TINTABLE SMART MATERIAL CO., LTD. Patent applications |
Patent application number | Title | Published |
20140268285 | TRANSMITTANCE CONTROL METHOD OF ELECTROCHROMIC COMPONENT - A transmittance control method of electrochromic element, mainly comprising the following step: firstly, a total current flux input required is obtained by adding current value of each second together by the relationship between different current value and different rate of change of the electrochromic element obtained in terms of the same transmittance and different input voltages, then the total current flux for fixed transmittance is input into the electrochromic element in usage so as to achieve a transmittance of fixed value. In this manner, the electrochromic element can quickly achieve a transmittance of fixed value in precise manner, without repeated adjustment. Further, there is not such case happened as to influence the accuracy of its transmittance even after aging time lapse. | 09-18-2014 |
20130314919 | COLOR TEMPERATURE ADJUSTING DEVICE OF LIGHT SOURCE MODULE - A color temperature adjusting device of a light source module is revealed. The light source module includes at least one light source and at least one electrochromic device arranged at one side of the light source with a light emitting surface. The light source module is electrically connected to a control module. The control module consists of a light-source driver circuit and a control circuit for electrochromic devices that controls colored/bleached state of the electrochromic device. The light-source driver circuit is used to drive the light source to emit light. After passing through the electrochromic device, a light source is turned into a warm color light source or a cool color light source. | 11-28-2013 |
20130133814 | FABRICATION METHOD OF ELECTROCHROMIC DEVICE - A fabrication method of an electrochromic device includes the steps of: providing an upper substrate and a lower substrate, the upper substrate including an upper base layer and an upper transparent conductive layer, the lower substrate including a lower base layer and a lower transparent conductive layer; forming an ion storage layer on a surface of the upper transparent conductive layer, and forming an electrochromic layer on a surface of the lower transparent conductive layer; forming an electrolyte layer on a surface of the electrochromic layer; and oppositely facing and combining the ion storage layer and the electrolyte layer. | 05-30-2013 |