A/D Wandler

Unsere Forschungen im Bereich der Analog-Digital Wandler (ADCs) umfassen mehrere Bereiche. Zum einen werden unterschiedliche Architekturen von Sigma-Delta Wandlern, zum anderen hochauflösende SAR A/D Wandler untersucht.

Dabei steht bei Sigma-Delta Wandlern die Beschreibung und Modellierung der nichtidealen Eigenschaften im Fokus. Darüber hinaus werden optimierte Entwurfsmethoden für Sigma-Delta Modulatoren entwickelt. Sowohl innovative Architekturen als auch neue Schaltungstechniken werden umgesetzt. Die Arbeiten betrachten dabei insbesondere Sigma-Delta A/D Wandler für drahtlose Empfängerschaltungen und biomedizinische Implantate.

Des Weiteren werden neue Konzepte für hochauflösende SAR A/D Wandler untersucht. Bei allen Forschungsgebieten werden neuartige Architekturen mit niedrigstem Leistungsverbrauch angestrebt.


High-Resolution Incremental Sigma Delta ADCs for Biomedical Signals

P. Vogelmann:  In the past few years, an increased interest in biomedical implants like neural recorders is noticeable as measured by the number of publications. These devices are integrated circuits (ICs) that comprise more and more functionality which increases their versatility and importance in medical research...  [more]

Blocker and Jitter-Tolerant Continuous-Time Sigma-Delta ADCs

J. Chi: Continuous-time (CT) Sigma-Delta ADCs are a promising candidate for high-speed receiver applications, such as software-defined radio (SDR), due to its inherent anti-aliasing and signal filtering, potential lower power consumption because of less stringent requirements on Op-Amps, and easy reconfigurability ... [ more]

Online Tool for Rapid Continuous-Time ΣΔ Modulator Design

J. Wagner: ΣΔ A/D converters are the state of the art for many different applications. The basis for this type of A/D converter is the ΣΔ modulator. For a long time, discrete-time (DT) ΣΔ modulators dominated as their design techniques could easily be adopted to ensured high performance... [ more]

High resolution SAR ADC employing Sigma Delta DACs

A. Al Marashli: ADCs are essential building blocks for almost all electronic systems, they represent the key element that allows the digital representation of any electrical signal located in the analog domain, and hence these by-nature analog signals could be processed by the latest sophisticated digital processing units only after well A/D conversion in the ADCs ... [ more]

Ultra-low Power, Wide Bandwidth Continuous-time Sigma Delta Analog to Digital Converter Design

A. Jain: Continues time delta sigma modulators (CTDS) have recently become the key device for broadband wireless and wireline communication.  Due to there built in anti-aliasing filter and the ability to have relaxed sampling requirements the CTDS modulators are preferred over there discrete time counterparts ... [more]