Patent application number | Description | Published |
20090230795 | Drive device for movable furniture parts - An article of furniture includes a drive device for moving a movable furniture part. The drive device includes an electric drive unit and a coupling device for at least temporarily transmitting a force of the electric drive unit to the movable furniture part, and the coupling device has a drive and a drive output. Operating between the drive and the drive output are coupling elements by which, in a first operating position, a clamping connection between the drive and the drive output and thus coupling between the drive and the drive output can be produced, and, in a second operating position, the coupling elements are movable into a position in which the drive and the drive output are not coupled. | 09-17-2009 |
20110197639 | ACTUATOR FOR MOVABLE FURNITURE PARTS - The invention relates to an actuator having at least one actuating member for moving a movable furniture part and having a locking device for inhibiting a movement of the actuating member, wherein the locking device has a lock which is disposed in or on the actuator and can be unlocked by a key so as to release the movement of the actuating member. | 08-18-2011 |
20110254418 | TRIGGER SENSOR FOR A FURNITURE DRIVE - A trigger sensor for triggering an electric furniture drive depending on a movement of the furniture part to be driven by the furniture drive caused by a user, wherein the trigger sensor comprises at least one actuator which can be moved by the furniture part into an assembly position, wherein the trigger sensor can capture movements of the furniture part along at least two directions which are orthogonal to each other, wherein the trigger sensor has at least one actuator which captures each of the at least two directions. | 10-20-2011 |
20130038189 | EJECTOR FOR EJECTING A MOVABLE FURNITURE PART - The invention relates to an ejector ( | 02-14-2013 |
Patent application number | Description | Published |
20080204134 | Power combiner - An embodiment of four-way binary power combiner consists of a first 1:1 transformer that combines a 50 ohm output impedance received from an output of a first power amplifier and a 50 ohm output impedance received from an output of second power amplifier to provide a 25 ohm first transformer output impedance at a first transformer output. A first 100 ohm difference resistor is connected between the first power amplifier output and the second amplifier output. The second 1:1 transformer combines a 50 ohm output impedance received from an output of a third power amplifier and a 50 ohm output impedance received from an output of a fourth power amplifier to provide a 25 ohm second transformer output impedance at a second transformer output. A second 100 ohm difference resistor is connected between the third power amplifier output and the fourth power amplifier output. A 50 ohm difference resistor is connected between the first transformer output and the second transformer output. A third transformer combines the 25 ohm first transformer output impedance and the 25 ohm second transformer output impedance to provide a 12.5 ohm output impedance at a third transformer output that is adapted for direct connection to a load. | 08-28-2008 |
20080205473 | High power low inductance RF hermetic sealed feed-through for slab CO2 lasers - A low inductance, hermetically sealed, RF shielded feed-through is provided for exciting low impedance discharges associated with high power CO | 08-28-2008 |
20090004918 | RF SHIELDED, SERIES INDUCTOR, HIGH RF POWER IMPEDANCE MATCHING INTERCONNECTOR FOR CO2 SLAB LASER - A RF shielded, series inductor, high power impedance matching network interconnector is provided for connecting an RF power supply to electrodes contained in the shielded, hermetically sealed laser tube housing of a slab laser system. The impedance matching interconnector comprises a short length of co-axial conductor and an impedance matching network that includes two L shaped networks. The inner conductor of the co-axial conductor is connected between the power supply output and the impedance matching network. The outer conductor of the co-axial conductor is grounded. The co-axial conductor has an impedance characteristic to match the power supply output impedance. The first L-shaped network includes a first inductor having a first end connected to the inner conductor of the co-axial conductor and a first capacitor connected to the second end of the first inductor and a second plate connected to ground. The second L shaped network includes a second inductor having a first end connected to the common connection between the second end of the first inductor and the first plate of the first capacitor and a second capacitor having a first plate connected to the second end of the second inductor and a second plate connected to ground. The common connection between the second end of the second inductor and the first plate of the second capacitor is connected through the shielded, hermetically sealed laser tube housing to the electrodes of the slab laser system. The two L-shaped networks may be implemented in a “single capacitor” configuration for lower power applications or in a “multi-capacitor” configuration for higher power applications. | 01-01-2009 |
