protectoc_back_accelerate.c

电力系统中的保护装置全部代码

/********************************************************************************/
/*                                                                              */
/* 程序名:							                */
/*                                                                              */
/*      OC_ACCELERATE.C 	                               		        */
/*                                                                              */
/* 功能:	                  		                           		*/
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/*                                                                              */
/********************************************************************************/

#include        "BaseVariable.h" 
#include	"ProOC_ACC.h"

///////////////////////////////////////////
////////////////保护初始化函数///////////////
///////////////////////////////////////////

VOID	OC_ACC_Initialize(PROTECT *ptr)
{
PROTECT         *pProtect;
SETTING         *pSets;
SOE             *pSoe;
VALUE           *pValue;
JUMPER          *pJumper; 
REPORT          *pReport;
int i;

// ----------------------------------------------------- // 
//保护结构体指针赋值
    pProtect = ptr; 
//保护缓冲区指针赋值
    pProtect->pro_jumper 	= OC_ACC_jumper;
    pProtect->pro_setting 	= OC_ACC_setting;		
    pProtect->pro_run_data 	= OC_ACC_rundata;
//保护ID号
    pProtect->pro_id = PRO_Total_Protect;
//保护装置名
    pProtect->ppro_device_name = "WXH-821"; 
//保护名	
    pProtect->ppro_name = "过流加速保护";
//跳闸位
    pProtect->pro_trip = 0x1;	
	

//////模拟通道  
// ----------------------------------------------------- //
//相电流                       	
    pProtect->pro_analog_channel[0]    =    PIa_Chn;
    pProtect->pro_analog_channel[1]    =    PIb_Chn;
    pProtect->pro_analog_channel[2]    =    PIc_Chn;
        
//////压板
// ----------------------------------------------------- //
//压板个数
    pProtect->pro_jumper_number    =    0;
//指针赋值            
    pJumper = pProtect->pro_jumper;  
//ID号
    pJumper->pro_id    =    pProtect -> pro_id;	
//序号 
    pJumper->jum_id    =    pProtect -> pro_jumper_number;                                         
//INF号 
    pJumper->jum_inf    =    176;//modify 6.11
//CONTROLINF 
    pJumper->jum_ctrl   =    60;                                            
//压板名称 
    pJumper->pjum_name     =    "过流加速投退";
    pJumper->pjum_alias    =    "JS";
//压板状态 
    pJumper->jum_status    =    1; 
//赋值增量
    pJumper++;  
    pProtect->pro_jumper_number++; 

//////定值 
// ----------------------------------------------------- //
//定值个数                        
    pProtect->pro_setting_number = 0;
    pSets = pProtect->pro_setting;
   //------------------------------------------------//
       	
//电流      
    pSets->pro_id    =    pProtect->pro_id;       
    pSets->set_id    =    ++(pProtect->pro_setting_number);
    pSets->pset_name = (CHAR *)strcpy(pSets->set_name,"加速电流值");                                                 
    pSets->pset_alias    =    "Ijs";	                                                                               
    pSets->pset_dimension     =    "A";
    pSets->set_lower_limit    =    0.5;
    pSets->set_high_limit     =    100.0;
    pSets->set_calculate_style    =    CHL_FOURIER1_;
    pSets->set_calculate_coefficient = CHL_CONSTANT_1; 
    for(i=0;i<SET_ZONE;i++)
    pSets->set_value_zone[i]  =    49.0*CHL_CONSTANT_1; 
    pSets++;
   //------------------------------------------------//
//时限      
    pSets->pro_id    =    pProtect->pro_id;       
    pSets->set_id    =    ++(pProtect->pro_setting_number);                                                  
    pSets->pset_name = (CHAR *)strcpy(pSets->set_name,"加速时间值");                                                 
    pSets->pset_alias 	=    "Tjs";	                                                                           
    pSets->pset_dimension     =    "S";
    pSets->set_lower_limit    =    0.00;
    pSets->set_high_limit     =    100;
    pSets->set_calculate_style    =    CHL_MUL_;
    pSets->set_calculate_coefficient = CHL_CONSTANT_1; 
    for(i=0;i<SET_ZONE;i++)
    pSets->set_value_zone[i]  =    0.2*CHL_CONSTANT_1;
    pSets++;                                                      
                
