Documentation
¶
Index ¶
- Constants
- func ObservationIDStrings() []string
- func SignalrLogger(log Logger) signalr.StructuredLogger
- func TokenSource(log *util.Logger, user, password string) (oauth2.TokenSource, error)
- type Charger
- type ChargerConfig
- type ChargerSettings
- type ChargerStatus
- type Circuit
- type CircuitSettings
- type DataType
- type Logger
- type Observation
- type ObservationID
- type RestCommandResponse
- type SignalRCommandResponse
- type Site
- type Token
Constants ¶
View Source
const ( ChargeStart = "start_charging" ChargeStop = "stop_charging" ChargePause = "pause_charging" ChargeResume = "resume_charging" PollLifetimeEnergy = "poll_lifetimeenergy" )
View Source
const ( ModeOffline int = 0 ModeDisconnected int = 1 ModeAwaitingStart int = 2 ModeCharging int = 3 ModeCompleted int = 4 ModeError int = 5 ModeReadyToCharge int = 6 ModeAwaitingAuthentication int = 7 ModeDeauthenticating int = 8 )
charge mode definition
View Source
const API = "https://api.easee.com/api"
API is the Easee API endpoint
Variables ¶
This section is empty.
Functions ¶
func ObservationIDStrings ¶
func ObservationIDStrings() []string
ObservationIDStrings returns a slice of all String values of the enum
func SignalrLogger ¶
func SignalrLogger(log Logger) signalr.StructuredLogger
func TokenSource ¶
TokenSource creates an Easee token source
Types ¶
type ChargerConfig ¶
type ChargerConfig struct {
IsEnabled bool
LockCablePermanently bool
AuthorizationRequired bool
RemoteStartRequired bool
SmartButtonEnabled bool
WiFiSSID string
DetectedPowerGridType int
OfflineChargingMode int
CircuitMaxCurrentP1 float64
CircuitMaxCurrentP2 float64
CircuitMaxCurrentP3 float64
EnableIdleCurrent bool
LimitToSinglePhaseCharging bool
PhaseMode int
LocalNodeType int
LocalAuthorizationRequired bool
LocalRadioChannel int
LocalShortAddress int
LocalParentAddrOrNumOfNodes int
LocalPreAuthorizeEnabled bool
LocalAuthorizeOfflineEnabled bool
AllowOfflineTxForUnknownId bool
MaxChargerCurrent float64
LedStripBrightness int
}
type ChargerSettings ¶
type ChargerSettings struct {
Enabled *bool `json:"enabled,omitempty"`
EnableIdleCurrent *bool `json:"enableIdleCurrent,omitempty"`
LimitToSinglePhaseCharging *bool `json:"limitToSinglePhaseCharging,omitempty"`
LockCablePermanently *bool `json:"lockCablePermanently,omitempty"`
SmartButtonEnabled *bool `json:"smartButtonEnabled,omitempty"`
PhaseMode *int `json:"phaseMode,omitempty"`
SmartCharging *bool `json:"smartCharging,omitempty"`
LocalPreAuthorizeEnabled *bool `json:"localPreAuthorizeEnabled,omitempty"`
LocalAuthorizeOfflineEnabled *bool `json:"localAuthorizeOfflineEnabled,omitempty"`
AllowOfflineTxForUnknownID *bool `json:"allowOfflineTxForUnknownId,omitempty"`
OfflineChargingMode *int `json:"offlineChargingMode,omitempty"`
AuthorizationRequired *bool `json:"authorizationRequired,omitempty"`
RemoteStartRequired *bool `json:"remoteStartRequired,omitempty"`
LedStripBrightness *int `json:"ledStripBrightness,omitempty"`
MaxChargerCurrent *int `json:"maxChargerCurrent,omitempty"`
DynamicChargerCurrent *float64 `json:"dynamicChargerCurrent,omitempty"`
}
ChargerSettings is the charger settings type
type ChargerStatus ¶
type ChargerStatus struct {
SmartCharging bool
CableLocked bool
ChargerOpMode int
TotalPower float64
SessionEnergy float64
EnergyPerHour float64
WiFiRSSI int
CellRSSI int
LocalRSSI int
