Title :
A New NVNA Phase Reference for Polyharmonic Intermodulation Measurements
Author :
Yichi Zhang ; Maoliu Lin
Author_Institution :
Sch. of Electron. Inf. Eng., Harbin Inst. of Technol., Harbin, China
Abstract :
The step-recovery-diode-based impulse generator is a classical picosecond-level impulse-formation technique, whose strong harmonic nonlinearity under sinusoidal stimulus is widely utilized as the phase reference of the nonlinear vector network analyzer (VNA) (NVNA) and large-signal network analyzer for wideband measurements. This paper further exploits its intermodulation nonlinearity under multitone stimulus and proposes a new approach, rather than the traditional “harmonic” way, of the NVNA phase reference for future polyharmonic intermodulation measurements. Experimental results show that this method can provide plentiful intermodulation components around each harmonic available and is stable for NVNA use, with the advantages of flexible local frequency-resolution setup from tens of megahertz to less than hundreds of hertz.
Keywords :
charge storage diodes; harmonic analysis; intermodulation measurement; network analysers; nonlinear network analysis; pulse generators; NVNA phase reference; flexible local frequency resolution setup; harmonic nonlinearity; intermodulation nonlinearity; large-signal network analyzer; multitone stimulus; nonlinear VNA; nonlinear vector network analyzer; picosecond level impulse formation technique; polyharmonic intermodulation measurements; sinusoidal stimulus; step recovery diode-based impulse generator; wideband measurements; Current measurement; Generators; Harmonic analysis; Oscilloscopes; Phase measurement; Time domain analysis; Vectors; Harmonic; impulse generator; intermodulation; multitone stimulus; nonlinear vector network analyzer (VNA) (NVNA); phase reference; step recovery diode (SRD);
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2013.2237997
