An S-Band Dual-Channel Receiver Module Based on the Technology of TSV

被引：0

作者：

Tang, ZhongJun ^{[1
]}

He, ShuWei ^{[1
]}

Chen, Yijun ^{[1
]}

Hu, LiuLin ^{[1
]}

机构：

[1] Chengdu Ganide Technol CO Ltd, Chengdu, Peoples R China

来源：

2016 IEEE MTT-S INTERNATIONAL MICROWAVE WORKSHOP SERIES ON ADVANCED MATERIALS AND PROCESSES FOR RF AND THZ APPLICATIONS (IMWS-AMP) | 2016年

关键词：

GCPW; RF; Receiver module; through silicon via (TSV);

D O I：

暂无

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

In this paper, the technology of through silicon via (TSV) is applied to radio frequency (RF) receiver module. A grounded coplanar waveguide (GCPW) with TSV is proposed, through the simulation, and the improvement of TSV on RF transmission performance is studied, including TSV's aperture size, density, arrangement and so on. This paper also studies basic components model such as resistance, capacitance and inductance on the TSV motherboard. Then, an S-band dual-channel receiver module based on the technology of TSV is presented. Sixteen chips are integrated in the receiver module such as amplifier chips, power splitter chips, phase shifter chips and attenuator chips. The size of the final receiver module we proposed is 25mm X 18mm X 1.5mm, which is 2.5% of traditional RF receiver module, and the package is 8g, which is also 2.5% of the traditional RF receiver module.

引用

页数：4

共 50 条

[21] An Indoor Positioning System Based on the Dual-Channel Passive RFID Technology
Yao, Chia-Yu
Hsia, Wei-Chun
[J]. IEEE SENSORS JOURNAL, 2018, 18 (11) : 4654 - 4663
[22] Dual-energy and dual-channel seismc acquisition technology
Zhu, De-Bing
[J]. Shiyou Diqiu Wuli Kantan/Oil Geophysical Prospecting, 2010, 45 (04): : 473 - 477
[23] A 120 GHz/140 GHz Dual-Channel OOK Receiver Using 65 nm CMOS Technology
Fujimoto, Ryuichi
Motoyoshi, Mizuki
Takano, Kyoya
Fujishima, Minoru
[J]. IEICE TRANSACTIONS ON FUNDAMENTALS OF ELECTRONICS COMMUNICATIONS AND COMPUTER SCIENCES, 2013, E96A (02) : 486 - 493
[24] High Performance S-Band Dual Transmit/Receive Module for Active Phased Array Radar
Kumar, Virendra
Shreeshail
Pandey, U. S.
Sreenivasulsu, K.
Beenamole, K. S.
Gangwar, Ravi Kumar
[J]. 2022 IEEE INTERNATIONAL SYMPOSIUM ON PHASED ARRAY SYSTEMS & TECHNOLOGY (PAST), 2022,
[25] Broadband IP-blocks for L- and S-band Receiver SoC Based On 0.25 um SiGe Technology
Sheyerman, F. I.
Dobush, I. M.
Kokolov, A. A.
Salnikov, A. S.
Cherkashin, M. V.
Babak, L. I.
Shevlyakov, M. L.
Svetlichniy, Yu. A.
Grigoriev, E. V.
Uimanov, S. Yu.
[J]. 2017 XI INTERNATIONAL IEEE SCIENTIFIC AND TECHNICAL CONFERENCE DYNAMICS OF SYSTEMS, MECHANISMS AND MACHINES (DYNAMICS), 2017,
[26] Dual-Band Organic Photodetectors for Dual-Channel Optical Communications
Lan, Zhaojue
Lau, Ying Suet
Cai, Linfeng
Han, Jiayin
Suen, Chun Wai
Zhu, Furong
[J]. Laser and Photonics Reviews, 2022, 16 (07):
[27] Dual-Band Organic Photodetectors for Dual-Channel Optical Communications
Lan, Zhaojue
Lau, Ying Suet
Cai, Linfeng
Han, Jiayin
Suen, Chun Wai
Zhu, Furong
[J]. LASER & PHOTONICS REVIEWS, 2022, 16 (07)
[28] Dual-channel, dual-band image stereoscopic color fusion
Zhang, Y
Zhang, BM
Bai, LF
Qian, WX
[J]. THIRD INTERNATIONAL SYMPOSIUM ON MULTISPECTRAL IMAGE PROCESSING AND PATTERN RECOGNITION, PTS 1 AND 2, 2003, 5286 : 224 - 229
[29] Characterizing an S-band Marine Radar Receiver in the Presence of Interference
McFarland, Mark A.
Johnk, Robert T.
[J]. 2012 IEEE INTERNATIONAL SYMPOSIUM ON ELECTROMAGNETIC COMPATIBILITY (EMC), 2012, : 579 - 583
[30] A 120 GHz / 140 GHz dual-channel ASK receiver using standard 65 nm CMOS technology
Fujimoto, Ryuichi
Motoyoshi, Mizuki
Takano, Kyoya
Fujishima, Minoru
[J]. 2011 41ST EUROPEAN MICROWAVE CONFERENCE, 2011, : 1189 - 1192

← 1 2 3 4 5 →