OutputPhase int
DynamicCircuitCurrentP1 float64
DynamicCircuitCurrentP2 float64
DynamicCircuitCurrentP3 float64
LatestPulse string
ChargerFirmware int
LatestFirmware int
Voltage float64
ChargerRAT int
LockCablePermanently bool
InCurrentT2 float64
InCurrentT3 float64
InCurrentT4 float64
InCurrentT5 float64
OutputCurrent float64
IsOnline bool
InVoltageT1T2 float64
InVoltageT1T3 float64
InVoltageT1T4 float64
InVoltageT1T5 float64
InVoltageT2T3 float64
InVoltageT2T4 float64
InVoltageT2T5 float64
InVoltageT3T4 float64
InVoltageT3T5 float64
InVoltageT4T5 float64
LedMode int
CableRating float64
DynamicChargerCurrent float64
CircuitTotalAllocatedPhaseConductorCurrentL1 float64
CircuitTotalAllocatedPhaseConductorCurrentL2 float64
CircuitTotalAllocatedPhaseConductorCurrentL3 float64
CircuitTotalPhaseConductorCurrentL1 float64
CircuitTotalPhaseConductorCurrentL2 float64
CircuitTotalPhaseConductorCurrentL3 float64
ReasonForNoCurrent int
WiFiAPEnabled bool
LifetimeEnergy float64
OfflineMaxCircuitCurrentP1 int
OfflineMaxCircuitCurrentP2 int
OfflineMaxCircuitCurrentP3 int
}
ChargerStatus is the charger status type
type Circuit ¶
type Circuit struct {
ID int
SiteID int
CircuitPanelID int
PanelName string
RatedCurrent float64
UseDynamicMaster bool
ParentCircuitID int
Chargers []Charger
}
Circuit is the circuit type
type CircuitSettings ¶
type CircuitSettings struct {
DynamicCircuitCurrentP1 *float64 `json:"dynamicCircuitCurrentP1,omitempty"`
DynamicCircuitCurrentP2 *float64 `json:"dynamicCircuitCurrentP2,omitempty"`
DynamicCircuitCurrentP3 *float64 `json:"dynamicCircuitCurrentP3,omitempty"`
MaxCircuitCurrentP1 *float64 `json:"maxCircuitCurrentP1,omitempty"`
MaxCircuitCurrentP2 *float64 `json:"maxCircuitCurrentP2,omitempty"`
MaxCircuitCurrentP3 *float64 `json:"maxCircuitCurrentP3,omitempty"`
EnableIdleCurrent *bool `json:"enableIdleCurrent,omitempty"`
OfflineMaxCircuitCurrentP1 *int `json:"offlineMaxCircuitCurrentP1,omitempty"`
OfflineMaxCircuitCurrentP2 *int `json:"offlineMaxCircuitCurrentP2,omitempty"`
OfflineMaxCircuitCurrentP3 *int `json:"offlineMaxCircuitCurrentP3,omitempty"`
}
CircuitSettings is the circuit settings type
type DataType ¶
type DataType int
const ( Binary DataType // 1 Boolean // 2 Double // 3 Integer // 4 Position // 5 String // 6 Statistics // 7 )
type Logger ¶
type Logger interface {
Println(v ...interface{})
}
Logger is a simple logger interface
type Observation ¶
type Observation struct {
Mid string
DataType DataType
ID ObservationID
Timestamp time.Time
Value string
}
func (*Observation) TypedValue ¶
func (o *Observation) TypedValue() (interface{}, error)
type ObservationID ¶
type ObservationID int
https://www.notion.so/Charger-template-c6a20ff7cfea41e2b5f80b00afb34af5
const ( SELF_TEST_RESULT ObservationID = 1 // PASSED or error codes [String] SELF_TEST_DETAILS ObservationID = 2 // JSON with details from self-test [String] WIFI_EVENT ObservationID = 10 // Enum with WiFi event codes. Requires telemetry debug mode. Will be updated on WiFi events when using cellular, will otherwise be reported in ChargerOfflineReason [Integer] CHARGER_OFFLINE_REASON ObservationID = 11 // Enum describing why charger is offline [Integer] EASEE_LINK_COMMAND_RESPONSE ObservationID = 13 // Response on a EaseeLink command sent to another devic [Integer] EASEE_LINK_DATA_RECEIVED ObservationID = 14 // Data received on EaseeLink from another