Optical microswitch printer heads
First Claim
1. An optical microswitch array, comprising:
- a silicon substrate, a plurality of optical microswitches each comprising;
a bottom supporting layer disposed on the silicon substrate;
a bottom distributed Bragg reflector comprising a stack of alternating layers of non-absorbing high refractive index dielectric material and low refractive index dielectric material and disposed on the bottom supporting layer;
a bottom electrode disposed on the bottom distributed Bragg reflector;
a middle air gap disposed on the bottom electrode;
a separating layer surrounding the middle air gap;
a top electrode disposed above the middle air gap and on the separating layer;
a top supporting structure having a central plane and at least two side inflexible beams and disposed on the top electrode; and
a top distributed Bragg reflector comprising a stack of alternating layers of high refractive index dielectric material and low refractive index dielectric material and disposed on the top supporting structure;
a driver circuit electrically connected to the variable air Fabry-Perot cavities and selectively turning the optical microswitches “
on”
or “
off”
;
a plurality of light guiding holes disposed in the silicon substrate and each perpendicularly extending to a corresponding variable air gap Fabry-Perot cavity, and an electrical connection means for interfacing to a printer'"'"'s CPU.
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Accused Products
Abstract
An optical microswitch printer head comprising a micromachined optical microswitch array with optical microswitches extending in a main scanning direction. The optical microswitch is based on a variable air gap Fabry-Perot cavity that is defined by two non-absorbing distributed Bragg reflectors. One of the distributed Bragg reflectors is supported by flexible beams so that the length of the Fabry-Perot cavities can be set to be equal to an odd or even multiple of a quarter wavelength of a working optical wave by applying a voltage. As a result, the optical microswitches can be pushed into a transmission state or “on” state for letting a light pass through or a reflection state or “off” state for blocking the light. The optical microswitch printer head can utilize a gas discharge lamp such as a cold cathode fluorescent lamp as a light source. The light irradiated from the gas discharge lamp shines over all the optical microswitches, but the optical microswitches are selectively switched “on” or “off” so as to generate light signals for graphic image formation Since the fabrication process of the optical microswitch array is based on standard IC technology, it can be batch-produced at lower cost.
21 Citations
25 Claims
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1. An optical microswitch array, comprising:
-
a silicon substrate, a plurality of optical microswitches each comprising;
a bottom supporting layer disposed on the silicon substrate;
a bottom distributed Bragg reflector comprising a stack of alternating layers of non-absorbing high refractive index dielectric material and low refractive index dielectric material and disposed on the bottom supporting layer;
a bottom electrode disposed on the bottom distributed Bragg reflector;
a middle air gap disposed on the bottom electrode;
a separating layer surrounding the middle air gap;
a top electrode disposed above the middle air gap and on the separating layer;
a top supporting structure having a central plane and at least two side inflexible beams and disposed on the top electrode; and
a top distributed Bragg reflector comprising a stack of alternating layers of high refractive index dielectric material and low refractive index dielectric material and disposed on the top supporting structure;
a driver circuit electrically connected to the variable air Fabry-Perot cavities and selectively turning the optical microswitches “
on”
or “
off”
;
a plurality of light guiding holes disposed in the silicon substrate and each perpendicularly extending to a corresponding variable air gap Fabry-Perot cavity, and an electrical connection means for interfacing to a printer'"'"'s CPU. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of fabricating an optical microswitch array comprising the steps:
-
forming a CMOS driver circuit in a predetermined region of a silicon substrate using standard CMOS circuit fabrication technologies, depositing a bottom supporting layer in another predetermined region of the silicon substrate;
fabricating a plurality of bottom distributed Bragg reflectors on the supporting layer;
forming a plurality of bottom electrodes each disposed on and aligned with an underlying bottom Bragg reflector;
depositing a separating layer covering the bottom electrodes;
forming a plurality of top electrodes each disposed on the separating layer and aligned with an underlying bottom electrode;
defining a plurality of top supporting structures each disposed on and aligned with an underlying top electrode;
fabricating a plurality of top distributed Bragg reflectors each disposed on and aligned with an underlying top supporting structure;
forming a plurality of vertical holes disposed in the backside of the silicon substrate and each aligned with a corresponding Fabry-Perot cavity on the front side;
depositing a metal layer on the sidewalls of the vertical holes by electroplating; and
releasing the top supporting structures and top electrodes by selectively etching the underlying separating layer so as to form a plurality of variable air gap Fabry-Perot cavities each defined by two non-absorbing distributed Bragg Reflectors and one of distributed Bragg reflector supporting by the released top supporting structure. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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Specification