Silicon‐based on‐chip four‐channel phased‐array radar transmitter with ferroelectric thin film at 100 GHz

Autor: Shuming Chen, Hui Huang, Ke Xiao, Jingtian Liu, Xiaowen Chen
Rok vydání: 2019
Předmět:
ferroelectric film phase shifters
ferroelectric devices
Phased array
02 engineering and technology
0202 electrical engineering
electronic engineering
information engineering
low loss tangent polymer film
Insertion loss
planar array ferroelectric film phase shifters
phased array radar
microstrip antennas
General Engineering
phase shifters
four-element antenna array
Optoelectronics
microwave phase shifters
patch antennas
Antenna (radio)
DC bias lines
ferroelectric thin films
polymer films
frequency 100.0 GHz
Materials science
millimetre wave radar
Planar array
Energy Engineering and Power Technology
Microstrip
power dividers
Antenna array
Microstrip antenna
radar transmitters
millimetre wave antenna arrays
monolithic silicon substrate
loss 3.95 dB
system-on-chip
microstrip lines
Patch antenna
silicon-based system-on-chip radar RF front-end system
business.industry
020208 electrical & electronic engineering
silicon-based on-chip four-channel phased-array radar transmitter
low permittivity polymer film
silicon
020206 networking & telecommunications
permittivity
microwave integrated circuits
ferroelectric thin film
microstrip antenna arrays
lcsh:TA1-2040
silicon-based phased-array transmitter
benzocyclobutene polymer film
size 0.45 mm
antenna phased arrays
lcsh:Engineering (General). Civil engineering (General)
business
Software
Zdroj: The Journal of Engineering (2019)
ISSN: 2051-3305
Popis: A silicon-based phased-array transmitter working at 100 GHz is proposed in this study. Planar array ferroelectric film phase shifters (FPSs) are realised with patch antennas, DC bias lines, microstrip lines and power dividers on a monolithic silicon substrate. The system enables full process compatibility and avoids loss caused by multichip interconnection. The isolation layer uses benzocyclobutene polymer film with low permittivity and low loss tangent, providing large thickness physical isolation. The FPS has a compact length of 0.45 mm, and simulation results show that its phase shift degree at 100 GHz is 125.7° with 3.95 dB insertion loss and 11.4 dB reflection loss. The patch antenna shows that the maximum simulated radiation gain of the single antenna is 4 dBi and the four-element antenna array is 9.7 dBi at 100 GHz. The beam can be steered to ±10°. The proposed system lays an important foundation for the realisation of silicon-based system-on-chip radar RF front-end system.
Databáze: OpenAIRE
Externí odkaz: