Metrology Taxonomy

The process measures the Power of a DC  signal sourced by a device.     

Required Parameters

• Watts– W

Optional Parameters

• Volts – V
• Amps – A
• UUT.Output – Output  Name of the UUT Connecting Point

Measured Value & Uncertainty

• Watts

The process measures the Power of an AC Sinewave signal sourced by a device.     

Required Parameters

• Watts– W
• Frequency – Hz

Optional Parameters

• Volts – V
• Amps – A
• UUT.Output  – Output Name of the UUT Connecting Point

Measured Value & Uncertainty

• Watts

The process of sourcing 2 legs of a sinusoidal AC Power signal from a device where the Volts and Amps are provided on two different outputs and measured by the UUT as Watts / Power.

This test process can be used by any device that measures AC power with separate voltage and current inputs.

Required Parameters

• Volts – RMS
• Amps – A
• Frequency – Hz

Optional Parameters

• Phase – Deg
• PowerFactor – Ratio
• UUT.Input – Input Name of the UUT Connecting Point

Output Value & Uncertainty

• Watts – W

The process of sourcing 3 legs of a sinusoidal AC Power signal from a device where the Volts and Amps are provided on two different outputs and measured by the UUT as Watts / Power.

This test process can be used by any device that measures AC power with separate voltage and current inputs.

Required Parameters

• Volts – RMS
• Amps – A
• Frequency – Hz

Optional Parameters

• Phase – Deg
• PowerFactor – Ratio
• UUT.Input – Input Name of the UUT Connecting Point

Output Value & Uncertainty

• Watts – W

The process of sourcing a 2 Sinusoidal Alternating Current signals on 2 legs.  

Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak.

Required Parameters

• Amps – A
• Frequency – Hz

Optional Parameters

• Phase –
• UUT.Input – Input Name of the UUT Connecting Point

Measured Value & Uncertainty

• Amps

The process of sourcing a 3 Sinusoidal Alternating Current signals on 3 legs.  

Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak.

Required Parameters

• Amps – A
• Frequency – Hz

Optional Parameters

• Phase –
• UUT.Input – Input Name of the UUT Connecting Point

Measured Value & Uncertainty

• Amps

The process measures a single leg’s Alternating Current sourced by a 2 Phase device with the assumption it is generating an AC Sinewave.  

Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak.

Required Parameters

• Amps – A
• Frequency – Hz
• Leg – {1,2}

Optional Parameters

• UUT.Output– Output Name of the UUT Connecting Point

Measured Value & Uncertainty

• Amps

The process measures a single leg’s Alternating Current sourced by a 3 Phase device with the assumption it is generating an AC Sinewave.  

Knowing the shape of the waveform allows the system to make conversions from RMS to PeakToPeak.

Required Parameters

• Amps – A
• Frequency – Hz
• Leg – {1,2,3}

Optional Parameters

• UUT.Output – Output Name of the UUT Connecting Point

Measured Value & Uncertainty

• Amps

The process measures the AC RMS (Root-Mean-Square) voltage of a single leg sourced by the UUT’s 3 phase voltage output.  

Because the shape is known the values can be converted to Volts PeakToPeak.

Required Parameters

• Volts –
• Frequency
• Leg – {1,2,3}

Optional Parameters

• UUT.Output – Output Name of the UUT Connecting Point

Measured Value & Uncertainty

• Volts

The process measures the AC RMS (Root-Mean-Square) voltage of a single leg sourced by the UUT’s 2 phase voltage output.  

Because the shape is known the values can be converted to Volts PeakToPeak.

Required Parameters

• Volts –
• Frequency
• Leg – {1,2}

Optional Parameters

• UUT.Output – Output Name of the UUT Connecting Point

Measured Value & Uncertainty

• Volts