package com.whyc.pojo;
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import com.baomidou.mybatisplus.annotation.IdType;
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import com.baomidou.mybatisplus.annotation.TableId;
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import com.baomidou.mybatisplus.annotation.TableName;
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import io.swagger.annotations.ApiModel;
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import io.swagger.annotations.ApiModelProperty;
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import java.io.Serializable;
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import java.util.Date;
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@TableName(schema = "db_pwrdev_data_rt",value ="tb_upspower_simulate")
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@ApiModel("ups电源遥测量实时状态表")
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public class UpsPowerSimulate{
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@TableId(value = "num", type = IdType.AUTO)
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private Long num;
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private Integer powerDeviceId;
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@ApiModelProperty(value = "更新时间")
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private Date recordTime;
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@ApiModelProperty(value = "A相输入电压")
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private Float acinVola;
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@ApiModelProperty(value = "B相输入电压")
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private Float acinVolb;
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@ApiModelProperty(value = "C相输入电压")
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private Float acinVolc;
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@ApiModelProperty(value = "A相输出电压")
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private Float acoutVola;
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@ApiModelProperty(value = "B相输出电压")
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private Float acoutVolb;
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@ApiModelProperty(value = "C相输出电压")
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private Float acoutVolc;
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@ApiModelProperty(value = "A相输出电流")
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private Float acoutCurra;
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@ApiModelProperty(value = "B相输出电流")
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private Float acoutCurrb;
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@ApiModelProperty(value = "C相输出电流")
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private Float acoutCurrc;
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@ApiModelProperty(value = "直流输入电压[电池组1电池电压]")
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private Float dcinVol;
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@ApiModelProperty(value = "输出频率")
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private Float outFreq;
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@ApiModelProperty(value = "AB线输入电压")
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private Float abinVol;
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@ApiModelProperty(value = "BC线输入电压")
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private Float bcinVol;
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@ApiModelProperty(value = "CA线输入电压")
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private Float cainVol;
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@ApiModelProperty(value = "A相输入电流")
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private Float acinCurra;
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@ApiModelProperty(value = "B相输入电流")
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private Float acinCurrb;
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@ApiModelProperty(value = "C相输入电流")
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private Float acinCurrc;
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@ApiModelProperty(value = "输入频率")
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private Float inFreq;
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@ApiModelProperty(value = "A相输入功率因数")
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private Float inPowerfactorA;
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@ApiModelProperty(value = "B相输入功率因数")
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private Float inPowerfactorB;
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@ApiModelProperty(value = "C相输入功率因数")
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private Float inPowerfactorC;
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@ApiModelProperty(value = "A相旁路电压")
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private Float passVola;
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@ApiModelProperty(value = "B相旁路电压")
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private Float passVolb;
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@ApiModelProperty(value = "C相旁路电压")
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private Float passVolc;
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@ApiModelProperty(value = "旁路频率")
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private Float passFreq;
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@ApiModelProperty(value = "AB线输出电压")
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private Float aboutVol;
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@ApiModelProperty(value = "BC线输出电压")
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private Float bcoutVol;
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@ApiModelProperty(value = "CA线输出电压")
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private Float caoutVol;
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@ApiModelProperty(value = "AB线旁路电压")
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private Float abpassVol;
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@ApiModelProperty(value = "BC线旁路电压")
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private Float bcpassVol;
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@ApiModelProperty(value = "CA线旁路电压")
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private Float capassVol;
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@ApiModelProperty(value = "A相输出功率因数")
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private Float outPowerfactorA;
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@ApiModelProperty(value = "B相输出功率因数")
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private Float outPowerfactorB;
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@ApiModelProperty(value = "C相输出功率因数")
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private Float outPowerfactorC;
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@ApiModelProperty(value = "A相输出峰值比")
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private Float outPeakratioA;
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@ApiModelProperty(value = "B相输出峰值比")
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private Float outPeakratioB;
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@ApiModelProperty(value = "C相输出峰值比")
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private Float outPeakratioC;
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@ApiModelProperty(value = "A相输出有功功率")
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private Float outActpowerA;
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@ApiModelProperty(value = "B相输出有功功率")
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private Float outActpowerB;
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@ApiModelProperty(value = "C相输出有功功率")
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private Float outActpowerC;
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@ApiModelProperty(value = "A相输出无功功率")
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private Float outReapowerA;
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@ApiModelProperty(value = "B相输出无功功率")
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private Float outReapowerB;
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@ApiModelProperty(value = "C相输出无功功率")
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private Float outReapowerC;
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@ApiModelProperty(value = "A相输出视在功率")
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private Float outApppowerA;
