| Id | Name | Aspect | Definition | ||
|---|---|---|---|---|---|
| SourceResistance | Source.Resistance | electric resistance | The process of sourcing electrical Resistance of a device either fixed or simulated. | ||
| SourceTemperature | Source.Temperature | thermodynamic temperature | The process of generating a physical temperature to be measured by a device. | ||
| SourceTemperatureFixedPoint | Source.Temperature.FixedPoint | thermodynamic temperature | The process of generating a physical temperature buy observing the triple point or melting point of a specified substance under a known pressure or atmosphere. Wiki - Triple Point Guide to the realization of the ITS-90 {Acetylene, Aluminum, Ammonia, Argon, Arsenic, Butane, Carbon, Carbon dioxide, Carbon monoxide, Chloroform, Coper, Deuterium, Ethane, Ethanol, Ethylene, Formic acid, Helium-4, Hexafluoroethane, Hydrogen, Hydrogen chloride, Indium, Iodine, Isobutane, Krypton, Mercury, Methane, Neon, Nitric oxide, Nitrogen, Nitrous oxide, Oxygen, Palladium, Platinum, Radon, Silver, Sulfur dioxide, Tin, Titanium, Uranium hexafluoride, Water, Xenon, Zinc} | ||
| SourceTemperatureRadiometric | Source.Temperature.Radiometric | thermodynamic temperature | The process of generating an infrared temperature on a block body to be measured by an infrared measuring device. | ||
| SourceTemperatureSimulatedPRT | Source.Temperature.Simulated.PRT | thermodynamic temperature | The process of generating resistance simulating temperature to be measured by a PRT or SPRT temperature measuring device. | ||
| SourceTemperatureSimulatedRTD | Source.Temperature.Simulated.RTD | thermodynamic temperature | The process of generating resistance simulating temperature to be measured by an RTD temperature measuring device. | ||
| SourceTemperatureSimulatedThermocouple | Source.Temperature.Simulated.Thermocouple | thermodynamic temperature | The process of generating a simulated temperature in voltage representing a temperature to be measured by a device. | ||
| SourceTimeMarker | Source.Time.Marker | time | The process of generating a period-stable pulsed marker waveform. | ||
| SourceTimeSquarewave | Source.Time.Squarewave | time | The process of generating a period-stable square waveform. | ||
| SourceTorque | Source.Torque | A test process of generating a known torque. | |||
| SourceVoltageACSinewave | Source.Voltage.AC.Sinewave | electric potential difference | The process of sourcing a sinusoidal AC Voltage signal from a device and measuring the value on the UUT. This test process can be used by any device that measures absolute AC Voltage. | ||
| SourceVoltageDC | Source.Voltage.DC | electric potential difference | The process of sourcing a DC (Direct Current) voltage from a device and measuring the value on the UUT. | ||
| SourceVoltageDCDeltaVoltage | Source.Voltage.DC.Delta.Voltage | electric potential difference | The process of sourcing 2 DC (Direct Current) voltage signals. First the VoltsRef signal is sourced and measured on the UUT, that value is stored as reference. Then the test Volts signal is sourced and measured on the UUT and stored as reading. The test result is returned as (reading – reference). These two voltage signals are often used when calibrating the DC gain of a device such as an Oscilloscope. | ||
| SourceVoltageNoiseTerminated | Source.Voltage.Noise.Terminated | electric potential difference | This process connects a Termination to the input of a measurement device to measure the no signal applied voltage /noise at the inpu. The test process is typically used to measure the UUT’s internal noise and offsets. | ||
| SourceVoltageShorted | Source.Voltage.Shorted | electric potential difference | This process connects a Short to the input of a measurement device and measures the no signal applied Voltage. This is The test process is typically used to measure the UUT’s Zero Volts DC floor values. |