Analog Baseband Chain in a 0.18 μm Standard Digital CMOS Technology for IEEE802.15.3a (UWB) Receiver

Today UWB (ultra-wideband) communication is gaining a great attention from consumer electronic-industry and is expected to be adopted for many WPAN (wireless personal area network) applications. UWB (Ultra- wideband) communication standard is based the form of direct sequence or OFDM (orthogonal fre...

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Hauptverfasser:	Jeongwook Koh, Hanseung Lee, Jung-Eun Lee, Choong-Yul Cha, Hyun-Su Chae, Eun-Chul Park, Chun-Deok Suh, Hoon-Tae Kim
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Baseband Broadband amplifiers CMOS process CMOS technology Communication standards Gain OFDM Ultra wideband communication Ultra wideband technology Wireless personal area networks
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creator	Jeongwook Koh Hanseung Lee Jung-Eun Lee Choong-Yul Cha Hyun-Su Chae Eun-Chul Park Chun-Deok Suh Hoon-Tae Kim
description	Today UWB (ultra-wideband) communication is gaining a great attention from consumer electronic-industry and is expected to be adopted for many WPAN (wireless personal area network) applications. UWB (Ultra- wideband) communication standard is based the form of direct sequence or OFDM (orthogonal frequency division multiplexing) for high-date-rate application like IEEE 802.15.3a [1]. This paper demonstrates a successful implementation and experimental verification of a CMOS analog baseband chain - variable gain amplifier and low pass filter - for a UWB wireless PAN (personal area network) receiver in a 0.18 μm CMOS process. The experiments features 40 dB linear scaled output gain and a total current of 30 mA.
doi_str_mv	10.1109/TENCON.2005.300948
format	Conference Proceeding
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subjects	Baseband Broadband amplifiers CMOS process CMOS technology Communication standards Gain OFDM Ultra wideband communication Ultra wideband technology Wireless personal area networks
title	Analog Baseband Chain in a 0.18 μm Standard Digital CMOS Technology for IEEE802.15.3a (UWB) Receiver
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