42 results on '"Palazzari, V."'
Search Results
2. The telescope and the double Fabry-Pérot interferometer for the ADAHELI solar space mission
3. Superconductor Microwave Kinetic Inductance Detectors: System Model of the Readout Electronics
4. A Single-Chip 5GHz WLAN Transmitter in 0.35um Si/SiGe BiCMOS Technology
5. Design of RFICs in 0.35μm Si/SiGe BiCMOS technology for a 5GHz domotic transmitter
6. Building Blocks for a 5GHz WLAN Transmitter in 0.35mm Si/SiGe BiCMOS
7. Global Modeling of Microwave and Millimeter-Wave Integrated Circuits
8. FDTD Modeling of Void Defects in VLSI Interconnection
9. Accurate Modeling of IC Compatible Planar Inductors on Silicon
10. Design of paper-substrate dipole antennas magnetically coupled to UHF RFID silicon chips
11. Design and fabrication of ultra-low cost radio frequency identification antennas and tags exploiting paper substrates and inkjet printing technology
12. Low-cost assembly of UHF RFID chips and flexible substrate antennas by magnetic coupling approach
13. Crossed dipole frequency doubling RFID TAG based on paper substrate and ink-jet printing technology
14. IF Amplifier Section in 90 nm CMOS Technology for SoC Microwave Radiometers
15. A space-based 90 GHz radiometer for the observation of solar flares: Feasibility study
16. On the feasibility of frequency doubling microwave RFIDs exploiting paper-based antennas and pentacene diodes
17. A low-cost 24GHz doppler radar sensor for traffic monitoring implemented in standard discrete-component technology
18. FDTD Design of Antennas for Smart Applications: RF Triggering System Case-of-Study
19. Measurements of length and velocity of vehicles with a low cost sensor radar Doppler operating at 24GHz
20. Development of a Low-Cost Microwave Radiometer for the Early Detection of Fire in Forest Environments
21. A Single-Chip 5GHz WLAN Transmitter in 0.35μm Si/SiGe BiCMOS Technology
22. Design of an asymmetrical dual-band WLAN filter in liquid crystal polymer (LCP) system-on-package technology
23. A cost driven 24GHz Doppler radar sensor development for automotive applications
24. A 3-V variable-gain amplifier in Si/SiGe BiCMOS technology for 5-GHz WLAN applications
25. 3-D-Integrated RF and Millimeter-Wave Functions and Modules Using Liquid Crystal Polymer (LCP) System-on-Package Technology
26. An Active Cuber Circuit for Power Amplifier Analog Predistortion
27. A System-on-Chip millimeter-wave radiometer for the space-based observation of solar flares.
28. Low-cost assembly of UHF RFID chips and flexible substrate antennas by magnetic coupling approach.
29. A Ku-band RFID system for robust road-to-car communications.
30. A low-cost 24GHz Doppler radar sensor for traffic monitoring implemented in standard discrete-component technology.
31. Systematic Experimental and Numerical Characterization of Integrated Spiral Inductors in Silicon RF ICs
32. A cost driven 24 GHz Doppler radar sensor development for automotive applications.
33. Design of RFICs in 0.35 /spl mu/m Si/SiGe BiCMOS technology for a 5GHz domotic transmitter.
34. On the feasibility of single-chip SiGe microwave radiometric sensors.
35. Design of driver amplifiers in sice technology for 5 GHz WLAN applications.
36. Development of Low-Cost 24-GHz Circuits Exploiting System-in-Package (SiP) Approach and Commercial PCB Technology.
37. A Ku-band RF Self Identification (RFSID) system for autonomous logistics.
38. Crossed dipole frequency doubling RFID TAG based on paper substrate and ink-jet printing technology.
39. Nonlinear harmonic-balance (HB) and finite difference time domain (FDTD) co-simulation of a low-cost 24GHz DRO.
40. Analysis of CMOS interconnections combining LE-FDTD method and SOC procedure.
41. Design of RFICs in 0.35 μm Si/SiGe BiCMOS technology for a 5 GHz domotic transmitter.
42. Multi-band RF and mm-wave design solutions for integrated RF functions in liquid crystal polymer system-on-package technology.
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.