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@ApiModelProperty(value = "B相输出视在功率")
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private Float outApppowerB;
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@ApiModelProperty(value = "C相输出视在功率")
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private Float outApppowerC;
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@ApiModelProperty(value = "A相输出负载百分比")
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private Float outLoadpercentA;
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@ApiModelProperty(value = "B相输出负载百分比")
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private Float outLoadpercentB;
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@ApiModelProperty(value = "C相输出负载百分比")
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private Float outLoadpercentC;
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@ApiModelProperty(value = "系统A相输出有功功率")
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private Float sysoutActpowerA;
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@ApiModelProperty(value = "系统B相输出有功功率")
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private Float sysoutActpowerB;
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@ApiModelProperty(value = "系统C相输出有功功率")
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private Float sysoutActpowerC;
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@ApiModelProperty(value = "系统A相输出视在功率")
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private Float sysoutApppowerA;
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@ApiModelProperty(value = "系统B相输出视在功率")
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private Float sysoutApppowerB;
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@ApiModelProperty(value = "系统C相输出视在功率")
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private Float sysoutApppowerC;
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@ApiModelProperty(value = "系统A相输出无功功率")
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private Float sysoutReapowerA;
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@ApiModelProperty(value = "系统B相输出无功功率")
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private Float sysoutReapowerB;
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@ApiModelProperty(value = "系统C相输出无功功率")
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private Float sysoutReapowerC;
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@ApiModelProperty(value = "整机环境温度")
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private Float devEnvirTemp;
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@ApiModelProperty(value = "电池后备时间")
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private Float battBackupTime;
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@ApiModelProperty(value = "正电池电压")
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private Float battPosivol;
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@ApiModelProperty(value = "正电池电流")
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private Float battPosicurr;
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@ApiModelProperty(value = "负电池电压")
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private Float battNegavol;
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@ApiModelProperty(value = "负电池电流")
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private Float battNegacurr;
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@ApiModelProperty(value = "电池老化系数")
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private Float battAgecoefficient;
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@ApiModelProperty(value = "电池温度")
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private Float battTemp;
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@ApiModelProperty(value = "环境温度")
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private Float envirTemp;
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public Long getNum() {
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return num;
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}
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public void setNum(Long num) {
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this.num = num;
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}
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public Integer getPowerDeviceId() {
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return powerDeviceId;
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}
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public void setPowerDeviceId(Integer powerDeviceId) {
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this.powerDeviceId = powerDeviceId;
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}
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public Date getRecordTime() {
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return recordTime;
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}
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public void setRecordTime(Date recordTime) {
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this.recordTime = recordTime;
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}
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public Float getAcinVola() {
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return acinVola;
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}
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public void setAcinVola(Float acinVola) {
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this.acinVola = acinVola;
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}
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public Float getAcinVolb() {
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return acinVolb;
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}
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public void setAcinVolb(Float acinVolb) {
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this.acinVolb = acinVolb;
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}
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public Float getAcinVolc() {
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return acinVolc;
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}
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public void setAcinVolc(Float acinVolc) {
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this.acinVolc = acinVolc;
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}
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public Float getAcoutVola() {
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return acoutVola;
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}
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public void setAcoutVola(Float acoutVola) {
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this.acoutVola = acoutVola;
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}
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public Float getAcoutVolb() {
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return acoutVolb;
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}
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public void setAcoutVolb(Float acoutVolb) {
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this.acoutVolb = acoutVolb;
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}
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public Float getAcoutVolc() {
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return acoutVolc;
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}
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public void setAcoutVolc(Float acoutVolc) {
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this.acoutVolc = acoutVolc;
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}
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public Float getAcoutCurra() {
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return acoutCurra;
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}
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public void setAcoutCurra(Float acoutCurra) {
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this.acoutCurra = acoutCurra;
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}
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public Float getAcoutCurrb() {
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return acoutCurrb;
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}
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public void setAcoutCurrb(Float acoutCurrb) {
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this.acoutCurrb = acoutCurrb;
