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1223results about "Polarised relays" patented technology

Non-volatile MEMS micro-relays using magnetic actuators

An actuation device employing square-loop latchable magnetic material having a magnetization direction (polarization) capable of being changed in response to exposure to an external magnetic field is disclosed. The magnetic field is created by a conductor assembly with non-solenoid configuration. Once the magnetization direction of the material is so changed, the external magnetic field is no longer required to maintain the new magnetization direction. The latchable magnetic material is disposed on the mobile electrode of a switching device, and another magnetic material is disposed in spaced relation to the latchable magnetic material on a stationary electrode or surface. By applying an electrical current to a conductor assembly arranged proximate the latchable material, a magnetic field is created about the latchable magnetic material, to change the magnetization direction and thereby enable the attraction or repulsion of another magnetic material located on the stationary electrode. The resulting relative displacement of the mobile and stationary electrodes effects the selective connection or disconnection of electrical contacts carried on or associated with the respective electrodes of the actuation device without requiring additional power in order to maintain the switched state of the electrodes.
Owner:WSOU INVESTMENTS LLC +1

Micro-electro-mechanical switch, and methods of making and using it

A micro-electro-mechanical (MEMS) switch (10, 110) has an electrode (22, 122) covered by a dielectric layer (23, 123), and has a flexible conductive membrane (31, 131) which moves between positions spaced from and engaging the dielectric layer. At least one of the membrane and dielectric layer has a textured surface (138) that engages the other thereof in the actuated position. The textured surface reduces the area of physical contact through which electric charge from the membrane can tunnel into and become trapped within the dielectric layer. This reduces the amount of trapped charge that could act to latch the membrane in its actuated position, which in turn effects a significant increase in the operational lifetime of the switch.
Owner:RAYTHEON CO

Stressed material and shape memory material MEMS devices and methods for manufacturing

Disclosed is a MEMS device which comprises at least one shape memory material such as a shape memory alloy (SMA) layer and at least one stressed material layer. Examples of such MEMS devices include an actuator, a micropump, a microvalve, or a non-destructive fuse-type connection probe. The device exhibits a variety of improved properties, for example, large deformation ability and high energy density. Also provided is a method of easily fabricating the MEMS device in the form of a cantilever-type or diaphragm-type structure.
Owner:PALO ALTO RES CENT INC

Mechanical meta-materials

The present invention provides meta-materials with an actively controllable mechanical property. The meta-material includes a deformable structure and a set of activation elements. The activation elements are controllable between multiple states. The meta-material includes a first value for a mechanical property when one or more of the activation elements is in the first activation state and includes a second value for the mechanical property when the activation elements have been activated to the second activation state. In one aspect, the meta-material resembles a composite material where the connectivity between the component materials or shape and arrangement of the component materials is dynamically controllable so as to affect a mechanical property of the meta-material.
Owner:SRI INTERNATIONAL

Stress bimorph MEMS switches and methods of making same

A micro-electromechanical system (MEMS) switch formed on a substrate, the switch comprising a transmission line formed on the substrate, a substrate electrostatic plate formed on the substrate, and an actuating portion. The actuating portion comprises a cantilever anchor formed on the substrate and a cantilevered actuator arm extending from the cantilever anchor. Attraction of the actuator arm toward the substrate brings an electrical contact into engagement with the portions of the transmission line separated by a gap, thus bridging the transmission line gap and closing the circuit. In order to maximize electrical isolation between the transmission line and the electrical contact in an OFF-state while maintaining a low actuation voltage, the actuator arm is bent such that the minimum separation distance between the transmission line and the electrical contact is equal to or greater than the maximum separation distance between the substrate electrostatic plate and arm electrostatic plate.
Owner:HRL LAB +1

Switch, semiconductor device, and manufacturing method thereof

It is an objective to achieve a MEMS switch which can be mounted with a CMOS circuit and has a contact point with high reliability, both mechanically and electrically. An insulator having a compatibility with a CMOS process is formed at the contact surface of a cantilever beam constituting a MEMS switch and a fixed contact 2 opposite thereto. When the switch is used the cantilever beam is moved by applying a voltage to the pull-in electrode and the cantilever beam. After the cantilever beam makes contact with the fixed contact, a voltage exceeding the breakdown field strength of the insulator is applied to the insulator, resulting in dielectric breakdown occurring. By modifying the insulator once, the mechanical fatigue concentration point of the switch contact point is protected, and a contact point is achieved as well in which electrical signals are transmitted through the current path formed by the dielectric breakdown.
Owner:HITACHI LTD

Single substrate electromagnetic actuator

A microvalve which utilizes a low temperature (<300° C.) fabrication process on a single substrate. The valve uses buckling and an electromagnetic actuator to provide a relatively large closing force and lower power consumption. A buckling technique of the membrane is used to provide two stable positions for the membrane, and to reduce the power consumption and the overall size of the microvalve. The use of a permanent magnet is an alternative to the buckled membrane, or it can be used in combination with the buckled membrane, or two sets of micro-coils can be used in order to open and close the valve, providing the capability for the valve to operate under normally opened or normally closed conditions. Magnetic analysis using ANSYS 5.7 shows that the addition of Orthonol between the coils increases the electromagnetic force by more than 1.5 times. At a flow rate of 1 mL / m, the pressure drop is <100 Pa. The maximum pressure tested was 57 kPa and the time to open or close the valve in air is under 100 ms. This results in an estimated power consumption of 0.1 mW.
Owner:AIR FORCE THE US SEC THE +1

Programmable power controller

A device connected between a source of power and at least one load for selectively providing power from the source of power to the at least one load to operate in an area responsive to an environmental condition in the area. In one embodiment, the device includes a home mode, an away mode, and a custom mode, and a user interface for selecting one of the home mode and the custom mode to be operated. The device further includes at least one timer for timing a plurality of predefined operations, a first detector for generating a low light detection signal responsive to an ambient light level being below a predetermined threshold value, a second detector for generating a motion signal responsive to detection of a movement in the area, a dimmer for adjusting power supplying to the at least one load at a predetermined level, and a microcontroller coupled to the first detector and the second detector and coupled with the user interface for operatively controlling transmission of the source of power to the at least one load.
Owner:GARDNER GROFF GREENWALD & VILLANUEVA P C

Variable inductor for integrated circuit and printed circuit board

A variable inductor can be formed on an integrated circuit with a primary conductor, a secondary conductor, and a switch. The primary conductor implements an inductor and may be formed in various patterns (e.g., a spiral). The secondary conductor forms a loop in proximity to (e.g., on the outside of) the primary conductor. The switch couples in series with the secondary conductor and opens or closes the loop. The inductance of the inductor is varied by closing and opening the loop with the switch. A current source may also be coupled in series with the secondary conductor and used to control the current flow in the secondary conductor to either increase or decrease the inductance. Multiple loops may be formed to change the inductance in more than two discrete steps. The variable inductor may be used for various applications such as filters, VCOs, and impedance matching networks.
Owner:QUALCOMM INC

Laminated relays with multiple flexible contacts

Methods and systems of assembling and making laminated electro-mechanical system (LEMS) switches are described. A plurality of structural layers are formed that include at least two structural layers that each include a flexible member. The plurality of structural layers are stacked and aligned into a stack, to form at least one switch. Each structural layer in the stack is attached to an adjacent structural layer of the stack. When the formed switch is in an “on” state, the first flexible member is in contact with the second flexible member. When making contact with the second flexible member, the second flexible member flexes in response. In a further aspect, three flexible members may be present. When the switch is in an “on” state, the first flexible member is in contact with the second and third flexible members. When making contact with the second and third flexible members, the second and third flexible members flex in response.
Owner:SCHNEIDER ELECTRIC IND SAS

Piezoelectric resonator device having detuning layer sequence

A resonator device includes a piezoelectric resonator having a detuning layer sequence arranged on the piezoelectric resonator. The detuning layer sequence includes at least a first layer having a high acoustic impedance and a second layer having a low acoustic impedance.
Owner:AVAGO TECH INT SALES PTE LTD

Irrigation controller with integrated valve locator

The present invention is directed to an irrigation controller, method and software program product for generating valve control signals for energizing a valve. The irrigation controller includes a valve actuation control module selectively coupled each of plurality of control nodes and generating a valve actuation control signal thereon. The valve actuation control signal is a continuous control voltage over a plurality of control signal periods for selectively energizing the selected irrigation valve. Also integrated in the irrigation is a valve chatter module for selectively coupled each of plurality of control nodes and generating a valve chatter control signal thereon. The valve chatter module selectively and, intermittently, energizes the selected irrigation valve. The irrigation controller may further include a remote controller of remotely controlling the irrigation controller.
Owner:TELSCO INDUSTRIES INC

Electromagnetic switching apparatus

In an electromagnetic switching device including a cylindrical part made of a magnetic material with a closed bottom for housing a movable iron core having a movable contact and so constructed as to render the movable contact movable toward and away from a fixed contact, a joint member made of a metallic material with an insertion hole formed substantially in the center thereof for movably receiving a movable shaft fixedly attached to the movable iron core, and a metal plate made of a non-magnetic material with a hole formed substantially in the center thereof with the inner diameter substantially the same as the inner diameter of the cylindrical part, the cylindrical part and the joint member are air-tightly jointed to each other with the metal plate provided therebetween, and the movable iron core is housed in the cylindrical part with a clearance defined between the movable iron core and the joint member corresponding to a required stroke within which the movable contact contacts the fixed contact. This arrangement provides improvement in magnetic efficiency of electromagnet of the device. Accordingly, improved energy saving performance is accomplished as compared with a case of a conventional electromagnetic switching device.
Owner:MATSUSHITA ELECTRIC WORKS LTD

System and method for servo control of nonlinear electromagnetic actuators

Servo control using ferromagnetic core material and electrical windings is based on monitoring of winding currents and voltages and inference of magnetic flux, a force indication; and magnetic gap, a position indication. Third order nonlinear servo control is split into nested control loops: a fast nonlinear first-order inner loop causing flux to track a target by varying a voltage output; and a slower almost linear second-order outer loop causing magnetic gap to track a target by controlling the flux target of the inner loop. The inner loop uses efficient switching regulation, preferably based on controlled feedback instabilities, to control voltage output. The outer loop achieves damping and accurate convergence using proportional, time-integral, and time-derivative gain terms. The time-integral feedback may be based on measured and target solenoid drive currents, adjusting the magnetic gap for force balance at the target current. Incorporation of permanent magnet material permits the target current to be zero, achieving levitation with low power, including for a monorail deriving propulsion from the levitation magnets. Linear magnetic approximations lead to the simplest controller, but nonlinear analog computation in the log domain yields a better controller with relatively few parts. When servo-controlled solenoids provide actuation of a pump piston and valves, electronic LC resonance measurements determine liquid volume and gas bubble volume.
Owner:SEALE JOSEPH B +1

Electromagnetic switching device

In the electromagnetic switching device, it is possible to miniaturize and have low costs, have quiet operation noise, and also quickly extinguish the arc. The electromagnetic switching device has an electromagnetic actuator with a movable iron core, a pair of fixed terminals that respectively have a fixed contact point, a movable contact that has movable contact points on the right and left ends, a shaft, and an enclosing component that holds the movable contact points and the fixed contact points. The pair of movable contact points respectively contact with and detach from the pair of fixed contact points, and the pair of fixed contact points respectively conduct each other and are insulated again through the shaft by moving the movable iron core along the axis using the electric magnetic actuator. A quasi-hermetically sealed space, which is the extinguishing space, is formed by the enclosing component and a first yoke. A potting compound is charged, into the space between a body and the quasi hermitically sealed space.
Owner:MATSUSHITA ELECTRIC WORKS LTD

Electromagnetic actuator and integrated actuator and fluid flow control valve

A magnetic device is formed from a permanent magnet generating magnetic flux, an armature which can occupy two positions between four poles and an electromagnet winding to which current can be supplied to produce a magnetic flux in one direction or the other, the flux from the winding causing the armature to move into one position and continue to remain in that position after the current flow ceases. The device can be incorporated into a fluid valve to act as a drive for opening and closing the valve. It may also serve as the drive for opening and closing electrical contacts. Monostable operation can be achieved by locating a magnetic flux shunt at one end of the armature travel. A holding solenoid may be incorporated. A pivoting armature in a fluid tight chamber comprises a fluid flow controlling device. It can adopt either of two home positions in contact with two magnetic poles and is retained by magnetic flux from a permanent magnet. Fluid can flow into and out of the chamber via a first passage. A second passage extends through one of the poles to an opening in the pole face which is covered by the armature when the latter occupies one home position but is uncovered when the armature occupies its other home position. A third fluid passage extends through and leads to a second opening in another pole, which is covered when the armature occupies its said other home position. Passages in the poles house energy storing springs each of which is compressed as the armature approaches the pole. A push rod can extend through a passage in one of the poles for conveying armature movement externally of the device.
Owner:CAMCOM

Apparatus utilizing latching micromagnetic switches

An apparatus includes an electrical device and a latching micromagnetic switch that controls energy flow through the electrical device. The latching micromagnetic switch includes a cantilever, a permanent magnet, and a coil configured to latch the latching micromagnetic switch in one of two positions each time energy passes through the coil. The electrical device and the latching micromagnetic switch can be integrated on a same substrate. Otherwise, the electrical device and the latching micromagnetic switch can be located on separate substrates and coupled together. The electrical device can be a circuit, a filter, an antenna, a transceiver, or the like.
Owner:MAGFUSION

System and method for monitoring an electrical power relay in a hybrid electric vehicle

A method and system to monitor a high voltage power relay operable to conduct electrical power from a source to a load, during each vehicle shutdown event. The system includes the electrical relay with a resistive device, electrically connected in parallel circuit, a controllable electrical load device, and a sensing device. A controller is connected to the electrical relay and each sensing device, and operable to identify a low electrical load condition at the load. The controller commands the load to operate at a known current draw level, commands the relay open, and monitors a change in power to the load device when the relay is commanded open. The electrical relay is functioning properly when the change in electrical power to the load exhibits a known profile over time, when the electrical relay is controlled to the commanded-open position.
Owner:GM GLOBAL TECH OPERATIONS LLC

Microengineered self-releasing switch

A MEMS (microelectromechanical system) electrical switch device is provided for circuit protection applications. The device includes a mechanical latching mechanism by which the switch is held in the closed position, and a mechanism by which this latch is released when the load current passing through the device reaches or exceeds some desired magnitude. In addition, a mechanism is provided by which the switch may be reset to its closed position by applying an electrical control voltage to certain terminals of the device. A number of these devices, or arrays of these devices, can be fabricated by parallel processes on a single substrate, and photolithography can be employed to define the mechanical structures described above. Other embodiments include additional electrical isolation of the resetting mechanism, enhancement of the separation distance of the contact points of the switch in the open position, and prevention of arcing at the latch mechanism. A method of fabricating the device is provided. A method of using the aforementioned device is also provided.
Owner:YEATMAN ERIC

Electronic lock box with single linear actuator operating two different latching mechanisms

An electronic lock box contains a secure compartment for storing keys to a structure. A linear actuator moves in one direction opening the door to the secure compartment, and moves in the opposite direction releasing a shackle that holds the lock box to the structure. A lock box system uses an encryption algorithm to diversify user PIN data at a central computer, and stores that diversified information on a memory card for later use when the user attempts to access a lock box. The central computer and electronic lock box both keep track of system “epoch time,” and the memory card must be presented to the electronic lock box within a correct epoch time window for the diversified PIN data to be successfully decrypted and compared to the user's PIN data that is entered on a keypad of the electronic lock box.
Owner:SENTRILOCK

Condition monitor for an electrical distribution device

The invention is a condition monitor for a switchgear device in an electrical power distribution system. The switchgear device is arranged with an electrically powered actuator for operating a moveable part of the switchgear device, for example, operating the opening and / or closing of a circuit breaker. The switchgear device has a control unit with means to receive state information from the actuator, and panel means to present information via an HMI. The HMI may be accessed remotely. In other aspects of the invention a method, a human-machine interface and a computer program for carrying out the method are described.
Owner:HITACHI ENERGY SWITZERLAND AG

Mechanical meta-materials

The present invention provides meta-materials with an actively controllable mechanical property. The meta-material includes a deformable structure and a set of activation elements. The activation elements are controllable between multiple states. The meta-material includes a first value for a mechanical property when one or more of the activation elements is in the first activation state and includes a second value for the mechanical property when the activation elements have been activated to the second activation state. In one aspect, the meta-material resembles a composite material where the connectivity between the component materials or shape and arrangement of the component materials is dynamically controllable so as to affect a mechanical property of the meta-material.
Owner:SRI INTERNATIONAL

Three dimensional integrated passive device and method of fabrication

An integrated passive device (20) includes a first wafer (22), a first integrated device (28) formed on a first surface (24) of the wafer (22), and a second integrated device (30) formed on a second surface (26) of the wafer (22), the second surface (26) opposing the first surface (24). A microelectromechanical (MEMS) device (72) includes a second wafer (74) having a MEMS component (76) formed thereon. The integrated passive device (20) and the MEMS device (72) are coupled to form an IPD / MEMS stacked device (70) in accordance with a fabrication process (90). The fabrication process (90) calls for forming (94) the second integrated device (30) on the second surface (26) of the wafer (22), constructing (100) the MEMS component (76) on the wafer (74), coupling (104) the wafers (22, 74), then creating the first integrated device (28) on the first surface (24) of the first wafer (22).
Owner:NORTH STAR INNOVATIONS

