A test process that measures the difference 2 sinusoidal AC sinewave signals at different frequencies while keeping the voltage level constant. The two measured values are compared, the results can be expressed as delta volts, dB or percent of change.
These two signals are often used when calibrating flatness of a device.
A test process that measures the difference 2 sinusoidal AC sinewave signals at different voltage levels keeping the frequency constant. The two measured values are compared, the results can be expressed as delta volts, dB or percent of change.
These two signals are often used when calibrating linearity of a device.
A test process that measures the difference 2 sinusoidal RF signals at different power levels keeping the frequency constant. The two measured values are compared, the results can be expressed as Delta dB or percent of change.
These two signals are often used when calibrating the linearity of a device.
A test process that measures the difference between 2 sinusoidal RF signals at different frequencies while keeping the power levels constant. The two measured values are compared, the results can be expressed as dB or percent of change.
These two signals are often used when calibrating flatness of a signal generator or similar device. (more…)
The process of sourcing a sinusoidal DC 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. (more…)
The process of sourcing 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. (more…)
The process of sourcing a sinusoidal AC Power signal from a device and measuring the value on the UUT.
This test process can be used by any device that measures absolute AC power. (more…)
A test process that sources 2 sinusoidal RF signals at different power levels keeping the frequency constant. The PowerRef signal is sourced and the power is measured by the UUT and saved as the Reference value. Then the power level is changed and the test value is measured on the UUT. The two measured values are compared, the results can be expressed as Delta dB or percent of change.
These two sinusoidal signals are often used when calibrating linearity of a device.
A test process the sources 2 sinusoidal RF signals at different frequencies keeping the power levels constant between the two frequencies. The FrequencyRef signal is sourced and the voltage is measured by the UUT and saved as the Reference value. Then the signal is changed to the test Frequency signal and the test value is measured on the UUT. The two measured values are compared, the results can be expressed as dB or percent of change.
These two sinusoidal signals are often used when calibrating bandwidth or frequency response on an Oscilloscope or similar device. (more…)
The process of measuring the time between two events.
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