ZTE Communications ›› 2020, Vol. 18 ›› Issue (3): 26-32.DOI: 10.12142/ZTECOM.202003005
• Special Topic • Previous Articles Next Articles
CHANG Su-Wei(), LIN Chueh-Jen, TSAI Wen-Tsai, HUNG Tzu-Chieh, HUANG Po-Chia
Received:
2020-06-16
Online:
2020-09-25
Published:
2020-11-03
About author:
CHANG Su-Wei (CHANG Su-Wei, LIN Chueh-Jen, TSAI Wen-Tsai, HUNG Tzu-Chieh, HUANG Po-Chia. Design of Millimeter-Wave Antenna-in-Package (AiP) for 5G NR[J]. ZTE Communications, 2020, 18(3): 26-32.
Add to citation manager EndNote|Ris|BibTeX
URL: http://zte.magtechjournal.com/EN/10.12142/ZTECOM.202003005
Index | Consideration | TMYTEK’s Capability |
---|---|---|
Tx Power | Output power of each element | 18 dBm for 28 GHz 15 dBm for 39 GHz |
Frequency | Meeting operator’s frequency bands | n257, n258, n260, n261 Ranges from 24 to 41 GHz |
Rx NF | Better system sensitivity provided by lower noise floor | 4.5 dBm in 28 GHz 6.5 dBm for 39 GHz. |
Phase | Phase difference is the basic of beamforming; step size and error are the key considerations. | 6-bit phase shifter ±3° RMS phase error |
Table 1 Beamforming design considerations and TMYTEK’s capability
Index | Consideration | TMYTEK’s Capability |
---|---|---|
Tx Power | Output power of each element | 18 dBm for 28 GHz 15 dBm for 39 GHz |
Frequency | Meeting operator’s frequency bands | n257, n258, n260, n261 Ranges from 24 to 41 GHz |
Rx NF | Better system sensitivity provided by lower noise floor | 4.5 dBm in 28 GHz 6.5 dBm for 39 GHz. |
Phase | Phase difference is the basic of beamforming; step size and error are the key considerations. | 6-bit phase shifter ±3° RMS phase error |
1 |
ZHANG Y P. A review of the development of antenna⁃in⁃package technology [J]. ZTE technology journal, 2017, 23(6): 41–49. DOI: 10.3969/ j.issn.1009⁃6868.2017.06.010
DOI |
2 |
ZHANG Y P, LIU D X. Antenna⁃on⁃chip and antenna⁃in⁃package solutions to highly integrated millimeter⁃wave devices for wireless communications [J]. IEEE transactions on antennas and propagation, 2009, 57(10): 2830–2841. DOI: 10.1109/tap.2009.2029295
DOI |
3 |
DJERAFI T, WU K. Multilayer integration and packaging on substrate integrated waveguide for next generation wireless applications [C]//46th European Microwave Conference (EuMC), London, UK: IEEE, 2016: 858–861. DOI: 10.1109/eumc.2016.7824479
DOI |
4 |
ZHANG Y P. Recent advances in antenna⁃in⁃package technology [J]. ZTE technology journal, 2018, 24(5): 47–53. DOI: 10.19729/j.cnki.1009‑6868.2018.05.010
DOI |
5 | HUSBY H. High density interconnect [EB/OL]. [2020⁃05⁃01]. |
6 |
JAWORSKI G, KROZER V. A design of feeding network for a dual⁃linear polarization, stacked, probe⁃fed microstrip patch antenna array [C]//15th International Conference on Microwaves, Radar and Wireless Communications, Warsaw, Poland: IEEE, 2004: 473–476. DOI: 10.1109/mikon.2004.1357069
DOI |
7 | ATENLAB. OTA [EB/OL]. [2020⁃05⁃01]. |
8 | ATENLAB. CATR [EB/OL]. [2020⁃05⁃01]. |
9 | CHANG S.W. New method of OTA measurement for 5G mmWave beamforming antenna array [C]//Asia⁃Pacific Microwave Conference. Singapore, Singapore, 2019 |
10 | TMYTEK. Bbox [EB/OL]. [2020⁃05⁃01]. |
11 | TSUTOMU Tokuke. 5G test challenges [EB/OL]. [2020⁃05⁃01]. |
12 | NTK. TMYTEK cooperated with NTK Technologies [EB/OL].[2020⁃04⁃20]. |
[1] | JI Yuhe, HAN Jing, ZHAO Yongxin, ZHANG Shenglin, GONG Zican. Log Anomaly Detection Through GPT-2 for Large Scale Systems [J]. ZTE Communications, 2023, 21(3): 70-76. |
[2] | ZHU Yuting, LI Zeng, ZHANG Hongtao. Robust Beamforming Under Channel Prediction Errors for Time-Varying MIMO System [J]. ZTE Communications, 2023, 21(3): 77-85. |
[3] | LI Hanwen, BI Ningjing, SHA Jin. Design of Raptor-Like LDPC Codes and High Throughput Decoder Towards 100 Gbit/s Throughput [J]. ZTE Communications, 2023, 21(3): 86-92. |
[4] | TANG Yuanqi, ZHANG Huimin, ZHENG Zheng, LI Ping, ZHU Yu. Hybrid Architecture and Beamforming Optimization for Millimeter Wave Systems [J]. ZTE Communications, 2023, 21(3): 93-104. |
[5] | DING Jianwen, LIU Yao, LIAO Hongjian, SUN Bin, WANG Wei. Statistical Model of Path Loss for Railway 5G Marshalling Yard Scenario [J]. ZTE Communications, 2023, 21(3): 117-122. |
[6] | SHI Xiangyi, HAN Tongzhou, TIAN Hai, ZHAO Danfeng. Design of Raptor-Like Rate Compatible SC-LDPC Codes [J]. ZTE Communications, 2022, 20(S1): 16-21. |
[7] | JIA Haonan, HE Zhenqing, TAN Wanlong, RUI Hua, LIN Wei. Distributed Multi-Cell Multi-User MISO Downlink Beamforming via Deep Reinforcement Learning [J]. ZTE Communications, 2022, 20(4): 69-77. |
[8] | ZHANG Jintao, HE Zhenqing, RUI Hua, XU Xiaojing. Spectrum Sensing for OFDMA Using Multicarrier Covariance Matrix Aware CNN [J]. ZTE Communications, 2022, 20(3): 61-69. |
[9] | HOU Xiaolin, LI Xiang, WANG Xin, CHEN Lan, SUYAMA Satoshi. Some Observations and Thoughts about Reconfigurable Intelligent Surface Application for 5G Evolution and 6G [J]. ZTE Communications, 2022, 20(1): 14-20. |
[10] | GUAN Xinrong, WU Qingqing. IRS‑Enabled Spectrum Sharing: Interference Modeling, Channel Estimation and Robust Passive Beamforming [J]. ZTE Communications, 2022, 20(1): 28-35. |
[11] | YAN Xincheng, TENG Huiyun, PING Li, JIANG Zhihong, ZHOU Na. Study on Security of 5G and Satellite Converged Communication Network [J]. ZTE Communications, 2021, 19(4): 79-89. |
[12] | LIU Haipeng, ZHANG Xingyue, ZHOU Anfu, LIU Liang, MA Huadong. Indoor Environment and Human Sensing via Millimeter Wave Radio: A Review [J]. ZTE Communications, 2021, 19(3): 22-29. |
[13] | XIAO Kai, LIU Xing, HAN Xianghui, HAO Peng, ZHANG Junfeng, ZHOU Dong, WEI Xingguang. Flexible Multiplexing Mechanism for Coexistence of URLLC and EMBB Services in 5G Networks [J]. ZTE Communications, 2021, 19(2): 82-90. |
[14] | LIU Zhuang, GAO Yin, LI Dapeng, CHEN Jiajun, HAN Jiren. Enabling Energy Efficiency in 5G Network [J]. ZTE Communications, 2021, 19(1): 20-29. |
[15] | ZHANG Jing, WEI Xiao, CHENG Junfeng, FENG Xu. Satellite E2E Network Slicing Based on 5G Technology [J]. ZTE Communications, 2020, 18(4): 26-33. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||