device [String] LOCAL_PRE_AUTHORIZE_ENABLED ObservationID = 15 // Preauthorize with whitelist enabled. Readback on setting [event] [Boolean] LOCAL_AUTHORIZE_OFFLINE_ENABLED ObservationID = 16 // Allow offline charging for whitelisted RFID token. Readback on setting [event] [Boolean] ALLOW_OFFLINE_TX_FOR_UNKNOWN_ID ObservationID = 17 // Allow offline charging for all RFID tokens. Readback on setting [event] [Boolean] ERRATIC_EVMAX_TOGGLES ObservationID = 18 // 0 == erratic checking disabled, otherwise the number of toggles between states Charging and Charging Complete that will trigger an error [Integer] BACKPLATE_TYPE ObservationID = 19 // Readback on backplate type [Integer] SITE_STRUCTURE ObservationID = 20 // Site Structure [boot] [String] DETECTED_POWER_GRID_TYPE ObservationID = 21 // Detected power grid type according to PowerGridType table [boot] [Integer] CIRCUIT_MAX_CURRENT_P1 ObservationID = 22 // Set circuit maximum current [Amperes] [Double] CIRCUIT_MAX_CURRENT_P2 ObservationID = 23 // Set circuit maximum current [Amperes] [Double] CIRCUIT_MAX_CURRENT_P3 ObservationID = 24 // Set circuit maximum current [Amperes] [Double] LOCATION ObservationID = 25 // Location coordinate [event] [Position] SITE_IDSTRING ObservationID = 26 // Site ID string [event] [String] SITE_IDNUMERIC ObservationID = 27 // Site ID numeric value [event] [Integer] LOCK_CABLE_PERMANENTLY ObservationID = 30 // Lock type2 cable permanently [Boolean] IS_ENABLED ObservationID = 31 // Set true to enable charger, false disables charger [Boolean] CIRCUIT_SEQUENCE_NUMBER ObservationID = 33 // Charger sequence number on circuit [Integer] SINGLE_PHASE_NUMBER ObservationID = 34 // Phase to use in 1-phase charging [Integer] ENABLE3_PHASES_DEPRECATED ObservationID = 35 // Allow charging using 3-phases [Boolean] WI_FI_SSID ObservationID = 36 // WiFi SSID name [String] ENABLE_IDLE_CURRENT ObservationID = 37 // Charger signals available current when EV is done charging [user option] [event] [Boolean] PHASE_MODE ObservationID = 38 // Phase mode on this charger. 1-Locked to 1-Phase, 2-Auto, 3-Locked to 3-phase(only Home) [Integer] FORCED_THREE_PHASE_ON_ITWITH_GND_FAULT ObservationID = 39 // Default disabled. Must be set manually if grid type is indeed three phase IT [Boolean] LED_STRIP_BRIGHTNESS ObservationID = 40 // LED strip brightness, 0-100% [Integer] LOCAL_AUTHORIZATION_REQUIRED ObservationID = 41 // Local RFID authorization is required for charging [user options] [event] [Boolean] AUTHORIZATION_REQUIRED ObservationID = 42 // Authorization is required for charging [Boolean] REMOTE_START_REQUIRED ObservationID = 43 // Remote start required flag [event] [Boolean] SMART_BUTTON_ENABLED ObservationID = 44 // Smart button is enabled [Boolean] OFFLINE_CHARGING_MODE ObservationID = 45 // Charger behavior when offline [Integer] LEDMODE ObservationID = 46 // Charger LED mode [event] [Integer] MAX_CHARGER_CURRENT ObservationID = 47 // Max current this charger is allowed to offer to car (A). Non volatile. [Double] DYNAMIC_CHARGER_CURRENT ObservationID = 48 // Max current this charger is allowed to offer to car (A). Volatile [Double] MAX_CURRENT_OFFLINE_FALLBACK_P1 ObservationID = 50 // Maximum circuit current P1 when offline [event] [Integer] MAX_CURRENT_OFFLINE_FALLBACK_P2 ObservationID = 51 // Maximum circuit current P2 when offline [event] [Integer] MAX_CURRENT_OFFLINE_FALLBACK_P3 