package com.whyc.pojo; import com.baomidou.mybatisplus.annotation.IdType; import com.baomidou.mybatisplus.annotation.TableId; import com.baomidou.mybatisplus.annotation.TableName; import io.swagger.annotations.ApiModel; import io.swagger.annotations.ApiModelProperty; import lombok.AllArgsConstructor; import lombok.Data; import lombok.EqualsAndHashCode; import lombok.NoArgsConstructor; import lombok.experimental.Accessors; import java.io.Serializable; import java.util.Date; /** *

* ups电源遥测量实时状态表 *

* * @author xuzhongpei * @since 2023-11-20 */ @Data @EqualsAndHashCode(callSuper = false) @Accessors(chain = true) @AllArgsConstructor @NoArgsConstructor @TableName(schema = "db_pwrdev_data_rt",value ="tb_upspower_simulate") @ApiModel(value="UpspowerSimulate对象", description="ups电源遥测量实时状态表") public class UpspowerSimulate implements Serializable { private static final long serialVersionUID = 1L; @TableId(value = "num", type = IdType.AUTO) private Long num; private Integer powerDeviceId; @ApiModelProperty(value = "更新时间") private Date recordTime; @ApiModelProperty(value = "A相输入电压") private Float acinVola; @ApiModelProperty(value = "B相输入电压") private Float acinVolb; @ApiModelProperty(value = "C相输入电压") private Float acinVolc; @ApiModelProperty(value = "A相输出电压") private Float acoutVola; @ApiModelProperty(value = "B相输出电压") private Float acoutVolb; @ApiModelProperty(value = "C相输出电压") private Float acoutVolc; @ApiModelProperty(value = "A相输出电流") private Float acoutCurra; @ApiModelProperty(value = "B相输出电流") private Float acoutCurrb; @ApiModelProperty(value = "C相输出电流") private Float acoutCurrc; @ApiModelProperty(value = "直流输入电压[电池组1电池电压]") private Float dcinVol; @ApiModelProperty(value = "输出频率") private Float outFreq; @ApiModelProperty(value = "AB线输入电压") private Float abinVol; @ApiModelProperty(value = "BC线输入电压") private Float bcinVol; @ApiModelProperty(value = "CA线输入电压") private Float cainVol; @ApiModelProperty(value = "A相输入电流") private Float acinCurra; @ApiModelProperty(value = "B相输入电流") private Float acinCurrb; @ApiModelProperty(value = "C相输入电流") private Float acinCurrc; @ApiModelProperty(value = "输入频率") private Float inFreq; @ApiModelProperty(value = "A相输入功率因数") private Float inPowerfactorA; @ApiModelProperty(value = "B相输入功率因数") private Float inPowerfactorB; @ApiModelProperty(value = "C相输入功率因数") private Float inPowerfactorC; @ApiModelProperty(value = "A相旁路电压") private Float passVola; @ApiModelProperty(value = "B相旁路电压") private Float passVolb; @ApiModelProperty(value = "C相旁路电压") private Float passVolc; @ApiModelProperty(value = "旁路频率") private Float passFreq; @ApiModelProperty(value = "AB线输出电压") private Float aboutVol; @ApiModelProperty(value = "BC线输出电压") private Float bcoutVol; @ApiModelProperty(value = "CA线输出电压") private Float caoutVol; @ApiModelProperty(value = "AB线旁路电压") private Float abpassVol; @ApiModelProperty(value = "BC线旁路电压") private Float bcpassVol; @ApiModelProperty(value = "CA线旁路电压") private Float capassVol; @ApiModelProperty(value = "A相输出功率因数") private Float outPowerfactorA; @ApiModelProperty(value = "B相输出功率因数") private Float outPowerfactorB; @ApiModelProperty(value = "C相输出功率因数") private Float outPowerfactorC; @ApiModelProperty(value = "A相输出峰值比") private Float outPeakratioA; @ApiModelProperty(value = "B相输出峰值比") private Float outPeakratioB; @ApiModelProperty(value = "C相输出峰值比") private Float outPeakratioC; @ApiModelProperty(value = "A相输出有功功率") private Float outActpowerA; @ApiModelProperty(value = "B相输出有功功率") private Float outActpowerB; @ApiModelProperty(value = "C相输出有功功率") private Float outActpowerC; @ApiModelProperty(value = "A相输出无功功率") private Float outReapowerA; @ApiModelProperty(value = "B相输出无功功率") private Float outReapowerB; @ApiModelProperty(value = "C相输出无功功率") private Float outReapowerC; @ApiModelProperty(value = "A相输出视在功率") private Float outApppowerA; @ApiModelProperty(value = "B相输出视在功率") private Float outApppowerB; @ApiModelProperty(value = "C相输出视在功率") private Float outApppowerC; @ApiModelProperty(value = "A相输出负载百分比") private Float outLoadpercentA; @ApiModelProperty(value = "B相输出负载百分比") private Float outLoadpercentB; @ApiModelProperty(value = "C相输出负载百分比") private Float outLoadpercentC; @ApiModelProperty(value = "系统A相输出有功功率") private Float sysoutActpowerA; @ApiModelProperty(value = "系统B相输出有功功率") private Float sysoutActpowerB; @ApiModelProperty(value = "系统C相输出有功功率") private Float sysoutActpowerC; @ApiModelProperty(value = "系统A相输出视在功率") private Float sysoutApppowerA; @ApiModelProperty(value = "系统B相输出视在功率") private Float sysoutApppowerB; @ApiModelProperty(value = "系统C相输出视在功率") private Float sysoutApppowerC; @ApiModelProperty(value = "系统A相输出无功功率") private Float sysoutReapowerA; @ApiModelProperty(value = "系统B相输出无功功率") private Float sysoutReapowerB; @ApiModelProperty(value = "系统C相输出无功功率") private Float sysoutReapowerC; @ApiModelProperty(value = "整机环境温度") private Float devEnvirTemp; @ApiModelProperty(value = "电池后备时间") private Float battBackupTime; @ApiModelProperty(value = "正电池电压") private Float battPosivol; @ApiModelProperty(value = "正电池电流") private Float battPosicurr; @ApiModelProperty(value = "负电池电压") private Float battNegavol; @ApiModelProperty(value = "负电池电流") private Float battNegacurr; @ApiModelProperty(value = "电池老化系数") private Float battAgecoefficient; @ApiModelProperty(value = "电池温度") private Float battTemp; @ApiModelProperty(value = "环境温度") private Float envirTemp; }