Low-loss 1.3-/spl mu/m MQW electroabsorption modulators for high-linearity analog optical links

The bursting wireless communication market, including 5G, advanced satellite communication systems and COTM (Communication On The Move) terminals, require ever more sophisticated functions, from multi-band and multi-function operations to electronically steerable and reconfigurable antennas, pushing technological developments towards the use of tunable microwave components and circuits. Reconfigurability allows indeed for reduced complexity and cost of the apparatuses. In this context, RF MEMS (Micro-Electro-Mechanical-Systems) technology has emerged as a very attractive solution to realize both tunable devices (e.g. variable capacitors, inductors and micro-relays), as well as complex circuits (e.g. tunable filters, reconfigurable matching networks and reconfigurable beam forming networks for phased array antennas). High linearity, low loss and high miniaturization are the typical advantages of RF MEMS over conventional technologies. Micromechanical components fabricated via IC-compatible MEMS technologies and capable of low-loss filtering, switching and frequency generation allow for miniaturized wireless front-ends via higher levels of integration. In addition, the inherent high linearity of the MEMS switches enables carrier aggregations without introducing intermodulation distortions. This paper will review the recent advances in the development of the RF MEMS to RF tunable circuits and systems.

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A low-loss high-linearity SOI SP6T antenna switch using diode biasing method

IEICE Electronics Express ◽

10.1587/elex.16.20190494 ◽

2019 ◽

Vol 16 (18) ◽

pp. 20190494-20190494 ◽

Cited By ~ 1

Author(s):

Abdulraqeb Abdullah Saeed Abdo ◽

Jie Ling ◽

Pinghua Chen

Keyword(s):

Low Loss ◽

High Linearity

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Planar InGaAsP/InP photoelastic low loss waveguides and electroabsorption modulators

Proceedings of LEOS '93 ◽

10.1109/leos.1993.379091 ◽

2002 ◽

Author(s):

X.S. Jiang ◽

S.A. Pappert ◽

Q.Z. Liu ◽

L.S. Yu ◽

Z.F. Guan ◽

...

Keyword(s):

Low Loss ◽

Electroabsorption Modulators

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High Linearity DC-38 GHz CMOS SPDT Switch

Applied Sciences ◽

10.3390/app11209402 ◽

2021 ◽

Vol 11 (20) ◽

pp. 9402

Author(s):

Jin-Fa Chang ◽

Yo-Sheng Lin

Keyword(s):

Millimeter Wave ◽

Insertion Loss ◽

Traveling Wave ◽

Input Port ◽

Gate Bias ◽

Loss Reduction ◽

Low Loss ◽

High Linearity ◽

Wave Matching ◽

Series Switch

In this paper, we demonstrate a low-loss and high-linearity DC-38 GHz CMOS SPDT switch for 5G multi-band communications in 0.18 μm CMOS. Traveling-wave matching (CLCL network) is used for the output-port (ports 2 and 3) matching and isolation enhancement, while π-matching (CLC matching) is adopted for the input-port (port 1) matching. Positive/negative gate-bias is adopted for linearity enhancement because larger Pin (i.e., AC signal with larger negative Vin) is required to conduct the off-state series switch transistor. Negative-body bias is used for insertion-loss reduction because the off-state series switch transistor is closer to an open state. The SPDT switch achieves insertion loss of 0.4–1.4 dB, 3.6–4.3 dB, and 4.5–5.9 dB, respectively, for DC-6 GHz, 21–29 GHz, and 31–38 GHz. Moreover, the SPDT switch achieves isolation of 37.5–59.4 dB, 25.7–28.7 dB, and 24.3–25.2 dB, respectively, for DC-6 GHz, 21–29 GHz, and 31–38 GHz. At 28 GHz, the SPDT switch achieves remarkable input 1-dB compression point (IP1dB) of 25.6 dBm, close to the simulated one (28 dBm). To the authors’ knowledge, this is one of the best IP1dB results ever reported for millimeter-wave (mm-wave) SPDT switches.

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