Tolerant SSFLC matrix display addressing with equal selection and data voltages

This paper describes novel addressing waveforms featuring the widest operation at the lowest possible total voltage for a mechanism based on the dielectric torques existing in the SSFLC cell in addiction to the polarization torques, as found by simulations and experiments with chevron cells. The operation at the lowest voltage end of the Compensated Rome modes has been improved and equal selection and data voltages are here used allowing hf stabilization with reduced power supply. Simple adjustments in the selection waveforms provide operation at least in range of temperature 20 °C to 30 °C for fixed 20 V and 30 [mu]s addressing with a commercial FLC mixture.