ObservationID = 52 // Maximum circuit current P3 when offline [event] [Integer] CHARGING_SCHEDULE ObservationID = 62 // Charging schedule [json] [String] PAIRED_EQUALIZER ObservationID = 65 // Paired equalizer details [String] WI_FI_APENABLED ObservationID = 68 // True if WiFi Access Point is enabled, otherwise false [Boolean] PAIRED_USER_IDTOKEN ObservationID = 69 // Observed user token when charger put in RFID pairing mode [event] [String] CIRCUIT_TOTAL_ALLOCATED_PHASE_CONDUCTOR_CURRENT_L1 ObservationID = 70 // Total current allocated to L1 by all chargers on the circuit. Sent in by master only [Double] CIRCUIT_TOTAL_ALLOCATED_PHASE_CONDUCTOR_CURRENT_L2 ObservationID = 71 // Total current allocated to L2 by all chargers on the circuit. Sent in by master only [Double] CIRCUIT_TOTAL_ALLOCATED_PHASE_CONDUCTOR_CURRENT_L3 ObservationID = 72 // Total current allocated to L3 by all chargers on the circuit. Sent in by master only [Double] CIRCUIT_TOTAL_PHASE_CONDUCTOR_CURRENT_L1 ObservationID = 73 // Total current in L1 (sum of all chargers on the circuit) Sent in by master only [Double] CIRCUIT_TOTAL_PHASE_CONDUCTOR_CURRENT_L2 ObservationID = 74 // Total current in L2 (sum of all chargers on the circuit) Sent in by master only [Double] CIRCUIT_TOTAL_PHASE_CONDUCTOR_CURRENT_L3 ObservationID = 75 // Total current in L3 (sum of all chargers on the circuit) Sent in by master only [Double] NUMBER_OF_CARS_CONNECTED ObservationID = 76 // Number of cars connected to this circuit [Integer] NUMBER_OF_CARS_CHARGING ObservationID = 77 // Number of cars currently charging [Integer] NUMBER_OF_CARS_IN_QUEUE ObservationID = 78 // Number of cars currently in queue, waiting to be allocated power [Integer] NUMBER_OF_CARS_FULLY_CHARGED ObservationID = 79 // Number of cars that appear to be fully charged [Integer] SOFTWARE_RELEASE ObservationID = 80 // Embedded software package release id [boot] [Integer] ICCID ObservationID = 81 // SIM integrated circuit card identifier [String] MODEM_FW_ID ObservationID = 82 // Modem firmware version [String] OTAERROR_CODE ObservationID = 83 // OTA error code, see table [event] [Integer] MOBILE_NETWORK_OPERATOR ObservationID = 84 // Current mobile network operator [pollable] [String] REBOOT_REASON ObservationID = 89 // Reason of reboot. Bitmask of flags. [Integer] POWER_PCBVERSION ObservationID = 90 // Power PCB hardware version [Integer] COM_PCBVERSION ObservationID = 91 // Communication PCB hardware version [Integer] REASON_FOR_NO_CURRENT ObservationID = 96 // Enum describing why a charger with a car connected is not offering current to the car [Integer] LOAD_BALANCING_NUMBER_OF_CONNECTED_CHARGERS ObservationID = 97 // Number of connected chargers in the load balancin. Including the master. Sent from Master only. [Integer] UDPNUM_OF_CONNECTED_NODES ObservationID = 98 // Number of chargers connected to master through UDP / WIFI [Integer] LOCAL_CONNECTION ObservationID = 99 // Slaves only. Current connection to master, 0 = None, 1= Radio, 2 = WIFI UDP, 3 = Radio and WIFI UDP [Integer] PILOT_MODE ObservationID = 100 // Pilot Mode Letter (A-F) [event] [String] CAR_CONNECTED_DEPRECATED ObservationID = 101 // Car connection state [Boolean] SMART_CHARGING ObservationID = 102 // Smart charging state enabled by capacitive touch button [event] [Boolean] CABLE_LOCKED ObservationID = 103 // Cable lock state [event] [Boolean] CABLE_RATING ObservationID = 104 // Cable rating read [Amperes] [event] [Double] PILOT_HIGH ObservationID = 105 // Pilot signal high [Volt] [debug] [Double] PILOT_LOW ObservationID = 106 // Pilot signal low [Volt] [debug] [Double] BACK_PLATE_ID ObservationID = 107 // Back Plate RFID of charger [boot] [String] USER_IDTOKEN_REVERSED ObservationID = 108 // User ID token string from RFID reading [event] (NB! Must reverse these strings) [String] CHARGER_OP_MODE ObservationID = 109 // Charger operation mode according to charger mode table [event] [Integer] OUTPUT_PHASE ObservationID = 110 // Active output phase(s) to EV according to output phase type table. [event] [Integer] DYNAMIC_CIRCUIT_CURRENT_P1 ObservationID = 111 // Dynamically set circuit maximum current for phase 1 [Amperes] [event] [Double] DYNAMIC_CIRCUIT_CURRENT_P2 ObservationID = 112 // Dynamically set circuit maximum current for phase 2 [Amperes] [event] [Double] DYNAMIC_CIRCUIT_CURRENT_P3 ObservationID = 113 // Dynamically set circuit maximum current for phase 3 [Amperes] [event] [Double] OUTPUT_CURRENT ObservationID = 114 // Available current signaled to car with pilot tone [Double] DERATED_CURRENT ObservationID = 115 // Available current after derating [A] [Double] DERATING_ACTIVE ObservationID = 116 // Available current is limited by the charger due to high temperature [event] [Boolean] DEBUG_STRING ObservationID = 117 // Debug string [String] ERROR_STRING ObservationID = 118 // Descriptive error string [event] [String] ERROR_CODE ObservationID = 119 // Error code according to error code table [event] [Integer] TOTAL_POWER ObservationID = 120 // Total power [kW] [telemetry] [Double] SESSION_ENERGY ObservationID = 121 // Session accumulated energy [kWh] [telemetry] [Double] ENERGY_PER_HOUR ObservationID = 122 // Accumulated energy per hour [kWh] [event] [Double] LEGACY_EV_STATUS ObservationID = 123 // 0 = not legacy ev, 1 = legacy ev detected, 2 = reviving ev [Integer] LIFETIME_ENERGY ObservationID = 124 // Accumulated energy in the lifetime of the charger [kWh] [Double] LIFETIME_RELAY_SWITCHES ObservationID = 125 // Total number of relay switches in the lifetime of the charger (irrespective of the number of phases used) [Integer] LIFETIME_HOURS ObservationID = 126 // Total number of hours in operation [Integer] DYNAMIC_CURRENT_OFFLINE_FALLBACK_DEPRICATED ObservationID = 127 // Maximum circuit current when offline [event] [Integer] USER_IDTOKEN ObservationID = 128 // User ID token string from RFID reading [event] [String] CHARGING_SESSION ObservationID = 129 // Charging sessions [json] [event] [String] CELL_RSSI ObservationID = 130 // Cellular signal strength [dBm] [telemetry] [Integer] CELL_RAT ObservationID = 131 // Cellular radio access technology according to RAT table [event] [Integer] WI_FI_RSSI ObservationID = 132 // WiFi signal strength [dBm] [telemetry] [Integer] CELL_ADDRESS ObservationID = 133 // IP address assigned by cellular network [debug] [String] WI_FI_ADDRESS ObservationID = 134 // IP address assigned by WiFi network [debug] [String] WI_FI_TYPE ObservationID = 135 // WiFi network type letters (G, N, AC, etc) [debug] [String] LOCAL_RSSI ObservationID = 136 // Local radio signal strength [dBm] [telemetry] [Integer] MASTER_BACK_PLATE_ID ObservationID = 137 // Back Plate RFID of master [event] [String] LOCAL_TX_POWER