1# INI Generator version 0.5; Aligned to TS version 7.1.2.0.26 2#------------------------------------------------------------------------------------------------------------------------------------------------------------ 3# SECTION 1: Non FEM-dependant section 4#------------------------------------------------------------------------------------------------------------------------------------------------------------ 5#------------------------------------------------------------------------------------------------------------------------------------------------------------ 6# SECTION 1.1: General parameters 7#------------------------------------------------------------------------------------------------------------------------------------------------------------ 8TXBiPFEMAutoDetect = 00 # Length: 1; Unit: Options (0: Manual Mode, 1: Automatic mode); Format: Unsigned; Source: Customer; Comment: This parameter is used by the FW to decide if the front-end is determined automatically or manually 9TXBiPFEMManufacturer = 01 # Length: 1; Unit: Bit_Options; Format: Unsigned; Source: Customer; Comment: Bit1,0: used to determine which FEM vendor type is used on the platform (0: RFMD, 1: TQS, 2:SKW, 3:HP), Bit3,2: unused, Bit7-4:External/internal load (4-SKW SB, 5-SKW HB, 6-HP SB, 7-HP HB) 10RefClk = 01 # Length: 1; Unit: Bit_Options; Format: Unsigned; Source: Customer; Comment: 5'bXX000 : Bit 0,1,2 - 0: 19.2MHz, 1: 26MHz, 2: 38.4MHz [Default], 3: 52MHz, 4: 38.4MHz XTAL, 5: 26MHz XTAL , 5'bX0XXX : Bit 3 - CLK_REQ type, 0 = wired-OR [Default], 1= push-pull , 5'b0XXXX : Bit 4 - CLK_REQ polarity, 0 = Normal [Default], 1=Inverted 11SettlingTime = 05 # Length: 1; Unit: ms (0-15); Format: Unsigned; Source: Customer; Comment: The time from asserting CLK_REQ (low to high) to valid FREF clock on the device inputs 12ClockValidOnWakeup = 00 # Length: 1; Unit: Options (0: Reference clock not valid, 1: Reference clock is valid and stable); Format: Unsigned; Source: Customer; Comment: This parameter indicates whether the FREF clock is valid on wakeup 13TCXO_Clk = 01 # Length: 1; Unit: Bit_Options; Format: Unsigned; Source: Customer; Comment: 5'bXX000 : Bit 0,1,2 - 0: 19.2MHz, 1: 26MHz, 2: 38.4MHz [Default], 3: 52MHz, 4: 16.368Mhz, 5: 32.736 Mhz 14TCXO_SettlingTime = 05 # Length: 1; Unit: ms (0-15); Format: Unsigned; Source: Customer; Comment: The time from asserting CLK_REQ (low to high) to valid TCXO clock on the device inputs 15TCXO_ClockValidOnWakeup = 00 # Length: 1; Unit: Options (0: Reference clock not valid, 1: Reference clock is valid and stable); Format: Unsigned; Source: Customer; Comment: This parameter indicates whether the TCXO clock is valid on wakeup 16TCXO_LDO_Voltage = 00 # Length: 1; Unit: Options (0:2.5v, 1:2.55v, 2:2.6v); Format: Unsigned; Source: Customer; Comment: TCXO LDO Voltage 17Platform_configuration = 02 # Length: 1; Unit: Bit_Options; Format: Unsigned; Source: Customer ; Comment: Bit 0: Levelshifter support (0: No LS, 1: With LS), Bit 1,2:Configure IO's [SDIO/wspi] (00- 8mA, 01- 4mA (default), 10- 6mA, 11 - 2mA), Bit 3:Eeprom (0-No Eeprom), Bit 4: SDIO IB Enable sync, Bit 5: SDIO IB Enable async, Bit 6: SDIO IB Enable BlockMode, Bit 7: SDIO High-Speed support 18Single_Dual_Band_Solution = 01 # Length: 1; Unit: Options (0: 2.5v, 1: 2.55v, 2: 2.6v); Format: Unsigned; Source: Customer; Comment: This field notifies the FW whether the solution is a single-band or dual-band 19Settings = 3c 00 00 00 # Length: 4; Unit: Bit_Options; Format: Unsigned; Source: Customer; Comment: Bit0: NBI (0: Off, 1: On), Bit1: Telec channel 14 (0: Off, 1: On), Bit2: FEM0-LB, Bit3: FEM0-HB, Bit4: FEM1-LB, Bit5: FEM1-HB - TX BiP load (0: Internal, 1: External), Bit6: LPD Low band, Bit7: LPD High band 20XTALItrimVal = 04 # Length: 1; Unit: Current trimming for XTAL; Format: Unsigned; Source: TI; Comment: Current trimming for XTAL 21SRState = 00 # Length: 1; Unit: Options (0: Disabled, 1: Enabled); Format: Decimal; Source: TI; Comment: Smart Reflax (proprietary mechanism of TI that identify the silicon process specific params) state 22SRF1 = 09 04 19 10 08 00 F7 EF E6 DE 00 00 00 00 0F 3F # Length: 16; Unit: SRF1 values; Format: Signed; Source: TI; Comment: The table holds the specific parameters for using the SmartReflex mechanism 23SRF2 = 09 04 19 10 08 00 F7 EF E6 DE 00 00 00 00 00 00 # Length: 16; Unit: SRF2 values; Format: Signed; Source: TI; Comment: The table holds the specific parameters for using the SmartReflex mechanism 24SRF3 = 09 04 19 10 08 00 F7 EF E6 DE 00 00 00 00 00 00 # Length: 16; Unit: SRF3 values; Format: Signed; Source: TI; Comment: The table holds the specific parameters for using the SmartReflex mechanism 25#SR_Debug_Table = 09 04 19 10 01 00 F7 EF E6 DE 00 00 00 00 00 00 # Length: 16; Unit: SR_Debug_Table values; Format: Signed; Source: TI; Comment: SR Debug values � for TI internal use only 26#SR_SEN_N_P = 11 # Length: 1; Unit: SR_SEN_N_P values; Format: Unsigned; Source: TI; Comment: SR Debug values � for TI internal use only 27#SR_SEN_N_P_Gain = AA # Length: 1; Unit: SR_SEN_N_P_GAIN values; Format: Unsigned; Source: TI; Comment: SR Debug values � for TI internal use only 28#SR_SEN_NRN = B6 # Length: 1; Unit: SR_SEN_NRN values; Format: Unsigned; Source: TI ; Comment: SR Debug values � for TI internal use only 29#SR_SEN_PRN = F0 # Length: 1; Unit: SR_SEN_PRN values; Format: Unsigned; Source: TI ; Comment: SR Debug values � for TI internal use only 30#------------------------------------------------------------------------------------------------------------------------------------------------------------ 31# SECTION 1.2: Band-dependant parameters 32#------------------------------------------------------------------------------------------------------------------------------------------------------------ 33#------------------------------------------------------------------------------------------------------------------------------------------------------------ 34# SECTION 1.2.1: 2.4G parameters 35#------------------------------------------------------------------------------------------------------------------------------------------------------------ 36RxTraceInsertionLoss_2_4G = 00 # Length: 1; Unit: 1/8dB; Format: Unsigned; Source: Customer; Comment: This parameter indicates the printed circuit board (PCB) trace insertion loss 37TxTraceLoss_2_4G = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 # Length: 14; Unit: 1/8dB; Format: Unsigned; Source: Customer; Comment: This parameter is used to align the output power to a different location on the board 38#------------------------------------------------------------------------------------------------------------------------------------------------------------ 39# SECTION 1.2.2: 5G parameters 40#------------------------------------------------------------------------------------------------------------------------------------------------------------ 41RxTraceInsertionLoss_5G = 00 00 00 00 00 00 00 # Length: 7; Unit: 1/8dB; Format: Unsigned; Source: Customer; Comment: This parameter indicates the printed circuit board (PCB) trace insertion loss 42TxTraceLoss_5G = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 # Length: 35; Unit: 1/8dB; Format: Unsigned; Source: Customer; Comment: This parameter is used to align the output power to a different location on the board 43#------------------------------------------------------------------------------------------------------------------------------------------------------------ 44# SECTION 2: FEM-dependant section 45#------------------------------------------------------------------------------------------------------------------------------------------------------------ 46#------------------------------------------------------------------------------------------------------------------------------------------------------------ 47# SECTION 2.1: FEM parameters 48#------------------------------------------------------------------------------------------------------------------------------------------------------------ 49FemVendorAndOptions = 01 # Length: 1; Unit: Bit_Options; Format: Unsigned; Source: Customer; Comment: Bit 0..1 - 0: RFMD, 1: TQS, 2: SKWS, Bit 4..7 [Version control] - 0: TQS-S1.0, 1: TQS-S2.0, 2: TQS-S2.5, 3: TQS-D1.0, 4: TQS-D1.5, 5: RFMD-S1.5, 6: RFMD-S2.9, 7: RFMD-S3.0, 8: RFMD-D1.5, 9: RFMD-S2.9.5, 10: RFMD-D3.0.1, 11: TQS-S2.6, 12: TQS-D1.7 50#------------------------------------------------------------------------------------------------------------------------------------------------------------ 51# SECTION 2.1.1: 2.4G parameters 52#------------------------------------------------------------------------------------------------------------------------------------------------------------ 53FEM1_TxBiPReferencePDvoltage_2_4G = 01D9 # Length: 1; Unit: 1mV; Format: Unsigned; Source: TI; Comment: This parameter define the reference point of the FEM power detector 54FEM1_TxBiPReferencePower_2_4G = 80 # Length: 1; Unit: 1/8dB; Format: Signed; Source: TI; Comment: Reference output power that produces given reference power detector output voltage . The TX BiP reference power is linked to the TX BiP reference PD voltage 55FEM1_TxBiPOffsetdB_2_4G = 00 # Length: 1; Unit: 1/8dB; Format: Signed; Source: Customer; Comment: This field is used to fine-tune the TX BiP by the customer 56FEM1_TxPerRatePowerLimits_2_4G_Normal = 1D 1F 22 26 27 29 25 # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 57FEM1_TxPerRatePowerLimits_2_4G_Degraded = 1D 1F 22 26 27 27 24 # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 58FEM1_TxPerRatePowerLimits_2_4G_Extreme = 16 1D 1E 20 24 25 22 # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 59FEM1_DegradedLowToNormalThr_2_4G = 1E # Length: 1; Unit: 1/10 volts; Format: Unsigned; Source: TI; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 60FEM1_NormalToDegradedHighThr_2_4G = 2D # Length: 1; Unit: 1/10 volts; Format: Unsigned; Source: TI; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 61FEM1_TxPerChannelPowerLimits_2_4G_11b = 50 50 50 50 50 50 50 50 50 50 50 50 50 50 # Length: 14; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The purpose of this table is to allow clipping of the maximum output power on certain channels 62FEM1_TxPerChannelPowerLimits_2_4G_OFDM = 50 50 50 50 50 50 50 50 50 50 50 50 50 50 # Length: 14; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The purpose of this table is to allow clipping of the maximum output power on certain channels 63FEM1_TxPDVsRateOffsets_2_4G = 01 02 02 02 02 00 02 # Length: 7; Unit: 1/8dB; Format: Signed; Source: TI; Comment: This parameter is a power detector offset value used to correct the power detector curve for each rate group 64FEM1_TxPDVsChannelOffsets_2_4G = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 # Length: 14; Unit: 1/8dB; Format: Signed; Source: TI/Customer; Comment: This parameter is a power detector offset value used to correct the power detector curve for each channel 65FEM1_TxPDVsTemperature_2_4G = 00 00 # Length: 2; Unit: 1/8dB; Format: Signed; Source: TI; Comment: This parameter is a power detector offset value used to correct the power detector curve for each temperture 66FEM1_TxIbiasTable_2_4G = 17 17 17 1a 16 17 1a 17 # Length: 8; Unit: Codeword ; Format: Unsigned; Source: TI; Comment: This parameter sets the bias current provided by the SoC to the PA in the FEM. Options (MCS7, 54/48, 36/24, 18/12, 9/6, 11b, MCS0, 11bCh14) 67FEM1_RxFemInsertionLoss_2_4G = 10 # Length: 1; Unit: 1/8dB; Format: Unsigned; Source: TI; Comment: This parameter specifies the received insertion loss of the WL128x 68#------------------------------------------------------------------------------------------------------------------------------------------------------------ 69# SECTION 2.1.2: 5G parameters 70#------------------------------------------------------------------------------------------------------------------------------------------------------------ 71FEM1_TxBiPReferencePDvoltage_5G = 019A 01AE 01C2 01CC 01DB 01DB 01D1 # Length: 7; Unit: 1mV; Format: Unsigned; Source: TI; Comment: This parameter define the reference point of the FEM power detector 72FEM1_TxBiPReferencePower_5G = 80 80 80 80 80 80 80 # Length: 7; Unit: 1/8dB; Format: Signed; Source: TI; Comment: Reference output power that produces given reference power detector output voltage . The TX BiP reference power is linked to the TX BiP reference PD voltage 73FEM1_TxBiPOffsetdB_5G = 00 00 00 00 00 00 00 # Length: 7; Unit: 1/8dB; Format: Signed; Source: Customer; Comment: This field is used to fine-tune the TX BiP by the customer 74FEM1_TxPerRatePowerLimits_5G_Normal = 1C 1E 21 23 25 50 25 # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 75FEM1_TxPerRatePowerLimits_5G_Degraded = 18 1E 21 23 25 50 24 # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 76FEM1_TxPerRatePowerLimits_5G_Extreme = 16 1C 1E 20 20 50 1E # Length: 7; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 77FEM1_DegradedLowToNormalThr_5G = 1E # Length: 1; Unit: 1/10 volts; Format: Unsigned; Source: TI; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 78FEM1_NormalToDegradedHighThr_5G = 2D # Length: 1; Unit: 1/10 volts; Format: Unsigned; Source: TI; Comment: The limits are applied to the power control process according to the VBAT and temperature range in which the FEM is operating 79FEM1_TxPerChannelPowerLimits_5G_OFDM = 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 # Length: 35; Unit: 1/2dB; Format: Signed; Source: Customer; Comment: The purpose of this table is to allow clipping of the maximum output power on certain channels 80FEM1_TxPDVsRateOffsets_5G = 01 02 02 02 02 00 02 # Length: 7; Unit: 1/8dB; Format: Signed; Source: TI; Comment: This parameter is a power detector offset value used to correct the power detector curve for each rate group 81FEM1_TxPDVsChannelOffsets_5G = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 # Length: 35; Unit: 1/8dB; Format: Signed; Source: TI/Customer; Comment: This parameter is a power detector offset value used to correct the power detector curve for each channel 82FEM1_TxPDVsTemperature_5G = 00 00 00 00 00 00 00 00 00 00 00 00 00 00 # Length: 14; Unit: 1/8dB; Format: Signed; Source: TI; Comment: This parameter is a power detector offset value used to correct the power detector curve for each temperture 83FEM1_TxIbiasTable_5G = 10 10 10 10 10 10 10 # Length: 7; Unit: Codeword; Format: Unsigned; Source: TI; Comment: This parameter sets the bias current provided by the SoC to the PA in the FEM 84FEM1_RxFemInsertionLoss_5G = 10 10 10 10 10 10 10 # Length: 7; Unit: 1/8dB; Format: Unsigned; Source: TI; Comment: This parameter specifies the received insertion loss of the WL128x 85 86