cmu200.h

MTK 手机软件开发 META 源代码,开发环境: C++ Builder

/*****************************************************************************
*  Copyright Statement:
*  --------------------
*  This software is protected by Copyright and the information contained
*  herein is confidential. The software may not be copied and the information
*  contained herein may not be used or disclosed except with the written
*  permission of MediaTek Inc. (C) 2005
*
*  BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
*  THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
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*  SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
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*
*****************************************************************************/
/*****************************************************************************
 *
 * Filename:
 * ---------
 *   cmu200.h
 *
 * Project:
 * --------
 *   Maui META APP
 *
 * Description:
 * ------------
 *  CMU 200 function header
 *
 * Author:
 *  Andy Ueng (mtk00490)
 *
 *============================================================================
 *             HISTORY
 * Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *------------------------------------------------------------------------------
 * $Revision$
 * $Modtime$
 * $Log$
 * 
 *------------------------------------------------------------------------------
 * Upper this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
 *============================================================================
 ****************************************************************************/
#ifndef  _CMU200_H_
#define  _CMU200_H_

#include <vcl.h>
#include <stdio.h>

// equipment
#include "visa.h"

// RF
#ifndef   _RF_BAND_H_
#include "rf_band.h"
#endif

#define CMU_PGSM_BAND                       1			/* PGSM band */
#define CMU_EGSM_BAND                       2			/* EGSM band */
#define CMU_DCS1800_BAND                    3			/* DCS 1800 band */
#define CMU_PCS1900_BAND                    4			/* PCS 1900 band */
#define CMU_GSM850_BAND                     5			/* GSM 850 band */

// generator
typedef enum
{
    CMU200_GEN_TSC_ALL_ZERO = 0,
    CMU200_GEN_TSC_GSM_0,
    CMU200_GEN_TSC_GSM_1,
    CMU200_GEN_TSC_GSM_2,
    CMU200_GEN_TSC_GSM_3,
    CMU200_GEN_TSC_GSM_4,
    CMU200_GEN_TSC_GSM_5,
    CMU200_GEN_TSC_GSM_6,
    CMU200_GEN_TSC_GSM_7,
    CMU200_GEN_TSC_DUMMY
}E_CMU200_GEN_TSC_TYPE_T;    

typedef enum
{
    CMU200_GEN_BIT_MODU_OFF = 0,
    CMU200_GEN_BIT_MODU_ALL_ZERO,
    CMU200_GEN_BIT_MODU_PRBS,
    CMU200_GEN_BIT_MODU_DUMMY_BURST,
    CMU200_GEN_BIT_MODU_8_PSK_ALL_ZERO,
    CMU200_GEN_BIT_MODU_8_PSK_PRBS
}E_CMU200_GEN_BIT_MODU_T;

// read/fetch/sample modulation category
#define PH_ERR_PEAK_CURRENT                 0
#define PH_ERR_PEAK_AVERAGE                 1
#define PH_ERR_PEAK_MAX_MIN                 2
#define PH_ERR_RMS_CURRENT                  3
#define PH_ERR_RMS_AVERAGE                  4
#define PH_ERR_RMS_MAX_MIN                  5
#define FREQ_ERR_CURRENT                    6
#define FREQ_ERR_AVERAGE                    7
#define FREQ_ERR_MAX_MIN                    8
#define AVG_BURST_POWER_CURRENT             9
#define BURST_OUT_OF_TOTAL                 10