ObservationID = 138 // Local radio transmission power [dBm] [telemetry] [Integer] LOCAL_STATE ObservationID = 139 // Local radio state [event] [String] FOUND_WI_FI ObservationID = 140 // List of found WiFi SSID and RSSI values [event] [String] CHARGER_RAT ObservationID = 141 // Radio access technology in use: 0 = cellular, 1 = wifi [Integer] CELLULAR_INTERFACE_ERROR_COUNT ObservationID = 142 // The number of times since boot the system has reported an error on this interface [poll] [Integer] CELLULAR_INTERFACE_RESET_COUNT ObservationID = 143 // The number of times since boot the interface was reset due to high error count [poll] [Integer] WIFI_INTERFACE_ERROR_COUNT ObservationID = 144 // The number of times since boot the system has reported an error on this interface [poll] [Integer] WIFI_INTERFACE_RESET_COUNT ObservationID = 145 // The number of times since boot the interface was reset due to high error count [poll] [Integer] LOCAL_NODE_TYPE ObservationID = 146 // 0-Unconfigured, 1-Master, 2-Extender, 3-End device [Integer] LOCAL_RADIO_CHANNEL ObservationID = 147 // Channel nr 0 - 11 [Integer] LOCAL_SHORT_ADDRESS ObservationID = 148 // Address of charger on local radio network [Integer] LOCAL_PARENT_ADDR_OR_NUM_OF_NODES ObservationID = 149 // If master-Number of slaves connected, If slave- Address parent [Integer] TEMP_MAX ObservationID = 150 // Maximum temperature for all sensors [Celsius] [telemetry] [Double] TEMP_AMBIENT_POWER_BOARD ObservationID = 151 // Temperature measured by ambient sensor on power board [Celsius] [event] [Double] TEMP_INPUT_T2 ObservationID = 152 // Temperature at input T2 [Celsius] [event] [Double] TEMP_INPUT_T3 ObservationID = 153 // Temperature at input T3 [Celsius] [event] [Double] TEMP_INPUT_T4 ObservationID = 154 // Temperature at input T4 [Celsius] [event] [Double] TEMP_INPUT_T5 ObservationID = 155 // Temperature at input T5 [Celsius] [event] [Double] TEMP_OUTPUT_N ObservationID = 160 // Temperature at type 2 connector plug for N [Celsius] [event] [Double] TEMP_OUTPUT_L1 ObservationID = 161 // Temperature at type 2 connector plug for L1 [Celsius] [event] [Double] TEMP_OUTPUT_L2 ObservationID = 162 // Temperature at type 2 connector plug for L2 [Celsius] [event] [Double] TEMP_OUTPUT_L3 ObservationID = 163 // Temperature at type 2 connector plug for L3 [Celsius] [event] [Double] TEMP_AMBIENT ObservationID = 170 // Ambient temperature [Celsius] [event] [Double] LIGHT_AMBIENT ObservationID = 171 // Ambient light from front side [Percent] [debug] [Integer] INT_REL_HUMIDITY ObservationID = 172 // Internal relative humidity [Percent] [event] [Integer] BACK_PLATE_LOCKED ObservationID = 173 // Back plate confirmed locked [event] [Boolean] CURRENT_MOTOR ObservationID = 174 // Motor current draw [debug] [Double] BACK_PLATE_HALL_SENSOR ObservationID = 175 // Raw sensor value [mV] [Integer] IN_CURRENT_T2 ObservationID = 182 // Calculated current RMS for input T2 [Amperes] [telemetry] [Double] IN_CURRENT_T3 ObservationID = 183 // Current RMS for input T3 [Amperes] [telemetry] [Double] IN_CURRENT_T4 ObservationID = 184 // Current RMS for input T4 [Amperes] [telemetry] [Double] IN_CURRENT_T5 ObservationID = 185 // Current RMS for input T5 [Amperes] [telemetry] [Double] IN_VOLT_T1_T2 ObservationID = 190 // Input voltage RMS between T1 and T2 [Volt] [telemetry] [Double] IN_VOLT_T1_T3 