Journal ArticleDOI
Antenna-on-Chip and Antenna-in-Package Solutions to Highly Integrated Millimeter-Wave Devices for Wireless Communications
Y. P. Zhang,Duixian Liu +1 more
Reads0
Chats0
TLDR
Antenna-on-chip (AoC) and antenna-in-package (AiP) solutions are studied for highly integrated millimeter-wave (mmWave) devices in wireless communications and the systems level pros and cons are highlighted from the electrical and economic perspectives for system designers.Abstract:
Antenna-on-chip (AoC) and antenna-in-package (AiP) solutions are studied for highly integrated millimeter-wave (mmWave) devices in wireless communications. First, the background, regulations, standard, and applications of 60-GHz wireless communications are briefly introduced. Then, highly integrated 60-GHz radios are overviewed as a basis for the link budget analysis to derive the antenna gain requirement. Next, in order to have deep physical insight into the AoC solution, the silicon substrate's high permittivity and low resistivity effects on the AoC efficiency are examined. It is shown that the AoC solution has low efficiency, less than 12% due to large ohmic losses and surface waves, which requires the development of techniques to improve the AoC efficiency. After that, the AiP solution and associated challenges such as how to realize low-loss interconnection between the chip and antenna are addressed. It is shown that wire-bonding interconnects, although inferior to the flip-chip, are still feasible in the 60-GHz band if proper compensation schemes are utilized. An example of the AiP solution in a low-temperature cofired ceramic (LTCC) process is presented in the 60-GHz band showing an efficiency better than 90%. A major concern with both AoC and AiP solutions is electromagnetic interference (EMI), which is also discussed. Finally, the systems level pros and cons of both AoC and AiP solutions are highlighted from the electrical and economic perspectives for system designers.read more
Citations
More filters
Journal ArticleDOI
Millimeter-Wave Cellular Wireless Networks: Potentials and Challenges
TL;DR: Measurements and capacity studies are surveyed to assess mmW technology with a focus on small cell deployments in urban environments and it is shown that mmW systems can offer more than an order of magnitude increase in capacity over current state-of-the-art 4G cellular networks at current cell densities.
Journal ArticleDOI
Millimeter Wave Channel Modeling and Cellular Capacity Evaluation
Mustafa Riza Akdeniz,Yuanpeng Liu,Mathew K. Samimi,Shu Sun,Sundeep Rangan,Theodore S. Rappaport,Elza Erkip +6 more
TL;DR: Detailed spatial statistical models of the channels are derived and it is found that, even in highly non-line-of-sight environments, strong signals can be detected 100-200 m from potential cell sites, potentially with multiple clusters to support spatial multiplexing.
Journal ArticleDOI
State of the Art in 60-GHz Integrated Circuits and Systems for Wireless Communications
TL;DR: An overview of the technological advances in millimeter-wave circuit components, antennas, and propagation that will soon allow 60-GHz transceivers to provide multigigabit per second (multi-Gb/s) wireless communication data transfers in the consumer marketplace is presented.
Journal ArticleDOI
Beamforming for Millimeter Wave Communications: An Inclusive Survey
Shajahan Kutty,Debarati Sen +1 more
TL;DR: The suitability of millimeter wave beamforming methods, both, existing and proposed till midyear 2015, are explored, and the exciting new prospects unfolding in this domain are identified.
Journal ArticleDOI
Study and prototyping of practically large-scale mmWave antenna systems for 5G cellular devices
TL;DR: The challenges, benefits and approaches associated with realizing largescale antenna arrays at mmWave frequency bands for future 5G cellular devices are discussed, and a first-of- a-kind cellular phone prototype equipped with mmWave 5G antenna arrays consisting of a total of 32 low-profile antenna elements are developed.
References
More filters
Journal ArticleDOI
60 GHz wireless communications: emerging requirements and design recommendations
TL;DR: This paper details design tradeoffs for algorithms in the 60 GHz physical layer including modulation, equalization, and space-time processing and considers the limitations in circuit design, characteristics of the effective wireless channel, and performance requirements to support current and next generation 60 GHz wireless communication applications.
Journal ArticleDOI
An overview of multigigabit wireless through millimeter wave technology: potentials and technical challenges
Su Khiong Yong,Chia-Chin Chong +1 more
TL;DR: An overview of 60 GHz technology and its potentials to provide next generation multigigabit wireless communications systems is presented and the roles of antennas in establishing a reliable 60 GHz radio are highlighted.
Journal ArticleDOI
A Silicon 60-GHz Receiver and Transmitter Chipset for Broadband Communications
Scott K. Reynolds,Brian Floyd,Ullrich R. Pfeiffer,Troy J. Beukema,Janusz Grzyb,C. Haymes,Brian P. Gaucher,Mehmet Soyuer +7 more
TL;DR: A 0.13-mum SiGe BiCMOS double-conversion superheterodyne receiver and transmitter chipset for data communications in the 60-GHz band is presented.
Journal ArticleDOI
A 77-GHz Phased-Array Transceiver With On-Chip Antennas in Silicon: Receiver and Antennas
TL;DR: The receiver and the on-chip antenna sections of a fully integrated 77-GHz four-element phased-array transceiver with on- chip antennas in silicon are presented.
Journal ArticleDOI
Influence of the human activity on wide-band characteristics of the 60 GHz indoor radio channel
TL;DR: In this paper, a series of 40-min-long measurements of the channel impulse response have been recorded with a sampling period of 1.6 ms, for a total duration of about 20 h. This channel characterization makes it possible to model the temporal variations of the 60 GHz channels.