Title :
Si bipolar 2-GHz 6-bit flash A/D conversion LSI
Author :
Wakimoto, Tsutomu ; Akazawa, Yukio ; Konaka, Shinsuke
Author_Institution :
LSI Labs., NTT Corp., Kanagawa, Japan
fDate :
12/1/1988 12:00:00 AM
Abstract :
A gigahertz-sampling-rate flash A/D (analog/digital)-conversion LSI using high-speed Si bipolar technology (SST-1B) is investigated. To improve comparator speed, a circuit technology to minimize the comparator-speed limiting factors with minimum power is investigated and applied. To enhance the dynamic accuracy, speed mismatch among comparators is also minimized using this circuit technology. To improve encoder speed, a quasi-Gray code is adopted and glitch noise is reduced with this code. The LSI performance at 1-GHz sampling rate is measured with a gigahertz-operation data acquisition system developed with the SST MSI family, and effective bits of 5.8 at an input frequency of 100 MHz and 4.8 at 500 MHz are achieved. This LSI also demonstrates the feasibility of a single-chip flash A/D converter with a gigahertz sampling rate using Si bipolar technology
Keywords :
analogue-digital conversion; bipolar integrated circuits; elemental semiconductors; error correction codes; large scale integration; silicon; 1 GHz; 100 MHz; 2 GHz; 500 MHz; LSI; SST MSI family; Si; data acquisition; dynamic accuracy; feasibility; glitch noise; noise reduction; quasi-Gray code; single-chip flash A/D converter; speed mismatch; Circuit noise; Data acquisition; Frequency conversion; Gallium arsenide; Large scale integration; Noise reduction; Power measurement; Sampling methods; Signal sampling; Velocity measurement;
Journal_Title :
Solid-State Circuits, IEEE Journal of
