1. Analysis of Reference-Tap-Voltage Fluctuation in Flash A/D Converter.
- Author
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Nakaya, Masao, Kumamoto, Toshio, Miki, Takahiro, and Horiba, Yasutaka
- Subjects
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ELECTRIC potential , *FLUCTUATIONS (Physics) , *CASCADE converters , *ELECTRIC resistors , *ELECTRIC capacity , *COMPARATOR circuits - Abstract
To improve the speed and accuracy of the CMOS flash A/D converter using a copper-type comparator, an analysis has been perforated for the voltage variation at each reference terminal of the ladder resistor providing a reference voltage. A model has been developed in which the circuit made of the ladder resistor and the input capacitance of the comparator is treated as a distributed network. A theoretical formula is derived which analytically provides transient behavior of each reference terminal voltage due to change in the comparator. With this formula, it is found that the maximum error of the reference terminal voltage occurs when the input voltage is either 0 or V ref. The error decreases exponentially with reduction of ladder resistors and comparator input capacitances and with increase of time. It is found that the product of the ladder resistor and the comparator input capacitance between adjacent terminals must he less than 5 × 10-13 F·Ω in order to obtain an 8 bit A/D converter with 20 MS/s. Variation is decreased if the mid-point of the ladder resistor is fixed. For instance, when the midpoint is fixed, the product of the ladder resistor and the comparator input capacitance is allowed to increase up to 2 × 10-12 F·Ω. [ABSTRACT FROM AUTHOR]
- Published
- 1987
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