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view gsm-fw/L1/cust1/l1_rf61.c @ 534:fc789f72a7d1
gsm-fw/L1/include: l1_defty.h reconciled
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
---|---|
date | Sat, 02 Aug 2014 00:40:09 +0000 |
parents | eafadfee35b2 |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * * Filename l1_rf61.c * Version 1.0 * Date June 12th, 2005 * ************* Revision Controle System Header *************/ T_RF rf = { RF_LOCOSTO, //RF revision RF_HW_BAND_SUPPORT, // radio_band_support E-GSM/DCS + PCS { //RX structure { //AGC structure 140, // low_agc_noise_thr; 110, // high_agc_sat_thr; 0, // low_agc; 23, // high_agc; //IL2AGC tables { // below is: il2agc_pwr[121]; // il2agc_max[121]; // il2agc_av[121]; // il2agc_pwr // Note this is shared between PCN and EGSM. 0, /* EGSM_MAX IL=0 */ 0, /* EGSM_MAX IL=-1 */ 0, /* EGSM_MAX IL=-2 */ 0, /* EGSM_MAX IL=-3 */ 0, /* EGSM_MAX IL=-4 */ 0, /* EGSM_MAX IL=-5 */ 0, /* EGSM_MAX IL=-6 */ 0, /* EGSM_MAX IL=-7 */ 0, /* EGSM_MAX IL=-8 */ 0, /* EGSM_MAX IL=-9 */ 0, /* EGSM_MAX IL=-10 */ 0, /* EGSM_MAX IL=-11 */ 0, /* EGSM_MAX IL=-12 */ 0, /* EGSM_MAX IL=-13 */ 0, /* EGSM_MAX IL=-14 */ 0, /* EGSM_MAX IL=-15 */ 0, /* EGSM_MAX IL=-16 */ 0, /* EGSM_MAX IL=-17 */ 0, /* EGSM_MAX IL=-18 */ 0, /* EGSM_MAX IL=-19 */ 0, /* EGSM_MAX IL=-20 */ 0, /* EGSM_MAX IL=-21 */ 0, /* EGSM_MAX IL=-22 */ 0, /* EGSM_MAX IL=-23 */ 0, /* EGSM_MAX IL=-24 */ 0, /* EGSM_MAX IL=-25 */ 0, /* EGSM_MAX IL=-26 */ 0, /* EGSM_MAX IL=-27 */ 0, /* EGSM_MAX IL=-28 */ 0, /* EGSM_MAX IL=-29 */ 0, /* EGSM_MAX IL=-30 */ 0, /* EGSM_MAX IL=-31 */ 0, /* EGSM_MAX IL=-32 */ 0, /* EGSM_MAX IL=-33 */ 0, /* EGSM_MAX IL=-34 */ 0, /* EGSM_MAX IL=-35 */ 0, /* EGSM_MAX IL=-36 */ 0, /* EGSM_MAX IL=-37 */ 0, /* EGSM_MAX IL=-38 */ 0, /* EGSM_MAX IL=-39 */ 0, /* EGSM_MAX IL=-40 */ 0, /* EGSM_MAX IL=-41 */ 0, /* EGSM_MAX IL=-42 */ 5, /* EGSM_MAX IL=-43 */ 5, /* EGSM_MAX IL=-44 */ 0, /* EGSM_MAX IL=-45 */ 0, /* EGSM_MAX IL=-46 */ 0, /* EGSM_MAX IL=-47 */ 0, /* EGSM_MAX IL=-48 */ 0, /* EGSM_MAX IL=-49 */ 0, /* EGSM_MAX IL=-50 */ 0, /* EGSM_MAX IL=-51 */ 0, /* EGSM_MAX IL=-52 */ 0, /* EGSM_MAX IL=-53 */ 0, /* EGSM_MAX IL=-54 */ 0, /* EGSM_MAX IL=-55 */ 0, /* EGSM_MAX IL=-56 */ 0, /* EGSM_MAX IL=-57 */ 0, /* EGSM_MAX IL=-58 */ 0, /* EGSM_MAX IL=-59 */ 0, /* EGSM_MAX IL=-60 */ 0, /* EGSM_MAX IL=-61 */ 0, /* EGSM_MAX IL=-62 */ 0, /* EGSM_MAX IL=-63 */ 0, /* EGSM_MAX IL=-64 */ 0, /* EGSM_MAX IL=-65 */ 0, /* EGSM_MAX IL=-66 */ 0, /* EGSM_MAX IL=-67 */ 0, /* EGSM_MAX IL=-68 */ 0, /* EGSM_MAX IL=-69 */ 0, /* EGSM_MAX IL=-70 */ 0, /* EGSM_MAX IL=-71 */ 0, /* EGSM_MAX IL=-72 */ 0, /* EGSM_MAX IL=-73 */ 0, /* EGSM_MAX IL=-74 */ 5, /* EGSM_MAX IL=-75 */ 5, /* EGSM_MAX IL=-76 */ 8, /* EGSM_MAX IL=-77 */ 8, /* EGSM_MAX IL=-78 */ 11, /* EGSM_MAX IL=-79 */ 11, /* EGSM_MAX IL=-80 */ 11, /* EGSM_MAX IL=-81 */ 11, /* EGSM_MAX IL=-82 */ 11, /* EGSM_MAX IL=-83 */ 11, /* EGSM_MAX IL=-84 */ 14, /* EGSM_MAX IL=-85 */ 14, /* EGSM_MAX IL=-86 */ 14, /* EGSM_MAX IL=-87 */ 14, /* EGSM_MAX IL=-88 */ 14, /* EGSM_MAX IL=-89 */ 14, /* EGSM_MAX IL=-90 */ 14, /* EGSM_MAX IL=-91 */ 14, /* EGSM_MAX IL=-92 */ 14, /* EGSM_MAX IL=-93 */ 14, /* EGSM_MAX IL=-94 */ 17, /* EGSM_MAX IL=-95 */ 17, /* EGSM_MAX IL=-96 */ 20, /* EGSM_MAX IL=-97 */ 20, /* EGSM_MAX IL=-98 */ 20, /* EGSM_MAX IL=-99 */ 20, /* EGSM_MAX IL=-100 */ 23, /* EGSM_MAX IL=-101 */ 23, /* EGSM_MAX IL=-102 */ 23, /* EGSM_MAX IL=-103 */ 23, /* EGSM_MAX IL=-104 */ 23, /* EGSM_MAX IL=-105 */ 23, /* EGSM_MAX IL=-106 */ 23, /* EGSM_MAX IL=-107 */ 23, /* EGSM_MAX IL=-108 */ 23, /* EGSM_MAX IL=-109 */ 23, /* EGSM_MAX IL=-110 */ 23, /* EGSM_MAX IL=-111 */ 23, /* EGSM_MAX IL=-112 */ 23, /* EGSM_MAX IL=-113 */ 23, /* EGSM_MAX IL=-114 */ 23, /* EGSM_MAX IL=-115 */ 23, /* EGSM_MAX IL=-116 */ 23, /* EGSM_MAX IL=-117 */ 23, /* EGSM_MAX IL=-118 */ 23, /* EGSM_MAX IL=-119 */ 23 /* EGSM_MAX IL=-120 */ }, { // il2agc_max // Note this is shared between PCN and EGSM. 0, /* EGSM_MAX IL=0 */ 0, /* EGSM_MAX IL=-1 */ 0, /* EGSM_MAX IL=-2 */ 0, /* EGSM_MAX IL=-3 */ 0, /* EGSM_MAX IL=-4 */ 0, /* EGSM_MAX IL=-5 */ 0, /* EGSM_MAX IL=-6 */ 0, /* EGSM_MAX IL=-7 */ 0, /* EGSM_MAX IL=-8 */ 0, /* EGSM_MAX IL=-9 */ 0, /* EGSM_MAX IL=-10 */ 0, /* EGSM_MAX IL=-11 */ 0, /* EGSM_MAX IL=-12 */ 0, /* EGSM_MAX IL=-13 */ 0, /* EGSM_MAX IL=-14 */ 0, /* EGSM_MAX IL=-15 */ 0, /* EGSM_MAX IL=-16 */ 0, /* EGSM_MAX IL=-17 */ 0, /* EGSM_MAX IL=-18 */ 0, /* EGSM_MAX IL=-19 */ 0, /* EGSM_MAX IL=-20 */ 0, /* EGSM_MAX IL=-21 */ 0, /* EGSM_MAX IL=-22 */ 0, /* EGSM_MAX IL=-23 */ 0, /* EGSM_MAX IL=-24 */ 0, /* EGSM_MAX IL=-25 */ 0, /* EGSM_MAX IL=-26 */ 0, /* EGSM_MAX IL=-27 */ 0, /* EGSM_MAX IL=-28 */ 0, /* EGSM_MAX IL=-29 */ 0, /* EGSM_MAX IL=-30 */ 0, /* EGSM_MAX IL=-31 */ 0, /* EGSM_MAX IL=-32 */ 0, /* EGSM_MAX IL=-33 */ 0, /* EGSM_MAX IL=-34 */ 0, /* EGSM_MAX IL=-35 */ 0, /* EGSM_MAX IL=-36 */ 0, /* EGSM_MAX IL=-37 */ 0, /* EGSM_MAX IL=-38 */ 0, /* EGSM_MAX IL=-39 */ 0, /* EGSM_MAX IL=-40 */ 0, /* EGSM_MAX IL=-41 */ 0, /* EGSM_MAX IL=-42 */ 5, /* EGSM_MAX IL=-43 */ 5, /* EGSM_MAX IL=-44 */ 0, /* EGSM_MAX IL=-45 */ 0, /* EGSM_MAX IL=-46 */ 0, /* EGSM_MAX IL=-47 */ 0, /* EGSM_MAX IL=-48 */ 0, /* EGSM_MAX IL=-49 */ 0, /* EGSM_MAX IL=-50 */ 0, /* EGSM_MAX IL=-51 */ 0, /* EGSM_MAX IL=-52 */ 0, /* EGSM_MAX IL=-53 */ 0, /* EGSM_MAX IL=-54 */ 0, /* EGSM_MAX IL=-55 */ 0, /* EGSM_MAX IL=-56 */ 0, /* EGSM_MAX IL=-57 */ 0, /* EGSM_MAX IL=-58 */ 0, /* EGSM_MAX IL=-59 */ 0, /* EGSM_MAX IL=-60 */ 0, /* EGSM_MAX IL=-61 */ 0, /* EGSM_MAX IL=-62 */ 0, /* EGSM_MAX IL=-63 */ 0, /* EGSM_MAX IL=-64 */ 0, /* EGSM_MAX IL=-65 */ 0, /* EGSM_MAX IL=-66 */ 0, /* EGSM_MAX IL=-67 */ 0, /* EGSM_MAX IL=-68 */ 0, /* EGSM_MAX IL=-69 */ 0, /* EGSM_MAX IL=-70 */ 0, /* EGSM_MAX IL=-71 */ 0, /* EGSM_MAX IL=-72 */ 0, /* EGSM_MAX IL=-73 */ 0, /* EGSM_MAX IL=-74 */ 5, /* EGSM_MAX IL=-75 */ 5, /* EGSM_MAX IL=-76 */ 8, /* EGSM_MAX IL=-77 */ 8, /* EGSM_MAX IL=-78 */ 11, /* EGSM_MAX IL=-79 */ 11, /* EGSM_MAX IL=-80 */ 11, /* EGSM_MAX IL=-81 */ 11, /* EGSM_MAX IL=-82 */ 11, /* EGSM_MAX IL=-83 */ 11, /* EGSM_MAX IL=-84 */ 14, /* EGSM_MAX IL=-85 */ 14, /* EGSM_MAX IL=-86 */ 14, /* EGSM_MAX IL=-87 */ 14, /* EGSM_MAX IL=-88 */ 14, /* EGSM_MAX IL=-89 */ 14, /* EGSM_MAX IL=-90 */ 14, /* EGSM_MAX IL=-91 */ 14, /* EGSM_MAX IL=-92 */ 14, /* EGSM_MAX IL=-93 */ 14, /* EGSM_MAX IL=-94 */ 17, /* EGSM_MAX IL=-95 */ 17, /* EGSM_MAX IL=-96 */ 20, /* EGSM_MAX IL=-97 */ 20, /* EGSM_MAX IL=-98 */ 20, /* EGSM_MAX IL=-99 */ 20, /* EGSM_MAX IL=-100 */ 23, /* EGSM_MAX IL=-101 */ 23, /* EGSM_MAX IL=-102 */ 23, /* EGSM_MAX IL=-103 */ 23, /* EGSM_MAX IL=-104 */ 23, /* EGSM_MAX IL=-105 */ 23, /* EGSM_MAX IL=-106 */ 23, /* EGSM_MAX IL=-107 */ 23, /* EGSM_MAX IL=-108 */ 23, /* EGSM_MAX IL=-109 */ 23, /* EGSM_MAX IL=-110 */ 23, /* EGSM_MAX IL=-111 */ 23, /* EGSM_MAX IL=-112 */ 23, /* EGSM_MAX IL=-113 */ 23, /* EGSM_MAX IL=-114 */ 23, /* EGSM_MAX IL=-115 */ 23, /* EGSM_MAX IL=-116 */ 23, /* EGSM_MAX IL=-117 */ 23, /* EGSM_MAX IL=-118 */ 23, /* EGSM_MAX IL=-119 */ 23 /* EGSM_MAX IL=-120 */ }, { // il2agc_av // Note this is shared between PCN and EGSM. 0, /* EGSM_MAX IL=0 */ 0, /* EGSM_MAX IL=-1 */ 0, /* EGSM_MAX IL=-2 */ 0, /* EGSM_MAX IL=-3 */ 0, /* EGSM_MAX IL=-4 */ 0, /* EGSM_MAX IL=-5 */ 0, /* EGSM_MAX IL=-6 */ 0, /* EGSM_MAX IL=-7 */ 0, /* EGSM_MAX IL=-8 */ 0, /* EGSM_MAX IL=-9 */ 0, /* EGSM_MAX IL=-10 */ 0, /* EGSM_MAX IL=-11 */ 0, /* EGSM_MAX IL=-12 */ 0, /* EGSM_MAX IL=-13 */ 0, /* EGSM_MAX IL=-14 */ 0, /* EGSM_MAX IL=-15 */ 0, /* EGSM_MAX IL=-16 */ 0, /* EGSM_MAX IL=-17 */ 0, /* EGSM_MAX IL=-18 */ 0, /* EGSM_MAX IL=-19 */ 0, /* EGSM_MAX IL=-20 */ 0, /* EGSM_MAX IL=-21 */ 0, /* EGSM_MAX IL=-22 */ 0, /* EGSM_MAX IL=-23 */ 0, /* EGSM_MAX IL=-24 */ 0, /* EGSM_MAX IL=-25 */ 0, /* EGSM_MAX IL=-26 */ 0, /* EGSM_MAX IL=-27 */ 0, /* EGSM_MAX IL=-28 */ 0, /* EGSM_MAX IL=-29 */ 0, /* EGSM_MAX IL=-30 */ 0, /* EGSM_MAX IL=-31 */ 0, /* EGSM_MAX IL=-32 */ 0, /* EGSM_MAX IL=-33 */ 0, /* EGSM_MAX IL=-34 */ 0, /* EGSM_MAX IL=-35 */ 0, /* EGSM_MAX IL=-36 */ 0, /* EGSM_MAX IL=-37 */ 0, /* EGSM_MAX IL=-38 */ 0, /* EGSM_MAX IL=-39 */ 0, /* EGSM_MAX IL=-40 */ 0, /* EGSM_MAX IL=-41 */ 0, /* EGSM_MAX IL=-42 */ 5, /* EGSM_MAX IL=-43 */ 5, /* EGSM_MAX IL=-44 */ 0, /* EGSM_MAX IL=-45 */ 0, /* EGSM_MAX IL=-46 */ 0, /* EGSM_MAX IL=-47 */ 0, /* EGSM_MAX IL=-48 */ 0, /* EGSM_MAX IL=-49 */ 0, /* EGSM_MAX IL=-50 */ 0, /* EGSM_MAX IL=-51 */ 0, /* EGSM_MAX IL=-52 */ 0, /* EGSM_MAX IL=-53 */ 0, /* EGSM_MAX IL=-54 */ 0, /* EGSM_MAX IL=-55 */ 0, /* EGSM_MAX IL=-56 */ 0, /* EGSM_MAX IL=-57 */ 0, /* EGSM_MAX IL=-58 */ 0, /* EGSM_MAX IL=-59 */ 0, /* EGSM_MAX IL=-60 */ 0, /* EGSM_MAX IL=-61 */ 0, /* EGSM_MAX IL=-62 */ 0, /* EGSM_MAX IL=-63 */ 0, /* EGSM_MAX IL=-64 */ 0, /* EGSM_MAX IL=-65 */ 0, /* EGSM_MAX IL=-66 */ 0, /* EGSM_MAX IL=-67 */ 0, /* EGSM_MAX IL=-68 */ 0, /* EGSM_MAX IL=-69 */ 0, /* EGSM_MAX IL=-70 */ 0, /* EGSM_MAX IL=-71 */ 0, /* EGSM_MAX IL=-72 */ 0, /* EGSM_MAX IL=-73 */ 0, /* EGSM_MAX IL=-74 */ 5, /* EGSM_MAX IL=-75 */ 5, /* EGSM_MAX IL=-76 */ 8, /* EGSM_MAX IL=-77 */ 8, /* EGSM_MAX IL=-78 */ 11, /* EGSM_MAX IL=-79 */ 11, /* EGSM_MAX IL=-80 */ 11, /* EGSM_MAX IL=-81 */ 11, /* EGSM_MAX IL=-82 */ 11, /* EGSM_MAX IL=-83 */ 11, /* EGSM_MAX IL=-84 */ 14, /* EGSM_MAX IL=-85 */ 14, /* EGSM_MAX IL=-86 */ 14, /* EGSM_MAX IL=-87 */ 14, /* EGSM_MAX IL=-88 */ 14, /* EGSM_MAX IL=-89 */ 14, /* EGSM_MAX IL=-90 */ 14, /* EGSM_MAX IL=-91 */ 14, /* EGSM_MAX IL=-92 */ 14, /* EGSM_MAX IL=-93 */ 14, /* EGSM_MAX IL=-94 */ 17, /* EGSM_MAX IL=-95 */ 17, /* EGSM_MAX IL=-96 */ 20, /* EGSM_MAX IL=-97 */ 20, /* EGSM_MAX IL=-98 */ 20, /* EGSM_MAX IL=-99 */ 20, /* EGSM_MAX IL=-100 */ 23, /* EGSM_MAX IL=-101 */ 23, /* EGSM_MAX IL=-102 */ 23, /* EGSM_MAX IL=-103 */ 23, /* EGSM_MAX IL=-104 */ 23, /* EGSM_MAX IL=-105 */ 23, /* EGSM_MAX IL=-106 */ 23, /* EGSM_MAX IL=-107 */ 23, /* EGSM_MAX IL=-108 */ 23, /* EGSM_MAX IL=-109 */ 23, /* EGSM_MAX IL=-110 */ 23, /* EGSM_MAX IL=-111 */ 23, /* EGSM_MAX IL=-112 */ 23, /* EGSM_MAX IL=-113 */ 23, /* EGSM_MAX IL=-114 */ 23, /* EGSM_MAX IL=-115 */ 23, /* EGSM_MAX IL=-116 */ 23, /* EGSM_MAX IL=-117 */ 23, /* EGSM_MAX IL=-118 */ 23, /* EGSM_MAX IL=-119 */ 23 /* EGSM_MAX IL=-120 */ } }, }, { {0, 0}, // ramp up and down delays GUARD_BITS, // number of guard bits needed for ramp up PRG_TX // propagation delay PRG_TX }, { //AFC parameters EEPROM_AFC, C_Psi_sta_inv, // (1/C_Psi_sta) C_Psi_st, // C_Psi_sta * 0.8 F0.16 C_Psi_st_32, // F0.32 C_Psi_st_inv // (1/C_Psi_st) #if (VCXO_ALGO==1) ,C_AFC_DAC_CENTER, // VCXO startup parameter - best guess C_AFC_DAC_MIN, // VCXO startup parameter - 15ppm C_AFC_DAC_MAX, // VCXO startup parameter + 15ppm C_AFC_SNR_THR // snr - Default threshold value #endif } }; #if (L1_FF_MULTIBAND == 0) T_RF_BAND rf_band[GSM_BANDS]; //uninitialised rf struct for bands #else T_RF_BAND rf_band[RF_NB_SUPPORTED_BANDS]; #endif const T_RF_BAND rf_900 = { { //RX structure //T_RX_CAL_PARAMS rx_cal_params { 229, //g_magic 54, //lna_gain_max * 2 40, //lna_th_high 44 //lna_th_low }, { //T_RF_AGC_BAND agc_bands[RF_RX_CAL_CHAN_SIZE]; // Remark: ARFCN=0 (GSM-E) is maintained by 1st GSM subbband. // upper_bound, agc_calib { 10, 0}, // sub-band1 up to arfcn = 10, Agc calibration = 0db { 30, 0}, // sub-band2 up to arfcn = 30, Agc calibration = 0db { 51, 0}, // sub-band3 up to arfcn = 51, Agc calibration = 0db { 71, 0}, // etc. { 90, 0}, // { 112, 0}, // { 124, 0}, // { 991, 0}, // { 992, 0}, // {1023, 0}, // }, { //RX temperature compensation { -15 , 0 }, { -5 , 0 }, { 6 , 0 }, { 16 , 0 }, { 25 , 0 }, { 35 , 0 }, { 45 , 0 }, { 56 , 0 }, { 66 , 0 }, { 75 , 0 }, { 100 , 0 } } }, { //TX structure {// gsm900 T_LEVEL_TX {457, 0, 0}, // 0 {457, 0, 0}, // 1 {457, 0, 0}, // 2 {457, 0, 0}, // 3 {457, 0, 0}, // 4 {457, 0, 0}, // 5 Highest power {400, 1, 0}, // 6 {325, 2, 0}, // 7 {270, 3, 0}, // 8 {220, 4, 0}, // 9 {180, 5, 0}, // 10 {155, 6, 0}, // 11 {130, 7, 0}, // 12 {110, 8, 0}, // 13 { 95, 9, 0}, // 14 { 80, 10, 0}, // 15 { 70, 11, 0}, // 16 { 62, 12, 0}, // 17 { 55, 13, 0}, // 18 { 50, 14, 0}, // 19 Lowest power { 50, 14, 0}, // 20 { 50, 14, 0}, // 21 { 50, 14, 0}, // 22 { 50, 14, 0}, // 23 { 50, 14, 0}, // 24 { 50, 14, 0}, // 25 { 50, 14, 0}, // 26 { 50, 14, 0}, // 27 { 50, 14, 0}, // 28 { 50, 14, 0}, // 29 { 50, 14, 0}, // 30 { 50, 14, 0}, // 31 }, #if(REL99 && FF_PRF)// needs proper values from RF {// gsm900 levels_power_reduction {457, 0, 0}, // for uplink 1 timeslot = no power reduction ie 0,0 dB {457, 0, 0}, // for 2 uplink timeslot = reduction between 0,0 dB to 3,0 dB {457, 0, 0}, // for 3 uplink timeslot = reduction between 1,8 dB to 4,8 dB {457, 0, 0}, // for 4 uplink timselot = reduction between 3,0 dB to 6,0 dB }, #endif {// Channel Calibration Tables {// arfcn, tx_chan_cal { 20, 128 }, // Calibration Table 0 { 100, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } }, {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 1 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } }, {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 2 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } }, {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 3 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } } }, { // GSM Power Ramp Values { {// Ramp-Up #0 profile - Power Level 5 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #0 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #1 profile - Power Level 6 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #1 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #2 profile - Power Level 7 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #2 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #3 profile - Power Level 8 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #3 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #4 profile - Power Level 9 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #4 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #5 profile - Power Level 10 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #5 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #6 profile - Power Level 11 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #6 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #7 profile - Power Level 12 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #7 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #8 profile - Power Level 13 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #8 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #9 profile - Power Level 14 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #9 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #10 profile - Power Level 15 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #10 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #11 profile - Power Level 16 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #11 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #12 profile - Power Level 17 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #12 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #13 profile - Power Level 18 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #13 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #14 profile - Power Level 19 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #14 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #15 profile - Power Level 19 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #15 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, }, { //TX temperature compensation #if (ORDER2_TX_TEMP_CAL==1) { -11, 0, 0, 0 }, { +9, 0, 0, 0 }, { +39, 0, 0, 0 }, { +59, 0, 0, 0 }, { 127, 0, 0, 0 } #else { -11, 0 }, { +9, 0 }, { +39, 0 }, { +59, 0 }, { 127, 0 } #endif }, }, //IQ swap SWAP_IQ_GSM, }; const T_RF_BAND rf_1800 = { { //RX structure { //T_RX_CAL_PARAMS rx_cal_params 229, //g_magic 54, //lna gain * 2 40, //lna_th_high 44 //lna_th_low }, { //T_RF_AGC_BAND agc_bands[RF_RX_CAL_CHAN_SIZE]; /*--------------*/ /*-- DCS band --*/ /*--------------*/ { 548, 0}, // { 622, 0}, // { 680, 0}, // { 745, 0}, // { 812, 0}, // { 860, 0}, // { 885, 0}, // { 991, 0}, // { 992, 0}, // {1023, 0}, // }, { //RX temperature compensation { -15 , 0 }, { -5 , 0 }, { 6 , 0 }, { 16 , 0 }, { 25 , 0 }, { 35 , 0 }, { 45 , 0 }, { 56 , 0 }, { 66 , 0 }, { 75 , 0 }, { 100 , 0 } } }, { //TX structure {// dcs1800 T_LEVEL_TX {424, 0, 0}, // 0 Highest power {375, 1, 0}, // 1 {310, 2, 0}, // 2 {255, 3, 0}, // 3 {210, 4, 0}, // 4 {180, 5, 0}, // 5 {152, 6, 0}, // 6 {130, 7, 0}, // 7 {112, 8, 0}, // 8 {98, 9, 0}, // 9 {85, 10, 0}, // 10 {75, 11, 0}, // 11 {66, 12, 0}, // 12 {58, 13, 0}, // 13 {52, 14, 0}, // 14 {47, 15, 0}, // 15 Lowest power {47, 15, 0}, // 16 {47, 15, 0}, // 17 {47, 15, 0}, // 18 {47, 15, 0}, // 19 {47, 15, 0}, // 20 {47, 15, 0}, // 21 {47, 15, 0}, // 22 {47, 15, 0}, // 23 {47, 15, 0}, // 24 {47, 15, 0}, // 25 {47, 15, 0}, // 26 {47, 15, 0}, // 27 {47, 15, 0}, // 28 {424, 0, 0}, // 29 Highest power {424, 0, 0}, // 30 Highest power {424, 0, 0}, // 31 Highest power }, #if(REL99 && FF_PRF)// needs proper values from RF {// 1800 levels_power_reduction {424, 0, 0}, // for uplink 1 timeslot = no power reduction ie 0,0 dB {424, 0, 0}, // for 2 uplink timeslot = reduction between 0,0 dB to 3,0 dB {424, 0, 0}, // for 3 uplink timeslot = reduction between 1,8 dB to 4,8 dB {424, 0, 0}, // for 4 uplink timselot = reduction between 3,0 dB to 6,0 dB }, #endif {// Channel Calibration Tables {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 0 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 851, 128 }, { 870, 128 }, { 885, 128 } }, { { 554, 128 }, // Calibration Table 1 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 851, 128 }, { 870, 128 }, { 885, 128 } }, {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 2 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 851, 128 }, { 870, 128 }, { 885, 128 } }, {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 3 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 851, 128 }, { 870, 128 }, { 885, 128 } } }, { // DCS Power Ramp Values { {// Ramp-Up #0 profile - Power Level 0 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #0 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #1 profile - Power Level 1 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #1 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #2 profile - Power Level 2 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #2 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #3 profile - Power Level 3 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #3 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #4 profile - Power Level 4 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #4 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #5 profile - Power Level 5 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #5 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #6 profile - Power Level 6 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #6 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #7 profile - Power Level 7 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #7 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #8 profile - Power Level 8 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #8 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #9 profile - Power Level 9 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #9 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #10 profile - Power Level 10 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #10 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #11 profile - Power Level 11 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #11 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #12 profile - Power Level 12 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #12 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #13 profile - Power Level 13 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #13 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #14 profile - Power Level 14 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #14 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #15 profile - Power Level 15 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #15 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, }, { //TX temperature compensation #if (ORDER2_TX_TEMP_CAL==1) { -11, 0, 0, 0 }, { +9, 0, 0, 0 }, { +39, 0, 0, 0 }, { +59, 0, 0, 0 }, { 127, 0, 0, 0 } #else { -11, 0 }, { +9, 0 }, { +39, 0 }, { +59, 0 }, { 127, 0 } #endif }, }, //IQ swap SWAP_IQ_DCS }; //copy from gsm900 const T_RF_BAND rf_850 = { { //RX structure //T_RX_CAL_PARAMS