Towards Realization of a Low-Voltage Class-AB VCII with High Current Drive Capability

In this paper, the implementation of a low-voltage class AB second generation voltage conveyor (VCII) with high current drive capability is presented. Simple realization and good overall performance are the main features of the proposed circuit. Proper solutions and techniques were used to achieve high signal swing and high linearity at Y, X and Z ports of VCII as well as low-voltage operation. The operation of the proposed VCII was verified through SPICE simulations based on TSMC 0.18 mu m CMOS technology parameters and a supply voltage of +/- 0.9 V. The small signal impedance values were 973 Omega, 120 k Omega and 217 Omega at Y, X and Z ports, respectively. The maximum current at the X port was +/- 10 mA with maximum total harmonic distortion (THD) of 2.4% at a frequency of 1 MHz. Considering a bias current (I-B) of 29 mu A and output current at the X port (I-X) of 10 mA, the current drive capability (I-X/I-B) of about 345 was achieved at the X port. The voltage swing at the Z port was (-0.4, 0.4) V. The THD value at the Z port for an input signal with 0.8 V peak-to-peak value and frequency of 1 MHz was 3.9%. The total power consumption was 0.393 mu W.

Automated summary

This paper presents the implementation of a low-voltage class AB second generation voltage conveyor (VCII) with high current drive capability, featuring simple realization and good overall performance. Proper solutions and techniques were used to achieve high signal swing and high linearity at Y, X and Z ports of VCII as well as low-voltage operation. The operation of the proposed VCII was verified through SPICE simulations, showing good performance at different ports.