cmu200_sig.cpp

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")
*  RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
*  AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
*  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
*  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
*  NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
*  SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
*  SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
*  THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
*  NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
*  SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
*  BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
*  LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
*  AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
*  OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
*  MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
*  THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
*  WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
*  LAWS PRINCIPLES.  ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
*  RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
*  THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*****************************************************************************
 *
 * Filename:
 * ---------
 *   cmu200_sig.cpp
 *
 * Project:
 * --------
 *   Maui META APP
 *
 * Description:
 * ------------
 *  CMU 200 signalling function source
 *
 * 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!!
 *============================================================================
 ****************************************************************************/

#pragma hdrstop

#ifndef _META_FACTORY_CFG_H_
#include "meta_factory_cfg.h"
#endif

#ifndef  _META_UTILS_H_
#include "meta_utils.h"
#endif

#ifndef _META_FACTORY_H_
#include "meta_factory.h"
#endif

#ifndef _FORM_MAIN_H_
#include "form_main.h"
#endif

#ifndef  _CMU200_SIG_H_
#include "cmu200_sig.h"
#endif


#pragma package(smart_init)



//=============================================================================
///////////////////////      General      //////////////////////////////////
//=============================================================================
//---------------------------------------------------------------------------
bool cmu_sig_init_RCT(CMU_VAR *cmu, AnsiString asFreqBand, bool bReset )
{
    int status;
    unsigned long num;
    char cmd[BUF], buf[BUF];

    if (NULL == cmu->RM)
    {
        status=viOpenDefaultRM(&cmu->RM);
        if( status<VI_SUCCESS ) return false;

        status=viOpen(cmu->RM, (cmu->ADD+"::0::INSTR").c_str(), VI_NULL, cmu->TMO, &(*cmu).base);
        if( status<VI_SUCCESS ) return false;

        status=viSetAttribute(cmu->base, VI_ATTR_TMO_VALUE, cmu->TMO);
        if( status<VI_SUCCESS ) return false;

        if (bReset)
        {
            strcpy(cmd, "*rst"); viWrite(cmu->base, cmd, strlen(cmd), &num);
        }    
    }
    if ( IsCmuBandSupported( asFreqBand, CMU_PGSM_BAND) || IsCmuBandSupported( asFreqBand, CMU_EGSM_BAND) )
    {
        strcpy(cmd, "SYST:REM:ADDR:SEC 13,\"GSM900MS_Sig\""); viWrite(cmu->base, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_DCS1800_BAND) )
    {
        strcpy(cmd, "SYST:REM:ADDR:SEC 15,\"GSM1800MS_Sig\""); viWrite(cmu->base, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_PCS1900_BAND) )
    {
        strcpy(cmd, "SYST:REM:ADDR:SEC 17,\"GSM1900MS_Sig\""); viWrite(cmu->base, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_GSM850_BAND) )
    {
        strcpy(cmd, "SYST:REM:ADDR:SEC 19,\"GSM850MS_Sig\""); viWrite(cmu->base, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_PGSM_BAND) || IsCmuBandSupported( asFreqBand, CMU_EGSM_BAND) )
    {
        status=viOpen(cmu->RM, (cmu->ADD+"::13::INSTR").c_str(), VI_NULL, cmu->TMO, &(*cmu).s_gsm);
        if( status<VI_SUCCESS ) return false;

        status=viSetAttribute(cmu->s_gsm, VI_ATTR_TMO_VALUE, cmu->TMO);
        if( status<VI_SUCCESS ) return false;
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_DCS1800_BAND) )
    {
        status=viOpen(cmu->RM, (cmu->ADD+"::15::INSTR").c_str(), VI_NULL, cmu->TMO, &(*cmu).s_dcs);
        if( status<VI_SUCCESS ) return false;

        status=viSetAttribute(cmu->s_dcs, VI_ATTR_TMO_VALUE, cmu->TMO);
        if( status<VI_SUCCESS ) return false;
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_PCS1900_BAND) )
    {
        status=viOpen(cmu->RM, (cmu->ADD+"::17::INSTR").c_str(), VI_NULL, cmu->TMO, &(*cmu).s_pcs);
        if( status<VI_SUCCESS ) return false;

        status=viSetAttribute(cmu->s_pcs, VI_ATTR_TMO_VALUE, cmu->TMO);
        if( status<VI_SUCCESS ) return false;
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_GSM850_BAND) )
    {
        status=viOpen(cmu->RM, (cmu->ADD+"::19::INSTR").c_str(), VI_NULL, cmu->TMO, &(*cmu).s_gsm850);
        if( status<VI_SUCCESS ) return false;

        status=viSetAttribute(cmu->s_gsm850, VI_ATTR_TMO_VALUE, cmu->TMO);
        if( status<VI_SUCCESS ) return false;
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_PCS1900_BAND) )
    {
        if( bReset )
        {
            strcpy(cmd, "*rst"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
           // Sleep(2500);
        }
       // strcpy(cmd, "PROCedure:SIGNalling:ACTion SON"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
    }