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}
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public Float getAcoutCurrc() {
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return acoutCurrc;
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}
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public void setAcoutCurrc(Float acoutCurrc) {
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this.acoutCurrc = acoutCurrc;
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}
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public Float getDcinVol() {
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return dcinVol;
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}
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public void setDcinVol(Float dcinVol) {
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this.dcinVol = dcinVol;
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}
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public Float getOutFreq() {
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return outFreq;
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}
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public void setOutFreq(Float outFreq) {
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this.outFreq = outFreq;
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}
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public Float getAbinVol() {
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return abinVol;
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}
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public void setAbinVol(Float abinVol) {
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this.abinVol = abinVol;
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}
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public Float getBcinVol() {
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return bcinVol;
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}
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public void setBcinVol(Float bcinVol) {
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this.bcinVol = bcinVol;
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}
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public Float getCainVol() {
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return cainVol;
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}
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public void setCainVol(Float cainVol) {
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this.cainVol = cainVol;
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}
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public Float getAcinCurra() {
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return acinCurra;
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}
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public void setAcinCurra(Float acinCurra) {
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this.acinCurra = acinCurra;
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}
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public Float getAcinCurrb() {
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return acinCurrb;
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}
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public void setAcinCurrb(Float acinCurrb) {
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this.acinCurrb = acinCurrb;
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}
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public Float getAcinCurrc() {
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return acinCurrc;
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}
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public void setAcinCurrc(Float acinCurrc) {
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this.acinCurrc = acinCurrc;
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}
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public Float getInFreq() {
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return inFreq;
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}
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public void setInFreq(Float inFreq) {
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this.inFreq = inFreq;
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}
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public Float getInPowerfactorA() {
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return inPowerfactorA;
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}
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public void setInPowerfactorA(Float inPowerfactorA) {
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this.inPowerfactorA = inPowerfactorA;
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}
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public Float getInPowerfactorB() {
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return inPowerfactorB;
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}
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public void setInPowerfactorB(Float inPowerfactorB) {
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this.inPowerfactorB = inPowerfactorB;
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}
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public Float getInPowerfactorC() {
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return inPowerfactorC;
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}
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public void setInPowerfactorC(Float inPowerfactorC) {
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this.inPowerfactorC = inPowerfactorC;
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}
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public Float getPassVola() {
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return passVola;
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}
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public void setPassVola(Float passVola) {
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this.passVola = passVola;
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}
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public Float getPassVolb() {
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return passVolb;
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}
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public void setPassVolb(Float passVolb) {
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this.passVolb = passVolb;
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}
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public Float getPassVolc() {
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return passVolc;
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}
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public void setPassVolc(Float passVolc) {
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this.passVolc = passVolc;
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}
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public Float getPassFreq() {
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return passFreq;
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}
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public void setPassFreq(Float passFreq) {
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this.passFreq = passFreq;
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}
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public Float getAboutVol() {
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return aboutVol;
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}
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public void setAboutVol(Float aboutVol) {
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this.aboutVol = aboutVol;
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}
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public Float getBcoutVol() {
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return bcoutVol;
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}
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public void setBcoutVol(Float bcoutVol) {
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this.bcoutVol = bcoutVol;
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}
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public Float getCaoutVol() {
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return caoutVol;
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}
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public void setCaoutVol(Float caoutVol) {
