CREATE TABLE `db_upspwrdev_data_history`.${tableName} ( `num` bigint(20) NOT NULL AUTO_INCREMENT, `power_device_id` int(11) NOT NULL DEFAULT '0', `record_time` datetime NOT NULL DEFAULT '2005-01-01 00:00:00', `acin_vola` float NOT NULL DEFAULT '0' COMMENT 'A相输入电压', `acin_volb` float NOT NULL DEFAULT '0' COMMENT 'B相输入电压', `acin_volc` float NOT NULL DEFAULT '0' COMMENT 'C相输入电压', `acout_vola` float NOT NULL DEFAULT '0' COMMENT 'A相输出电压', `acout_volb` float NOT NULL DEFAULT '0' COMMENT 'B相输出电压', `acout_volc` float NOT NULL DEFAULT '0' COMMENT 'C相输出电压', `acout_curra` float NOT NULL DEFAULT '0' COMMENT 'A相输出电流', `acout_currb` float NOT NULL DEFAULT '0' COMMENT 'B相输出电流', `acout_currc` float NOT NULL DEFAULT '0' COMMENT 'C相输出电流', `dcin_vol` float NOT NULL DEFAULT '0' COMMENT '直流输入电压[电池组1电池电压]', `out_freq` float NOT NULL DEFAULT '0' COMMENT '输出频率', `abin_vol` float NOT NULL DEFAULT '0' COMMENT 'AB线输入电压', `bcin_vol` float NOT NULL DEFAULT '0' COMMENT 'BC线输入电压', `cain_vol` float NOT NULL DEFAULT '0' COMMENT 'CA线输入电压', `acin_curra` float NOT NULL DEFAULT '0' COMMENT 'A相输入电流', `acin_currb` float NOT NULL DEFAULT '0' COMMENT 'B相输入电流', `acin_currc` float NOT NULL DEFAULT '0' COMMENT 'C相输入电流', `in_freq` float NOT NULL DEFAULT '0' COMMENT '输入频率', `in_powerfactor_a` float NOT NULL DEFAULT '0' COMMENT 'A相输入功率因数', `in_powerfactor_b` float NOT NULL DEFAULT '0' COMMENT 'B相输入功率因数', `in_powerfactor_c` float NOT NULL DEFAULT '0' COMMENT 'C相输入功率因数', `pass_vola` float NOT NULL DEFAULT '0' COMMENT 'A相旁路电压', `pass_volb` float NOT NULL DEFAULT '0' COMMENT 'B相旁路电压', `pass_volc` float NOT NULL DEFAULT '0' COMMENT 'C相旁路电压', `pass_freq` float NOT NULL DEFAULT '0' COMMENT '旁路频率', `about_vol` float NOT NULL DEFAULT '0' COMMENT 'AB线输出电压', `bcout_vol` float unsigned NOT NULL DEFAULT '0' COMMENT 'BC线输出电压', `caout_vol` float NOT NULL DEFAULT '0' COMMENT 'CA线输出电压', `abpass_vol` float NOT NULL DEFAULT '0' COMMENT 'AB线旁路电压', `bcpass_vol` float NOT NULL DEFAULT '0' COMMENT 'BC线旁路电压', `capass_vol` float NOT NULL DEFAULT '0' COMMENT 'CA线旁路电压', `out_powerfactor_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出功率因数', `out_powerfactor_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出功率因数', `out_powerfactor_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出功率因数', `out_peakratio_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出峰值比', `out_peakratio_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出峰值比', `out_peakratio_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出峰值比', `out_actpower_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出有功功率', `out_actpower_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出有功功率', `out_actpower_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出有功功率', `out_reapower_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出无功功率', `out_reapower_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出无功功率', `out_reapower_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出无功功率', `out_apppower_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出视在功率', `out_apppower_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出视在功率', `out_apppower_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出视在功率', `out_loadpercent_a` float NOT NULL DEFAULT '0' COMMENT 'A相输出负载百分比', `out_loadpercent_b` float NOT NULL DEFAULT '0' COMMENT 'B相输出负载百分比', `out_loadpercent_c` float NOT NULL DEFAULT '0' COMMENT 'C相输出负载百分比', `sysout_actpower_a` float NOT NULL DEFAULT '0' COMMENT '系统A相输出有功功率', `sysout_actpower_b` float NOT NULL DEFAULT '0' COMMENT '系统B相输出有功功率', `sysout_actpower_c` float NOT NULL DEFAULT '0' COMMENT '系统C相输出有功功率', `sysout_apppower_a` float NOT NULL DEFAULT '0' COMMENT '系统A相输出视在功率', `sysout_apppower_b` float NOT NULL DEFAULT '0' COMMENT '系统B相输出视在功率', `sysout_apppower_c` float NOT NULL DEFAULT '0' COMMENT '系统C相输出视在功率', `sysout_reapower_a` float NOT NULL DEFAULT '0' COMMENT '系统A相输出无功功率', `sysout_reapower_b` float NOT NULL DEFAULT '0' COMMENT '系统B相输出无功功率', `sysout_reapower_c` float NOT NULL DEFAULT '0' COMMENT '系统C相输出无功功率', `dev_envir_temp` float NOT NULL DEFAULT '0' COMMENT '整机环境温度', `batt_backup_time` float NOT NULL DEFAULT '0' COMMENT '电池后备时间', `batt_posivol` float NOT NULL DEFAULT '0' COMMENT '正电池电压', `batt_posicurr` float NOT NULL DEFAULT '0' COMMENT '正电池电流', `batt_negavol` float NOT NULL DEFAULT '0' COMMENT '负电池电压', `batt_negacurr` float NOT NULL DEFAULT '0' COMMENT '负电池电流', `batt_agecoefficient` float NOT NULL DEFAULT '0' COMMENT '电池老化系数', `batt_temp` float NULL COMMENT '电池温度', `envir_temp` float NULL COMMENT '环境温度', `power_supply_state` int(11) NOT NULL DEFAULT '0' COMMENT 'bit0：逆变供电;bit1:旁路供电', `batt_state` int(11) NOT NULL DEFAULT '0' COMMENT 'bit0:电池自检中 bit1:电池浮充 bit2：电池均充', `inverter_on` int(11) NOT NULL DEFAULT '0' COMMENT '逆变器开机', `rectifier_power_supply` int(11) NOT NULL DEFAULT '0' COMMENT '整流器供电状态：bit0:主逆变供电 bit:电池逆变供电', `dynamo_access` int(11) NOT NULL DEFAULT '0' COMMENT '发电机接入', `input_switch_state` int(11) NOT NULL DEFAULT '0' COMMENT '输入空开 bit0：输入空开断开 bit1:输入空开不支持', `repire_switch_state` int(11) NOT NULL DEFAULT '0' COMMENT '维修空开 bit0：空开断开 bit1:空开不支持', `pass_switch_state` int(11) NOT NULL DEFAULT '0' COMMENT '旁路空开 bit0: 旁路空开断开 bit1：旁路空开不支持', `output_switch_state` int(11) NOT NULL DEFAULT '0' COMMENT '输出空开 bit0:输出空开断开 bit1：输出空开不支持', `machine_work_mode` int(11) NOT NULL DEFAULT '0' COMMENT '整机工作模式：bit0:正常模式 bit1:变频器模式 bit2:智能并机模式 bit3:智能并机演示模式 bit4:ECO模式 bit5:智能ECO模式 bit6:智能ECO演示模式', `parallelsys_powerstate` int(11) NOT NULL DEFAULT '0' COMMENT '并机系统供电状态 bit0-旁路供电 bit1-主路逆变供电 bit2-电池逆变供电', `model_online` int(11) NOT NULL DEFAULT '0' COMMENT '模块在线 bit0:模块1在线 bit1:模块2在线 bit2：模块3在线 ... bit11:模块12在线 ', `batt_inswitch_open` int(11) NOT NULL DEFAULT '0' COMMENT '内置电池空开断开', `bcb1_state` int(11) NOT NULL DEFAULT '0' COMMENT 'BCB1状态 bit0:BCB1未接入 bit1：BCB1:闭合', `bcb2_state` int(11) NOT NULL DEFAULT '0' COMMENT 'BCB2状态 bit0:BCB2未接入 bit1：BCB2:闭合', `bcb3_state` int(11) NOT NULL DEFAULT '0' COMMENT 'BCB3状态 bit0:BCB3未接入 bit1：BCB3:闭合', `bcb4_state` int(11) NOT NULL