摘要:
A Microelectromechanical systems (MEMS) structure comprises a MEMS wafer. A MEMS wafer includes a handle wafer with cavities bonded to a device wafer through a dielectric layer disposed between the handle and device wafers. The MEMS wafer also includes a moveable portion of the device wafer suspended over a cavity in the handle wafer. Four methods are described to create two or more enclosures having multiple gas pressure or compositions on a single substrate including, each enclosure containing a moveable portion. The methods include: A. Forming a secondary sealed enclosure, B. Creating multiple ambient enclosures during wafer bonding, C. Creating and breaching an internal gas reservoir, and D. Forming and subsequently sealing a controlled leak/breach into the enclosure.
摘要:
An integrated MEMS device comprises a wafer where the wafer contains two or more cavities of different depths. The MEMS device includes one movable structure within a first cavity of a first depth and a second movable structure within a second cavity of a second depth. The cavities are sealed to maintain different pressures for the different movable structures for optimal operation. MEMS stops can be formed in the same multiple cavity depth processing flow. The MEMS device can be integrated with a CMOS wafer.
摘要:
A method of fabricating an integrated spatial light modulator. The method includes providing a first substrate including a bonding surface and processing a device substrate to form at least an electrode layer. The method also includes depositing a first portion of a multi-layer standoff layer on the electrode layer, depositing a second portion of the multi-layer standoff layer on the first portion of the multi-layer standoff layer, and forming electrically insulating standoff structures from the multi-layer standoff layer. The method further includes joining the bonding surface of the first substrate to the standoff structures on the device substrate, thinning the first substrate, patterning the first substrate to form a mask, and forming a plurality of moveable structures from the first substrate. The moveable structures are aligned with at least one of the plurality of electrodes and adapted to rotate with respect to the standoff structures.
摘要:
Methods and apparatus for depositing low dielectric constant layers that are resistant to oxygen diffusion and have low oxygen contents are provided. The layers may be formed by exposing a low dielectric constant layer to a plasma of an inert gas to densify the low dielectric constant layer, by exposing the low dielectric constant layer to a nitrating plasma to form a passivating nitride surface on the layer, or by depositing a thin passivating layer on the low dielectric constant layer to reduce oxygen diffusion therein. The low dielectric constant layer may be deposited and treated in situ.
摘要:
A method of fabricating an integrated spatial light modulator. The method includes providing a first substrate including a bonding surface and processing a device substrate to form at least an electrode layer. The method also includes depositing a first portion of a multi-layer standoff layer on the electrode layer, depositing a second portion of the multi-layer standoff layer on the first portion of the multi-layer standoff layer, and forming electrically insulating standoff structures from the multi-layer standoff layer. The method further includes joining the bonding surface of the first substrate to the standoff structures on the device substrate, thinning the first substrate, patterning the first substrate to form a mask, and forming a plurality of moveable structures from the first substrate. The moveable structures are aligned with at least one of the plurality of electrodes and adapted to rotate with respect to the standoff structures.
摘要:
A spatial light modulator structure is fabricated by forming moveable reflecting elements through plasma etching of silicon in a chlorine ambient. In accordance with one particular embodiment, a mirror comprising single crystal silicon is released from the surrounding material by plasma etching in an ambient including chlorine (Cl2), sulfur hexafluoride (SF6), and boron trichloride (BCl3). Cl2 serves as a source of reactive chlorine etching species for the plasma. SF6 provides a source of fluorine, a reactive species enhancing the rate of etching single crystal silicon. BCl3 provides boron, which becomes incorporated on the surface of the etched single crystal silicon as a passivation layer controlling etch profile. Plasma etching of the single crystal silicon to release the mirrors takes place in the absence of oxygen, in order to avoid unwanted formation of silicon oxide residue that can adversely affect mechanical and optical properties of the resulting device.
摘要:
The contrast offered by a spatial light modulator device may be enhanced by positioning nonreflective elements such as supporting posts and moveable hinges, behind the reflecting surface of the pixel. In accordance with one embodiment, the reflecting surface is suspended over and underlying hinge-containing layer by integral ribs of the reflecting material defined by gaps in a sacrificial layer. In accordance with an alternative embodiment, the reflecting surface is separated from the underlying hinge by a gap formed in an intervening layer, such as oxide. In either embodiment, walls separating adjacent pixel regions may be recessed beneath the reflecting surface to further reduce unwanted scattering of incident light and thereby enhance contrast.
摘要:
A reflective spatial light modulator device features two pairs of electrodes formed on different metallization layers. Elevation of the upper electrode pair reduces its distance from the overlying reflecting surface, thereby requiring a smaller applied voltage to generate an equivalent electrostatic attractive force for altering or maintaining physical orientation of the reflecting surface relative to incident light. In one embodiment, the reduced distance between the electrode and reflecting surface allows operation at lower voltages, reducing the possibility of breakdown and avoiding the need for complex device designs to eliminate such breakdown. In another embodiment, the reduced distance between the electrode and the reflecting surface allows the use of stiffer hinges for the reflecting surface, thereby increasing the speed of device operation. Other embodiments can employ both reduced voltage operation and the use of stiffer hinge structures.
摘要:
A reflective spatial light modulator device features two pairs of electrodes formed on different metallization layers. Elevation of the upper electrode pair reduces its distance from the overlying reflecting surface, thereby requiring a smaller applied voltage to generate an equivalent electrostatic attractive force for altering or maintaining physical orientation of the reflecting surface relative to incident light. In one embodiment, the reduced distance between the electrode and reflecting surface allows operation at lower voltages, reducing the possibility of breakdown and avoiding the need for complex device designs to eliminate such breakdown. In another embodiment, the reduced distance between the electrode and the reflecting surface allows the use of stiffer hinges for the reflecting surface, thereby increasing the speed of device operation. Other embodiments can employ both reduced voltage operation and the use of stiffer hinge structures.