Contribution to the design of continuous -time Sigma - Delta Modulators based on time delay elements

• Autores: Enrique Prefasi Sen
• Directores de la Tesis: Luis Hernández Corporales (dir. tes.)
• Lectura: En la Universidad Carlos III de Madrid ( España ) en 2008
• Idioma: inglés
• Tribunal Calificador de la Tesis: Alfonso Carlosena García (presid.), Emilio Olías Ruiz (secret.), Ramon Gonzalez Carvajal (voc.), José Manuel de la Rosa Utrera (voc.), Pierre Rombouts (voc.)
• Materias:
  • Ciencias tecnológicas
    • Tecnología electrónica
      • Diseño de circuitos
• Enlaces
  • Tesis en acceso abierto en: e-Archivo
• Resumen

  • The research carried out in this thesis is focused in the development of a new class of data converters for digital radio. There are two main architectures for communication receivers which perform a digital demodulation. One of them is based on analog demodulation to the base band and digitization of the I/Q components. Another option is to digitize the band pass signal at the output of the IF stage using a bandpass Sigma-Delta modulator. Bandpass Sigma- Delta modulators can be implemented with discrete-time circuits, using switched capacitors or continuous-time circuits. The main innovation introduced in this work is the use of passive transmission lines in the loop filter of a bandpass continuous-time Sigma-Delta modulator instead of the conventional solution with gm-C or LC resonators. As long as transmission lines are used as replacement of a LC resonator in RF technology, it seems compelling that transmission lines could improve bandpass continuous-time Sigma-Delta modulators. The analysis of a Sigma- Delta modulator using distributed resonators has led to a completely new family of Sigma- Delta modulators which possess properties inherited both from continuous-time and discretetime Sigma-Delta modulators. In this thesis we present the basic theory and the practical design trade-offs of this new family of Sigma-Delta modulators. Three demonstration chips have been implemented to validate the theoretical developments. The first two are a proof of concept of the application of transmission lines to build lowpass and bandpass modulators. The third chip summarizes all the contributions of the thesis. It consists of a transmission line Sigma-Delta modulator which combines subsampling techniques, a mismatch insensitive circuitry and a quadrature architecture to implement the IF to digital stage of a receiver.