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Performance Comparison of Selective Rake Receivers with CLEAN Algorithms in UWB SystemsYang, Siang-Yu 26 July 2006 (has links)
The Ultra-Wideband (UWB) channel is a dense multipath channel. The system performance and design complexity issues of selective-Rake receiver (SRake) are studied. Rake receiver has difficulties achieving desired system performance in the dense multipath environment. The main ideas of SRake receiver are to obtain the SNR level on known multipath channel and determine the desired number of Rake fingers. In the implementation of the SRake, the CLEAN algorithm is used in selecting the paths with relatively high energy. We can improve the performance of SRake receiver by increasing the accuracy of path selection. By the property of local maximum peak within the smaller partition, Two-Stage CLEAN algorithm acquires the more accurate delay time of multipath. In order to mitigate the sidelobe effect and noise interference, the key assumption in the Deng¡¦s Modified CLEAN algorithm is that using average amplitude around the considered data change as the criterion to determine if the data value is a true path. In this thesis, we investigate CLEAN, Two-Stage CLEAN and Deng¡¦s Modified CLEAN algorithm in three different systems including UWB-Impulse Radio, Pulse Radar and DS-UWB. From the performance comparison, it can be seen that the Two-Stage CLEAN algorithm that has the highest accuracy of path selection in UWB system.
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Statistical analysis of multiuser and narrowband interference and superior system designs for impulse radio ultra-wide bandwidth wirelessShao, Hua Unknown Date
No description available.
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Ultra-wideband channel estimation with application towards time-of-arrival estimationLiu, Ted C.-K. 25 August 2009 (has links)
Ultra-wideband (UWB) technology is the next viable solution for applications in wireless personal area network (WPAN), body area network (BAN) and wireless sensor network (WSN). However, as application evolves toward a more realistic situation, wideband channel characteristics such as pulse distortion must be accounted for in channel modeling. Furthermore, application-oriented services such as ranging and localization demand fast prototyping, real-time processing of measured data, and good low signal-to-noise ratio (SNR) performance. Despite the tremendous effort being vested in devising new receivers by the global research community, channel-estimating Rake receiver is still one of the most promising receivers that can offer superior performance to the suboptimal counterparts. However, acquiring Nyquist-rate samples costs substantial power and resource consumption and is a major obstacle to the feasible implementation of the asymptotic maximum likelihood (ML) channel estimator.
In this thesis, we address all three aspects of the UWB impulse radio (UWB-IR), in three separate contributions. First, we study the {\it a priori} dependency of the CLEAN deconvolution with real-world measurements, and propose a high-resolution, multi-template deconvolution algorithm to enhance the channel estimation accuracy. This algorithm is shown to supersede its predecessors in terms of accuracy, energy capture and computational speed. Secondly, we propose a {\it regularized} least squares time-of-arrival (ToA) estimator with wavelet denoising to the problem of ranging and localization with UWB-IR. We devise a threshold selection framework based on the Neyman-Pearson (NP) criterion, and show the robustness of our algorithm by comparing with other ToA algorithms in both computer simulation and ranging measurements when advanced digital signal processing (DSP) is available. Finally, we propose a low-complexity ML (LC-ML) channel estimator to fully exploit the multipath diversity with Rake receiver with sub-Nyquist rate sampling. We derive the Cram\'er-Rao Lower Bound (CRLB) for the LC-ML, and perform simulation to compare our estimator with both the $\ell_1$-norm minimization technique and the conventional ML estimator.
