FreeCalypso > hg > tcs211-l1-reconst
changeset 309:871cf4253768
l1p_ctl.c: initial import from LoCosto source
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 02 Oct 2017 20:08:51 +0000 |
| parents | c9e7acd56fe2 |
| children | cd2507a8ec57 |
| files | chipsetsw/layer1/p_cfile/l1p_ctl.c |
| diffstat | 1 files changed, 1694 insertions(+), 1 deletions(-) [+] |
line wrap: on
line diff
--- a/chipsetsw/layer1/p_cfile/l1p_ctl.c Mon Oct 02 20:06:02 2017 +0000 +++ b/chipsetsw/layer1/p_cfile/l1p_ctl.c Mon Oct 02 20:08:51 2017 +0000 @@ -1,1 +1,1694 @@ -/* dummy C source file */ +/************* Revision Controle System Header ************* + * GSM Layer 1 software + * L1P_CTL.C + * + * Filename l1p_ctl.c + * Copyright 2003 (C) Texas Instruments + * + ************* Revision Controle System Header *************/ + +#include "l1_macro.h" +#include "l1_confg.h" + +#if L1_GPRS +#if (CODE_VERSION == SIMULATION) + #include <string.h> + #include "l1_types.h" + #include "sys_types.h" + #include "l1_const.h" + #include "l1_time.h" + #include "l1_signa.h" + #if TESTMODE + #include "l1tm_defty.h" + #endif + #if (AUDIO_TASK == 1) + #include "l1audio_const.h" + #include "l1audio_cust.h" + #include "l1audio_signa.h" + #include "l1audio_defty.h" + #include "l1audio_msgty.h" + #endif + #if (L1_GTT == 1) + #include "l1gtt_const.h" + #include "l1gtt_defty.h" + #endif + #if (L1_MP3 == 1) + #include "l1mp3_defty.h" + #endif + #if (L1_MIDI == 1) + #include "l1midi_defty.h" + #endif + #include "l1_defty.h" + #include "cust_os.h" + #include "l1_msgty.h" + #include "l1_varex.h" + #include "l1_proto.h" + #include "l1_mftab.h" + #include "l1_tabs.h" + #include "l1_ver.h" + + #include "l1_ctl.h" + + #include "l1p_cons.h" + #include "l1p_msgt.h" + #include "l1p_deft.h" + #include "l1p_vare.h" + #include "l1p_sign.h" +#if (OP_L1_STANDALONE == 1) + #ifdef _INLINE + #define INLINE static inline // Inline functions when -v option is set + #else // when the compiler is ivoked. + #define INLINE + #endif +#endif //0maps00090550 +#else + #include <string.h> + #include "l1_types.h" + #include "sys_types.h" + #include "l1_const.h" + #include "l1_time.h" + #include "l1_signa.h" + + #if (RF_FAM == 61) + #include "tpudrv61.h" + #endif + + #if TESTMODE + #include "l1tm_defty.h" + #endif + #if (AUDIO_TASK == 1) + #include "l1audio_const.h" + #include "l1audio_cust.h" + #include "l1audio_defty.h" + #endif + #if (L1_GTT == 1) + #include "l1gtt_const.h" + #include "l1gtt_defty.h" + #endif + #if (L1_MP3 == 1) + #include "l1mp3_defty.h" + #endif + #if (L1_MIDI == 1) + #include "l1midi_defty.h" + #endif + #include "l1_defty.h" + #include "cust_os.h" + #include "l1_msgty.h" + #include "l1_varex.h" + #include "l1_proto.h" + + #include "l1_ctl.h" + + #include "l1p_cons.h" + #include "l1p_msgt.h" + #include "l1p_deft.h" + #include "l1p_vare.h" + #include "l1p_sign.h" + #if (OP_L1_STANDALONE == 1) + #ifdef _INLINE + #define INLINE static inline // Inline functions when -v option is set + #else // when the compiler is ivoked. + #define INLINE + #endif +#endif //omaps00090550 +#endif + +#if(RF_FAM == 61) + #include "l1_rf61.h" +#endif + + +// Macro definition +//----------------- +#define min(value1,value2) \ + value1 < value2 ? value1 : value2 + +// External prototypes +//-------------------- + +WORD8 l1ctl_encode_delta1(UWORD16 radio_freq); + +/*********************************************************/ +/* GPRS AGC Algorithms */ +/*********************************************************/ + +/*-------------------------------------------------------*/ +/* l1pctl_pagc_ctrl() */ +/*-------------------------------------------------------*/ +/* Description: */ +/* =========== */ +/* Based on the same principle as the one used for PAGC */ +/* algorithm except that we also feed the beacon FIFO */ +/* with IL measured on other carriers (Pb parameter is */ +/* applied) */ +/* This function is used in the control phase of PCCCH, */ +/* serving PBCCH and PTCCH reading tasks to determine */ +/* which AGC and lna_off must apply */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/*-------------------------------------------------------*/ +void l1pctl_pagc_ctrl(WORD8 *agc, UWORD8 *lna_off, UWORD16 radio_freq, UWORD8 serving_cell) +{ + UWORD8 pb; + WORD16 input_level, new_calibrated_IL; + WORD32 freq_index; + UWORD16 beacon_frequency; + UWORD8 *lna_off_ptr; + UWORD8 curve_id; + + // We memorize the LNA state used for other serving frequencies that can be used + // in Packet idle mode + static UWORD8 lna_off_others = 0; + + if (serving_cell == TRUE) + { + beacon_frequency = l1a_l1s_com.Scell_info.radio_freq; + pb = l1a_l1s_com.Scell_info.pb; + lna_off_ptr = &lna_off_others; + curve_id = MAX_ID; + } + else + { + beacon_frequency = l1pa_l1ps_com.pbcchn.bcch_carrier; + pb = l1pa_l1ps_com.pbcchn.pb; + lna_off_ptr = lna_off; + curve_id = AV_ID; + } + +#if(L1_FF_MULTIBAND == 0) + freq_index = beacon_frequency - l1_config.std.radio_freq_index_offset; +#else + freq_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(beacon_frequency); +#endif + + + // If the downlink channel is decoded on the beacon frequency + if (radio_freq == beacon_frequency) + { + // Downlink task on the serving beacon: process AGC according to the "beacon IL" + input_level = l1a_l1s_com.last_input_level[freq_index].input_level; + + // lna_off already processed in the read phase + *lna_off = l1a_l1s_com.last_input_level[freq_index].lna_off; + } + + // If the downlink channel is decoded on a frequency other than the beacon + else + { + + // Process AGC according to "beacon IL + Pb" + input_level = (WORD16) (l1a_l1s_com.last_input_level[freq_index].input_level + pb); + + // IL_2_AGC_xx array size + if (input_level>INDEX_MAX) + input_level = INDEX_MAX; + + // lna_off must be processed in the control phase because input_level + // depends on last_input_level and Pb, and last_input_level or pb can have changed + // at any time + + // New calibrated IL to reach on radio freq other than beacon + new_calibrated_IL = (WORD16) (input_level - l1ctl_encode_delta1(radio_freq) + - l1ctl_encode_delta2(radio_freq)); + + // IL_2_AGC_xx array size + if (new_calibrated_IL>INDEX_MAX) + new_calibrated_IL = INDEX_MAX; + + // lna_off