Title :
Embedded Transformed Radial Stub Cell for BPF With Spurious-Free Above Ten Octaves
Author :
Kaixue Ma ; Shouxian Mou ; Keping Wang ; Kiat Seng Yeo
Author_Institution :
Virtus IC Design Center of Excellence, Nanyang Technol. Univ., Singapore, Singapore
Abstract :
An embedding cell approach for design of a filter with ultrawide-band rejection and compact size is introduced and investigated. A bandpass filter (BPF) topology design based on the transformed radial stub (TRS) cell embedded resonator (CER) is proposed for the high-performance filter design. The implemented 1.7-GHz BPF with a fractional bandwidth of 1.2% using the TRS CER demonstrates more than 45 dB rejection up to 10.8f0 i.e., 18 GHz. The implemented 1.9-GHz BPF with fractional bandwidth 21% demonstrates 40-dB rejection from 4 to 19 GHz (10f0). The measured passband insertion loss is 2.7 dB, and group delay is around 2.5 nS. The size of the 1.9-GHz fourth-order filter is only 0.408g×0.33 λg, (λg is the guide wavelength at center cutoff frequency) without using any lumped elements.
Keywords :
UHF filters; band-pass filters; embedded systems; network topology; resonator filters; BPF; CER; UHF filters; band-pass filter topology design; cell embedded resonator; embedding cell approach; fourth-order filter; frequency 1.7 GHz; frequency 1.9 GHz; frequency 4 GHz to 19 GHz; group delay; loss 2 dB; transformed radial stub; ultrawide-band rejection; Band pass filters; Bandwidth; Couplings; Impedance; Passband; Resonant frequency; Transmission line matrix methods; Band-pass filter BPF; embedding cell method; hairpin resonator; microstrip; radial stub; transformed radial stub TRS; wide stopband;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2013.2240768
