论文信息 - Design of impedance‐matching networks for microwave and millimeter‐wave amplifier applications

Design of impedance‐matching networks for microwave and millimeter‐wave amplifier applications

In this paper, the design of impedance-matching networks by distributed network synthesis is presented to achieve high-efficiency characteristics of microwave and millimeter-wave amplifiers. The transfer function for distributed network structures with an arbitrary electrical length is derived by the Chebyshev approximation. The values of network elements synthesized to match a load impedance are tabulated in terms of the minimum insertion loss (MIL) and ripple parameters. To validate the performance of matching circuits by the network synthesis, the results are applied to the design of an octave-band microwave transistor amplifier. © 2000 John Wiley & Sons, Inc. Microwave Opt Technol Lett 27: 109–113, 2000.

Nam-Tae Kim | Nam-Tae Kim

[1] Walter H. Ku,et al. Transfer Function Approximations for a New Class of Bandpass Distributed Network Structures , 1977 .

[2] Lizhong Zhu,et al. Real frequency technique applied to the synthesis of lumped broad-band matching networks with arbitrary nonuniform losses for MMICs , 1988 .

[3] J. L. Allen,et al. Broad-Band GaAs FET Amplifier Design Using Negative-Image Device Models , 1979 .

[4] R. Levy,et al. Synthesis of Mixed Lumped and Distributed Impedance-Transforming Filters , 1972 .

[5] Rodney S. Tucker. Gain-Bandwidth Limitations of Microwave Transistor Amplifiers , 1973 .

[6] Walter H. Ku,et al. Optimum gain-bandwidth limitations of transistor amplifiers as reactively constrained active two-port networks , 1975 .

[7] C. Liechti,et al. Design and Performance of Microwave Amplifiers with GaAs Schottky-Gate Field-Effect Transistors , 1974 .

[8] E. M. Jones,et al. Microwave Filters, Impedance-Matching Networks, and Coupling Structures , 1980 .

[9] William T. Joines,et al. Using parallel resonators to create improved maximally flat quarter-wavelength transformer impedance-matching networks , 1999 .

[10] H. Carlin. A new approach to gain-bandwidth problems , 1977 .