The demonstration of S2P (Serial-to-parallel) converter with address allocation method using 28 nm CMOS technology

Min Su Kim; Youngoo Yang; Hyungmo Koo; Hansik Oh

doi:10.3390/app11010429

The demonstration of S²P (Serial-to-parallel) converter with address allocation method using 28 nm CMOS technology

Min Su Kim
, Youngoo Yang
, Hyungmo Koo
, Hansik Oh

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

To improve the performance of analog, RF, and digital integrated circuits, the cutting-edge advanced CMOS technology has been widely utilized. We successfully designed and implemented a high-speed and low-power serial-to-parallel (S²P) converter for 5G applications based on the 28 nm CMOS technology. It can update data easily and quickly using the proposed address allocation method. To verify the performances, an embedded system (NI-FPGA) for fast clock generation on the evaluation board level was also used. The proposed S²P converter circuit shows extremely low power consumption of 28.1 uW at 0.91 V with a core die area of 60 × 60 µm² and operates successfully over a wide clock frequency range from 5 M to 40 MHz.

Original language	English
Article number	429
Pages (from-to)	1-8
Number of pages	8
Journal	Applied Sciences (Switzerland)
Volume	11
Issue number	1
DOIs	https://doi.org/10.3390/app11010429
State	Published - 1 Jan 2021
Externally published	Yes

Keywords

28 nm CMOS
5G
Digital controller
Embedded hardware system
Embedded system
FPGA
Low power
RF Front-End
Serial to parallel converter

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10.3390/app11010429

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abstract = "To improve the performance of analog, RF, and digital integrated circuits, the cutting-edge advanced CMOS technology has been widely utilized. We successfully designed and implemented a high-speed and low-power serial-to-parallel (S2P) converter for 5G applications based on the 28 nm CMOS technology. It can update data easily and quickly using the proposed address allocation method. To verify the performances, an embedded system (NI-FPGA) for fast clock generation on the evaluation board level was also used. The proposed S2P converter circuit shows extremely low power consumption of 28.1 uW at 0.91 V with a core die area of 60 × 60 µm2 and operates successfully over a wide clock frequency range from 5 M to 40 MHz.",

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AB - To improve the performance of analog, RF, and digital integrated circuits, the cutting-edge advanced CMOS technology has been widely utilized. We successfully designed and implemented a high-speed and low-power serial-to-parallel (S2P) converter for 5G applications based on the 28 nm CMOS technology. It can update data easily and quickly using the proposed address allocation method. To verify the performances, an embedded system (NI-FPGA) for fast clock generation on the evaluation board level was also used. The proposed S2P converter circuit shows extremely low power consumption of 28.1 uW at 0.91 V with a core die area of 60 × 60 µm2 and operates successfully over a wide clock frequency range from 5 M to 40 MHz.

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The demonstration of S²P (Serial-to-parallel) converter with address allocation method using 28 nm CMOS technology

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Keywords

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