computing... + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), + lna_off_ptr, + radio_freq); + + *lna_off = *lna_off_ptr; + } // End if "radio_freq != beacon_frequency" + + // Process AGC to apply + *agc = Cust_get_agc_from_IL(radio_freq, + input_level >> 1, + curve_id, *lna_off); + + // Store lna_off and input_level field used for current CTRL in order to be able + // to build IL from pm in READ phase. + l1a_l1s_com.Scell_used_IL.input_level = (UWORD8)input_level; + l1a_l1s_com.Scell_used_IL.lna_off = *lna_off; + +} // End of "l1pctl_pagc_ctrl" + +/*-------------------------------------------------------*/ +/* l1pctl_pagc_read() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* Based on the same principle as the one used for PAGC */ +/* algorithm except that we also feed the beacon FIFO */ +/* with IL measured on other carriers (Pb parameter is */ +/* applied) */ +/* This function is used in the read phase of PCCCH and */ +/* serving PBCCH reading tasks to determine the IL value */ +/* store it in the FIFO and find the next IL to use */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/*-------------------------------------------------------*/ +UWORD8 l1pctl_pagc_read(UWORD8 pm, UWORD16 radio_freq) +{ + UWORD8 i, new_IL; + WORD8 delta1_freq, delta2_freq; + WORD16 delta_drp_gain=0; + UWORD16 lna_value; + WORD16 used_agc, current_IL, new_calibrated_IL, current_calibrated_IL; + WORD32 serving_index; + UWORD16 arfcn; + UWORD8 lna_off; + UWORD16 dco_algo_ctl_pw_temp = 0; + UWORD8 if_ctl = 0; + #if (CODE_VERSION != SIMULATION) + UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GPRS; +#endif + +#if (L1_FF_MULTIBAND == 0) + serving_index = l1a_l1s_com.Scell_info.radio_freq - l1_config.std.radio_freq_index_offset; + +#else + serving_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); +#endif /*if (L1_FF_MULTIBAND == 0)*/ + + + // Calibration factors + delta1_freq = l1ctl_encode_delta1(radio_freq); + delta2_freq = l1ctl_encode_delta2(radio_freq); + + // AGC used in the control phase (format F7.1) + used_agc = (Cust_get_agc_from_IL(radio_freq, l1a_l1s_com.Scell_used_IL_dd.input_level >> 1, MAX_ID, l1a_l1s_com.Scell_used_IL_dd.lna_off)) << 1; + + // LNA attenuation + lna_value = l1a_l1s_com.Scell_used_IL_dd.lna_off * l1ctl_get_lna_att(radio_freq); + + // DRP correction +#if (L1_FF_MULTIBAND == 0) + arfcn = Convert_l1_radio_freq(radio_freq); +#else + arfcn=radio_freq; +#endif + +#if(RF_FAM == 61) + #if (CODE_VERSION != SIMULATION) + + cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw_temp, &if_ctl, (UWORD8) L1_IL_VALID , + l1a_l1s_com.Scell_used_IL_dd.input_level, + radio_freq,if_threshold); + lna_off = l1a_l1s_com.Scell_used_IL_dd.lna_off; + delta_drp_gain = drp_gain_correction(arfcn, lna_off, used_agc); // F7.1 format + if(if_ctl == IF_100KHZ_DSP){ + delta_drp_gain += SCF_ATTENUATION_LIF_100KHZ; + } + else{ /* i.e. if_ctl = IF_120KHZ_DSP*/ + delta_drp_gain += SCF_ATTENUATION_LIF_120KHZ; + } + + #endif +#endif + + // current_IL processing + + if (0==pm) // Check and filter illegal pm value by using last valid IL + { + current_IL = l1a_l1s_com.last_input_level[serving_index].input_level; + } + else + { + current_IL = -(pm - (used_agc - delta_drp_gain) + lna_value - l1ctl_get_g_magic(radio_freq)); + + // IL normalization to beacon (ILnorm = IL - Pb) + if (radio_freq != l1a_l1s_com.Scell_info.radio_freq) + current_IL -= l1a_l1s_com.Scell_info.pb; + } + + // Calibrated IL processing + // NOTE: calibrated_IL is normalized to beacon. This is needed for the + // pccch_lev processing + current_calibrated_IL = (WORD16) (current_IL - delta1_freq - delta2_freq); + + // Protect IL stores against overflow + if (current_calibrated_IL>INDEX_MAX) + current_calibrated_IL=INDEX_MAX; + if (current_IL>INDEX_MAX) + current_IL=INDEX_MAX; + + // FIFO management + for (i=3;i>0;i--) + l1a_l1s_com.Scell_info.buff_beacon[i] = l1a_l1s_com.Scell_info.buff_beacon[i-1]; + l1a_l1s_com.Scell_info.buff_beacon[0] = (UWORD8)current_IL; + + // Find min IL in FIFO + new_IL = l1ctl_find_max(l1a_l1s_com.Scell_info.buff_beacon, 4); + + // Input levels are always stored with lna_on + new_calibrated_IL = (WORD16) (new_IL - delta1_freq - delta2_freq); + + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna( (UWORD8)(new_calibrated_IL>>1), + &(l1a_l1s_com.last_input_level[serving_index].lna_off), + radio_freq ); + + l1a_l1s_com.last_input_level[serving_index].input_level = new_IL; + return((UWORD8)current_calibrated_IL); +} // End of "l1pctl_pagc_read" + +/*-------------------------------------------------------*/ +/* l1pctl_transfer_agc_init() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* Packet transfer AGC algorithm initialization */ +/*-------------------------------------------------------*/ +void l1pctl_transfer_agc_init() +{ + WORD16 calibrated_IL; + UWORD16 radio_freq; + WORD32 serving_index; + WORD16 input_level; + +#if (L1_FF_MULTIBAND ==0) + serving_index = l1a_l1s_com.Scell_info.radio_freq - l1_config.std.radio_freq_index_offset; + +#else + serving_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); +#endif /*if L1_FF_MULTIBAND*/ + + + // Daughter frequencies input level initialization + //------------------------------------------------ + if (l1pa_l1ps_com.transfer.aset->dl_pwr_ctl.p0 == 255) + { + // No power control mode AGC algorithm + input_level = (WORD16) (l1a_l1s_com.last_input_level[serving_index].input_level + l1a_l1s_com.Scell_info.pb); + + // Set fn_select to current_fn + l1ps.fn_select = l1s.actual_time.fn; + // Initialize algorithm in "SEARCH" phase + l1ps.phase = SEARCH; + } + else + { + // Downlink power control AGC algorithms + if (l1pa_l1ps_com.transfer.aset->dl_pwr_ctl.bts_pwr_ctl_mode == 0) + { + // BTS Power control mode A + input_level = (WORD16) (l1a_l1s_com.last_input_level[serving_index].input_level + + l1pa_l1ps_com.transfer.aset->dl_pwr_ctl.p0 + 10); + + } + else + { + // BTS power control mode B + input_level = (WORD16) (l1a_l1s_com.last_input_level[serving_index].input_level + + l1pa_l1ps_com.transfer.aset->dl_pwr_ctl.p0); + + // Initialization: PR = P0 + l1ps.last_PR_good = l1pa_l1ps_com.transfer.aset->dl_pwr_ctl.p0; + } + } + + if (input_level>INDEX_MAX) input_level = INDEX_MAX; + l1a_l1s_com.Scell_info.transfer_meas.input_level = (UWORD8)input_level; + + + // Daughter frequencies lna_off processing + //---------------------------------------- + + // We need to know on which frequency band we work + if (!l1pa_l1ps_com.transfer.aset->freq_param.chan_sel.h) + { + // Single frequency + radio_freq = l1pa_l1ps_com.transfer.aset->freq_param.chan_sel.rf_channel.single_rf.radio_freq; + } + else + { + // Frequency hopping: all frequencies of the frequency list are on the same band + // We take the first frequency of the list + radio_freq = l1pa_l1ps_com.transfer.aset->freq_param.freq_list.rf_chan_no.A[0]; + } + + calibrated_IL = (WORD16) (l1a_l1s_com.Scell_info.transfer_meas.input_level + - l1ctl_encode_delta1(radio_freq) - l1ctl_encode_delta2(radio_freq) + - l1a_l1s_com.last_input_level[serving_index].lna_off * l1ctl_get_lna_att(radio_freq)); + + if (calibrated_IL>INDEX_MAX) calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(calibrated_IL>>1), &(l1a_l1s_com.Scell_info.transfer_meas.lna_off), radio_freq); + +} // End of "l1pctl_transfer_agc_init" + +/*-------------------------------------------------------*/ +/* l1pctl_transfer_agc_ctrl() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* This function is used in the control phase of PDTCH/D */ +/* to determine which AGC and lna_off must apply */ +/*-------------------------------------------------------*/ +void l1pctl_transfer_agc_ctrl(WORD8 *agc, UWORD8 *lna_off, UWORD16 radio_freq) +{ + T_INPUT_LEVEL *selected_IL; +#if(L1_FF_MULTIBAND == 1) + UWORD16 operative_radio_freq; +#endif + + + // input_level selection + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + { + // Beacon frequency input_level used for AGC processing +#if(L1_FF_MULTIBAND == 0) + selected_IL = &l1a_l1s_com.last_input_level[l1a_l1s_com.Scell_info.radio_freq + - l1_config.std.radio_freq_index_offset]; + +#else // L1_FF_MULTIBAND = 1 below + + operative_radio_freq = + l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); + selected_IL = &(l1a_l1s_com.last_input_level[operative_radio_freq]); + + +#endif // #if(L1_FF_MULTIBAND == 0) else + + } + else + { + // Daughter frequency input_level used for AGC processing + selected_IL = &l1a_l1s_com.Scell_info.transfer_meas; + } + *lna_off = selected_IL->lna_off; + *agc = Cust_get_agc_from_IL(radio_freq,selected_IL->input_level >> 1, MAX_ID, *lna_off); + + // Store lna_off and input_level field used for current CTRL in order to be able + // to build IL from pm in READ phase. + l1a_l1s_com.Scell_used_IL.input_level = selected_IL->input_level; + l1a_l1s_com.Scell_used_IL.lna_off = *lna_off; + +} + +/*-------------------------------------------------------*/ +/* l1pctl_npc_agc_read() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* AGC algorithm in packet transfer used when */ +/* NO POWER CONTROL is done by the BTS. */ +/* This function is used during the read phase of PDTCH: */ +/* 1- to determine the IL value for each timeslot in each*/ +/* TDMA */ +/* 2- to find the IL value to use for the next PDCH */ +/* block */ +/* */ +/* Algorithm */ +/* --------- */ +/* For each timeslot i used for PDCH */ +/* IL(i) = fct(used AGC, pm) */ +/* if (beacon) */ +/* ILmax_beacon = max(ILmax_beacon, IL(i)) */ +/* else */ +/* ILmax_others(i) = max(IL(i), ILmax_others(i)) */ +/* */ +/* If (burst_nb == 3) */ +/* If (ILmax_beacon was found during the block) */ +/* FIFO[beacon] updated with ILmax_beacon */ +/* transfer_meas = max(FIFO[beacon]) */ +/* Reset ILmax_beacon */ +/* */ +/* For each timeslot i used for PDCH */ +/* if (CRC good) */ +/* ILmax_correct = max(ILmax_correct, */ +/* ILmax_others(i)) */ +/* else */ +/* ILmax_not_correct = max(ILmax_not_correct, */ +/* ILmax_others(i)) */ +/* */ +/* If (no ILmax_correct was found) */ +/* ILselected = ILmax_correct */ +/* FNselected = current FN */ +/* else */ +/* DeltaFN = (current FN - FNselected) % MAX_FN */ +/* */ +/* if (DeltaFN < 78) */ +/* ILweighted = ILselected * (1 - DeltaFN/78) */ +/* - 120 * DeltaFN /78 */ +/* */ +/* if (ILweighted < -120) ILweighted = -120 */ +/* if (ILmax_not_correct > ILweighted) */ +/* ILselected = ILmax_not_correct */ +/* FNselected = current FN */ +/* else */ +/* ILselected = -120 */ +/* FNselected = current FN */ +/* */ +/* Reset ILmax_others[8] */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/* */ +/* Parameters */ +/* ---------- */ +/* "calibrated_IL[8]" */ +/* contains the IL found on timeslots */ +/* used for PDCH/D. These ILs can be used to process */ +/* RXLEV values. */ +/* */ +/* "*pdsp_db_r_ptr" */ +/* Pointer on the DSP DB Read page, used to extract */ +/* pm values, burst number and timeslot allocated */ +/* for downlink PDCH */ +/* */ +/* "*pdsp_ndb_ptr" */ +/* Pointer on the DSP NDB page, used to extract the */ +/* CRC value for each decoded burst */ +/* */ +/* Global parameters */ +/* ----------------- */ +/* "l1a_l1s_com.Scell_info.transfer_meas.input_level" */ +/* "l1a_l1s_com.Scell_info.transfer_meas.lna_off" */ +/* Used to store the ILselected and the associated */ +/* lna_off value. */ +/* */ +/* "l1a_l1s_com.Scell_info.fn_select" */ +/* Used to store the FNselected value. */ +/* */ +/* "l1a_l1s_com.last_input_level[freq index] */ +/* .input_level */ +/* .lna_off" */ +/* Used to store the beacon input level and */ +/* the associated lna_off value. */ +/* */ +/* "l1ps.transfer_beacon_buf[4]" */ +/* FIFO[beacon] */ +/* */ +/* "l1ps.ILmin_beacon" */ +/* "l1ps.ILmin_others[8]" */ +/*-------------------------------------------------------*/ +void l1pctl_npc_agc_read(UWORD8 calibrated_IL[8], T_DB_DSP_TO_MCU_GPRS *pdsp_db_r_ptr, + T_NDB_MCU_DSP_GPRS *pdsp_ndb_ptr) +{ + UWORD8 ts; + UWORD8 rx_no = 0; + UWORD8 bit_mask = 0x80; + UWORD8 ILmin_correct = 255; + UWORD8 ILmin_not_correct = 255; + WORD8 delta1_freq, delta2_freq; + WORD16 delta_drp_gain=0; + UWORD16 radio_freq, lna_value; + WORD16 used_agc; + WORD32 serving_index; + UWORD16 arfcn; + UWORD8 lna_off; + UWORD16 dco_algo_ctl_pw_temp = 0; + UWORD8 if_ctl = 0; + #if (CODE_VERSION != SIMULATION) + UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GPRS; +#endif + +#if(L1_FF_MULTIBAND == 0) + serving_index = l1a_l1s_com.Scell_info.radio_freq - l1_config.std.radio_freq_index_offset; + +#else + serving_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); +#endif + + + // Control phase parameters: same