FreeCalypso > hg > freecalypso-sw
view gsm-fw/L1/cust0/l1_rf35.h @ 660:a0014ba30d71
gsm-fw/cdg/makecdg.sh: added some comments
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Fri, 26 Sep 2014 00:34:44 +0000 |
parents | 26472940e5b0 |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * * Filename l1_rf35.h * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ #ifndef __L1_RF_H__ #define __L1_RF_H__ /************************************/ /* SYNTHESIZER setup time... */ /************************************/ #define RX_SYNTH_SETUP_TIME (PROVISION_TIME - TRF_R1)//RX Synthesizer setup time in qbit. #define TX_SYNTH_SETUP_TIME (- TRF_T1) //TX Synthesizer setup time in qbit. /************************************/ /* time for TPU scenario ending... */ /************************************/ #define RX_TPU_SCENARIO_ENDING DLT_1B - SL_SU_DELAY2 // execution time of BDLENA down // minus serialization time #define TX_TPU_SCENARIO_ENDING DLT_1B - SL_SU_DELAY2 // execution time of BULON down // minus serialization time /******************************************************/ /* TXPWR configuration... */ /* Fixed TXPWR value when GSM management is disabled. */ /******************************************************/ #if ((ANALOG == 1) || (ANALOG == 2)) // #define FIXED_TXPWR 0x3f12 // TXPWR=10, value=252 // #define FIXED_TXPWR 0x0a12 // TXPWR=15, value=40 #define FIXED_TXPWR 0x1a12 // TXPWR=15, EVA4, CRTP1 #endif /************************************/ /* ANALOG delay (in qbits) */ /************************************/ #define DL_DELAY_RF 1 // time spent in the Downlink global RF chain by the modulated signal #define UL_DELAY_1RF 5 // time spent in the first uplink RF block #define UL_DELAY_2RF 0 // time spent in the second uplink RF block #if (ANALOG == 1) #define UL_ABB_DELAY 6 // modulator input to output delay #endif #if (ANALOG == 2) #define UL_ABB_DELAY 3 // modulator input to output delay #endif /************************************/ /* TX Propagation delay... */ /************************************/ #if ((ANALOG == 1) || (ANALOG == 2)) #define PRG_TX (DL_DELAY_RF + UL_DELAY_2RF + (GUARD_BITS*4) + UL_DELAY_1RF + UL_ABB_DELAY) // = 40 + NB_MARGIN #endif /************************************/ /* Initial value for APC DELAY */ /************************************/ #if (ANALOG == 1) //#define APCDEL_DOWN (32 - GUARD_BITS*4) // minimum value: 2 #define APCDEL_DOWN 2 // minimum value: 2 #define APCDEL_UP (6+5) // minimum value: 6 #endif #if (ANALOG == 2) //#define APCDEL_DOWN (32 - GUARD_BITS*4) // minimum value: 2 #define APCDEL_DOWN 2 // minimum value: 2 #define APCDEL_UP (6+2) // minimum value: 6 #endif #define GUARD_BITS 7 /************************************/ /* Initial value for AFC... */ /************************************/ #define EEPROM_AFC ((-55)*8) // F13.3 required!!!!! (default : -952*8, initial deviation of -2400 forced) #define SETUP_AFC_AND_RF 2 // time to have a stable output of the AFC (in Frames) // !! minimum Value : 1 Frame due to the fact there is no // hisr() in the first wake-up frame !!!! /************************************/ /* Baseband