[institut] Podsecanje: Ponedeljak 26.11.2018. u 12h-Predavanje Prof. Thomas Zwick, Karlsruhe Institute of Technology, Germany
Branka Jokanovic
brankaj at ipb.ac.rs
Fri Nov 23 09:18:58 CET 2018
-------- Original Message --------
Subject: [institut] Predavanje Prof. Thomas Zwick, Karlsruhe Institute
of Technology, Germany
Date: 2018-11-14 16:25
From: Branka Jokanovic <brankaj at ipb.ac.rs>
To: institut at ipb.ac.rs
Postovane kolege,
imam izuzetno zadovoljstvo da vas pozivam na predavanje koje ce odrzati
Prof. Thomas Zwick, IEEE Fellow, Director of the Institute of Radio
Frequency Engineering and Electronics (IHE) at the Karlsruhe Institute
of Technology (KIT), Germany, pod nazivom:
ANTENNA INTEGRATION IN MILLIMETER-WAVE TRANSCEIVERS FOR HIGH VOLUME
APPLICATIONS
26. novembra 2018. godine u citaonici Instituta za fiziku "Dr Dragan
Popovic" sa pocetkom u 12h.
Prof. Zwick ce sa svojim PhD studentima boraviti u Institutu u okviru
saradnje sa Laboratorijom za metamaterijale, Centra za fotoniku na
bilateralnom projektu: "Advanced Multi-Beam and Scanning Antennas for 5G
and Radar Applications(5G-MultiScan)".
APSTRAKT PREDAVANJA
The enormous technological progress accomplished over the last decades
facilitates the utilization of millimeter-wave (mmw) frequencies for
mass products like automotive radars, industrial sensors, high-speed
data communication links or medical applications. The main enablers are
the semiconductor technologies with constantly improving cut-off
frequencies reaching several hundred GHz. The dominant limiting factor
though for the mass production of low-cost mmw systems above 100 GHz is
that, suitable packaging technologies are not yet finally available. The
major issue for the packaging is to find a proper way to get all signals
in and out of the package, since at mmw frequencies interconnects are
very difficult to realize and very lossy. One way out of the dilemma is
to integrate the complete transceiver together with the antenna into one
single package. Compactness is the key to low losses in mmw
interconnects. This also means that the antenna must be integrated into
the package.
In this talk, a short overview on the packaging and antenna integration
concepts for mmw transceivers is provided together with several
particular approaches. The different challenges for antenna integration
and interconnects can be found in [1, 2, 3, 4, 5, 6]. In the second
part, complete solutions are shown where in one case the mmw frontend is
integrated together with off-chip antennas in a molded 8 mm by 8 mm QFN
package [7] and in another case an on-chip antenna together with a lens
is mounted in an 8 mm by 8 mm QFN package as well [8]. An application
example of a complete radar system with the packaged transceiver
soldered on a baseband PCB with microprocessor and lens above the chip
to yield a narrow beam is shown. The complete module has a size of 35 mm
x 35 mm x 25 mm and allows distance measurements with a high accuracy
[9]. An outlook on packages for high data rate transmission conclude the
talk [10].
REFERENCES
[1] T. Zwick, S. Beer, "QFN based Packaging Concepts for Millimeter-Wave
Transceivers," IEEE International Workshop on Antenna Technology (iWAT),
Mar. 2012.
[2] S. Beer, H. Gulan, M. Pauli, C. Rusch, G. Kunkel, T. Zwick, "122-GHz
Chip-to-Antenna Wire Bond Interconnect with High Repeatability", in IEEE
Microwave Symposium Digest (MTT), 2012.
[3] S. Beer, C. Rusch, H. Gulan, B. Göttel, M.G. Girma, J. Hasch, W.
Winkler, W. Debski, T. Zwick, "An Integrated 122-GHz Antenna Array with
Wire Bond Compensation for SMT Radar Sensors," IEEE Transactions on
Antennas and Propagation, vol. 61, no. 12, Dec. 2013, pp. 5976-5983.
[4] S. Beer, C. Rusch, B. Goettel, H. Gulan, M. Zwyssig, G. Kunkel, T.
Zwick, "A Self-Compensating 130-GHz Wire Bond Interconnect with 13%
Bandwidth," IEEE Antennas and Propagation Society International
Symposium, July 2013.
[5] S. Beer, H. Gulan, C. Rusch, T. Zwick, "Coplanar 122-GHz Antenna
Array with Air Cavity Reflector for Integration in Plastic Packages",
IEEE Antennas and Wireless Propagation Letters, vol. 11, Jan. 2012, pp.
160-163.
[6] B. Goettel, P. Pahl, C. Kutschker, S. Malz, U. Pfeiffer, T. Zwick,
"Active Multiple Feed On-Chip Antennas With Efficient In-Antenna Power
Combining Operating at 200–320 GHz", IEEE Transactions on Antennas and
Propagation, vol. 65, no. 2, Feb. 2017.
[7] T. Zwick, F. Boes, A. Bhutani, B. Goettl, M. Pauli, "Pea-Sized mmW
Transceivers", IEEE Microwave Magazine, Sept. 2017, pp. 79-89.
[8] B. Goettel, W. Winkler, A. Bhutani, F. Boes, M. Pauli, T. Zwick,
"Packaging Solution for a Millimeter-Wave System-on-Chip Radar", IEEE
Transactions on Components, Packaging and Manufacturing Technology, vol.
8, no. 1, Jan 2018, pp. 73-81.
[9] M. Pauli, B. Göttel, S. Scherr, A. Bhutani, S. Ayhan, W. Winkler, T.
Zwick, "Miniaturized Millimeter-Wave Radar Sensor for High Accuracy
Applications", invited paper, IEEE Transactions on Microwave Theory and
Techniques, vol. 65, no. 5, May 2017.
[10] J. Eisenbeis, F. Boes, B. Goettel, S. Malz, U. Pfeiffer, T. Zwick,
"30 Gbps Wireless Data Transmission with Fully Integrated 240 GHz
Silicon Based Transmitter", IEEE 17th Topical Meeting on Silicon
Monolithic Integrated Circuits in RF Systems (SiRF), 2017, pp. 33-36.
Srdacan pozdrav,
Branka Jokanovic
--
Dr Branka Jokanovic, Research Professor
Institute of Physics Belgrade
Pregrevica 118, 11080 Belgrade, Serbia
http://www.ipb.ac.rs/
http://www.metagroup.ipb.ac.rs
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Dr Branka Jokanovic, Research Professor
Institute of Physics Belgrade
Pregrevica 118, 11080 Belgrade, Serbia
http://www.ipb.ac.rs/
http://www.metagroup.ipb.ac.rs
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