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this.caoutVol = caoutVol;
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}
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public Float getAbpassVol() {
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return abpassVol;
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}
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public void setAbpassVol(Float abpassVol) {
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this.abpassVol = abpassVol;
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}
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public Float getBcpassVol() {
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return bcpassVol;
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}
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public void setBcpassVol(Float bcpassVol) {
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this.bcpassVol = bcpassVol;
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}
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public Float getCapassVol() {
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return capassVol;
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}
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public void setCapassVol(Float capassVol) {
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this.capassVol = capassVol;
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}
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public Float getOutPowerfactorA() {
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return outPowerfactorA;
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}
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public void setOutPowerfactorA(Float outPowerfactorA) {
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this.outPowerfactorA = outPowerfactorA;
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}
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public Float getOutPowerfactorB() {
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return outPowerfactorB;
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}
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public void setOutPowerfactorB(Float outPowerfactorB) {
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this.outPowerfactorB = outPowerfactorB;
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}
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public Float getOutPowerfactorC() {
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return outPowerfactorC;
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}
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public void setOutPowerfactorC(Float outPowerfactorC) {
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this.outPowerfactorC = outPowerfactorC;
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}
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public Float getOutPeakratioA() {
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return outPeakratioA;
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}
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public void setOutPeakratioA(Float outPeakratioA) {
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this.outPeakratioA = outPeakratioA;
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}
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public Float getOutPeakratioB() {
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return outPeakratioB;
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}
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public void setOutPeakratioB(Float outPeakratioB) {
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this.outPeakratioB = outPeakratioB;
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}
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public Float getOutPeakratioC() {
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return outPeakratioC;
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}
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public void setOutPeakratioC(Float outPeakratioC) {
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this.outPeakratioC = outPeakratioC;
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}
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public Float getOutActpowerA() {
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return outActpowerA;
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}
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public void setOutActpowerA(Float outActpowerA) {
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this.outActpowerA = outActpowerA;
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}
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public Float getOutActpowerB() {
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return outActpowerB;
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}
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public void setOutActpowerB(Float outActpowerB) {
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this.outActpowerB = outActpowerB;
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}
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public Float getOutActpowerC() {
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return outActpowerC;
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}
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public void setOutActpowerC(Float outActpowerC) {
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this.outActpowerC = outActpowerC;
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}
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public Float getOutReapowerA() {
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return outReapowerA;
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}
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public void setOutReapowerA(Float outReapowerA) {
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this.outReapowerA = outReapowerA;
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}
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public Float getOutReapowerB() {
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return outReapowerB;
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}
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public void setOutReapowerB(Float outReapowerB) {
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this.outReapowerB = outReapowerB;
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}
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public Float getOutReapowerC() {
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return outReapowerC;
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}
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public void setOutReapowerC(Float outReapowerC) {
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this.outReapowerC = outReapowerC;
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}
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public Float getOutApppowerA() {
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return outApppowerA;
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}
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public void setOutApppowerA(Float outApppowerA) {
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this.outApppowerA = outApppowerA;
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}
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public Float getOutApppowerB() {
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return outApppowerB;
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}
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public void setOutApppowerB(Float outApppowerB) {
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this.outApppowerB = outApppowerB;
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}
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public Float getOutApppowerC() {
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return outApppowerC;
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}
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public void setOutApppowerC(Float outApppowerC) {
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this.outApppowerC = outApppowerC;
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}
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public Float getOutLoadpercentA() {
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return outLoadpercentA;
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}
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public void setOutLoadpercentA(Float outLoadpercentA) {
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this.outLoadpercentA = outLoadpercentA;
