = { 0x0109, 7, 0, 193, "RCAL_LPFLAD_TBB", "This controls the value of the equivalent resistance of the resistor banks of the low pass filter ladder (of the low band section) of the transmitter baseband(TBB)" };
const struct LMS7Parameter TSTIN_TBB = { 0x010A, 15, 14, 0, "TSTIN_TBB", "This control selects where the input test signal (vinp/n_aux_bbq/i) is routed to as well as disabling the route." };
const struct LMS7Parameter BYPLADDER_TBB = { 0x010A, 13, 13, 0, "BYPLADDER_TBB", "This signal bypasses the LPF ladder of TBB and directly connects the output of current amplifier to the null port of the real pole stage of TBB low pass filter" };
const struct LMS7Parameter CCAL_LPFLAD_TBB = { 0x010A, 12, 8, 16, "CCAL_LPFLAD_TBB", "A common control signal for all the capacitor banks of TBB filters (including the ladder, real pole, and the high band biquad). It is the calibrated value of the banks control that sets the value of the banks' equivalent capacitor to their respective nominal values" };
const struct LMS7Parameter RCAL_LPFS5_TBB = { 0x010A, 7, 0, 76, "RCAL_LPFS5_TBB", "This controls the value of the equivalent resistance of the resistor banks of the real pole filter stage (of the low band section) of the transmitter baseband (TBB). Following is a nominal values table that are corrected for any process variation after calibration" };
const struct LMS7Parameter CDC_I_RFE = { 0x010C, 15, 12, 8, "CDC_I_RFE", "" };
const struct LMS7Parameter CDC_Q_RFE = { 0x010C, 11, 8, 8, "CDC_Q_RFE", "" };
const struct LMS7Parameter PD_LNA_RFE = { 0x010C, 7, 7, 1, "PD_LNA_RFE", "Power control signal for LNA_RFE" };
const struct LMS7Parameter PD_RLOOPB_1_RFE = { 0x010C, 6, 6, 1, "PD_RLOOPB_1_RFE", "Power control signal for RXFE loopback 1" };
const struct LMS7Parameter PD_RLOOPB_2_RFE = { 0x010C, 5, 5, 1, "PD_RLOOPB_2_RFE", "Power control signal for RXFE loopback 2" };
const struct LMS7Parameter PD_MXLOBUF_RFE = { 0x010C, 4, 4, 1, "PD_MXLOBUF_RFE", "Power control signal for RXFE mixer lo buffer" };
const struct LMS7Parameter PD_QGEN_RFE = { 0x010C, 3, 3, 1, "PD_QGEN_RFE", "Power control signal for RXFE Quadrature LO generator" };
const struct LMS7Parameter PD_RSSI_RFE = { 0x010C, 2, 2, 1, "PD_RSSI_RFE", "Power control signal for RXFE RSSI" };
const struct LMS7Parameter PD_TIA_RFE = { 0x010C, 1, 1, 0, "PD_TIA_RFE", "Power control signal for RXFE TIA" };
const struct LMS7Parameter EN_G_RFE = { 0x010C, 0, 0, 1, "EN_G_RFE", "Enable control for all the RFE_1 power downs" };
const struct LMS7Parameter SEL_PATH_RFE = { 0x010D, 8, 7, 1, "SEL_PATH_RFE", "Selects the active path of the RXFE" };
const struct LMS7Parameter EN_DCOFF_RXFE_RFE = { 0x010D, 6, 6, 0, "EN_DCOFF_RXFE_RFE", "Enables the DCOFFSET block for the RXFE" };
const struct LMS7Parameter EN_INSHSW_LB1_RFE = { 0x010D, 4, 4, 1, "EN_INSHSW_LB1_RFE", "Enables the input shorting switch at the input  of the loopback 1 (in parallel with LNAL mixer)" };
const struct LMS7Parameter EN_INSHSW_LB2_RFE = { 0x010D, 3, 3, 1, "EN_INSHSW_LB2_RFE", "Enables the input shorting switch at the input  of the loopback 2 (in parallel with LNAW mixer)" };
const struct LMS7Parameter EN_INSHSW_L_RFE = { 0x010D, 2, 2, 1, "EN_INSHSW_L_RFE", "Enables the input shorting switch at the input  of the LNAL" };
