Edge Glaze
EDGE GLAZE
A Smart – Switchable Film that transforms an ordinary Glass Window or a Partition into Smart Glass with controllable transparency.
What is Edge Glaze?
Edge Glaze is an Innovative Smart Glass Technology that involves a Polymer Dispersed Liquid Crystal film that can transform from opaque to transparent and vice versa with the flick of a switch…
When a mild electric current is passed through the film, the liquid crystals align itself in such a manner as to allow the incident light to pass through itself thereby making the glass appear transparent.
When the power supply is cut-off, the Liquid crystals take up randomly oriented positions thereby scattering light and thus rendering the glass Opaque.
HOW IT WORKS?
When OFF, the randomly aligned LC molecules scatter the light, making the glass appear opaque and hence ideal for projection, privacy and drawing.
When ON, the LC molecules align themselves horizontally thus allowing the incident light through, thereby rendering the film transparent, and allowing for an open clear atmosphere.
Specifications
| General Specifications | Thickness | 0.6 mm |
| Warranty | 2 Years | |
| Life Span | Over 10 Years (Indoors) | |
| Optical Specifications | Parallel Light Transmission | On Mode > 81% |
| Off Mode < 2% | ||
| Visible Light Transmission | On Mode > 81% | |
| Off Mode > 50% | ||
| Haze | On Mode <6% | |
| View Angle | 150° | |
| Electrical | Power Consumption | On Mode > 81% |
| Response Time | On →Off – 10ms | |
| Off →On – 20ms | ||
| Environmental | Durable Temperature | -30° to 100° C |
| UV Block | On Mode > 81% | |
| Off Mode < 2% | ||
| IR Rejection | On Mode > 81% | |
| Off Mode < 2% |
Edge Glaze is an Innovative Smart Glass Technology that involves a Polymer Dispersed Liquid Crystal film that can transform from opaque to transparent and vice versa with the flick of a switch…
When a mild electric current is passed through the film, the liquid crystals align itself in such a manner as to allow the incident light to pass through itself thereby making the glass appear transparent.
When the power supply is cut-off, the Liquid crystals take up randomly oriented positions thereby scattering light and thus rendering the glass Opaque.
35
Projects Completed
40+
Happy Customers
5
Years In Service