Impact of Substrate Digital Noise Coupling on the High-Frequency Noise Performance of RF MOSFETs

The impact of digital noise coupling through the substrate on RF MOSFETs was investigated in terms of the noise figure (NF) of the device up to 26.5 GHz. Previous works on the substrate digital noise coupling have treated the effect mostly in terms of the electrical isolation between ports, rather t...

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Bibliographic Details
Published in:IEEE microwave and wireless components letters 2009-09, Vol.19 (9), p.557-559
Main Authors: OH, Yongho, LEE, Seungyong, CHAN HYEONG PARK, RIEH, Jae-Sung
Format: Article
Language:English
Subjects:
Applied sciences
Circuit noise
Coupling circuits
Degradation
Devices
Digital
Electronics
Exact sciences and technology
Guard ring
Guards
Joining
MOSFET circuits
MOSFETs
Noise
Noise figure
Noise measurement
Performance analysis
Radio frequencies
Radio frequency
Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
substrate coupling
substrate noise
System-on-a-chip
Testing
Transistors
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Summary:The impact of digital noise coupling through the substrate on RF MOSFETs was investigated in terms of the noise figure (NF) of the device up to 26.5 GHz. Previous works on the substrate digital noise coupling have treated the effect mostly in terms of the electrical isolation between ports, rather than actual devices, which does not provide direct information on the degradation of actual device performance parameters from such coupling. In this work, an actual NMOSFET was employed for test and the effect was described in terms of NF, a practical device performance parameter. The results show that NF is significantly degraded as the device enters the weak inversion state and/or V ds becomes smaller, suggesting a trade-off between low power operation and immunity against the substrate noise coupling. Also, it is experimentally verified that devices with a dual guard ring showed much smaller NF than those with a single guard ring.
ISSN:1531-1309
2771-957X
1558-1764
2771-9588
DOI:10.1109/LMWC.2009.2027064