const struct LMS7Parameter EN_INSHSW_W_RFE = { 0x010D, 1, 1, 1, "EN_INSHSW_W_RFE", "Enables the input shorting switch at the input  of the LNAW" };
const struct LMS7Parameter EN_NEXTRX_RFE = { 0x010D, 0, 0, 0, "EN_NEXTRX_RFE", "Enables the daisy chain LO buffer going from RXFE1  to RXFE2" };
const struct LMS7Parameter DCOFFI_RFE = { 0x010E, 13, 7, 64, "DCOFFI_RFE", "Controls DC offset at the output of the TIA by injecting current to the input of the TIA (I side)" };
const struct LMS7Parameter DCOFFQ_RFE = { 0x010E, 6, 0, 64, "DCOFFQ_RFE", "Controls DC offset at the output of the TIA by injecting current to the input of the TIA (Q side)" };
const struct LMS7Parameter ICT_LOOPB_RFE = { 0x010F, 14, 10, 12, "ICT_LOOPB_RFE", "Controls the reference current of the RXFE loopback amplifier" };
const struct LMS7Parameter ICT_TIAMAIN_RFE = { 0x010F, 9, 5, 2, "ICT_TIAMAIN_RFE", "Controls the reference current of the RXFE TIA first stage" };
const struct LMS7Parameter ICT_TIAOUT_RFE = { 0x010F, 4, 0, 2, "ICT_TIAOUT_RFE", "Controls the reference current of the RXFE TIA 2nd stage" };
const struct LMS7Parameter ICT_LNACMO_RFE = { 0x0110, 14, 10, 2, "ICT_LNACMO_RFE", "Controls the current generating LNA output common mode voltage" };
const struct LMS7Parameter ICT_LNA_RFE = { 0x0110, 9, 5, 31, "ICT_LNA_RFE", "Controls the current of the LNA core" };
const struct LMS7Parameter ICT_LODC_RFE = { 0x0110, 4, 0, 20, "ICT_LODC_RFE", "Controls the DC of the mixer LO signal at the gate of the mixer switches" };
const struct LMS7Parameter CAP_RXMXO_RFE = { 0x0111, 9, 5, 4, "CAP_RXMXO_RFE", "Control the decoupling cap at the output of the RX Mixer" };
const struct LMS7Parameter CGSIN_LNA_RFE = { 0x0111, 4, 0, 3, "CGSIN_LNA_RFE", "Controls the cap parallel with the LNA input input NMOS CGS to control the Q of the maching circuit and provides trade off between gain/NF and IIP. The higher the frequency, the lower CGSIN_LNA_RFE should be. Also, the higher CGSIN, the lower the Q, The lower the gain, the higher the NF, and the higher the IIP3" };
const struct LMS7Parameter CCOMP_TIA_RFE = { 0x0112, 15, 12, 12, "CCOMP_TIA_RFE", "Compensation capacitor for TIA" };
const struct LMS7Parameter CFB_TIA_RFE = { 0x0112, 11, 0, 230, "CFB_TIA_RFE", "Feeback capacitor for TIA. Controls the 3dB BW of the TIA. Should be set with calibration through digital baseband" };
const struct LMS7Parameter G_LNA_RFE = { 0x0113, 9, 6, 15, "G_LNA_RFE", "Controls the gain of the LNA" };
const struct LMS7Parameter G_RXLOOPB_RFE = { 0x0113, 5, 2, 0, "G_RXLOOPB_RFE", "Controls RXFE loopback gain" };
const struct LMS7Parameter G_TIA_RFE = { 0x0113, 1, 0, 3, "G_TIA_RFE", "Controls the Gain of the TIA" };
const struct LMS7Parameter RCOMP_TIA_RFE = { 0x0114, 8, 5, 4, "RCOMP_TIA_RFE", "Controls the compensation resistors of the TIA opamp" };
const struct LMS7Parameter RFB_TIA_RFE = { 0x0114, 4, 0, 13, "RFB_TIA_RFE", "Sets the feedback resistor to the nominal value" };
const struct LMS7Parameter EN_LB_LPFH_RBB = { 0x0115, 15, 15, 0, "EN_LB_LPFH_RBB", "" };
const struct LMS7Parameter EN_LB_LPFL_RBB = { 0x0115, 14, 14, 0, "EN_LB_LPFL_RBB", "" };
const struct LMS7Parameter PD_LPFH_RBB = { 0x0115, 3, 3, 1, "PD_LPFH_RBB", "Power down of the LPFH block" };
const struct LMS7Parameter PD_LPFL_RBB = { 0x0115, 2, 2, 0, "PD_LPFL_RBB", "Power down of the LPFL block" };
const struct LMS7Parameter PD_PGA_RBB = { 0x0115, 1, 1, 0, "PD_PGA_RBB", "Power down of the PGA block" };
const struct LMS7Parameter EN_G_RBB = { 0x0115, 0, 0, 1, "EN_G_RBB", "Enable control for all the RBB_1 power downs" };
const struct LMS7Parameter R_CTL_LPF_RBB = { 0x0116, 15, 11, 16, "R_CTL_LPF_RBB", "Controls the absolute value of the resistance of the RC time constant of the RBB_LPF blocks (both Low and High)" };
const struct LMS7Parameter RCC_CTL_LPFH_RBB = { 0x0116, 10, 8, 1, "RCC_CTL_LPFH_RBB", "Controls the stability passive compensation of the LPFH_RBB operational amplifier" };
const struct LMS7Parameter C_CTL_LPFH_RBB = { 0x0116, 7, 0, 128, "C_CTL_LPFH_RBB", "Controls the capacitance value of the RC time constant of RBB_LPFH and it varies with the respective rxMode from 37MHz to 108MHz" };
const struct LMS7Parameter RCC_CTL_LPFL_RBB = { 0x0117, 13, 11, 5, "RCC_CTL_LPFL_RBB", "Controls the stability passive compensation of the LPFL_RBB operational amplifier" };
const struct LMS7Parameter C_CTL_LPFL_RBB = { 0x0117, 10, 0, 12, "C_CTL_LPFL_RBB", "Controls the capacitance value of the RC time constant of RBB_LPFH and it varies with the respective rxMode from 1.4MHz to 20MHz." };
const struct LMS7Parameter INPUT_CTL_PGA_RBB = { 0x0118, 15, 13, 0, "INPUT_CTL_PGA_RBB", "There are a total of four different differential inputs to the PGA. Only one of them is active at a time" };
const struct LMS7Parameter ICT_LPF_IN_RBB = { 0x0118, 9, 5, 12, "ICT_LPF_IN_RBB", "Controls the reference bias current of the input stage of the operational amplifier used in RBB_LPF blocks (Low or High). " };
const struct LMS7Parameter ICT_LPF_OUT_RBB = { 0x0118, 4, 0, 12, "ICT_LPF_OUT_RBB", "The reference bias current of the output stage of the operational amplifier used in RBB_LPF blocks (low or High)" };
const struct LMS7Parameter OSW_PGA_RBB = { 0x0119, 15, 15, 0, "OSW_PGA_RBB", "There are two instances of the PGA circuit in the design. The output of the RBB_LPF blocks are connected the input of these PGA blocks (common). The output of one of them is connected to two pads pgaoutn and pgaoutp and the output of the other PGA is connected directly to the ADC input" };
const struct LMS7Parameter ICT_PGA_OUT_RBB = { 0x0119, 14, 10, 6, "ICT_PGA_OUT_RBB", "Controls the output stage reference bias current of the operational amplifier used in the PGA circuit" };
const struct LMS7Parameter ICT_PGA_IN_RBB = { 0x0119, 9, 5, 6, "ICT_PGA_IN_RBB", "Controls the input stage reference bias current of the operational amplifier used in the PGA circuit" };
const struct LMS7Parameter G_PGA_RBB = { 0x0119, 4, 0, 11, "G_PGA_RBB", "This is the gain of the PGA" };
const struct LMS7Parameter RCC_CTL_PGA_RBB = { 0x011A, 13, 9, 23, "RCC_CTL_PGA_RBB", "Controls the stability passive compensation of the PGA_RBB operational amplifier" };
const struct LMS7Parameter C_CTL_PGA_RBB = { 0x011A, 6, 0, 2, "C_CTL_PGA_RBB", "Control the value of the feedback capacitor of the PGA that is used to help against the parasitic cap at the virtual node for stability" };
