#ifndef DEFINE_H_ #define DEFINE_H_ /**************************************************************************************/ /*********************************NAND Flash mapping *****************************/ /**************************************************************************************/ /* sector size 512 KiB Page size 4096 b OOB size 224 b Erase size 524288 b ------------------------------------------------------------------------------------------------------------------------------- Segment Physical address Size ------------------------------------------------------------------------------------------------------------------------------- MLO 0x00000000-0x0007FFFF 512 KB Primary u-boot 0x00080000-0x0017FFFF 1 MB Environment 0x00180000-0x001FFFFF 512 KB Secondary u-boot 0x00200000-0x002FFFFF 1 MB Primary dtb 0x00300000-0x0037FFFF 512 KB Secondary dtb 0x00380000-0x003FFFFF 512 KB Primary kernel 0x00400000-0x00DFFFFF 10 MB Secondary Kernel 0x00E00000-0x017FFFFF 10 MB Primary root file system 0x03000000-0x05FFFFFF 48 MB Secondary root file system 0x06000000-0x08FFFFFF 48 MB Primary user configuration 0x09000000-0x095FFFFF 6 MB Secondary user configuration 0x09600000-0x09BFFFFF 6 MB Factory default configuration 0x09C00000-0x0A1FFFFF 6 MB Storage 0x0A200000-0x7FFFFFFF 1886 MB */ /**************************************************************************************/ /*********************************System Limitation**********************************/ /**************************************************************************************/ /*Rating outout power and current*/ #define RATED_POWER 25 //kW #define RATED_CURRENT 350 //Amp, it depend on the capacity of charging connector /*relevant to Quantity */ #ifdef AWRegular #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 1 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 1 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif BYTONGB #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 1 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 1 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif DW30 #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 0 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 0 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif DM30 #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 0 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 0 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif DS60120 #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 1 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 0 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif DS60210 #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 1 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 0 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #elif PlugIt360 #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 0 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 0 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #else #define MAX_PSU_QUANTITY 62 #define CHAdeMO_QUANTITY 1 #define CCS_QUANTITY 1 #define GB_QUANTITY 0 #define AC_QUANTITY 1 #define PSU_QUANTITY 2 #define ONE_CONNECTOR_USE 0 #endif /*SystemLog message*/ #define SystemLogMessage //for debug info save to log file #define ConsloePrintLog //for debug info print to console /**************************************************************************************/ /*****************************share memory key information*****************************/ /**************************************************************************************/ #define ShmSysConfigAndInfoKey 1001 #define ShmPsuKey 1002 #define ShmCHAdeMOCommKey 1003 #define ShmCcsCommKey 1004 #define ShmStatusCodeKey 1005 #define ShmPrimaryMcuKey 1006 #define ShmFanBdKey 1007 #define ShmRelayBdKey 1008 #define ShmOcppModuleKey 1009 #define ShmGBTCommKey 1010 #define ShmLedBdKey 1011 #define ShmATEKey 1020 /**************************************************************************************/ /****************** Share memory configuration value constant define ******************/ /**************************************************************************************/ enum SYSTEM_STATUS { SYS_MODE_BOOTING = 0, SYS_MODE_IDLE = 1, SYS_MODE_AUTHORIZING = 2, SYS_MODE_MODE_REASSIGN_CHECK = 3, SYS_MODE_REASSIGN = 4, SYS_MODE_PREPARING = 5, SYS_MODE_PREPARE_FOR_EV = 6, SYS_MODE_PREPARE_FOR_EVSE = 7, SYS_MODE_CHARGING = 8, SYS_MODE_TERMINATING = 9, SYS_MODE_COMPLETE = 10, SYS_MODE_ALARM = 11, SYS_MODE_FAULT = 12, SYS_MODE_RESERVATION = 13, SYS_MODE_BOOKING = 14, SYS_MODE_MAINTAIN = 15, SYS_MODE_DEBUG = 16, SYS_MODE_CCS_PRECHARGE_STEP0 = 17, SYS_MODE_CCS_PRECHARGE_STEP1 = 18, SYS_MODE_UPDATE = 19 }; enum AUTHORIZATION_MODE { AUTH_MODE_ENABLE = 0, AUTH_MODE_DISABLE = 1 }; enum LCD_LANGUAGE { LCD_LANG_ENGLISH = 0, LCD_LANG_CHT = 1, LCD_LANG_CHS = 2, LCD_LANG_JAPANESE = 3, LCD_LANG_FRENCH = 4, LCD_LANG_ITALIAN = 5, LCD_LANG_SPANISH = 6, LCD_LANG_GERMAN = 7, LCD_LANG_DUTCH = 8, LCD_LANG_NORWEGIAN = 9, LCD_LANG_FINNISH = 10, LCD_LANG_SWEDISH = 11, LCD_LANG_SLOVENIAN = 12, LCD_LANG_THAI = 13, }; enum RFID_ENDIAN { RFID_ENDIAN_LITTLE = 0, RFID_ENDIAN_BIG = 1 }; enum PHASE_LOSS_POLICY { LOSS_POLICY_CHARGING = 0, LOSS_POLICY_STOP = 1 }; enum CCS_AUTHPRIZATION_MODE { CCS_AUTH_MODE_EIM = 0, CCS_AUTH_MODE_MIXED = 1 }; enum OFF_LINE_POLICY { OFF_POLICY_LOCALLIST = 0, OFF_POLICY_PH_RFID = 1, OFF_POLICY_FREE = 2, OFF_POLICY_NOCHARGE = 3 }; /*Configuration enum*/ enum CoreProfile { AllowOfflineTxForUnknownId=0, AuthorizationCacheEnabled, AuthorizeRemoteTxRequests, BlinkRepeat, ClockAlignedDataInterval, ConnectionTimeOut, GetConfigurationMaxKeys, HeartbeatInterval, LightIntensity, LocalAuthorizeOffline, LocalPreAuthorize, MaxEnergyOnInvalidId, MeterValuesAlignedData, MeterValuesAlignedDataMaxLength, MeterValuesSampledData, MeterValuesSampledDataMaxLength, MeterValueSampleInterval, MinimumStatusDuration, NumberOfConnectors, ResetRetries, ConnectorPhaseRotation, ConnectorPhaseRotationMaxLength, StopTransactionOnEVSideDisconnect, StopTransactionOnInvalidId, StopTxnAlignedData, StopTxnAlignedDataMaxLength, StopTxnSampledData, StopTxnSampledDataMaxLength, SupportedFeatureProfiles, SupportedFeatureProfilesMaxLength, TransactionMessageAttempts, TransactionMessageRetryInterval, UnlockConnectorOnEVSideDisconnect, WebSocketPingInterval, QueueOffLineStartTransactionMessage, _CoreProfile_CNT }; /**************************************************************************************/ /****structure SysConfigData => shall store the data to NAND flash****************/ /****structure SysInfoData => shall NOT store the data to NAND flash***************/ /****according to System Configuration and Information Table.xlsx Rev.0.2 *******/ /**************************************************************************************/ struct NoneUse { unsigned char unknown; // None use struct }; struct EthConfigData { unsigned char EthDhcpClient; //0: enable,1: disable unsigned char EthMacAddress[18]; //default: Null unsigned char EthIpAddress[16]; //Eth0 default:192.168.0.10 ,Eth1 default:192.168.1.10 unsigned char EthSubmaskAddress[16]; //Eth0 default:255.255.255.0 ,Eth1 default:255.255.255.0 unsigned char EthGatewayAddress[16]; //Eth0 default:192.168.0.254 ,Eth1 default:192.168.1.254 }; struct WifiConfigData { unsigned char WifiMode; //0: disable, 1: Infrastructure client, 2: Infrastructure server, 3: Ad-Hoc unsigned char WifiSsid[256]; //default: Null unsigned char WifiPassword[256]; //default: Null int WifiRssi; //dbm unsigned char WifiDhcpServer; //0: enable, 1: disable unsigned char WifiDhcpClient; //0: enable, 1: disable unsigned char WifiMacAddress[18]; //default: Null unsigned char WifiIpAddress[16]; //default:192.168.2.10 unsigned char WifiSubmaskAddress[16]; //default:255.255.255.0 unsigned char WifiGatewayAddress[16]; //default:192.168.2.254 unsigned char WifiNetworkConn; //0: disconnected, 1: connected }; struct TeleConfigData { unsigned char TelcomModelName[64]; //default: Null unsigned char TelcomSoftwareVer[64]; //default: Null unsigned char TelcomApn[256]; //default: Null int TelcomRssi; //dbm unsigned char TelcomChapPapId[256]; //default: Null unsigned char TelcomChapPapPwd[256]; //default: Null unsigned char TelcomModemImei[16]; //default: Null unsigned char TelcomSimImsi[16]; //default: Null unsigned char TelcomSimIccid[22]; //default: Null unsigned char TelcomSimStatus; //0: no SIM card is found, 1: valid SIM card, 2: invalid SIM card unsigned char TelcomModemMode; //0: No services, 1: CDMA, 2: GSM/GPRS, 3: WCDMA, 4: GSM/WCDMA, 5: TD_SCDMA mode, 6: Unknow unsigned char TelcomIpAddress[16]; //default: Null unsigned char TelcomNetworkConn; //0: disconnected, 1: connected }; struct BtConfigData { unsigned char LoginCentralID[64]; //default: Null unsigned char isLogin; //0: Central device non-login 1: Central device login unsigned char isRequestStart; //0: no action 1: request start charging unsigned char isRequestStop; //0: no action 1: request stop charging }; struct BillingConfigData { unsigned char isBilling; //0:not for business 1:for business unsigned char Currency; // float Fee[24]; //fee for 24 hours float Cur_fee; // display current fee }; struct LED { unsigned char Intensity; // LED bar intensity 0: Darkest 1: Medium 2: Brightest unsigned char Red[3]; // Red color 0~100, element 0: IDLE 1: CHARGING 2: FAULT unsigned char Green[3]; // Green color 0~100, element 0: IDLE 1: CHARGING 2: FAULT unsigned char Blue[3]; // Blue color 0~100, element 0: IDLE 1: CHARGING 2: FAULT }; struct SysConfigData { /**************System***************/ unsigned char CsuBootLoadFwRev[32]; //CSU board bootloader firmware version unsigned char ModelName[64]; //charger model name unsigned char AcModelName[64]; //for third gun (DC + AC) unsigned char SerialNumber[64]; //charger system serial number unsigned char SystemId[128]; //charger system ID unsigned char SystemDateTime[32]; //charger system date and time unsigned char AcPhaseCount; //AC EVSE power phase quantity, 1: One phase 3: Three phase unsigned char AuthorisationMode; //0: enable, 1: disable unsigned char DefaultLanguage; // unsigned char RfidCardNumEndian; //0: little endian, 1: big endian unsigned short AcPlugInTimes; //0~65535 unsigned short GbPlugInTimes; //0~65535 unsigned short Ccs1PlugInTime; //0~65535 unsigned short Ccs2PlugInTimes; //0~65535 unsigned short ChademoPlugInTimes; //0~65535 unsigned char PsuAcInputType; //0: 220, 1: 277 unsigned short RatingCurrent; //0: Depend on Model name, 1 ~ rating value amp unsigned short AcRatingCurrent; //for third gun; 0: Depend on Model name, 1 ~ rating value amp unsigned char isAPP; //for AuthorisationMode=0; 0:false, 1:true unsigned char isQRCode; //for AuthorisationMode=0; 0:false, 1:true unsigned char isRFID; //for AuthorisationMode=0; 0:false, 1:true unsigned char QRCodeMadeMode; //for isQRCode=1 ; 0: default 1:customized unsigned char QRCodeContent[128]; //for QRCodeMadeMode=1 unsigned char TotalConnectorCount; //Connector count unsigned char AcConnectorCount; // For DC type unsigned char SwitchDebugFlag; // Console Debug unsigned char AlwaysGfdFlag; /**************Charging***************/ unsigned short MaxChargingEnergy; //0: no limit, 1 ~ 65535 kWh unsigned short MaxChargingPower; //0: rating value, 1 ~ RATING_POWER kW unsigned short MaxChargingCurrent; //0: rating value, 1 ~ RATING_CURRENT amp unsigned short AcMaxChargingCurrent; //for third gun; 0: rating value, 1 ~ RATING_CURRENT amp unsigned short MaxChargingDuration; //0: no limit, 1 ~ 65535 minutes unsigned char PhaseLossPolicy; //0: charging, 1: stop charging unsigned char LocalWhiteCard[10][32]; //Max. card quantity is 10 unsigned char UserId[32]; //the user use this ID to trigger charging event, it can be RFID card number, OCPP IdTag, etc. struct BillingConfigData BillingData; /**************Network***************/ unsigned char FtpServer[256]; //the ftp server for Phihong server to do data transimission struct EthConfigData Eth0Interface; struct EthConfigData Eth1Interface; struct WifiConfigData AthInterface; struct TeleConfigData TelecomInterface; struct BtConfigData Bluetooth; /**************Backend***************/ unsigned int BackendConnTimeout; //default : 300s unsigned char OfflinePolicy; //0: local list, 1: Phihong RFID tag, 2: free charging, 3: no charging unsigned short OfflineMaxChargeEnergy; //0: same as MaxChargingEnergy, 1 ~ 65535 kWh unsigned short OfflineMaxChargeDuration; //0: same as MaxChargeDuration, 1 ~ 65535 minutes unsigned char OcppServerURL[512]; //http: non-secure OCPP 1.5-S, https: secure OCPP 1.5-S, ws: non-secure OCPP 1.6-J, wss: secure OCPP 1.6-J" unsigned char ChargeBoxId[128]; unsigned char chargePointVendor[20]; //the Vendor of the ChargePoint unsigned int Checksum; //4 bytes checksum struct LED LedInfo; // LED configuration info }; struct ChargingInfoData { unsigned char Index; unsigned char slotsIndex; unsigned char Type; // 0 : Chademo, 1 : CCS, 2: GB unsigned char type_index; unsigned char Evboard_id; // for EV board unsigned char StopChargeFlag; // for EV board unsigned char SystemStatus; //0: Booting, 1: idle, 2: authorizing, 3: preparing, 4: charging, 5: terminating, 6: alarm, 7: fault unsigned char PreviousSystemStatus; // 0: Booting, 1: idle, 2: authorizing, 3: preparing, 4: charging, 5: terminating, 6: alarm, 7: fault unsigned char ATEStatus; unsigned char PreviousATEStatus; unsigned char ATEState; unsigned char PreviousATEState; int ReservationId; unsigned char IsAvailable; float MaximumChargingVoltage; //0~6553.5 volt float AvailableChargingCurrent; //0~6553.5 amp float AvailableChargingPower; //0~6553.5 kW float DividChargingCurrent; //0~6553.5 amp float DeratingChargingCurrent; //0~6553.5 amp float DeratingChargingPower; //0~6553.5 kW float FuseChargingVoltage; //0~6553.5 volt float FireChargingVoltage; //0~6553.5 volt float PresentChargingVoltage; //0~6553.5 volt float PresentChargingCurrent; //0~6553.5 amp float PresentChargingPower; //0~6553.5 kW float PresentChargedEnergy; //0~6553.5 kWh int PresentChargedDuration; // second int RemainChargingDuration; // second float EvBatteryMaxVoltage; // 0~6553.5 volt float EvBatterytargetVoltage; // 0~6553.5 volt float EvBatterytargetCurrent; //102.3 0~200(A) (unit:1A) int EvBatterySoc; // 0~100% unsigned char ConnectorPlugIn; //0: unplug, 1: Plug-in unsigned char GunLocked; //0: unlocked 1: locked float PilotVoltage; unsigned char PilotState;//1:state A, 2:State B1, 3:State B2, 4:State C, 5:State D, 6:State E, 7:State F, 8: Pilot error unsigned char PilotDuty; // 0~100% unsigned char StartUserId[32]; // This ID is trigger start charging event user by RFID、back-end、BLE. unsigned char StartDateTime[32]; // Charging cycle start date time unsigned char StopDateTime[32]; // Charging cycle stop date time unsigned char StartMethod; float ChargingFee; // Connector Temp unsigned char ConnectorTemp; //0x00: -60¢XC ~ 0xFE: 194 // Charging Status unsigned char GroundFaultStatus; // for GFD result => 0x00 : None, 0x01 : Can Start Charging, 0x02 : Stop Charging unsigned short RealRatingPower; unsigned char RelayWeldingCheck; // 0 : No Comp., 1 : Comp. unsigned char PrechargeStatus; // for ccs precharge => 0x00 : None defined, 0x01 : Accepted float PowerConsumption; // This contains the meter value (Power Consumption) kWh unsigned char RelayK1K2Status; // 0x00 : open, 0x01 : close unsigned char RelayKPK2Status; // 0x00 : open, 0x01 : close unsigned char TimeoutFlag; // 0 : none, struct timeval TimeoutTimer; unsigned char MaxChargeEnable; unsigned char IsReadyToCharging; unsigned char CcsAuthentication; // 0:EIM, 1:EIM & PnC mixed unsigned char AcCcsChargingMode; // 0:BC (PWM) only, 1:BC & PLC mixed unsigned short SampleChargingCur[2]; /**************Alston for AC***************/ unsigned char SelfTest_Comp; unsigned char version[16]; unsigned char IsModeChagned; unsigned char IsCharging; unsigned char IsErrorOccur; float RealMaxVoltage; float RealMaxCurrent; float RealMaxPower; unsigned char ConnectorWarningCode[7]; unsigned char ConnectorAlarmCode[7]; unsigned char EvConnAlarmCode[7]; float ChargingProfileCurrent; //0~6553.5 amp float ChargingProfilePower; //0~6553.5 kW float PresentChargingVoltageL2; //0~6553.5 volt float PresentChargingVoltageL3; //0~6553.5 volt float PresentChargingCurrentL2; //0~6553.5 amp float PresentChargingCurrentL3; //0~6553.5 amp char RemoteStartFlag; unsigned char MaxChargingToAverPassFlag; int PlugPresentStatusDuration; // second int DutyCycleDuration; // second }; struct SysInfoData { /**************System***************/ unsigned char BootingStatus; // 0 : booting, 1 : Initializing Complete. unsigned char AuthorizeFlag; // 0 : None, 1 : Authorizing unsigned char FactoryConfiguration; //0: normal, 1: trigger, charger will return the configuration to factory default if trigger float InputVoltageR; //0~655.35 volt float InputVoltageS; //0~655.35 volt float InputVoltageT; //0~655.35 volt unsigned int SystemFanRotaSpeed; //0 ~ 65535 RPM unsigned int PsuFanRotaSpeed; //0 ~ 65535 RPM unsigned char AuxPower5V; //0 ~ 255 volt unsigned char AuxPower12V; //0 ~ 255 volt unsigned char AuxPower24V; //0 ~ 255 volt unsigned char AuxPower48V; //0 ~ 255 volt unsigned char CsuHwRev[32]; //CSU board hardware version unsigned char CsuBootLoadFwRev[32]; //CSU board bootloader firmware version unsigned char CsuKernelFwRev[32];//CSU board OS kernel firmware version unsigned char CsuRootFsFwRev[32];//CSU board root file system firmware version unsigned char CsuPrimFwRev[32]; //CSU board root file system firmware version unsigned char LcmHwRev[32]; //LCM module hardware version unsigned char LcmFwRev[32]; //LCM module firmware version unsigned char PsuHwRev[32]; //PSU hardware version unsigned char PsuPrimFwRev[32]; //PSU primary firmware version unsigned char PsuSecFwRev[32]; //PSU secondary firmware version unsigned char AuxPwrHwRev[32]; //Aux. power module hardware version unsigned char AuxPwrFwRev[32]; //Aux. power module firmware version unsigned char FanModuleHwRev[32]; //Fan module hardware version unsigned char FanModuleFwRev[32]; //Fan module firmware version unsigned char RelayModuleHwRev[32]; //Relay control module hardware version unsigned char RelayModuleFwRev[32]; //Relay control module firmware version unsigned char TelcomModemFwRev[32]; //the 3G/4G modem firmware version unsigned char LedModuleFwRev[32]; //LED control module firmware version unsigned char Connector1FwRev[32]; //Connector1 module firmware version unsigned char Connector2FwRev[32]; //Connector2 module firmware version int SystemAmbientTemp; // -40 ~ 215 degree C int SystemCriticalTemp; // -40 ~ 215 degree C int CcsConnectorTemp; // -40 ~ 215 degree C int PsuAmbientTemp; // -40 ~ 215 degree C /**************Charging***************/ struct ChargingInfoData ChademoChargingData[CHAdeMO_QUANTITY]; struct ChargingInfoData CcsChargingData[CCS_QUANTITY]; struct ChargingInfoData GbChargingData[GB_QUANTITY]; struct ChargingInfoData AcChargingData[AC_QUANTITY]; unsigned char CurGunSelected; unsigned char CurGunSelectedByAc; /**************Network***************/ unsigned char InternetConn; //0: disconnected, 1: connected /**************Backend***************/ unsigned char OcppConnStatus; //0: disconnected, 1: connected char OrderCharging; /**************Alston***************/ unsigned char WaitForPlugit; //0: none scan, 1: scanning unsigned char PageIndex; //0 : Initialize //1 : idle //4 : Authorizing //5 : Authorizing complete //6 : Authorizing fail //7 : Wait for Plug //8 : Pre-charge //9 : Charging unsigned char SelfTestSeq; // unsigned char ReAssignedFlag; // unsigned char CanAverageCharging; unsigned char MainChargingMode; // 0 : Max, 1 : Average unsigned char BridgeRelayStatus; unsigned char FirmwareUpdate; // 0 : none, 1 : update. unsigned char AcContactorStatus; // 0: disconnected, 1: connected unsigned char SystemTimeoutFlag; // 0 : none, 1 : self test struct timeval SystemTimeoutTimer; unsigned char SystemPage; unsigned char ConnectorPage; unsigned char IsAlternatvieConf; // 0 : normal, 1 : alternative unsigned char StartToChargingFlag; // 0 : Stop, 1 : Start for modbus unsigned char ChargerType; // 0 : IEC, 1 : UL }; struct WARNING_CODE_INFO { unsigned char WarningCount; unsigned char PageIndex; unsigned char WarningCode[10][7]; unsigned char Level; unsigned char ExtraErrProcess; // 0 : none, 1 : input uvp.. }; struct STOP_CHARGING_ALARM_CODE { unsigned char Level; unsigned char StopCode[4][7]; }; //VCCU struct VCCU_InternalVoltageStatus_DATA1 { u_int16_t VCCU_Internal_VCC_12V_Voltage:16; }; struct VCCU_InternalVoltageStatus_DATA2 { u_int16_t VCCU_Internal_VCC_KL15_Voltage:16; }; struct VCCU_InternalVoltageStatus_DATA3 { u_int16_t VCCU_Internal_VCC_SS_Voltage:16; }; struct VCCU_InternalVoltageStatus_DATA4 { u_int16_t VCCU_Internal_VCC_KL30_Voltage:16; }; struct VCCU_InternalVoltageStatus_DATA { u_int16_t VCCU_Internal_VCC_12V_Voltage; u_int16_t VCCU_Internal_VCC_KL15_Voltage; u_int16_t VCCU_Internal_VCC_SS_Voltage; u_int16_t VCCU_Internal_VCC_KL30_Voltage; }; struct TD_DATA { u_int8_t Seconds; u_int8_t Minutes; u_int8_t Hours; u_int8_t Month; u_int8_t Day; u_int8_t Year; u_int8_t LocalMinuteOffset; u_int8_t LocalHourOffset; }; /* * VCCU_InletStatus2 * id:18FF1A80h */ /* typedef struct __attribute__ ((packed)) { u_int16_t VCCU_PlugPresent_Voltage:16; }VCCU_InletStatus2_DATA1; */ struct VCCU_InletStatus2_DATA { u_int16_t VCCU_PlugPresent_Voltage; }; struct VCCU_InternalVoltageRawValues_DATA { u_int16_t VCCU_Internal_VCC_12V_Raw; u_int16_t VCCU_Internal_VCC_KL15_Raw; u_int16_t VCCU_Internal_VCC_KL30_Raw; u_int16_t VCCU_Internal_VCC_SS_Raw; }; struct VCCU_V2G_DepartureTime_DATA { u_int32_t VCCU_V2G_DepartureTime_Value; u_int8_t VCCU_V2G_DepartureTimeFlag; }; struct VCCU_V2G_StateM_DATA { struct{ u_int8_t VCCU_V2G_StateM_InternetAvaila :1; u_int8_t VCCU_V2G_Appl_SccChargeModeReq :3; u_int8_t VCCU_V2G_Appl_SccFuncModeReq :2; }bits; }; struct VCCU_V2G_StateM_StateMachineSt { struct{ u_int8_t value:8; }bits; }; struct VCCU_V2G_StateM { u_int8_t VCCU_V2G_StateM_EnergyTransfer; u_int8_t VCCU_V2G_StateM_StateMachineEr; u_int8_t VCCU_V2G_StateM_StateMachineMe; u_int8_t VCCU_V2G_StateM_StateMachineSt; struct VCCU_V2G_StateM_DATA DATA; }; struct VCCU_V2G_Core_DATA7 { u_int8_t VCCU_V2G_Core_CyclicMsgRcvd :1; u_int8_t VCCU_V2G_Core_CyclicMsgTrig :1; u_int8_t VCCU_V2G_Core_IPAssigned :1; u_int8_t VCCU_V2G_Core_TrcvLinkState :1; u_int8_t VCCU_V2G_EthTrcv_TrcvLinkState :1; }; struct VCCU_V2G_Core_DATA { u_int8_t VCCU_V2G_Core_MsgState; u_int8_t VCCU_V2G_Core_MsgStatus; u_int8_t VCCU_V2G_Core_SAPResponseCode; u_int8_t VCCU_V2G_Core_SAPSchemaID; u_int8_t VCCU_V2G_Core_SDPSecurityTx; u_int8_t VCCU_V2G_Core_StackError; struct VCCU_V2G_Core_DATA7 DATA7; }; /* * VCCU_V2G_EVSEPresentVoltage * id:18FF5A80h */ struct VCCU_V2G_EVSEPresentVoltage_DATA1 { u_int8_t VCCU_V2G_EVSEPresentVoltage_Un :4; }; struct