// read/fetch/sample 8psk modulation category
typedef enum
{
    EPSK_MOD_95TH_PERCENTILE_PH_ERR=0,
    EPSK_MOD_PH_ERR_PEAK_CURRENT,
    EPSK_MOD_PH_ERR_PEAK_AVERAGE,
    EPSK_MOD_PH_ERR_PEAK_MAX_MIN,
    EPSK_MOD_PH_ERR_RMS_CURRENT,
    EPSK_MOD_PH_ERR_RMS_AVERAGE,
    EPSK_MOD_PH_ERR_RMS_MAX_MIN,
    EPSK_MOD_ORIGINAL_OFFSET_CURRENT,
    EPSK_MOD_ORIGINAL_OFFSET_AVERAGE,
    EPSK_MOD_ORIGINAL_OFFSET_MAX_MIN,
    EPSK_MOD_FREQ_ERR_CURRENT,
    EPSK_MOD_FREQ_ERR_AVERAGE,
    EPSK_MOD_FREQ_ERR_MAX_MIN,
    EPSK_MOD_AVG_BURST_POWER_CURR,
    EPSK_MOD_BURSTS_OUT_OF_TOL,
    EPSK_MOD_IQ_IMBALANCE_CURRENT,
    EPSK_MOD_IQ_IMBALANCE_AVERAGE,
    EPSK_MOD_IQ_IMBALANCE_MAX_MIN,
    EPSK_MOD_PH_ERR_END
} E_EPSK_MOD_PH_ERR;

typedef enum
{
    EPSK_MOD_OVERVIEW_95TH_PERCENT_EVM = 0,
    EPSK_MOD_OVERVIEW_95TH_PERCENT_MAG_ERR,
    EPSK_MOD_OVERVIEW_95TH_PERCENT_PH_ERR,
    EPSK_MOD_OVERVIEW_EVM_PEAK_CURRENT,
    EPSK_MOD_OVERVIEW_EVM_PEAK_AVERAGE,
    EPSK_MOD_OVERVIEW_EVM_PEAK_MAX_MIN,
    EPSK_MOD_OVERVIEW_EVM_RMS_CURRENT,
    EPSK_MOD_OVERVIEW_EVM_RMS_AVERAGE,
    EPSK_MOD_OVERVIEW_EVM_RMS_MAX_MIN,
    EPSK_MOD_OVERVIEW_MAGN_ERR_PEAK_CURRENT,
    EPSK_MOD_OVERVIEW_MAGN_ERR_PEAK_AVERAGE,
    EPSK_MOD_OVERVIEW_MAGN_ERR_PEAK_MAX_MIN,
    EPSK_MOD_OVERVIEW_MAGN_ERR_RMS_CURRENT,
    EPSK_MOD_OVERVIEW_MAGN_ERR_RMS_AVERAGE,
    EPSK_MOD_OVERVIEW_MAGN_ERR_RMS_MAX_MIN,
    EPSK_MOD_OVERVIEW_PH_ERR_PEAK_CURRENT,
    EPSK_MOD_OVERVIEW_PH_ERR_PEAK_AVERAGE,
    EPSK_MOD_OVERVIEW_PH_ERR_PEAK_MAX_MIN,
    EPSK_MOD_OVERVIEW_PH_ERR_RMS_CURRENT,
    EPSK_MOD_OVERVIEW_PH_ERR_RMS_AVERAGE,
    EPSK_MOD_OVERVIEW_PH_ERR_RMS_MAX_MIN,
    EPSK_MOD_OVERVIEW_ORIGINAL_OFFSET_CURRENT,
    EPSK_MOD_OVERVIEW_ORIGINAL_OFFSET_AVERAGE,
    EPSK_MOD_OVERVIEW_ORIGINAL_OFFSET_MAX_MIN,
    EPSK_MOD_OVERVIEW_IQ_IMBALANCE_CURRENT,
    EPSK_MOD_OVERVIEW_IQ_IMBALANCE_AVERAGE,
    EPSK_MOD_OVERVIEW_IQ_IMBALANCE_MAX_MIN,
    EPSK_MOD_OVERVIEW_FREQ_ERR_CURRENT,
    EPSK_MOD_OVERVIEW_FREQ_ERR_AVERAGE,
    EPSK_MOD_OVERVIEW_FREQ_ERR_MAX_MIN,
    EPSK_MOD_OVERVIEW_AVG_BURST_POWER_CURR,
    EPSK_MOD_OVERVIEW_BURSTS_OUT_OF_TOTAL,
    EPSK_MOD_OVERVIEW_END
} E_EPSK_MOD_OVERVIEW;