const struct LMS7Parameter RESET_N = { 0x011C, 15, 15, 1, "RESET_N", "Resets SX. A pulse should be used in the start-up to reset" };
const struct LMS7Parameter SPDUP_VCO = { 0x011C, 14, 14, 0, "SPDUP_VCO", "Bypasses the noise filter resistor for fast settling time. It should be connected to a 1uS pulse" };
const struct LMS7Parameter BYPLDO_VCO = { 0x011C, 13, 13, 1, "BYPLDO_VCO", "Controls the bypass signal for the SX LDO" };
const struct LMS7Parameter EN_COARSEPLL = { 0x011C, 12, 12, 0, "EN_COARSEPLL", "Enable signal for coarse tuning block" };
const struct LMS7Parameter CURLIM_VCO = { 0x011C, 11, 11, 1, "CURLIM_VCO", "Enables the output current limitation in the VCO regulator" };
const struct LMS7Parameter EN_DIV2_DIVPROG = { 0x011C, 10, 10, 1, "EN_DIV2_DIVPROG", "" };
const struct LMS7Parameter EN_INTONLY_SDM = { 0x011C, 9, 9, 0, "EN_INTONLY_SDM", "Enables INTEGER-N mode of the SX " };
const struct LMS7Parameter EN_SDM_CLK = { 0x011C, 8, 8, 1, "EN_SDM_CLK", "Enables/Disables SDM clock. In INT-N mode or for noise testing, SDM clock can be disabled" };
const struct LMS7Parameter PD_FBDIV = { 0x011C, 7, 7, 0, "PD_FBDIV", "Power down the feedback divider block" };
const struct LMS7Parameter PD_LOCH_T2RBUF = { 0x011C, 6, 6, 1, "PD_LOCH_T2RBUF", "Power down for LO buffer from SXT to SXR. To be active only in the TDD mode" };
const struct LMS7Parameter PD_CP = { 0x011C, 5, 5, 0, "PD_CP", "Power down for Charge Pump" };
const struct LMS7Parameter PD_FDIV = { 0x011C, 4, 4, 0, "PD_FDIV", "Power down for feedback frequency and forward dividers" };
const struct LMS7Parameter PD_SDM = { 0x011C, 3, 3, 0, "PD_SDM", "Power down for SDM" };
const struct LMS7Parameter PD_VCO_COMP = { 0x011C, 2, 2, 0, "PD_VCO_COMP", "Power down for VCO comparator" };
const struct LMS7Parameter PD_VCO = { 0x011C, 1, 1, 1, "PD_VCO", "Power down for VCO" };
const struct LMS7Parameter EN_G = { 0x011C, 0, 0, 1, "EN_G", "Enable control for all the SXT power downs" };
const struct LMS7Parameter FRAC_SDM_LSB = { 0x011D, 15, 0, 0x0400, "FRAC_SDM_LSB", "" };
const struct LMS7Parameter INT_SDM = { 0x011E, 13, 4, 120, "INT_SDM", "" };
const struct LMS7Parameter FRAC_SDM_MSB = { 0x011E, 3, 0, 0, "FRAC_SDM_MSB", "" };
const struct LMS7Parameter PW_DIV2_LOCH = { 0x011F, 14, 12, 3, "PW_DIV2_LOCH", "trims the duty cycle of DIV2 LOCH. Only works when forward divider is dividing by at least 2 (excluding quadrature block division). If in bypass mode, this does not work" };
const struct LMS7Parameter PW_DIV4_LOCH = { 0x011F, 11, 9, 3, "PW_DIV4_LOCH", "trims the duty cycle of DIV4 LOCH. Only works when forward divider is dividing by at least 4 (excluding quadrature block division). If in bypass mode, this does not work" };
const struct LMS7Parameter DIV_LOCH = { 0x011F, 8, 6, 1, "DIV_LOCH", "Controls the division ratio in the LOCH_DIV" };
const struct LMS7Parameter TST_SX = { 0x011F, 5, 3, 0, "TST_SX",
"Controls the test mode of PLLs. TST signal lines are shared between all PLLs (CGEN, RX and TX). Only one TST signal of any PLL should be active at a given time.\n\
0 - TST disabled; RSSI analog outputs enabled if RSSI blocks active and when all PLL test signals are off(default)\n\
1 - tstdo[0] = VCO / 20 clock*; tstdo[1] = VCO / 40 clock*; tstao = High impedance;\n\