AGC, radio_freq, lna_off used for all PDTCH + // *************************************************************************** + + // Get radio_freq on which the downlink block was received + radio_freq = l1a_l1s_com.dedic_set.radio_freq_dd; + + // Compute calibration factors + delta1_freq = l1ctl_encode_delta1(radio_freq); + delta2_freq = l1ctl_encode_delta2(radio_freq); + + // AGC used in the control phase (format F7.1) + used_agc = (Cust_get_agc_from_IL(radio_freq, l1a_l1s_com.Scell_used_IL_dd.input_level >> 1, MAX_ID, l1a_l1s_com.Scell_used_IL_dd.lna_off)) << 1; + + // LNA attenuation + lna_value = l1a_l1s_com.Scell_used_IL_dd.lna_off * l1ctl_get_lna_att(radio_freq); + + // Burst 0: Reset ILmin_beacon and ILmin_others + if(pdsp_db_r_ptr->d_burst_nb_gprs == 0) + { + l1ps.ILmin_beacon = 255; // Not valid + + for (ts = 0; ts < 8; ts++) + { + l1ps.ILmin_others[ts] = (UWORD8) l1_config.params.il_min; + } + } // End if "burst 0" + + // IL processing for each received burst + // ************************************** + + // For each timeslot on which a burst was received + for(ts = 0; ts < 8; ts ++) + { + if(pdsp_db_r_ptr->d_task_d_gprs & bit_mask) + { + WORD16 current_IL, current_calibrated_IL; + UWORD8 pm; + + // IL = fct(pm, last_known_agc, lna_value, g_magic) + //------------------------------------------------- + + pm = (UWORD8) ((pdsp_db_r_ptr->a_burst_pm_gprs[ts] & 0xffff) >> 5); + + // current_IL processing + if (0==pm) // Check and filter illegal pm value by using last valid IL + { + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + current_IL = l1a_l1s_com.last_input_level[serving_index].input_level; + else + current_IL = l1a_l1s_com.Scell_info.transfer_meas.input_level; + } + else + + { + // DRP correction +#if (L1_FF_MULTIBAND == 0) + arfcn = Convert_l1_radio_freq(radio_freq); +#else + arfcn=radio_freq; +#endif + +#if(RF_FAM == 61) + #if (CODE_VERSION != SIMULATION) + + cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw_temp, &if_ctl, (UWORD8) L1_IL_VALID , + l1a_l1s_com.Scell_used_IL_dd.input_level, + radio_freq,if_threshold); + lna_off = l1a_l1s_com.Scell_used_IL_dd.lna_off; + delta_drp_gain = drp_gain_correction(arfcn, lna_off, used_agc); // F7.1 format + if(if_ctl == IF_100KHZ_DSP){ + delta_drp_gain += SCF_ATTENUATION_LIF_100KHZ; + } + else{ /* i.e. if_ctl = IF_120KHZ_DSP*/ + delta_drp_gain += SCF_ATTENUATION_LIF_120KHZ; + } + + #endif +#endif + + current_IL = -(pm - (used_agc - delta_drp_gain) + lna_value - l1ctl_get_g_magic(radio_freq)); + } + + // Calibrated IL processing + current_calibrated_IL = current_IL - delta1_freq - delta2_freq; + + // Protect IL stores against overflow + if(current_calibrated_IL>INDEX_MAX) + current_calibrated_IL=INDEX_MAX; + if (current_IL>INDEX_MAX) + current_IL=INDEX_MAX; + + calibrated_IL[ts] = (UWORD8)(current_calibrated_IL); + + // Keep ILmax + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + { + // Beacon frequency + l1ps.ILmin_beacon = min((UWORD8) current_IL, l1ps.ILmin_beacon); + } + else + { + // Daughter frequency + l1ps.ILmin_others[ts] = min((UWORD8) current_IL,l1ps.ILmin_others[ts]); + } + + // Input Level selection among ILmax found on each timeslot during the block (when burst = 3) + // ******************************************************************************************* + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + // If CRC good + if (!(pdsp_ndb_ptr->a_dd_gprs[rx_no][0] & 0x0100)) + { + // Find the min found IL for blocks that were correctly received + ILmin_correct = min(l1ps.ILmin_others[ts],ILmin_correct); + } + // If CRC bad + else + { + // Find the min found IL for blocks that were not correctly received + ILmin_not_correct = min(l1ps.ILmin_others[ts],ILmin_not_correct); + } + } // End if "burst = 3" + + // Next downlink block + rx_no ++; + + } // End if "timeslot used for downlink PDCH" + + // Next timeslot + bit_mask >>= 1; + } // End for "each timeslot...." + + + // IL selection for the next block if burst = 3 + // ********************************************** + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + WORD16 new_calibrated_IL; + + // Beacon frequency input level updating + //-------------------------------------- + + // If a PDCH has been received on the beacon + if (l1ps.ILmin_beacon != 255) + { + UWORD8 i, new_IL; + + // FIFO management + for (i=3;i>0;i--) + l1a_l1s_com.Scell_info.buff_beacon[i] = l1a_l1s_com.Scell_info.buff_beacon[i-1]; + l1a_l1s_com.Scell_info.buff_beacon[0] = l1ps.ILmin_beacon; + + // Find min IL in FIFO + new_IL = l1ctl_find_max(l1a_l1s_com.Scell_info.buff_beacon, 4); + + // Input levels are always stored with lna_on + + // lna_off processing + new_calibrated_IL = (WORD16) (new_IL - l1ctl_encode_delta1(l1a_l1s_com.Scell_info.radio_freq) - l1ctl_encode_delta2(l1a_l1s_com.Scell_info.radio_freq)); + + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), + &(l1a_l1s_com.last_input_level[serving_index].lna_off), + l1a_l1s_com.Scell_info.radio_freq); + + l1a_l1s_com.last_input_level[serving_index].input_level = new_IL ; + + } // End of "beacon frequency input level updating" + + // Daughter frequencies input level updating + //------------------------------------------ + + // If at least one block was correctly received + // (Note: ILs truncated to 240 so 255 isn't valid) + if (ILmin_correct != 255) + { + // Select the min input level found on correctly received blocks + l1a_l1s_com.Scell_info.transfer_meas.input_level = ILmin_correct; + l1ps.fn_select = l1s.actual_time.fn; + + // Algorithm switch to "TRACK" phase if it was in "SEARCH" phase + l1ps.phase = TRACK; + } + + // No block was correctly received + else + { + UWORD8 input_level_ref = l1a_l1s_com.Scell_info.transfer_meas.input_level; + // SEARCH phase + if (l1ps.phase == SEARCH) + { + // If measured level superior to currently tracket level, switch to TRACK mode + if (input_level_ref > ILmin_not_correct) + l1ps.phase = TRACK; + + // Select the min input level found on badly received blocks + l1a_l1s_com.Scell_info.transfer_meas.input_level = ILmin_not_correct; + l1ps.fn_select = l1s.actual_time.fn; + } + + // TRACK phase + else + { + // If the IL found on incorrect block is lower than current wanted IL + if (ILmin_not_correct < input_level_ref) + { + // Select the new IL + l1a_l1s_com.Scell_info.transfer_meas.input_level = ILmin_not_correct; + l1ps.fn_select = l1s.actual_time.fn; + } + + // If the IL found on incorrect block is higher than current wanted IL + else + { + UWORD32 delta_fn; + + // delta_fn processing for IL selection forgetting factor + delta_fn = l1s.actual_time.fn - l1ps.fn_select; + + // MAX_FN modulo management + if (l1s.actual_time.fn < l1ps.fn_select) + delta_fn += MAX_FN; + + // If the last selected IL is more recent than 72 frames + // + // |....|R...............................C|....| + // ^ ^ + // fn_selected IL reset to -120 + // <--------------------------------------> + // 312 + // 306 = 312 - 4 (block_size) - 1 (Read phase fn delay) - 1 (Control phase fn advance) + if (delta_fn > 306) + { + WORD16 input_level; + + // IL initialized to "beacon level - Pb" + input_level = (WORD16) (l1a_l1s_com.last_input_level[serving_index].input_level + l1a_l1s_com.Scell_info.pb); + + + if (input_level>INDEX_MAX) input_level = INDEX_MAX; + l1a_l1s_com.Scell_info.transfer_meas.input_level = (UWORD8)input_level; + + l1ps.fn_select = l1s.actual_time.fn; + // Returns to "SEARCH" phase + l1ps.phase = SEARCH; + } + else + { + WORD16 input_level; + + input_level = l1a_l1s_com.Scell_info.transfer_meas.input_level; + + if (input_level>INDEX_MAX) input_level = INDEX_MAX; + + l1a_l1s_com.Scell_info.transfer_meas.input_level = (UWORD8)input_level; + } + } // End if the IL found on incorrect block is higher than current wanted IL + } // End of "track phase" + } // End if no block correctly received + + // lna_off processing + new_calibrated_IL = (WORD16) (l1a_l1s_com.Scell_info.transfer_meas.input_level - l1ctl_encode_delta1(l1ps.read_param.radio_freq_for_lna)); + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), &(l1a_l1s_com.Scell_info.transfer_meas.lna_off), l1ps.read_param.radio_freq_for_lna); + } // End if "burst = 3" + +} // End of "l1pctl_npc_agc_read" + +/*-------------------------------------------------------*/ +/* l1pctl_dpcma_agc_read() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* AGC algorithm in packet transfer used when the BTS */ +/* use DOWNLINK POWER CONTROL mode A. */ +/* This function is used during the read phase of PDTCH: */ +/* 1- to determine the IL value for each timeslot in each*/ +/* TDMA */ +/* 2- to find the IL value to use for the next PDCH */ +/* block */ +/* */ +/* Algorithm */ +/* --------- */ +/* For each timeslot i used for PDCH */ +/* IL(i) = fct(used AGC, pm) */ +/* if (beacon) */ +/* ILmax_beacon = max(ILmax_beacon, IL(i)) */ +/* else */ +/* ILmax_others(i) = max(IL(i), ILmax_others(i)) */ +/* */ +/* If (burst_nb == 3) */ +/* */ +/* For each timeslot i used for PDCH */ +/* if (CRC good) and */ +/* ((PR_MODE A) or (PR_MODE B and TFI good)) */ +/* ILmax = max(ILmax, ILmax_others(i) + P0 + PR(i))*/ +/* */ +/* ILmax=max(ILmax, ILmax_beacon) */ +/* FIFO[beacon] updated with ILmax */ +/* last_input_level[serving beacon] = max(FIFO[beacon])*/ +/* transfer_meas = max(FIFO[beacon]) - P0 - 5 */ +/* */ +/* Reset ILmax_others[8] and ILmax_beacon */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/* */ +/* Parameters */ +/* ---------- */ +/* "calibrated_IL[8]" */ +/* contains the IL found on timeslots */ +/* used for PDCH/D. These ILs can be used to process */ +/* RXLEV values. */ +/* */ +/* "*pdsp_db_r_ptr" */ +/* Pointer on the DSP DB Read page, used to extract */ +/* pm values, burst number and timeslot allocated */ +/* for downlink PDCH */ +/* */ +/* "*pdsp_ndb_ptr" */ +/* Pointer on the DSP NDB page, used to extract the */ +/* CRC value for each decoded burst */ +/* */ +/* Global parameters */ +/* ----------------- */ +/* "l1a_l1s_com.Scell_info.transfer_meas.input_level" */ +/* "l1a_l1s_com.Scell_info.transfer_meas.lna_off" */ +/* Used to store the ILselected and the associated */ +/* lna_off value. */ +/* */ +/* "l1a_l1s_com.last_input_level[freq. index] */ +/* .input_level */ +/* .lna_off" */ +/* Used to store the beacon input level and */ +/* the associated lna_off value. */ +/* */ +/* "l1ps.transfer_beacon_buf[4]" */ +/* FIFO[beacon] */ +/* */ +/* "l1ps.ILmin_beacon" */ +/* "l1ps.ILmin_others[8]" */ +/*-------------------------------------------------------*/ +void l1pctl_dpcma_agc_read(UWORD8 calibrated_IL[8], T_DB_DSP_TO_MCU_GPRS *pdsp_db_r_ptr, + T_NDB_MCU_DSP_GPRS *pdsp_ndb_ptr, UWORD8 pr_table[8]) +{ + UWORD8 ts = 0; + UWORD8 rx_no = 0; + UWORD8 bit_mask = 0x80; + UWORD8 IL_norm_min = 255; + WORD8 delta1_freq, delta2_freq; + WORD16 delta_drp_gain=0; + UWORD16 radio_freq, lna_value; + WORD16 used_agc; + WORD32 serving_index; + UWORD16 arfcn; + UWORD8 lna_off; + UWORD16 dco_algo_ctl_pw_temp = 0; + UWORD8 if_ctl = 0; + #if (CODE_VERSION != SIMULATION) + UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GPRS; +#endif + +#if(L1_FF_MULTIBAND == 0) + serving_index = l1a_l1s_com.Scell_info.radio_freq - l1_config.std.radio_freq_index_offset; + +#else + serving_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); +#endif + + + // Control phase parameters: same AGC, radio_freq, lna_off used for all PDTCH + // *************************************************************************** + + // Get radio_freq on which the downlink block was received + radio_freq = l1a_l1s_com.dedic_set.radio_freq_dd; + + // Compute calibration factors + delta1_freq = l1ctl_encode_delta1(radio_freq); + delta2_freq = l1ctl_encode_delta2(radio_freq); + + // Last known AGC (format F7.1) + used_agc = (Cust_get_agc_from_IL(radio_freq, l1a_l1s_com.Scell_used_IL_dd.input_level >> 1, MAX_ID,l1a_l1s_com.Scell_used_IL_dd.lna_off)) << 1; + + // LNA attenuation + lna_value = l1a_l1s_com.Scell_used_IL_dd.lna_off * l1ctl_get_lna_att(radio_freq); + + // Burst 0: Reset ILmin_beacon and ILmin_others + if(pdsp_db_r_ptr->d_burst_nb_gprs == 0) + { + l1ps.ILmin_beacon = 255; // Not valid + + for (ts = 0; ts < 8; ts++) + { + l1ps.ILmin_others[ts] = 255; // Not valid + } + } + + // IL processing for each received burst + // ************************************** + + // DRP correction +#if (L1_FF_MULTIBAND == 0) + arfcn = Convert_l1_radio_freq(radio_freq); +#else + arfcn=radio_freq; +#endif + +#if(RF_FAM == 61) + #if (CODE_VERSION != SIMULATION) + + cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw_temp, &if_ctl, (UWORD8) L1_IL_VALID , + l1a_l1s_com.Scell_used_IL_dd.input_level, + radio_freq, if_threshold); + lna_off = l1a_l1s_com.Scell_used_IL_dd.lna_off; + delta_drp_gain = drp_gain_correction(arfcn, lna_off, used_agc); // F7.1 format + + if(if_ctl == IF_100KHZ_DSP){ + delta_drp_gain += SCF_ATTENUATION_LIF_100KHZ; + } + else{ /* i.e. if_ctl = IF_120KHZ_DSP*/ + delta_drp_gain += SCF_ATTENUATION_LIF_120KHZ; + } + + #endif +#endif + + // For each timeslot on which a burst was received + for(ts = 0; ts < 8; ts ++) + { + if(pdsp_db_r_ptr->d_task_d_gprs & bit_mask) + { + WORD16 current_IL, current_calibrated_IL; + UWORD8 pm; + + // IL = fct(pm, last_known_agc, lna_value, g_magic) + //------------------------------------------------- + + pm = (UWORD8) ((pdsp_db_r_ptr->a_burst_pm_gprs[ts] & 0xffff) >> 5); + + // current_IL processing + if (0==pm) // Check and filter illegal pm value by using last valid IL + { + current_IL = l1a_l1s_com.last_input_level[serving_index].input_level; + + if (radio_freq != l1a_l1s_com.Scell_info.radio_freq) + current_IL += (l1ps.read_param.dl_pwr_ctl.p0 + 10); + } + else + { + current_IL = -(pm - (used_agc - delta_drp_gain) + lna_value - l1ctl_get_g_magic(radio_freq)); + } + + // Calibrated IL processing + current_calibrated_IL = current_IL - delta1_freq - delta2_freq; + + // Protect IL stores against overflow + if(current_calibrated_IL>INDEX_MAX) + current_calibrated_IL=INDEX_MAX; + if (current_IL>INDEX_MAX) + current_IL=INDEX_MAX; + + calibrated_IL[ts] = (UWORD8)(current_calibrated_IL); + + // Keep the minimum IL + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + { + // Beacon frequency + l1ps.ILmin_beacon = min((UWORD8) current_IL,l1ps.ILmin_beacon); + } + else + { + // Daughter frequency + l1ps.ILmin_others[ts] = min((UWORD8) current_IL, l1ps.ILmin_others[ts]); + } + + // Input Level selection among ILmax found on each timeslot during the block (when burst = 3) + //------------------------------------------------------------------------------------------- + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + // If CRC good + if (!(pdsp_ndb_ptr->a_dd_gprs[rx_no][0] & 0x0100)) + { + // If ((PR_MODE A and TFI good) or (PR_MODE B)) AND PR != 0 [Not usable]) + if (((l1ps.read_param.dl_pwr_ctl.pr_mode != 0) || (!(pr_table[ts] & 0x80))) + && ((pr_table[ts] & 0x1f) != 0)) + { + if (l1ps.ILmin_others[ts] != 255) + { + UWORD8 IL_norm; + + // IL normalization to beacon (ILnorm = ILmax_others(ts) - P0 - PR) + IL_norm = l1ps.ILmin_others[ts] - l1ps.read_param.dl_pwr_ctl.p0 - ((pr_table[ts] & 0x1f) << 1); + + // Update IL_min with the minimum found IL + IL_norm_min = min(IL_norm, IL_norm_min); + } + } + } // End if "CRC good" + + } // End if "burst = 3" + + // Next downlink block + rx_no ++; + + } // End if "timeslot used for downlink PDCH" + + // Next timeslot + bit_mask >>= 1; + + } // End for "each timeslot...." + + + // IL selection for the next block if burst = 3 + // ********************************************** + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + UWORD8 i, new_IL; + UWORD16 input_level; + WORD16 new_calibrated_IL; + + // Select the minimum IL between minimum IL found on daughter frequencies (normalized to beacon) + // and minimum IL found on the beacon + IL_norm_min = min(IL_norm_min, l1ps.ILmin_beacon); + + // If a valid IL has been found + if (IL_norm_min != 255) + { + // FIFO management + for (i=3;i>0;i--) + l1a_l1s_com.Scell_info.buff_beacon[i] = l1a_l1s_com.Scell_info.buff_beacon[i-1]; + + l1a_l1s_com.Scell_info.buff_beacon[0] = IL_norm_min; + + // last_input_level[serving beacon] updating + //------------------------------------------ + + // Find min IL in FIFO + new_IL = l1ctl_find_max(l1a_l1s_com.Scell_info.buff_beacon,4); + + // Input levels are always stored with lna_on + + // lna_off processing + new_calibrated_IL = (WORD16) (new_IL - l1ctl_encode_delta1(l1a_l1s_com.Scell_info.radio_freq) - l1ctl_encode_delta2(l1a_l1s_com.Scell_info.radio_freq)); + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL >> 1), + &(l1a_l1s_com.last_input_level[serving_index].lna_off), + l1a_l1s_com.Scell_info.radio_freq); + + l1a_l1s_com.last_input_level[serving_index].input_level = new_IL; + } + + // transfer_meas updating + //----------------------- + + // IL = (min IL in FIFO) + P0 + 10 (PR = 5 format 7.1) + // Input levels are always stored with lna_on + input_level = l1a_l1s_com.last_input_level[serving_index].input_level + l1ps.read_param.dl_pwr_ctl.p0 + 10; + + // IL_2_AGC_xx array size + if (input_level>INDEX_MAX) input_level = INDEX_MAX; + + // lna_off processing + new_calibrated_IL = (WORD16) (input_level - l1ctl_encode_delta1(l1ps.read_param.radio_freq_for_lna)); + + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), &(l1a_l1s_com.Scell_info.transfer_meas.lna_off), l1ps.read_param.radio_freq_for_lna); + + l1a_l1s_com.Scell_info.transfer_meas.input_level = (UWORD8)input_level; + } // End if "burst = 3" + +} // End of "l1pctl_dpcma_agc_read" + +/*-------------------------------------------------------*/ +/* l1pctl_dpcmb_agc_read() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* =========== */ +/* AGC algorithm in packet transfer used when the BTS */ +/* use DOWNLINK POWER CONTROL mode B. */ +/* This function is used during the read phase of PDTCH: */ +/* 1- to determine the IL value for each timeslot in each*/ +/* TDMA */ +/* 2- to find the IL value to use for the next PDCH */ +/* block */ +/* */ +/* Algorithm */ +/* --------- */ +/* For each timeslot i used for PDCH */ +/* IL(i) = fct(used AGC, pm) */ +/* if (beacon) */ +/* ILmax_beacon = max(ILmax_beacon, IL(i)) */ +/* else */ +/* ILmax_others(i) = max(IL(i), ILmax_others(i)) */ +/* */ +/* If (burst_nb == 3) */ +/* */ +/* For each timeslot i used for PDCH */ +/* if (CRC good) */ +/* if (TFI good) last_PR_good = PR(i) */ +/* if ((PR_MODE A) or (PR_MODE B and TFI good)) */ +/* ILmax = max(ILmax, ILmax_others(i) */ +/* + P0 + PR(i)) */ +/* */ +/* ILmax=max(ILmax, ILmax_beacon) */ +/* FIFO[beacon] updated with ILmax */ +/* last_input_level[serving beacon] = max(FIFO[beacon])*/ +/* transfer_meas = max(FIFO[beacon]) - last_PR_good */ +/* */ +/* Reset ILmax_others[8] and ILmax_beacon */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/* */ +/* Parameters */ +/* ---------- */ +/* "calibrated_IL[8]" */ +/* contains the IL found on timeslots */ +/* used for PDCH/D. These ILs can be used to process */ +/* RXLEV values. */ +/* */ +/* "*pdsp_db_r_ptr" */ +/* Pointer on the DSP DB Read page, used to extract */ +/* pm values, burst number and timeslot allocated */ +/* for downlink PDCH */ +/* */ +/* "*pdsp_ndb_ptr" */ +/* Pointer on the DSP NDB page, used to extract the */ +/* CRC value for each decoded burst */ +/* */ +/* Global parameters */ +/* ----------------- */ +/* "l1a_l1s_com.Scell_info.transfer_meas.input_level" */ +/* "l1a_l1s_com.Scell_info.transfer_meas.lna_off" */ +/* Used to store the ILselected and the associated */ +/* lna_off value. */ +/* */ +/* "l1a_l1s_com.last_input_level[freq. index] */ +/* .input_level */ +/* .lna_off" */ +/* Used to store the beacon input level and */ +/* the associated lna_off value. */ +/* */ +/* "l1ps.transfer_beacon_buf[4]" */ +/* FIFO[beacon] */ +/* */ +/* "l1ps.ILmin_beacon" */ +/* "l1ps.ILmin_others[8]" */ +/*-------------------------------------------------------*/ +void l1pctl_dpcmb_agc_read(UWORD8 calibrated_IL[8], T_DB_DSP_TO_MCU_GPRS *pdsp_db_r_ptr, + T_NDB_MCU_DSP_GPRS *pdsp_ndb_ptr, UWORD8 pr_table[8]) +{ + UWORD8 ts = 0; + UWORD8 rx_no = 0; + UWORD8 bit_mask = 0x80; + UWORD8 IL_norm_min = 255; + WORD8 delta1_freq, delta2_freq; + WORD16 delta_drp_gain=0; + UWORD16 radio_freq, lna_value; + WORD16 used_agc; + WORD32 serving_index; + UWORD16 arfcn; + UWORD8 lna_off; + UWORD16 dco_algo_ctl_pw_temp = 0; + UWORD8 if_ctl = 0; + #if (CODE_VERSION != SIMULATION) + UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GPRS; +#endif + +#if(L1_FF_MULTIBAND == 0) + serving_index = l1a_l1s_com.Scell_info.radio_freq - l1_config.std.radio_freq_index_offset; +#else + serving_index = l1_multiband_radio_freq_convert_into_operative_radio_freq(l1a_l1s_com.Scell_info.radio_freq); +#endif + + + // Control phase parameters: same AGC, radio_freq, lna_off used for all PDTCH + // *************************************************************************** + + // Get radio_freq on which the downlink block was received + radio_freq = l1a_l1s_com.dedic_set.radio_freq_dd; + + // Compute calibration factors + delta1_freq = l1ctl_encode_delta1(radio_freq); + delta2_freq = l1ctl_encode_delta2(radio_freq); + + // Last known AGC (format F7.1) + used_agc = (Cust_get_agc_from_IL(radio_freq, l1a_l1s_com.Scell_used_IL_dd.input_level >> 1, MAX_ID,l1a_l1s_com.Scell_used_IL_dd.lna_off)) << 1; + + // LNA attenuation + lna_value = l1a_l1s_com.Scell_used_IL_dd.lna_off * l1ctl_get_lna_att(radio_freq); + + // Burst 0: Reset ILmin_beacon and ILmin_others + if(pdsp_db_r_ptr->d_burst_nb_gprs == 0) + { + l1ps.ILmin_beacon = 255; // Not valid + + for (ts = 0; ts < 8; ts++) + { + l1ps.ILmin_others[ts] = 255; // Not valid + } + } + + // IL processing for each received burst + // ************************************** + + // For each timeslot on which a burst was received + for(ts = 0; ts < 8; ts ++) + { + if(pdsp_db_r_ptr->d_task_d_gprs & bit_mask) + { + WORD16 current_IL, current_calibrated_IL; + UWORD8 pm; + + // IL = fct(pm, last_known_agc, lna_value, g_magic) + //------------------------------------------------- + + pm = (UWORD8) ((pdsp_db_r_ptr->a_burst_pm_gprs[ts] & 0xffff) >> 5); + + // current_IL processing + if (0==pm) // Check and filter illegal pm value by using last valid IL + { + current_IL = l1a_l1s_com.last_input_level[serving_index].input_level; + + if (radio_freq != l1a_l1s_com.Scell_info.radio_freq) + current_IL += (l1ps.last_PR_good); + } + else + { + // DRP correction +#if (L1_FF_MULTIBAND == 0) + arfcn = Convert_l1_radio_freq(radio_freq); +#else + arfcn=radio_freq; +#endif + +#if(RF_FAM == 61) + #if (CODE_VERSION != SIMULATION) + + + cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw_temp, &if_ctl, (UWORD8) L1_IL_VALID , + l1a_l1s_com.Scell_used_IL_dd.input_level, + radio_freq, if_threshold); + lna_off = l1a_l1s_com.Scell_used_IL_dd.lna_off; + delta_drp_gain = drp_gain_correction(arfcn, lna_off, used_agc); // F7.1 format + + if(if_ctl == IF_100KHZ_DSP){ + delta_drp_gain += SCF_ATTENUATION_LIF_100KHZ; + } + else{ /* i.e. if_ctl = IF_120KHZ_DSP*/ + delta_drp_gain += SCF_ATTENUATION_LIF_120KHZ; + } + + + #endif +#endif + + current_IL = -(pm - ( used_agc - delta_drp_gain) + lna_value - l1ctl_get_g_magic(radio_freq)); + } + + // Calibrated IL processing + current_calibrated_IL = current_IL - delta1_freq - delta2_freq; + + // Protect IL stores against overflow + if(current_calibrated_IL>INDEX_MAX) + current_calibrated_IL=INDEX_MAX; + if (current_IL>INDEX_MAX) + current_IL=INDEX_MAX; + + calibrated_IL[ts] = (UWORD8)(current_calibrated_IL); + + // Keep the minimum IL + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + { + // Beacon frequency + l1ps.ILmin_beacon = min((UWORD8) current_IL,l1ps.ILmin_beacon); + } + else + { + // Daughter frequency + l1ps.ILmin_others[ts] = min((UWORD8) current_IL, l1ps.ILmin_others[ts]); + } + + // Input Level selection among ILmax found on each timeslot during the block (when burst = 3) + //------------------------------------------------------------------------------------------- + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + // If CRC good + if (!(pdsp_ndb_ptr->a_dd_gprs[rx_no][0] & 0x0100)) + { + // If ((PR_MODE A and TFI good) or (PR_MODE B)) + if ((l1ps.read_param.dl_pwr_ctl.pr_mode != 0) || (!(pr_table[ts] & 0x80))) + { + + // If TFI good + if (!(pr_table[ts] & 0x80)) + { + // Memorize decoded PR + l1ps.last_PR_good = ((pr_table[ts] & 0x1f) << 1); + } + + if (l1ps.ILmin_others[ts] != 255) + { + UWORD8 IL_norm; + + // IL normalization to beacon (ILnorm = ILmax_others(ts) - PR) + IL_norm = l1ps.ILmin_others[ts] - ((pr_table[ts] & 0x1f) << 1); + + // Update IL_min with the minimum found IL + IL_norm_min = min(IL_norm, IL_norm_min); + } + } + } // End if "CRC good" + + } // End if "burst = 3" + + // Next downlink block + rx_no ++; + + } // End if "timeslot used for downlink PDCH" + + // Next timeslot + bit_mask >>= 1; + + } // End for "each timeslot...." + + + // IL selection for the next block if burst = 3 + // ********************************************** + + if(pdsp_db_r_ptr->d_burst_nb_gprs == 3) + { + UWORD8 i, new_IL; + UWORD16 input_level; + WORD16 new_calibrated_IL; + + // Select the minimum IL between minimum IL found on daughter frequencies (normalized to beacon) + // and minimum IL found on the beacon + IL_norm_min = min(IL_norm_min, l1ps.ILmin_beacon); + + // If a valid IL has been found + if (IL_norm_min != 255) + { + // FIFO management + for (i=3;i>0;i--) + l1a_l1s_com.Scell_info.buff_beacon[i] = l1a_l1s_com.Scell_info.buff_beacon[i-1]; + + l1a_l1s_com.Scell_info.buff_beacon[0] = IL_norm_min; + + // last_input_level[serving beacon] updating + //------------------------------------------ + + // Find min IL in FIFO + new_IL = l1ctl_find_max(l1a_l1s_com.Scell_info.buff_beacon,4); + + // Input levels are always stored with lna_on + + // lna_off processing + new_calibrated_IL = (WORD16) (new_IL - l1ctl_encode_delta1(l1a_l1s_com.Scell_info.radio_freq) - l1ctl_encode_delta2(l1a_l1s_com.Scell_info.radio_freq)); + + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL >> 1), + &(l1a_l1s_com.last_input_level[serving_index].lna_off), + l1a_l1s_com.Scell_info.radio_freq); + + l1a_l1s_com.last_input_level[serving_index].input_level = new_IL; + } + + // transfer_meas updating + //----------------------- + + // IL = (min IL in FIFO) + PR (Middle of the range specified by the last decoded PR with CRC and TFI good) + // Input levels are always stored with lna_on + input_level = l1a_l1s_com.last_input_level[serving_index].input_level + l1ps.last_PR_good; + + // IL_2_AGC_xx array size + if (input_level>INDEX_MAX) input_level = INDEX_MAX; + + // lna_off processing + new_calibrated_IL = (WORD16) (input_level - l1ctl_encode_delta1(l1ps.read_param.radio_freq_for_lna)); + + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), &(l1a_l1s_com.Scell_info.transfer_meas.lna_off), l1ps.read_param.radio_freq_for_lna); + + l1a_l1s_com.Scell_info.transfer_meas.input_level = (UWORD8)input_level; + + } // End if "burst = 3" + +} // End of "l1pctl_dpcmb_agc_read" + +/*-------------------------------------------------------*/ +/* l1pctl_pgc() */ +/*-------------------------------------------------------*/ +/* Description : */ +/* ============= */ +/* This function is used in packet transfer mode for the*/ +/* Read phase of power measurements. It permits to: */ +/* - Process the IL value in function of the Pm and AGC */ +/* used */ +/* - Update the FIFO[beacon] used in packet transfer AGC*/ +/* algorithms */ +/* - Update last_input_level */ +/* */ +/* WARNING: in the layer 1 code, input levels IL(l1) use */ +/* format 7.1: */ +/* ********************* */ +/* * IL(l1) = - 2 x IL * */ +/* ********************* */ +/* -> Reversed sign, reversed test conditions */ +/* -> max replaced by min */ +/* ex: if IL -120 dBm, IL(l1) = 240 */ +/*-------------------------------------------------------*/ +UWORD8 l1pctl_pgc(UWORD8 pm, UWORD8 last_known_il, UWORD8 lna_off, UWORD16 radio_freq) +{ + UWORD8 i, new_IL; + WORD8 delta1_freq, delta2_freq; + WORD16 delta_drp_gain=0; + UWORD16 lna_value; + WORD16 used_agc, current_IL, current_calibrated_IL, new_calibrated_IL; + WORD32 index; + UWORD16 arfcn; + UWORD16 dco_algo_ctl_pw_temp = 0; + UWORD8 if_ctl = 0; + #if (CODE_VERSION != SIMULATION) + UWORD8 if_threshold = C_IF_ZERO_LOW_THRESHOLD_GPRS; +#endif + + // Calibration factors + delta1_freq = l1ctl_encode_delta1(radio_freq); + delta2_freq = l1ctl_encode_delta2(radio_freq); + + // initialize index +#if(L1_FF_MULTIBAND == 0) + index = radio_freq - l1_config.std.radio_freq_index_offset; + +#else + index = l1_multiband_radio_freq_convert_into_operative_radio_freq(radio_freq); +#endif + + + // LNA attenuation + lna_value = lna_off * l1ctl_get_lna_att(radio_freq); + + // Used AGC in the control phase (format F7.1) + used_agc = (Cust_get_agc_from_IL(radio_freq, last_known_il >> 1, PWR_ID, lna_off)) << 1; + + + // DRP correction +#if (L1_FF_MULTIBAND == 0) + arfcn = Convert_l1_radio_freq(radio_freq); +#else + arfcn=radio_freq; +#endif + +#if(RF_FAM == 61) + #if (CODE_VERSION != SIMULATION) + + +#if (PWMEAS_IF_MODE_FORCE == 0) + cust_get_if_dco_ctl_algo(&dco_algo_ctl_pw_temp, &if_ctl, (UWORD8) L1_IL_VALID , + last_known_il, + radio_freq, if_threshold); + #else + if_ctl = IF_120KHZ_DSP; + dco_algo_ctl_pw_temp = DCO_IF_0KHZ; + #endif + + lna_off = l1a_l1s_com.Scell_used_IL_dd.lna_off; + delta_drp_gain = drp_gain_correction(arfcn, lna_off, used_agc); // F7.1 format + + if(if_ctl == IF_100KHZ_DSP){ + delta_drp_gain += SCF_ATTENUATION_LIF_100KHZ; + } + else{ /* i.e. if_ctl = IF_120KHZ_DSP*/ + delta_drp_gain += SCF_ATTENUATION_LIF_120KHZ; + } + + + #endif +#endif + + if (0==pm) // Check and filter illegal pm value by using last valid IL + current_IL = l1a_l1s_com.last_input_level[index].input_level; + else + current_IL = -(pm - (used_agc - delta_drp_gain) + lna_value - l1ctl_get_g_magic(radio_freq)); + + // Calibrated IL processing + current_calibrated_IL = current_IL - delta1_freq - delta2_freq; + + // Protect IL stores against overflow + if (current_calibrated_IL>INDEX_MAX) + current_calibrated_IL=INDEX_MAX; + if (current_IL>INDEX_MAX) + current_IL=INDEX_MAX; + + // if radio freq is the serving beacon + //------------------------------------ + if (radio_freq == l1a_l1s_com.Scell_info.radio_freq) + { + // FIFO management + for (i=3;i>0;i--) + l1a_l1s_com.Scell_info.buff_beacon[i] = l1a_l1s_com.Scell_info.buff_beacon[i-1]; + l1a_l1s_com.Scell_info.buff_beacon[0] = (UWORD8) current_IL; + + // Find min IL in FIFO + new_IL = l1ctl_find_max(l1a_l1s_com.Scell_info.buff_beacon,4); + + // lna_off processing + new_calibrated_IL = (WORD16) (new_IL - delta1_freq - delta2_freq); + if (new_calibrated_IL>INDEX_MAX) new_calibrated_IL = INDEX_MAX; + + l1ctl_encode_lna((UWORD8)(new_calibrated_IL>>1), + &(l1a_l1s_com.last_input_level[index].lna_off), + radio_freq); + + l1a_l1s_com.last_input_level[index].input_level = new_IL; + } + + // if radio freq is a neighbor beacon + //----------------------------------- + else + { + // Update last_input_level (IL with LNA ON) + l1ctl_encode_lna((UWORD8)(current_calibrated_IL>>1), + &(l1a_l1s_com.last_input_level[index].lna_off), + radio_freq); + + l1a_l1s_com.last_input_level[index].input_level = (UWORD8)current_IL; + } + + return((UWORD8)current_calibrated_IL); + +} // End of "l1pctl_pgc" +#endif