typedef enum
{
    EPSK_MOD_
} E_EPSK_MOD;

typedef struct
{
    double d_burstpower[4];
}
S_MULTISLOT_BURST_POWER;

typedef enum
{
    TIMESLOT_0=0,
    TIMESLOT_1,
    TIMESLOT_2,
    TIMESLOT_3,
    TIMESLOT_4,
    TIMESLOT_5,
    TIMESLOT_6,
    TIMESLOT_7,
}E_TIMESLOT;

typedef enum
{
    MOD_GMSK=0,
    MOD_EPSK
}E_MODULATION_TYPE;
// read/fetch/sample modulation external phase error category
#define XPER_PH_ERR_PEAK_CURRENT              0
#define XPER_PH_ERR_PEAK_AVERAGE              1
#define XPER_PH_ERR_PEAK_MAXMIN               2
#define XPER_PH_ERR_RMS_CURRENT               3
#define XPER_PH_ERR_RMS_AVERAGE               4
#define XPER_PH_ERR_RMS_MAXMIN                5
#define XPER_ORIGINAL_OFFSET_CURRENT          6
#define XPER_ORIGINAL_OFFSET_AVERAGE          7
#define XPER_ORIGINAL_OFFSET_MAXMIN           8
#define XPER_IQ_IMBALANCE_CURRENT             9
#define XPER_IQ_IMBALANCE_AVERAGE            10
#define XPER_IQ_IMBALANCE_MAXMIN             11
#define XPER_FREQ_ERR_CURRENT                12
#define XPER_FREQ_ERR_AVERAGE                13
#define XPER_FREQ_ERR_MAXMIN                 14
#define XPER_AVG_BURST_POWER_CURRENT         15
#define XPER_BURST_OUT_OF_TOTAL              16
#define XPER_PHASE_OF_ORIGINAL_OFFSET_VECTOR 17

#define BUF 2048
//---------------------------------------------------------------------------
class CMU_VAR
{
 private:
    
 protected:

 public:

    bool bSigEnable;
    int TMO;
    ViSession RM, base, gsm, dcs, pcs, gsm850;
    AnsiString ADD, BAND;
    double loss_gsm850_i;
    double loss_gsm850_o;
    double loss_gsm_i;
    double loss_gsm_o;
    double loss_dcs_i;
    double loss_dcs_o;
    double loss_pcs_i;
    double loss_pcs_o;
    double loss_bt_i;
    double loss_bt_o;
    double TXP;

    // signalling
    ViSession s_gsm;
    ViSession s_dcs;
    ViSession s_pcs;
    ViSession s_gsm850;
    ViSession s_bt;
    AnsiString s_BAND;
};

//------------------------------------------------------------------------------
//extern  bool cmu_init(CMU_VAR *cmu);
extern  bool cmu_init_rfg(CMU_VAR *cmu);
extern  bool cmu_init_TX_FreqErr(CMU_VAR *cmu);
extern  bool cmu_init_RCT(CMU_VAR *cmu, AnsiString asFreqBand, bool bReset );
extern  bool cmu_close(CMU_VAR *cmu, AnsiString asFreqBand);
extern  bool cmu_close_RM(CMU_VAR *cmu);

//cmu control functions---------------------------------------------------------
extern  bool cmu_cellband(int band, CMU_VAR *cmu);
extern  bool cmu_pow_cont(bool set, CMU_VAR *cmu);

extern  bool cmu_tsc(int tsc, CMU_VAR *cmu);

//cmu generator functions-------------------------------------------------------
extern  bool cmu_bcharfcn(short chan, CMU_VAR *cmu);
extern  bool cmu_cellpower(double power, CMU_VAR *cmu);
extern  bool cmu_gen_freq_offset(CMU_VAR *cmu, double d_freq);
extern  bool cmu_gen_tsc(E_CMU200_GEN_TSC_TYPE_T tsc, CMU_VAR *cmu);
extern  bool cmu_gen_bit_mod(E_CMU200_GEN_BIT_MODU_T mode, CMU_VAR *cmu);