2 - tstdo[0] = SDM clock; tstdo[1] = feedback divider output; tstao = VCO tune through a 60kOhm resistor;\n\
3 - tstdo[0] = Reference clock; tstdo[1] = feedback divider output; tstao = VCO tune through a 10kOhm resistor;\n\
4 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = High impedance;\n\
5 - tstdo[0] = Charge pump Down signal; tstdo[1] = Charge pump Up signal; tstao = High impedance;\n\
6 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = VCO tune through a 60kOhm resistor;\n\
7 - tstdo[0] = High impedance; tstdo[1] = High impedance; tstao = VCO tune through a 10kOhm resistor;\n\
if TST_SX[2] = 1 --> VCO_TSTBUF active generating VCO_TST_DIV20 and VCO_TST_DIV40\n\
* When EN_DIV2_DIVPROG_(SXR, SXT) is active, the division ratio must be multiplied by 2 (40 / 80)"};
const struct LMS7Parameter SEL_SDMCLK = { 0x011F, 2, 2, 0, "SEL_SDMCLK", "Selects between the feedback divider output and Fref for SDM" };
const struct LMS7Parameter SX_DITHER_EN = { 0x011F, 1, 1, 0, "SX_DITHER_EN", "Enabled dithering in SDM" };
const struct LMS7Parameter REV_SDMCLK = { 0x011F, 0, 0, 0, "REV_SDMCLK", "Reverses the SDM clock" };
const struct LMS7Parameter VDIV_VCO = { 0x0120, 15, 8, 185, "VDIV_VCO", "Controls VCO LDO output voltage" };
const struct LMS7Parameter ICT_VCO = { 0x0120, 7, 0, 255, "ICT_VCO", "Scales the VCO bias current from 0 to 2.5xInom" };
const struct LMS7Parameter RSEL_LDO_VCO = { 0x0121, 15, 11, 6, "RSEL_LDO_VCO", "Set the reference voltage that supplies bias voltage of switch-cap array and varactor" };
const struct LMS7Parameter CSW_VCO = { 0x0121, 10, 3, 128, "CSW_VCO", "Coarse control of VCO frequency, 0 for lowest frequency and 255 for highest. This control is set by SX_SWC_calibration" };
const struct LMS7Parameter SEL_VCO = { 0x0121, 2, 1, 2, "SEL_VCO", "Selects the active VCO. It is set by SX_SWC_calibration" };
const struct LMS7Parameter COARSE_START = { 0x0121, 0, 0, 0, "COARSE_START", "" };
const struct LMS7Parameter REVPH_PFD = { 0x0122, 12, 12, 0, "REVPH_PFD", "Reverse the pulses of PFD. It can be used to reverse the polarity of the PLL loop (positive feedback to negative feedback)" };
const struct LMS7Parameter IOFFSET_CP = { 0x0122, 11, 6, 12, "IOFFSET_CP", "Scales the offset current of the charge pump, 0-->63. This current is used in Fran-N mode to create an offset in the CP response and avoid the non-linear section" };
const struct LMS7Parameter IPULSE_CP = { 0x0122, 5, 0, 63, "IPULSE_CP", "Scales the pulse current of the charge pump" };
const struct LMS7Parameter COARSE_STEPDONE = { 0x0123, 15, 15, 0, "COARSE_STEPDONE", "" };
const struct LMS7Parameter COARSEPLL_COMPO = { 0x0123, 14, 14, 0, "COARSEPLL_COMPO", "" };
const struct LMS7Parameter VCO_CMPHO = { 0x0123, 13, 13, 0, "VCO_CMPHO", "" };
const struct LMS7Parameter VCO_CMPLO = { 0x0123, 12, 12, 0, "VCO_CMPLO", "" };
const struct LMS7Parameter CP2_PLL = { 0x0123, 11, 8, 6, "CP2_PLL", "Controls the value of CP2 (cap from CP output to GND) in the PLL filter" };
const struct LMS7Parameter CP3_PLL = { 0x0123, 7, 4, 7, "CP3_PLL", "Controls the value of CP3 (cap from VCO Vtune input to GND) in the PLL filter" };
const struct LMS7Parameter CZ = { 0x0123, 3, 0, 11, "CZ", "Controls the value of CZ (Zero capacitor) in the PLL filter" };
