Patent ID: 8666218

Claim:
A variable optical attenuator comprising: an optical shutter; said optical shutter having a plurality of external edges; at least one of said external edges having a jagged pattern including a plurality of points; a frame surrounding an area in which said optical shutter is disposed; said frame comprising a first electrode and a second electrode; a first conductor of predetermined width having a first end fixedly attached to said first electrode; said first conductor being disposed at an angle from a line connecting said first electrode and said second electrode; said first conductor being characterized by one thermal expansion coefficient; a second conductor of predetermined width having a first end fixedly attached to said second electrode; said second conductor being disposed at an angle from a line connecting said first electrode and said second electrode; said first conductor and said second conductor being the two sides of a triangle; a second end of said first conductor being connected to a second end of said second conductor; said angle of said first conductor and said angle of said second conductor defining a height; said optical shutter being attached to said second end of said first conductor and said second end of said second conductor such that motion of said second end of the first conductor and said second end of the second conductor results in motion of said optical shutter; said first and said second conductor having dimensions and characteristics such that said motion of said second end of the first conductor and said second end of the second conductor resulting from conduction of electrical current produces a substantially maximum displacement of said second end of the first conductor and said second end of the second conductor; wherein the height, the predetermined width (W) of said first conductor and the predetermined width (W) of said second conductor are substantially equal to each other, and the substantially maximum displacement of said second end of the first conductor and said second end of the second conductor is equal to αTL 2 /2W where α is a coefficient of thermal expansion of the first conductor and the second conductor, T is a temperature increment for the first conductor and the second conductor, L is a one half of a base length of the first conductor and the second conductor, and W is the predetermined width; said material of said first and said second conductors being doped silicon; and said optical shutter being disposed over input/output optical ports.