//cmu analyser functions--------------------------------------------------------
extern  bool cmu_tcharfcn(short chan, CMU_VAR *cmu);
extern  bool cmu_pdtcharfcn(short chan, CMU_VAR *cmu);
extern  bool cmu_mxtxlevel(int lev, CMU_VAR *cmu);
extern  bool cmu_config_txpwr_control_mode( CMU_VAR *cmu, int count );
extern  bool cmu_config_txpwr_control_mode_epsk( CMU_VAR *cmu, int count );
extern  bool cmu_config_txpwr_repetition_single_shot( CMU_VAR *cmu );
extern  bool cmu_config_txpwr_repetition_single_shot_epsk( CMU_VAR *cmu );
extern  bool cmu_config_txpwr_repetition_continuous( CMU_VAR *cmu );
extern  bool cmu_config_txpwr_repetition_continuous_epsk( CMU_VAR *cmu );
extern  bool cmu_readtxpower(double *pow, CMU_VAR *cmu);
extern  bool cmu_readtxpower_8psk(double *pow, CMU_VAR *cmu);
//-- cmu modulation functions --------------------------------------------------
extern  bool cmu_mod_tran(CMU_VAR *cmu,bool is_burst_mode);
extern  bool cmu_mod_init(CMU_VAR *cmu);
extern  bool cmu_mod_config_control_mode(CMU_VAR *cmu, int count);
extern  bool cmu_mod_config_control_mode_8psk(CMU_VAR *cmu, int count);
extern  bool cmu_mod_overview_config_control_mode_8psk(CMU_VAR *cmu, int count);
extern  bool cmu_mod_config_control_repetition(CMU_VAR *cmu, int count);
extern  bool cmu_mod_config_control_repetition_8psk(CMU_VAR *cmu, int count);
extern  bool cmu_mod_read(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_read_8psk(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_overview_read_8psk(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_overview_fetch_8psk(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_fetch(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_fetch_8psk(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_sample(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_sample_8psk(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_abort(CMU_VAR *cmu);
extern  bool cmu_mod_abort_8psk(CMU_VAR *cmu);
extern  bool cmu_mod_stop(CMU_VAR *cmu);
extern  bool cmu_mod_stop_8psk(CMU_VAR *cmu);

//------------------------------------------------------------------------------
// EPSK TX IQ
extern  bool cmu_Fetch_EPSK_Average_TxIq(CMU_VAR *cmu, ViReal64 *p_virSBS, ViReal64 *p_virOOS);

//--- cmu external phase error -------------------------------------------------
extern  bool cmu_mod_xper_init( CMU_VAR *cmu );
extern  bool cmu_mod_xper_config_control_mode( CMU_VAR *cmu, int count );
extern  bool cmu_mod_xper_config_control_repetition( CMU_VAR *cmu, int count );
extern  bool cmu_mod_xper_config_control_subarray( CMU_VAR *cmu, int sample );
extern  bool cmu_mod_xper_read(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_xper_read_txiq(CMU_VAR *cmu, double *d_IQ_Imbalance, double *d_Original_Offset);
extern  bool cmu_mod_xper_fetch(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_xper_sample(CMU_VAR *cmu, int category, double *mod);
extern  bool cmu_mod_xper_abort( CMU_VAR *cmu );
//--- cmu multislot -------------------------------------------------
extern  bool cmu_config_multislot_txpower_control_mode( CMU_VAR *cmu, int count );
extern  bool cmu_config_multislot_txpower_repetition_single_shot( CMU_VAR *cmu );
extern  bool cmu_config_trigger_slot_offset( CMU_VAR *cmu, E_TIMESLOT timeslot );
extern  bool cmu_config_multi_slot_count( CMU_VAR *cmu, int timeslot_count );
extern  bool cmu_config_multislot_modulation( CMU_VAR *cmu, E_MODULATION_TYPE modulation );
extern  bool cmu_read_multislot_average_txpower( CMU_VAR *cmu, S_MULTISLOT_BURST_POWER *power );
#endif