论文信息 - High-Frequency High-Power Operation of Tunnel Diodes

High-Frequency High-Power Operation of Tunnel Diodes

The operation of oscillators using high-current tunnel diodes above their self-resonant frequency is presented. General stability conditions of the tunnel diode, including external circuits (lumped and distributed), are discussed. Based on a nonlinear analysis of a tunnel-diode oscillator, the power generated by the diode, the power dissipated within the diode and the power delivered to an external load are calculated as a function of frequency and loading conditions. For operation above the self-resonant frequency, the suppression of unwanted LF oscillations is necessary. Experimental results of an oscillator circuit operating at 2-3 Gc with the suppression of LF oscillation are described. Data on the high-current tunnel diodes (50 \sim 100 ma) used are given.

C. Kim | A. Brandli | C. Kim | A. Brandli

[1] C. Brunetti,et al. The Clarification of Average Negative Resistance with Extensions of Its Use , 1937, Proceedings of the Institute of Radio Engineers.

[2] F. Sterzer,et al. Tunnel-diode microwave oscillators with milliwatt power outputs , 1960 .

[3] M. Hines,et al. High-frequency negative-resistance circuit principles for Esaki-diode applications , 1960 .

[4] R. Trambarulo,et al. Some X-band microwave Esaki-diode circuits , 1961 .

[5] C. Kim,et al. High-frequency and high-power operation of tunnel diodes , 1961 .

[6] G. Dermit. High-Frequency Power in Tunnel Diodes , 1961, Proceedings of the IRE.