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Impulse Radio UWB for the Internet-of-Things : A Study on UHF/UWB Hybrid SolutionZou, Zhuo January 2011 (has links)
This dissertation investigates Ultra-Wideband (UWB) techniques for the next generation Radio Frequency Identification (RFID) towards the Internet-of-Things (IoT). In particular, an ultra-high frequency (UHF) wireless-powered UWB radio (UHF/UWB hybrid) with asymmetric links is explored from system architecture to circuit implementation. Context-aware, location-aware, and energy-aware computing for the IoT demands future micro-devices (e.g., RFID tags) with capabilities of sensing, processing, communication, and positioning, which can be integrated into everyday objects including paper documents, as well as food and pharmaceutical packages. To this end, reliable-operating and maintenance-free wireless networks with low-power and low-cost radio transceivers are essential. In this context, state-of-the-art passive RFID technologies provide limited data rate and positioning accuracy, whereas active radios suffer from high complexity and power-hungry transceivers. Impulse Radio UWB (IR-UWB) exhibits significant advantages that are expected to overcome these limitations. Wideband signals offer robust communications and high-precision positioning; duty-cycled operations allow link scalability; and baseband-like architecture facilitates extremely simple and low-power transmitters. However, the implementation of the IR-UWB receiver is still power-hungry and complex, and thus is unacceptable for self-powered or passive tags. To cope with μW level power budget in wireless-powered systems, this dissertation proposes an UHF/UWB hybrid radio architecture with asymmetric links. It combines the passive UHF RFID and the IR-UWB transmitter. In the downlink (reader-tag), the tag is powered and controlled by UHF signals as conventional passive UHF tags, whereas it uses an IR-UWB transmitter to send data for a short time at a high rate in the uplink (tag-reader). Such an innovative architecture takes advantage of UWB transmissions, while the tag avoids the complex UWB receiver by shifting the burden to the reader. A wireless-powered tag providing -18.5 dBm sensitivity UHF downlink and 10 Mb/s UWB uplink is implemented in 180 nm CMOS. At the reader side, a non-coherent energy detection IR-UWB receiver is designed to pair the tag. The receiver is featured by high energy-efficiency and flexibility that supports multi-mode operations. A novel synchronization scheme based on the energy offset is suggested. It allows fast synchronization between the reader and tags, without increasing the hardware complexity. Time-of-Arrival (TOA) estimation schemes are analyzed and developed for the reader, which enables tag localization. The receiver prototype is fabricated in 90 nm CMOS with 16.3 mW power consumption and -79 dBm sensitivity at 10 Mb/s data rate. The system concept is verified by the link measurement between the tag and the reader. Compared with current passive UHF RFID systems, the UHF/UWB hybrid solution provides an order of magnitude improvement in terms of the data rate and positioning accuracy brought by the IR-UWB uplink. / QC 20120110
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Conception de générateurs d'impulsions et des circuits de mise en forme reconfigurables associés / Design of pulse generator and reconfigurable shaping circuitsMuhr, Eloi 04 November 2016 (has links)
Depuis 2002, différentes bandes de fréquences de plusieurs GHz dites « Ultra-Large Bande » (ULB), généralement comprises entre 3,1GHz et 10,6GHz, ont été libérées de par le monde pour la transmission d’informations sans fil. La largeur de ces bandes est telle qu’il devient envisageable d’utiliser des impulsions comme support de l’information en lieu et place d’une porteuse modulée comme cela est le cas habituellement. En effet, le spectre d’une impulsion étant inversement proportionnel à sa durée, une large plage de fréquences est requise pour la transmission d’informations via des impulsions. Cependant, il devient possible d’accroitre les débits en rapprochant les impulsions émises lorsque ceci est nécessaire, tout en offrant la possibilité d’éteindre les circuits et donc réduire la consommation lorsque deux impulsions sont suffisamment éloignées dans le temps.Le travail de recherche de cette thèse est dans ce contexte de proposer une structure d’émetteur impulsionnel reconfigurable disposant d’un contrôle suffisamment fin pour s’adapter aux différents canaux des standards IEEE 802.15.4 et 802.15.6 et ce, en n’utilisant que des circuits numériques pour les besoins des applications faibles coût. Pour cela, une étude théorique sur la mise en forme des impulsions requises est faite. Puis, il est question de la conception des différentes fonctions nécessaires à la mise en œuvre d’un émetteur impulsionnel reconfigurable, telles qu’un oscillateur contrôlé en tension pour la bande 3,1GHz-10,6GHz à démarrage rapide et que le circuit de mise en forme des oscillations associé. / Since 2002, various frequency bands of several GHz called "Ultra-WideBand" (UWB), generally between 3,1GHz and 10,6GHz, were liberalized in the world for wireless data transmission. The width of these bands is that it becomes possible to use pulses instead of a modulated carrier to transmit data. Indeed, as the spectrum of a pulse is inversely proportional to its duration, a wide range of frequencies is required for the transmission of information via pulses. However, it becomes possible to increase the rates by moving closer the emitted pulses when this is necessary, while providing the ability to switch off the circuits and thus reduce power consumption when two pulses are sufficiently far in time.To standardize the use of UWB frequency bands, standards such as IEEE 802.15.4 and 802.15.6 standards have emerged and have chosen to cut these frequency bands in channels of 500MHz and more. The aim of this thesis is also to propose a reconfigurable pulse transmitter structure with a fine enough control to address the different channels of IEEE 802.15.4 and 802.15.6 standard and, using only digital circuits to target low cost applications. For this, a theoretical study on the shaping of pulses required is made. Then it comes to the design of the various functions necessary for the implementation of a reconfigurable pulse transmitter, such as the implementation of a voltage controlled oscillator for 3,1GHz band-10,6GHz with quick start ability and the required oscillations shaping circuit.
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Conception d'un estimateur intégré en technologie CMOS de la densité spectrale de puissance pour l’auto-calibration des émetteurs radio impulsionnels ultra-large bande / Design of an integrated CMOS power spectral density estimator for ultra wideband impulse radio transmitters self-calibrationGoavec, Anthony 07 February 2018 (has links)
Ce travail de thèse s’articule autour de la problématique du respect des gabarits spectraux d’émission imposés par les règlementations et les normes dans le domaine des émetteurs radio impulsionnels ultra-large bande. Le choix a été fait de réaliser un capteur in-situ venant extraire les informations nécessaires à une estimation sur puce de la densité spectrale de puissance. Un algorithme d’estimation embarqué peut alors permettre de détecter les gabarits violés et pouvoir rétroagir sur le dispositif. La grande diversité constatée parmi les règlementations et les normes en vigueur ainsi que dans les différentes architectures de générateurs d'impulsions a alors motivé la réalisation d'un système de calibration universel à tous les émetteurs par prise d'informations en sortie. Le manuscrit s'est alors employé à représenter une impulsion à partir de son enveloppe instantanée et de sa fréquence instantanée, ces deux grandeurs temporelles pouvant être extraites pour tout type d'impulsions. Il a été également proposé dans le chapitre une première technique de calibration basée sur la modification de l'enveloppe à des instants précis qui permet de faire rentrer le spectre dans le gabarit tout en maximisant l'occupation de celui-ci. Enfin, l'extraction de l'enveloppe instantanée et de la fréquence instantanée a été abordée en proposant une technique d'extraction par transposition de l'information en bande de base. La conception des dispositifs électroniques nécessaires a été présentée et ceux-ci ont été implémentés sur la même puce qu'un générateur d'impulsions dans le but de réaliser un démonstrateur qui a validé l'utilisation du système étudié. / This thesis focusses on the power emission constraints defined by regulations and standards for every kinds of ultra-wide band impulse radio transmitters. In fact, these power emission constraints have to be respected all along the device life. Also, an integrated sensor able to extract the essential information for an on-chip estimation of the power spectral density has been realized. Then, an embedded algorithm is added to the system and detects if a power limit is broken. If necessary, it acts on the transmitter to solve the problem. In the first chapter, a large variety of power constraints shapes and several architectures of impulse generators have been observed and studied. Therefore, the aim of this thesis is to realise a calibration system which would be universal to all impulse radio transmitters. After its extraction at the output of the transmitter, information have to be downconverted in order to reduce the constraints on conversion stage but without using a local oscillator and a mixer. A model for the impulse signal based on the instantaneous envelop and on the instantaneous frequency has been proposed in the second chapter. A new calibration method based on these two signals is also presented. The last chapter concentrates on detailing the extraction of the instantaneous envelop and the instantaneous frequency. The design of the electronic devices essential to this extraction is presented and a chip has been realised and the viability of the solution shown.
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[en] NOVEL SPARSE SYSTEMS LEAST SQUARES ESTIMATION METHODS / [pt] NOVOS MÉTODOS PARA ESTIMAÇÃO POR MÍNIMOS QUADRADOS DE SISTEMAS ESPARSOSALEXANDRE DE MACEDO TORTURELA 29 June 2016 (has links)
[pt] Neste trabalho, quatro métodos projetados especificamente para a estimação de sistemas esparsos são originalmente elaborados e apresentados.
