Abstract :
A method of finding the resistance and conductance of a diode terminating the coaxial arm of a tee junction from the minimum transmission obtained by adjusting the position of the diode, from the effect of an incremental change in this position, or from the frequency bandwidth of the transmission characteristic, is described. The method avoids the direct measurement of high reflection encountered at the extremes of bias with diode terminations. The parameters of the junction needed in the derivation are found experimentally. Allowing for loss in the coaxial line, the resistance of diodes determined at 9.4 GHz was in good agreement with the results of coaxial line measurements at 500 MHz and 3 GHz. The effect of the reactances of the diode capsule, not allowed for in the determination, is considered briefly
Keywords :
coaxial cables; electric resistance measurement; microwave diodes; microwave measurement; semiconductor device testing; waveguide discontinuities; 500 MHz to 9.4 GHz; diode conductance; diode resistance; diode terminations; minimum transmission; transmission characteristic; waveguide/coaxial line tee junction; Bandwidth; Circuits; Coaxial components; Diodes; Electrical resistance measurement; Frequency; Reflection; Voltage; Waveguide junctions; Waveguide transitions;