DEFAULT '0' COMMENT 'BCB4状态 bit0:BCB4未接入 bit1：BCB4:闭合', `ups_alm1` int(11) NOT NULL DEFAULT '0' COMMENT 'ups告警1 bit0:逆变器不同步 bit1:主路电压异常 bit2:整流器异常 bit3:逆变器异常 bit4:旁路异常 bit5:电池电压低于下限 bit6:电池电压过高 bit7:电池未接入 bit8:电池电压低于告警 bit9:电池接反 bit10:ParaMonCAN通讯异常 bit11:PowerCAN通讯异常 bit12:整流DSP程序错误 bit13:整流FPGA程序错误 bit14:逆变DSP程序错误 bit15:逆变FPGA程序错误 bit16:旁路DSP程序错误 bit17:旁路FPGA程序错误 bit18:机架内离散总线通讯异常 bit19:机架间离散总线通讯异常 bit20:主控模块设置不匹配 bit21:LBS异常 bit22:紧急关机 bit23:旁路晶闸管故障 bit24:旁路相序反', `ups_alm2` int(11) NOT NULL DEFAULT '0' COMMENT 'ups告警2 bit0旁路过流 bit1旁路异常关机 bit2切换次数限制 bit3ECO切换次数限制 bit4ParaPowerCan通讯异常 bit5电池放电限流 bit6放电器故障 bit7充电器故障 bit8LBS连接线异常 bit9电池需维护 bit10电池过温 bit11电池接地故障 bit12主路频率异常 bit13模块过温 bit14从控模块设置不匹配 bit15接口模块设置不匹配 bit16均充超时 bit17辅助电源掉电 bit18主路相序反 bit19整流器软启动失败 bit20用户操作错误 bit21输出熔丝断 bit22输出过载 bit23系统过载 bit24输出过载超时', `ups_alm3` int(11) NOT NULL DEFAULT '0' COMMENT 'ups告警3 bit0负载冲击转旁路 bit1并机均流异常 bit2母线异常关机 bit3临机请求转旁路 bit4直流母线过压 bit5MonCAN通讯异常 bit6输入缺零故障 bit7逆变继电器故障 bit8主路反灌 bit9输入电流异常 bit10输出电压异常 bit11输入电流超限 bit12旁路过温 bit13邻机旁路晶闸管故障 bit14并机连接线异常 bit15充电器过温 bit16电池端口短路 bit17电池房环境异常 bit18风扇异常 bit19旁路缺零故障 bit20旁路接管 bit21BCB1 状态异常 bit22BCB2 状态异常 bit23BCB3 状态异常 bit24BCB4 状态异常', `ups_alm4` int(11) NOT NULL DEFAULT '0' COMMENT 'ups告警4 bit0旁路SCR风扇异常 bit1平衡电路故障 bit2平衡电路过流 bit3平衡电路过温 bit4失去冗余 bit5容量过载 bit6功率板设置不匹配 bit7旁路设置不匹配 bit8上抽风风扇异常 bit9系统A相输出熔丝断 bit10系统B相输出熔丝断 bit11系统C相输出熔丝断 bit12旁路无效 bit13整流器过流 bit14旁路过流超时 bit15输出零地过压 bit16输入熔丝断 bit17旁路熔丝断', `ups_conn_err` int(11) NOT NULL DEFAULT '0' COMMENT '协转与UPS通信故障', PRIMARY KEY (`num`), KEY `index_powerdeviceid` (`power_device_id`) USING BTREE, KEY `index_record_time` (`record_time`) USING BTREE ) ENGINE=InnoDB AUTO_INCREMENT=1 DEFAULT CHARSET=utf8 COMMENT='UPS历史实时数据记录表' insert into `db_upspwrdev_data_history`.${tableName} (`power_device_id`, `record_time`, `acin_vola`, `acin_volb`, `acin_volc`, `acout_vola`, `acout_volb`, `acout_volc`, `acout_curra`, `acout_currb`, `acout_currc`, `dcin_vol`, `out_freq`, `abin_vol`, `bcin_vol`, `cain_vol`, `acin_curra`, `acin_currb`, `acin_currc`, `in_freq`, `in_powerfactor_a`, `in_powerfactor_b`, `in_powerfactor_c`, `pass_vola`, `pass_volb`, `pass_volc`, `pass_freq`, `about_vol`, `bcout_vol`, `caout_vol`, `abpass_vol`, `bcpass_vol`, `capass_vol`, `out_powerfactor_a`, `out_powerfactor_b`, `out_powerfactor_c`, `out_peakratio_a`, `out_peakratio_b`, `out_peakratio_c`, `out_actpower_a`, `out_actpower_b`, `out_actpower_c`, `out_reapower_a`, `out_reapower_b`, `out_reapower_c`, `out_apppower_a`, `out_apppower_b`, `out_apppower_c`, `out_loadpercent_a`, `out_loadpercent_b`, `out_loadpercent_c`, `sysout_actpower_a`, `sysout_actpower_b`, `sysout_actpower_c`, `sysout_apppower_a`, `sysout_apppower_b`, `sysout_apppower_c`, `sysout_reapower_a`, `sysout_reapower_b`, `sysout_reapower_c`, `dev_envir_temp`, `batt_backup_time`, `batt_posivol`, `batt_posicurr`, `batt_negavol`, `batt_negacurr`, `batt_agecoefficient`, `batt_temp`, `envir_temp`, `power_supply_state`, `batt_state`, `inverter_on`, `rectifier_power_supply`, `dynamo_access`, `input_switch_state`, `repire_switch_state`, `pass_switch_state`, `output_switch_state`, `machine_work_mode`, `parallelsys_powerstate`, `model_online`, `batt_inswitch_open`, `bcb1_state`, `bcb2_state`, `bcb3_state`, `bcb4_state`, `ups_alm1`, `ups_alm2`, `ups_alm3`, `ups_alm4`, `ups_conn_err`) values ( #{dataHistory.powerDeviceId}, #{dataHistory.recordTime}, #{dataHistory.acinVola}, #{dataHistory.acinVolb}, #{dataHistory.acinVolc}, #{dataHistory.acoutVola}, #{dataHistory.acoutVolb}, #{dataHistory.acoutVolc}, #{dataHistory.acoutCurra}, #{dataHistory.acoutCurrb}, #{dataHistory.acoutCurrc}, #{dataHistory.dcinVol}, #{dataHistory.outFreq}, #{dataHistory.abinVol}, #{dataHistory.bcinVol}, #{dataHistory.cainVol}, #{dataHistory.acinCurra}, #{dataHistory.acinCurrb}, #{dataHistory.acinCurrc}, #{dataHistory.inFreq}, #{dataHistory.inPowerfactorA}, #{dataHistory.inPowerfactorB}, #{dataHistory.inPowerfactorC}, #{dataHistory.passVola}, #{dataHistory.passVolb}, #{dataHistory.passVolc}, #{dataHistory.passFreq}, #{dataHistory.aboutVol}, #{dataHistory.bcoutVol}, #{dataHistory.caoutVol}, #{dataHistory.abpassVol}, #{dataHistory.bcpassVol}, #{dataHistory.capassVol}, #{dataHistory.outPowerfactorA}, #{dataHistory.outPowerfactorB}, #{dataHistory.outPowerfactorC}, #{dataHistory.outPeakratioA}, #{dataHistory.outPeakratioB}, #{dataHistory.outPeakratioC}, #{dataHistory.outActpowerA}, #{dataHistory.outActpowerB}, #{dataHistory.outActpowerC}, #{dataHistory.outReapowerA}, #{dataHistory.outReapowerB}, #{dataHistory.outReapowerC}, #{dataHistory.outApppowerA}, #{dataHistory.outApppowerB}, #{dataHistory.outApppowerC}, #{dataHistory.outLoadpercentA}, #{dataHistory.outLoadpercentB}, #{dataHistory.outLoadpercentC}, #{dataHistory.sysoutActpowerA}, #{dataHistory.sysoutActpowerB}, #{dataHistory.sysoutActpowerC}, #{dataHistory.sysoutApppowerA}, #{dataHistory.sysoutApppowerB}, #{dataHistory.sysoutApppowerC}, #{dataHistory.sysoutReapowerA}, #{dataHistory.sysoutReapowerB}, #{dataHistory.sysoutReapowerC}, #{dataHistory.devEnvirTemp}, #{dataHistory.battBackupTime}, #{dataHistory.battPosivol}, #{dataHistory.battPosicurr}, #{dataHistory.battNegavol}, #{dataHistory.battNegacurr}, #{dataHistory.battAgecoefficient}, #{dataHistory.battTemp}, #{dataHistory.envirTemp}, #{dataHistory.powerSupplyState}, #{dataHistory.battState}, #{dataHistory.inverterOn}, #{dataHistory.rectifierPowerSupply}, #{dataHistory.dynamoAccess}, #{dataHistory.inputSwitchState}, #{dataHistory.repireSwitchState}, #{dataHistory.passSwitchState}, #{dataHistory.outputSwitchState}, #{dataHistory.machineWorkMode}, #{dataHistory.parallelsysPowerstate}, #{dataHistory.modelOnline}, #{dataHistory.battInswitchOpen}, #{dataHistory.bcb1State}, #{dataHistory.bcb2State}, #{dataHistory.bcb3State}, #{dataHistory.bcb4State}, #{dataHistory.upsAlm1}, #{dataHistory.upsAlm2}, #{dataHistory.upsAlm3}, #{dataHistory.upsAlm4}, #{dataHistory.upsConnErr} ) drop table db_upspwrdev_data_history.${item}