In an embodiment, a method for measuring passive intermodulation (PIM) associated with a device under test (DUT) includes generating a test signal using a measuring instrument and obtaining measurements of PIM for the DUT. The test signal comprises two or more tones each amplified to a target output
In an embodiment, a method for measuring passive intermodulation (PIM) associated with a device under test (DUT) includes generating a test signal using a measuring instrument and obtaining measurements of PIM for the DUT. The test signal comprises two or more tones each amplified to a target output power by a respective amplifier according to a duty cycle. Measurements are obtained by the measuring instrument during an active portion of each duty cycle over a sweep of frequencies. PIM is calculated for the DUT by averaging a plurality of measurements obtained for each frequency from the sweep of frequencies. The duty cycle is determined based on the target output power.
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1. A method for calculating passive intermodulation (PIM) associated with a device under test (DUT) using a measuring instrument configured to generate test signals, the method comprising: generating, using the measuring instrument, a test signal comprising two or more tones each amplified to a targ
1. A method for calculating passive intermodulation (PIM) associated with a device under test (DUT) using a measuring instrument configured to generate test signals, the method comprising: generating, using the measuring instrument, a test signal comprising two or more tones each amplified to a target output power by a respective amplifier according to a duty cycle;wherein the duty cycle is selected based on a target average power consumption of the measuring instrument;obtaining, using the measuring instrument, a plurality of measurements of PIM over a sweep of frequencies, wherein a measurement of PIM is obtainable during an active portion of a period determined by the duty cycle;calculating PIM associated with the DUT by averaging a plurality of measurements of PIM obtained for each frequency from the sweep of frequencies; andupon reducing the target output power of the two or more tones, increasing the duty cycle to thereby increase measurements of PIM for each frequency from the sweep of frequencies;wherein the duty cycle is increased such that average power consumption of the measuring instrument is at or below the target average power consumption. 2. The method of claim 1, wherein the duty cycle is selected using one of a formula and a look-up table. 3. The method of claim 1, wherein the duty cycle is further selected based on a receiver sensitivity of the measuring instrument. 4. The method of claim 1, wherein the duty cycle is varied inversely and linearly with the target output power of the two or more tones. 5. The method of claim 1, wherein the duty cycle is selected so that, for a range of target output powers, the average power consumption of the measuring instrument for generating the test signal is substantially constant as target output power is varied. 6. A measuring instrument for calculating passive intermodulation (PIM) associated with a device under test (DUT), the system comprising: a signal generator for generating test signals;a computer readable non-transitory storage medium and processor operating thereon, wherein the computer readable non-transitory storage medium includes instructions that when executed in response to user input cause the measuring instrument to generate a test signal comprising two or more tones each amplified to a target output power by a respective amplifier according to a duty cycle,wherein the duty cycle is selected based on a target average power consumption of the measuring instrument;obtain a plurality of measurements of PIM over a sweep of frequencies, wherein a measurement of PIM is obtainable during an active portion of a period determined by the duty cycle;calculate PIM associated with the DUT by averaging a plurality of measurements of PIM obtained for each frequency from the sweep of frequencies; andupon reducing the target output power of the two or more tones, increasing the duty cycle to thereby increase measurements of PIM for each frequency from the sweep of frequencies;wherein the duty cycle is increased such that average power consumption of the measuring instrument is at or below the target average power consumption. 7. The measuring instrument of claim 6, wherein the duty cycle is selected using one of a formula and a look-up table. 8. The measuring instrument of claim 6, wherein the duty cycle is further selected based on a receiver sensitivity of the measuring instrument. 9. The method of claim 6, wherein the duty cycle is selected so that, for a range of target output powers, the average power consumption of the measuring instrument for generating the test signal is substantially constant as target output power is varied. 10. A method for measuring passive intermodulation (PIM) associated with a device under test (DUT) using a measuring instrument configured to generate test signals, the method comprising: performing a measurement of PIM, using the measuring instrument, by generating a test signal comprising two or more tones each amplified by an amplifier to have a first target output power;wherein the amplifiers consume direct current (DC) power to amplify the two or more tones;switching the amplifiers on or off according to a duty cycle;wherein an average DC power is consumed over the duty cycle; andreducing a noise floor of the measuring instrument by reducing the first target output power of the two or more tones to a second target output power, and increasing the duty cycle;wherein the duty cycle is increased such that the average DC power consumed by the amplifiers to amplify the two or more tones to the second target output power is approximately the same as the average DC power consumed by the amplifiers to amplify the two or more tones to the first target output power. 11. The method of claim 10, wherein the duty cycle is selected using one of a formula and a look-up table based on the target output power. 12. The method of claim 10, wherein the duty cycle is further selected based on a receiver sensitivity of the measuring instrument. 13. The method of claim 1, further comprising processing measurements and displaying results when the respective amplifier of each tone is inactive. 14. The measuring instrument of claim 6, wherein the computer readable non-transitory storage medium includes instructions that cause the measuring instrument to process measurements and display results when the respective amplifier of each tone is inactive. 15. The method of claim 10, further comprising processing measurements and displaying results when the respective amplifier of each tone is inactive. 16. The method of claim 1, wherein the duty cycle is one of selected automatically by the measuring instrument, andselected manually by a user of the measuring instrument. 17. The measuring instrument of claim 6, wherein the computer readable non-transitory storage medium includes instructions that one of automatically selects the duty cycle, andreceives the duty cycle selected manually by a user of the measuring instrument.
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