Background Calibration of a 6-Bit 1Gsps Split-Flash ADC

In this MS thesis, a redundant flash analog-to-digital converter (ADC) using a ``Split-ADC\u27 calibration structure and lookup-table-based correction is presented. ADC input capacitance is minimized through use of small, power efficient comparators; redundancy is used to tolerate the resulting large offset voltages. Correction of errors and estimation of calibration parameters are performed continuously in the background in the digital domain. The proposed flash ADC has an effective-number-of-bits (ENOB) of 6-bits and is designed for a target sampling rate of 1Gs/s in 180nm CMOS. The calibration algorithm described has been simulated in MATLAB and an FPGA implementation has been investigated

Pipeline ADC with a Nonlinear Gain Stage and Digital Correction

The goal of this work was to design a pipeline analog to digital converter that can be calibrated and corrected in the digital domain. The scope of this work included the design, simulation and layout of major analog design blocks. The design uses an open loop gain stage to reduce power consumption, increase speed and relax small process size design requirements. These nonlinearities are corrected using a digital correction algorithm implemented in MATLAB

Improving Customer Access to Council Services in the London Borough of Greenwich

This project\u27s purpose was to help the London Borough of Greenwich implement the Internet as an access channel ; however, new technology breeds new problems. Many citizens, in the Borough and around the world, are digitally excluded, due to factors including lack of motivation, access or skill. The data collected showed that those who live in deprived areas, are older, have a lower income, or are disabled are known to be affected. The Council was advised on how to develop its digital services while not excluding particular groups of residents