registers */ /************************************/ #if (ANALOG == 1) // Omega registers values will be programmed at 1st DSP communication interrupt #define C_DEBUG1 0x0000 // Enable f_tx delay of 400000 cyc DEBUG #define C_AFCCTLADD 0x002a | TRUE // Value at reset #define C_VBUCTRL 0x418e | TRUE // Uplink gain amp 0dB, Sidetone gain to mute #define C_VBDCTRL 0x098c | TRUE // Downlink gain amp 0dB, Volume control 0 dB #define C_BBCTRL 0x604c | TRUE // OUTLEV1=OUTLEV1=SELVMID1=SELVMID0=1 for B-sample 'modified' #define C_APCOFF 0x1016 | (0x34 << 6)/*(0x3c << 6)*/ | TRUE // value at reset-Changed from 0x0016- CR 27.12 #define C_BULIOFF 0x3fc4 | TRUE // value at reset #define C_BULQOFF 0x3fc6 | TRUE // value at reset #define C_DAI_ON_OFF 0x0000 // value at reset #define C_AUXDAC 0x0018 | TRUE // value at reset #define C_VBCTRL 0x02d0 | TRUE // VULSWITCH=1, VDLAUX=1, VDLEAR=1 // BULRUDEL will be initialized on rach only .... #define C_APCDEL1 (((APCDEL_DOWN-2)<<11) | ((APCDEL_UP-6)<<6) | 0x0004) #define C_BBCTRL 0x604c | TRUE // OUTLEV1=OUTLEV1=SELVMID1=SELVMID0=1 for B-sample 'modified' #endif #if (ANALOG == 2) // IOTA registers values will be programmed at 1st DSP communication interrupt #define C_DEBUG1 0x0001 // Enable f_tx delay of 400000 cyc DEBUG #define C_AFCCTLADD 0x002a | TRUE // Value at reset #define C_VBUCTRL 0x418e | TRUE // No uplink mute, Side tone mute, PGA_UL 0dB #define C_VBDCTRL 0x098c | TRUE // PGA_DL 0dB, Volume 0dB #define C_APCOFF 0x1016 | TRUE // x2 slope 128 #define C_BULIOFF 0x3fc4 | TRUE // value at reset #define C_BULQOFF 0x3fc6 | TRUE // value at reset #define C_DAI_ON_OFF 0x0000 // value at reset #define C_AUXDAC 0x0018 | TRUE // value at reset #define C_VBCTRL 0x02d0 | TRUE // VULSWITCH=1, VDLAUX=1, VDLEAR=1 #define C_VBCTRL2 0x0016 | TRUE // MICBIASEL=0, VDLHSO=0, MICAUX=0 // BULRUDEL will be initialized on rach only .... #define C_APCDEL1 (((APCDEL_DOWN-2)<<11) | ((APCDEL_UP-6)<<6) | 0x0004) #define C_APCDEL2 0x0034 #define C_BBCTRL 0x304c | TRUE // Internal autocalibration, Output common mode=1.35V // Monoslot, Vpp=8/15*Vref #define C_BULGCAL 0x001c | TRUE // IAG=0 dB, QAG=0 dB #endif /************************************/ /* Automatic frequency compensation */ /************************************/ /********************* C_Psi_sta definition *****************************/ /* C_Psi_sta = (2*pi*Fr) / (N * Fb) */ /* (1) = (2*pi*V*ppm*0.9) / (N*V*Fb) */ /* regarding Vega V/N = 2.4/4096 */ /* regarding VCO ppm/V = 16 / 1 (average slope of the VCO) */ /* (1) = (2*pi*2.4*16*0.9) / (4096*1*270.83) */ /* = 0.000195748 */ /* C_Psi_sta_inv = 1/C_Psi_sta = 5108 */ /************************************************************************/ #define C_Psi_sta_inv 11677L // (1/C_Psi_sta) #define C_Psi_st 4L // C_Psi_sta * 0.8 F0.16 #define C_Psi_st_32 294257L // F0.32 #define C_Psi_st_inv 14596L // (1/C_Psi_st) typedef struct { WORD16 eeprom_afc; UWORD32 psi_sta_inv; UWORD32 psi_st; UWORD32 psi_st_32; UWORD32 psi_st_inv; } T_AFC_PARAMS; /************************************/ /* Swap IQ definitions... */ /************************************/ /* 0=No Swap, 1=Swap RX only, 2=Swap TX only, 3=Swap RX and TX */ #define SWAP_IQ_GSM 0 #define SWAP_IQ_DCS 3 #define SWAP_IQ_PCS 3 #define SWAP_IQ_GSM850 0 //TBD /************************************/ /* RF bands supported */ /************************************/ #define RF_HW_BAND_SUPPORT (0x0020 | 0x0004) // radio_band_support E-GSM/DCS + PC /************************************/ /************************************/ // typedef /************************************/ /************************************/ /*************************************************************/ /* Define structure for apc of TX Power ******/ /*************************************************************/ typedef struct { // pcm-file "rf/tx/level.gsm|dcs" UWORD16 apc; // 0..31 UWORD8 ramp_index; // 0..RF_TX_RAMP_SIZE UWORD8 chan_cal_index; // 0..RF_TX_CHAN_CAL_TABLE_SIZE } T_TX_LEVEL; /************************************/ /* Automatic Gain Control */ /************************************/ /* Define structure for sub-band definition of TX Power ******/ typedef struct { UWORD16 upper_bound; //highest physical arfcn of the sub-band WORD16 agc_calib; // AGC for each TXPWR }T_RF_AGC_BAND; /************************************/ /* Ramp definitions */ /************************************/ #if ((ANALOG == 1) || (ANALOG == 2)) typedef struct { UWORD8 ramp_up [16]; // Ramp-up profile UWORD8 ramp_down [16]; // Ramp-down profile } T_TX_RAMP; #endif // RF structure definition //======================== enum RfRevision { RF_IGNORE = 0x0000, RF_SL2 = 0x1000, RF_GAIA_20X = 0x2000, RF_GAIA_20A = 0x2001, RF_GAIA_20B = 0x2002, RF_ATLAS_20B = 0x2020, RF_PASCAL_20 = 0x2030 }; // Number of bands supported #define GSM_BANDS 2 #define MULTI_BAND1 0 #define MULTI_BAND2 1 // RF table sizes #define RF_RX_CAL_CHAN_SIZE 10 // number of AGC sub-bands #define RF_RX_CAL_TEMP_SIZE 11 // number of temperature ranges #define RF_TX_CHAN_CAL_TABLE_SIZE 4 // channel calibration table size #define RF_TX_NUM_SUB_BANDS 8 // number of sub-bands in channel calibration table #define RF_TX_LEVELS_TABLE_SIZE 32 // level table size #define RF_TX_RAMP_SIZE 16 // number of ramp definitions #define RF_TX_CAL_TEMP_SIZE 5 // number of temperature ranges #define AGC_TABLE_SIZE 36 #define TEMP_TABLE_SIZE 131 // number of elements in ADC->temp conversion table // RX parameters and tables //------------------------- // AGC parameters and tables typedef struct { UWORD16 low_agc_noise_thr; UWORD16 high_agc_sat_thr; UWORD16 low_agc; UWORD16 high_agc; UWORD8 il2agc_pwr[121]; UWORD8 il2agc_max[121]; UWORD8 il2agc_av[121]; } T_AGC; // Calibration parameters typedef struct { UWORD16 g_magic; UWORD16 lna_att; UWORD16 lna_switch_thr_low; UWORD16 lna_switch_thr_high; } T_RX_CAL_PARAMS; // RX temperature compensation typedef struct { WORD16 temperature; WORD16 agc_calib; } T_RX_TEMP_COMP; // RF RX structure typedef struct { T_AGC agc; } T_RF_RX; //common // RF RX structure typedef struct { T_RX_CAL_PARAMS rx_cal_params; T_RF_AGC_BAND agc_bands[RF_RX_CAL_CHAN_SIZE]; T_RX_TEMP_COMP temp[RF_RX_CAL_TEMP_SIZE]; } T_RF_RX_BAND; // TX parameters