Diaphragm activated micro-electromechanical switch

A micro-electromechanical (MEM) RF switch provided with a deflectable membrane (60) activates a switch contact or plunger (40). The membrane incorporates interdigitated metal electrodes (70) which cause a stress gradient in the membrane when activated by way of a DC electric field. The stress gradient results in a predictable bending or displacement of the membrane (60), and is used to mechanically displace the switch contact (30). An RF gap area (25) located within the cavity (250) is totally segregated from the gaps (71) between the interdigitated metal electrodes (70). The membrane is electrostatically displaced in two opposing directions, thereby aiding to activate and deactivate the switch. The micro-electromechanical switch includes: a cavity (250); at least one conductive path (20) integral to a first surface bordering the cavity; a flexible membrane (60) parallel to the first surface bordering the cavity (250), the flexible membrane (60) having a plurality of actuating electrodes (70); and a plunger (40) attached to the flexible membrane (60) in a direction away from the actuating electrodes (70), the plunger (40) having a conductive surface that makes electric contact with the conductive paths, opening and closing the switch.
Owner:GLOBALFOUNDRIES US INC

Circuit arrangement for monitoring an electronic switch controlling a load

In a circuit arrangement for monitoring an electronic switch provided for controlling a load and current flown through the load during turn-on intervals for driving the load, the switch has a substantially linear resistance behavior during parts of its turn-on state and the operating point of the switch is located in this part of the turn-on state during the load control. The circuit arrangement comprises a modulation signal generator for generating a modulation signal for modulating the load current flowing through the electronic switch. A first voltage measuring device measures the first voltage drop across the electronic switch caused by the modulation signal. A second voltage measuring device measures the voltage drop across the electronic switch caused by the load current, and an evaluation unit determines the load current from the modulation signal and the first and second voltage drops.
Owner:MELCHER ROLF +1

Systems and methods for achieving low power standby through interaction between a microcontroller and a switching mode power supply

An embodiment of the present invention discloses using an on-board microcontroller typically found on a control board or power supply board to momentarily toggle a switching mode power supply off and on. In one embodiment, the power consumption of the circuit is lowered by allowing the power supply and other circuit components to shut down while using a capacitor to provide reserve power to the microcontroller. In another embodiment, the microcontroller is also placed in a low power consumption mode for a predetermined period of time, which decreases the power requirement of the microcontroller and effectively lengthens the amount of time the other circuit components can be shut down. As described herein, this circuitry required to achieve this lower power state is minimal in comparison to known systems and, in one embodiment, requires an optoisolator (or alternatively, a transistor), a resistor and a capacitor.
Owner:E G O NORTH AMERICA

Recessed electrode for electrostatically actuated structures

An electro-statically actuated switch having a reduced gap distance between electrodes for reducing actuation voltage is provided. The invention provides more reliable electro-statically actuated switches. The invention provides a micro-electro-mechanical system (MEMS) that includes a recessed, movable electrode. The invention provides electro-statically actuated switches that reduce the likelihood of stiction and beam deformation and that allows lower actuation voltage for electrostatically actuated structures such as switches and mirrors. A method for fabricating such a design is provided that allows lower actuation voltage.
Owner:AAC TECH PTE LTD

Current Zero Cross Switching Relay Module Using A Voltage Monitor

Assemblies, systems, and methods which prolong relay life by dynamically compensating the make and break contact timing between the contact points of the relay and a zero crossing point of the power supply's waveform are provided according to the present disclosure. The life cycle of the relay components are dramatically increased through the use of these assemblies, systems, and methods due to a decrease in arcing and other physically damaging phenomena between the contacts of the relay. The present disclosure also provides for assemblies, systems, and methods whereby a processor analyzes the inductive kickback effect in the relay load voltage signal and dynamically adjust the relay open time such that the inductive kickback effect is minimized. In exemplary embodiments, the systems / methods provided herein advantageously adjust the relay open time such that the relay switching time corresponds with current zero cross and do so without requiring complicated current monitoring components.
Owner:LEGRAND HOME SYST

Electromagnetic operator for an electrical contactor and method for controlling same

An electromagnetic operator includes first and second coils wound coaxially. An armature partially surrounds the coils for channeling flux during energization of the coils. The armature may be formed of a bent plate and secured to a ferromagnetic support. A control circuit applies energizing signals to the coils during operation. Both coils are energized during an initial phase of operation. One of the coils is subsequently released or de-energized automatically. A timing circuit removes current from the second coil after a variable time period. The time period may be a function of the configuration of the timing circuit, such as an RC time constant, and of the energizing signal.
Owner:ROCKWELL AUTOMATION TECH
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