VCCU_V2G_EVSEPresentVoltage { struct VCCU_V2G_EVSEPresentVoltage_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEPresentVoltage_Mu; u_int16_t VCCU_V2G_EVSEPresentVoltage_Va; u_int8_t VCCU_V2G_EVSEPresentVolta_0000; }; struct VCCU_V2G_DateTimeNow_DATA { u_int64_t VCCU_V2G_DateTimeNow; }; struct VCCU_V2G_EVSEPresentCurrent_DATA1 { u_int8_t VCCU_V2G_EVSEPresentCurrent_Un :4; }; struct VCCU_V2G_EVSEPresentCurrent_DATA2 { u_int8_t VCCU_V2G_EVSEPresentCurrent_Mu :8; }; struct VCCU_V2G_EVSEPresentCurrent_DATA3 { u_int16_t VCCU_V2G_EVSEPresentCurrent_Va :16; }; struct VCCU_V2G_EVSEPresentCurrent_DATA4 { u_int8_t VCCU_V2G_EVSEPresentCurre_0000 :8; }; struct VCCU_V2G_EVSEPresentCurrent_DATA { struct VCCU_V2G_EVSEPresentCurrent_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEPresentCurrent_Mu; u_int16_t VCCU_V2G_EVSEPresentCurrent_Va; u_int8_t VCCU_V2G_EVSEPresentCurre_0000; }; struct VCCU_V2G_EVSEPeakCurrentRipple_DATA1 { u_int8_t VCCU_V2G_EVSEPeakCurrentRipple :4; }; struct VCCU_V2G_EVSEPeakCurrentRipple_DATA { struct VCCU_V2G_EVSEPeakCurrentRipple_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEPeakCurrentR_0001; u_int16_t VCCU_V2G_EVSEPeakCurrentR_0002; u_int8_t VCCU_V2G_EVSEPeakCurrentR_0000; }; struct VCCU_V2G_EVSEMinimumVoltageLim_DATA1 { u_int8_t VCCU_V2G_EVSEMinimumVoltageLim :4; }; struct VCCU_V2G_EVSEMinimumVoltageLim_DATA { struct VCCU_V2G_EVSEMinimumVoltageLim_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEMinimumVolta_0001; u_int16_t VCCU_V2G_EVSEMinimumVolta_0002; u_int8_t VCCU_V2G_EVSEMinimumVolta_0000; }; struct VCCU_V2G_EVSEMinimumCurrentLim_DATA1 { u_int8_t VCCU_V2G_EVSEMinimumCurrentLim :4; }; struct VCCU_V2G_EVSEMinimumCurrentLim_DATA { struct VCCU_V2G_EVSEMinimumCurrentLim_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEMinimumCurre_0001; u_int16_t VCCU_V2G_EVSEMinimumCurre_0002; u_int8_t VCCU_V2G_EVSEMinimumCurre_0000; }; struct VCCU_V2G_EVSEMaximumVoltageLim_DATA1 { u_int8_t VCCU_V2G_EVSEMaximumVolta_0000 :4; u_int8_t VCCU_V2G_EVSEMaximumVoltageLim :2; }; struct VCCU_V2G_EVSEMaximumVoltageLim_DATA { struct VCCU_V2G_EVSEMaximumVoltageLim_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEMaximumVolta_0002; u_int16_t VCCU_V2G_EVSEMaximumVolta_0003; u_int8_t VCCU_V2G_EVSEMaximumVolta_0001; }; struct VCCU_V2G_EVSEMaximumPowerLimit_DATA1 { u_int8_t VCCU_V2G_EVSEMaximumPower_0000 :4; u_int8_t VCCU_V2G_EVSEMaximumPowerLimit :2; }; struct VCCU_V2G_EVSEMaximumPowerLimit_DATA { struct VCCU_V2G_EVSEMaximumPowerLimit_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEMaximumPower_0002; u_int16_t VCCU_V2G_EVSEMaximumPower_0003; u_int8_t VCCU_V2G_EVSEMaximumPower_0001; }; struct VCCU_V2G_EVSEMaximumCurrentLim_DATA { u_int8_t VCCU_V2G_EVSEMaximumCurre_0002 :4; u_int8_t VCCU_V2G_EVSEMaximumCurrentLim :2; }; struct VCCU_V2G_EVSEMaximumCurrentLim { struct VCCU_V2G_EVSEMaximumCurrentLim_DATA DATA; u_int8_t VCCU_V2G_EVSEMaximumCurre_0003; u_int16_t VCCU_V2G_EVSEMaximumCurre_0000; u_int8_t VCCU_V2G_EVSEMaximumCurre_0001; }; struct VCCU_V2G_EVSEEnergyToBeDeliver_DATA1 { u_int8_t VCCU_V2G_EVSEEnergyToBeDe_0002 :4; u_int8_t VCCU_V2G_EVSEEnergyToBeDeliver :2; }; struct VCCU_V2G_EVSEEnergyToBeDeliver_DATA { struct VCCU_V2G_EVSEEnergyToBeDeliver_DATA1 DATA1; u_int8_t VCCU_V2G_EVSEEnergyToBeDe_0003; u_int16_t VCCU_V2G_EVSEEnergyToBeDe_0000; u_int8_t VCCU_V2G_EVSEEnergyToBeDe_0001; }; struct VCCU_V2G_EVSECurrentRegulation_DATA1 { u_int8_t VCCU_V2G_EVSECurrentRegul_0002 :4; u_int8_t VCCU_V2G_EVSECurrentRegulation :2; }; struct VCCU_V2G_EVSECurrentRegulation_DATA { struct VCCU_V2G_EVSECurrentRegulation_DATA1 DATA1; u_int8_t VCCU_V2G_EVSECurrentRegul_0003; u_int16_t VCCU_V2G_EVSECurrentRegul_0000; u_int8_t VCCU_V2G_EVSECurrentRegul_0001; }; struct VCCU_V2G_EVMaximumVoltageLimit_DATA1 { u_int8_t VCCU_V2G_EVMaximumVoltage_0002 :4;//VCCU_V2G_EVMaximumVoltageLimit_Unit V u_int8_t VCCU_V2G_EVMaximumVoltageLimit :2;//VCCU_V2G_EVMaximumVoltageLimitFlag true }; struct VCCU_V2G_EVMaximumVoltageLimit { struct VCCU_V2G_EVMaximumVoltageLimit_DATA1 DATA1; struct{ u_int8_t value:8; }VCCU_V2G_EVMaximumVoltage_0003; struct{ u_int16_t value:16; }VCCU_V2G_EVMaximumVoltage_0000; struct{ u_int8_t value:8; }VCCU_V2G_EVMaximumVoltage_0001; }; struct VCCU_V2G_EVMaximumPowerLimit_DATA1 { u_int8_t VCCU_V2G_EVMaximumPowerLi_0000 :4; u_int8_t VCCU_V2G_EVMaximumPowerLimitFl :2; }; struct VCCU_V2G_EVMaximumPowerLimit_DATA { struct VCCU_V2G_EVMaximumPowerLimit_DATA1 DATA; u_int8_t VCCU_V2G_EVMaximumPowerLimit_M; u_int16_t VCCU_V2G_EVMaximumPowerLimit_V; u_int8_t VCCU_V2G_EVMaximumPowerLimit_U; }; struct VCCU_V2G_EVMaximumCurrentLimit_DATA1 { u_int8_t VCCU_V2G_EVMaximumCurrent_0000 :4;//VCCU_V2G_EVMaximumCurrentLimit_Unit A u_int8_t VCCU_V2G_EVMaximumCurrentLimit :2;//VCCU_V2G_EVMaximumCurrentLimitFlag }; struct VCCU_V2G_EVMaximumCurrentLimit { struct VCCU_V2G_EVMaximumCurrentLimit_DATA1 DATA1; struct{ u_int8_t value:8; }VCCU_V2G_EVMaximumCurrent_0002; struct{ u_int16_t value:16; }VCCU_V2G_EVMaximumCurrent_0003; struct{ u_int8_t value:8; }VCCU_V2G_EVMaximumCurrent_0001; }; struct VCCU_V2G_EVEnergyRequest_DATA1 { u_int8_t VCCU_V2G_EVEnergyRequest_Unit :4; u_int8_t VCCU_V2G_EVEnergyRequestFlag :2; }; struct VCCU_V2G_EVEnergyRequest_DATA { struct VCCU_V2G_EVEnergyRequest_DATA1 DATA1; u_int8_t VCCU_V2G_EVEnergyRequest_Multi; u_int16_t VCCU_V2G_EVEnergyRequest_Value; u_int8_t VCCU_V2G_EVEnergyRequest_UnitF; }; struct VCCU_V2G_EVEnergyCapacity_DATA1 { u_int8_t VCCU_V2G_EVEnergyCapacity_Unit :4; u_int8_t VCCU_V2G_EVEnergyCapacityFlag :2; }; struct VCCU_V2G_EVEnergyCapacity_DATA { struct VCCU_V2G_EVEnergyCapacity_DATA1 DATA1; u_int8_t VCCU_V2G_EVEnergyCapacity_Mult; u_int16_t VCCU_V2G_EVEnergyCapacity_Valu; u_int8_t VCCU_V2G_EVEnergyCapacity_0000; }; struct VCCU_V2G_EVSEStatus_DATA1 { u_int8_t VCCU_V2G_EVSECurrentLimitAchie :2; u_int8_t VCCU_V2G_EVSEIsolationStatus :3; u_int8_t VCCU_V2G_EVSEIsolationStatusFl :2; }; struct VCCU_V2G_EVSEStatus_DATA2 { u_int8_t VCCU_V2G_EVSENotification :2; u_int8_t VCCU_V2G_EVSEProcessing :2; u_int8_t VCCU_V2G_EVSEStatusCode :4; }; struct VCCU_V2G_EVSEStatus_DATA3 { u_int8_t VCCU_V2G_EVSEVoltageLimitAchie :2; u_int8_t VCCU_V2G_EVSEPowerLimitAchieve :2; u_int8_t VCCU_V2G_DateTimeNowFlag :2; }; struct VCCU_V2G_EVSEStatus_DATA4 { u_int8_t VCCU_V2G_DateTimeNowFlag :5; }; struct VCCU_V2G_EVSEStatus_DATA { struct VCCU_V2G_EVSEStatus_DATA1 DATA1; struct VCCU_V2G_EVSEStatus_DATA2 DATA2; struct VCCU_V2G_EVSEStatus_DATA3 DATA3; struct VCCU_V2G_EVSEStatus_DATA4 DATA4; u_int32_t VCCU_V2G_NotificationMaxDelay; }; struct VCCU_V2G_EVTargetCurrent_DATA4 { u_int8_t VCCU_V2G_EVTargetCurrent_Unit :4;//VCCU_V2G_EVTargetCurrent_Unit A }; struct VCCU_V2G_EVTargetCurrent { struct{ u_int16_t value:16; }VCCU_V2G_EVTargetCurrent_Value; struct{ u_int8_t value:8; }VCCU_V2G_EVTargetCurrent_Multi; struct{ u_int8_t value:8; }VCCU_V2G_EVTargetCurrent_UnitF; struct{ u_int8_t value :4;//VCCU_V2G_EVTargetCurrent_Unit A }VCCU_V2G_EVTargetCurrent_Unit; }; struct VCCU_V2G_EVTargetVoltage_DATA4 { u_int8_t VCCU_V2G_EVTargetVoltage_Unit :4;//VCCU_V2G_EVTargetVoltage_Unit V }; struct VCCU_V2G_EVTargetVoltage { struct{ u_int16_t value :16; }VCCU_V2G_EVTargetVoltage_Value; struct{ u_int8_t value :8; }VCCU_V2G_EVTargetVoltage_Multi; struct{ u_int8_t value :8; }VCCU_V2G_EVTargetVoltage_UnitF; struct{ u_int8_t value :4;//VCCU_V2G_EVTargetVoltage_Unit V }VCCU_V2G_EVTargetVoltage_Unit; }; struct VCCU_V2G_RemainingTimeToBulkSO_DATA4 { u_int8_t VCCU_V2G_RemainingTimeToB_0002 :4; u_int8_t VCCU_V2G_RemainingTimeToBulkSO :2; }; struct VCCU_V2G_RemainingTimeToBulkSO_DATA { u_int16_t VCCU_V2G_RemainingTimeToB_0000; u_int8_t VCCU_V2G_RemainingTimeToB_0003; u_int8_t VCCU_V2G_RemainingTimeToB_0001; struct VCCU_V2G_RemainingTimeToBulkSO_DATA4 DATA4; }; struct VCCU_V2G_RemainingTimeToFullSO_DATA { u_int8_t VCCU_V2G_RemainingTimeToF_0002 :4; u_int8_t VCCU_V2G_RemainingTimeToFullSO :2; }; struct VCCU_V2G_RemainingTimeToFullSO { struct{ u_int16_t value:16; }VCCU_V2G_RemainingTimeToB_0000; struct{ u_int8_t value:8; }VCCU_V2G_RemainingTimeToB_0003; struct{ u_int8_t value:8; }VCCU_V2G_RemainingTimeToB_0001; struct VCCU_V2G_RemainingTimeToFullSO_DATA DATA; }; struct VCCU_V2G_VehicleStatus_DATA1 { u_int8_t VCCU_V2G_EVErrorCode :4;//VCCU_V2G_EVErrorCode u_int8_t VCCU_V2G_BulkChargingComplete :2; u_int8_t VCCU_V2G_BulkChargingCompleteF :2; }; struct VCCU_V2G_VehicleStatus_DATA2 { u_int8_t VCCU_V2G_BulkSOCFlag :2; u_int8_t VCCU_V2G_FullSOCFlag :2; u_int8_t VCCU_V2G_ChargingComplete :2; u_int8_t VCCU_V2G_EVCabinConditioning :2; }; struct VCCU_V2G_VehicleStatus_DATA3 { u_int8_t VCCU_V2G_EVCabinConditioningFl :2; u_int8_t VCCU_V2G_EVReady :2;//VCCU_V2G_EVReady u_int8_t VCCU_V2G_EVRESSConditioning :2; u_int8_t VCCU_V2G_EVRESSConditioningFla :2; }; struct VCCU_V2G_VehicleStatus_DATA4 { u_int8_t VCCU_V2G_EVPowerDeliveryParame :2; u_int8_t VCCU_V2G_StateM_EnergyTra_0000 :4;//VCCU_V2G_StateM_EnergyTransferMode 3 }; struct VCCU_V2G_VehicleStatus { struct VCCU_V2G_VehicleStatus_DATA1 DATA1; struct VCCU_V2G_VehicleStatus_DATA2 DATA2; struct VCCU_V2G_VehicleStatus_DATA3 DATA3; struct VCCU_V2G_VehicleStatus_DATA4 DATA4; struct{ u_int8_t value:8; }VCCU_V2G_BulkSOC; struct{ u_int8_t value:8; }VCCU_V2G_FullSOC; struct{ u_int8_t value:8; }VCCU_V2G_EVRESSSOC; }; struct VCCU_ChargeFromVehicle_DATA { struct{ u_int8_t VCCU_Vehicle_IsolationMeasurem:2;//VCCU_Vehicle_IsolationMeasurementStatus u_int8_t VCCU_Vehicle_PlugLockPermissio:2;//VCCU_Vehicle_PlugLockPermission u_int8_t VCCU_Vehicle_PlugUnlockPermiss:2;//VCCU_Vehicle_PlugUnlockPermission u_int8_t VCCU_Vehicle_ChargePermission:2;//VCCU_Vehicle_ChargePermission }bits; }; struct VCCU_ChargeFromVehicle_DATA4 { u_int8_t VCCU_Vehicle_ContactorStatus:2; }; struct VCCU_ChargeFromVehicle { u_int16_t VCCU_Vehicle_ContactorVoltage;//VCCU_Vehicle_ContactorVoltage u_int16_t VCCU_Vehicle_LinkVoltage;//VCCU_Vehicle_LinkVoltage struct VCCU_ChargeFromVehicle_DATA DATA; struct{ u_int8_t VCCU_Vehicle_ContactorStatus:2;//VCCU_Vehicle_ContactorStatus 3 "SNA" 2 "Stuck" 1 "Closed" 0 "Opened" u_int8_t VCCU_Vehicle_StopCharge:2; u_int8_t VCCU_Vehicle_ChargeSelection:2; }bits; }; struct VCCU_Requests { u_int8_t VCCU_LED0_Request;//0.0 u_int8_t VCCU_LED1_Request;//0.0 u_int8_t VCCU_LED2_Request;//0.0 struct{ u_int8_t VCCU_HighSideOut0_Request:2;//3 0:Disable 1:Enable 2:Resvrved 3:SNA u_int8_t VCCU_HighSideOut1_Request:2;//3 0:Disable 1:Enable 2:Resvrved 3:SNA u_int8_t VCCU_HighSideOut2_Request:2;//3 0:Disable 1:Enable 2:Resvrved 3:SNA u_int8_t VCCU_HighSideOut3_Request:2;//3 0:Disable 1:Enable 2:Resvrved 3:SNA }byte3; struct{ u_int8_t VCCU_HighSideOut4_Request:2;//3 0:Disable 1: Enable 2:Resvrved 3:SNA u_int8_t VCCU_RTC_TimerRequest:2;//3 0:Not_requested 1:Requested 2:Resvrved 3:SNA u_int8_t VCCU_PlugLock_MotorRequest:3;//7 0:Stop 1:DirectionA 2:DirectionB 3:Measurement 4:Reserved1 5:Reserved2 6:Reserved3 7:SNA }byte4; u_int8_t VCCU_RTC_TimerValue;//0 struct{ u_int8_t VCCU_ControlPilot_ChargeModeRe:3;//7 0:ModeB 1:ModeC 2:ModeD 3:Reserved1 4:Reserved2 5:Reserved3 6:Error 7:SNA u_int8_t VCCU_ChargeUnit_Request:2;//3 0:Disable 1:Enable 2:EnableVentilation 3:SNA u_int8_t VCCU_Inlet_MotorRequest:2;//3 0:Lock 1:Unlock 2:Reserved 3:SNA }byte6; }; struct VCCU_ChargeToVehicle { struct{ u_int8_t VCCU_Vehicle_IsolationMea_0000:2;//VCCU_Vehicle_IsolationMeasurementRequest u_int8_t VCCU_Vehicle_ContactorRequest:2;//VCCU_Vehicle_ContactorRequest }bits; }; struct VCCU_RTCStatus_DATA1 { u_int8_t VCCU_RTC_TimerStatus:2; u_int8_t VCCU_RTC_Wakeup:2; }; struct VCCU_RTCStatus_DATA { struct VCCU_RTCStatus_DATA1 DATA1; }; struct VCCU_OutputStatus_DATA1 { u_int8_t VCCU_HighSideOut0_SelfDiagnost:3; u_int8_t VCCU_HighSideOut1_SelfDiagnost:3; }; struct VCCU_OutputStatus_DATA2 { u_int8_t VCCU_HighSideOut2_SelfDiagnost:3; u_int8_t VCCU_HighSideOut3_SelfDiagnost:3; }; struct VCCU_OutputStatus_DATA3 { u_int8_t VCCU_HighSideOut4_SelfDiagnost:3; u_int8_t VCCU_LED0_SelfDiagnosticStatus:3; }; struct VCCU_OutputStatus_DATA4 { u_int8_t VCCU_LED1_SelfDiagnosticStatus:3; u_int8_t VCCU_LED2_SelfDiagnosticStatus:3; }; struct VCCU_OutputStatus_DATA5 { u_int8_t VCCU_HighSideOut0_Input_Deboun:2; u_int8_t VCCU_HighSideOut0_Input_Status:2; u_int8_t VCCU_HighSideOut1_Input_Deboun:2; u_int8_t VCCU_HighSideOut1_Input_Status:2; }; struct VCCU_OutputStatus_DATA6 { u_int8_t VCCU_HighSideOut2_Input_Deboun:2; u_int8_t VCCU_HighSideOut2_Input_Status:2; u_int8_t VCCU_HighSideOut3_Input_Deboun:2; u_int8_t VCCU_HighSideOut3_Input_Status:2; }; struct VCCU_OutputStatus_DATA7 { u_int8_t VCCU_HighSideOut4_Input_Deboun:2; u_int8_t VCCU_HighSideOut4_Input_Status:2; u_int8_t VCCU_HighSideOut3_Input_Wakeup:2; }; struct VCCU_OutputStatus_DATA { struct VCCU_OutputStatus_DATA1 DATA1; struct VCCU_OutputStatus_DATA2 DATA2; struct VCCU_OutputStatus_DATA3 DATA3; struct VCCU_OutputStatus_DATA4 DATA4; struct VCCU_OutputStatus_DATA5 DATA5; struct VCCU_OutputStatus_DATA6 DATA16; struct VCCU_OutputStatus_DATA7 DATA17; }; struct VCCU_ControlPilotStatus_DATA { struct{ u_int8_t VCCU_ControlPilot_Wakeup:2; u_int8_t VCCU_ChargeUnit_Mode:3;//VCCU_ChargeUnit_Mode u_int8_t VCCU_ChargeUnit_State:3;//VCCU_ChargeUnit_State }bits; }; struct VCCU_ControlPilot_Frequency { struct{ u_int16_t VCCU_ControlPilot_Frequency:16; }bits; }; struct VCCU_ControlPilot_DutyCycle { struct{ u_int8_t value:8; }bits; }; struct VCCU_ControlPilot_Voltage { struct{ u_int16_t value:16; }bits; }; struct VCCU_ChargeUnit_MaxCurrent { struct{ u_int8_t value:8; }bits; }; struct VCCU_ControlPilotStatus { struct VCCU_ControlPilot_Frequency ControlPilot_Frequency; struct VCCU_ControlPilot_DutyCycle ControlPilot_DutyCycle; struct VCCU_ControlPilot_Voltage ControlPilot_Voltage; struct VCCU_ControlPilotStatus_DATA DATA; u_int8_t ChargeUnit_MaxCurrent; }; struct VCCU_InletStatus_DATA2 { u_int8_t VCCU_PlugPresent_SelfDiagnosti:3; u_int8_t VCCU_PlugPresent_Resistance:3; u_int8_t VCCU_PlugPresent_Status:2;//VCCU_PlugPresent_Status }; struct VCCU_InletStatus_DATA3 { u_int8_t VCCU_PlugPresent_Wakeup:2; u_int8_t VCCU_POSFeedback_SelfDiagnosti:3; u_int8_t VCCU_PlugLock_MotorStatus:3; }; struct VCCU_InletStatus_DATA4 { u_int8_t VCCU_PlugLock_Output0_SelfDiag:3; u_int8_t VCCU_PlugLock_Output1_SelfDiag:3; u_int8_t VCCU_Inlet_HWVariant:2; }; struct VCCU_InletStatus_DATA5 { struct{ u_int8_t VCCU_DigitalInput_Status:2; u_int8_t VCCU_DigitalInput_Wakeup:2; u_int8_t VCCU_Inlet_MotorStatus:3;//VCCU_Inlet_MotorStatus }bits; }; struct VCCU_InletStatus_DATA7 { struct{ u_int8_t VCCU_DigitalInput_DebouncedSta:2;//VCCU_DigitalInput_DebouncedStatus u_int8_t VCCU_Inlet_ConnectionStatus:2;//VCCU_Inlet_ConnectionStatus u_int8_t VCCU_S3Switch_Status:2;//S3_Switch u_int8_t VCCU_S3Switch_DebouncedStatus:2; }bits; }; struct VCCU_InletStatus { u_int16_t VCCU_POSFeedback_Voltage; struct VCCU_InletStatus_DATA2 DATA2; struct VCCU_InletStatus_DATA3 DATA3; struct VCCU_InletStatus_DATA4 DATA4; struct VCCU_InletStatus_DATA5 DATA5; u_int8_t VCCU_Inlet_MaxCurrent; struct VCCU_InletStatus_DATA7 DATA7; }; struct VCCU_PTC2_DATA4 { u_int8_t VCCU_PTC2_SelfDiagnosticStatus:3; }; struct VCCU_PTC2_DATA { u_int16_t VCCU_PTC2_Raw; u_int16_t VCCU_PTC2_Resistance; u_int16_t VCCU_PTC2_Temperature; struct VCCU_PTC2_DATA4 DATA4; }; struct VCCU_PTC1_DATA { u_int8_t VCCU_PTC1_SelfDiagnosticStatus:3; }; struct VCCU_PTC1 { struct{ u_int16_t value :16; }VCCU_PTC1_Raw; struct{ u_int16_t value :16; }VCCU_PTC1_Resistance; struct{ u_int16_t value :16; }VCCU_PTC1_Temperature; struct VCCU_PTC1_DATA DATA; }; struct DM13_DATA1 { u_int8_t J1939Network1:2; u_int8_t SAE_J1922:2; u_int8_t SAE_J1587:2; u_int8_t CurrentDataLink:2; }; struct DM13_DATA2 { u_int8_t ManufacturerSpecificPort:2; u_int8_t SAE_J1850:2; u_int8_t ISO9141:2; u_int8_t J1939Network2:2; }; struct DM13_DATA3 { u_int8_t J1939Network4:2; u_int8_t ProprietaryNetwork2:2; u_int8_t ProprietaryNetwork1:2; u_int8_t J1939Network3:2; }; struct DM13_DATA4 { u_int8_t SuspendSignal:4; u_int8_t HoldSignal :4; }; struct DM13_DATA { struct DM13_DATA1 DATA1; struct DM13_DATA2 DATA2; struct DM13_DATA3 DATA3; struct DM13_DATA4 DATA4; u_int16_t SuspendDuration; }; struct NM_CGW_DATA { u_int8_t WakeupRsn_CGW; }; struct DIAG_REQ_GLOBAL_DATA { u_int64_t DIAG_REQ_GLOBAL; }; struct DIAG_REQ_VCCU_DATA { u_int64_t DIAG_REQ_VCCU; }; struct XCP_RESP_VCCU_DATA { u_int64_t XCP_RESP_VCCU; }; struct XCP_REQ_VCCU_DATA { u_int64_t XCP_REQ_VCCU; }; struct DIAG_RESP_VCCU_DATA { u_int64_t DIAG_RESP_VCCU; }; struct NM_VCCU_DATA { u_int8_t Awake_Diag_Actv_VCCU:1; u_int8_t Awake_ChargeCom_Actv_VCCU:1; u_int8_t Awake_Clamp15_Actv_VCCU:1; }; struct NM_VCCU { struct{ u_int8_t value:8;//VCCU_Vehicle_ContactorStatus 3 "SNA" 2 "Stuck" 1 "Closed" 0 "Opened" }WakeupRsn_VCCU; struct NM_VCCU_DATA DATA; }; struct VCCU_PTC0_DATA { u_int8_t VCCU_PTC0_SelfDiagnosticStatus:3; }; struct VCCU_PTC0 { struct{ u_int16_t value :16; }VCCU_PTC0_Raw; struct{ u_int16_t value :16; }VCCU_PTC0_Resistance; struct{ u_int16_t value :16; }VCCU_PTC0_Temperature; struct VCCU_PTC0_DATA DATA; }; struct VCCU { struct VCCU_ChargeToVehicle chargeToVehicle; struct VCCU_V2G_StateM v2g_StateM; struct VCCU_ControlPilotStatus controlPilotStatus; struct VCCU_ChargeFromVehicle chargeFromVehicle; struct VCCU_InletStatus inletStatus; struct VCCU_V2G_VehicleStatus v2g_VehicleStatus; struct VCCU_V2G_EVMaximumVoltageLimit v2g_EVMaximumVoltageLimit; struct VCCU_V2G_EVMaximumCurrentLimit v2g_EVMaximumCurrentLimit; struct VCCU_V2G_EVTargetCurrent v2g_EVTargetCurrent; struct VCCU_V2G_EVTargetVoltage v2g_EVTargetVoltage; struct VCCU_V2G_EVSEPresentVoltage v2g_EVSEPresentVoltage; struct VCCU_V2G_EVSEMaximumCurrentLim v2g_EVSEMaximumCurrentLim; struct VCCU_PTC0 ptc0; struct VCCU_PTC1 ptc1; struct VCCU_Requests requests; }; enum MOTHERBOARD_MSG_TYPE{ MOTHERBOARD_MSG_ID01_DC_ID_ASSIGNMENT_REQ = 0, MOTHERBOARD_MSG_ID03_DC_STATUS_NOTIFICATION, MOTHERBOARD_MSG_ID04_DC_FW_VER_ACK, MOTHERBOARD_MSG_ID05_DC_HW_VER_ACK, MOTHERBOARD_MSG_ID09_DC_EV_REQUIREMENT_ACK, MOTHERBOARD_MSG_ID0A_DC_EV_BATTINFO_ACK, MOTHERBOARD_MSG_ID0B_DC_EV_STOP, MOTHERBOARD_MSG_ID0D_DC_MISCINFO_ACK, MOTHERBOARD_MSG_ID0E_DC_FW_DOWNLOAD_ACK, MOTHERBOARD_MSG_ID0F_DC_START_BLOCK_TRANSFER_ACK, MOTHERBOARD_MSG_ID11_DC_FW_DOWNLOAD_FINISH_ACK, MOTHERBOARD_MSG_ID12_DC_ISOLATION_RESULT_ACK, MOTHERBOARD_MSG_ID13_DC_EVSE_INFO_ACK, MOTHERBOARD_MSG_ID02_CSU_ID_ASSIGNMENT_ACK, MOTHERBOARD_MSG_ID04_CSU_FW_VER_REQ, MOTHERBOARD_MSG_ID05_CSU_HW_VER_REQ, MOTHERBOARD_MSG_ID06_CSU_PERMISSION, MOTHERBOARD_MSG_ID07_CSU_OUTPUT_POWER, MOTHERBOARD_MSG_ID08_CSU_OUTPUT_CAPACITY, MOTHERBOARD_MSG_ID09_CSU_EV_REQUIREMENT_REQ, MOTHERBOARD_MSG_ID0A_CSU_EV_BATTINFO_REQ, MOTHERBOARD_MSG_ID0C_CSU_EVSE_STOP, MOTHERBOARD_MSG_ID0D_CSU_MISCINFO_REQ, MOTHERBOARD_MSG_ID0E_CSU_FW_DOWNLOAD_REQ, MOTHERBOARD_MSG_ID0F_CSU_START_BLOCK_TRANSFER_REQ, MOTHERBOARD_MSG_ID10_CSU_DATA_TRANSFER, MOTHERBOARD_MSG_ID11_CSU_FW_DOWNLOAD_FINISH_REQ, MOTHERBOARD_MSG_ID12_CSU_ISOLATION_RESULT_REQ, MOTHERBOARD_MSG_ID13_CSU_EVSE_INFO_REQ }; //------------------------------------------------------------ #define ATE_ID03_DC_STATUS_NOTIFICATION_PRIORITY 6 #define ATE_ID03_DC_STATUS_NOTIFICATION_INTERVAL 500 #define ATE_ID03_DC_STATUS_NOTIFICATION_PF 0x0300 #define ATE_ID03_DC_STATUS_NOTIFICATION_LENGTH 8 #define ATE_ID03_DC_STATUS_NOTIFICATION_TIMEOUT 1000 struct ATE_ID03_DC_STATUS_NOTIFICATION_DATA { u_int8_t ProximitySignal; //0 = connector un-plugged , 1 = connector plug-in u_int8_t PilotVoltage; //chademo and GB = 0 u_int8_t state; u_int8_t AlarmCode2; u_int8_t AlarmCode3; u_int8_t AlarmCode4; u_int8_t AlarmCode5; u_int8_t AlarmCode6; }; //------------------------------------------------------------ #define ATE_ID04_CSU_FW_VER_REQ_PRIORITY 6 #define ATE_ID04_CSU_FW_VER_REQ_INTERVAL 100 #define ATE_ID04_CSU_FW_VER_REQ_PF 0x0400 #define ATE_ID04_CSU_FW_VER_REQ_LENGTH 8 #define ATE_ID04_CSU_FW_VER_REQ_TIMEOUT 1000 struct ATE_ID04_CSU_FW_VER_REQ_DATA { u_int32_t res; u_int32_t res2; }; //------------------------------------------------------------ #define ATE_ID04_DC_FW_VER_ACK_PRIORITY 6 #define ATE_ID04_DC_FW_VER_ACK_INTERVAL 100 #define ATE_ID04_DC_FW_VER_ACK_PF 0x0400 #define ATE_ID04_DC_FW_VER_ACK_LENGTH 8 #define ATE_ID04_DC_FW_VER_ACK_TIMEOUT 1000 struct ATE_ID04_DC_FW_VER_ACK_DATA { u_int32_t FirmwareVersion1; u_int32_t FirmwareVersion2; }; //------------------------------------------------------------ #define ATE_ID06_CSU_PERMISSION_PRIORITY 6 #define ATE_ID06_CSU_PERMISSION_INTERVAL 100 #define ATE_ID06_CSU_PERMISSION_PF 0x0600 #define ATE_ID06_CSU_PERMISSION_LENGTH 8 #define ATE_ID06_CSU_PERMISSION_TIMEOUT 1000 struct ATE_ID06_CSU_PERMISSION_DATA { u_int8_t Permission; //1 = start , 0 = stop u_int16_t TotalBatteryCapacity; //0.1 u_int16_t MaximumBatteryCurrent; //0.1 u_int16_t MaximumBatteryVoltage; //0.1 u_int8_t MaxChargingTimeMin; }; //------------------------------------------------------------ #define ATE_ID07_CSU_INPUT_POWER_PRIORITY 6 #define ATE_ID07_CSU_INPUT_POWER_INTERVAL 100 #define ATE_ID07_CSU_INPUT_POWER_PF 0x0700 #define ATE_ID07_CSU_INPUT_POWER_LENGTH 8 #define ATE_ID07_CSU_INPUT_POWER_TIMEOUT 1000 struct ATE_ID07_CSU_INPUT_POWER_DATA { u_int16_t PresentInputVoltage; //目前relay火線輸入電壓 u_int16_t PresentInputCurrent; //目前relay火線電流 u_int16_t res0; //0.1 u_int16_t res1; //0.1 }; //------------------------------------------------------------ #define ATE_ID08_CSU_INPUT_REQUIREMENT_PRIORITY 6 #define ATE_ID08_CSU_INPUT_REQUIREMENT_INTERVAL 100 #define ATE_ID08_CSU_INPUT_REQUIREMENT_PF 0x0800 #define ATE_ID08_CSU_INPUT_REQUIREMENT_LENGTH 8 #define ATE_ID08_CSU_INPUT_REQUIREMENT_TIMEOUT 1000 struct ATE_ID08_CSU_INPUT_REQUIREMENT_DATA { u_int16_t RequireVoltage; //0.1 需求電壓預設500V u_int16_t RequireCurrent; //0.1 需求電流預設60A u_int16_t PresentBattVoltage; //0.1 電池電壓預設192V u_int8_t MinimumChargeCurrent; //0.1 最小測電流2A //Only CHAdeMO 1.2 u_int8_t ChargeAllow; //0.1 充電允許固定為1 //Only CHAdeMO 1.2 }; //------------------------------------------------------------ #define ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_PRIORITY 6 #define ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_INTERVAL 100 #define ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_PF 0x0900 #define ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_LENGTH 8 #define ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_TIMEOUT 1000 struct ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_DATA { u_int32_t res; u_int32_t res2; }; //------------------------------------------------------------ #define ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_PRIORITY 6 #define ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_INTERVAL 100 #define ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_PF 0x0900 #define ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_LENGTH 8 #define ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_TIMEOUT 100 struct ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_DATA { u_int8_t DcEvState; u_int8_t ChargingMode; u_int16_t EvsePresentOutputVoltage; u_int16_t EvsePresentOutputCurrent; u_int16_t RemainingTimeSec; }; //------------------------------------------------------------ #define ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_PRIORITY 6 #define ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_INTERVAL 100 #define ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_PF 0x0A00 #define ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_LENGTH 8 #define ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_TIMEOUT 300 struct ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_DATA { u_int32_t res; u_int32_t res2; }; //------------------------------------------------------------ #define ATE_ID0A_DC_EVSE_CAPACIYT_ACK_PRIORITY 6 #define ATED_ID0A_DC_EVSE_CAPACIYT_ACK_INTERVAL 100 #define ATE_ID0A_DC_EVSE_CAPACIYT_ACK_PF 0x0A00 #define ATE_ID0A_DC_EVSE_CAPACIYT_ACK_LENGTH 8 #define ATE_ID0A_DC_EVSE_CAPACIYT_ACK_TIMEOUT 100 struct ATE_ID0A_DC_EVSE_CAPACIYT_ACK_DATA { u_int16_t EvseMaxChargeVoltage; u_int16_t EvseMaxChargeCurrent; u_int16_t EvseMinChargeVoltage; u_int16_t EvseMinChargeCurrent; u_int8_t res; }; //------------------------------------------------------------ #define ATE_ID0B_DC_EV_STOP_PRIORITY 6 #define ATE_ID0B_DC_EV_STOP_INTERVAL 100 #define ATE_ID0B_DC_EV_STOP_PF 0x0B00 #define ATE_ID0B_DC_EV_STOP_LENGTH 8 #define ATE_ID0B_DC_EV_STOP_TIMEOUT 50 struct ATE_ID0B_DC_EV_STOP_DATA { u_int8_t EvStopReason; //0 = EV normal stop , 1 = EV emergency stop u_int8_t AlarmCode1; u_int8_t AlarmCode2; u_int8_t AlarmCode3; u_int8_t AlarmCode4; u_int8_t AlarmCode5; u_int8_t AlarmCode6; u_int8_t res; }; //------------------------------------------------------------ #define ATE_ID0C_CSU_EVSE_STOP_PRIORITY 6 #define ATE_ID0C_CSU_EVSE_STOP_INTERVAL 100 #define ATE_ID0C_CSU_EVSE_STOP_PF 0x0C00 #define ATE_ID0C_CSU_EVSE_STOP_LENGTH 8 #define ATE_ID0C_CSU_EVSE_STOP_TIMEOUT 300 struct ATE_ID0C_CSU_EVSE_STOP_DATA { u_int8_t EvseStopReason; //0 = EVSE normal stop , 1 = EVSE emergency stop u_int8_t AlarmCode1; u_int8_t AlarmCode2; u_int8_t AlarmCode3; u_int8_t AlarmCode4; u_int8_t AlarmCode5; u_int8_t AlarmCode6; u_int8_t res; }; //------------------------------------------------------------ #define ATE_ID0D_CSU_MISCINFO_REQ_PRIORITY 6 #define ATE_ID0D_CSU_MISCINFO_REQ_INTERVAL 100 #define ATE_ID0D_CSU_MISCINFO_REQ_PF 0x0D00 #define ATE_ID0D_CSU_MISCINFO_REQ_LENGTH 8 #define ATE_ID0D_CSU_MISCINFO_REQ_TIMEOUT 1000 struct ATE_ID0D_CSU_MISCINFO_REQ_DATA { u_int8_t K1K2Status; //0 = Off / 1 = ON u_int8_t Soc; u_int16_t res0; u_int16_t res1; u_int16_t res2; }; //------------------------------------------------------------ #define ATE_ID0D_DC_MISCINFO_ACK_PRIORITY 6 #define ATE_ID0D_DC_MISCINFO_ACK_INTERVAL 100 #define ATE_ID0D_DC_MISCINFO_ACK_PF 0x0D00 #define ATE_ID0D_DC_MISCINFO_ACK_LENGTH 8 #define ATE_ID0D_DC_MISCINFO_ACK_TIMEOUT 100 struct ATE_ID0D_DC_MISCINFO_ACK_DATA { u_int8_t ConnectorLockStatus; //0 = released , 1 = locked u_int8_t ConnectorTmp1; u_int8_t ConnectorTmp2; u_int8_t PilotVoltage; //CHAdeMO and GB = 0 u_int8_t K1K2OnOff; u_int8_t Res2; u_int8_t Res3; u_int8_t soc; }; struct CHADEMO { struct ATE_ID03_DC_STATUS_NOTIFICATION_DATA id03; struct ATE_ID04_CSU_FW_VER_REQ_DATA id04_req; struct ATE_ID04_DC_FW_VER_ACK_DATA id04_ack; struct ATE_ID06_CSU_PERMISSION_DATA id06; struct ATE_ID07_CSU_INPUT_POWER_DATA id07; struct ATE_ID08_CSU_INPUT_REQUIREMENT_DATA id08; struct ATE_ID09_CSU_EVSE_OUTPUT_STATUS_REQ_DATA id09_req; struct ATE_ID09_DC_EVSE_OUTPUT_STATUS_ACK_DATA id09_ack; struct ATE_ID0A_CSU_EVSE_CAPACIYT_REQ_DATA id0A_req; struct ATE_ID0A_DC_EVSE_CAPACIYT_ACK_DATA id0A_ack; struct ATE_ID0B_DC_EV_STOP_DATA id0B; struct ATE_ID0C_CSU_EVSE_STOP_DATA id0C; struct ATE_ID0D_CSU_MISCINFO_REQ_DATA id0D_req; struct ATE_ID0D_DC_MISCINFO_ACK_DATA id0D_ack; int relaystatus; int PresentChargedDuration; int RemainChargingDuration; }; struct Boot_Notification { u_int32_t boo1;//0x02 u_int32_t boo2;//0x03 }; struct ATE_Connector_1 { u_int16_t TargetVoltage;//0x02 u_int16_t TargetCurrent;//0x03 u_int16_t PresentVoltage;//0x03 u_int16_t PresentCurrent;//0x03 }; struct ATE_Connector_2 { u_int16_t TargetVoltage;//0x02 u_int16_t TargetCurrent;//0x03 u_int16_t PresentVoltage;//0x03 u_int16_t PresentCurrent;//0x03 }; struct EVStatus { u_int8_t data;//Idle:0x01, Preparing:0x02, Charging:0x03, Charging termination:0x04, Fault:0x05 }; struct CHROMA { struct Boot_Notification bootNotification; struct ATE_Connector_1 ate_Connector_1; struct ATE_Connector_2 ate_Connector_2; struct EVStatus evstaus; }; struct ATE { unsigned char ATEStatus; struct VCCU vccu; struct CHADEMO chademo; struct CHROMA chroma; int status; int ATEState;//0 none 1 vccu 2 gb int targetCurrent_Value; int targetVoltage_Value; int chademoTargetCurrent_Value; int chademoTargetVoltage_Value; int maximumCurrent_value; int maximumVoltage_value; int linkVoltage; int contactorVoltage; int RequireVoltage; //0.1 int RequireCurrent; //0.1 int PresentBattVoltage; //0.1 int MinimumChargeCurrent; int Permission; //1 = start , 0 = stop int TotalBatteryCap; //0.1 int MaxBatteryCurrent; //0.1 int MaxBatteryVoltage; //0.1 int MaxChargingTimeMin; unsigned char cATEStatus; int cstatus; int ctargetCurrent_Value; int ctargetVoltage_Value; int cmaximumCurrent_value; int cmaximumVoltage_value; int clinkVoltage; int ccontactorVoltage; int cRequireVoltage; //0.1 int cRequireCurrent; //0.1 int cPresentBattVoltage; //0.1 int cMinimumChargeCurrent; int cPermission; //1 = start , 0 = stop int cTotalBatteryCap; //0.1 int cMaxBatteryCurrent; //0.1 int cMaxBatteryVoltage; //0.1 int cMaxChargingTimeMin; int testMode;//測試模式 int ateMode;//ATE模式 0 VCCU 1 GB int ateStatus; int atePreviousStatus; }; struct SysConfigAndInfo { struct SysConfigData SysConfig; struct SysInfoData SysInfo; struct WARNING_CODE_INFO SysWarningInfo; struct STOP_CHARGING_ALARM_CODE SysStopChargingAlarmCode; struct ATE ate; }; char Currency[54][3]= { "AED", // - Emirati Dirham "ARS", // - Argentine Peso "AUD", // - Australian Dollar "BGN", // - Bulgarian Lev "BHD", // - Bahraini Dinar "BND", // - Bruneian Dollar "BRL", // - Brazilian Real "BWP", // - Botswana Pula "CAD", // - Canadian Dollar "CHF", // - Swiss Franc "CLP", // - Chilean Peso "CNY", // - Chinese Yuan Renminbi "COP", // - Colombian Peso "CZK", // - Czech Koruna "DKK", // - Danish Krone "EUR", // - Euro "GBP", // - British Pound "HKD", // - Hong Kong Dollar "HRK", // - Croatian Kuna "HUF", // - Hungarian Forint "IDR", // - Indonesian Rupiah "ILS", // - Israeli Shekel "INR", // - Indian Rupee "IRR", // - Iranian Rial "ISK", // - Icelandic Krona "JPY", // - Japanese Yen "KRW", // - South Korean Won "KWD", // - Kuwaiti Dinar "KZT", // - Kazakhstani Tenge "LKR", // - Sri Lankan Rupee "LYD", // - Libyan Dinar "MUR", // - Mauritian Rupee "MXN", // - Mexican Peso "MYR", // - Malaysian Ringgit "NOK", // - Norwegian Krone "NPR", // - Nepalese Rupee "NZD", // - New Zealand Dollar "OMR", // - Omani Rial "PHP", // - Philippine Peso "PKR", // - Pakistani Rupee "PLN", // - Polish Zloty "QAR", // - Qatari Riyal "RON", // - Romanian New Leu "RUB", // - Russian Ruble "SAR", // - Saudi Arabian Riyal "SEK", // - Swedish Krona "SGD", // - Singapore Dollar "THB", // - Thai Baht "TRY", // - Turkish Lira "TTD", // - Trinidadian Dollar "TWD", // - Taiwan New Dollar "USD", // - US Dollar "VEF", // - Venezuelan Bolivar "ZAR" // - South African Rand }; /**************************************************************************************/ /**************************Alarm Share memory**************************************/ /*************************************************************************************** Status Code A B C D E F 0: Issue 1: From EVSE 1: Fault (unrecoverable) 001 ~ 999 serial number e.g., hardware broken, system latch 1: Recovered 2: From EV 2: Alarm (recoverable) e.g., OTP, OVP 3: From Backend 3: Information e.g., swipe card to stop charging according to XXX.Revxx ***************************************************************************************/ /**************************************************************************************/ char FaultStatusCode[40][6]= { "011001", //CHAdeMO output fuse blew "011002", //CCS output fuse blew "011003", //GB output fuse blew "011004", //RCD/CCID self-test fail "011005", //AC input contactor 1 welding "011006", //AC input contactor 1 driving fault "011007", //AC input contactor 2 welding "011008", //AC input contactor 2 driving fault "011009", //AC output relay welding "011010", //AC output relay driving fault "011011", //CHAdeMO output relay welding "011012", //CHAdeMO output relay driving fault "011013", //CCS output relay welding "011014", //CCS output relay driving fault "011015", //GB output relay welding "011016", //GB output relay driving fault "011017", //AC connector temperature sensor broken "011018", //CHAdeMO connector temperature sensor broken "011019", //CCS connector temperature sensor broken "011020", //GB connector temperature sensor broken "011021", //WiFi module broken "011022", //3G/4G module broken "011023", //Aux. power module broken "011024", //Relay control module /smart box broken "011025", //CHAdeMO connector lock fail "011026", //GB connector lock fail "011027", //AC connector lock fail "011028", //CHAdeMO module broken "011029", //CCS module broken "011030", //GBT module broken "011031", //PSU module broken "011032", //RCD/CCID module broken "011033", //Maximum Output Current setup error "011034", //Shutter fault "011035", //Ble module broken "011036", //Rotary switch fault "011037", //Reserved "011038", //Reserved "011039", //Reserved "011040" //Reserved }; struct FaultCodeData { unsigned char PreviousFaultVal[5]; union { unsigned char FaultVal[5]; struct { //FaultVal[0] unsigned char ChademoOutputFuseBlew:1; //bit 0 unsigned char CcsOutputFuseBlew:1; //bit 1 unsigned char GbOutputFuseBlew:1; //bit 2 unsigned char RcdSelfTestFail:1; //bit 3 unsigned char AcInputContactor1Welding:1; //bit 4 unsigned char AcInputContactor1DrivingFault:1; //bit 5 unsigned char AcInputContactor2Welding:1; //bit 6 unsigned char AcInputContactor2DrivingFault:1; //bit 7 //FaultVal[1] unsigned char AcOutputRelayWelding:1; //bit 0 unsigned char AcOutputRelayDrivingFault:1; //bit 1 unsigned char ChademoOutputRelayWelding:1; //bit 2 unsigned char ChademoOutputRelayDrivingFault:1; //bit 3 unsigned char CcsOutputRelayWelding:1; //bit 4 unsigned char CcsOutputRelayDrivingFault:1; //bit 5 unsigned char GbOutputRelayWelding:1; //bit 6 unsigned char GbOutputRelayDrivingFault:1; //bit 7 //FaultVal[2] unsigned char AcConnectorTempSensorBroken:1; //bit 0 unsigned char ChademoConnectorTempSensorBroken:1; //bit 1 unsigned char CcsConnectorTempSensorBroken:1; //bit 2 unsigned char GbConnectorTempSensorBroken:1; //bit 3 unsigned char WiFiModuleBroken:1; //bit 4 unsigned char Telecom4GModuleBroken:1; //bit 5 unsigned char AuxPowerModuleBroken:1; //bit 6 unsigned char RelayControlModuleBroken :1; //bit 7 //FaultVal[3] unsigned char ChademoConnectorLockFail:1; //bit 0 unsigned char GbConnectorLockFail:1; //bit 1 unsigned char AcConnectorLockFail:1; //bit 2 unsigned char ChademoModuleBroken:1; //bit 3 unsigned char CcsModuleBroken:1; //bit 4 unsigned char GbModuleBroken:1; //bit 5 unsigned char PsuModuleBroken:1; //bit 6 unsigned char RcdCcidModuleBroken:1; //bit 7 //FaultVal[4] unsigned char MaximumOutputCurrentSetupError:1; //bit 0 unsigned char ShutterFault:1; //bit 1 unsigned char BleModuleBroken:1; //bit 2 unsigned char RotarySwitchFault:1; //bit 3 unsigned char :4; //bit 4 ~ 7 reserved }bits; }FaultEvents; }; char AlarmStatusCode[128][6]= { "012200", //System L1 input OVP "012201", //System L2 input OVP "012202", //System L3 input OVP "012203", //System L1 input UVP "012204", //System L2 input UVP "012205", //System L3 input UVP "012206", //PSU L1 input OVP "012207", //PSU L2 input OVP "012208", //PSU L3 input OVP "012209", //PSU L1 input UVP "012210", //PSU L2 input UVP "012211", //PSU L3 input UVP "012212", //System L1 input drop "012213", //System L2 input drop "012214", //System L3 input drop "012215", //System AC output OVP "012216", //System AC output OCP L1 "012217", //System CHAdeMO output OVP "012218", //System CHAdeMO output OCP "012219", //System CCS output OVP "012220", //System CCS output OCP "012221", //System GB output OVP "012222", //System GB output OCP "012223", //System ambient/inlet OTP "012224", //System critical point OTP "012225", //PSU ambient/inlet OTP "012226", //PSU critical point OTP "012227", //Aux. power module OTP "012228", //Relay board/smart box OTP "012229", //CHAdeMO connector OTP "012230", //CCS connector OTP "012231", //GB connector OTP "012232", //AC connector OTP "012233", //RCD/CCID trip "012234", //CHAdeMO GFD trip "012235", //CCS GFD trip "012236", //GB GFD trip "012237", //SPD trip "012238", //Main power breaker trip "012239", //Aux. power breaker trip "012240", //PSU communication fail "012241", //WiFi module communication fail "012242", //3G/4G module communication fail "012243", //RFID module communication fail "012244", //Bluetooth module communication fail "012245", //LCM module communication fail "012246", //Aux. power module communication fail "012247", //Relay control boaed/smart box communication fail "012248", //CCS module communication fail "012249", //CHAdeMO module communication fail "012250", //GBT module communication fail "012251", //Emergency stop "012252", //Door open "012253", //System fan decay "012254", //Fail to create share memory "012255", //CSU initialization failed "012256", //AC Ground Fault "012257", //MCU self-test Fault "012258", //Relay self-test Fault "012259", //CHAdeMO groundfault detection timeout (GFD) "012260", //CCS groundfault detection timeout (GFD) "012261", //GB groundfault detection timeout (GFD) "012262", //Circuit Short L1 "012263", // PSU Duplicate ID "012264", // PSU Output Short Circuit "012265", // PSU Discharge Abnormal "012266", // PSU Dc Side ShutDown "012267", // PSU Failure Alarm "012268", // PSU Protection Alarm "012269", // PSU FanFailure Alarm "012270", // PSU Input UVP "012271", // PSU Input OVP "012272", // PSU WalkIn State "012273", // PSU Power Limited State "012274", // PSU Id Repeat "012275", // PSU Severe Uneven Current "012276", // PSU Three Phase Input Inadequate "012277", // PSU Three Phase Onput Imbalance "012278", // PSU Ffc Side ShutDown "012279", // NO PSU Resource "012280", // Self test Failed due to communication of Relayboard failure "012281", // Self test Failed due to communication of Fanboard failure "012282", // Self test Failed due to communication of Primary failure "012283", // Self test Failed due to communication of Chademoboard failure "012284", // Self test Failed due to communication of CCSboard failure "012285", // Self test Failed due to AC Contact failure "012286", // Self test Failed due to communication of PSU failure "012287", // Self test Failed due to Model name is none match "012288", // CCS output UVP "012289", // Chademo output UVP "012290", // GBT output UVP "012291", // Self test Failed due to communication of GBTboard failure "012292", // Self test Failed due to communication of AC failure "012293", // Self test Failed due to communication of Ledboard failure "012294", // Ac input OVP "012295", // Ac input UVP "012296", // CHAdeMO groundfault detection - warning "012297", // CCS groundfault detection - warning "012298", // GB groundfault detection - warning "012299", //System AC output OCP L2 "012300", //System AC output OCP L3 "012301", //Circuit Short L2 "012302", //Circuit Short L3 }; struct AlarmCodeData { unsigned char PreviousAlarmVal[13]; union { unsigned char AlarmVal[13]; struct { //AlarmVal[0] unsigned char SystemL1InputOVP:1; //bit 0 unsigned char SystemL2InputOVP:1; //bit 1 unsigned char SystemL3InputOVP:1; //bit 2 unsigned char SystemL1InputUVP:1; //bit 3 unsigned char SystemL2InputUVP:1; //bit 4 unsigned char SystemL3InputUVP:1; //bit 5 unsigned char PsuL1InputOVP:1; //bit 6 unsigned char PsuL2InputOVP:1; //bit 7 //AlarmVal[1] unsigned char PsuL3InputOVP:1; //bit 0 unsigned char PsuL1InputUVP:1; //bit 1 unsigned char PsuL2InputUVP:1; //bit 2 unsigned char PsuL3InputUVP :1; //bit 3 unsigned char SystemL1InputDrop:1; //bit 4 unsigned char SystemL2InputDrop:1; //bit 5 unsigned char SystemL3InputDrop:1; //bit 6 unsigned char SystemAcOutputOVP:1; //bit 7 //AlarmVal[2] unsigned char SystemAcOutputOCP:1; //bit 0 unsigned char SystemChademoOutputOVP:1; //bit 1 unsigned char SystemChademoOutputOCP:1; //bit 2 unsigned char SystemCcsOutputOVP:1; //bit 3 unsigned char SystemCcsOutputOCP:1; //bit 4 unsigned char SystemGbOutputOVP:1; //bit 5 unsigned char SystemGbOutputOCP:1; //bit 6 unsigned char SystemAmbientOTP :1; //bit 7 //AlarmVal[3] unsigned char SystemCriticalPointOTP:1; //bit 0 unsigned char PsuAmbientOTP:1; //bit 1 unsigned char PsuCriticalPointOTP:1; //bit 2 unsigned char AuxPowerModuleOTP:1; //bit 3 unsigned char RelayBoardOTP:1; //bit 4 unsigned char ChademoConnectorOTP:1; //bit 5 unsigned char CcsConnectorOTP:1; //bit 6 unsigned char GbConnectorOTP:1; //bit 7 //AlarmVal[4] unsigned char AcConnectorOTP:1; //bit 0 unsigned char RcdTrip:1; //bit 1 unsigned char ChademoGfdTrip:1; //bit 2 unsigned char CcsGfdTrip:1; //bit 3 unsigned char GbGfdTrip:1; //bit 4 unsigned char SpdTrip:1; //bit 5 unsigned char MainPowerBreakerTrip:1; //bit 6 unsigned char AuxPowerBreakerTrip:1; //bit 7 //AlarmVal[5] unsigned char PsuCommunicationFail:1; //bit 0 unsigned char WiFiModuleCommFail:1; //bit 1 unsigned char Telecom4GModuleCommFail:1; //bit 2 unsigned char RfidModuleCommFail:1; //bit 3 unsigned char BluetoothModuleCommFail:1; //bit 4 unsigned char LcmModuleCommFail:1; //bit 5 unsigned char AuxPowerModuleCommFail:1; //bit 6 unsigned char RelayBoardCommFail:1; //bit 7 //AlarmVal[6] unsigned char CcsModuleCommFail:1; //bit 0 unsigned char ChademoModuleCommFail:1; //bit 1 unsigned char GbModuleCommFail:1; //bit 2 unsigned char EmergencyStopTrip:1; //bit 3 unsigned char DoorOpen:1; //bit 4 unsigned char SystemFanDecay:1; //bit 5 unsigned char FailToCreateShareMemory:1; //bit 6 unsigned char CsuInitFailed:1; //bit 7 //AlarmVal[7] unsigned char AcGroundfaultFail:1; //bit 0 unsigned char McuSelftestFail:1; //bit 1 unsigned char RelaySelftestFail:1; //bit 2 unsigned char ChademoGroundfaultTimeout:1; //bit 3 unsigned char CcsGroundfaultTimeout:1; //bit 4 unsigned char GbGroundfaultTimeout:1; //bit 5 unsigned char CircuitShort:1; //bit 6 unsigned char PsuDuplicateID:1; //bit 7 //AlarmVal[8] unsigned char PsuOutputShortCircuit :1; //bit 0 unsigned char PsuDischargeAbnormal :1; //bit 1 unsigned char PsuDcSideShutDown :1; //bit 2 unsigned char PsuFailureAlarm :1; //bit 3 unsigned char PsuProtectionAlarm :1; //bit 4 unsigned char PsuFanFailureAlarm :1; //bit 5 unsigned char PsuInputUVP:1; //bit 6 unsigned char PsuInputOVP:1; //bit 7 //AlarmVal[9] unsigned char PsuWalkInState :1; //bit 0 unsigned char PsuPowerLimitedState :1; //bit 1 unsigned char PsuIdRepeat :1; //bit 2 unsigned char PsuSevereUnevenCurrent :1; //bit 3 unsigned char PsuThreePhaseInputInadequate :1; //bit 4 unsigned char PsuThreePhaseOnputImbalance :1; //bit 5 unsigned char PsuFfcSideShutDown :1; //bit 6 unsigned char PsuNoResource:1; //bit 7 //AlarmVal[10] unsigned char RelayboardStestFail :1; //bit 0 unsigned char FanboardStestFail :1; //bit 1 unsigned char PrimaryStestFail :1; //bit 2 unsigned char ChademoboardStestFail :1; //bit 3 unsigned char CCSboardStestFail :1; //bit 4 unsigned char AcContactStestFail :1; //bit 5 unsigned char PsuModuleStestFail :1; //bit 6 unsigned char ModelNameNoneMatchStestFail:1; //bit 7 //AlarmVal[11] unsigned char CcsOutputUVPFail :1; //bit 0 unsigned char ChademoOutputUVPFail :1; //bit 1 unsigned char GbtOutputUVPFail :1; //bit 2 unsigned char GbtboardStestFail :1; //bit 3 unsigned char AcConnectorStestFail:1; //bit 4 unsigned char LedboardStestFail:1; //bit 5 unsigned char AcSystemInputOVP:1; //bit 6 unsigned char AcSystemInputUVP:1; //bit 7 //AlarmVal[12] unsigned char ChademoGroundWarning :1; //bit 0 unsigned char CcsGroundfaultWarning :1; //bit 1 unsigned char GbGroundfaultWarning :1; //bit 2 unsigned char SystemAcOutputOCPL2:1; //bit 3 unsigned char SystemAcOutputOCPL3:1; //bit 4 unsigned char CircuitShortL2:1; //bit 5 unsigned char CircuitShortL3:1; //bit 6 unsigned char :1; //bit 7 }bits; }AlarmEvents; }; char InfoStatusCode[384][6]= { //Information comes from EVSE "013600", //Normal stop charging by user "013601", //Charging Time's up "013602", //Replace system air filter "013603", //Reach to CHAdeMO max. plugging times. "013604", //Reach to CCS max. plugging times. "013605", //Reach to GB max. plugging times. "013606", //Reach to AC max. plugging times. "013607", //CSU fimrware update fail "013608", //CHAdeMO Module fimrware update fail "013609", //CCS Module fimrware update fail "013610", //GB Module fimrware update fail "013611", //Aux. power module fimrware update fail "013612", //Relay control module fimrware update fail "013613", //LCM module fimrware update fail "013614", //Bluetooth module fimrware update fail "013615", //WiFi module fimrware update fail "013616", //3G/4G module fimrware update fail "013617", //SMR fimrware update fail "013618", //RFID module fimrware update fail "013619", //configured by USB flash drive "013620", //configured by backend "013621", //configured by webpage "013622", //disconnected from Internet through Ethernet "013623", //disconnected from Internet through WiFi "013624", //disconnected from Internet through 3G/4G "013625", //disconnected from AP through WiFi "013626", //disconnected from APN through 3G/4G "013627", //Reserved "013628", //Reserved "013629", //Reserved "013630", //Reserved "013631", //Reserved //Information comes from EV "023700", //CHAdeMO EV communication Fail "023701", //CCS EV communication Fail "023702", //GB EV communication Fail "023703", //AC: pilot fault "023704", //CHAdeMO: battery malfunction "023705", //CHAdeMO: no charging permission "023706", //CHAdeMO: battery incompatibility "023707", //CHAdeMO: battery OVP "023708", //CHAdeMO: battery UVP "023709", //CHAdeMO: battery OTP "023710", //CHAdeMO: battery current difference "023711", //CHAdeMO: battery voltage difference "023712", //CHAdeMO: shift position "023713", //CHAdeMO: battery other fault "023714", //CHAdeMO: charging system error "023715", //CHAdeMO: EV normal stop "023716", //CHAdeMO: connector temperature sensor broken "023717", //CHAdeMO: connector lock fail "023718", //CHAdeMO: D1 ON No Receive "023719", //CHAdeMO: BMS K to J Timeout "023720", //CHAdeMO: BMS Charge Allow Timeout "023721", //CHAdeMO: Wait GroundFault Timeout "023722", //CHAdeMO: BMS EV Relay Timeout "023723", //CHAdeMO: BMS Request Current Timeout "023724", //CHAdeMO: BMS K to J OFF Timeout "023725", //CHAdeMO: BMS EV Relay OFF Timeout "023726", //CHAdeMO: ADC More Than 10V "023727", //CHAdeMO: ADC More Than 