//////保护投退控制字
// ----------------------------------------------------- //	
//加速方式       
    pSets->pro_id    =    pProtect->pro_id;       
    pSets->set_id    =    ++(pProtect->pro_setting_number);                                                  
    pSets->pset_name = (CHAR *)strcpy(pSets->set_name,"加速方式");                                                    
    pSets->pset_alias 	=    "Mjs";                                                                               
    pSets->pset_dimension     =    " ";
    pSets->set_lower_limit    =    0.00;
    pSets->set_high_limit     =    1.00;
    pSets->set_calculate_style    =    MODE_;
    pSets->set_calculate_coefficient = CHL_CONSTANT_1;
    for(i=0;i<SET_ZONE;i++)
    pSets->set_value_zone[i]  =    0.0*CHL_CONSTANT_1; 
    pSets++;

//////实时参数 
// ----------------------------------------------------- // 
    pProtect->pro_run_data_number    =    0;
    pValue    =    pProtect->pro_run_data;
   //------------------------------------------------// 
    pValue->value_index_number  =    ++(pProtect->pro_run_data_number); 
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ａ相电流");       	                                  
    pValue->pvalue_alias        =    "Ia";	
    pValue->value_calculate_style =    CHL_FOURIER1_;  
    pValue->pvalue_dimension    =    "A";  
    pValue->value_calculate_coefficient = 1; 
    pValue->value_measure       =    0.0; 
    pValue++;
   //------------------------------------------------//
    pValue->value_index_number  =    ++(pProtect->pro_run_data_number); 
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ｂ相电流");        	                                  
    pValue->pvalue_alias        =    "Ib";	
    pValue->value_calculate_style =    CHL_FOURIER1_;  
    pValue->pvalue_dimension  	=    "A";  
    pValue->value_calculate_coefficient = 1; 
    pValue->value_measure       =    0.0;
    pValue++;
   //------------------------------------------------// 
    pValue->value_index_number	=    ++(pProtect->pro_run_data_number);
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ｃ相电流");           	                                  
    pValue->pvalue_alias        =    "Ic";	
    pValue->value_calculate_style =    CHL_FOURIER1_;  
    pValue->pvalue_dimension    =    "A";  
    pValue->value_calculate_coefficient = 1; 
    pValue->value_measure       =    0.0;
    pValue++;

//////报告
// ----------------------------------------------------- //
    pReport = &ACC_Report;
    pReport->pro_report_flag = 2;
//SOE				    					    	
    pSoe = &pReport->pro_report_soe;
   //------------------------------------------------//            	  	
    pSoe->pSOE_name = pProtect->ppro_name; 
    pSoe->SOE_Inf = 101;
    pSoe->DPI = 2; 	
//动作值
    pReport->pro_report_data_number = 0;
    pReport->pro_report_data = OC_ACC_reportdata;
    pValue = pReport->pro_report_data;    
   //------------------------------------------------// 
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ａ相动作电流");
    pValue->pvalue_alias    = "Ia";			
    pValue->value_calculate_style = CHL_FOURIER1_;
    pValue->pvalue_dimension    =    "A";
    pValue->value_calculate_coefficient = CHL_FOURIER_CURRENT;
//    pValue->value_measure     =       Ia_Value;
    pValue->value_index_number  =    pReport->pro_report_data_number;
    pValue++; 
    pReport->pro_report_data_number++; 
   //------------------------------------------------//
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ｂ相动作电流");
    pValue->pvalue_alias    = "Ib";   
    pValue->value_calculate_style = CHL_FOURIER1_;
    pValue->pvalue_dimension    =       "A";
    pValue->value_calculate_coefficient = CHL_FOURIER_CURRENT;
//    pValue->value_measure     =       Ib_Value;
    pValue->value_index_number  =    pReport->pro_report_data_number;
    pValue++;
    pReport->pro_report_data_number++;   
   //------------------------------------------------// 
    pValue->pvalue_name = (CHAR *)strcpy(pValue->value_name,"Ｃ相动作电流");
    pValue->pvalue_alias    = "Ic";   
    pValue->value_calculate_style = CHL_FOURIER1_;
    pValue->pvalue_dimension    =    "A";
    pValue->value_calculate_coefficient = CHL_FOURIER_CURRENT;
//    pValue->value_measure     =       Ic_Value;
    pValue->value_index_number  =    pReport->pro_report_data_number;
    pValue++; 
    pReport->pro_report_data_number++;