HF Filter Design and Computer SimulationA book for engineers who design and build filters of all types, with emphasis on lumped element, microstrip, stripline, and machined filters. It reviews classic and modern filter design techniques and it contains extensive practical design information of passband characteristics, topologies and transformations, and component effects and matching. |
Contents
Network Fundamentals | 11 |
Reactors and Resonators | 51 |
Transformations | 145 |
Copyright | |
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Common terms and phrases
90 degrees all-pole approximately attenuation bandpass filter bandwidth capacitance capacitors Cauer-Chebyshev center frequency characteristic impedance Chebyshev circuit file coaxial coefficient combline component conductor cutoff frequency DEF2P diameter dielectric constant discontinuities electrical length elliptic bandpass elliptic lowpass equation etch factor evanescent mode F1-Hlp F2-Save F3-Opt F2-Save F3-Opt F4-Tune F3-Opt F4-Tune F6-Next F4-Tune F6-Next F8-Edit File Tuning Optimize filter structures FREQ SWP given in Figure GPH S21 group delay hairpin highpass inches increased inductance inductor input insertion loss Layout line impedance line lengths line widths loading capacitors lowpass filter lowpass prototype M/FILTER microstrip O=SY ohms Optimize Statistics Utilities output parameters passband PTFE radiation ratio reactance reentrance relative dielectric constant return loss ripple series inductors shunt capacitors simulation slabline solenoid spacing stepped-impedance lowpass stopband stripline stub SuperStar transfer function transmission line Tuning Optimize Statistics unloaded Q values voltage W=Whi W=WI waveguide WINDOW