São eles: Encolhimentos Sucessivos, Expansões Sucessivas, Minimização da
Norma l1 e Ajuste Automático do fator de regularização do Custo LS. Os
quatro métodos propostos baseiam-se na técnica de estimação de sistemas
lineares e invariantes no tempo pelo critério dos mínimos quadrados, universalmente
conhecida por sua denominação em inglês - Least Squares (LS)
Estimation, e incorporam técnicas relacionadas a otimização convexa e à
teoria de compressive sensing. Os resultados obtidos em simulações mostram
que os métodos em questão têm desempenho superior que a estimação LS
convencional e que o algoritmo Recursive Least Squares (RLS) com regularização convexa denominado l1-RLS, em muitos casos alcançando o desempenho
ótimo apresentado pelo método de estimação LS Oráculo, no qual
o suporte da resposta ao impulso em tempo discreto do sistema estimado
é conhecido a priori. Além disso, os métodos propostos apresentam custo
computacional menor que do algoritmo l1-RLS. / [en] In this thesis, four methods specifically designed for sparse systems
estimation are originally developed and presented, which were called here:
Relaxations method, Successive Expansions method, l1-norm Minimization
method and Automatic Adjustment of the Regularization Factor method.
The four proposed methods are based on the Least Squares (LS) Estimation
method and incorporate techniques related to convex optimization and to
the theory of compressive sensing. The simulation results show that the
proposed methods herein present superior performance than the ordinary
LS estimation method and the Recursive Least Squares (RLS) with convex
regularization method (l1-RLS), in many cases achieving the same optimal
performance presented by the LS Oracle method. Furthermore, the proposed
methods demand lower computational cost than the l1-RLS method.
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Evaluations and analysis of IR-UWB receivers for personal medical communicationsNiemelä, V. (Ville) 28 February 2017 (has links)
Abstract
Impulse radio ultra-wideband (IR-UWB) technology, due to its baseband signaling, potentially offers a low cost, low complexity and low power consumption option for different short range sensor network applications. These sensor networks can be applied to many kinds of future implementations, including the Internet of Things (IoT) applications. In the medical and healthcare context, the term wireless body area network (WBAN) is often used, but, as mentioned, the wireless technology itself can be applied to any kind of body, e.g., to car or robot body networks.
This thesis studies IR-UWB receivers’ performances in different hospital environment channel models by means of computer simulation. The main focus is on receivers that are capable of detecting the signals specified either in the IEEE 802.15.4-2015 or in the IEEE 802.15.6-2012 standards. The used channel models from two independent research groups include both on-body to on-body and on-body to off-body scenarios in different hospital environments.
The evaluations and comparisons of various receivers include energy detector (ED) and rake receivers, the latter with both selective- and partial-rake structures. One of the studied receiver structures is further analyzed as it was noticed that the simulation results did not correspond to the assumed theoretical bit error probability (BEP) curves. Along the standards based studies, some modifications are also suggested for the two existing IR-UWB standards for increased compatibility and improved performance. One of the propositions resulted a Patent Cooperation Treaty (PCT) patent application. Additionally, an extensive survey is provided offering a compilation which includes presentations of IR-UWB research by other researchers, existing standards’ IR-UWB physical layer (PHY) specifications and the main global regulations concerning UWB. / Tiivistelmä
Erittäin laajakaistainen impulssiradioteknologia (IR-UWB) tarjoaa potentiaalisen vaihtoehdon yksinkertaisille, edullisille ja matalan tehonkulutuksen omaaville lähetin-vastaanotin-ratkaisuille, jotka soveltuvat lyhyen kantaman sensoriverkkoihin. Nämä sensoriverkot ovat monikäyttöisiä soveltuen esimerkiksi tulevaisuuden esineiden internetin (IoT) tiedonsiirtoratkaisuiksi. Esimerkiksi sairaanhoidon ja terveydenhuollon asiayhteyksissä käytetään monesti termiä langaton kehoverkko (WBAN), joka voidaan asentaa monenlaisiin eri sovelluskohteisiin kuten autoon tai vaikkapa robotin "keholle".
