Title :
Error-corrected large-signal waveform measurement system combining network analyzer and sampling oscilloscope capabilities
Author :
Kompa, Günter ; Raay, Friedbert Van
Author_Institution :
Dept. of High-Frequency Eng., Kassel Univ., West Germany
fDate :
4/1/1990 12:00:00 AM
Abstract :
A large-signal automatic stepped CW waveform measurement system for nonlinear device characterization is presented that combines the high accuracy of a vector network analyzer with the waveform measurement capabilities of a sampling oscilloscope. A large-signal error model and a corresponding coaxial calibration procedure are proposed to describe the systematic errors of the measurement setup. The error parameters and the correction algorithm are independent of the properties of the RF generator. System accuracy is investigated by Schottky diode verification measurements with different offsets from the reference plane. GaAs MESFET reflection and transmission response measurements with error correction extended to the planar device under test (DUT) reference planes are given
Keywords :
automatic testing; calibration; electric variables measurement; error correction; microwave measurement; network analysers; oscilloscopes; semiconductor device testing; solid-state microwave devices; 1 to 7.5 GHz; DUT reference planar; GaAs; MESFET reflection response measurement; SHF; Schottky diode verification measurements; UHF; automatic stepped CW waveform measurement; coaxial calibration procedure; correction algorithm; error correction; error parameters; large-signal error model; large-signal waveform measurement system; nonlinear device characterization; sampling oscilloscope; transmission response measurements; vector network analyzer; Calibration; Coaxial components; Error correction; Gallium arsenide; MESFETs; Oscilloscopes; Radio frequency; Reflection; Sampling methods; Schottky diodes;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
