Modeling and characterization of microwave resonant-cap circuits

The design of optimized resonant-cap circuits for IMPATT ( ) oscillators and amplifiers at X-band 8᎐12 GHz based on experimental results has been reported in this paper. The microwa¨e power output ( ) ( ) f 1 W of the oscillator and the gain f 20 dB of the amplifier realized with the IMPATT de¨ice m

In this article, a recurrent neural network (RNN) method is employed for dynamic time-domain modeling of both linear and nonlinear microwave circuits. An automated RNN modeling technique is proposed to efficiently determine the training waveform distribution and internal RNN structure during the off

## Abstract In this paper, a numerical technique suitable for characterizing a wide variety of interconnection configurations printed on cylindrical surfaces, is presented. The interconnection lines may have either finite or infinitesimal cross‐sections. To model cylindrical interfaces, suitable sp

A novel domain-partitioning approach (DPA) is presented forfield-theoretical modeling and for the design of arbitrarily shaped microwace circuit problems. The new technique is deriued from u finite-dijference sfrakgy with networking interconnections. Simple examplex are demonstrated and compared wit

## Abstract The finite‐difference time‐domain (FDTD) field simulations have been employed to visualize standing‐wave patterns in single‐layer, rectangular, planar capacitors and capacitor chips. These patterns are used for the analysis of the resonant mode types, and for the determination of the re