and tables //------------------------- // TX temperature compensation typedef struct { WORD16 temperature; WORD16 apc_calib; } T_TX_TEMP_CAL; // Ramp up and ramp down delay typedef struct { UWORD16 up; UWORD16 down; } T_RAMP_DELAY; typedef struct { UWORD16 arfcn_limit; WORD16 chan_cal; } T_TX_CHAN_CAL; // RF TX structure typedef struct { T_RAMP_DELAY ramp_delay; UWORD8 guard_bits; // number of guard bits needed for ramp up UWORD8 prg_tx; } T_RF_TX; //common // RF TX structure typedef struct { T_TX_LEVEL levels[RF_TX_LEVELS_TABLE_SIZE]; T_TX_CHAN_CAL chan_cal_table[RF_TX_CHAN_CAL_TABLE_SIZE][RF_TX_NUM_SUB_BANDS]; T_TX_RAMP ramp_tables[RF_TX_RAMP_SIZE]; T_TX_TEMP_CAL temp[RF_TX_CAL_TEMP_SIZE]; } T_RF_TX_BAND; // band structure typedef struct { T_RF_RX_BAND rx; T_RF_TX_BAND tx; UWORD8 swap_iq; } T_RF_BAND; // RF structure typedef struct { // common for all bands UWORD8 rf_revision; UWORD16 radio_band_support; T_RF_RX rx; T_RF_TX tx; T_AFC_PARAMS afc; } T_RF; /************************************/ /* MADC definitions */ /************************************/ // Omega: 5 external channels if touch screen not used, 3 otherwise enum ADC_INDEX { ADC_VBAT, ADC_VCHARG, ADC_ICHARG, ADC_VBACKUP, ADC_BATTEMP, ADC_RFTEMP, ADC_ADC3, ADC_ADC4, ADC_ADC5, ADC_INDEX_END // ADC_INDEX_END must be the end of the enums }; typedef struct { WORD16 converted[ADC_INDEX_END]; // converted UWORD16 raw[ADC_INDEX_END]; // raw from ADC } T_ADC; /************************************/ /* MADC calibration */ /************************************/ typedef struct { UWORD16 a[ADC_INDEX_END]; WORD16 b[ADC_INDEX_END]; } T_ADCCAL; // Conversion table: ADC value -> temperature typedef struct { UWORD16 adc; // ADC reading is 10 bits WORD16 temp; // temp is in approx. range -30..+80 } T_TEMP; typedef struct { char *name; void *addr; int size; } T_CONFIG_FILE; typedef struct { char *name; // name of ffs file suffix T_RF_BAND *addr; // address to default flash structure UWORD16 max_carrier; // max carrier UWORD16 max_txpwr; // max tx power } T_BAND_CONFIG; typedef struct { UWORD8 band[GSM_BANDS]; // index to band address UWORD8 txpwr_tp; // tx power turning point UWORD16 first_arfcn; // first index } T_STD_CONFIG; enum GSMBAND_DEF { BAND_NONE, BAND_EGSM900, BAND_DCS1800, BAND_PCS1900, BAND_GSM850, // put new bands here BAND_GSM900 //last entry }; /************************************/ /* ABB (Omega) Initialization */ /************************************/ #define ABB_TABLE_SIZE 16 // Note that this translation is probably not needed at all. But until L1 is // (maybe) changed to simply initialize the ABB from a table of words, we // use this to make things more easy-readable. #if (ANALOG == 1) enum ABB_REGISTERS { ABB_AFCCTLADD = 0, ABB_VBUCTRL, ABB_VBDCTRL, ABB_BBCTRL, ABB_APCOFF, ABB_BULIOFF, ABB_BULQOFF, ABB_DAI_ON_OFF, ABB_AUXDAC, ABB_VBCTRL, ABB_APCDEL1 }; #elif (ANALOG == 2) enum ABB_REGISTERS { ABB_AFCCTLADD = 0, ABB_VBUCTRL, ABB_VBDCTRL, ABB_BBCTRL, ABB_BULGCAL, ABB_APCOFF, ABB_BULIOFF, ABB_BULQOFF, ABB_DAI_ON_OFF, ABB_AUXDAC, ABB_VBCTRL, ABB_VBCTRL2, ABB_APCDEL1, ABB_APCDEL2 }; #endif #endif