Tässä väitöskirjassa on tutkittu tietokonesimulaatioiden avulla erilaisten IR-UWB vastaanotinrakenteiden suorituskykyä sairaalaympäristöä mallintavissa radiokanavissa. Tutkimuksen painopiste on vastaanottimissa, jotka kykenevät vastaanottamaan joko IEEE 802.15.4-2015- tai IEEE 802.15.6-2012-standardeissa määritellyn signaalin. Sairaalaympäristöä mallintavat radiokanavat perustuvat kahden toisistaan riippumattoman tutkijaryhmän mallinnuksiin, jotka sisältävät sekä keholta-keholle että keholta-kehon ulkopuolelle -radiokanavamallit.
Energiailmaisin (ED) ja erilaiset harava-vastaanottimet ovat niitä vastaanotinrakenteita, joita tähän väitöskirjaan kuuluvissa artikkeleissa on arvioitu ja vertailtu. Yhtä vastaanotinrakennetta on myös analysoitu tarkemmin, kun havaittiin, etteivät kyseistä rakennetta koskevat simulaatiotulokset vastanneet oletettuja teoreettisia bittivirhetodennäköisyyksiä. Tutkimuksessa kehitettiin lisäksi olemassa olevien standardien ratkaisuihin liittyviä parannusehdotuksia, joita esitettiin muutamissa tähän väitöskirjaan sisällytetyissä artikkeleissa. Yhdestä ehdotuksesta tehtiin myös PCT-sopimuksen alainen patentointihakemus. Lisäksi yhdessä tähän väitöskirjaan sisällytetyssä artikkelissa on paitsi laaja kirjallisuuskatsaus sisältäen katsauksen muiden tekemiin IR-UWB- tutkimuksiin, myös olemassa olevien standardien fyysisten kerroksien määritykset koskien IR-UWB-teknologiaa ja tärkeimmät maailmanlaajuiset UWB-tekniikkaa koskevat signaalin tehotiheysmääräykset.
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Conception et intégration en technologie "System in Package" d'émetteurs récepteurs ultra large bande pour communications ULB impulsionnelles dans la bande de fréquence 3.1 - 10.6 GHzFourquin, Olivier 07 December 2011 (has links)
Les systèmes radio impulsionnelle Ultra large bande (IR-ULB), de part la nature de leurs signaux et de leurs architectures, montrent des caractéristiques intéressantes pour concurrencer les technologies existantes (Zigbee, Bluetooth et RFID) pour certaines applications nécessitant un faible coût et une faible consommation de puissance. Dans ce contexte cette thèse évalue les potentialités des systèmes IR-ULB pour la réalisation d’objets communicants miniatures.En utilisant une technologie "System In Package" (SiP), des objets communicants ULB prototype intégrant une ou plusieurs puces CMOS et une antenne ULB directement réalisée sur le boîtier sont présentés dans la thèse. Les transitions entre le circuit imprimé et les puces sont réalisées avec des fils d'interconnexion ("wirebonding"). Les points d'étude de la thèse se focalisent particulièrement sur la mise en boîtier d'une puce ULB et sur la conception sur silicium de la tête radio fréquence d'un système ULB. La réalisation d'une interconnexion faible cout par "wirebonding" entre un circuit intégré ULB et son support est problématique aux fréquences utilisées en ULB (3-10 GHz) en raison des éléments parasites importants limitant sa bande passante. Pour obtenir une transition ne dégradant pas les signaux ULB, plusieurs méthodologies d’interfaçage sont proposées permettant de réaliser sans augmentation notable de cout une transition large bande entre le circuit intégré et le circuit imprimé du boîtier. L'intégration en technologie CMOS standard des éléments principaux constituant la tête radio fréquence d'un système ULB impulsionnel (LNA, détecteur d'impulsions et générateurs d'impulsions) est étudiée. L'intérêt d'un co-design entre le silicium et le circuit imprimé lors de la conception de ces éléments est mis en avant. L'intégration ainsi que la miniaturisation du système final dans une technologie SIP sont également présentées. / Due to the nature of their signals and their architectures, Impulse Radio Ultra Wide Band (IR-UWB) systems show interesting features to compete with existing technologies (Zigbee, Bluetooth and RFID UHF) for low cost and low power applications. In this context, this thesis evaluates the potential of UWB systems for the realization of miniature communication devices.The thesis presents UWB communicating devices realized with a System in Package (SiP) technology. Devices incorporate one or several CMOS chips and an antenna directly printed on the board (PCB). Transitions between the PCB and the chips are made with standard wire bonds. The thesis especially focuses on packaging of UWB dice and on the design of UWB front end radio frequency.Due to important parasitic elements limiting its bandwidth, wire bonds transition is problematic for UWB applications (3-10 GHz). This thesis proposes several methodologies to interface integrated circuit and PCB to obtain a broadband transition without increasing cost production. The integration in standard CMOS technology of main components comprising the UWB radio frequency front end (LNA, pulse detector and pulse generator) is studied. The interest of a co-design between silicon and PCB to design these elements is pointed up. Integration and miniaturization of the final system in a SIP technology are also presented.
