Legrand / Raritan / Server Technology Xerus™ PDU JSON-RPC API
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sensors::StateSensor Interface Reference

Sensor with discrete readings. More...

import"StateSensor.idl";

Inheritance diagram for sensors::StateSensor:
sensors::Sensor pdumodel::OverCurrentProtectorTripSensor pdumodel::PowerQualitySensor pdumodel::ResidualCurrentStateSensor sensors::Switch

Classes

struct  State
 Sensor state. More...
 
struct  StateChangedEvent
 

Public Member Functions

State getState ()
 Get the sensor state. More...
 
- Public Member Functions inherited from sensors::Sensor
TypeSpec getTypeSpec ()
 Retrieve the sensor type specification. More...
 
boolean isTypeChangeAllowed ()
 Check whether the sensor type can be changed using setType(). More...
 
int setType (in int type, in int unit)
 Set sensor type and unit. More...
 

Additional Inherited Members

- Public Types inherited from sensors::Sensor
enum  OnOffState { OFF , ON }
 Sensor states for DISCRETE_ON_OFF sensors. More...
 
enum  OpenClosedState { OPEN , CLOSED }
 
enum  NormalAlarmedState { NORMAL , ALARMED }
 
enum  OkFaultState { OK , FAULT }
 
- Public Attributes inherited from sensors::Sensor
constant int ERR_NOT_SUPPORTED = 1
 The operation is not supported.
 
constant int NUMERIC = 0
 Sensor reading type
 
constant int DISCRETE_ON_OFF = 1
 
constant int DISCRETE_MULTI = 2
 
constant int UNSPECIFIED = 0
 Sensor type
 
constant int VOLTAGE = 1
 
constant int CURRENT = 2
 
constant int UNBALANCE_CURRENT = 3
 
constant int POWER = 4
 
constant int POWER_FACTOR = 5
 
constant int ENERGY = 6
 
constant int FREQUENCY = 7
 
constant int TEMPERATURE = 8
 
constant int HUMIDITY = 9
 
constant int AIR_FLOW = 10
 
constant int AIR_PRESSURE = 11
 
constant int CONTACT_CLOSURE = 12
 
constant int ON_OFF_SENSOR = 13
 
constant int TRIP_SENSOR = 14
 
constant int VIBRATION = 15
 
constant int WATER_LEAK = 16
 
constant int SMOKE_DETECTOR = 17
 
constant int TOTAL_HARMONIC_DISTORTION = 18
 
constant int MASS = 19
 
constant int ELECTRICAL_RESISTANCE = 20
 
constant int FLUX = 21
 
constant int LUMINOUS_INTENSITY = 22
 
constant int ACCELERATION = 23
 
constant int MAGNETIC_FLUX_DENSITY = 24
 
constant int ELECTRIC_FIELD_STRENGTH = 25
 
constant int MAGNETIC_FIELD_STRENGTH = 26
 
constant int ANGLE = 27
 
constant int SELECTION = 28
 
constant int FAULT_STATE = 29
 
constant int POWER_QUALITY = 30
 
constant int ROTATIONAL_SPEED = 31
 
constant int LUMINOUS_ENERGY = 32
 
constant int LUMINOUS_FLUX = 33
 
constant int ILLUMINANCE = 34
 
constant int LUMINOUS_EMITTANCE = 35
 
constant int MOTION = 36
 
constant int OCCUPANCY = 37
 
constant int TAMPER = 38
 
constant int DRY_CONTACT = 39
 
constant int POWERED_DRY_CONTACT = 40
 
constant int ABSOLUTE_HUMIDITY = 41
 
constant int DOOR_STATE = 42
 
constant int DOOR_LOCK_STATE = 43
 
constant int DOOR_HANDLE_LOCK = 44
 
constant int CREST_FACTOR = 45
 
constant int DISTANCE = 46
 
constant int LENGTH = 47
 
constant int UNBALANCE_VOLTAGE = 48
 
constant int PARTICLE_DENSITY = 49
 
constant int NONE = 0
 Sensor unit
 
constant int VOLT = 1
 
constant int AMPERE = 2
 
constant int WATT = 3
 
constant int VOLT_AMP = 4
 
constant int WATT_HOUR = 5
 
constant int VOLT_AMP_HOUR = 6
 
constant int DEGREE_CELSIUS = 7
 
constant int HZ = 8
 
constant int PERCENT = 9
 
constant int METER_PER_SEC = 10
 
constant int PASCAL = 11
 
constant int G = 12
 
constant int RPM = 13
 
constant int METER = 14
 
constant int HOUR = 15
 
constant int MINUTE = 16
 
constant int SECOND = 17
 
constant int VOLT_AMP_REACTIVE = 18
 
constant int VOLT_AMP_REACTIVE_HOUR = 19
 
constant int GRAM = 20
 
constant int OHM = 21
 
constant int LITERS_PER_HOUR = 22
 
constant int CANDELA = 23
 
constant int METER_PER_SQUARE_SEC = 24
 
constant int METER_PER_SQARE_SEC = 24
 
constant int TESLA = 25
 
constant int VOLT_PER_METER = 26
 
constant int VOLT_PER_AMPERE = 27
 
constant int DEGREE = 28
 
constant int DEGREE_FAHRENHEIT = 29
 
constant int KELVIN = 30
 
constant int JOULE = 31
 
constant int COULOMB = 32
 
constant int NIT = 33
 
constant int LUMEN = 34
 
constant int LUMEN_SECOND = 35
 
constant int LUX = 36
 
constant int PSI = 37
 
constant int NEWTON = 38
 
constant int FOOT = 39
 
constant int FOOT_PER_SEC = 40
 
constant int CUBIC_METER = 41
 
constant int RADIANT = 42
 
constant int STERADIANT = 43
 
constant int HENRY = 44
 
constant int FARAD = 45
 
constant int MOL = 46
 
constant int BECQUEREL = 47
 
constant int GRAY = 48
 
constant int SIEVERT = 49
 
constant int G_PER_CUBIC_METER = 50
 
constant int UG_PER_CUBIC_METER = 51
 

Detailed Description

Sensor with discrete readings.

Sensor states are represented as a numerical field in the State structure. The interpretation of this value depends on the sensor type which can be queried with the getTypeSpec() method.

Mappings for typical sensor types are:

Sensor Type States
CONTACT_CLOSURE normal(0), alarmed(1)
ON_OFF_SENSOR off(0), on(1)
TRIP_SENSOR open(0), close(1)
VIBRATION normal(0), alarmed(1)
WATER_LEAK normal(0), alarmed(1)
SMOKE_DETECTOR normal(0), alarmed(1)
FAULT_STATE OK(0), fault(1)
OCCUPANCY normal(0), alarmed(1)
TAMPER normal(0), alarmed(1)
DOOR_LOCKSTATE open(0), close(1)
DOORHANDLE_LOCK open(0), close(1)
DOORHANDLE_SWITCH open(0), close(1)

For some special sensors there are constants defining the possible state values, for instance in PowerQualitySensor::idl or ResidualCurrentStateSensor::idl.

Member Function Documentation

◆ getState()

State sensors::StateSensor::getState ( )

Get the sensor state.

Returns
Sensor state

The documentation for this interface was generated from the following file: