Journal ArticleDOI
A 60-GHz Millimeter-Wave Bandpass Filter Using 0.18- $\mu\hbox{m}$ CMOS Technology
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TLDR
In this article, the authors presented the design and implementation of a 60 GHz millimeter-wave RF-integrated-circuit-on-chip bandpass filter using a 0.18mum standard CMOS process.Abstract:
This letter presents the design and implementation of a 60-GHz millimeter-wave RF-integrated-circuit-on-chip bandpass filter using a 0.18-mum standard CMOS process. A planar ring resonator structure with dual-transmission zeros was adopted in the design of this CMOS filter. The die size of the chip is 1.148times1.49 mm2. The investigations of sensitivity to the insertion loss and the passband bandwidth for different perturbation stub sizes are also studied. The filter has a 3-dB bandwidth of about 12 GHz at the center frequency of 64 GHz. The measured insertion loss of the passband is about 4.9 dB, and the return loss is better than 10 dB within the passband.read more
Citations
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Journal ArticleDOI
High-Performance Shielded Coplanar Waveguides for the Design of CMOS 60-GHz Bandpass Filters
TL;DR: In this paper, the authors presented optimized very high performance CMOS slow-wave shielded CPW transmission lines (S-CPW TLines), which were used to realize a 60 GHz bandpass filter, with T-junctions and open stubs.
Journal ArticleDOI
Miniaturized 60-GHz On-Chip Multimode Quasi-Elliptical Bandpass Filter
TL;DR: In this article, a 60 GHz on-chip multimode bandpass filter (BPF) is implemented using a sandwich capacitor, which shows functions of multimode perturbation and stopband control in the BPF design.
Journal ArticleDOI
Compact Millimeter-Wave CMOS Bandpass Filters Using Grounded Pedestal Stepped-Impedance Technique
Shuen-Chien Chang,Yi-Ming Chen,Sheng-Fuh Chang,Yng-Huey Jeng,Chia-Liang Wei,Chun-Hao Huang,Chih-Pin Jeng +6 more
TL;DR: In this article, a stepped-impedance resonator and stubs are used to achieve good stopband suppression attributed from the existence of transmission zeros in millimeter-wave bandpass filters.
Journal ArticleDOI
A Millimeter-Wave CPW CMOS On-Chip Bandpass Filter Using Conductor-Backed Resonators
TL;DR: In this article, a millimeter-wave 35 GHz bandpass filter using coplanar waveguide structure is fabricated in a 0.18-m standard complimentary metal oxide semiconductor process.
Journal ArticleDOI
A 60-GHz CMOS Sub-Harmonic RF Receiver With Integrated On-Chip Artificial-Magnetic-Conductor Yagi Antenna and Balun Bandpass Filter for Very-Short-Range Gigabit Communications
TL;DR: The presented integrated RF receiver will be very useful for the design of a 60-GHz fully integrated CMOS single-chip radio for very-short-range communication applications.
References
More filters
Journal ArticleDOI
Microstrip bandpass filter using degenerate modes of a microstrip ring resonator
TL;DR: In this article, two degenerate modes can be excited on a microstrip ring resonator to realize a double-tuned circuit bandpass filter in microstrip technique, which can be used to achieve a better performance than the conventional bandpass filters.
Book
Microwave Ring Circuits and Related Structures
Kai Chang,Lung-Hwa Hsieh +1 more
TL;DR: In this article, the authors present an analysis and model of ring resonance circuits and their application in the context of filter and filter applications, as well as a comparison of the two types of resonance circuits.
Journal ArticleDOI
Compact, low insertion-loss, sharp-rejection, and wide-band microstrip bandpass filters
Lung-Hwa Hsieh,Kai Chang +1 more
TL;DR: In this paper, a bandstop filter based on a ring resonator with direct-connected orthogonal feed lines was proposed for reducing the interference in full duplex systems in satellite communications.
Proceedings ArticleDOI
Design of CMOS for 60GHz applications
TL;DR: In this paper, the viability of digital CMOS as a future mm-wave technology, capable of exploiting the 60GHz band, is explored, and the optimal device design and appropriate mmwave models are presented, from modeling of transistors in 0.13/spl mu/m technology.
Journal ArticleDOI
Millimeter-Wave Bandpass Filters by Standard 0.18- $\mu\hbox{m}$ CMOS Technology
TL;DR: In this article, a thin film microstrip (TFMS) structure is properly constructed on the low resistivity silicon substrate, aiming at reducing the substrate loss and crosstalk to a large extent.