41 results on '"Dietz, Marco"'
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2. A Review of Integrated Systems and Components for 6G Wireless Communication in the D-Band
3. A 15-Gb/s PMCW Radar PRBS-Generator for MIMO and Joint Radar-Communication Systems
4. A Low-Voltage Broadband D-Band BPSK Modulator for a PMCW Radar Transmitter in 22 nm FDSOI
5. Circular Gysel Divider for the Frequency Range from 18 GHz to 26 GHz
6. Design of two Low DC-Power High-Efficiency D-Band Power Amplifiers in 22 nm FDSOI
7. Design of a Low Voltage D-band LNA in 22 nm FDSOI
8. Integrated Front-End Approaches for Wireless 100 Gb/s and Beyond: Enabling Efficient Ultra-High Speed Wireless Communication Systems
9. An Area Efficient Low-Power mmWave PRBS Generator in FDSOI
10. A Bidirectional 28 GHz RF Transceiver Front-End with Test and Calibration Interface for 5G Phased Arrays
11. A 220-325 GHz Subharmonic Receiver with 14.8 dB Peak Conversion Gain for FMCW Radar in SiGe BiCMOS Technology
12. A 295-337 GHz 2.5 dBm Psat Cascode-Based Frequency Doubler in SiGe BiCMOS Technology
13. A 268-325 GHz 5.2 dBm Psat Frequency Doubler Using Transformer-Based Mode Separation in SiGe BiCMOS Technology
14. A Broadband Zero-IF Down-Conversion Mixer in 130 nm SiGe BiCMOS for Beyond 5G Communication Systems in D-Band
15. Towards Broadband D-Band Wireless Communication Systems using Beam Steering in SiGe BiCMOS Technology
16. A 314-344 GHz Frequency Doubler with Driving Stage and 1 dBm Psat in SiGe BiCMOS Technology
17. A 28 GHz Broadband Low Noise Amplifier in a 130 nm BiCMOS Technology for 5G Applications
18. An additive manufactured K-Band Waveguide Coupler and K-Band Antennas in SLM-Technology
19. A 28 GHz Highly Accurate Phase- and Gain-Steering Transmitter Frontend for 5G Phased-Array Applications
20. A Switchable, Passively Tuneable 28 GHz to 39 GHz Upconversion Link for a 5G Repeater using a Broadside Coupler and Analog Predistortion in a 130 nm BiCMOS Technology
21. A Tuneable Fully Single-Ended 39GHz to 28GHz Gilbert Micromixer for 5G Using Analog Predistortion in a 130nm BiCMOS Technology
22. A Technology Independent Synthesis Approach for Integrated mmWave Coupled Line Circuits
23. A Low-Power 14% FTR Push-Push D-Band VCO in 130 nm SiGe BiCMOS Technology with −178 dBc/Hz FOMT
24. Design Methodology for Automatically Designed, Integrated Marchand Baluns with Low Insertion Loss at Lowest Phase Imbalance
25. A Highly Linear and Efficient 28 GHz Stacked Power Amplifier for 5G using Analog Predistortion in a 130 nm BiCMOS Process
26. Design of an Integrated Subretinal Implant using Cellular Neural Networks for Binary Image Generation in a 130 nm BiCMOS Process
27. A 110 - 135 GHz Integrated Sixport Receiver Front-End in a 130-NM BiCMOS Technology
28. A 1 to 32 GHz broadband multi-octave receiver for monolithic integrated vector network analyzers in SiGe technology
29. A new heat-warning-system based on a wireless body area network for protecting firefighters in indoor operations
30. A low-power 60-GHz integrated sixport receiver front-end in a 130-nm BiCMOS technology
31. A broadband 10–95 GHz variable gain amplifier in a 130 nm BiCMOS technology
32. A Low-Power 120-GHz integrated sixport receiver front-end with digital adjustable gain in a 130-nm bicmos technology
33. Determination of changes in NaCl concentration in aqueous solutions using an M-sequence based sensor system
34. A 60-GHz low-noise variable-gain amplifier in a 130-nm BiCMOS technology for sixport applications
35. A 10 Gb/s highly-integrated adaptive pseudo-noise transmitter for biomedical applications
36. Highly Integrated 4–32-GHz Two-Port Vector Network Analyzers for Instrumentation and Biomedical Applications
37. Low complexity 60-GHz receiver architecture for simultaneous phase and amplitude regenerative sampling systems
38. A 180 GHz frequency multiplier in a 130nm SiGe BiCMOS technology
39. A 4–32-GHz Chipset for a Highly Integrated Heterodyne Two-Port Vector Network Analyzer
40. A 1 to 32 GHz broadband multi-octave receiver for monolithic integrated vector network analyzers in SiGe technology.
41. Design of an Integrated Subretinal Implant using Cellular Neural Networks for Binary Image Generation in a 130 nm BiCMOS Process.
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