A CMOS analog to digital converter based on the folding and interpolating technique is presented. This technique is successfully applied in bipolar A/D converters and now also becomes available in CMOS technology. The analog bandwidth of the A/D converter is increased by using a transresistance amplifier at the outputs of the folding amplifiers and, due to careful circuit design, the comparators need no offset compensation. The result is a small area (0.7 mm2 in 0.8 µm CMOS), high speed (70 MS/s), and low-power (110 mW at 5 V supply, including reference ladder) A/D converter. A 3.3 V supply version of the circuit runs at 45 MS/s and dissipates 45 m
This paper presents an 8-bit low power cascaded folding and interpolating analog-to-digital converte...
This proposal of a new interpolation technique is presented for application in a double folding A/D ...
An 8-bit 200MHz low-power CMOS folding and interpolating analog-to-digital converter is presented.A ...
A CMOS analog to digital converter based on the folding and interpolating technique is presented. Th...
A CMOS analog to digital converter based on the folding and interpolating technique is presented. Th...
A 250MS/s, 6-bit CMOS folding and current-mode interpolating A/D Converter is designed in a 1mum sta...
Thesis (M.Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
A master-slave T/H circuit with the offset compensative amplifiers is proposed, which can improve sa...
A 8-bit 150MHz low-power CMOS folding and interpolating analog-to-digital converter with a fully-fol...
In bipolar technology the folding and interpolation technique has proven to be successful for high s...
An analog-to-digital converter incorporating a distributed track-and-hold preprocessing combined wit...
A 450MS/s, 6-bit CMOS folding and current-mode interpolating A/D Converter is designed in a 0.5mum s...
The design techniques for analog-to-digital converters (ADCs) require careful optimization in order ...
Abstract—An ADC using folding and interpolating tech-niques has been realised in 0.35 µm CMOS. A cur...
Demands for high speed A/D converters are increasing rapidly intelecommunications and digital signal...
This paper presents an 8-bit low power cascaded folding and interpolating analog-to-digital converte...
This proposal of a new interpolation technique is presented for application in a double folding A/D ...
An 8-bit 200MHz low-power CMOS folding and interpolating analog-to-digital converter is presented.A ...
A CMOS analog to digital converter based on the folding and interpolating technique is presented. Th...
A CMOS analog to digital converter based on the folding and interpolating technique is presented. Th...
A 250MS/s, 6-bit CMOS folding and current-mode interpolating A/D Converter is designed in a 1mum sta...
Thesis (M.Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
A master-slave T/H circuit with the offset compensative amplifiers is proposed, which can improve sa...
A 8-bit 150MHz low-power CMOS folding and interpolating analog-to-digital converter with a fully-fol...
In bipolar technology the folding and interpolation technique has proven to be successful for high s...
An analog-to-digital converter incorporating a distributed track-and-hold preprocessing combined wit...
A 450MS/s, 6-bit CMOS folding and current-mode interpolating A/D Converter is designed in a 0.5mum s...
The design techniques for analog-to-digital converters (ADCs) require careful optimization in order ...
Abstract—An ADC using folding and interpolating tech-niques has been realised in 0.35 µm CMOS. A cur...
Demands for high speed A/D converters are increasing rapidly intelecommunications and digital signal...
This paper presents an 8-bit low power cascaded folding and interpolating analog-to-digital converte...
This proposal of a new interpolation technique is presented for application in a double folding A/D ...
An 8-bit 200MHz low-power CMOS folding and interpolating analog-to-digital converter is presented.A ...