Design and implementation of a band-pass filter using dielectric resonators with a new excitation structure

2011 ◽  
Vol 5 (12) ◽  
pp. 1416 ◽  
Author(s):  
M.J. Kazemi ◽  
M.S. Dadash ◽  
R. Safian
Keyword(s):  
Dielectric Resonators ◽  
Band Pass Filter ◽  
Pass Filter ◽  
Design And Implementation ◽  
Band Pass

Design and Implementation of a Single Clock Dual-Band Switched-Capacitor Filter

2014 ◽  
Vol 705 ◽  
pp. 195-198
Author(s):  
Ying Liu ◽  
Jiang Hua Song ◽  
Jia Ning Cui ◽  
Ying Wang ◽  
Tie Liu Wang
Keyword(s):  
Frequency Characteristic ◽  
Dual Band ◽  
Switched Capacitor ◽  
Band Pass Filter ◽  
Pass Filter ◽  
Amplitude Frequency Characteristic ◽  
Design And Implementation ◽  
Band Pass ◽  
Switched Capacitor Filters ◽  
Selection Of

This paper introduces two bands switched capacitor filters which are realized by using a single clock. The chip is LTC1068 that contains four 2 order band-pass filter. By reasonable selection of working mode and clever collocation of resistances to realize two 4 order band-pass filter which used in acoustic receiving amplifier circuit. Amplitude-frequency characteristic curves are tested in paper by frequency sweeper.

scholarly journals Low-loss and tunable millimeter-wave filters using spherical dielectric resonators

2020 ◽  
pp. 1-5
Author(s):  
Utpal Dey ◽  
Julio Gonzalez Marin ◽  
Jan Hesselbarth
Keyword(s):  
Millimeter Wave ◽  
Insertion Loss ◽  
Integrated Circuit ◽  
Circuit Board ◽  
Dielectric Resonators ◽  
Band Pass Filter ◽  
Wave Band ◽  
Pass Filter ◽  
Millimeter Wave Band ◽  
Band Pass

Abstract Millimeter-wave band-pass filters using spherical dielectric resonators are presented. The dielectric spheres are sandwiched between metal plates and are excited by a simple microstrip line structure on a thin-film circuit board. As such, these filters could also be implemented in the back-end-of-line layers of an integrated circuit. A single resonator, based on a diameter 0.6 mm alumina ceramic sphere, is shown to resonate with high unloaded Q-factor of 750 at 170 GHz. A three-sphere band-pass filter is measured showing <5 dB insertion loss and 0.4% bandwidth at 170 GHz. A concept for mechanically tuning of a two-sphere band-pass filter is demonstrated for a filter operating around 105 GHz. The measured filter shows approximately 5 dB insertion loss and <0.5% bandwidth and its passband can be varied over 3 GHz of frequency, or 3%. Technological challenges are discussed.

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