High speed, low-power CMOS voltage buffers

Author

Neag, Marius ; McCarthy, Oliver

Author_Institution

Circuits & Syst. Res. Centre, Limerick Univ., Ireland

Volume

1

fYear

1998

fDate

6-10 Oct 1998

Firstpage

175

Abstract

The standard implementation of a voltage buffer uses a two-stage opamp with total negative feedback; this results in good linearity and low output impedance but also in bandwidth reduction and stability problems. This paper presents several results of a different approach: one stage, class AB configurations, operating in open-loop or at most having some internal feedback. Three such configurations are compared: the simple complementary source follower and two combinations of the complementary source follower and common source stages, the latter driven by supplementary error opamps or directly by the source follower. The three buffers were designed for low-voltage, low-power and optimised for speed. Their bandwidth, output impedance and total harmonic distortion are compared under equal conditions of voltage supply and power consumption. Also, the possibility of driving capacitive loads and the implementation of CCII+ are discussed

Keywords

CMOS analogue integrated circuits; buffer circuits; current conveyors; high-speed integrated circuits; low-power electronics; CCII+; bandwidth; capacitive load; class AB opamp; common source; complementary source follower; error opamp; high-speed low-power CMOS voltage buffer; output impedance; source follower; total harmonic distortion; Bandwidth; Design optimization; Energy consumption; Impedance; Linearity; Negative feedback; Power supplies; Stability; Total harmonic distortion; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Semiconductor Conference, 1998. CAS '98 Proceedings. 1998 International

Conference_Location

Sinaia

Print_ISBN

0-7803-4432-4

Type

conf

DOI

10.1109/SMICND.1998.732330

Filename

732330