rx_cal_params { 229, //g_magic 54, //lna_gain_max * 2 40, //lna_th_high 44 //lna_th_low }, { //T_RF_AGC_BAND agc_bands[RF_RX_CAL_CHAN_SIZE]; // Remark: ARFCN=0 (GSM-E) is maintained by 1st GSM subbband. // upper_bound, agc_calib { 10, 0}, // sub-band1 up to arfcn = 10, Agc calibration = 0db { 30, 0}, // sub-band2 up to arfcn = 30, Agc calibration = 0db { 51, 0}, // sub-band3 up to arfcn = 51, Agc calibration = 0db { 71, 0}, // etc. { 90, 0}, // { 112, 0}, // { 124, 0}, // { 991, 0}, // { 992, 0}, // {1023, 0}, // }, { //RX temperature compensation { -15 , 0 }, { -5 , 0 }, { 6 , 0 }, { 16 , 0 }, { 25 , 0 }, { 35 , 0 }, { 45 , 0 }, { 56 , 0 }, { 66 , 0 }, { 75 , 0 }, { 100 , 0 } } }, { //TX structure {// gsm850 T_LEVEL_TX {486, 0, 0}, // 0 {486, 0, 0}, // 1 {486, 0, 0}, // 2 {486, 0, 0}, // 3 {486, 0, 0}, // 4 {486, 0, 0}, // 5 Highest power {400, 1, 0}, // 6 {330, 2, 0}, // 7 {270, 3, 0}, // 8 {223, 4, 0}, // 9 {186, 5, 0}, // 10 {158, 6, 0}, // 11 {133, 7, 0}, // 12 {114, 8, 0}, // 13 {97, 9, 0}, // 14 {84, 10, 0}, // 15 {73, 11, 0}, // 16 {64, 12, 0}, // 17 {57, 13, 0}, // 18 {52, 14, 0}, // 19 Lowest power {52, 14, 0}, // 20 {52, 14, 0}, // 21 {52, 14, 0}, // 22 {52, 14, 0}, // 23 {52, 14, 0}, // 24 {52, 14, 0}, // 25 {52, 14, 0}, // 26 {52, 14, 0}, // 27 {52, 14, 0}, // 28 {52, 14, 0}, // 29 {52, 14, 0}, // 30 {52, 14, 0}, // 31 }, #if(REL99 && FF_PRF)// needs proper values from RF {// gsm850 levels_power_reduction {486, 0, 0}, // for uplink 1 timeslot = no power reduction ie 0,0 dB {486, 0, 0}, // for 2 uplink timeslot = reduction between 0,0 dB to 3,0 dB {486, 0, 0}, // for 3 uplink timeslot = reduction between 1,8 dB to 4,8 dB {486, 0, 0}, // for 4 uplink timselot = reduction between 3,0 dB to 6,0 dB }, #endif {// Channel Calibration Tables {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 0 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } }, {// arfcn, tx_chan_cal { 554, 130 }, // Calibration Table 1 { 722, 128 }, { 746, 129 }, { 774, 131 }, { 808, 132 }, { 851, 134 }, { 870, 138 }, { 885, 140 } }, {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 2 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } }, {// arfcn, tx_chan_cal { 40, 128 }, // Calibration Table 3 { 80, 128 }, { 124, 128 }, { 586, 128 }, { 661, 128 }, { 736, 128 }, { 885, 128 }, { 1023, 128 } } }, { // gsm850 Power Ramp Values { {// Ramp-Up #0 profile - Power Level 5 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #0 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #1 profile - Power Level 6 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #1 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #2 profile - Power Level 7 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #2 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #3 profile - Power Level 8 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #3 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #4 profile - Power Level 9 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #4 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #5 profile - Power Level 10 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #5 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #6 profile - Power Level 11 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #6 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #7 profile - Power Level 12 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #7 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #8 profile - Power Level 13 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #8 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #9 profile - Power Level 14 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #9 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #10 profile - Power Level 15 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #10 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #11 profile - Power Level 16 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #11 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #12 profile - Power Level 17 0,0,0,0,0,0,10,14,17,25, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #12 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #13 profile - Power Level 18 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #13 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #14 profile - Power Level 19 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #14 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #15 profile - Power Level 19 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #15 profile 255,251,238,218,191,160,127,95,64,37, 17,4,0,0,0,0,0,0,0,0 }, }, }, { //TX temperature compensation #if (ORDER2_TX_TEMP_CAL==1) { -11, 0, 0, 0 }, { +9, 0, 0, 0 }, { +39, 0, 0, 0 }, { +59, 0, 0, 0 }, { 127, 0, 0, 0 } #else { -11, 0 }, { +9, 0 }, { +39, 0 }, { +59, 0 }, { 127, 0 } #endif }, }, //IQ swap SWAP_IQ_GSM850, }; //copy from dcs1800 const T_RF_BAND rf_1900 = { { //RX structure { //T_RX_CAL_PARAMS rx_cal_params 229, //g_magic 54, //lna gain * 2 40, //lna_th_high 44 //lna_th_low }, { //T_RF_AGC_BAND agc_bands[RF_RX_CAL_CHAN_SIZE]; /*--------------*/ /*-- PCS band --*/ /*--------------*/ { 548, 0}, // { 622, 0}, // { 680, 0}, // { 745, 0}, // { 812, 0}, // { 860, 0}, // { 885, 0}, // { 991, 0}, // { 992, 0}, // {1023, 0}, // }, { //RX temperature compensation { -15 , 0 }, { -5 , 0 }, { 6 , 0 }, { 16 , 0 }, { 25 , 0 }, { 35 , 0 }, { 45 , 0 }, { 56 , 0 }, { 66 , 0 }, { 75 , 0 }, { 100 , 0 } } }, { //TX structure {// pcs1900 T_LEVEL_TX {438, 0, 0}, // 0 Highest power {380, 1, 0}, // 1 {310, 2, 0}, // 2 {255, 3, 0}, // 3 {213, 4, 0}, // 4 {180, 5, 0}, // 5 {152, 6, 0}, // 6 {130, 7, 0}, // 7 {112, 8, 0}, // 8 {98, 9, 0}, // 9 {87, 10, 0}, // 10 {77, 11, 0}, // 11 {68, 12, 0}, // 12 {60, 13, 0}, // 13 {53, 14, 0}, // 14 {48, 15, 0}, // 15 Lowest power {48, 15, 0}, // 16 {48, 15, 0}, // 17 {48, 15, 0}, // 18 {48, 15, 0}, // 19 {48, 15, 0}, // 20 {48, 15, 0}, // 21 {48, 15, 0}, // 22 {48, 15, 0}, // 23 {48, 15, 0}, // 24 {48, 15, 0}, // 25 {48, 15, 0}, // 26 {48, 15, 0}, // 27 {48, 15, 0}, // 28 {438, 0, 0}, // 29 Highest power {438, 0, 0}, // 30 Highest power {438, 0, 0}, // 31 Highest power }, #if(REL99 && FF_PRF)// needs proper values from RF {// PCS1900 band levels_power_reduction {438, 0, 0}, // for uplink 1 timeslot = no power reduction ie 0,0 dB {438, 0, 0}, // for 2 uplink timeslot = reduction between 0,0 dB to 3,0 dB {438, 0, 0}, // for 3 uplink timeslot = reduction between 1,8 dB to 4,8 dB {438, 0, 0}, // for 4 uplink timselot = reduction between 3,0 dB to 6,0 dB }, #endif {// Channel Calibration Tables {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 0 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 810, 128 }, { 810, 128 }, { 810, 128 } }, { { 554, 128 }, // Calibration Table 1 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 810, 128 }, { 810, 128 }, { 810, 128 } }, {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 2 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 810, 128 }, { 810, 128 }, { 810, 128 } }, {// arfcn, tx_chan_cal { 554, 128 }, // Calibration Table 3 { 722, 128 }, { 746, 128 }, { 774, 128 }, { 808, 128 }, { 810, 128 }, { 810, 128 }, { 810, 128 } } }, { // PCS Power Ramp Values { {// Ramp-Up #0 profile - Power Level 0 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #0 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #1 profile - Power Level 1 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #1 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #2 profile - Power Level 2 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #2 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #3 profile - Power Level 3 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #3 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #4 profile - Power Level 4 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #4 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #5 profile - Power Level 5 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #5 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #6 profile - Power Level 6 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #6 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #7 profile - Power Level 7 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #7 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #8 profile - Power Level 8 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #8 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #9 profile - Power Level 9 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #9 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #10 profile - Power Level 10 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #10 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #11 profile - Power Level 11 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #11 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #12 profile - Power Level 12 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #12 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #13 profile - Power Level 13 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #13 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #14 profile - Power Level 14 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #14 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, { {// Ramp-Up #15 profile - Power Level 15 0,0,0,0,0,0,10,14,21,29, 37,64,95,127,160,191,218,238,251,255 }, {// Ramp-Down #15 profile 255,240,228,220,185,160,127,95,64,37, 17,14,0,0,0,0,0,0,0,0 }, }, }, { //TX temperature compensation #if (ORDER2_TX_TEMP_CAL==1) { -11, 0, 0, 0 }, { +9, 0, 0, 0 }, { +39, 0, 0, 0 }, { +59, 0, 0, 0 }, { 127, 0, 0, 0 } #else { -11, 0 }, { +9, 0 }, { +39, 0 }, { +59, 0 }, { 127, 0 } #endif }, }, //IQ swap SWAP_IQ_PCS }; UWORD16 drp_wrapper[DRP_WRAPPER_TABLE_SIZE]= { C_APCCTRL2, C_APCDEL1, C_APCDEL2 }; /*------------------------------------------*/ /* Gain table */ /* specified in the TRF6053 spec */ /* 2 dB steps - LNA always ON */ /*------------------------------------------*/ UWORD16 AGC_TABLE[AGC_TABLE_SIZE] = { ABE_0_DB, ABE_0_DB, ABE_2_DB, ABE_2_DB, ABE_2_DB, ABE_5_DB, ABE_5_DB, ABE_5_DB, ABE_8_DB, ABE_8_DB, ABE_8_DB, ABE_11_DB, ABE_11_DB, ABE_11_DB, ABE_14_DB, ABE_14_DB, ABE_14_DB, ABE_17_DB, ABE_17_DB, ABE_17_DB, ABE_20_DB, ABE_20_DB, ABE_20_DB, ABE_23_DB }; // structure for ADC conversion (4 Internal channel + 5 Ext channels max.) T_ADC adc; // MADC calibration structure T_ADCCAL adc_cal= { // a: 0,..,8 // b, 0,..,8 // cal_a = 4*1750 is the Typical value 1.75 V ref voltage , divide by 4 7000, 8750, 7000, 7000, 7000, 7000, 7000, 256, 7000, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; // table which converts ADC value into RF temperature const T_TEMP temperature[TEMP_TABLE_SIZE] = { 7, -35, 7, -34, 8, -33, 8, -32, 9, -31, 9, -30, 10, -29, 11, -28, 11, -27, 12, -26, 13, -25, 14, -24, 14, -23, 15, -22, 16, -21, 17, -20, 18, -19, 19, -18, 21, -17, 22, -16, 23, -15, 24, -14, 26, -13, 27, -12, 29, -11, 30, -10, 32, -9, 34, -8, 36, -7, 37, -6, 39, -5, 41, -4, 44, -3, 46, -2, 48, -1, 51, 0, 53, 1, 56, 2, 59, 3, 61, 4, 64, 5, 68, 6, 71, 7, 74, 8, 78, 9, 81, 10, 85, 11, 89, 12, 93, 13, 97, 14, 101, 15, 105, 16, 110, 17, 115, 18, 119, 19, 124, 20, 130, 21, 135, 22, 140, 23, 146, 24, 152, 25, 158, 26, 164, 27, 170, 28, 176, 29, 183, 30, 190, 31, 197, 32, 204, 33, 211, 34, 219, 35, 226, 36, 234, 37, 242, 38, 250, 39, 259, 40, 267, 41, 276, 42, 285, 43, 294, 44, 303, 45, 312, 46, 322, 47, 331, 48, 341, 49, 351, 50, 361, 51, 371, 52, 382, 53, 392, 54, 403, 55, 413, 56, 424, 57, 435, 58, 446, 59, 458, 60, 469, 61, 480, 62, 492, 63, 503, 64, 515, 65, 527, 66, 539, 67, 550, 68, 562, 69, 574, 70, 586, 71, 598, 72, 611, 73, 623, 74, 635, 75, 647, 76, 659, 77, 671, 78, 683, 79, 696, 80, 708, 81, 720, 82, 732, 83, 744, 84, 756, 85, 768, 86, 780, 87, 792, 88, 804, 89, 816, 90, 827, 91, 839, 92, 851, 93, 862, 94, 873, 95 }; /*------------------------------------------*/ /* ABB Initialization words */ /*------------------------------------------*/ #if (ANLG_FAM == 11) UWORD8 abb[ABB_TABLE_SIZE] = { C_VULGAIN, C_VDLGAIN, C_SIDETONE, C_CTRL1, C_CTRL2, C_CTRL3, C_CTRL4, C_CTRL5, C_CTRL6, C_POPAUTO, C_OUTEN1, C_OUTEN2, C_OUTEN3, C_AULGA, C_AURGA }; #endif #if (L1_FF_MULTIBAND == 0) #else /* The physical RF bands are enumerated in order of increasing frequencies */ /* The same order must be used in l1_rf61, l1_cust, and l1_const */ const T_MULTIBAND_RF multiband_rf[RF_NB_SUPPORTED_BANDS + 1] = { /*power_class, tx_turning_point, max_txpwr, gsm_band_identifier, name*/ #if (GSM900_SUPPORTED == 1) { 4, 0, 19, RF_GSM900, "900"}, #endif /* if(GSM900_SUPPORTED == 1)*/ #if (GSM850_SUPPORTED == 1) { 4, 0, 19, RF_GSM850, "850"}, #endif /*if (GSM850_SUPPORTED == 1)*/ #if (DCS1800_SUPPORTED == 1) { 1, 28, 15, RF_DCS1800, "1800"}, #endif /*if (DCS1800_SUPPORTED == 1)*/ #if (PCS1900_SUPPORTED == 1) {1, 21, 15, RF_PCS1900, "1900"}, #endif /*if (PCS1900_SUPPORTED == 1)*/ } ; /* Array for mapping from subband index into physical band index */ const WORD8 rf_subband2band[RF_NB_SUBBANDS] = { #if (GSM900_SUPPORTED == 1) RF_GSM900, RF_GSM900, #endif #if (GSM850_SUPPORTED == 1) RF_GSM850, #endif #if (DCS1800_SUPPORTED == 1) RF_DCS1800, #endif #if (PCS1900_SUPPORTED == 1) RF_PCS1900, #endif }; const T_MULTIBAND_CONVERT multiband_convert[RF_NB_SUBBANDS] = { /*first_rf_freq, last_rf_freq, first_l1_freq, l1freq2rffreq */ #if (GSM900_SUPPORTED == 1) { RF_FREQ_1ST_900L, RF_FREQ_1ST_900L+NB_CHAN_900L, L1_FREQ_1ST_900L, RF_FREQ_1ST_900L-L1_FREQ_1ST_900L}, { RF_FREQ_1ST_900H, RF_FREQ_1ST_900H+NB_CHAN_900H, L1_FREQ_1ST_900H, RF_FREQ_1ST_900H-L1_FREQ_1ST_900H}, #endif #if (GSM850_SUPPORTED == 1) { RF_FREQ_1ST_850, RF_FREQ_1ST_850+NB_CHAN_850, L1_FREQ_1ST_850, RF_FREQ_1ST_850-L1_FREQ_1ST_850}, #endif #if (DCS1800_SUPPORTED == 1) { RF_FREQ_1ST_1800, RF_FREQ_1ST_1800+NB_CHAN_1800, L1_FREQ_1ST_1800, RF_FREQ_1ST_1800-L1_FREQ_1ST_1800}, #endif #if (PCS1900_SUPPORTED == 1) { RF_FREQ_1ST_1900, RF_FREQ_1ST_1900+NB_CHAN_1900, L1_FREQ_1ST_1900, RF_FREQ_1ST_1900-L1_FREQ_1ST_1900}, #endif }; /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_l1subband */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : The l1 subband index l1freq belongs to */ /* */ /* Functionality : compare l1freq with the band ranges, */ /* return the l1 band index where match is found */ /*-------------------------------------------------------*/ UWORD8 rf_convert_l1freq_to_l1subband(UWORD16 l1_freq) { WORD32 subband_idx; for(subband_idx = RF_NB_SUBBANDS -1; subband_idx>=0; subband_idx--) { if(l1_freq >= multiband_convert[subband_idx].first_l1_freq) return ((UWORD8)subband_idx); } l1_multiband_error_handler(l1_freq); return 0; } /*-------------------------------------------------------*/ /* rf_convert_rffreq_to_l1subband */ /*-------------------------------------------------------*/ /* Parameters : rffreq, the physical rf freq channel */ /* number to convert */ /* */ /* Return : The l1 subband index rf_freq belongs to */ /* */ /* Functionality : compare rf_freq with the band ranges, */ /* return the l1 band index where match is found */ /*-------------------------------------------------------*/ UWORD8 rf_convert_rffreq_to_l1subband(UWORD16 rf_freq) { WORD32 subband_idx; for(subband_idx = RF_NB_SUBBANDS -1; subband_idx>=0; subband_idx--) { if((rf_freq >= multiband_convert[subband_idx].first_rf_freq)&& (rf_freq < multiband_convert[subband_idx].last_rf_freq)) return ((UWORD8)subband_idx); } l1_multiband_error_handler(rf_freq); return 0; } /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_band_idx */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : The physical index of the band of l1freq */ /* */ /* Functionality : compare l1freq with the band ranges, */ /* return the rf_band_index of the l1_band_index */ /* where match is found */ /*-------------------------------------------------------*/ WORD8 rf_convert_l1freq_to_rf_band_idx(UWORD16 l1_freq) { return rf_subband2band[rf_convert_l1freq_to_l1subband(l1_freq)]; } /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_rffreq */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : ARFCN, absolute radio frequency channel */ /* number and in *bandidx the band index */ /* Functionality : identify band index and look up ARFCN */ /*-------------------------------------------------------*/ UWORD16 rf_convert_l1freq_to_rffreq(UWORD16 l1_freq ) { WORD32 subband_idx = rf_convert_l1freq_to_l1subband(l1_freq); return(l1_freq+multiband_convert[subband_idx].l1freq2rffreq); } /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_arfcn_and_bandidx */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : ARFCN, absolute radio frequency channel */ /* number and in *bandidx the RF band index */ /* Functionality : identify band index and look up ARFCN */ /*-------------------------------------------------------*/ /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_rffreq_and_bandidx */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : ARFCN, absolute radio frequency channel */ /* number and in *bandidx the band index */ /* Functionality : identify band index and look up ARFCN */ /*-------------------------------------------------------*/ UWORD16 rf_convert_l1freq_to_rffreq_rfband(UWORD16 l1_freq, WORD8 *rf_band_index) { WORD32 subband_idx = rf_convert_l1freq_to_l1subband(l1_freq); *rf_band_index = rf_subband2band[subband_idx]; return(l1_freq+multiband_convert[subband_idx].l1freq2rffreq); } /*-------------------------------------------------------*/ /* rf_convert_l1freq_to_arfcn_and_bandidx */ /*-------------------------------------------------------*/ /* Parameters : l1freq, the l1 radio_freq to convert */ /* */ /* Return : ARFCN, absolute radio frequency channel */ /* number and in *bandidx the RF band index */ /* Functionality : identify band index and look up ARFCN */ /*-------------------------------------------------------*/ UWORD16 rf_convert_l1freq_to_arfcn_rfband(UWORD16 l1_freq, WORD8 *rf_band_index) { WORD32 subband_idx = rf_convert_l1freq_to_l1subband(l1_freq); *rf_band_index = rf_subband2band[subband_idx]; #if (PCS1900_SUPPORTED) if(RF_PCS1900 == rf_subband2band[subband_idx]) return(l1_freq+multiband_convert[subband_idx].l1freq2rffreq-512); else #endif return(l1_freq+multiband_convert[subband_idx].l1freq2rffreq); } UWORD16 rf_convert_rffreq_to_l1freq(UWORD16 rf_freq) { WORD32 subband_idx = rf_convert_rffreq_to_l1subband(rf_freq); return(rf_freq - multiband_convert[subband_idx].l1freq2rffreq); } /*-------------------------------------------------------*/ /* rf_convert_rffreq_to_l1freq_rfband */ /*-------------------------------------------------------*/ /* Parameters : rffreq, the physical rf channel number */ /* to convert */ /* */ /* Return : l1freq, l1 internal frequency number */ /* and in *bandidx the RF band index */ /* Functionality : identify band index and look up ARFCN */ /*-------------------------------------------------------*/ UWORD16 rf_convert_rffreq_to_l1freq_rfband(UWORD16 rf_freq, WORD8 *rf_band_index) { WORD32 subband_idx = rf_convert_rffreq_to_l1subband(rf_freq); *rf_band_index = (WORD8)subband_idx; return(rf_freq - multiband_convert[subband_idx].l1freq2rffreq); } #if(PCS1900_SUPPORTED) extern UWORD16 tm_std_band; #endif UWORD16 rf_convert_tmarfcn_to_l1freq(UWORD16 tm_arfcn, WORD8 *error_flag) { *error_flag = 0; #if(GSM900_SUPPORTED) if(NB_CHAN_900L> tm_arfcn) return (tm_arfcn + L1_FREQ_1ST_900L- RF_FREQ_1ST_900L); if((ARFCN_1ST_900H <= tm_arfcn)&&(ARFCN_1ST_900H + NB_CHAN_900H > tm_arfcn)) return (tm_arfcn + L1_FREQ_1ST_900H- RF_FREQ_1ST_900H); #endif #if(GSM850_SUPPORTED) if((ARFCN_1ST_850 <= tm_arfcn)||(ARFCN_1ST_850+NB_CHAN_850 > tm_arfcn)) return(tm_arfcn + L1_FREQ_1ST_850- RF_FREQ_1ST_850); #endif #if(PCS1900_SUPPORTED) if((RF_FREQ_1ST_1900<=tm_arfcn)&&((RF_FREQ_1ST_1900+NB_CHAN_1900)>tm_arfcn)) return (tm_arfcn + L1_FREQ_1ST_1900 - RF_FREQ_1ST_1900); /* PCS RF_FREQ format */ if(((3 == (tm_std_band & 0xff))||(8==(tm_std_band & 0xff))) && (ARFCN_1ST_1900 <= tm_arfcn) && (ARFCN_1ST_1900+NB_CHAN_1900 > tm_arfcn)) return(tm_arfcn+L1_FREQ_1ST_1900-ARFCN_1ST_1900); /* PCS Legacy compatible*/ if((1000+ARFCN_1ST_1900 <= tm_arfcn)&& (1000+ARFCN_1ST_1900+NB_CHAN_1900 >= tm_arfcn)) return(tm_arfcn+L1_FREQ_1ST_1900-ARFCN_1ST_1900-1000); /*ARFCN+1000 format*/ #endif #if(DCS1800_SUPPORTED) if((ARFCN_1ST_1800 <= tm_arfcn)||(ARFCN_1ST_1800+NB_CHAN_1800 > tm_arfcn)) return(tm_arfcn + L1_FREQ_1ST_1800- RF_FREQ_1ST_1800); #endif *error_flag = 1; return (tm_arfcn); } #endif// if(L1_FF_MULTIBAND == 1)