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Publications
[69] Amin Hamidian, Viswanathan Subramanian, Georg Boeck:
Design of Broad-Band mm-Wave SiGe Power Amplifiers Applying Full EM Simulation
[68] Stefan Krone and Gerhard Fettweis:
Energy-Efficient A/D Conversion in Wideband Communications Receivers
[67] Eckhard Grass:
60 GHz Communication Systems: Applications, Standards and Future Research Topics
[66] Frank Wollenschläger, Ralf Stephan, Lei Xia, Jens Müller, Robert Müller, Alexis Paolo Garcia Ariza, Reiner S. Thomä, and Matthias A. Hein:
A Compact Dual-Polarized Wideband Patch Antenna Array for the Unlicensed 60 GHz Band
[65] A. Cagri Ulusoy and Hermann Schumacher:
A System-on-Package Analog Synchronous QPSK Demodulator for Ultra-High Rate 60 GHz Wireless Communications
[64] Gang Liu, Andreas Trasser, A. Cagri Ulusoy, and Hermann Schumacher:
Low-loss, Low-cost, IC-to-Board Bondwire Interconnects for Millimeter-Wave applications
[63] A. Cagri Ulusoy, Gang Liu, Andreas Trasser, and Hermann Schumacher:
An Analog Synchronous QPSK Demodulator for Ultra-High Rate Wireless Communications
[62] Gang Liu, A. Cagri Ulusoy, Andreas Trasser and Hermann Schumacher:
A 60 GHz Down-Conversion Mixer with 6.6 dB Gain and 11 GHz IF Bandwidth in an 80 GHz SiGe HBT Technology
[61] Thilo Ohlemueller, Markus Petri:
Sample synchronization of multiple multiplexed DA and AD converters in FPGAs
[60] Markus Petri:
CONFIGURABLE, MODULAR AND SCALABLE OFDM BASEBAND PROCESSOR FOR DATA RATES UP TO 4 Gbps
[59] I. de la Torre, J. Kunisch, C. Oikonomopoulos-Zachos, and M. Martínez-Vázquez:
Comparison of 60 GHz Low and High Gain Antennas for Coverage Analysis of Aircraft In-Cabin Radio Links
[58] Robert Müller, Alexis Paolo Garcia Ariza, Lei Xia, Frank Wollenschläger, Alexander Schulz, Daniel Lopez-Diaz, Mohamed Elkhouly, Reiner S. Thomä, Matthias A. Hein and Jens Müller:
60 GHz Ultrawideband Hybrid-Integrated Dual- Polarized Front-End in LTCC Technology
[57] Alexis Paolo Garcia Ariza, Robert Müller, Frank Wollenschläger, Lei Xia, Mohamed Elkhouly, Yaoming Sun, Uwe Trautwein, and Reiner S. Thomä:
Dual-Polarized Architecture for Channel Sounding at 60 GHz with Digital/Analog Phase Control based on 0.25μm SiGe BiCMOS and LTCC Technology
[56] S. Krone, F. Guderian, G. Fettweis, M. Petri, M. Piz, M. Marinkovic, M. Peter, R. Felbecker and W. Keusgen:
Physical Layer Design, Link Budget Analysis and Digital Baseband Implementation for 60 GHz Short-Range Applications
[55] G. Fettweis, F. Guderian and S. Krone:
Entering The Path Towards Terabit/s Wireless Links
[54] Alexis Paolo Garcia Ariza, Uwe Trautwein, Robert Müller, Frank Wollenschläger, Reiner S. Thomä, Jürgen Kunisch, Itziar de la Torre3, Robert Felbecker, Michael Peter, Wilhelm
Keusgen:
60 GHz Short-Range Communications: Channel Measurements, Analysis and Modelling
[53] Srdjan Glisic, J. Christoph Scheytt, Yaoming Sun, Frank Herzel, Ruoyu Wang, Klaus Schmalz, Mohamed Elkhouly, Chang-Soon Choi:
Fully-Integrated 60 GHz Transceiver in SiGe BiCMOS, RF Modules, and 3.6 Gbit/s OFDM Data Transmission
[52] A. Cagri Ulusoy, Gang Liu, Andreas Trasser, Sebastien Chartier and Hermann Schumacher:
Analog Synchronous Receiver for Multi-Gigabit Wireless Communications
[51] A. Cagri Ulusoy, Gang Liu, Andreas Trasser, Hermann Schumacher:
Hardware Efficient Receiver for Low-Cost Ultra-High Rate 60GHz Wireless Communications
[50] H. P. Forstner, Markus Ortner, Ludger Verweyen:
A Fully Integrated Homodyne Upconverter MMIC in SiGe:C for 60 GHz Wireless Applications
[49] Markus Ortner, H. P. Forstner, Ludger Verweyen:
A Fully Integrated Homodyne Downconverter MMIC in SiGe:C for 60 GHz Wireless Applications
[48] Gang Liu, A. Cagri Ulusoy, Andreas Trasser and Hermann Schumacher:
A 60GHz Frequency Down-Converter with Divided LO Output in an 80GHz SiGe HBT Technology
[47] Gang Liu, A. Cagri Ulusoy, Andreas Trasser and Hermann Schumacher:
60-80GHz Frequency Doubler Operating Close to Fmax
[46] Gang Liu, Andreas Trasser, and Hermann Schumacher:
33–43 GHz and 66–86 GHz VCO With High Output Power in an 80 GHz SiGe HBT Technology
[45] Srdjan Glisic, Klaus Schmalz, Frank Herzel, Rouyu Wang, Mohamed Elkhouly, Yaoming Sun and Johann Christoph Scheytt:
A Fully Integrated 60 GHz Transmitter Front–End in SiGe BiCMOS Technology
[44] A. Cagri Ulusoy, Gang Liu, Till Feger, Andreas Trasser, and Hermann Schumacher:
A Narrow Bandwidth Microstrip Bandpass Filter Suitable for System-on-Package Integration
[43] Yinmei Su, Gang Liu and Hermann Schumacher:
Limiting Amplifiers for Bits Recovery of Gbps Analog BPSK/QPSK Demodulator
[42] Gang Liu, Yinmei Su and Hermann Schumacher:
A SiGe 7 Gbit/s Analog BPSK/QPSK Demodulator
[41] Stefan Krone and Gerhard Fettweis:
Fading Channels with 1-Bit Output Quantization: Optimal Modulation, Ergodic Capacity and Outage Probability
[40] Jian Luo, Andreas Kortke, Wilhelm Keusgen:
Throughput Maximization of a Hybrid Dynamic Frame Aggregation and Block-ACK Scheme for 60 GHz High Speed Communications
[39] Miroslav Marinkovic, Maxim Piz, Chang-Soon Choi, Goran Panic, Marcus Ehrig and Eckhard Grass:
Performance Evaluation of Channel Coding for Gbps 60-GHz OFDM-based Wireless Communications
[38] Markus Petri, Maxim Piz, Eckhard Grass:
A Viterbi-based non-coherent DBPSK-demodulator with 1-bit quantization and digital differential decoding for AWGN channels
[37] Amin Hamidian, Zihui Zhang, Viswanathan Subramanian, Georg Boeck:
Modeling of MIM Capacitors in 0.25 μm SiGe BiCMOS Process up to 140 GHz
[36] Amin Hamidian, Viswanathan Subramanian, Georg Boeck:
A 60 GHz 18 dBm Power Amplifier Utilizing 0.25 μm SiGe HBT
[35] A. Cagri Ulusoy , Gang Liu, Michael Peter, Robert Felbecker, Hebat-Allah Y. Abdine y, and Hermann Schumacher:
A BPSK/QPSK Receiver Architecture Suitable for Low-Cost Ultra-High Rate 60 GHz Wireless Communications
[34] Alexis Paolo Garcia Ariza, Martin Jacob, Thomas Kürner, and Reiner S. Thomä:
Millimeter and Sub-Millimeter Waves
[33] S. Krone and G. Fettweis:
Achievable Rate with 1-Bit Quantization and Oversampling at the Receiver
[32] Atheer Barghouthi and Frank Ellinger:
Design of a 54 to 63 GHz Differential Common Collector SiGe Colpitts VCO
[31] Alexis Paolo Garcia Ariza, Wim Kotterman, Rudolf Zetik, Martin Kmec, Robert Müller, Frank Wollenschläger, Uwe Trautwein, Reiner S. Thomä:
60 GHz-Ultrawideband Real-Time Multi-Antenna Channel Sounding for Multi Giga-bit/s Access
[30] J. Dohl, S. Krone and G. Fettweis:
On the Impact of Non-linear Amplifiers in Single-Carrier Systems: An Analytical Approach
[29] Amin Hamidian and Viswanathan Subramanian:
Right and Left Handed Transmission Lines for Millimeter Wave Applications