const struct LMS7Parameter EN_DIR_SXRSXT = { 0x0124, 4, 4, 0, "EN_DIR_SXRSXT", "Enables direct control of PDs and ENs for SXR/SXT module" };
const struct LMS7Parameter EN_DIR_RBB = { 0x0124, 3, 3, 0, "EN_DIR_RBB", "Enables direct control of PDs and ENs for RBB module" };
const struct LMS7Parameter EN_DIR_RFE = { 0x0124, 2, 2, 0, "EN_DIR_RFE", "Enables direct control of PDs and ENs for RFE module" };
const struct LMS7Parameter EN_DIR_TBB = { 0x0124, 1, 1, 0, "EN_DIR_TBB", "Enables direct control of PDs and ENs for TBB module" };
const struct LMS7Parameter EN_DIR_TRF = { 0x0124, 0, 0, 0, "EN_DIR_TRF", "Enables direct control of PDs and ENs for TRF module" };
const struct LMS7Parameter TSGFC_TXTSP = { 0x0200, 9, 9, 0, "TSGFC_TXTSP", "TSG full scale control" };
const struct LMS7Parameter TSGFCW_TXTSP = { 0x0200, 8, 7, 1, "TSGFCW_TXTSP", "Set frequency of TSG's NCO" };
const struct LMS7Parameter TSGDCLDQ_TXTSP = { 0x0200, 6, 6, 0, "TSGDCLDQ_TXTSP", "" };
const struct LMS7Parameter TSGDCLDI_TXTSP = { 0x0200, 5, 5, 0, "TSGDCLDI_TXTSP", "" };
const struct LMS7Parameter TSGSWAPIQ_TXTSP = { 0x0200, 4, 4, 0, "TSGSWAPIQ_TXTSP", "Swap signals at test signal generator's output" };
const struct LMS7Parameter TSGMODE_TXTSP = { 0x0200, 3, 3, 0, "TSGMODE_TXTSP", "Test signal generator mode" };
const struct LMS7Parameter INSEL_TXTSP = { 0x0200, 2, 2, 0, "INSEL_TXTSP", "Input source of TxTSP" };
const struct LMS7Parameter BSTART_TXTSP = { 0x0200, 1, 1, 0, "BSTART_TXTSP", "Starts delta sigma built in self test. Keep it at 1 one at least three clock cycles" };
const struct LMS7Parameter EN_TXTSP = { 0x0200, 0, 0, 1, "EN_TXTSP", "TxTSP modules enable" };
const struct LMS7Parameter GCORRQ_TXTSP = { 0x0201, 10, 0, 2047, "GCORRQ_TXTSP", "corrector value, channel Q Unsigned integer" };
const struct LMS7Parameter GCORRI_TXTSP = { 0x0202, 10, 0, 2047, "GCORRI_TXTSP", "corrector value, channel I Unsigned integer" };
const struct LMS7Parameter HBI_OVR_TXTSP = { 0x0203, 14, 12, 0, "HBI_OVR_TXTSP", "HBI interpolation ratio" };
const struct LMS7Parameter IQCORR_TXTSP = { 0x0203, 11, 0, 0, "IQCORR_TXTSP", "Phase corrector value (tan(Alpha/2)). Integer, 2's complement" };
const struct LMS7Parameter DCCORRI_TXTSP = { 0x0204, 15, 8, 0, "DCCORRI_TXTSP", "DC corrector value, channel I. Integer, 2's complement" };
const struct LMS7Parameter DCCORRQ_TXTSP = { 0x0204, 7, 0, 0, "DCCORRQ_TXTSP", "DC corrector value, channel Q. Integer, 2's complement" };
const struct LMS7Parameter GFIR1_L_TXTSP = { 0x0205, 10, 8, 0, "GFIR1_L_TXTSP", "Parameter l of GFIR1 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR1_N_TXTSP = { 0x0205, 7, 0, 0, "GFIR1_N_TXTSP", "Clock division ratio of GFIR1 is GFIR1_N + 1. Unsigned integer" };
const struct LMS7Parameter GFIR2_L_TXTSP = { 0x0206, 10, 8, 0, "GFIR2_L_TXTSP", "Parameter l of GFIR2 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR2_N_TXTSP = { 0x0206, 7, 0, 0, "GFIR2_N_TXTSP", "Clock division ratio of GFIR2 is GFIR2_N + 1. Unsigned integer" };
const struct LMS7Parameter GFIR3_L_TXTSP = { 0x0207, 10, 8, 0, "GFIR3_L_TXTSP", "Parameter l of GFIR3 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR3_N_TXTSP = { 0x0207, 7, 0, 0, "GFIR3_N_TXTSP", "Clock division ratio of GFIR3 is GFIR3_N + 1. Unsigned integer" };
const struct LMS7Parameter CMIX_GAIN_TXTSP = { 0x0208, 15, 14, 0, "CMIX_GAIN_TXTSP", "Gain of CMIX output" };
const struct LMS7Parameter CMIX_SC_TXTSP = { 0x0208, 13, 13, 0, "CMIX_SC_TXTSP", "Spectrum control of CMIX" };
const struct LMS7Parameter CMIX_BYP_TXTSP = { 0x0208, 8, 8, 0, "CMIX_BYP_TXTSP", "CMIX bypass" };
const struct LMS7Parameter ISINC_BYP_TXTSP = { 0x0208, 7, 7, 0, "ISINC_BYP_TXTSP", "ISINC bypass" };
const struct LMS7Parameter GFIR3_BYP_TXTSP = { 0x0208, 6, 6, 0, "GFIR3_BYP_TXTSP", "GFIR3 bypass" };
const struct LMS7Parameter GFIR2_BYP_TXTSP = { 0x0208, 5, 5, 0, "GFIR2_BYP_TXTSP", "GFIR2 bypass" };
const struct LMS7Parameter GFIR1_BYP_TXTSP = { 0x0208, 4, 4, 0, "GFIR1_BYP_TXTSP", "GFIR1 bypass" };
const struct LMS7Parameter DC_BYP_TXTSP = { 0x0208, 3, 3, 0, "DC_BYP_TXTSP", "DC corrector bypass" };
const struct LMS7Parameter GC_BYP_TXTSP = { 0x0208, 1, 1, 0, "GC_BYP_TXTSP", "Gain corrector bypass" };
const struct LMS7Parameter PH_BYP_TXTSP = { 0x0208, 0, 0, 0, "PH_BYP_TXTSP", "Phase corrector bypass" };
const struct LMS7Parameter BSIGI_TXTSP = { 0x0209, 23, 1, 0, "BSIGI_TXTSP", "" };
const struct LMS7Parameter BSTATE_TXTSP = { 0x0209, 0, 0, 0, "BSTATE_TXTSP", "" };
const struct LMS7Parameter BSIGQ_TXTSP = { 0x020A, 30, 8, 0, "BSIGQ_TXTSP", "" };
const struct LMS7Parameter DC_REG_TXTSP = { 0x020C, 15, 0, 0, "DC_REG_TXTSP", "" };
const struct LMS7Parameter DTHBIT_TX = { 0x0240, 8, 5, 1, "DTHBIT_TX", "NCO bits to dither" };
const struct LMS7Parameter SEL_TX = { 0x0240, 4, 1, 0, "SEL_TX", "" };
const struct LMS7Parameter MODE_TX = { 0x0240, 0, 0, 0, "MODE_TX", "" };
const struct LMS7Parameter CAPTURE = { 0x0400, 15, 15, 0, "CAPTURE", "" };
const struct LMS7Parameter CAPSEL = { 0x0400, 14, 13, 0, "CAPSEL", "" };
const struct LMS7Parameter CAPSEL_ADC = { 0x0400, 12, 12, 0, "CAPSEL_ADC", "" };
const struct LMS7Parameter TSGFC_RXTSP = { 0x0400, 9, 9, 0, "TSGFC_RXTSP", "TSG full scale control" };
const struct LMS7Parameter TSGFCW_RXTSP = { 0x0400, 8, 7, 1, "TSGFCW_RXTSP", "Set frequency of TSG's NCO" };
const struct LMS7Parameter TSGDCLDQ_RXTSP = { 0x0400, 6, 6, 0, "TSGDCLDQ_RXTSP", "" };
const struct LMS7Parameter TSGDCLDI_RXTSP = { 0x0400, 5, 5, 0, "TSGDCLDI_RXTSP", "" };
const struct LMS7Parameter TSGSWAPIQ_RXTSP = { 0x0400, 4, 4, 0, "TSGSWAPIQ_RXTSP", "Swap signals at test signal generator's output" };
const struct LMS7Parameter TSGMODE_RXTSP = { 0x0400, 3, 3, 0, "TSGMODE_RXTSP", "Test signal generator mode" };
const struct LMS7Parameter INSEL_RXTSP = { 0x0400, 2, 2, 0, "INSEL_RXTSP", "Input source of RxTSP" };
const struct LMS7Parameter BSTART_RXTSP = { 0x0400, 1, 1, 0, "BSTART_RXTSP", "Starts delta sigma built in self test. Keep it at 1 one at least three clock cycles" };
const struct LMS7Parameter EN_RXTSP = { 0x0400, 0, 0, 1, "EN_RXTSP", "RxTSP modules enable" };
const struct LMS7Parameter GCORRQ_RXTSP = { 0x0401, 10, 0, 2047, "GCORRQ_RXTSP", "corrector value, channel Q Unsigned integer" };
const struct LMS7Parameter GCORRI_RXTSP = { 0x0402, 10, 0, 2047, "GCORRI_RXTSP", "corrector value, channel I Unsigned integer" };
const struct LMS7Parameter HBD_OVR_RXTSP = { 0x0403, 14, 12, 0, "HBD_OVR_RXTSP", "HBD interpolation ratio. Interpolation ratio is 2HBD_OVR+1" };
