Zhangju Hou scite author profile

In this work, we demonstrate a low power and low NF W-band LNA using standard 90-nm CMOS technology. The LNA comprises three CS stages. The LNA consumes 21.1 mW, achieving group delay variation smaller than 66.5 ps for frequencies 70-90 GHz, and high and flat S 21 of 13.1 6 1.5 dB for frequencies 72-84 GHz. In addition, the LNA achieves minimum NF of 6.2 dB at 78 GHz and NF of 6.8 6 0.6 dB for frequencies 75-82 GHz, one of the best NF results ever reported for a W-band CMOS or SiGe BiCMOS LNA. The impressive results from this work signify the high potential of the proposed LNA architecture in W-band transceiver applications.ABSTRACT: A multilayer technology is applied to design a dual-band branch-line coupler for the dual-band balanced amplifier. The proposed coupler is designed based on a three-layer printed circuit board. The dual-band operation is achieved by four additional shunt stubs at the middle layer, while the upper layer is the core and active circuits layer and the bottom is ground layer. The proposed coupler with equal power division is designed at two frequencies of 1.1 and 1.9 GHz. Besides, a balanced amplifier is also designed which achieves gain of 11.6 and 10.1 dB at 1.1 and 1.9 GHz, respectively.

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Zhangju Hou

MIMO Antenna Using Hybrid Electric and Magnetic Coupling for Isolation Enhancement

A Novel Single-Layer Microstrip Coupler with Arbitrary Power Division Ratio and Harmonics Suppression

Dual-Band Aperture-Shared High Gain Antenna for Millimeter-Wave Multi-Beam and Sub-6 GHz Communication Applications

Aperture-Shared All-Metal Endfire High-Gain Parabolic Antenna for Millimeter-Wave Multibeam and Sub-6-GHz Communication Applications

A dual‐band balanced amplifier using three‐layer technology

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