20V "023728", //CHAdeMO: BMS Charge Before Stop "023729", //CHAdeMO: Charger Get Normal Stop "023730", //CHAdeMO: Charger Get Emergency Stop "023731", //CHAdeMO: Isolation Result Fail "023732", //CHAdeMO: Miss Link With MotherBoard "023733", //CHAdeMO: Output Voltage More Than Limit "023734", //CHAdeMO: Request Current More Than Limit "023735", //CHAdeMO: Re Cap BMS Eqr Current Exceed "023736", //CHAdeMO: Charge Remain Count Down "023737", //CCS:CCS_EVCC_EVErrorCode_FAILED_RESSTemperatureInhibit "023738", //CCS:CCS_EVCC_EVErrorCode_FAILED_EVShiftPosition "023739", //CCS:CCS_EVCC_EVErrorCode_FAILED_ChargerConnectorLockFault "023740", //CCS:CCS_EVCC_EVErrorCode_FAILED_EVRESSMalfunction "023741", //CCS:CCS_EVCC_EVErrorCode_FAILED_ChargingCurrentdifferential "023742", //CCS:CCS_EVCC_EVErrorCode_FAILED_ChargingVoltageOutOfRange "023743", //CCS:CCS_EVCC_EVErrorCode_FAILED_ChargingSystemIncompatibility "023744", //CCS:CCS_EVCC_EVErrorCode_FAILED_EmergencyEvent "023745", //CCS:CCS_EVCC_EVErrorCode_FAILED_Breaker "023746", //CCS:CCS_EVCC_EVErrorCode_FAILED_NoData "023747", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_DIN_A "023748", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_DIN_B "023749", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_DIN_C "023750", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_ISO_1 "023751", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_ISO_2 "023752", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_ISO_3 "023753", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_OEM_1 "023754", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_OEM_2 "023755", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_OEM_3 "023756", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_OEM_4 "023757", //CCS:CCS_EVCC_EVErrorCode_FAILED_reserved_by_OEM_5 "023758", //CCS:CCS_SECC_ResponseCode_FAILED_SequenceError "023759", //CCS:CCS_SECC_ResponseCode_FAILED_SignatureError "023760", //CCS:CCS_SECC_ResponseCode_FAILED_UnknownSession "023761", //CCS:CCS_SECC_ResponseCode_FAILED_ServiceIDInvalid "023762", //CCS:CCS_SECC_ResponseCode_FAILED_Payment SelectionInvalid "023763", //CCS:CCS_SECC_ResponseCode_FAILED_IdentificationSelectionInvalid "023764", //CCS:CCS_SECC_ResponseCode_FAILED_ServiceSelectionInvalid "023765", //CCS:CCS_SECC_ResponseCode_FAILED_CertificateExpired "023766", //CCS:CCS_SECC_ResponseCode_FAILED_CertificateNotYetValid "023767", //CCS:CCS_SECC_ResponseCode_FAILED_CertificateRevoked "023768", //CCS:CCS_SECC_ResponseCode_FAILED_NoCertificateAvailable "023769", //CCS:CCS_SECC_ResponseCode_FAILED_CertChainError "023770", //CCS:CCS_SECC_ResponseCode_FAILED_CertValidationError "023771", //CCS:CCS_SECC_ResponseCode_FAILED_CertVerificationError "023772", //CCS:CCS_SECC_ResponseCode_FAILED_ContractCanceled "023773", //CCS:CCS_SECC_ResponseCode_FAILED_ChallengeInvalid "023774", //CCS:CCS_SECC_ResponseCode_FAILED_WrongEnergyTransferMode "023775", //CCS:CCS_SECC_ResponseCode_FAILED_WrongChargeParameter "023776", //CCS:CCS_SECC_ResponseCode_FAILED_ChargingProfileInvalid "023777", //CCS:CCS_SECC_ResponseCode_FAILED_TariffSelectionInvalid "023778", //CCS:CCS_SECC_ResponseCode_FAILED_EVSEPresentVoltageToLow "023779", //CCS:CCS_SECC_ResponseCode_FAILED_PowerDeliveryNotApplied "023780", //CCS:CCS_SECC_ResponseCode_FAILED_MeteringSignatureNotValid "023781", //CCS:CCS_SECC_ResponseCode_FAILED_NoChargeServiceSelected "023782", //CCS:CCS_SECC_ResponseCode_FAILED_ContactorError "023783", //CCS:CCS_SECC_ResponseCode_FAILED_CertificateNotAllowedAtThisEVSE "023784", //CCS:CCS_SECC_ResponseCode_FAILED_GAChargeStop "023785", //CCS:CCS_SECC_ResponseCode_FAILED_AlignmentError "023786", //CCS:CCS_SECC_ResponseCode_FAILED_ACDError "023787", //CCS:CCS_SECC_ResponseCode_FAILED_AssociationError "023788", //CCS:CCS_SECC_ResponseCode_FAILED_EVSEChargeAbort "023789", //CCS:CCS_SECC_ResponseCode_FAILED_NoSupportedApp-Protocol-Protocol "023790", //CCS:CCS_SECC_ResponseCode_FAILED_ContractNotAccepted "023791", //CCS:CCS_SECC_ResponseCode_FAILED_MOUnknown "023792", //CCS:CCS_SECC_ResponseCode_FAILED_OEM_Prov_CertificateRevoke "023793", //CCS:CCS_SECC_ResponseCode_FAILED_OEM_SubCA1_CertificateRevoked "023794", //CCS:CCS_SECC_ResponseCode_FAILED_OEM_SubCA2_CertificateRevoked "023795", //CCS:CCS_SECC_ResponseCode_FAILED_OEM_RootCA_CertificateRevoked "023796", //CCS:CCS_SECC_ResponseCode_FAILED_MO_Prov_CertificateRevoked "023797", //CCS:CCS_SECC_ResponseCode_FAILED_MO_SubCA1_CertificateRevoked "023798", //CCS:CCS_SECC_ResponseCode_FAILED_MO_SubCA2_CertificateRevoked "023799", //CCS:CCS_SECC_ResponseCode_FAILED_MO_RootCA_CertificateRevoked "023800", //CCS:CCS_SECC_ResponseCode_FAILED_CPS_Prov_CertificateRevoked "023801", //CCS:CCS_SECC_ResponseCode_FAILED_CPS_SubCA1_CertificateRevoked "023802", //CCS:CCS_SECC_ResponseCode_FAILED_CPS_SubCA2_CertificateRevoked "023803", //CCS:CCS_SECC_ResponseCode_FAILED_CPS_RootCA_CertificateRevoked "023804", //CCS:CCS_SECC_ResponseCode_FAILED_reserved_1 "023805", //CCS:CCS_SECC_ResponseCode_FAILED_reserved_2 "023806", //CCS:CCS_SECC_ResponseCode_FAILED_reserved_3 "023807", //CCS:CCS_SECC_ResponseCode_FAILED_reserved_4 "023808", //CCS:CCS_SECC_ResponseCode_FAILED_reserved_5 "023809", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_EVSE_SLAC_init "023810", //CCS:CCS_SECC_TIMEOUT_SLAC_TP_match_response "023811", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_match_sequence "023812", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_EVSE_match_MNBC "023813", //CCS:CCS_SECC_TIMEOUT_SLAC_TP_EVSE_avg_atten_calc "023814", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_match_response "023815", //CCS:CCS_SECC_TIMEOUT_SLAC_TP_EVSE_match_session "023816", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_EVSE_assoc_session "023817", //CCS:CCS_SECC_TIMEOUT_SLAC_TT_EVSE_vald_toggle "023818", //CCS:CCS_SECC_TIMEOUT_SLAC_reserved_1 "023819", //CCS:CCS_SECC_TIMEOUT_SLAC_reserved_2 "023820", //CCS:CCS_SECC_TIMEOUT_SLAC_reserved_3 "023821", //CCS:CCS_SECC_TIMEOUT_SLAC_reserved_4 "023822", //CCS:CCS_SECC_TIMEOUT_SLAC_reserved_5 "023823", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_UDP_TT_match_join "023824", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_TCP_TT_match_join "023825", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_TP_amp_map_exchange "023826", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_TP_link_ready_notification "023827", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_reserved_1 "023828", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_reserved_2 "023829", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_reserved_3 "023830", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_reserved_4 "023831", //CCS:CCS_SECC_TIMEOUT_SLACC_SDP_reserved_5 "023832", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_SupportedAppProtocolRes "023833", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_SessionSetupRes "023834", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_ServiceDiscoveryRes "023835", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_ServicePaymentSelectionRes "023836", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_ContractAuthenticationRes "023837", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_ChargeParameterDiscoveryRes "023838", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_PowerDeliveryRes "023839", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_CableCheckRes "023840", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_PreChargeRes "023841", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_CurrentDemandRes "023842", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_WeldingDetectionRes "023843", //CCS:CCS_SECC_TIMEOUT_V2G_Msg_Performance_Time_SessionStopRes "023844", //CCS:CCS_SECC_TIMEOUT_V2G_Sequence_Time "023845", //CCS:CCS_SECC_TIMEOUT_V2G_ReadyToCharge_Performance_Time "023846", //CCS:CCS_SECC_TIMEOUT_V2G_CommunicationSetup_Performance_Time "023847", //CCS:CCS_SECC_TIMEOUT_V2G_CableCheck_Performance_Time "023848", //CCS:CCS_SECC_TIMEOUT_V2G_CPState_Detection_Time "023849", //CCS:CCS_SECC_TIMEOUT_V2G_CPOscillator_Retain_Time "023850", //CCS:CCS_SECC_TIMEOUT_V2G_PreCharge_Performace_Time "023851", //CCS:CCS_SECC_TIMEOUT_V2G_reserved_2 "023852", //CCS:CCS_SECC_TIMEOUT_V2G_reserved_3 "023853", //CCS:CCS_SECC_TIMEOUT_V2G_reserved_4 "023854", //CCS:CCS_SECC_TIMEOUT_V2G_reserved_5 "023855", //CCS:CCS_CAN_TIMEOUT_TP_GET_EV_TARGET_INFO "023856", //CCS:CCS_CAN_TIMEOUT_TT_GET_EV_TARGET_INFO "023857", //CCS:CCS_CAN_TIMEOUT_TP_GET_EV_BATTERY_INFO "023858", //CCS:CCS_CAN_TIMEOUT_TT_GET_EV_BATTERY_INFO "023859", //CCS:CCS_CAN_TIMEOUT_TP_EV_STOP_EVENT "023860", //CCS:CCS_CAN_TIMEOUT_TT_EV_STOP_EVENT "023861", //CCS:CCS_CAN_TIMEOUT_TP_EVSE_STOP_EVENT "023862", //CCS:CCS_CAN_TIMEOUT_TT_EVSE_STOP_EVENT "023863", //CCS:CCS_CAN_TIMEOUT_TP_GET_MISC_INFO "023864", //CCS:CCS_CAN_TIMEOUT_TT_GET_MISC_INFO "023865", //CCS:CCS_CAN_TIMEOUT_TP_DOWNLOAD_REQUEST "023866", //CCS:CCS_CAN_TIMEOUT_TT_DOWNLOAD_REQUEST "023867", //CCS:CCS_CAN_TIMEOUT_TP_START_BLOCK_TRANSFER "023868", //CCS:CCS_CAN_TIMEOUT_TT_START_BLOCK_TRANSFER "023869", //CCS:CCS_CAN_TIMEOUT_TP_DATA_TRANSFER "023870", //CCS:CCS_CAN_TIMEOUT_TT_DATA_TRANSFER "023871", //CCS:CCS_CAN_TIMEOUT_TP_DOWNLOAD_FINISH "023872", //CCS:CCS_CAN_TIMEOUT_TT_DOWNLOAD_FINISH "023873", //CCS:CCS_CAN_TIMEOUT_TP_ISOLATION_STATUS "023874", //CCS:CCS_CAN_TIMEOUT_TT_ISOLATION_STATUS "023875", //CCS:CCS_CAN_TIMEOUT_TP_CONNECTOR_INFO "023876", //CCS:CCS_CAN_TIMEOUT_TT_CONNECTOR_INFO "023877", //CCS:CCS_CAN_TIMEOUT_TT_RTC_INFO "023878", //CCS:CCS_CAN_TIMEOUT_TP_RTC_INFO "023879", //CCS:CCS_CAN_TIMEOUT_TP_EVSE_PRECHARGE_INFO "023880", //CCS:CCS_CAN_TIMEOUT_TT_EVSE_PRECHARGE_INFO "023881", //CCS:CCS_CAN_TIMEOUT_MSG_Sequence "023882", //CCS:CCS_CAN_MSG_Unrecognized_CMD_ID "023883", //CCS:CCS_SECC_DIN_Msg_Decode_Error "023884", //CCS:CCS_SECC_DIN_Msg_Encode_Error "023885", //CCS:CCS_SECC_ISO1_Msg_Decode_Error "023886", //CCS:CCS_SECC_ISO1_Msg_Encode_Error "023887", //CCS:CCS_SECC_ISO2_Msg_Decode_Error "023888", //CCS:CCS_SECC_ISO2_Msg_Encode_Error "023889", //CCS:CCS_SECC_CP_STATUS_Error "023890", //CCS:CCS_SECC_Unexpected_60V_Before_Charing_Error "023891", //CCS:CCS_SECC_Not_Ready_For_Charging "023892", //CCS:CCS_SECCC_TIMEOUT_QCA7000_COMM (The firmware code of QCA7000 may not be installed, yet) "023893", //Reserved "023894", //Reserved "023895", //Reserved "023896", //Reserved "023897", //Reserved "023898", //Reserved "023899", //Reserved "023900", //GBT: ERROR_CODE_GBT_LOS_CC1 "023901", //GBT: ERROR_CODE_GBT_CONNECTOR_LOCK_FAIL "023902", //GBT: ERROR_CODE_GBT_BATTERY_INCOMPATIBLE "023903", //GBT: ERROR_CODE_GBT_BMS_BROAA_TIMEOUT "023904", //GBT: ERROR_CODE_GBT_CSU_PRECHARGE_TIMEOUT "023905", //GBT: ERROR_CODE_GBT_BMS_PRESENT_VOLTAGE_FAULT "023906", //GBT: ERROR_CODE_GBT_BMS_VOLTAGE_OVER_RANGE "023907", //GBT: ERROR_CODE_GBT_BSM_CHARGE_ALLOW_00_10MIN_COUUNTDONE "023908", //GBT: ERROR_CODE_GBT_WAIT_GROUNDFAULT_TIMEOUT "023909", //GBT: ERROR_CODE_GBT_ADC_MORE_THAN_10V "023910", //GBT: ERROR_CODE_GBT_ADC_MORE_THAN_60V "023911", //GBT: ERROR_CODE_GBT_CHARGER_GET_NORMAL_STOP_CMD "023912", //GBT: ERROR_CODE_GBT_CHARGER_GET_EMERGENCY_STOP_CMD "023913", //GBT: ERROR_CODE_GBT_ISOLATION_RESULT_FAIL "023914", //GBT: ERROR_CODE_GBT_MOTHER_BOARD_MISS_LINK "023915", //GBT: ERROR_CODE_GBT_OUTPUT_VOLTAGE_MORE_THAN_LIMIT "023916", //GBT: ERROR_CODE_GBT_REQ_CURRENT_MORE_THAN_LIMIT "023917", //GBT: ERROR_CODE_GBT_OUTPUT_VOLTAGE_MORE_THAN_10_PERCENT "023918", //GBT: ERROR_CODE_GBT_OUTPUT_VOLTAGE_DIFF_BCS_5_PERCENT "023919", //GBT: ERROR_CODE_GBT_STOP_ADC_MORE_THAN_10V "023920", // Reserved "023921", // Reserved "023922", // Reserved "023923", // Reserved "023924", // Reserved "023925", // Reserved "023926", // Reserved "023927", // Reserved "023928", // Reserved "023929", // Reserved "023930", //GBT: ERROR_CODE_CEM_BHM_TIMEOUT "023931", //GBT: ERROR_CODE_CEM_BRM_TIMEOUT "023932", //GBT: ERROR_CODE_CEM_BCP_TIMEOUT "023933", //GBT: ERROR_CODE_CEM_BRO_TIMEOUT "023934", //GBT: ERROR_CODE_CEM_BCL_TIMEOUT "023935", //GBT: ERROR_CODE_CEM_BCS_TIMEOUT "023936", //GBT: ERROR_CODE_CEM_BSM_TIMEOUT "023937", //GBT: ERROR_CODE_CEM_BST_TIMEOUT "023938", //GBT: ERROR_CODE_CEM_BSD_TIMEOUT "023939", //GBT: ERROR_CODE_CEM_BEM_OTHER_TIMEOUT "023940", //GBT: ERROR_CODE_BEM_CRM_TIMEOUT "023941", //GBT: ERROR_CODE_BEM_CRMAA_TIMEOUT "023942", //GBT: ERROR_CODE_BEM_CTS_CML_TIMEOUT "023943", //GBT: ERROR_CODE_BEM_CRO_TIMEOUT "023944", //GBT: ERROR_CODE_BEM_CCS_TIMEOUT "023945", //GBT: ERROR_CODE_BEM_CST_TIMEOUT "023946", //GBT: ERROR_CODE_BEM_CSD_TIMEOUT "023947", //GBT: ERROR_CODE_BEM_BEM_OTHER_TIMEOUT "023948", // Reserved "023949", // Reserved "023950", //GBT: ERROR_CODE_BST_SOC_GOAL "023951", //GBT: ERROR_CODE_BST_TOTAL_VOLTAGE_GOAL "023952", //GBT: ERROR_CODE_BST_CELL_VOLTAGE_GOAL "023953", //GBT: ERROR_CODE_BST_GET_CST "023954", //GBT: ERROR_CODE_BST_ISOLATION "023955", //GBT: ERROR_CODE_BST_OUTPUT_CONNECTOR_OTP "023956", //GBT: ERROR_CODE_BST_COMPONENT "023957", //GBT: ERROR_CODE_BST_CHARGE_CONNECTOR "023958", //GBT: ERROR_CODE_BST_OTP "023959", //GBT: ERROR_CODE_BST_OTHER "023960", //GBT: ERROR_CODE_BST_HIGH_V "023961", //GBT: ERROR_CODE_BST_CC2 "023962", //GBT: ERROR_CODE_BST_CURRENT "023963", //GBT: ERROR_CODE_BST_VOLTAGE "023964", //GBT: ERROR_CODE_GET_BST_NO_REASON "023965", // Reserved "023966", // Reserved "023967", // Reserved "023968", // Reserved "023969", // Reserved "023970", //GBT: ERROR_CODE_BSM_CELL_OVER_VOLTAGE "023971", //GBT: ERROR_CODE_BSM_CELL_UNDER_VOLTAGE "023972", //GBT: ERROR_CODE_BSM_OVER_SOC "023973", //GBT: ERROR_CODE_BSM_UNDER_SOC "023974", //GBT: ERROR_CODE_BSM_CURRENT "023975", //GBT: ERROR_CODE_BSM_TEMPERATURE "023976", //GBT: ERROR_CODE_BSM_ISOLATE "023977", //GBT: ERROR_CODE_BSM_OUTPUT_CONNECTOR "023978", // Reserved "023979", // Reserved "033900", //disconnected from backend through Ethernet "033901", //disconnected from backend through WiFi "033902", //disconnected from backend through 3G/4G "033903", //Remote start charging by backend "033904", //Remote stop charging by backend "033905", //Remote reset by backend "033906", //Reserved "033907", //Reserved }; struct InfoCodeData { unsigned char PreviousInfoVal[40]; union { unsigned char InfoVal[40]; struct { //InfoVal[0] unsigned char NormalStopChargingByUser:1; //bit 0 unsigned char ChargingTimesUp:1; //bit 1 unsigned char ReplaceSystemAirFilter:1; //bit 2 unsigned char ReachChademoMaxPluggingTimes:1; //bit 3 unsigned char ReachCcsMaxPluggingTimes:1; //bit 4 unsigned char ReachGbMaxPluggingTimes:1; //bit 5 unsigned char ReachAcMaxPluggingTimes:1; //bit 6 unsigned char CsuFimrwareUpdateFail:1; //bit 7 //InfoVal[1] unsigned char ChademoModuleFimrwareUpdateFail:1; //bit 0 unsigned char CcsModuleFimrwareUpdateFail:1; //bit 1 unsigned char GbModuleFimrwareUpdateFail:1; //bit 2 unsigned char AuxPowerModuleFimrwareUpdateFail:1; //bit 3 unsigned char RelayBoardFimrwareUpdateFail:1; //bit 4 unsigned char LcmModuleFimrwareUpdateFail:1; //bit 5 unsigned char BluetoothModuleFimrwareUpdateFail:1; //bit 6 unsigned char WiFiModuleFimrwareUpdateFail:1; //bit 7 //InfoVal[2] unsigned char Telocom4GModuleFimrwareUpdateFail:1; //bit 0 unsigned char PsuFimrwareUpdateFail:1; //bit 1 unsigned char RfidModuleFimrwareUpdateFail:1; //bit 2 unsigned char ConfiguredByUsbFlashDrive:1; //bit 3 unsigned char ConfiguredByBackend:1; //bit 4 unsigned char ConfiguredByWebpage:1; //bit 5 unsigned char InternetDisconnectViaEthernet:1; //bit 6 unsigned char InternetDisconnectViaWiFi :1; //bit 7 //InfoVal[3] unsigned char InternetDisconnectVia4Gi:1; //bit 0 unsigned char ApDisconnectViaWiFi:1; //bit 1 unsigned char ApnDisconnectVia4Gi:1; //bit 2 unsigned char :5; //bit 3~7 reserved //InfoVal[4] unsigned char ChademoEvCommFail:1; //bit 0 unsigned char CcsEvCommFail:1; //bit 1 unsigned char GbEvCommFail:1; //bit 2 unsigned char PilotFault:1; //bit 3 unsigned char ChademoBatteryMalfun:1; //bit 4 unsigned char ChademoNoPermission:1; //bit 5 unsigned char ChademoBatteryIncompatibility:1; //bit 6 unsigned char ChademoBatteryOVP:1; //bit 7 //InfoVal[5] unsigned char ChademoBatteryUVP:1; //bit 0 unsigned char ChademoBatteryOTP:1; //bit 1 unsigned char ChademoBatteryCurrentDiff:1; //bit 2 unsigned char ChademoBatteryVoltageDiff:1; //bit 3 unsigned char ChademoShiftPosition:1; //bit 4 unsigned char ChademoBatteryOtherFault:1; //bit 5 unsigned char ChademoChargingSystemError:1; //bit 6 unsigned char ChademoEvNormalStop:1; //bit 7 //InfoVal[6] unsigned char ChademoTempSensorBroken:1; //bit 0 unsigned char ChademoConnectorLockFail:1; //bit 1 unsigned char ChademoD1OnNoReceive:1; //bit 2 unsigned char ChademoBmsKtoJTimeout:1; //bit 3 unsigned char ChademoBmsChargeAllowTimeout:1; //bit 4 unsigned char ChademoWaitGfdTimeout:1; //bit 5 unsigned char ChademoBmsEvRelayTimeout:1; //bit 6 unsigned char ChademoBmsReqCurrentTimeout:1; //bit 7 //InfoVal[7] unsigned char ChademoBmsKtoJOffTimeout :1; //bit 0 unsigned char ChademoBmsEvRelayOffTimeout :1; //bit 1 unsigned char ChademoAdcMoreThan10V :1; //bit 2 unsigned char ChademoAdcMoreThan20V :1; //bit 3 unsigned char ChademoBmsChargeBeforeStop :1; //bit 4 unsigned char ChademoChargerGetNormalStop :1; //bit 5 unsigned char ChademoChargerGetEmergencyStop :1; //bit 6 unsigned char ChademoIsolationResultFail :1; //bit 7 //InfoVal[8] unsigned char ChademoMissLinkWithMotherBoard :1; //bit 0 unsigned char ChademoOutputVolMoreThanLimit :1; //bit 1 unsigned char ChademoReqCurrentMoreThanLimit :1; //bit 2 unsigned char ChademoReCapBmsEqrCurrentExceed :1; //bit 3 unsigned char ChademoChargeRemainCountDown :1; //bit 4 unsigned char CcsRESTemperatureInhibit:1; //bit 5 unsigned char CcsEVShiftPosition:1; //bit 6 unsigned char CcsChargerConnectorLockFault:1; //bit 7 //InfoVal[9] unsigned char CcsEVRESSMalfunction:1; //bit 0 unsigned char CcsChargingCurrentdifferential:1; //bit 1 unsigned char CcsChargingVoltageOutOfRange:1; //bit 2 unsigned char CcsChargingSystemIncompatibility:1; //bit 3 unsigned char CcsEmergencyEvent:1; //bit 4 unsigned char CcsBreaker:1; //bit 5 unsigned char CcsNoData:1; //bit 6 unsigned char Ccsreserved_by_DIN_A:1; //bit 7 //InfoVal[10] unsigned char Ccsreserved_by_DIN_B:1; //bit 0 unsigned char Ccsreserved_by_DIN_C:1; //bit 1 unsigned char Ccsreserved_by_ISO_1:1; //bit 2 unsigned char Ccsreserved_by_ISO_2:1; //bit 3 unsigned char Ccsreserved_by_ISO_3:1; //bit 4 unsigned char Ccsreserved_by_OEM_1:1; //bit 5 unsigned char Ccsreserved_by_OEM_2:1; //bit 6 unsigned char Ccsreserved_by_OEM_3:1; //bit 7 //InfoVal[11] unsigned char Ccsreserved_by_OEM_4:1; //bit 0 unsigned char Ccsreserved_by_OEM_5:1; //bit 1 unsigned char CcsSequenceError:1; //bit 2 unsigned char CcsSignatureError:1; //bit 3 unsigned char CcsUnknownSession:1; //bit 4 unsigned char CcsServiceIDInvalid:1; //bit 5 unsigned char CcsPaymentSelectionInvalid:1; //bit 6 unsigned char CcsIdentificationSelectionInvalid:1; //bit 7 //InfoVal[12] unsigned char CcsServiceSelectionInvalid:1; //bit 0 unsigned char CcsCertificateExpired:1; //bit 1 unsigned char CcsCertificateNotYetValid:1; //bit 2 unsigned char CcsCertificateRevoked:1; //bit 3 unsigned char CcsNoCertificateAvailable:1; //bit 4 unsigned char CcsCertChainError:1; //bit 5 unsigned char CcsCertValidationError:1; //bit 6 unsigned char CcsCertVerificationError:1; //bit 7 //InfoVal[13] unsigned char CcsContractCanceled:1; //bit 0 unsigned char CcsChallengeInvalid:1; //bit 1 unsigned char CcsWrongEnergyTransferMode:1; //bit 2 unsigned char CcsWrongChargeParameter:1; //bit 3 unsigned char CcsChargingProfileInvalid:1; //bit 4 unsigned char CcsTariffSelectionInvalid:1; //bit 5 unsigned char CcsEVSEPresentVoltageToLow:1; //bit 6 unsigned char CcsPowerDeliveryNotApplied:1; //bit 7 //InfoVal[14] unsigned char CcsMeteringSignatureNotValid:1; //bit 0 unsigned char CcsNoChargeServiceSelected:1; //bit 1 unsigned char CcsContactorError:1; //bit 2 unsigned char CcsCertificateNotAllowedAtThisEVSE:1; //bit 3 unsigned char CcsGAChargeStop:1; //bit 4 unsigned char CcsAlignmentError:1; //bit 5 unsigned char CcsACDError:1; //bit 6 unsigned char CcsAssociationError:1; //bit 7 //InfoVal[15] unsigned char CcsEVSEChargeAbort:1; //bit 0 unsigned char CcsNoSupportedAppProtocol:1; //bit 1 unsigned char CcsContractNotAccepted:1; //bit 2 unsigned char CcsMOUnknown:1; //bit 3 unsigned char CcsOEM_Prov_CertificateRevoke:1; //bit 4 unsigned char CcsOEM_SubCA1_CertificateRevoked:1; //bit 5 unsigned char CcsOEM_SubCA2_CertificateRevoked:1; //bit 6 unsigned char CcsOEM_RootCA_CertificateRevoked:1; //bit 7 //InfoVal[16] unsigned char CcsMO_Prov_CertificateRevoked:1; //bit 0 unsigned char CcsMO_SubCA1_CertificateRevoked:1; //bit 1 unsigned char CcsMO_SubCA2_CertificateRevoked:1; //bit 2 unsigned char CcsMO_RootCA_CertificateRevoked:1; //bit 3 unsigned char CcsCPS_Prov_CertificateRevoked:1; //bit 4 unsigned char CcsCPS_SubCA1_CertificateRevoked:1; //bit 5 unsigned char CcsCPS_SubCA2_CertificateRevoked:1; //bit 6 unsigned char CcsCPS_RootCA_CertificateRevoked:1; //bit 7 //InfoVal[17] unsigned char :5; //bit 0~4 reserved unsigned char CcsTT_EVSE_SLAC_init:1; //bit 5 unsigned char CcsTP_match_response:1; //bit 6 unsigned char CcsTT_match_sequence:1; //bit 7 //InfoVal[18] unsigned char CcsTT_EVSE_match_MNBC:1; //bit 0 unsigned char CcsTP_EVSE_avg_atten_calc:1; //bit 1 unsigned char CcsTT_match_response:1; //bit 2 unsigned char CcsTP_EVSE_match_session:1; //bit 3 unsigned char CcsTT_EVSE_assoc_session:1; //bit 4 unsigned char CcsTT_EVSE_vald_toggle:1; //bit 5 unsigned char :2; //bit 6~7 reserved //InfoVal[19] unsigned char :3; //bit 0~2 reserved unsigned char CcsUDP_TT_match_join:1; //bit 3 unsigned char CcsTCP_TT_match_join:1; //bit 4 unsigned char CcsTP_amp_map_exchange:1; //bit 5 unsigned char CcsTP_link_ready_notification:1; //bit 6 unsigned char :1; //bit 7 resetved //InfoVal[20] unsigned char :4; //bit 0~3 reserved unsigned char CcsSupportedAppProtocolRes:1; //bit 4 unsigned char CcsSessionSetupRes:1; //bit 5 unsigned char CcsServiceDiscoveryRes:1; //bit 6 unsigned char CcsServicePaymentSelectionRes:1; //bit 7 //InfoVal[21] unsigned char CcsContractAuthenticationRes:1; //bit 0 unsigned char CcsChargeParameterDiscoveryRes:1; //bit 1 unsigned char CcsPowerDeliveryRes:1; //bit 2 unsigned char CcsCableCheckRes:1; //bit 3 unsigned char CcsPreChargeRes:1; //bit 4 unsigned char CcsCurrentDemandRes:1; //bit 5 unsigned char CcsWeldingDetectionRes:1; //bit 6 unsigned char CcsSessionStopRes:1; //bit 7 //InfoVal[22] unsigned char CcsSequence_Time:1; //bit 0 unsigned char CcsReadyToCharge_Performance_Time:1; //bit 1 unsigned char CcsCommunicationSetup_Performance_Time:1; //bit 2 unsigned char CcsCableCheck_Performance_Time:1; //bit 3 unsigned char CcsCPState_Detection_Time:1; //bit 4 unsigned char CcsCPOscillator_Retain_Time:1; //bit 5 unsigned char CcsSeccTimeoutV2GPreChargePerformaceTime:1; //bit 6 unsigned char :1; //bit 7 reserved //InfoVal[23] unsigned char :3; //bit 0~2 reserved unsigned char CcsTP_GET_EV_TARGET_INFO:1; //bit 3 unsigned char CcsTT_GET_EV_TARGET_INFO:1; //bit 4 unsigned char CcsTP_GET_EV_BATTERY_INFO:1; //bit 5 unsigned char CcsTT_GET_EV_BATTERY_INFO:1; //bit 6 unsigned char CcsTP_EV_STOP_EVENT:1; //bit 7 //InfoVal[24] unsigned char CcsTT_EV_STOP_EVENT:1; //bit 0 unsigned char CcsTP_EVSE_STOP_EVENT:1; //bit 1 unsigned char CcsTT_EVSE_STOP_EVENT:1; //bit 2 unsigned char CcsTP_GET_MISC_INFO:1; //bit 3 unsigned char CcsTT_GET_MISC_INFO:1; //bit 4 unsigned char CcsTP_DOWNLOAD_REQUEST:1; //bit 5 unsigned char CcsTT_DOWNLOAD_REQUEST:1; //bit 6 unsigned char CcsTP_START_BLOCK_TRANSFER:1; //bit 7 //InfoVal[25] unsigned char CcsTT_START_BLOCK_TRANSFER:1; //bit 0 unsigned char CcsTP_DATA_TRANSFER:1; //bit 1 unsigned char CcsTT_DATA_TRANSFER:1; //bit 2 unsigned char CcsTP_DOWNLOAD_FINISH:1; //bit 3 unsigned char CcsTT_DOWNLOAD_FINISH:1; //bit 4 unsigned char CcsTP_ISOLATION_STATUS:1; //bit 5 unsigned char CcsTT_ISOLATION_STATUS:1; //bit 6 unsigned char CcsTP_CONNECTOR_INFO:1; //bit 7 //InfoVal[26] unsigned char CcsTT_CONNECTOR_INFO:1; //bit 0 unsigned char CcsTT_RTC_INFO:1; //bit 1 unsigned char CcsTP_RTC_INFO:1; //bit 2 unsigned char CcsTP_EVSE_PRECHARGE_INFO:1; //bit 3 unsigned char CcsTT_EVSE_PRECHARGE_INFO:1; //bit 4 unsigned char CcsMSG_Sequence:1; //bit 5 unsigned char CcsCAN_MSG_Unrecognized_CMD_ID:1; //bit 6 unsigned char CcsDIN_Msg_Decode_Error:1; //bit 7 //InfoVal[27] unsigned char CcsDIN_Msg_Encode_Error:1; //bit 0 unsigned char CcsISO1_Msg_Decode_Error:1; //bit 1 unsigned char CcsISO1_Msg_Encode_Error:1; //bit 2 unsigned char CcsISO2_Msg_Decode_Error:1; //bit 3 unsigned char CcsISO2_Msg_Encode_Error:1; //bit 4 unsigned char CcsCpStatus_Error:1; //bit 5 unsigned char CcsUnexpectVolBeforeCharing_Error:1; //bit 6 unsigned char CcsSeccNotReadyForCharging:1; //bit 7 reserved //InfoVal[28] unsigned char CcsSeccTimeoutQCA7000Comm:1; //bit 0 unsigned char :7; //bit 1~7 reserved //InfoVal[29] unsigned char ERROR_CODE_GBT_LOS_CC1 :1; //bit 0 unsigned char ERROR_CODE_GBT_CONNECTOR_LOCK_FAIL :1; //bit 1 unsigned char ERROR_CODE_GBT_BATTERY_INCOMPATIBLE :1; //bit 2 unsigned char ERROR_CODE_GBT_BMS_BROAA_TIMEOUT :1; //bit 3 unsigned char ERROR_CODE_GBT_CSU_PRECHARGE_TIMEOUT :1; //bit 4 unsigned char ERROR_CODE_GBT_BMS_PRESENT_VOLTAGE_FAULT :1; //bit 5 unsigned char ERROR_CODE_GBT_BMS_VOLTAGE_OVER_RANGE :1; //bit 6 unsigned char ERROR_CODE_GBT_BSM_CHARGE_ALLOW_00_10MIN_COUUNTDONE :1; //bit 7 //InfoVal[30] unsigned char ERROR_CODE_GBT_WAIT_GROUNDFAULT_TIMEOUT :1; //bit 0 unsigned char ERROR_CODE_GBT_ADC_MORE_THAN_10V :1; //bit 1 unsigned char ERROR_CODE_GBT_ADC_MORE_THAN_60V :1; //bit 2 unsigned char ERROR_CODE_GBT_CHARGER_GET_NORMAL_STOP_CMD :1; //bit 3 unsigned char ERROR_CODE_GBT_CHARGER_GET_EMERGENCY_STOP_CMD :1; //bit 4 unsigned char ERROR_CODE_GBT_ISOLATION_RESULT_FAIL :1; //bit 5 unsigned char ERROR_CODE_GBT_MOTHER_BOARD_MISS_LINK :1; //bit 6 unsigned char ERROR_CODE_GBT_OUTPUT_VOLTAGE_MORE_THAN_LIMIT :1; //bit 7 //InfoVal[31] unsigned char ERROR_CODE_GBT_REQ_CURRENT_MORE_THAN_LIMIT :1; //bit 0 unsigned char ERROR_CODE_GBT_OUTPUT_VOLTAGE_MORE_THAN_10_PERCENT :1; //bit 1 unsigned char ERROR_CODE_GBT_OUTPUT_VOLTAGE_DIFF_BCS_5_PERCENT :1; //bit 2 unsigned char ERROR_CODE_GBT_STOP_ADC_MORE_THAN_10V :1; //bit 3 unsigned char :4; //bit 4 ~ 7 reserved //InfoVal[32] unsigned char :6; //bit 0 ~ 5 reserved unsigned char ERROR_CODE_CEM_BHM_TIMEOUT :1; //bit 6 unsigned char ERROR_CODE_CEM_BRM_TIMEOUT :1; //bit 7 //InfoVal[33] unsigned char ERROR_CODE_CEM_BCP_TIMEOUT :1; //bit 0 unsigned char ERROR_CODE_CEM_BRO_TIMEOUT :1; //bit 1 unsigned char ERROR_CODE_CEM_BCL_TIMEOUT :1; //bit 2 unsigned char ERROR_CODE_CEM_BCS_TIMEOUT :1; //bit 3 unsigned char ERROR_CODE_CEM_BSM_TIMEOUT :1; //bit 4 unsigned char ERROR_CODE_CEM_BST_TIMEOUT :1; //bit 5 unsigned char ERROR_CODE_CEM_BSD_TIMEOUT :1; //bit 6 unsigned char ERROR_CODE_CEM_BEM_OTHER_TIMEOUT :1; //bit 7 //InfoVal[34] unsigned char ERROR_CODE_BEM_CRM_TIMEOUT :1; //bit 0 unsigned char ERROR_CODE_BEM_CRMAA_TIMEOUT :1; //bit 1 unsigned char ERROR_CODE_BEM_CTS_CML_TIMEOUT :1; //bit 2 unsigned char ERROR_CODE_BEM_CRO_TIMEOUT :1; //bit 3 unsigned char ERROR_CODE_BEM_CCS_TIMEOUT :1; //bit 4 unsigned char ERROR_CODE_BEM_CST_TIMEOUT :1; //bit 5 unsigned char ERROR_CODE_BEM_CSD_TIMEOUT :1; //bit 6 unsigned char ERROR_CODE_BEM_BEM_OTHER_TIMEOUT :1; //bit 7 //InfoVal[35] unsigned char :2; //bit 0 ~ 1 unsigned char ERROR_CODE_BST_SOC_GOAL :1; //bit 2 unsigned char ERROR_CODE_BST_TOTAL_VOLTAGE_GOAL :1; //bit 3 unsigned char ERROR_CODE_BST_CELL_VOLTAGE_GOAL :1; //bit 4 unsigned char ERROR_CODE_BST_GET_CST :1; //bit 5 unsigned char ERROR_CODE_BST_ISOLATION :1; //bit 6 unsigned char ERROR_CODE_BST_OUTPUT_CONNECTOR_OTP :1; //bit 7 //InfoVal[36] unsigned char ERROR_CODE_BST_COMPONENT :1; //bit 0 unsigned char ERROR_CODE_BST_CHARGE_CONNECTOR :1; //bit 1 unsigned char ERROR_CODE_BST_OTP :1; //bit 2 unsigned char ERROR_CODE_BST_OTHER :1; //bit 3 unsigned char ERROR_CODE_BST_HIGH_V :1; //bit 4 unsigned char ERROR_CODE_BST_CC2 :1; //bit 5 unsigned char ERROR_CODE_BST_CURRENT :1; //bit 6 unsigned char ERROR_CODE_BST_VOLTAGE :1; //bit 7 //InfoVal[37] unsigned char ERROR_CODE_GET_BST_NO_REASON :1; //bit 0 unsigned char :5; //bit 1 ~ 5 reserved unsigned char ERROR_CODE_BSM_CELL_OVER_VOLTAGE :1; //bit 6 unsigned char ERROR_CODE_BSM_CELL_UNDER_VOLTAGE :1; //bit 7 //InfoVal[38] unsigned char ERROR_CODE_BSM_OVER_SOC :1; //bit 0 unsigned char ERROR_CODE_BSM_UNDER_SOC :1; //bit 1 unsigned char ERROR_CODE_BSM_CURRENT :1; //bit 2 unsigned char ERROR_CODE_BSM_TEMPERATURE :1; //bit 3 unsigned char ERROR_CODE_BSM_ISOLATE :1; //bit 4 unsigned char ERROR_CODE_BSM_OUTPUT_CONNECTOR :1; //bit 5 unsigned char :2; //bit 6 ~ 7 reserved //InfoVal[39] unsigned char BackendDisconnectedViaEthernet:1; //bit 0 unsigned char BackendDisconnectViaWiFi:1; //bit 1 unsigned char BackendDisconnectVia4G:1; //bit 2 unsigned char BackendRemoteStart:1; //bit 3 unsigned char BackendRemoteStop:1; //bit 4 unsigned char BackendRemoteReset:1; //bit 5 unsigned char :2; //bit 6 ~ 7 reserved }bits; }InfoEvents; }; struct StatusCodeData { struct FaultCodeData FaultCode; struct AlarmCodeData AlarmCode; struct InfoCodeData InfoCode; }; /**************************************************************************************/ /**************************PSU Share memory***************************************/ /**************************************************************************************/ struct PsuModuleVer { unsigned char FwPrimaryVersion[16]; unsigned char FwSecondVersion[16]; }; /*Following are the information for each PSU module*/ struct PsuModuleData { unsigned char AssignID; unsigned char PhysicalID; unsigned char GroupID; unsigned char Address; unsigned char FireWireIndex; unsigned char FwVersion[16]; unsigned char SerialNumber[32]; unsigned char StateMachine; //0: Identification, 1:Operation, 2: Alarm, 3: Failure, s4:Upgrade unsigned char OutputPowerSwitch; //0: D.D normal OFF, 1: D.D emergency OFF, 2: D.D ON unsigned short FanSpeed_1; //RPM unsigned short FanSpeed_2; //RPM unsigned short FanSpeed_3; //RPM unsigned short FanSpeed_4; //RPM unsigned short InputVoltage_Type; //0x00 = Line to Line Vol, 0x01 = Line to Neutral Vol unsigned short InputVoltageL1; //abcd=abc.d volt unsigned short InputVoltageL2; //abcd=abc.d volt unsigned short InputVoltageL3; //abcd=abc.d volt unsigned short InputCurrentL1; //abcd=abc.d amp unsigned short InputCurrentL2; //abcd=abc.d amp unsigned short InputCurrentL3; //abcd=abc.d amp unsigned short PresentOutputVoltage; //abcd=abc.d volt unsigned short PresentOutputCurrent; //abcd=abc.d amp unsigned short AvailableCurrent; //abcd=abc.d amp unsigned int AvailablePower; //Watt char CriticalTemp1; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char CriticalTemp2; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char CriticalTemp3; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char ExletTemp; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char InletTemp_1; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char InletTemp_2; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char InletTemp; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid char OutletTemp; //0x00: -60¢XC ~ 0xFE: 194¢XC, resolution: 1¢XC, offset: -60¢XC, 0xFF: invalid unsigned int AlarmCode; unsigned int FaultCode; // unsigned int IAvailableCurrent; //abcd=abc.d amp }; /*Following are the information for each PSU Group*/ struct PsuGroupData { unsigned char GroupPresentPsuQuantity; unsigned char GroupOutputPowerSwitch; //0: D.D normal OFF, 1: D.D emergency OFF, 2: D.D ON unsigned short GroupTargetOutputVoltage; //abcd=abc.d volt unsigned short GroupTargetOutputCurrent; //abcd=abc.d amp unsigned short GroupAvailableCurrent; //abcd=abc.d amp unsigned int GroupAvailablePower; //Watt unsigned short GroupPresentOutputVoltage; //abcd=abc.d volt unsigned short GroupPresentOutputCurrent; //abcd=abc.d Amps unsigned int GroupPresentOutputPower; //Watt struct PsuModuleData PsuModule[MAX_PSU_QUANTITY]; }; /*Following is the information for system all PSU*/ struct PsuData { unsigned char SystemPresentPsuQuantity; unsigned short SystemAvailableCurrent; //abcd=abc.d amp unsigned int SystemAvailablePower; //Watt struct PsuGroupData PsuGroup[4]; unsigned char GroupCount; unsigned char Work_Step; struct PsuModuleVer PsuVersion[MAX_PSU_QUANTITY]; }; /************************************************************************************/ /**************************CHAdeMO protocol Share memory*********************/ /**************************************************************************************/ struct CHAdeMOEvData { unsigned char SupportDynamicControl; //110.0 // bit0=1:supported unsigned char SupportHighCurrent; //110.0 // bit1=1:supported unsigned char MiniChargeCurrent; //100.0 0~200(A) (unit:1A) // 0x00: request for current equivalent to 1.5kW // 0x01: no request // 0x02: request of 1A and following are the same rule unsigned short MaxiBatteryVoltage; //100.5,100.4 0~600(V) (unit:1V) unsigned short MaxiChargingTime; //101.2,101.1 10(sec.)~255(min.) (Unit:sec) // Set 0xFF to 101.1 (Unit: 10sec) in case 101.2 (Unit: 1min) is used unsigned char EstimatChargingTime; //101.3 0~254(min.) (Unit:sec) // Display Only unsigned short TotalBatteryCapacity; //101.6,101.5 0.1~6553.5(kWh) (unit:0.1 kWh) unsigned char ProtocolVersion; //102.0 0~255 // 0x02: CHAdeMO specification ver.1.2 unsigned short TargetBatteryVoltage; //102.2,102.1 0~600(V) (unit:1V) unsigned short ChargingCurrentRequest; //102.3 0~200(A) (unit:1A) //110.2,110.1 0~1023(A) (unit:1A) unsigned char BatteryAlarm; //102.4 >0:alarm // bit0=1:Battery overvoltage // bit1=1:Battery undervoltage // bit2=1:Battery current deviation error // bit3=1:High battery temperature // bit4=1:Battery voltage deviation error unsigned char EvDetection; //102.5 // bit0=0:Vehicle charging disabled, (stop charging) // bit0=1:Vehicle charging enabled, // bit1=0:¡§Parking¡¨ position // bit1=1:other position (stop charging) // bit2=0:Charging system normal // bit2=1:Charging system error (stop charging) // bit3=0:EV contactor close or during welding detection // bit3=1:EV contactor open or termination of welding detection (stop charging) // bit4=0:No stop request before charging // bit4=1:Normal stop request before charging (stop charging) unsigned char SOC; //102.6 0~100(%) (unit:%) // Display Only unsigned char Communicating; // it is true if receive EV CAN message within every 1500ms unsigned char PresentMsgFlowStatus; // }; struct CHAdeMOEvseData { unsigned char SelfTest_Comp; unsigned char version[16]; //Chademo firmware version unsigned char SupportDynamicControl; //118.0 // bit0=1:supported unsigned char SupportHighCurrent; //118.0 // bit1=1:supported unsigned short AvailableOutputVoltage; //108.2,108.1 0~600(V) (unit:1V) unsigned short AvailableOutputCurrent; //108.3 0~255(A) (unit:1A) //118.2,118.1 0~1023(A) (unit:1A) unsigned short ThresholdVoltage; //108.5,108.4 0~600(V) (unit:1V) unsigned char ConnectorTemperatureP; //108.6 -40~215(degC) (unit:degC) //value 0=-40 [NISSAN customized] unsigned char ConnectorTemperatureN; //108.7 -40~215(degC) (unit:degC) //value 0=-40 [NISSAN customized] unsigned char ProtocolVersion; //109.0 0~255 // 0x00: CHAdeMO specification 0.9 and earlier // 0x01: CHAdeMO specification 0.9 and 0.9.1 // 0x02: CHAdeMO specification 1.0.0, 1.0.1, 1.1 and 1.2 unsigned short PresentOutputVoltage; //109.2,109.1 0~600(V) (unit:1V) unsigned short PresentOutputCurrent; //109.3 0~255(A) (unit:1A) //118.4,118.3 0~1023(A) (unit:1A) unsigned char EvseDetection; //109.5 // bit0=0:not charging state now // bit0=1:charging state now // bit1=0:EVSE normal // bit1=1:EVSE error // bit2=0:Not Energizing state // bit2=1:Energizing state // bit3=0:No Battery incompatibility // bit3=1:Battery incompatibility // bit4=0:No Charging system error // bit4=1:Charging system error // bit5=0:No Charging stop control // bit5=1:Charging stop control unsigned short RemainChargingTime; //109.7,109.6 10(sec.)~255(min.) (Unit:sec) // Set 0xFF to 109.6 (Unit: 10sec) in case 109.7 (Unit: 1min) is used unsigned char HighPowerCondition; //118.5 // bit0=0:Present charging current H¡¦118.3,H¡¦118.4¡¨ is less than or equal to rated current of a charging cable // bit0=1:Present charging current H¡¦118.3,H¡¦118.4¡¨ is exceeds to rated current of a charging cable // bit1=1:charging cable Cooling function Operating Installed // bit2=1:charging cable Current limiting function // bit3=1:charging connector Cooling function Operating // bit4=1:charging connector Current limiting function Installed // bit5=1:charging connector Over-temperature protection Installed // bit6=1:Functional safety Applied unsigned int MaxiGroupPower; // XXXXXXXX (Unit:Watt)depend on which group to be used unsigned int MaxiGroupCurrent; // XXXXXXXX (unit:1A)depend on which group to be used unsigned short ApplyOutputVoltage; // 0~600(V) (unit:1V) unsigned short ElapseChargingTime; // (Unit:sec) unsigned short ElapseEnergy; // (Unit:10xkWh) unsigned char EvboardStatus; // 0 : init }; struct CHAdeMOData { struct CHAdeMOEvData ev[CHAdeMO_QUANTITY]; struct CHAdeMOEvseData evse[CHAdeMO_QUANTITY]; }; /************************************************************************************/ /**************************GBT protocol Share memory*********************/ /**************************************************************************************/ struct GBTEvData { unsigned short MaxiBatteryVoltage; // 0~600(V) (unit:1V) unsigned short MaxiChargingTime; // 10(sec.)~255(min.) (Unit:sec) unsigned char EstimatChargingTime; // 0~254(min.) (Unit:sec) unsigned short TotalBatteryCapacity; // 0.1~6553.5(kWh) (unit:0.1 kWh) unsigned char ProtocolVersion; // 0~255 unsigned short TargetBatteryVoltage; // 0~600(V) (unit:1V) unsigned short ChargingCurrentRequest; // 0~200(A) (unit:1A) // 0~1023(A) (unit:1A) unsigned char EvDetection; //102.5 // bit0=0:Vehicle charging disabled, (stop charging) // bit0=1:Vehicle charging enabled, // bit1=0:¡§Parking¡¨ position // bit1=1:other position (stop charging) // bit2=0:Charging system normal // bit2=1:Charging system error (stop charging) // bit3=0:EV contactor close or during welding detection // bit3=1:EV contactor open or termination of welding detection (stop charging) // bit4=0:No stop request before charging // bit4=1:Normal stop request before charging (stop charging) unsigned char SOC; //102.6 0~100(%) (unit:%) // Display Only unsigned char PresentMsgFlowStatus; // }; struct GBTEvseData { unsigned char SelfTest_Comp; unsigned char version[16]; // GBT firmware version unsigned short AvailableOutputVoltage; // 0~600(V) (unit:1V) unsigned short AvailableOutputCurrent; // 0~255(A) (unit:1A) unsigned char ConnectorTemperatureP; // -40~215(degC) (unit:degC) //value 0=-40 [NISSAN customized] unsigned char ConnectorTemperatureN; // -40~215(degC) (unit:degC) //value 0=-40 [NISSAN customized] unsigned short PresentOutputVoltage; // 0~600(V) (unit:1V) unsigned short PresentOutputCurrent; // 0~255(A) (unit:1A) unsigned short RemainChargingTime; //109.7,109.6 10(sec.)~255(min.) (Unit:sec) unsigned char EvboardStatus; // 0 : init }; struct GBTData { struct GBTEvData ev[GB_QUANTITY]; struct GBTEvseData evse[GB_QUANTITY]; }; /************************************************************************************/ /**************************CCS protocol Share memory***************************/ /**************************DIN70121: 201412***************************************/ /**************************ISO15118_2014: 2014************************************/ /**************************ISO15118_2018: 2018************************************/ /************************************************************************************/ typedef enum boolean { FALSE, TRUE } BOOL; enum ResponseCodeType_DIN70121 { OK_DIN70121 = 0, OK_NewSessionEstablished_DIN70121 = 1, OK_OldSessionJoined_DIN70121 = 2, OK_CertificateExpiresSoon_DIN70121 = 3, FAILED_DIN70121 = 4, FAILED_SequenceError_DIN70121 = 5, FAILED_ServiceIDInvalid_DIN70121 = 6, FAILED_UnknownSession_DIN70121 = 7, FAILED_ServiceSelectionInvalid_DIN70121 = 8, FAILED_PaymentSelectionInvalid_DIN70121 = 9, FAILED_CertificateExpired_DIN70121 = 10, FAILED_SignatureError_DIN70121 = 11, FAILED_NoCertificateAvailable_DIN70121 = 12, FAILED_CertChainError_DIN70121 = 13, FAILED_ChallengeInvalid_DIN70121 = 14, FAILED_ContractCanceled_DIN70121 = 15, FAILED_WrongChargeParameter_DIN70121 = 16, FAILED_PowerDeliveryNotApplied_DIN70121 = 17, FAILED_TariffSelectionInvalid_DIN70121 = 18, FAILED_ChargingProfileInvalid_DIN70121 = 19, FAILED_EVSEPresentVoltageToLow_DIN70121 = 20, FAILED_MeteringSignatureNotValid_DIN70121 = 21, FAILED_WrongEnergyTransferType_DIN70121 = 22}; enum ResponseCodeType_ISO15118_2014 { OK_ISO15118_2014 = 0, OK_NewSessionEstablished_ISO15118_2014 = 1, OK_OldSessionJoined_ISO15118_2014 = 2, OK_CertificateExpiresSoon_ISO15118_2014 = 3, FAILED_ISO15118_2014 = 4, FAILED_SequenceError_ISO15118_2014 = 5, FAILED_ServiceIDInvalid_ISO15118_2014 = 6, FAILED_UnknownSession_ISO15118_2014 = 7, FAILED_ServiceSelectionInvalid_ISO15118_2014 = 8, FAILED_PaymentSelectionInvalid_ISO15118_2014 = 9, FAILED_CertificateExpired_ISO15118_2014 = 10, FAILED_SignatureError_ISO15118_2014 = 11, FAILED_NoCertificateAvailable_ISO15118_2014 = 12, FAILED_CertChainError_ISO15118_2014 = 13, FAILED_ChallengeInvalid_ISO15118_2014 = 14, FAILED_ContractCanceled_ISO15118_2014 = 15, FAILED_WrongChargeParameter_ISO15118_2014 = 16, FAILED_PowerDeliveryNotApplied_ISO15118_2014 = 17, FAILED_TariffSelectionInvalid_ISO15118_2014 = 18, FAILED_ChargingProfileInvalid_ISO15118_2014 = 19, FAILED_MeteringSignatureNotValid_ISO15118_2014 = 20, FAILED_NoChargeServiceSelected_ISO15118_2014 = 21, FAILED_WrongEnergyTransferMode_ISO15118_2014 = 22, FAILED_ContactorError_ISO15118_2014 = 23, FAILED_CertificateNotAllowedAtThisEVSE_ISO15118_2014 = 24, FAILED_CertificateRevoked_ISO15118_2014 = 25 }; enum ResponseCodeType_ISO15118_2018 { OK_ISO15118_2018 = 0, OK_NewSessionEstablished_ISO15118_2018 = 1, OK_OldSessionJoined_ISO15118_2018 = 2, OK_CertificateExpiresSoon_ISO15118_2018 = 3, OK_IsolationValid_ISO15118_2018 = 4, OK_IsolationWarning_ISO15118_2018 = 5, WARNING_CertificateExpired_ISO15118_2018 = 6, WARNING_NoCertificateAvailable_ISO15118_2018 = 7, WARNING_CertValidationError_ISO15118_2018 = 8, WARNING_CertVerificationError_ISO15118_2018 = 9, WARNING_ContractCanceled_ISO15118_2018 = 10, FAILED_ISO15118_2018 = 11, FAILED_SequenceError_ISO15118_2018 = 12, FAILED_ServiceIDInvalid_ISO15118_2018 = 13, FAILED_UnknownSession_ISO15118_2018 = 14, FAILED_ServiceSelectionInvalid_ISO15118_2018 = 15, FAILED_SignatureError_ISO15118_2018 = 16, FAILED_IdentificationSelectionInvalid_ISO15118_2018 = 17, FAILED_ChallengeInvalid_ISO15118_2018 = 18, FAILED_WrongChargeParameter_ISO15118_2018 = 19, FAILED_IsolationFault_ISO15118_2018 = 20, FAILED_PowerDeliveryNotApplied_ISO15118_2018 = 21, FAILED_TariffSelectionInvalid_ISO15118_2018 = 22, FAILED_ChargingProfileInvalid_ISO15118_2018 = 23, FAILED_MeteringSignatureNotValid_ISO15118_2018 = 24, FAILED_NoChargeServiceSelected_ISO15118_2018 = 25, FAILED_WrongEnergyTransferMode_ISO15118_2018 = 26, FAILED_ContactorError_ISO15118_2018 = 27, FAILED_CertificateRevoked_ISO15118_2018 = 28, FAILED_CertificateNotYetValid_ISO15118_2018 = 29 }; enum EVSENotificationType { None = 0, StopCharging = 1, ReNegotiation = 2}; enum ServiceCategoryType { EVCharging = 0, Internet = 1, ContractCertificate = 2, OtherCustom = 3}; enum PaymentOptionType { Contract = 0, ExternalPayment = 1}; /*enum EVSESupportedEnergyTransferType { AC_single_phase_core = 0, AC_three_phase_core = 1, DC_core = 2, DC_extended = 3, DC_combo_core = 4, DC_dual = 5, AC_core1p_DC_extended = 6, AC_single_DC_core = 7, AC_single_phase_three_phase_core_DC_extended = 8, AC_core3p_DC_extended = 9};*/ enum EnergyTransferModeType { AC_single_phase_core = 0, AC_three_phase_core = 1, DC_core = 2, DC_extended = 3, DC_combo_core = 4, DC_unique = 5}; //enum identificationOptionType { Contract = 0, ExternalIdentification = 1}; enum unitSymbolType_DIN70121 { h_DIN70121 = 0, m_DIN70121 = 1, s_DIN70121 = 2, A_DIN70121 = 3, Ah_DIN70121 = 4, V_DIN70121 = 5, VA_DIN70121 = 6, W_DIN70121 = 7, Ws_DIN70121 = 8, Wh_DIN70121 = 9}; enum unitSymbolType_ISO15118_2014 { h_ISO15118_2014 = 0, m_ISO15118_2014 = 1, s_ISO15118_2014 = 2, A_ISO15118_2014 = 3, V_ISO15118_2014 = 4, W_ISO15118_2014 = 5, Wh_ISO15118_2014 = 6}; enum ProcessingType { Finished = 0, Ongoing = 1, Ongoing_WaitingForCustomerInteraction = 2}; enum EVSEProcessingType_DIN70121 { Finished_DIN70121 = 0, Ongoing_DIN70121 = 1}; enum EVSEProcessingType_ISO15118_2014 { Finished_ISO15118_2014 = 0, Ongoing_ISO15118_2014 = 1, Ongoing_WaitingForCustomerInteraction_ISO15118_2014=2 }; enum DC_EVErrorCodeType { NO_ERROR = 0, FAILED_RESSTemperatureInhibit = 1, FAILED_EVShiftPosition = 2, FAILED_ChargerConnectorLockFault = 3, FAILED_EVRESSMalfunction = 4, FAILED_ChargingCurrentdifferential = 5, FAILED_ChargingVoltageOutOfRange = 6, Reserved_A = 7, Reserved_B = 8, Reserved_C = 9, FAILED_ChargingSystemIncompatibility = 10, NoData = 11}; enum IsolationLevelType_DIN70121 { Invalid_DIN70121 = 0, Valid_DIN70121 = 1, Warning_DIN70121 = 2, Fault_DIN70121 = 3}; enum IsolationLevelType_ISO15118_2014 { Invalid_ISO15118_2014 = 0, Valid_ISO15118_2014 = 1, Warning_ISO15118_2014 = 2, Fault_ISO15118_2014 = 3, No_IMD_ISO15118_2014 = 4}; enum DC_EVSEStatusCodeType { EVSE_NotReady = 0, EVSE_Ready = 1, EVSE_Shutdown = 2, EVSE_UtilityInterruptEvent = 3, EVSE_IsolationMonitoringActive = 4, EVSE_EmergencyShutdown = 5, EVSE_Malfunction = 6, Reserved_8 = 7, Reserved_9 = 8}; enum ScheduleOriginType { EV = 0, SA = 1}; enum ChargeProgressType_ISO15118_2014 {start_ISO15118_2014 = 0, Stop_ISO15118_2014 = 1, Renegotiate_ISO15118_2014 = 2}; enum ChargeProgressType_ISO15118_2018 {start_ISO15118_2018 = 0, Renegotiate_ISO15118_2018 = 1, Standby_ISO15118_2018 = 2, Stop_ISO15118_2018 = 3}; enum evOperationType {Charge = 0, Discharge = 1, Standby = 2}; enum mechanicalChargingDeviceStatusType {Home = 0, Moving = 1, EndPosition = 2}; enum EV_CP_StatusType {A = 0, B = 1, C = 2, D = 3, E = 4, F = 5}; enum EV_Error_Status_CodeType { No_EV_Error = 0, EV_FAILED_EmergencyEvent = 1, EV_FAILED_Breaker = 2, EV_FAILED_RESSTemperatureInhibit = 3, EV_FAILED_RESS = 4, EV_FAILED_ChargingCurrentDifferential = 5, EV_FAILED_ChargingVoltageOutOfRange = 6, Reserved_by_ISO_1 = 7, Reserved_by_ISO_2 = 8, Reserved_by_ISO_3 = 9, OEM1 = 10, OEM2 = 11, OEM3 = 12, OEM4 = 13}; enum IsolationStatusType { Invalid = 0, Safe = 1, Warning = 2, Fault = 3}; enum ChargingSessionType { Terminate = 0, Pause = 1}; enum CostKindType { relativePricePercentage = 0, RenewableGenerationPercentage = 1, CarbonDioxideEmission = 2}; struct PhysicalValueType_DIN70121 //The final physical value is determined by: Value * 10 ^ Multiplier [Unit] { int Multiplier; //range: -3..