const struct LMS7Parameter IQCORR_RXTSP = { 0x0403, 11, 0, 0, "IQCORR_RXTSP", "Phase corrector value (tan(Alpha/2)). Integer, 2's complement" };
const struct LMS7Parameter HBD_DLY = { 0x0404, 15, 13, 0, "HBD_DLY", "" };
const struct LMS7Parameter DCLOOP_BYP = { 0x0404, 8, 8, 0, "DCLOOP_BYP", "" };
const struct LMS7Parameter DCCORR_AVG_RXTSP = { 0x0404, 2, 0, 0, "DCCORR_AVG_RXTSP", "Number of samples to average for Automatic DC corrector. Number of samples to average is 2DCCORR_AVG + 12" };
const struct LMS7Parameter GFIR1_L_RXTSP = { 0x0405, 10, 8, 0, "GFIR1_L_RXTSP", "Parameter l of GFIR1 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR1_N_RXTSP = { 0x0405, 7, 0, 0, "GFIR1_N_RXTSP", "Clock division ratio of GFIR1 is GFIR1_N + 1. Unsigned integer" };
const struct LMS7Parameter GFIR2_L_RXTSP = { 0x0406, 10, 8, 0, "GFIR2_L_RXTSP", "Parameter l of GFIR2 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR2_N_RXTSP = { 0x0406, 7, 0, 0, "GFIR2_N_RXTSP", "Clock division ratio of GFIR2 is GFIR2_N + 1. Unsigned integer" };
const struct LMS7Parameter GFIR3_L_RXTSP = { 0x0407, 10, 8, 0, "GFIR3_L_RXTSP", "Parameter l of GFIR3 (l = roundUp(CoeffN/5)-1). Unsigned integer" };
const struct LMS7Parameter GFIR3_N_RXTSP = { 0x0407, 7, 0, 0, "GFIR3_N_RXTSP", "Clock division ratio of GFIR3 is GFIR3_N + 1. Unsigned integer" };
const struct LMS7Parameter AGC_K_RXTSP = { 0x0408, 17, 0, 0, "AGC_K_RXTSP", "AGC loop gain" };
const struct LMS7Parameter AGC_ADESIRED_RXTSP = { 0x0409, 15, 4, 0, "AGC_ADESIRED_RXTSP", "AGC_ADESIRED" };
const struct LMS7Parameter RSSI_MODE = { 0x040A, 15, 14, 0, "RSSI_MODE", "" };
const struct LMS7Parameter AGC_MODE_RXTSP = { 0x040A, 13, 12, 0, "AGC_MODE_RXTSP", "" };
const struct LMS7Parameter AGC_AVG_RXTSP = { 0x040A, 2, 0, 0, "AGC_AVG_RXTSP", "AGC Averaging window size" };
const struct LMS7Parameter DC_REG_RXTSP = { 0x040B, 15, 0, 0, "DC_REG_RXTSP", "" };
const struct LMS7Parameter CMIX_GAIN_RXTSP = { 0x040C, 15, 14, 0, "CMIX_GAIN_RXTSP", "Gain of CMIX output" };
const struct LMS7Parameter CMIX_SC_RXTSP = { 0x040C, 13, 13, 0, "CMIX_SC_RXTSP", "Spectrum control of CMIX" };
const struct LMS7Parameter CMIX_BYP_RXTSP = { 0x040C, 7, 7, 0, "CMIX_BYP_RXTSP", "CMIX bypass" };
const struct LMS7Parameter AGC_BYP_RXTSP = { 0x040C, 6, 6, 0, "AGC_BYP_RXTSP", "AGC bypass" };
const struct LMS7Parameter GFIR3_BYP_RXTSP = { 0x040C, 5, 5, 0, "GFIR3_BYP_RXTSP", "GFIR3 bypass" };
const struct LMS7Parameter GFIR2_BYP_RXTSP = { 0x040C, 4, 4, 0, "GFIR2_BYP_RXTSP", "GFIR2 bypass" };
const struct LMS7Parameter GFIR1_BYP_RXTSP = { 0x040C, 3, 3, 0, "GFIR1_BYP_RXTSP", "GFIR1 bypass" };
const struct LMS7Parameter DC_BYP_RXTSP = { 0x040C, 2, 2, 0, "DC_BYP_RXTSP", "DC corrector bypass" };
const struct LMS7Parameter GC_BYP_RXTSP = { 0x040C, 1, 1, 0, "GC_BYP_RXTSP", "Gain corrector bypass" };
const struct LMS7Parameter PH_BYP_RXTSP = { 0x040C, 0, 0, 0, "PH_BYP_RXTSP", "Phase corrector bypass" };
const struct LMS7Parameter CAPD = { 0x040E, 31, 0, 0, "CAPD", "" };
const struct LMS7Parameter DTHBIT_RX = { 0x0440, 8, 5, 1, "DTHBIT_RX", "NCO bits to dither" };
const struct LMS7Parameter SEL_RX = { 0x0440, 4, 1, 0, "SEL_RX", "" };
const struct LMS7Parameter MODE_RX = { 0x0440, 0, 0, 0, "MODE_RX", "" };