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Etude et réalisation de circuits de récupération d'horloge et de données analogiques et numériques pour des applications bas débit et très faible consommation. / Study and realization of analog and digital clock and data recovery circuits at low rates, implementation on ASIC and FPGA targetsTall, Ndiogou 10 June 2013 (has links)
Les circuits de récupération d'horloge et de données sont nécessaires au bon fonctionnement de plusieurs systèmes de communication sans fil. Les travaux effectués dans le cadre de cette thèse concernent le développement de ces circuits avec d'une part la réalisation, en technologie HCMOS9 0,13 μm de STMICROELECTRONICS, de circuits CDR analogiques à 1 et 54 Mbit/s, et d'autre part, la mise en œuvre de fonctions CDR numériques programmables à bas débit. Un circuit CDR fonctionnant à plus bas débit (1 Mbit/s) a été conçu dans le cadre de la gestion d'énergie d'un récepteur ULB impulsionnel non cohérent. Ces deux structures ont été réalisées à l'aide de PLL analogiques du 3ème ordre. Un comparateur de phase adapté aux impulsions issues du détecteur d'énergie a été proposé dans cette étude. Les circuits ont ensuite été dimensionnés dans le but d'obtenir de très bonnes performances en termes de jitter et de consommation. En particulier, les performances mesurées (sous pointes) du circuit CDR à 1 Mbit/s permettent d'envisager une gestion d'énergie efficace (réduction de plus de 97% de la consommation du récepteur). Dans le cadre d'une chaîne de télémesure avion vers sol, deux circuits CDR numériques ont également été réalisés durant cette thèse. Une PLL numérique du second degré a été implémentée en vue de fournir des données et une horloge synchrone de celles-ci afin de piloter une chaîne SOQPSK entièrement numérique. Un circuit ELGS a également mis au point pour fonctionner au sein d'un récepteur PCM/FM. / Clock and data recovery circuits are required in many wireless communication systems. This thesis is about development of such circuits with: firstly, the realization, in HCMOS9 0.13 μm of STMICROELECTRONICS technology, of 1 and 54 Mb/s analog CDR circuits, and secondly, the implementation of programmable digital circuits at low rates. In the aim of an impulse UWB transceiver dealing with video transmission, a CDR circuit at 54 Mb/s rate has been realized to provide clock signal synchronously with narrow pulses (their duration is about a few nanoseconds) from the energy detector. Another CDR circuit has been built at 1 Mb/s rate in a non-coherent IR- UWB receiver power management context. Both circuits have been implemented as 3rd order analog PLL. In this work, a phase comparator suitable for “RZ low duty cycle” data from the energy detector has been proposed. Circuits have been sized to obtain very good performances in terms of jitter and power consumption. Particularly, measured performances of the 1 Mb/s CDR circuit allow to plan an efficient power management (a decrease of more than 97% of the receiver total power consumption). In the context of a telemetry system from aircraft to ground, two digital CDR circuits have also been implemented. A second order digital PLL has been adopted in order to provide synchronous clock and data to an SOQPSK digital transmitter. Also, a digital ELGS circuit has been proposed to work in a PCM/FM receiver. For both CDR structures, the input signal rate is programmable and varies globally from 1 to 30 Mb/s.
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