Patent application number | Description | Published |
20080316566 | HIGH APERTURE-RATIO TOP-REFLECTIVE AM-IMOD DISPLAYS - High-aperture-ratio devices comprise active-matrix elements and interferometric modulators and methods of making thereof. The active-matrix element may be positioned behind the interferometric modulator with respect to incident light. In some embodiments, components of the active-matrix element may be formed on a first substrate, while components of the interferometric modulator may be formed on a second substrate, and the substrates may then be attached. | 12-25-2008 |
20090040136 | ESD PROTECTION FOR MEMS DISPLAY PANELS - A MEMS (Microelectromechanical system) device is described. The device includes an array of MEMS elements with addressing lines and MEMS switches configured to selectively connect the addressing lines to a ground or other potential in the event of an over-voltage, such as during an ESD event. The arrangement is particularly advantageous for protecting the array, because the MEMS switches can be formed using substantially the same processing steps which are used to form the array. | 02-12-2009 |
20090244683 | APPARATUS AND METHOD OF DUAL-MODE DISPLAY - One embodiment includes display comprising a light modulator configured to display a portion of an image such as a reflective light modulator, a light emitter configured to display the portion of the image and a circuit configured to selectively provide signals to at least one of the light modulator and the light emitter indicative of the portion of the image. In one such embodiment, an active matrix provides a simple, efficient drive for such devices. Other embodiments methods of making and driving such devices. | 10-01-2009 |
20100014146 | ENCAPSULATION METHODS FOR INTERFEROMETRIC MODULATOR AND MEMS DEVICES - Methods and devices used for the encapsulation of MEMS devices, such as an interferometric modulator, are disclosed. Encapsulation is provided to MEMS devices to protect the devices from such environmental hazards as moisture and mechanical shock. In addition to the encapsulation layer providing protection from environmental hazards, the encapsulation layer is additionally planarized so as to function as a substrate for additional circuit elements formed above the encapsulation layer. | 01-21-2010 |
20100123706 | APPARATUS AND METHOD OF DUAL-MODE DISPLAY - One embodiment includes display comprising a light modulator configured to display a portion of an image such as a reflective light modulator, a light emitter configured to display the portion of the image and a circuit configured to selectively provide signals to at least one of the light modulator and the light emitter indicative of the portion of the image. In one such embodiment, an active matrix provides a simple, efficient drive for such devices. Other embodiments methods of making and driving such devices. | 05-20-2010 |
20100290102 | ENCAPSULATED ELECTROMECHANICAL DEVICES - Encapsulation is provided to electromechanical devices to protect the devices from such environmental hazards as moisture and mechanical shock. In addition to the encapsulation layer providing protection from environmental hazards, the encapsulation layer is additionally planarized so as to function as a substrate for additional circuit elements formed above the encapsulation layer. | 11-18-2010 |
20110109383 | MEMS VARACTORS - MEMS varactors capable of handling large signals and/or achieving a high capacitance tuning range are described. In an exemplary design, a MEMS varactor includes (i) a first bottom plate electrically coupled to a first terminal receiving an input signal, (ii) a second bottom plate electrically coupled to a second terminal receiving a DC voltage, and (iii) a top plate formed over the first and second bottom plates and electrically coupled to a third terminal. The DC voltage causes the top plate to mechanically move and vary the capacitance observed by the input signal. In another exemplary design, a MEMS varactor includes first, second and third plates formed on over one another and electrically coupled to first, second and third terminals, respectively. First and second DC voltages may be applied to the first and third terminals, respectively. An input signal may be passed between the first and second terminals. | 05-12-2011 |
20110149374 | TWO-TERMINAL VARIABLE CAPACITANCE MEMS DEVICE - A two-terminal, variable capacitance device is described that is constructed by connecting multiple MEMS devices having different actuation or “pull in” voltages in parallel. | 06-23-2011 |
20110316899 | APPARATUS AND METHOD OF DUAL-MODE DISPLAY - One embodiment includes display comprising a light modulator configured to display a portion of an image such as a reflective light modulator, a light emitter configured to display the portion of the image and a circuit configured to selectively provide signals to at least one of the light modulator and the light emitter indicative of the portion of the image. In one such embodiment, an active matrix provides a simple, efficient drive for such devices. Other embodiments include methods of making and driving such devices. | 12-29-2011 |
20120162232 | METHOD OF FABRICATION AND RESULTANT ENCAPSULATED ELECTROMECHANICAL DEVICE - This disclosure provides systems, methods, and apparatus for encapsulated electromechanical systems. In one aspect, a release path includes a release hole through an encapsulation layer. The release path exposes a portion of a first sacrificial layer that extends beyond a second sacrificial layer in a horizontal direction. This allows the first sacrificial layer and the second sacrificial layer to later be etched through the release path. The corresponding electromechanical system device includes a shell layer encapsulating a mechanical layer. A conformal layer seals a release hole that extends through a shell layer. A portion of the conformal layer blocks the opening of the release passage within the release hole. The release passage has substantially the same vertical height as a gap that defines the spacing between the mechanical layer and a substrate. | 06-28-2012 |
20140009862 | MEMS VARACTORS - Tunable MEMS resonators having adjustable resonance frequency and capable of handling large signals are described. In one exemplary design, a tunable MEMS resonator includes (i) a first part having a cavity and a post and (ii) a second part mated to the first part and including a movable layer located under the post. Each part may be covered with a metal layer on the surface facing the other part. The movable plate may be mechanically moved by a DC voltage to vary the resonance frequency of the MEMS resonator. The cavity may have a rectangular or circular shape and may be empty or filled with a dielectric material. The post may be positioned in the middle of the cavity. The movable plate may be attached to the second part (i) via an anchor and operated as a cantilever or (ii) via two anchors and operated as a bridge. | 01-09-2014 |