| Id | Name | Aspect | Definition | ||
|---|---|---|---|---|---|
| MeasureAcceleration | Measure.Acceleration | acceleration | To measure the acceleration or deceleration / the change in velocity of a body. (m/s²) | ||
| MeasureCapacitance | Measure.Capacitance | capacitance | The measurement of the capacitance of a device. | ||
| MeasureConductance | Measure.Conductance | electric conductance | The process of measuring the Electrical Conductance of a device. | ||
| MeasureConductivity | Measure.Conductivity | conductivity | The process of measuring the Electrical Conductivity of a Solution or a device. | ||
| MeasureCurrentAC | Measure.Current.AC | electric current | The process measures the AC Current sourced by a device without knowing the shape of the signal. Values can only be tested in RMS because the shape of the signal is unknown. | ||
| MeasureCurrentACSinewave | Measure.Current.AC.Sinewave | electric current | The process measures the AC Current sourced by a device without knowing the shape of the signal is a sinewave. Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak. | ||
| MeasureCurrentACSquarewave | Measure.Current.AC.Squarewave | electric current | The process measures the Squarewave Current sourced by a device with the assumption it is generating an AC Squarewave. Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak. | ||
| MeasureCurrentACTrianglewave | Measure.Current.AC.Trianglewave | electric current | The process measures the Alternating Current sourced by a device with the assumption it is generating an AC Trianglewave. Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak. | ||
| MeasureCurrentDC | Measure.Current.DC | electric current | The process measures the Direct Current (or DC) sourced by a device. | ||
| MeasureDensity-MassGas | Measure.Density-Mass.Gas | Test Process that measures a gas’s density as defined by the amount of mass present in a specified volume of gas at a given temperature and pressure. Gases are extremely responsive to temperature and pressure, causing their densities to change rather quickly. Measuring the density of gas the Ideal Gas Law (P*V = nRT) must be taken into account. ** Includes non-uniformity | |||
| MeasureDensity-MassLiquid | Measure.Density-Mass.Liquid | Test Process that measures a liquid’s density as defined by the amount of mass present in a specified volume of liquid at a given temperature. Temperature affects density, as does the pressure to the extent that the liquid compresses. In, liquids deemed sufficiently incompressible, the volume does not depend on pressure. ** Includes non-uniformity and voids (if any) | |||
| MeasureDensity-MassSolid | Measure.Density-Mass.Solid | Test Process that measures a solid’s density as defined by the amount of mass present in a specified volume temperature. Temperature affects density as solids expand and contract according to their temperature coefficients. ** Includes voids and non-uniformity | |||
| MeasureForce | Measure.Force | force | Test Process that measures the Force as defined as mass times acceleration (F = m * a). The formula describes a free mass or the net force on any mass. Dead-weight force measurements depend on true mass, specific location’s influences, such as local gravity, air buoyancy, and material density are often needed. Equal but opposite forces counteract to cancel any net motion or acceleration, but result in a deformation of the objects which can be measured. This test process is typically used to calibrate devices like primary deadweight standards and transfer standards. When measuring the mass of a physical object See Measure.Mass.True | ||
| MeasureFrequency | Measure.Frequency | frequency | The process of measuring the frequency of a signal. | ||
| MeasureFrequencyFrequencyModulationRate | Measure.Frequency.FrequencyModulation.Rate | frequency | The process of measuring the Demodulated Rate of a Frequency Modulated (FM) Signal. | ||
| MeasureFrequencyAmplitudeModulationRate | Measure.Frequency.AmplitudeModulation.Rate | frequency | The process of measuring the demodulated frequency rate of an Amplitude Modulate (AM) signal. | ||
| MeasureFrequencyArbitraryCardiograph | Measure.Frequency.Arbitrary.Cardiograph | frequency | The process of generating an arbitrary Cardiograph waveform the Capacitance of a device. | ||
| MeasureFrequencyFrequencyModulationDeviation | Measure.Frequency.FrequencyModulation.Deviation | frequency | This process measures the Deviation Frequency of a Frequency Modulated (FM) signal. The deviation is used to describe the maximum difference between an FM modulated frequency and the nominal carrier frequency | ||
| MeasureFrequencyPhaseModulationRate | Measure.Frequency.PhaseModulation.Rate | frequency | The process of measuring the demodulated frequency rate of a phase-modulated RF signal. | ||
| MeasureImpedance | Measure.Impedance | The process of measuring the impedance of a device. |