📄 l1_ctl.h
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/************* Revision Controle System Header *************
* GSM Layer 1 software
* L1_CTL.H
*
* Filename l1_ctl.h
* Copyright 2003 (C) Texas Instruments
*
************* Revision Controle System Header *************/
/************************************/
/* Automatic timing control (TOA) */
/************************************/
#define C_RED 1 // Factor used to reduce the maximum accumulated values.
// Default : 1/2
#define C_GEW 1 // Weighting factor. Default : 1/2
#define C_SNRGR 2560 // 2.5 F6.10
#define C_SNR_THR 8192 // 8 F6.10
#define TOA_HISTO_LEN 11 // Histogram length
#define IL_FOR_RXLEV_SNR 220 // RX POWER LEVEL //increased from 210 to 220
#if (TOA_ALGO == 2)
#define L1_TOA_SCALING_CONSTANT (32768) // L1_TOA_SCALING_CONSTANT
#define L1_TOA_LAMBDA (0x7800) // 0.9375 represented in Q15 i.e. 0.9375*32768
#define L1_TOA_ONE_MINUS_LAMBDA (0x0800) // 0.0625 represented in Q15 i.e. 0.0625*32768
#define L1_TOA_THRESHOLD_15 (0x1333) // 0.15 in Q15
#define L1_TOA_THRESHOLD_20 (0x1999) // 0.20 in Q15
#define L1_TOA_THRESHOLD_25 (0x2000) // 0.25 in Q15
#define L1_TOA_THRESHOLD_30 (0x2666) // 0.30 in Q15
#if (CODE_VERSION == SIMULATION)
#define L1_TOA_SNR_THRESHOLD (0) // For simulator the threshold is made zero to facilitate
// TOA testing in simulator
#else
#define L1_TOA_SNR_THRESHOLD (480) // 0x1E0 in F6.10 is equal to 0.46875
#endif
#if (CODE_VERSION == SIMULATION)
#define L1_TOA_EXPECTED_TOA (14) // Expected TOA on the MCU side
#else
#define L1_TOA_EXPECTED_TOA (14) // Expected TOA on the MCU side
#endif
#endif
/************************************/
/* Automatic Gain Control (AGC) */
/************************************/
#define INDEX_MIN 0
#define INDEX_MAX 240 // 120
/************************************/
/* Automatic frequency compensation */
/************************************/
#if (L1_SAIC == 1)
#define C_thr_snr 480 // 1/0.4 * 2**10 - CQ no- 76320
#else
#define C_thr_snr 2560 // 1/0.4 * 2**10
#endif
#define C_thr_P 524288L // 0.5 * 2**20
#define C_cov_start 838861L // 0.8 * 2**20
#define C_a0_kalman 10486L // 0.01 * 2**20
#define C_g_kalman 53687091L// 0.05 * 2**30
#define C_N_del 2 // delay of frequency control loop
// due to C W R pipeline
#define C_Q 3L // 0.000003 * 2**20
#define C_thr_K 209715L // 0.2 * 2**20
#define C_thr_phi 328 // 0.01 * 2**15
#if (VCXO_ALGO == 1)
#define C_WIN_AVG_SIZE_M 64 // average size M
#define C_PSI_AVG_SIZE_D 32 // distance size D
#define C_MSIZE (C_WIN_AVG_SIZE_M * C_PSI_AVG_SIZE_D) // Data history for predictor
#define C_RGAP_BAD_SNR_COUNT_B 32 // bad SNR count B
#define ALGO_AFC_RXGAP 1 // reception gap algo
#define ALGO_AFC_KALMAN 1 // Kalman filter
#define ALGO_AFC_LQG_PREDICTOR 2 // LQG filter + rgap predictor
#define ALGO_AFC_KALMAN_PREDICTOR 3 // Kalman filter + rgap predictor
#endif
#if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3) || (ANLG_FAM == 11))
// clipping related to AFC DAC linearity range
#define C_max_step 32000 // 4000 * 2**3
#define C_min_step -32000 // -4000 * 2**3
#endif
/***************************************************/
/* SAIC (Single Antenna Interference Cancellation) */
/***************************************************/
#if (L1_SAIC != 0)
#define L1_SAIC_GENIE_GSM_GPRS_IDLE_THRESHOLD 180 // Input Level Threshold for GSM/GPRS Idle.
#define L1_SAIC_GENIE_GSM_DEDIC_THRESHOLD 180 // Input Level Threshold for GSM Dedicated.
#define L1_SAIC_GENIE_GPRS_PCKT_TRAN_THRESHOLD 180 // Input Level Threshold for GPRS Packet Transfer
#endif
#define L1_SAIC_HARDWARE_FILTER (1)
#define L1_SAIC_PROGRAMMABLE_FILTER (0)
//Locosto. For Locosto psi_quant = F14.2 else F13.3
#if(RF_FAM == 61)
#define CONVERT_PSI_QUANT(value) (value >> 2)
#else
#define CONVERT_PSI_QUANT(value) (value >> 3)
#endif
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