The present invention relates to a system for refractive error in human eye and correcting it without any human intervention. The system is configured to produce an auto-tunable eyeglass,said system comprises of a calibration unit (101) for calculating the refractive error of the eye and tunable lens system (102) configured to receive output from said calibration unit (101). The calibration unit further comprise of Dgital Signal Processor (104), light source in the form of LED/LD(105) along with LD/LD driver(106), Chang-couple derive (CCD) array (108), CCD interface (109) LED/LD and serial link communicator for communicating with the tunable lens system (102). The magnitude and polarity of correction requried in the human eye is calculated by the calibration unit (101). The calculated magnitude and polarity of correction from the output of the DSP processor (104) is fed to the microcontroller (110) provided on the auto-tunable eyeglass.The microcontoller (110) then loads the magnitude and polarity of correction into the output compare register of its timer section. The microcontroller then generates a Pluse Width Modulation (PWM) waveform. The PWM waveform is applied to hydrogel of the tunable lens system (102). The applied PWM waveform drive the actuation mechanism, which in turn sets the power of a tunable lens system to a desired level to compensate for the refractive error and as aresult, the focus of the changes.
- Bhushan N. Kharbikar, Suryavanshi Ajay Vijay, Nitin Tukaram Pawar, bam anupam shridhar, Kulkarni Amey Pralhad, Rohit Srivastava