Cascadable adiabatic logic circuits for low-power applications

There have been several strategies proposed to realise adiabatic circuits. Most of them require a clock signal and also its complement form. In this investigation, the authors we propose a family of adiabatic circuits, which consist of two branches and which enable control of charging and discharging of the capacitive load only by the input signal, work with single time varying supply and with no need of complementary inputs. A mathematical expression has been developed to explain the energy dissipation in our adiabatic inverter circuit. Measurements of energy drawn, recovered and dissipated have been carried out through simulation and, they are the same as obtained from the theoretical expression. In the proposed circuit, the input and output logic levels are approximately the same and can be used for building cascaded logic circuits. The energy saving in this family is to the tune of 50% compared with CMOS circuits constructed with similar circuit parameters, up to 250% MHZ. The authors have described the proposed inverter, NAND gates, NOR gates, adder circuits and JK flip-flop along with their simulation results.