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}
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public Float getOutLoadpercentB() {
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return outLoadpercentB;
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}
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public void setOutLoadpercentB(Float outLoadpercentB) {
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this.outLoadpercentB = outLoadpercentB;
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}
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public Float getOutLoadpercentC() {
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return outLoadpercentC;
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}
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public void setOutLoadpercentC(Float outLoadpercentC) {
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this.outLoadpercentC = outLoadpercentC;
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}
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public Float getSysoutActpowerA() {
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return sysoutActpowerA;
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}
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public void setSysoutActpowerA(Float sysoutActpowerA) {
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this.sysoutActpowerA = sysoutActpowerA;
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}
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public Float getSysoutActpowerB() {
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return sysoutActpowerB;
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}
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public void setSysoutActpowerB(Float sysoutActpowerB) {
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this.sysoutActpowerB = sysoutActpowerB;
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}
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public Float getSysoutActpowerC() {
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return sysoutActpowerC;
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}
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public void setSysoutActpowerC(Float sysoutActpowerC) {
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this.sysoutActpowerC = sysoutActpowerC;
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}
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public Float getSysoutApppowerA() {
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return sysoutApppowerA;
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}
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public void setSysoutApppowerA(Float sysoutApppowerA) {
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this.sysoutApppowerA = sysoutApppowerA;
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}
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public Float getSysoutApppowerB() {
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return sysoutApppowerB;
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}
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public void setSysoutApppowerB(Float sysoutApppowerB) {
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this.sysoutApppowerB = sysoutApppowerB;
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}
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public Float getSysoutApppowerC() {
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return sysoutApppowerC;
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}
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public void setSysoutApppowerC(Float sysoutApppowerC) {
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this.sysoutApppowerC = sysoutApppowerC;
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}
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public Float getSysoutReapowerA() {
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return sysoutReapowerA;
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}
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public void setSysoutReapowerA(Float sysoutReapowerA) {
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this.sysoutReapowerA = sysoutReapowerA;
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}
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public Float getSysoutReapowerB() {
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return sysoutReapowerB;
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}
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public void setSysoutReapowerB(Float sysoutReapowerB) {
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this.sysoutReapowerB = sysoutReapowerB;
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}
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public Float getSysoutReapowerC() {
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return sysoutReapowerC;
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}
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public void setSysoutReapowerC(Float sysoutReapowerC) {
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this.sysoutReapowerC = sysoutReapowerC;
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}
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public Float getDevEnvirTemp() {
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return devEnvirTemp;
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}
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public void setDevEnvirTemp(Float devEnvirTemp) {
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this.devEnvirTemp = devEnvirTemp;
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}
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public Float getBattBackupTime() {
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return battBackupTime;
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}
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public void setBattBackupTime(Float battBackupTime) {
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this.battBackupTime = battBackupTime;
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}
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public Float getBattPosivol() {
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return battPosivol;
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}
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public void setBattPosivol(Float battPosivol) {
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this.battPosivol = battPosivol;
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}
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public Float getBattPosicurr() {
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return battPosicurr;
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}
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public void setBattPosicurr(Float battPosicurr) {
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this.battPosicurr = battPosicurr;
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}
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public Float getBattNegavol() {
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return battNegavol;
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}
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public void setBattNegavol(Float battNegavol) {
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this.battNegavol = battNegavol;
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}
|
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public Float getBattNegacurr() {
|
return battNegacurr;
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}
|
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public void setBattNegacurr(Float battNegacurr) {
|
this.battNegacurr = battNegacurr;
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}
|
|
public Float getBattAgecoefficient() {
|
return battAgecoefficient;
|
}
|
|
public void setBattAgecoefficient(Float battAgecoefficient) {
|
this.battAgecoefficient = battAgecoefficient;
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}
|
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public Float getBattTemp() {
|
return battTemp;
|
}
|
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public void setBattTemp(Float battTemp) {
|
this.battTemp = battTemp;
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}
|
|
public Float getEnvirTemp() {
|
return envirTemp;
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}
|
|
public void setEnvirTemp(Float envirTemp) {
|
this.envirTemp = envirTemp;
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}
|
}
|
