Patent application number | Description | Published |
20130192688 | Rupture disk and hinge - A hinge assembly for a rupture disk is disclosed. More particularly, a hinge assembly is disclosed having a first hinge member with a flange body and a collapsible hinge, and a second hinge member with a platform hinge, wherein the collapsible hinge is configured to be positioned between the platform hinge and a rupture disk. A rupture disk hinge is also disclosed, having a flange body and a collapsible hinge extending from the flange body. The collapsible hinge may have an approach extending from the flange body, a platform extending from the approach, and a lip extending from the platform. A rupture disk hinge also is disclosed having a hinge extension that extends along a diameter of a flange body across a central fluid flow path. | 08-01-2013 |
20130205559 | QUALITY CONTROL FOR A PRESSURE RELIEF DEVICE - A system and associated methods of quality control for a pressure relief device are disclosed. More specifically, a system and method including one or more of non-destructive dimensional or visual verification, unique identification (e.g., serialization), and image capture of a pressure relief device or a constituent component of such a device are disclosed. A system and method are disclosed in which a checked physical attribute of a pressure relief device, or component thereof, is compared against a statistically expected attribute to determine whether the device or component is suitable for further manufacture or delivery to a customer. | 08-15-2013 |
Patent application number | Description | Published |
20100032268 | Stacked MEMS Device - A MEMS apparatus has a MEMS device sandwiched between a base and a circuit chip. The movable member of the MEMS device is attached at the side up against the circuit chip. The movable member may be mounted on a substrate of the MEMS device or formed directly on a passivation layer on the circuit chip. The circuit chip provides control signals to the MEMS device through wire bonds, vias through the MEMS device or a conductive path such as solder balls external to the MEMS device. | 02-11-2010 |
20100068854 | MEMS Switch Capping and Passivation Method - A MEMS switch with a platinum-series contact is capped through a process that also passivates the contact by controlling, over time, the amount of oxygen in the environment, pressures and temperatures. Some embodiments passivate a contact in an oxygenated atmosphere at a first temperature and pressure, before hermetically sealing the cap at a higher temperature and pressure. Some embodiments hermetically seal the cap at a temperature below which passivating dioxides will form, thus trapping oxygen within the volume defined by the cap, and later passivate the contact with the trapped oxygen at a higher temperature. | 03-18-2010 |
20100155202 | MICRO-ELECTRO-MECHANICAL SWITCH BEAM CONSTRUCTION WITH MINIMIZED BEAM DISTORTION AND METHOD FOR CONSTRUCTING - Disclosed is a micro-electro-mechanical switch, including a substrate having a gate connection, a source connection, a drain connection and a switch structure, coupled to the substrate. The switch structure includes a beam member, an anchor and a hinge. The beam member having a length sufficient to overhang both the gate connection and the drain connection. The anchor coupling the switch structure to the substrate, the anchor having a width. The hinge coupling the beam member to the anchor at a respective position along the anchor's length, the hinge to flex in response to a charge differential established between the gate and the beam member. The switch structure having gaps between the substrate and the anchor in regions proximate to the hinges. | 06-24-2010 |
20110287586 | MEMS Switch Capping and Passivation Method - A MEMS switch with a platinum-series contact is capped through a process that also passivates the contact by controlling, over time, the amount of oxygen in the environment, pressures and temperatures. Some embodiments passivate a contact in an oxygenated atmosphere at a first temperature and pressure, before hermetically sealing the cap at a higher temperature and pressure. Some embodiments hermetically seal the cap at a temperature below which passivating dioxides will form, thus trapping oxygen within the volume defined by the cap, and later passivate the contact with the trapped oxygen at a higher temperature. | 11-24-2011 |
20130032454 | MICRO-ELECTRO-MECHANICAL SWITCH BEAM CONSTRUCTION WITH MINIMIZED BEAM DISTORTION AND METHOD FOR CONSTRUCTING - Disclosed is a micro-electro-mechanical switch, including a substrate having a gate connection, a source connection, a drain connection and a switch structure, coupled to the substrate. The switch structure includes a beam member, an anchor and a hinge. The beam member having a length sufficient to overhang both the gate connection and the drain connection. The anchor coupling the switch structure to the substrate, the anchor having a width. The hinge coupling the beam member to the anchor at a respective position along the anchor's length, the hinge to flex in response to a charge differential established between the gate and the beam member. The switch structure having gaps between the substrate and the anchor in regions proximate to the hinges. | 02-07-2013 |
20130126317 | MICRO-ELECTRO-MECHANICAL SWITCH BEAM CONSTRUCTION WITH MINIMIZED BEAM DISTORTION AND METHOD FOR CONSTRUCTING - Disclosed is a micro-electro-mechanical switch, including a substrate having a gate connection, a source connection, a drain connection and a switch structure, coupled to the substrate. The switch structure includes a beam member, an anchor, an anchor beam interface and a hinge. The beam member having a length sufficient to overhang both the gate connection and the drain connection. The anchor coupling the switch structure to the substrate. The anchor beam interface coupling the anchor to the hinge. The hinge coupling the beam member to the anchor at a respective position along the anchor's length, the hinge to flex in response to a voltage differential established between the gate and the beam member. The switch structure having gaps between the substrate and the anchor in regions proximate to the hinges. | 05-23-2013 |
20140115873 | MICRO-ELECTRO-MECHANICAL SWITCH BEAM CONSTRUCTION WITH MINIMIZED BEAM DISTORTION AND METHOD FOR CONSTRUCTING - Disclosed is a micro-electro-mechanical switch, including a substrate having a gate connection, a source connection, a drain connection and a switch structure, coupled to the substrate. The switch structure includes a beam member, an anchor and a hinge. The beam member having a length sufficient to overhang both the gate connection and the drain connection. The anchor coupling the switch structure to the substrate, the anchor having a width. The hinge coupling the beam member to the anchor at a respective position along the anchor's length, the hinge to flex in response to a charge differential established between the gate and the beam member. The switch structure having gaps between the substrate and the anchor in regions proximate to the hinges. | 05-01-2014 |