Electronically switchable lowpass/bandpass Filter with Controlled Bandwidth using Pin Diode- Loaded stubs
International Journal of Scientific & Engineering Research • 2016
Publication Information
Authors
32. H.A. Mohammed and A. S. Mohra
Keywords
Lowpass filter, Bandpass filter, RF PIN diode, stepped impedance resonators (SIRs), switchable
Journal
International Journal of Scientific & Engineering Research
Publisher
Not Available
Volume
7
Issue
6
Pages
Not Available
publication.type
International
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
Electronically switchable and reconfigurable microwave devices such as filters are in great demand for wireless communication
systems. The switchable Lowpass/Bandpass filter (LPF/BPF) can be used to control the spectrum of proposed signals and support
multiple information channels. The PIN diodes are used to achieve exchange between the lowpass filter and bandpass filter with
tunable bandwidth. The lowpass filter concept is demonstrated by ninth-order Chebyshev-type using stepped impedance resonators. as
the number of diodes used increase as the roll off at the two 3dB frequency for bandpass is modified, with a little decrease in the bandwidth
due to the shift of lower 3dB frequency to higher value, while the upper 3-dB frequency is nearly remain constant around 11 GHz.
The switchable LPF/BPF is designed, fabricated and measured. Experimental results are in good agreement with the simulated results
for each of the lowpass and bandpass filters response.
systems. The switchable Lowpass/Bandpass filter (LPF/BPF) can be used to control the spectrum of proposed signals and support
multiple information channels. The PIN diodes are used to achieve exchange between the lowpass filter and bandpass filter with
tunable bandwidth. The lowpass filter concept is demonstrated by ninth-order Chebyshev-type using stepped impedance resonators. as
the number of diodes used increase as the roll off at the two 3dB frequency for bandpass is modified, with a little decrease in the bandwidth
due to the shift of lower 3dB frequency to higher value, while the upper 3-dB frequency is nearly remain constant around 11 GHz.
The switchable LPF/BPF is designed, fabricated and measured. Experimental results are in good agreement with the simulated results
for each of the lowpass and bandpass filters response.
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