   //
    if ( IsCmuBandSupported( asFreqBand, CMU_DCS1800_BAND) )
    {
        if( bReset )
        {
            strcpy(cmd, "*rst"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
           // Sleep(2500);
        }
       // strcpy(cmd, "PROCedure:SIGNalling:ACTion SON"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
    }

  //
    if ( IsCmuBandSupported( asFreqBand, CMU_PGSM_BAND) || IsCmuBandSupported( asFreqBand, CMU_EGSM_BAND) )
    {
        if( bReset )
        {
            strcpy(cmd, "*rst"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
            //Sleep(2500);
        }
       // strcpy(cmd, "PROCedure:SIGNalling:ACTion SON"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
    }

//gsm nonsignaling setup--------------------------------------------------------
   //Sleep(500);
    if ( IsCmuBandSupported( asFreqBand, CMU_GSM850_BAND) )
    {
        if( bReset )
        {
            strcpy(cmd, "*rst"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
           // Sleep(2500);
        }
       // strcpy(cmd, "PROCedure:SIGNalling:ACTion SON"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
    }

    //gsm nonsignaling setup--------------------------------------------------------
    if ( IsCmuBandSupported( asFreqBand, CMU_PGSM_BAND) || IsCmuBandSupported( asFreqBand, CMU_EGSM_BAND) )
    {
        strcpy(cmd, "INP:STAT RF2"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        strcpy(cmd, "OUTP:STAT RF2"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:INP2 %f", cmu->loss_gsm_i); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:OUTP2 %f", cmu->loss_gsm_o); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:BSSignal:CCH:MODE BATC"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:NETWork:SMODe:SCHannel NONE"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
        sprintf(cmd, "TRIG:SOUR IFP"); viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_DCS1800_BAND) )
    {
        strcpy(cmd, "INP:STAT RF2"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        strcpy(cmd, "OUTP:STAT RF2"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:INP2 %f", cmu->loss_dcs_i); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:OUTP2 %f", cmu->loss_dcs_o); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:BSSignal:CCH:MODE BATC"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:NETWork:SMODe:SCHannel NONE"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "TRIG:SOUR IFP"); viWrite(cmu->s_dcs, cmd, strlen(cmd), &num);
    }

    if ( IsCmuBandSupported( asFreqBand, CMU_PCS1900_BAND) )
    {
        strcpy(cmd, "INP:STAT RF2"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        strcpy(cmd, "OUTP:STAT RF2"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:INP2 %f", cmu->loss_pcs_i); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:OUTP2 %f", cmu->loss_pcs_o); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:BSSignal:CCH:MODE BATC"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:NETWork:SMODe:SCHannel NONE"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
        sprintf(cmd, "TRIG:SOUR IFP"); viWrite(cmu->s_pcs, cmd, strlen(cmd), &num);
    }

 // gsm850
 //gsm850 nonsignaling setup--------------------------------------------------------
    if ( IsCmuBandSupported( asFreqBand, CMU_GSM850_BAND) )
    {
        strcpy(cmd, "INP:STAT RF2"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        strcpy(cmd, "OUTP:STAT RF2"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:INP2 %f", cmu->loss_gsm850_i); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        sprintf(cmd, "SENS:CORR:LOSS:OUTP2 %f", cmu->loss_gsm850_o); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:BSSignal:CCH:MODE BATC"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        sprintf(cmd, "CONFigure:NETWork:SMODe:SCHannel NONE"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);
        sprintf(cmd, "TRIG:SOUR IFP"); viWrite(cmu->s_gsm850, cmd, strlen(cmd), &num);

    }
    return true;
}

//------------------------------------------------------------------------------
bool cmu_sig_close(CMU_VAR *cmu, AnsiString asFreqBand)
{
    int status;
    unsigned long num;
    char cmd[BUF];
    
   // if (cmu->BAND.AnsiCompareIC("GSM") == 0)
   // {
   //     if (NULL != cmu->s_gsm)
   //     {
   //         strcpy(cmd, "ABOR:RFG");
   //         viWrite(cmu->s_gsm, cmd, strlen(cmd), &num);
   //     }
    //}
    //else if (cmu->BAND.AnsiCompareIC("DCS") == 0)
   // {
   //     if (NULL != cmu->s_dcs)