+3 enum unitSymbolType_DIN70121 Unit; short Value; }; struct PhysicalValueType_ISO15118_2014 //The final physical value is determined by: Value * 10 ^ Multiplier [Unit] { int Multiplier; //range: -3..+3 enum unitSymbolType_ISO15118_2014 Unit; short Value; }; struct PhysicalValueType_ISO15118_2018 //The final physical value is determined by: Value * 10 ^ Exponent [Unit] { int Exponent; //range: -3..+3 short Value; }; struct AppProtocolType { unsigned char ProtocolNamespace[100]; unsigned int VersionNumberMajor; unsigned int VersionNumberMinor; unsigned char SchemaID; unsigned char Priority; //range 1..20 }; struct ACD_SSEnergyTransferModeType { unsigned char EVID[20]; }; struct EVSEStatusType { unsigned short NotificationMaxDelay; //in seconds enum EVSENotificationType EVSENotification; }; struct ServiceIDListType { unsigned short ServiceID[10]; //refer to chapter 8.6.2.1 Table 192 }; struct PaymentOptionListType { enum PaymentOptionType PaymentOption[2]; }; struct ServiceTagType { unsigned short ServiceID; unsigned char ServiceName[32];//Optional Element enum ServiceCategoryType ServiceCategory; unsigned char ServiceScope[32];//Optional Element }; struct ServiceType_DIN70121 { struct ServiceTagType ServiceTag; BOOL FreeService; }; struct ServiceType_ISO15118_2014 { unsigned short ServiceID; unsigned char ServiceName[32]; //Optional enum ServiceCategoryType ServiceCategory; unsigned char ServiceScope[64]; //Optional BOOL FreeService; }; /*struct ServiceType_ISO15118_2018 { unsigned short ServiceID; BOOL FreeService; }; */ struct SupportedEnergyTransferModeType { enum EnergyTransferModeType EnergyTransferMode[6]; }; struct ServiceChargeType { struct ServiceType_DIN70121 Services; //enum EVSESupportedEnergyTransferType EnergyTransferType; enum EnergyTransferModeType EnergyTransferType; }; struct ChargeServiceType { struct ServiceType_ISO15118_2014 Services; struct SupportedEnergyTransferModeType SupportedEnergyTransferMode; }; struct ServiceListType { struct ServiceType_ISO15118_2014 Service[8]; }; struct IdentificationOptionListType { enum PaymentOptionType IdentificationOption[2]; }; struct ParameterType { unsigned char Name[32]; struct PhysicalValueType_ISO15118_2014 PhysicalValue_ISO15118_2014; struct PhysicalValueType_ISO15118_2018 PhysicalValue_ISO15118_2018; }; struct ParameterSetType { short ParameterSetID; struct ParameterType Parameter[16]; }; struct ServiceParameterListType { struct ParameterSetType ParameterSet[255]; }; struct WPT_SDlEnergyTransferModeType { struct ServiceParameterListType ServiceParameterList; }; struct SelectedServiceType { unsigned short ServiceID; short ParameterSetID; }; struct SelectedServiceListType { struct SelectedServiceType SelectedService[16]; }; struct CertificateChainType { unsigned char Id[32]; //Optional unsigned char Certificate[800]; //check size again unsigned char SubCertificates[4][800]; //Optional, check size again }; struct PNC_AReqIdentificationModeType { unsigned char GenChallenge[16]; //DIN70121=> None, ISO15118_2014=>None, ISO15118_2018=>Optional unsigned char Id[32]; //DIN70121=> None, ISO15118_2014=>None, ISO15118_2018=>Optional }; struct AC_EVChargeParameterType { unsigned int DepartureTime; //Optional struct PhysicalValueType_ISO15118_2014 EAmount; struct PhysicalValueType_ISO15118_2014 EVMaxVoltage; struct PhysicalValueType_ISO15118_2014 EVMaxCurrent; struct PhysicalValueType_ISO15118_2014 EVMinCurrent; }; struct DC_EVStatusType_DIN70121 { BOOL EVReady; BOOL EVCabinConditioning; BOOL EVRESSConiditioning; enum DC_EVErrorCodeType EVErrorCode; unsigned char EVRESSSOC; /*0-100 percentage*/ }; struct DC_EVChargeParameterType_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; struct PhysicalValueType_DIN70121 EVMaximumCurrentLimit; struct PhysicalValueType_DIN70121 EVMaximumPowerLimit; //Optional struct PhysicalValueType_DIN70121 EVMaximumVoltageLimit; struct PhysicalValueType_DIN70121 EVEnergyCapacity; //Optional struct PhysicalValueType_DIN70121 EVEnergyRequest; //Optional unsigned char FullSOC;/*0-100 percentage*/ //Optional unsigned char BulkSOC;/*0-100 percentage*/ //Optional }; struct DC_EVStatusType_ISO15118_2014 { BOOL EVReady; enum DC_EVErrorCodeType EVErrorCode; unsigned char EVRESSSOC; /*0-100 percentage*/ }; struct DC_EVChargeParameterType_ISO15118_2014 { unsigned int DepartureTime; //Optional struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; struct PhysicalValueType_ISO15118_2014 EVMaximumCurrentLimit; struct PhysicalValueType_ISO15118_2014 EVMaximumPowerLimit; //Optional struct PhysicalValueType_ISO15118_2014 EVMaximumVoltageLimit; struct PhysicalValueType_ISO15118_2014 EVEnergyCapacity; //Optional struct PhysicalValueType_ISO15118_2014 EVEnergyRequest; //Optional unsigned char FullSOC;/*0-100 percentage*/ //Optional unsigned char BulkSOC;/*0-100 percentage*/ //Optional }; struct Dynamic_CPDReqControlModeType { unsigned int DepartureTime; }; struct RelativeTimeIntervalType { unsigned int duration; //Optional unsigned int start; }; struct PMaxScheduleEntryType { struct RelativeTimeIntervalType RelativeTimeInterval; unsigned short PMax; }; struct PMaxScheduleType { unsigned short PMaxScheduleID; //no this itme in ISO15118_2014 struct PMaxScheduleEntryType PMaxScheduleEntry[1024]; }; struct CostType { unsigned int amount; enum CostKindType costKind; int amountMultiplier; //Optional , range: -3..+3 }; struct ConsumptionCostType { struct CostType Cost[3]; struct PhysicalValueType_ISO15118_2014 startValue; }; struct SalesTariffEntryType { struct RelativeTimeIntervalType RelativeTimeInterval; unsigned char EPriceLevel; //Optional struct ConsumptionCostType ConsumptionCost[3]; //Optional }; struct SalesTariffType { unsigned char Id[32]; //Optional short SalesTariffID; unsigned char SalesTariffDescription[32]; //Optional unsigned char NumEPriceLevels; //Optional struct SalesTariffEntryType SalesTariffEntry[1024]; }; struct SAScheduleTupleType { short SAScheduleTupleID; struct PMaxScheduleType PMaxSchedule; struct SalesTariffType SalesTariff; //Optional }; struct ScheduleListType { enum ScheduleOriginType ScheduleOrigin; struct SAScheduleTupleType ScheduleTuple[3]; }; struct Scheduled_CPDReqControlModeType { enum ProcessingType EVProcessing; unsigned int DepartureTime; //Optional unsigned short MaxSupportingPoints; struct ScheduleListType ScheduleList; //Optional }; struct AC_CPDReqEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMaximumVoltage; }; struct DC_CPDReqEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumChargePower; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMaximumVoltage; struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; //Optional unsigned char TargetSOC; //Optional unsigned char BulkSOC; //Optional }; struct BPT_AC_CPDReqEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumDischargePower; struct PhysicalValueType_ISO15118_2018 EVMinimumDischargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMaximumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumVoltage; }; struct BPT_DC_CPDReqEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVMinimumChargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumDischargePower; struct PhysicalValueType_ISO15118_2018 EVMinimumDischargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMaximumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMaximumVoltage; struct PhysicalValueType_ISO15118_2018 EVMinimumVoltage; struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; unsigned char TargetSOC; //Optional unsigned char BulkSOC; //Optional }; struct WPT_CPDReqEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVMaximumPower; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumPower; //Optional struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; //Optional }; struct ACD_CPDReqEnergyTransferModeType { //cannot be found in standard }; struct SAScheduleListType { struct SAScheduleTupleType SAScheduleTuple[3]; }; struct DC_EVSEStatusType_DIN70121 { enum IsolationLevelType_DIN70121 EVSEIsolationStatus; //Optional enum DC_EVSEStatusCodeType EVSEStatusCode; unsigned int NotificationMaxDelay; enum EVSENotificationType EVSENotification; }; struct DC_EVSEChargeParameterType_DIN70121 { struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; struct PhysicalValueType_DIN70121 EVSEMaximumCurrentLimit; struct PhysicalValueType_DIN70121 EVSEMaximumPowerLimit; //Optional struct PhysicalValueType_DIN70121 EVSEMaximumVoltageLimit; struct PhysicalValueType_DIN70121 EVSEMinimumCurrentLimit; struct PhysicalValueType_DIN70121 EVSEMinimumVoltageLimit; struct PhysicalValueType_DIN70121 EVSECurrentRegulationTolerance; //Optional struct PhysicalValueType_DIN70121 EVSEPeakCurrentRipple; struct PhysicalValueType_DIN70121 EVSEEnergyToBeDelivered; //Optional }; struct AC_EVSEStatusType { BOOL RCD; unsigned short NotificationMaxDelay; enum EVSENotificationType EVSENotification; //need to be confirmed }; struct AC_EVSEChargeParameterType { struct AC_EVSEStatusType AC_EVSEStatus; struct PhysicalValueType_ISO15118_2014 EVSENominalVoltage; struct PhysicalValueType_ISO15118_2014 EVSEMaxCurrent; }; struct DC_EVSEStatusType_ISO15118_2014 { unsigned short NotificationMaxDelay; enum EVSENotificationType EVSENotification; enum IsolationLevelType_ISO15118_2014 EVSEIsolationStatus; //Optional enum DC_EVSEStatusCodeType DC_EVSEStatusCode; }; struct DC_EVSEChargeParameterType_ISO15118_2014 { struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; struct PhysicalValueType_ISO15118_2014 EVSEMaximumCurrentLimit; struct PhysicalValueType_ISO15118_2014 EVSEMaximumPowerLimit; struct PhysicalValueType_ISO15118_2014 EVSEMaximumVoltageLimit; struct PhysicalValueType_ISO15118_2014 EVSEMinimumCurrentLimit; struct PhysicalValueType_ISO15118_2014 EVSEMinimumVoltageLimit; struct PhysicalValueType_ISO15118_2014 EVSECurrentRegulationTolerance; //Optional struct PhysicalValueType_ISO15118_2014 EVSEPeakCurrentRipple; struct PhysicalValueType_ISO15118_2014 EVSEEnergyToBeDelivered; //Optional }; struct Scheduled_CPDResControlModeType { struct ScheduleListType ScheduleList; }; struct AC_CPDResEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent[3]; struct PhysicalValueType_ISO15118_2018 EVSENominalVoltage; struct PhysicalValueType_ISO15118_2018 EVSENominalFrequency; }; struct DC_CPDResEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMaximumVoltage; struct PhysicalValueType_ISO15118_2018 EVSEMinimumVoltage; }; struct BPT_AC_CPDResEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent[3]; struct PhysicalValueType_ISO15118_2018 EVSEMaximumDischargeCurrent[3]; struct PhysicalValueType_ISO15118_2018 EVSENominalVoltage; struct PhysicalValueType_ISO15118_2018 EVSENominalFrequency; }; struct BPT_DC_CPDResEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVSEMaximumDischargePower; struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMaximumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMinimumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMinimumDischargeCurrent; struct PhysicalValueType_ISO15118_2018 EVSEMaximumVoltage; struct PhysicalValueType_ISO15118_2018 EVSEMinimumVoltage; }; struct WPT_CPDResEnergyTransferModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumPower; struct PhysicalValueType_ISO15118_2018 EVSEMinimumPower; }; struct ACD_CPDResEnergyTransferModeType { //not found in ISO15118_2018 }; struct ProfileEntryType_DIN70121 { unsigned int ChargingProfileEntryStart; short ChargingProfileEntryMaxPower; }; struct ChargingProfileType_DIN70121 { short SAScheduleTupleID; struct ProfileEntryType_DIN70121 ProfileEntry[24]; }; struct DC_EVPowerDeliveryParameterType_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; BOOL BulkChargingComplete; //Optional BOOL ChargingComplete; }; struct ProfileEntryType_ISO15118_2014 { unsigned int ChargingProfileEntryStart; struct PhysicalValueType_ISO15118_2018 ChargingProfileEntryMaxPower; unsigned char ChargingProfileEntryMaxNumberOfPhasesInUse; //Optional }; struct ChargingProfileType_ISO15118_2014 { struct ProfileEntryType_ISO15118_2014 ProfileEntry[24]; }; struct DC_EVPowerDeliveryParameterType_ISO15118_2014 { struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; BOOL BulkChargingComplete; //Optional BOOL ChargingComplete; }; struct TimeInterval { unsigned int start; unsigned int duration; //Optional }; struct PowerScheduleEntryType { struct TimeInterval TimeInterval; struct PhysicalValueType_ISO15118_2018 Power[3]; }; struct EVPowerProfileType { struct PowerScheduleEntryType EVPowerProfileEntry[2048]; }; struct Scheduled_PDReqControlModeType { unsigned char ScheduleTupleID; struct EVPowerProfileType EVPowerProfile; }; struct BPT_Scheduled_PDReqControlModeType { unsigned char ScheduleTupleID; struct EVPowerProfileType EVPowerProfile; //Optional enum evOperationType EVOperation; }; struct ListOfRootCertificateIDsType { unsigned char RootCertificateID[20][40]; }; struct ContractSignatureEncryptedPrivateKeyType { unsigned char Id[32]; }; struct DiffieHellmanPublickeyType { unsigned char Id[32]; }; struct ContractCertificateEncryptedPrivateKeyType { unsigned char Id[32]; }; struct EVTechnicalStatusType { BOOL EV_Status_ReadyToCharge; BOOL EV_Status_ImmobilizationRequest; //Optional BOOL EV_Status_Immobilized; struct PhysicalValueType_ISO15118_2018 EV_Status_WLAN_Strength; enum EV_CP_StatusType EV_CP_Status; unsigned char EV_Status_RESSSOC; //0~100% enum EV_Error_Status_CodeType EV_Error_Status_Code; BOOL EVSE_Timeout; }; struct MeterInfoType_ISO15118_2014 { unsigned char MeterID[32]; unsigned long MeterReading; //Optional unsigned char SigMeterReading[64]; //Optional short MeterStatus; //Optional short TMeter; //Optional }; struct Scheduled_MRReqControlModeType { unsigned char ScheduleTupleID; }; struct MeterInfoType_ISO15118_2018 { unsigned char MeterID[32]; unsigned long MeterReadingWhCharged; //Optional unsigned long MeterReadingWhDischarged; //Optional unsigned long MeterReadingVARhLeading; //Optional unsigned long MeterReadingVARhLagging; //Optional unsigned char SignatureMeterReading[64]; //Optional short MeterStatus; //Optional short TimeStampMeter; //Optional BOOL ReceiptRequired; //Optional }; struct PnC_CLReqIdentificationModeType { BOOL MeteringReceiptRequested; }; struct Dynamic_CSReqControlModeType { struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; }; struct Scheduled_CSReqControlModeType { struct PhysicalValueType_ISO15118_2018 EVTargetEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumEnergyRequest; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumEnergyRequest; //Optional BOOL Standby; struct PhysicalValueType_ISO15118_2018 EVMaximumChargePower; //Optional struct PhysicalValueType_ISO15118_2018 EVMaximumChargeCurrent; //Optional struct PhysicalValueType_ISO15118_2018 EVMinimumChargeCurrent; //Optional }; struct DisplayParametersType { unsigned short CurrentRange; unsigned char CurrentSOC; //0~100% unsigned char MinimumSOC; //0~100% struct PhysicalValueType_ISO15118_2018 RemainingTimeToMaximumSOC; struct PhysicalValueType_ISO15118_2018 RemainingTimeToTargetSOC; struct PhysicalValueType_ISO15118_2018 RemainingTimeToBulkSOC; struct PhysicalValueType_ISO15118_2018 RemainingTimeToMinimumSOC; BOOL ChargingComplete; BOOL BulkChargingComplete; BOOL InletHot; }; struct PnC_CLResIdentificationModeType { struct MeterInfoType_ISO15118_2018 MeterInfo; }; struct Dynamic_CSResControlModeType { struct PhysicalValueType_ISO15118_2018 EVSETargetActivePower; }; struct Scheduled_CDResControlModeType { struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargePower; //Optional struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent; //Optional struct PhysicalValueType_ISO15118_2018 EVSEMaximumVoltage; //Optional }; struct LFA_EVFinePositioningSetupParametersType { unsigned char NumberOfSensors; //NOT complete yet, to be continue..... }; /****SupportedAppProtocolRequest****/ struct SupportedAppProtocolRequest_DIN70121 { struct AppProtocolType AppProtocol[20]; }; struct SupportedAppProtocolRequest_ISO15118_2014 { struct AppProtocolType AppProtocol[20]; }; struct SupportedAppProtocolRequest_ISO15118_2018 { struct AppProtocolType AppProtocol[20]; }; /****SupportedAppProtocolResponse****/ struct SupportedAppProtocolResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; unsigned char SchemaID; //Optional }; struct SupportedAppProtocolResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; unsigned char SchemaID; //Optional }; struct SupportedAppProtocolResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; unsigned char SchemaID; //Optional }; /****SessionSetupRequest****/ struct SessionSetupRequest_DIN70121 { unsigned char EVCCID[8]; //the MAC address of the EVCC in Hex }; struct SessionSetupRequest_ISO15118_2014 { unsigned char EVCCID[8]; //the MAC address of the EVCC in Hex }; struct SessionSetupRequest_ISO15118_2018 { unsigned char EVCCID[8]; //the MAC address of the EVCC in Hex struct ACD_SSEnergyTransferModeType ACD_SSEnergyTransferMode; //For ACD mandatory, optional for rest }; /****SessionSetupResponse****/ struct SessionSetupResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 unsigned int EVSETimeStamp; //EPOCH format, Optional }; struct SessionSetupResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 unsigned int EVSETimeStamp; //EPOCH format, Optional }; struct SessionSetupResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 struct EVSEStatusType EVSEStatus; //Optional }; /****ServiceDiscoveryRequest****/ struct ServiceDiscoveryRequest_DIN70121 { unsigned char ServiceScope[32]; //Optional enum ServiceCategoryType ServiceCategory; //Optional }; struct ServiceDiscoveryRequest_ISO15118_2014 { unsigned char ServiceScope[32]; //Optional enum ServiceCategoryType ServiceCategory; //Optional }; struct ServiceDiscoveryRequest_ISO15118_2018 { struct ServiceIDListType SupportedServiceIDs; //Optional }; /****ServiceDiscoveryResponse****/ struct ServiceDiscoveryResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct PaymentOptionListType PaymentOptions; struct ServiceChargeType ChargeService_DIN70121; }; struct ServiceDiscoveryResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct PaymentOptionListType PaymentOptions; struct ChargeServiceType ChargeService; struct ServiceListType ServiceList; //Optional }; struct ServiceDiscoveryResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional struct IdentificationOptionListType IdentificationOptionList; struct ServiceListType EnergyTransferServiceList; struct ServiceListType VASList; //Optional }; /****ServiceDetailRequest****/ //Only in ISO15118_2014 and ISO15118_2018 struct ServiceDetailRequest_ISO15118_2014 { unsigned short ServiceID; }; struct ServiceDetailRequest_ISO15118_2018 { unsigned short ServiceID; struct WPT_SDlEnergyTransferModeType WPT_SDlEnergyTransferMode; }; /****ServiceDetailResponse****/ struct ServiceDetailResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; unsigned short ServiceID; struct ServiceParameterListType ServiceParameterList; }; struct ServiceDetailResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; unsigned short ServiceID; struct ServiceParameterListType ServiceParameterList; struct EVSEStatusType EVSEStatus; //Optional }; /****ServiceAndPaymentSelectionRequest / ServiceSelectionRequest****/ struct ServiceAndPaymentSelectionRequest_DIN70121 { enum PaymentOptionType SelectedPaymentOption; struct SelectedServiceListType SelectedServiceList; }; struct ServiceAndPaymentSelectionRequest_ISO15118_2014 { enum PaymentOptionType SelectedPaymentOption; struct SelectedServiceListType SelectedServiceList; }; struct ServiceSelectionRequest_ISO15118_2018 { enum PaymentOptionType SelectedPaymentOption; struct SelectedServiceType SelectedEnergyTransferService; struct SelectedServiceListType SelectedVASList; enum ProcessingType EVProcessing; }; /****ServiceAndPaymentSelectionResponse / ServiceSelectionResponse****/ struct ServiceAndPaymentSelectionResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; }; struct ServiceAndPaymentSelectionResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; }; struct ServiceSelectionResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional }; /****PaymentDetailsRequest / IdentificationDetailsRequest****/ struct PaymentDetailsRequest_ISO15118_2014 { unsigned char eMAID[16]; struct CertificateChainType ContractSignatureCertChain; }; struct IdentificationDetailsRequest_ISO15118_2018 { struct CertificateChainType ContractSignatureCertChain; }; /****PaymentDetailsResponse / IdentificationDetailsResponse ****/ struct PaymentDetailsResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; unsigned char GenChallenge[16]; long EVSETimeStamp; }; struct IdentificationDetailsResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional unsigned char GenChallenge[16]; enum ProcessingType EVSEProcessing; }; /****ContractAuthenticationRequest / AuthorizationRequest****/ struct ContractAuthenticationRequest_DIN70121 { //None }; struct AuthorizationRequest_ISO15118_2014 { unsigned char GenChallenge[16]; //Optional unsigned char Id[32]; //Optional }; struct AuthorizationRequest_ISO15118_2018 { struct PNC_AReqIdentificationModeType PNC_AReqIdentificationMode; //Optional }; /****ContractAuthenticationResponse / AuthorizationResponse****/ struct ContractAuthenticationResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; enum EVSEProcessingType_DIN70121 EVSEProcessing; }; struct AuthorizationResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; enum EVSEProcessingType_ISO15118_2014 EVSEProcessing; }; struct AuthorizationResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; enum ProcessingType EVSEProcessing; struct EVSEStatusType EVSEStatus; //Optional }; /****ChargeParameterDiscoveryRequest****/ struct ChargeParameterDiscoveryRequest_DIN70121 { enum EnergyTransferModeType EVRequestedEnergyTransferType; struct DC_EVChargeParameterType_DIN70121 DC_EVChargeParameter; }; struct ChargeParameterDiscoveryRequest_ISO15118_2014 { unsigned short MaxEntriesSAScheduleTuple; //Optional enum EnergyTransferModeType RequestedEnergyTransferMode; struct AC_EVChargeParameterType AC_EVChargeParameter; struct DC_EVChargeParameterType_ISO15118_2014 DC_EVChargeParameter; }; struct ChargeParameterDiscoveryRequest_ISO15118_2018 { struct Dynamic_CPDReqControlModeType Dynamic_CPDReqControlMode; struct Scheduled_CPDReqControlModeType Scheduled_CPDReqControlMode; struct AC_CPDReqEnergyTransferModeType AC_CPDReqEnergyTransferMode; struct DC_CPDReqEnergyTransferModeType DC_CPDReqEnergyTransferMode; struct BPT_AC_CPDReqEnergyTransferModeType BPT_AC_CPDReqEnergyTransferMode; struct BPT_DC_CPDReqEnergyTransferModeType BPT_DC_CPDReqEnergyTransferMode; struct WPT_CPDReqEnergyTransferModeType WPT_CPDReqEnergyTransferMode; struct ACD_CPDReqEnergyTransferModeType ACD_CPDReqEnergyTransferMode; }; /****ChargeParameterDiscoveryResponse****/ struct ChargeParameterDiscoveryResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; enum EVSEProcessingType_DIN70121 EVSEProcessing; struct SAScheduleListType SAScheduleList; struct DC_EVSEChargeParameterType_DIN70121 DC_EVSEChargeParameter; }; struct ChargeParameterDiscoveryResponse_ISO15118_2014 { enum EVSEProcessingType_ISO15118_2014 EVSEProcessing; enum ResponseCodeType_ISO15118_2014 ResponseCode; struct SAScheduleListType SAScheduleList; struct AC_EVSEChargeParameterType AC_EVSEChargeParameter; struct DC_EVSEChargeParameterType_ISO15118_2014 DC_EVSEChargeParameter; }; struct ChargeParameterDiscoveryResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional enum ProcessingType EVSEProcessing; struct Scheduled_CPDResControlModeType Scheduled_CPDResControlMode; //Optional struct AC_CPDResEnergyTransferModeType AC_CPDResEnergyTransferMode; struct DC_CPDResEnergyTransferModeType DC_CPDResEnergyTransferMode; struct BPT_AC_CPDResEnergyTransferModeType BPT_AC_CPDResEnergyTransferMode; struct BPT_DC_CPDResEnergyTransferModeType BPT_DC_CPDResEnergyTransferMode; struct WPT_CPDResEnergyTransferModeType WPT_CPDResEnergyTransferMode; struct ACD_CPDResEnergyTransferModeType ACD_CPDResEnergyTransferMode; }; /****PowerDeliveryRequest****/ struct PowerDeliveryRequest_DIN70121 { BOOL ReadyToChargeState; struct ChargingProfileType_DIN70121 ChargingProfile; struct DC_EVPowerDeliveryParameterType_DIN70121 DC_EVPowerDeliveryParameter; }; struct PowerDeliveryRequest_ISO15118_2014 { enum ChargeProgressType_ISO15118_2014 ChargeProgress; short SAScheduleTupleID; struct ChargingProfileType_ISO15118_2014 ChargingProfile; struct DC_EVPowerDeliveryParameterType_ISO15118_2014 DC_EVPowerDeliveryParameter; }; struct PowerDeliveryRequest_ISO15118_2018 { enum ChargeProgressType_ISO15118_2018 ChargeProgress; struct Scheduled_PDReqControlModeType Scheduled_PDReqControlMode; struct BPT_Scheduled_PDReqControlModeType BPT_Scheduled_PDReqControlMode; }; /****PowerDeliveryResponse****/ struct PowerDeliveryResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; }; struct PowerDeliveryResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct AC_EVSEStatusType AC_EVSEStatus; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; }; struct PowerDeliveryResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional }; /****CertificateUpdateRequest****/ struct CertificateUpdateRequest_ISO15118_2014 { unsigned char Id[32]; struct CertificateChainType ContractSignatureCertChain; unsigned char eMAID[16]; struct ListOfRootCertificateIDsType ListOfRootCertificateIDs; }; /****CertificateUpdateResponse****/ struct CertificateUpdateResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct CertificateChainType SAProvisioningCertificateChain; struct CertificateChainType ContractSignatureCertChain; struct ContractSignatureEncryptedPrivateKeyType ContractSignatureEncryptedPrivateKey; struct DiffieHellmanPublickeyType DHpublickey; unsigned char eMAID[16]; short RetryCounter; //Optional }; /****CertificateInstallationRequest****/ struct CertificateInstallationRequest_ISO15118_2014 { unsigned char Id[32]; unsigned char OEMProvisioningCert[800]; struct ListOfRootCertificateIDsType ListOfRootCertificateIDs; }; struct CertificateInstallationRequest_ISO15118_2018 { unsigned char Id[32]; struct CertificateChainType OEMProvisioningCertChain; struct ListOfRootCertificateIDsType ListOfRootCertificateIDs; unsigned short MaxSupportedCerts; }; /****CertificateInstallationResponse****/ struct CertificateInstallationResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct CertificateChainType SAProvisioningCertificateChain; struct CertificateChainType ContractSignatureCertChain; struct ContractSignatureEncryptedPrivateKeyType ContractSignatureEncryptedPrivateKey; struct DiffieHellmanPublickeyType DHpublickey; unsigned char eMAID[16]; }; struct CertificateInstallationResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional struct CertificateChainType SAProvisioningCertificateChain; struct CertificateChainType ContractCertificateChain; struct ContractCertificateEncryptedPrivateKeyType ContractEncryptedPrivateKey; struct DiffieHellmanPublickeyType DHpublickey; enum ProcessingType EVSEProcessing; unsigned short RemainingContractCertificateChains; }; /****SystemStatusRequest****/ struct SystemStatusRequest_ISO15118_2018 { enum mechanicalChargingDeviceStatusType EVMechanicalChargingDeviceStatus; struct EVTechnicalStatusType EVTechnicalStatus; unsigned char EV_OEMStatus[800]; //Optional }; /****SystemStatusResponse****/ struct SystemStatusResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; enum mechanicalChargingDeviceStatusType EVSEMechanicalChargingDeviceStatus; BOOL EVSE_ReadyToCharge; enum IsolationStatusType EVSE_IsolationStatus; BOOL EVSE_Disabled; BOOL EVSE_UtilityInterruptEvent; BOOL EVSE_EmergencyShutdown; BOOL EVSE_Malfunction; BOOL EV_InChargePosition; BOOL EV_AssociationStatus; }; /****SessionStopRequest****/ struct SessionStopRequest_DIN70121 { //No member in standard }; struct SessionStopRequest_ISO15118_2014 { enum ChargingSessionType ChargingSession; }; struct SessionStopRequest_ISO15118_2018 { enum ChargingSessionType ChargingSession; }; /****SessionStopResponse****/ struct SessionStopResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; }; struct SessionStopResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; }; struct SessionStopResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional }; /****MeteringReceiptRequest****/ struct MeteringReceiptRequest_ISO15118_2014 { unsigned char Id[32]; //Optional unsigned char SessionID[8]; short SAScheduleTupleID; //Optional struct MeterInfoType_ISO15118_2014 MeterInfo; }; struct MeteringReceiptRequest_ISO15118_2018 { unsigned char Id[32]; //Optional unsigned char SessionID[8]; struct Scheduled_MRReqControlModeType Schedule_MRReqControlMode; struct MeterInfoType_ISO15118_2018 MeterInfo; }; /****MeteringReceiptResponse****/ struct MeteringReceiptResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct AC_EVSEStatusType AC_EVSEStatus; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; }; struct MeteringReceiptResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional }; /****ChargingStatusRequest (AC Only)****/ struct ChargingStatusRequest_ISO15118_2014 { //No member in standard }; struct ChargingStatusRequest_ISO15118_2018 { struct PnC_CLReqIdentificationModeType PnC_CLReqIdentificationMode; struct Dynamic_CSReqControlModeType Dynamic_CSReqControlMode; struct Scheduled_CSReqControlModeType Scheduled_CSReqControlMode; struct DisplayParametersType DisplayParameters; }; /****ChargingStatusResponse (AC Only)****/ struct ChargingStatusResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 short SAScheduleTupleID; struct PhysicalValueType_ISO15118_2014 EVSEMaxCurrent; //Optional struct MeterInfoType_ISO15118_2014 MeterInfo; //Optional BOOL ReceiptRequired; //Optional struct AC_EVSEStatusType AC_EVSEStatus; }; struct ChargingStatusResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 struct PhysicalValueType_ISO15118_2018 EVSETargetFrequency; //Optional struct PnC_CLResIdentificationModeType PnC_CLResIdentificationMode; struct Dynamic_CSResControlModeType Dynamic_CSResControlMode; struct Scheduled_CSReqControlModeType Scheduled_CSReqControlMode; }; /****CableCheckRequest (DC Only)****/ struct CableCheckRequest_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; }; struct CableCheckRequest_ISO15118_2014 { struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; }; struct CableCheckRequest_ISO15118_2018 { //No member in standard }; /****CableCheckResponse (DC Only)****/ struct CableCheckResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; enum EVSEProcessingType_DIN70121 EVSEProcessing; }; struct CableCheckResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; enum EVSEProcessingType_ISO15118_2014 EVSEProcessing; }; struct CableCheckResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional enum ProcessingType EVSEProcessing; }; /****PreChargeRequest (DC Only)****/ struct PreChargeRequest_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; struct PhysicalValueType_DIN70121 EVTargetVoltage; struct PhysicalValueType_DIN70121 EVTargetCurrent; }; struct PreChargeRequest_ISO15118_2014 { struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; struct PhysicalValueType_ISO15118_2014 EVTargetVoltage; struct PhysicalValueType_ISO15118_2014 EVTargetCurrent; }; struct PreChargeRequest_ISO15118_2018 { struct PhysicalValueType_ISO15118_2018 EVTargetVoltage; struct PhysicalValueType_ISO15118_2018 EVTargetCurrent; }; /****PreChargeResponse (DC Only)****/ struct PreChargeResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; struct PhysicalValueType_DIN70121 EVSEPresentVoltage; }; struct PreChargeResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; struct PhysicalValueType_ISO15118_2014 EVSEPresentVoltage; }; struct PreChargeResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional struct PhysicalValueType_ISO15118_2018 EVSEPresentVoltage; }; /****CurrentDemandRequest (DC Only)****/ struct CurrentDemandRequest_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; struct PhysicalValueType_DIN70121 EVTargetCurrent; struct PhysicalValueType_DIN70121 EVMaximumVoltageLimit; //Optional struct PhysicalValueType_DIN70121 EVMaximumCurrentLimit; //Optional struct PhysicalValueType_DIN70121 EVMaximumPowerLimit; //Optional BOOL BulkChargingComplete; //Optional BOOL ChargingComplete; struct PhysicalValueType_DIN70121 RemainingTimeToFullSoC; //Optional struct PhysicalValueType_DIN70121 RemainingTimeToBulkSoC; //Optional struct PhysicalValueType_DIN70121 EVTargetVoltage; }; struct CurrentDemandRequest_ISO15118_2014 { struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; struct PhysicalValueType_ISO15118_2014 EVTargetCurrent; struct PhysicalValueType_ISO15118_2014 EVMaximumVoltageLimit; //Optional struct PhysicalValueType_ISO15118_2014 EVMaximumCurrentLimit; //Optional struct PhysicalValueType_ISO15118_2014 EVMaximumPowerLimit; //Optional BOOL BulkChargingComplete; //Optional BOOL ChargingComplete; struct PhysicalValueType_ISO15118_2014 RemainingTimeToFullSoC; //Optional struct PhysicalValueType_ISO15118_2014 RemainingTimeToBulkSoC; //Optional struct PhysicalValueType_ISO15118_2014 EVTargetVoltage; }; struct CurrentDemandRequest_ISO15118_2018 { struct DisplayParametersType DisplayParameters; //Optional struct PnC_CLReqIdentificationModeType PnC_CLReqIdentificationMode; struct Dynamic_CSReqControlModeType Dynamic_CDReqControlMode; struct Scheduled_CSReqControlModeType Scheduled_CDReqControlMode; }; /****CurrentDemandResponse (DC Only)****/ struct CurrentDemandResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; struct PhysicalValueType_DIN70121 EVSEPresentVoltage; struct PhysicalValueType_DIN70121 EVSEPresentCurrent; BOOL EVSECurrentLimitAchieved; BOOL EVSEVoltageLimitAchieved; BOOL EVSEPowerLimitAchieved; struct PhysicalValueType_DIN70121 EVSEMaximumVoltageLimit; //Optional struct PhysicalValueType_DIN70121 EVSEMaximumCurrentLimit; //Optional struct PhysicalValueType_DIN70121 EVSEMaximumPowerLimit; //Optional }; struct CurrentDemandResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; struct PhysicalValueType_ISO15118_2014 EVSEPresentVoltage; struct PhysicalValueType_ISO15118_2014 EVSEPresentCurrent; BOOL EVSECurrentLimitAchieved; BOOL EVSEVoltageLimitAchieved; BOOL EVSEPowerLimitAchieved; struct PhysicalValueType_ISO15118_2014 EVSEMaximumVoltageLimit; //Optional struct PhysicalValueType_ISO15118_2014 EVSEMaximumCurrentLimit; //Optional struct PhysicalValueType_ISO15118_2014 EVSEMaximumPowerLimit; //Optional unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 short SAScheduleTupleID; struct MeterInfoType_ISO15118_2014 MeterInfo; //Optional BOOL ReceiptRequired; //Optional }; struct CurrentDemandResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional struct PhysicalValueType_ISO15118_2018 EVSEPresentVoltage; struct PhysicalValueType_ISO15118_2018 EVSEPresentCurrent; BOOL EVSECurrentLimitAchieved; BOOL EVSEVoltageLimitAchieved; BOOL EVSEPowerLimitAchieved; struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeVoltage; //Optional struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargeCurrent; //Optional struct PhysicalValueType_ISO15118_2018 EVSEMaximumChargePower; //Optional unsigned char EVSEID[40]; //DIN70121=>Max length:32, ISO15118=>min length:7, max length:37 struct PnC_CLResIdentificationModeType PnC_CLResIdentificationMode; struct Scheduled_CDResControlModeType Scheduled_CDResControlMode; }; /****WeldingDetectionRequest (DC Only)*****/ struct WeldingDetectionRequest_DIN70121 { struct DC_EVStatusType_DIN70121 DC_EVStatus; }; struct WeldingDetectionRequest_ISO15118_2014 { struct DC_EVStatusType_ISO15118_2014 DC_EVStatus; }; struct WeldingDetectionRequest_ISO15118_2018 { //No member in Standard }; /****WeldingDetectionResponse (DC Only)****/ struct WeldingDetectionResponse_DIN70121 { enum ResponseCodeType_DIN70121 ResponseCode; struct DC_EVSEStatusType_DIN70121 DC_EVSEStatus; struct PhysicalValueType_DIN70121 EVSEPresentVoltage; }; struct WeldingDetectionResponse_ISO15118_2014 { enum ResponseCodeType_ISO15118_2014 ResponseCode; struct DC_EVSEStatusType_ISO15118_2014 DC_EVSEStatus; struct PhysicalValueType_ISO15118_2014 EVSEPresentVoltage; }; struct WeldingDetectionResponse_ISO15118_2018 { enum ResponseCodeType_ISO15118_2018 ResponseCode; struct EVSEStatusType EVSEStatus; //Optional struct PhysicalValueType_ISO15118_2018 EVSEPresentVoltage; }; /****FinePositioningSetupRequest (WPT Only)****/ struct FinePositioningSetupRequest_ISO15118_2018 { struct LFA_EVFinePositioningSetupParametersType LFA_EVFinePositioningSetupParameters; //Optional }; /****FinePositioningSetupResponse (WPT Only)****/ struct FinePositioningSetupResponse_ISO15118_2018 { //NOT complete yet, to be continue..... }; struct V2GMessageType_DIN70121 { unsigned char SelfTest_Comp; unsigned char version[16]; unsigned char PresentMsgFlowStatus; /* 0: Idle(wait B2 state), 1: CM_SLAC_PARM.REQ, 2: CM_SLAC_PARM.CNF, 3: CM_START_ATTEN_CHAR.IND 4: CM_MNBC_SOUND.IND, 5: CM_ATTEN_CHAR.IND, 6: CM_ATTEN_CHAR.RSP, 7: CM_VALIDATE.REQ 8: CM_VALIDATE.CNF, 9: CM_SLAC_MATCH.REQ, 10: CM_SLAC_MATCH.CNF, 11: CM_AMP_MAP.REQ 12: CM_AMP_MAP.CNF, 13: SLACC/SDP/TCP connection, 16: SupportedAppProtocolRequest, 17: SupportedAppProtocolResponse, 18: SessionSetupRequest 19: SessionSetupResponse, 20: ServiceDiscoveryRequest, 21: ServiceDiscoveryResponse 22: ServiceDetailRequest, 23: ServiceDetailResponse 24: ServiceAndPaymentSelectionRequest/ServiceSelectionRequest, 25: ServiceAndPaymentSelectionResponse/ServiceSelectionResponse 26: PaymentDetailsRequest/IdentificationDetailsRequest;, 27: PaymentDetailsResponse/IdentificationDetailsResponse, 28: AuthorizationRequest, 29: AuthorizationResponse, 30: CertificateUpdateRequest, 31: CertificateUpdateResponse, 32:CertificateInstallationRequest, 33: CertificateInstallationResponse 34: ChargeParameterDiscoveryRequest, 35: ChargeParameterDiscoveryResponse 36: CableCheckRequest, 37: CableCheckResponse, 38: PreChargeRequest, 39: PreChargeResponse 40: PowerDeliveryRequest start, 41: PowerDeliveryResponse start, 42: ChargingStatusRequest, 43: ChargingStatusResponse 44: CurrentDemandRequest, 45: CurrentDemandResponse, 46: MeteringReceiptRequest, 47: MeteringReceiptResponse 48: PowerDeliveryRequest end, 49: PowerDeliveryRequest end, 50: WeldingDetectionRequest, 51: WeldingDetectionResponse, 52: SessionStopRequest, 53: SessionStopResponse 253: Performance Timeout, 254: Sequence Timeout, 255: Fault */ struct SupportedAppProtocolRequest_DIN70121 SupportedAppProtocolRequest; struct SupportedAppProtocolResponse_DIN70121 SupportedAppProtocolResponse; struct SessionSetupRequest_DIN70121 SessionSetupRequest; struct SessionSetupResponse_DIN70121 SessionSetupResponse; struct ServiceDiscoveryRequest_DIN70121 ServiceDiscoveryRequest; struct ServiceDiscoveryResponse_DIN70121 ServiceDiscoveryResponse; struct ServiceAndPaymentSelectionRequest_DIN70121 ServiceAndPaymentSelectionRequest; struct ServiceAndPaymentSelectionResponse_DIN70121 ServiceAndPaymentSelectionResponse; struct ContractAuthenticationRequest_DIN70121 ContractAuthenticationRequest; struct ContractAuthenticationResponse_DIN70121 ContractAuthenticationResponse; struct ChargeParameterDiscoveryRequest_DIN70121 ChargeParameterDiscoveryRequest; struct ChargeParameterDiscoveryResponse_DIN70121 ChargeParameterDiscoveryResponse; struct CableCheckRequest_DIN70121 CableCheckRequest; struct CableCheckResponse_DIN70121 CableCheckResponse; struct PreChargeRequest_DIN70121 PreChargeRequest; struct PreChargeResponse_DIN70121 PreChargeResponse; struct PowerDeliveryRequest_DIN70121 PowerDeliveryRequest; struct PowerDeliveryResponse_DIN70121 PowerDeliveryResponse; struct CurrentDemandRequest_DIN70121 CurrentDemandRequest; struct CurrentDemandResponse_DIN70121 CurrentDemandResponse; struct WeldingDetectionRequest_DIN70121 WeldingDetectionRequest; struct WeldingDetectionResponse_DIN70121 WeldingDetectionResponse; struct SessionStopRequest_DIN70121 SessionStopRequest; struct SessionStopResponse_DIN70121 SessionStopResponse; }; struct V2GMessageType_ISO15118_2014 { unsigned char PresentMsgFlowStatus; /* 0: Idle(wait B2 state), 1: CM_SLAC_PARM.REQ, 2: CM_SLAC_PARM.CNF, 3: CM_START_ATTEN_CHAR.IND 4: CM_MNBC_SOUND.IND, 5: CM_ATTEN_CHAR.IND, 6: CM_ATTEN_CHAR.RSP, 7: CM_VALIDATE.REQ 8: CM_VALIDATE.CNF, 9: CM_SLAC_MATCH.REQ, 10: CM_SLAC_MATCH.CNF, 11: CM_AMP_MAP.REQ 12: CM_AMP_MAP.CNF, 13: SLACC/SDP/TCP connection, 16: SupportedAppProtocolRequest, 17: SupportedAppProtocolResponse, 18: SessionSetupRequest 19: SessionSetupResponse, 20: ServiceDiscoveryRequest, 21: ServiceDiscoveryResponse 22: ServiceDetailRequest, 23: ServiceDetailResponse 24: ServiceAndPaymentSelectionRequest/ServiceSelectionRequest, 25: ServiceAndPaymentSelectionResponse/ServiceSelectionResponse 26: PaymentDetailsRequest/IdentificationDetailsRequest;, 27: PaymentDetailsResponse/IdentificationDetailsResponse, 28: AuthorizationRequest, 29: AuthorizationResponse, 30: CertificateUpdateRequest, 31: CertificateUpdateResponse, 32:CertificateInstallationRequest, 33: CertificateInstallationResponse 34: ChargeParameterDiscoveryRequest, 35: ChargeParameterDiscoveryResponse 36: CableCheckRequest, 37: CableCheckResponse, 38: PreChargeRequest, 39: PreChargeResponse 40: PowerDeliveryRequest start, 41: PowerDeliveryResponse start, 42: ChargingStatusRequest, 43: ChargingStatusResponse 44: CurrentDemandRequest, 45: CurrentDemandResponse, 46: MeteringReceiptRequest, 47: MeteringReceiptResponse 48: PowerDeliveryRequest end, 49: PowerDeliveryRequest end, 50: WeldingDetectionRequest, 51: WeldingDetectionResponse, 52: SessionStopRequest, 53: SessionStopResponse 253: Performance Timeout, 254: Sequence Timeout, 255: Fault */ struct SupportedAppProtocolRequest_ISO15118_2014 SupportedAppProtocolRequest; struct SupportedAppProtocolResponse_ISO15118_2014 SupportedAppProtocolResponse; struct SessionSetupRequest_ISO15118_2014 SessionSetupRequest; struct SessionSetupResponse_ISO15118_2014 SessionSetupResponse; struct ServiceDiscoveryRequest_ISO15118_2014 ServiceDiscoveryRequest; struct ServiceDiscoveryResponse_ISO15118_2014 ServiceDiscoveryResponse; struct ServiceDetailRequest_ISO15118_2014 ServiceDetailRequest; struct ServiceDetailResponse_ISO15118_2014 ServiceDetailResponse; struct ServiceAndPaymentSelectionRequest_ISO15118_2014 ServiceAndPaymentSelectionRequest; struct ServiceAndPaymentSelectionResponse_ISO15118_2014 ServiceAndPaymentSelectionResponse; struct PaymentDetailsRequest_ISO15118_2014 PaymentDetailsRequest; struct PaymentDetailsResponse_ISO15118_2014 PaymentDetailsResponse; struct AuthorizationRequest_ISO15118_2014 AuthorizationRequest; struct AuthorizationResponse_ISO15118_2014 AuthorizationResponse; struct CertificateUpdateRequest_ISO15118_2014 CertificateUpdateRequest; struct CertificateUpdateResponse_ISO15118_2014 CertificateUpdateResponse; struct CertificateInstallationRequest_ISO15118_2014 CertificateInstallationRequest; struct CertificateInstallationResponse_ISO15118_2014 CertificateInstallationResponse; struct ChargeParameterDiscoveryRequest_ISO15118_2014 ChargeParameterDiscoveryRequest; struct ChargeParameterDiscoveryResponse_ISO15118_2014 ChargeParameterDiscoveryResponse; struct CableCheckRequest_ISO15118_2014 CableCheckRequest; struct CableCheckResponse_ISO15118_2014 CableCheckResponse; struct PreChargeRequest_ISO15118_2014 PreChargeRequest; struct PreChargeResponse_ISO15118_2014 PreChargeResponse; struct PowerDeliveryRequest_ISO15118_2014 PowerDeliveryRequest; struct PowerDeliveryResponse_ISO15118_2014 PowerDeliveryResponse; struct ChargingStatusRequest_ISO15118_2014 ChargingStatusRequest; struct ChargingStatusResponse_ISO15118_2014 ChargingStatusResponse; struct CurrentDemandRequest_ISO15118_2014 CurrentDemandRequest; struct CurrentDemandResponse_ISO15118_2014 CurrentDemandResponse; struct MeteringReceiptRequest_ISO15118_2014 MeteringReceiptRequest; struct MeteringReceiptResponse_ISO15118_2014 MeteringReceiptResponse; struct WeldingDetectionRequest_ISO15118_2014 WeldingDetectionRequest; struct WeldingDetectionResponse_ISO15118_2014 WeldingDetectionResponse; struct SessionStopRequest_ISO15118_2014 SessionStopRequest; struct SessionStopResponse_ISO15118_2014 SessionStopResponse; }; struct V2GMessageType_ISO15118_2018 { unsigned char PresentMsgFlowStatus; /* 0: Idle(wait B2 state), 1: CM_SLAC_PARM.REQ, 2: CM_SLAC_PARM.CNF, 3: CM_START_ATTEN_CHAR.IND 4: CM_MNBC_SOUND.IND, 5: CM_ATTEN_CHAR.IND, 6: CM_ATTEN_CHAR.RSP, 7: CM_VALIDATE.REQ 8: CM_VALIDATE.CNF, 9: CM_SLAC_MATCH.REQ, 10: CM_SLAC_MATCH.CNF, 11: CM_AMP_MAP.REQ 12: CM_AMP_MAP.CNF, 13: SLACC/SDP/TCP connection, 16: SupportedAppProtocolRequest, 17: SupportedAppProtocolResponse, 18: SessionSetupRequest 19: SessionSetupResponse, 20: ServiceDiscoveryRequest, 21: ServiceDiscoveryResponse 22: ServiceDetailRequest, 23: ServiceDetailResponse 24: ServiceAndPaymentSelectionRequest/ServiceSelectionRequest, 25: ServiceAndPaymentSelectionResponse/ServiceSelectionResponse 26: PaymentDetailsRequest/IdentificationDetailsRequest;, 27: PaymentDetailsResponse/IdentificationDetailsResponse, 28: AuthorizationRequest, 29: AuthorizationResponse, 30: CertificateUpdateRequest, 31: CertificateUpdateResponse, 32:CertificateInstallationRequest, 33: CertificateInstallationResponse 34: ChargeParameterDiscoveryRequest, 35: ChargeParameterDiscoveryResponse 36: CableCheckRequest, 37: CableCheckResponse, 38: PreChargeRequest, 39: PreChargeResponse 40: PowerDeliveryRequest start, 41: PowerDeliveryResponse start, 42: ChargingStatusRequest, 43: ChargingStatusResponse 44: CurrentDemandRequest, 45: CurrentDemandResponse, 46: MeteringReceiptRequest, 47: MeteringReceiptResponse 48: PowerDeliveryRequest end, 49: PowerDeliveryRequest end, 50: WeldingDetectionRequest, 51: WeldingDetectionResponse, 52: SessionStopRequest, 53: SessionStopResponse 253: Performance Timeout, 254: Sequence Timeout, 255: Fault */ struct SupportedAppProtocolRequest_ISO15118_2018 SupportedAppProtocolRequest; struct SupportedAppProtocolResponse_ISO15118_2018 SupportedAppProtocolResponse; struct SessionSetupRequest_ISO15118_2018 SessionSetupRequest; struct SessionSetupResponse_ISO15118_2018 SessionSetupResponse; struct ServiceDiscoveryRequest_ISO15118_2018 ServiceDiscoveryRequest; struct ServiceDiscoveryResponse_ISO15118_2018 ServiceDiscoveryResponse; struct ServiceDetailRequest_ISO15118_2018 ServiceDetailRequest; struct ServiceDetailResponse_ISO15118_2018 ServiceDetailResponse; struct ServiceSelectionRequest_ISO15118_2018 ServiceSelectionRequest; struct ServiceSelectionResponse_ISO15118_2018 ServiceSelectionResponse; struct IdentificationDetailsRequest_ISO15118_2018 IdentificationDetailsRequest; struct IdentificationDetailsResponse_ISO15118_2018 IdentificationDetailsResponse; struct AuthorizationRequest_ISO15118_2018 AuthorizationRequest; struct AuthorizationResponse_ISO15118_2018 AuthorizationResponse; struct CertificateInstallationRequest_ISO15118_2018 CertificateInstallationRequest; struct CertificateInstallationResponse_ISO15118_2018 CertificateInstallationResponse; struct ChargeParameterDiscoveryRequest_ISO15118_2018 ChargeParameterDiscoveryRequest; struct ChargeParameterDiscoveryResponse_ISO15118_2018 ChargeParameterDiscoveryResponse; struct CableCheckRequest_ISO15118_2018 CableCheckRequest; struct CableCheckResponse_ISO15118_2018 CableCheckResponse; struct PreChargeRequest_ISO15118_2018 PreChargeRequest; struct PreChargeResponse_ISO15118_2018 PreChargeResponse; struct PowerDeliveryRequest_ISO15118_2018 PowerDeliveryRequest; struct PowerDeliveryResponse_ISO15118_2018 PowerDeliveryResponse; struct ChargingStatusRequest_ISO15118_2018 ChargingStatusRequest; struct ChargingStatusResponse_ISO15118_2018 ChargingStatusResponse; struct CurrentDemandRequest_ISO15118_2018 CurrentDemandRequest; struct CurrentDemandResponse_ISO15118_2018 CurrentDemandResponse; struct MeteringReceiptRequest_ISO15118_2018 MeteringReceiptRequest; struct MeteringReceiptResponse_ISO15118_2018 MeteringReceiptResponse; struct WeldingDetectionRequest_ISO15118_2018 WeldingDetectionRequest; struct WeldingDetectionResponse_ISO15118_2018 WeldingDetectionResponse; struct SessionStopRequest_ISO15118_2018 SessionStopRequest; struct SessionStopResponse_ISO15118_2018 SessionStopResponse; }; struct CcsData { unsigned char CommProtocol; // 1: V2GMessage_DIN70121, 2:V2GMessage_ISO15118_2014, 3:V2GMessage_ISO15118_2018 struct V2GMessageType_DIN70121 V2GMessage_DIN70121[CCS_QUANTITY]; struct V2GMessageType_ISO15118_2014 V2GMessage_ISO15118_2014[CCS_QUANTITY]; struct V2GMessageType_ISO15118_2018 V2GMessage_ISO15118_2018[CCS_QUANTITY]; }; /**************************************************************************************/ /***************STM32F407 Communication Share memory**************************/ /**************************************************************************************/ struct PrimaryMcuData { unsigned char SelfTest_Comp; unsigned char version[16]; //STM32F407 firmware version unsigned int InputVoltage; //value comes from external meter unsigned int InputCurrent; //value comes from external meter union { unsigned char OutputDrvValue[1]; struct { //OutputDrvValue[0] unsigned char AcContactorDrv:1; //bit 0, H: ON, L:OFF unsigned char Button1LedDrv:1; //bit 1, H: ON, L:OFF unsigned char Button2LedDrv:1; //bit 2, H: ON, L:OFF unsigned char SystemLed1Drv:1; //bit 3, H: ON, L:OFF unsigned char SystemLed2Drv:1; //bit 4, H: ON, L:OFF unsigned char SystemLed3Drv:1; //bit 5, H: ON, L:OFF unsigned char SystemLed4Drv:1; //bit 6, H: ON, L:OFF unsigned char:1; //bit 7 reserved }bits; }OutputDrv; union { unsigned char InputDetValue[2]; struct { //InputDetValue[0] unsigned char AcContactorDetec:1; //bit 0, H: ON, L:OFF unsigned char AcMainBreakerDetec:1; //bit 1, H: ON, L:OFF unsigned char SpdDetec:1; //bit 2, H: ON, L:OFF unsigned char DoorOpen:1; //bit 3, H: Open, L:Close unsigned char Gfd1:1; //bit 4, H: Trigger, L:Normal unsigned char Gfd2:1; //bit 5, H: Trigger, L:Normal unsigned char Button1:1; //bit 6 , H: Push, L:Release unsigned char Button2:1; //bit 7, H: Push, L:Release //InputDetValue[1] unsigned char EmergencyButton:1; //bit 0, H: Push, L:Release unsigned char :7; //bit 1~7, Reserved }bits; }InputDet; }; /**************************************************************************************/ /*************Fan power module Communication Share memory******************/ /**************************************************************************************/ struct FanModuleData { unsigned char SelfTest_Comp; unsigned char version[16]; //fan power module firmware version unsigned short PresentFan1Speed; //RPM unsigned short PresentFan2Speed; //RPM unsigned short PresentFan3Speed; //RPM unsigned short PresentFan4Speed; //RPM unsigned short SetFan1Speed; //RPM unsigned short SetFan2Speed; //RPM unsigned short SetFan3Speed; //RPM unsigned short SetFan4Speed; //RPM unsigned short TestFanSpeed; //RPM unsigned char DiffOfAirPressure; //pa unsigned char UpdateFW; //1:do update }; /**************************************************************************************/ /***********Relay control module Communication Share memory******************/ /**************************************************************************************/ struct RelayModuleData { unsigned char SelfTest_Comp; unsigned char version[16]; //relay module firmware version unsigned short InputL1Volt; //XXXXX.x volt unsigned short InputL2Volt; //XXXXX.x volt unsigned short InputL3Volt; //XXXXX.x volt unsigned short Gun1FuseOutputVolt; //XXXXX.x volt unsigned short Gun2FuseOutputVolt; //XXXXX.x volt unsigned short Gun1RelayOutputVolt; //XXXXX.x volt unsigned short Gun2RelayOutputVolt; //XXXXX.x volt unsigned short Gun1OutputCurrent; //XXXXX.x amp unsigned short Gun2OutputCurrent; //XXXXX.x amp unsigned char UpdateFW; //1:do update }; /**************************************************************************************/ /***********Led control module Communication Share memory******************/ /**************************************************************************************/ struct LedModuleData { unsigned char SelfTest_Comp; unsigned char version[16]; //led module firmware version unsigned short Connect_1_Status; // Idle : 0, Charging : 1, Alarm : 2 unsigned short Connect_2_Status; // Idle : 0, Charging : 1, Alarm : 2 unsigned short EnableFunc; // reserved }; /**************************************************************************************/ /************************OCPP Share memory***************************************/ /**************************************************************************************/ struct StructIdTagInfo { unsigned char ExpiryDate[28]; unsigned char ParentIdTag[20]; unsigned char Status[16]; //Accepted, Blocked, Expired, Invalid, ConcurrentTx }; struct StructLocalAuthorizationList { unsigned char IdTag[20]; struct StructIdTagInfo IdTagInfo; }; struct StructSampledValue { unsigned char Value[128]; unsigned char Context[30];//Interruption.Begin, Interruption.End, Sample.Clock, Sample.Periodic, Transaction.Begin, Transaction.End, Trigger, Other unsigned char Format[16];//Raw,SignedData unsigned char Measurand[40];/* "Energy.Active.Export.Register", "Energy.Active.Import.Register", "Energy.Reactive.Export.Register", "Energy.Reactive.Import.Register", "Energy.Active.Export.Interval", "Energy.Active.Import.Interval", "Energy.Reactive.Export.Interval", "Energy.Reactive.Import.Interval", "Power.Active.Export", "Power.Active.Import", "Power.Offered", "Power.Reactive.Export", "Power.Reactive.Import", "Power.Factor", "Current.Import", "Current.Export", "Current.Offered", "Voltage", "Frequency", "Temperature", "SoC", "RPM" */ unsigned char Phase[10]; /* "L1", "L2", "L3", "N", "L1-N", "L2-N", "L3-N", "L1-L2", "L2-L3", "L3-L1" */ unsigned char Location[10]; //Cable,EV,Inlet,Outlet,Body unsigned char Unit[20]; /* "Wh", "kWh", "varh", "kvarh", "W", "kW", "VA", "kVA", "var", "kvar", "A", "V", "K", "Celcius", "Fahrenheit", "Percent" */ }; struct StructMeterValue { unsigned char TimeStamp[28]; struct StructSampledValue SampledValue[10]; }; struct StructConfigurationKeyItems { unsigned char Item[50]; }; struct StructConfigurationKey { unsigned char Key[50]; unsigned char ReadOnly[8]; //boolean unsigned char Value[500]; }; struct StructChargingSchedulePeriod { int StartPeriod; float Limit;//0.1; int NumberPhases; }; struct StructChargingSchedule { int Duration; unsigned char StartSchedule[28]; unsigned char ChargingRateUnit[4]; //A, W struct StructChargingSchedulePeriod ChargingSchedulePeriod[10]; float MinChargingRate; //0.1; }; struct StructChargingProfile { int ChargingProfileId; int TransactionId; int StackLevel; unsigned char ChargingProfilePurpose[24]; //ChargePointMaxProfile, TxDefaultProfile, TxProfile unsigned char ChargingProfileKind[12]; //Absolute, Recurring, Relative unsigned char RecurrencyKind[8]; //Daily, Weekly unsigned char ValidFrom[28]; unsigned char ValidTo[28]; struct StructChargingSchedule ChargingSchedule; }; struct StructBootNotification { unsigned char CpVendor[20]; //chargePointVendor //mandatory unsigned char CpModel[20]; //chargePointModel //mandatory unsigned char CpSN[25]; //chargePointSerialNumber unsigned char CbSN[25]; //chargeBoxSerialNumber unsigned char CpFwVersion[50]; //firmwareVersion unsigned char CpIccid[22]; //iccid unsigned char CpImsi[20]; //imsi unsigned char CpMeterType[25]; //meterType unsigned char CpMeterSerialNumber[25]; //meterSerialNumber unsigned char ResponseStatus[16]; //Accepted, Pending, Rejected unsigned char ResponseCurrentTime[28]; //currentTime //mandatory int ResponseHeartbeatInterval; //interval //mandatory }; struct StructHeartbeat { unsigned char ResponseCurrentTime[28]; }; struct StructAuthorize { unsigned char IdTag[20]; struct StructIdTagInfo ResponseIdTagInfo; }; struct StructStartTransaction { int ConnectorId; unsigned char IdTag[20]; int MeterStart; int ReservationId; unsigned char Timestamp[28]; struct StructIdTagInfo ResponseIdTagInfo; int ResponseTransactionId; }; struct StructStopTransaction { unsigned char IdTag[20]; int MeterStop; unsigned char Timestamp[28]; int TransactionId; unsigned char StopReason[20]; /* "EmergencyStop", "EVDisconnected", "HardReset", "Local", "Other", "PowerLoss", "Reboot", "Remote", "SoftReset", "UnlockCommand", "DeAuthorized" */ struct StructMeterValue TransactionData[1]; struct StructIdTagInfo ResponseIdTagInfo; }; struct StructStatusNotification { int ConnectorId; unsigned char ErrorCode[25]; /* "ConnectorLockFailure", "EVCommunicationError", "GroundFailure", "HighTemperature", "InternalError", "LocalListConflict", "NoError", "OtherError", "OverCurrentFailure", "PowerMeterFailure", "PowerSwitchFailure", "ReaderFailure", "ResetFailure", "UnderVoltage", "OverVoltage", "WeakSignal" */ unsigned char Info[50]; unsigned char Status[20]; /* "Available", "Preparing", "Charging", "SuspendedEVSE", "SuspendedEV", "Finishing", "Reserved", "Unavailable", "Faulted" */ unsigned char Timestamp[28]; unsigned char VendorId[256]; unsigned char VendorErrorCode[50]; }; struct StructCancelReservation { int ReservationId; unsigned char ResponseStatus[16]; //Accepted, Rejected unsigned char guid[37]; }; struct StructChangeAvailability { int ConnectorId; unsigned char Type[16]; //Inoperative, Operative unsigned char ResponseStatus[16]; //Accepted, Rejected, Scheduled unsigned char guid[37]; }; struct StructChangeConfiguration { unsigned char Key[50]; unsigned char Value[500]; unsigned char ResponseStatus[16]; //Accepted, Rejected, RebootRequired, NotSupported }; struct StructClearCache { unsigned char ResponseStatus[16]; //Accepted, Rejected }; struct StructClearChargingProfile { int Id; int ConnectorId; unsigned char ChargingProfilePurpose[24]; //ChargePointMaxProfile, TxDefaultProfile, TxProfile int StackLevel; unsigned char ResponseStatus[16]; //Accepted, Unknown }; struct StructDataTransfer { unsigned char VendorId[256]; unsigned char MessageId[52]; unsigned char Data[512]; unsigned char ResponseStatus[18]; //Accepted, Rejected,UnknownMessageId,UnknownVendorId unsigned char ResponseData[256]; }; struct StructDiagnosticsStatusNotification { unsigned char Status[16]; //Idle,Uploaded,UploadFailed,Uploading }; struct StructFirmwareStatusNotification { unsigned char Status[20]; //Downloaded,DownloadFailed,Downloading,Idle,InstallationFailed,Installing,Installed }; struct StructGetCompositeSchedule { int ConnectorId; int Duration; unsigned char ChargingRateUnit[4]; //A,W unsigned char ResponseStatus[12]; //Accepted,Rejected int ResponseConnectorId; unsigned char ResponseScheduleStart[28]; struct StructChargingSchedule ResponseChargingSchedule; }; struct StructGetConfiguration { struct StructConfigurationKeyItems *Key; struct StructConfigurationKey *ResponseConfigurationKey; struct StructConfigurationKeyItems *ResponseUnknownKey; }; struct StructGetDiagnostics { unsigned char Location[256]; int Retries; int RetryInterval; unsigned char StartTime[28]; unsigned char StopTime[28]; unsigned char ResponseFileName[256]; }; struct StructGetLocalListVersion { int ResponseListVersion; }; struct StructMeterValues { int ConnectorId; int TransactionId; struct StructMeterValue MeterValue[0]; }; struct StructRemoteStartTransaction { int ConnectorId; unsigned char IdTag[20]; struct StructChargingProfile ChargingProfile; unsigned char ResponseStatus[10]; //Accepted, Rejected unsigned char guid[37]; }; struct StructRemoteStopTransaction { int TransactionId; unsigned char ResponseStatus[10]; //Accepted, Rejected }; struct StructReserveNow { int ConnectorId; unsigned char ExpiryDate[28]; unsigned char IdTag[20]; unsigned char ParentIdTag[20]; int ReservationId; unsigned char ResponseStatus[12]; //Accepted, Faulted, Occupied, Rejected, Unavailable unsigned char guid[37]; //OCPP Server request message uuid }; struct StructReset { unsigned char Type[8]; //Hard, Soft unsigned char ResponseStatus[10]; //Accepted, Rejected unsigned char guid[37]; //OCPP Server request message uuid }; struct StructSendLocalList { int ListVersion; unsigned char UpdateType[16]; //Differential, Full struct StructLocalAuthorizationList *LocalAuthorizationList; unsigned char ResponseStatus[16]; //Accepted, Failed, NotSupported, VersionMismatch }; struct StructSetChargingProfile { int ConnectorId; struct StructChargingProfile ChargingProfile; unsigned char ResponseStatus[16]; //Accepted, Rejected, NotSupported }; struct StructTriggerMessage { unsigned char RequestedMessage[32]; /* "BootNotification", "DiagnosticsStatusNotification", "FirmwareStatusNotification", "Heartbeat", "MeterValues", "StatusNotification" */ int ConnectorId; unsigned char ResponseStatus[16]; //Accepted, Rejected, NotImplemented }; struct StructUnlockConnector { int ConnectorId; unsigned char ResponseStatus[16]; //Unlocked, UnlockFailed, NotSupported unsigned char guid[37]; //OCPP Server request message uuid }; struct StructUpdateFirmware { unsigned char Location[256]; int Retries; unsigned char RetrieveDate[28]; int RetryInterval; }; struct OCPP16ConfigurationItem { unsigned char ItemName[64]; unsigned char ItemAccessibility;//0:RO, 1:RW unsigned char ItemData[128]; }; struct OCPP16ConfigurationTable { //please refer to OCPP 1.6 chapter 9 struct OCPP16ConfigurationItem CoreProfile[35]; struct OCPP16ConfigurationItem LocalAuthListManagementProfile[3]; struct OCPP16ConfigurationItem ReservationProfile[1]; struct OCPP16ConfigurationItem SmartChargingProfile[5]; }; struct OCPP16Data { unsigned char OcppServerURL[512]; //http: non-secure OCPP 1.5-S, https: secure OCPP 1.5-S, ws: non-secure OCPP 1.6-J, wss: secure OCPP 1.6-J" unsigned char ChargeBoxId[128]; unsigned char OcppConnStatus; //0: disconnected, 1: connected unsigned int Timeout_Secs; unsigned short Ping_Pong_Interval; union { //Operations Initiated by Charge Point unsigned char CpMsgValue[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct { //CpMsgValue[0] unsigned char DataTransferReq:1; //bit 0, unsigned char DataTransferConf:1; //bit 1, unsigned char StartTransactionReq:1; //bit 2, unsigned char StartTransactionConf:1; //bit 3, unsigned char StopTransactionReq:1; //bit 4, unsigned char StopTransactionConf:1; //bit 5, unsigned char :2; //bit 6,7 , reserved } bits[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; }CpMsg; union { //Operations Initiated by Sequence Point unsigned char SpMsgValue[1]; struct { //SpMsgValue[0] unsigned char BootNotificationReq :1; //bit 0, unsigned char BootNotificationConf :1; //bit 1, unsigned char AuthorizeReq :1; //bit 2, unsigned char AuthorizeConf :1; //bit 3, unsigned char DiagnosticsStatusNotificationReq :1; //bit 4, unsigned char DiagnosticsStatusNotificationConf :1; //bit 5, unsigned char FirmwareStatusNotificationReq :1; //bit 6, unsigned char FirmwareStatusNotificationConf :1; //bit 7, } bits; } SpMsg; union { //Operations Initiated by Central System unsigned char CsMsgValue[3 * (CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY)]; struct { //CsMsgValue[0] unsigned char CancelReservationReq :1; //bit 0, unsigned char CancelReservationConf :1; //bit 1, unsigned char ChangeAvailabilityReq :1; //bit 2, unsigned char ChangeAvailabilityConf :1; //bit 3, unsigned char ReserveNowReq :1; //bit 4, unsigned char ReserveNowConf :1; //bit 5, unsigned char SetChargingProfileReq :1; //bit 6, unsigned char SetChargingProfileConf :1; //bit 7, //CsMsgValue[1] unsigned char TriggerMessageReq :1; //bit 0, unsigned char TriggerMessageConf :1; //bit 1, unsigned char UnlockConnectorReq :1; //bit 2, unsigned char UnlockConnectorConf :1; //bit 3, unsigned char RemoteStartTransactionReq :1; //bit 4, unsigned char RemoteStartTransactionConf :1; //bit 5, unsigned char RemoteStopTransactionReq :1; //bit 6, unsigned char RemoteStopTransactionConf :1; //bit 7, //CsMsgValue[2] unsigned char ClearChargingProfileReq :1; //bit 0, unsigned char ClearChargingProfileConf :1; //bit 1, unsigned char DataTransferReq :1; //bit 2, unsigned char DataTransferConf :1; //bit 3, unsigned char GetCompositeScheduleReq :1; //bit 4, unsigned char GetCompositeScheduleConf :1; //bit 5, unsigned char :2; //bit 6,7 } bits[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; }CsMsg; union { //Operations Initiated by Main System unsigned char MsMsgValue[2]; struct { //CsMsgValue[0] unsigned char ChangeConfigurationReq :1; //bit 0, unsigned char ChangeConfigurationConf :1; //bit 1, unsigned char ClearCacheReq :1; //bit 2, unsigned char ClearCacheConf :1; //bit 3, unsigned char GetConfigurationReq :1; //bit 4, unsigned char GetConfigurationConf :1; //bit 5, unsigned char UpdateFirmwareReq :1; //bit 6, unsigned char UpdateFirmwareConf :1; //bit 7, //CsMsgValue[1] unsigned char GetDiagnosticsReq :1; //bit 0, unsigned char GetDiagnosticsConf :1; //bit 1, unsigned char GetLocalListVersionReq :1; //bit 2, unsigned char GetLocalListVersionConf :1; //bit 3, unsigned char ResetReq :1; //bit 4, unsigned char ResetConf :1; //bit 5, unsigned char SendLocalListReq :1; //bit 6, unsigned char SendLocalListConf :1; //bit 7, } bits; } MsMsg; union { //Operations triggered by CSU unsigned char CSUMsgValue[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct { //CSUMsgValue[0] unsigned char ChargingProfileReq:1; //bit 0, unsigned char ChargingProfileConf:1; //bit 0, unsigned char :6; //bit 1,2,3,4,5,6,7 , reserved } bits[CHAdeMO_QUANTITY + CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; }CSUMsg; struct StructBootNotification BootNotification; struct StructHeartbeat Heartbeat; struct StructAuthorize Authorize; struct StructStartTransaction StartTransaction[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructStopTransaction StopTransaction[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructStatusNotification StatusNotification[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructCancelReservation CancelReservation[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructChangeAvailability ChangeAvailability[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructChangeConfiguration ChangeConfiguration; struct StructClearCache ClearCache; struct StructClearChargingProfile ClearChargingProfile[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructDataTransfer DataTransfer[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructDiagnosticsStatusNotification DiagnosticsStatusNotification; struct StructFirmwareStatusNotification FirmwareStatusNotification; struct StructGetCompositeSchedule GetCompositeSchedule[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructGetConfiguration GetConfiguration; struct StructGetDiagnostics GetDiagnostics; struct StructGetLocalListVersion GetLocalListVersion; struct StructMeterValues MeterValues[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructRemoteStartTransaction RemoteStartTransaction[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructRemoteStopTransaction RemoteStopTransaction[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructReserveNow ReserveNow[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructReset Reset; struct StructSendLocalList SendLocalList; struct StructSetChargingProfile SetChargingProfile[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructTriggerMessage TriggerMessage[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructUnlockConnector UnlockConnector[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; struct StructUpdateFirmware UpdateFirmware; struct OCPP16ConfigurationTable ConfigurationTable; struct StructChargingProfile SmartChargingProfile[CHAdeMO_QUANTITY+ CCS_QUANTITY + GB_QUANTITY + AC_QUANTITY]; }; #endif // DEFINE_H_