ObservationID = 191 // Input voltage RMS between T1 and T3 [Volt] [telemetry] [Double] IN_VOLT_T1_T4 ObservationID = 192 // Input voltage RMS between T1 and T4 [Volt] [telemetry] [Double] IN_VOLT_T1_T5 ObservationID = 193 // Input voltage RMS between T1 and T5 [Volt] [telemetry] [Double] IN_VOLT_T2_T3 ObservationID = 194 // Input voltage RMS between T2 and T3 [Volt] [telemetry] [Double] IN_VOLT_T2_T4 ObservationID = 195 // Input voltage RMS between T2 and T4 [Volt] [telemetry] [Double] IN_VOLT_T2_T5 ObservationID = 196 // Input voltage RMS between T2 and T5 [Volt] [telemetry] [Double] IN_VOLT_T3_T4 ObservationID = 197 // Input voltage RMS between T3 and T4 [Volt] [telemetry] [Double] IN_VOLT_T3_T5 ObservationID = 198 // Input voltage RMS between T3 and T5 [Volt] [telemetry] [Double] IN_VOLT_T4_T5 ObservationID = 199 // Input voltage RMS between T4 and T5 [Volt] [telemetry] [Double] OUT_VOLT_PIN1_2 ObservationID = 202 // Output voltage RMS between type 2 pin 1 and 2 [Volt] [telemetry] [Double] OUT_VOLT_PIN1_3 ObservationID = 203 // Output voltage RMS between type 2 pin 1 and 3 [Volt] [telemetry] [Double] OUT_VOLT_PIN1_4 ObservationID = 204 // Output voltage RMS between type 2 pin 1 and 4 [Volt] [telemetry] [Double] OUT_VOLT_PIN1_5 ObservationID = 205 // Output voltage RMS between type 2 pin 1 and 5 [Volt] [telemetry] [Double] VOLT_LEVEL33 ObservationID = 210 // 3.3 Volt Level [Volt] [telemetry] [Double] VOLT_LEVEL5 ObservationID = 211 // 5 Volt Level [Volt] [telemetry] [Double] VOLT_LEVEL12 ObservationID = 212 // 12 Volt Level [Volt] [telemetry] [Double] LTE_RSRP ObservationID = 220 // Reference Signal Received Power (LTE) [-144 .. -44 dBm] [Integer] LTE_SINR ObservationID = 221 // Signal to Interference plus Noise Ratio (LTE) [-20 .. +30 dB] [Integer] LTE_RSRQ ObservationID = 222 // Reference Signal Received Quality (LTE) [-19 .. -3 dB] [Integer] EQ_AVAILABLE_CURRENT_P1 ObservationID = 230 // Available current for charging on P1 according to Equalizer [Double] EQ_AVAILABLE_CURRENT_P2 ObservationID = 231 // Available current for charging on P2 according to Equalizer [Double] EQ_AVAILABLE_CURRENT_P3 ObservationID = 232 // Available current for charging on P3 according to Equalizer [Double] CONNECTED_TO_CLOUD ObservationID = 250 // If charger connected to cloud or not CLOUD_DISCONNECT_REASON ObservationID = 251 // Reason why charger disconnected from cloud LISTEN_TO_CONTROL_PULSE ObservationID = 56 // True = charger needs control pulse to consider itself online. Readback on charger setting [event] [Boolean] CONTROL_PULSE_RTT ObservationID = 57 // Control pulse round-trip time in milliseconds [Integer] )
func ObservationIDString ¶
func ObservationIDString(s string) (ObservationID, error)
ObservationIDString retrieves an enum value from the enum constants string name. Throws an error if the param is not part of the enum.
func ObservationIDValues ¶
func ObservationIDValues() []ObservationID
ObservationIDValues returns all values of the enum
func (ObservationID) IsAObservationID ¶
func (i ObservationID) IsAObservationID() bool
IsAObservationID returns "true" if the value is listed in the enum definition. "false" otherwise
func (ObservationID) String ¶
func (i ObservationID) String() string
type RestCommandResponse ¶
type SignalRCommandResponse ¶
Source Files
Click to show internal directories.
Click to hide internal directories.