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Article Dans Une Revue Smart Materials and Structures Année : 2018

Contactless four-terminal MEMS Variable Capacitor for Capacitive Adiabatic Logic

Résumé

This paper reports the design, energy recovery and logical functionality modelling of four-terminal MEMS comb-drive devices for capacitive adiabatic logic (CAL). The proposed electromechanical element consists of the moving mass with two insulated electrodes and two fixed electrodes. The two pairs of fixed and moving electrodes form an input and an output comb-drive capacitive transducers. The voltage across the input port allows us to control the capacitance of the output port. The developed contactless four-terminal design is simulated in Coventor MEMS+® software. In order to speed-up transient simulation of numerous devices in an electrical Spice simulator, the obtained electrical and mechanical characteristics are used to fit our Verilog-A analytical compact model. Spice-simulation results demonstrate CAL logical functionalities using cascadable power clock scheme, i.e. logic states differentiation and cascadability. Also we show that MEMS-based calculation is energy efficient, for example, in a chain of four buffers, 99.1% of the energy transferred to the device is recovered for later use when devices operate at 25 Hz. The non-recoverable energy is mainly dissipated by mechanical damping during the logic state transition from high to low level and can be removed by using retractable power clocks. For this mm-scale device the energy dissipated per operation is in the order of one pJ. This is still far from the energy dissipated by a nm-scale FET transistor, which is of the order of 10's aJ. However, for the contactless design constant electric field scaling is possible and the energy dissipation decreases proportionally to the cube of the size. Finally, the difference between the signal energy and the distinguish energy in MEMS-based adiabatic logic is discussed.
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Dates et versions

hal-01887157 , version 1 (03-10-2018)

Identifiants

Citer

Ayrat Galisultanov, Yann Perrin, Hatem Samaali, Hervé Fanet, Philippe Basset, et al.. Contactless four-terminal MEMS Variable Capacitor for Capacitive Adiabatic Logic. Smart Materials and Structures, 2018, 27 (8), pp.084001. ⟨10.1088/1361-665X/aacac4⟩. ⟨hal-01887157⟩
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