[28] Ruoyu Wang, Yaoming Sun, and Johann-Christoph Scheytt:
An On-board Differential Bunny – Ear Antenna Design for 60 GHz Applications
[27] J. C. Scheytt et al.:
60 GHz OFDM Transceiver RF Frontend Design in SiGe BiCMOS
[26] A. Paolo Garcia Ariza et.al.:
The 60 GHz In-Cabin Channel
[25] S. Krone and G. Fettweis:
A Fundamental Physical Limit to Data Transmission and Processing
[24] S. Krone and G. Fettweis:
Optimal Gain Control for Single-Carrier Communications with Uniform Quantization
[23] Gang Liu, A. Cagri Ulusoy, Andreas Trasser and Hermann Schumacher:
64 to 86 GHz VCO Utilizing Push-Push Frequency Doubling in a 80 GHz fT SiGe HBT Technology
[22] A. Cagri Ulusoy, Gang Liu, Andreas Trasser and Hermann Schumacher:
A SiGe Frequency Quadrupler for M-QAM Carrier Recovery
[21] S. Krone and G. Fettweis:
Achievable Rate of Single-Carrier Systems with Optimal Uniform Quantization at the Receiver
[20] Chang-Soon Choi, Eckhard Grass, Maxim Piz, Marcus Ehrig, Miroslav Marinkovic, Rolf Kraemer and Christoph Scheytt:
60-GHz OFDM systems for multi-gigabit wireless LAN applications
[19] Michael Peter, Robert Felbecker, Wilhelm Keusgen and Joachim Hillebrand:
Measurement-Based Investigation of 60 GHz Broadband Transmission for Wireless In-Car Communication
[18] A. P. Garcia, W. Kotterman, U. Trautwein, D. Brückner, J. Kunisch and R. S. Thomä:
60 GHz Time-Variant Shadowing Characterization within an Airbus 340
[17] Yaoming Sun and Christoph J. Scheytt:
A 360 Degree Phase Shifter for 60 GHz Application in SiGe BiCMOS Technology
[16] Chang-Soon Choi and Eckhard Grass:
60-GHz SiGe Radio and OFDM baseband implementation for Gbps wireless LAN applications
[15] Amin Hamidian and Georg Boeck:
60 GHz Wide-Band Power Amplifier
[14] Amin Hamidian, Henrique Portela, Georg Boeck:
High Power V-Band Power Amplifier
[13] Maxim Piz, Dr. Eckhard Grass, Miroslav Marinkovic, Prof. Dr. Rolf Kraemer:
Next-Generation wireless OFDM system for 60-GHz short-range communication at a data rate of 2.6 GBits
[12] A.P. Garcia, W. Kotterman, R.S. Thomä, U. Trautwein , D. Brückner, W. Wirnitzer, J. Kunisch:
60 GHz in-Cabin Real-Time Channel Sounding
[11] Marta Martínez-Vázquez, Sybille Holzwarth, Alejandro Rivera:
ANTENAS SOBRE SUSTRATO LTCC PARA WLAN A 60 GHZ
[9] EASY-A Consortium:
EASY-A: 60 GHz Demonstrator Presentation
[8] Stefan Krone and Gerhard Fettweis:
Fundamental Limits to Communications with Analog-to-Digital Conversion at the Receiver
[7] Stefan Krone and Gerhard Fettweis:
Aspects of Optimal Quantization in Communications
[6] Maxim Piz, Milos Krstic, Marcus Ehrig, Eckhard Grass:
An OFDM Baseband Receiver for Short-Range Communication at 60 GHz
[5] Robert Felbecker, Wilhelm Keusgen, Andreas Kortke, Michael Peter:
Estimation of Effective Permittivity and Effective Thickness of Inhomogeneous Materials at 52 - 70 GHz
[4] F. Wollenschläger, L. Alhouri, L. Xia, S. Rentsch, J. Müller, R. Stephan, and M.A. Hein:
Measurement of a 60 GHz Antenna Array fed by a Planar Waveguide-to-Microstrip Transition Integrated in Low-Temperature Co-fired Ceramics
[3] Yaoming Sun and Srdjan Glisic:
Designs of 60 GHz Front-Ends in SiGe BiCMOS Technology
[2] Stefan Krone and Gerhard Fettweis:
Capacity Analysis for OFDM Systems with Transceiver I/Q Imbalance
[1] Chang-Soon Choi, et al.:
60GHz OFDM hardware demonstrators in SiGe BiCMOS: state-of-the-art and future development
