Functional Electrical Stimulation is considered as one of the potential solutions for restoring the functionality of orbicularis oculi (a muscle that is responsible for eye-lid closure) in the patients suffering from Bells palsy. In this paper, we propose a synchronized blink function restoration system, wherein, the muscular activity of the healthy orbicularis oculi is sensed using EMG electrodes and a corresponding triggering pulse is provided to the non-functional muscle almost instantaneously. In this paper, we present the design of a low power blink restoration system comprising only low power analog blocks. The noise cancellation and filtration which typically is carried out in digital domain is replaced with a simple analog architecture. This resulted in a two fold reduction in power and more than hundred fold reduction in area. Furthermore, the designed system takes care of any false positives due to motion artifact. A simple mono-stable system based auto sleep mode is implemented to save power when the system is not in use. This analog blink restoration system designed in UMC 180nm CMOS technology has a Pre-amplifier gain of 20dB at 270Hz to 470Hz, CMRR > 70dB, input referred noise of less than 2 μVrms. It consumes power of 6 μW at 1.2V supply voltage and an area of 0.095 mm2. © 2017 IEEE.