20100316084 | ARRANGEMENT FOR RF POWER DELIVERY TO A GAS DISCHARGE LASER WITH CASCADED TRANSMISSION LINE SECTIONS - RF power is transmitted to a CO | 12-16-2010 |
20110194581 | ARRANGEMENT FOR RF POWER DELIVERY TO A GAS DISCHARGE LASER WITH CASCADED TRANSMISSION LINE SECTIONS - RF power is transmitted to a CO | 08-11-2011 |
20110285473 | IMPEDANCE-MATCHING TRANSFORMERS FOR RF DRIVEN CO2 GAS DISCHARGE LASERS | 11-24-2011 |
20120086519 | IMPEDANCE-MATCHING CIRCUITS FOR MULTI-OUTPUT POWER SUPPLIES DRIVING CO2 GAS-DISCHARGE LASERS - Electrical apparatus for connecting a radio frequency power-supply having two outputs to a load includes two radio frequency transmission-lines, each one connected to a corresponding power-supply output. A transformer arrangement connects the two transmission-lines to the load. Each transmission-line includes a series-connected pair of twelfth-wave transmission-line sections. The series-connection between the twelfth wave transmission-line sections in one transmission line is connected to the series-connection between the twelfth-wave transmission-line sections in the other by a device having an adjustable impedance. | 04-12-2012 |
20120307852 | IMPEDANCE-MATCHING TRANSFORMERS FOR RF DRIVEN CO2 GAS DISCHARGE LASERS | 12-06-2012 |
20130051416 | APPARATUS AND METHOD FOR BALANCING COMBINED RF POWER- SUPPLIES FOR DRIVING A CO2 GAS-DISCHARGE LASER - Radio-frequency (RF) power supply apparatus for supplying RF power to discharge electrodes of a gas-discharge laser includes a plurality of amplifier modules each having an RF output. A power combining arrangement is provided for combining the amplifier module RF-outputs into a single combined RF-output connected to the discharge electrodes. A DC power supply is connectable to or disconnectable from each of the transistor amplifier modules, separately, to allow current drawn by any of the amplifier modules to be monitored by a single current sensor. | 02-28-2013 |
20130170512 | MULTIPLE PHASE-LOCKED LOOPS FOR HIGH-POWER RF-POWER COMBINERS - An RF power-supply for driving a carbon dioxide CO | 07-04-2013 |
20140347154 | INTERLEAVED PLANAR PCB RF TRANSFORMER - A radio-frequency (RF) planar transformer includes three spaced-apart, single-turn primary strip-windings connected electrically in parallel with each other. A one-turn secondary strip-winding is located between each adjacent pair of primary strip-windings. The secondary strip-windings are connected in electrical series with each other. The transformer functions as a transformer having a one-turn primary winding and a two-turn secondary winding. | 11-27-2014 |
Patent application number | Description | Published |
20110288608 | Electronic Device or Electric Component - An electronic device, comprising a housing, a functional unit disposed in the housing, a terminal lead electrically connecting the functional unit to the outside of the housing, and a sealed feedthrough in the housing, the feedthrough surrounding the terminal lead and insulating it with respect to the housing, wherein the feedthrough is produced from a liquid crystal polymer. | 11-24-2011 |
20120016212 | Implantable Sensor Device - An implantable sensor device for capturing at least one physical, chemical, biological or physiological parameter in the body of a living being wearing the sensor device upon contact with the body fluid or tissue of the same, including a sensor housing, a sensor element that is accommodated in the sensor housing and has a capturing section, which has direct contact with the body fluid or the body tissue, or which internally adjoins a surface or opening section of the sensor housing that has contact with the body fluid or the body tissue, and a mechanically acting sensor cleaning device for cleaning the capturing section of the sensor element and/or the surface or opening section of the sensor housing adjoining the same. | 01-19-2012 |
20120016220 | Self-Cleaning Sensor Surfaces for Implantable Sensor Systems - Implantable sensor system including a sensor which is situated in a housing, the housing having a measurement region which is permeable for the parameters to be detected by the sensor, wherein the measurement region has an erodible protective coating which is permeable for the parameters to be detected by the sensor. | 01-19-2012 |
20120042514 | Method for Embedding Electrical Components - A method for embedding at least one component into a dielectric layer. obtain a good result, it is provided that the method includes the following steps: a) Position and affix the at least one component on a carrier; b) Cast a liquid dielectric around the at least one component, thereby enclosing the at least one component completely; c) Harden the liquid dielectric to form a solid dielectric layer; and d) Apply, in particular by lamination thereon, another layer, in particular an electrically conductive layer. The use of a dielectric layer formed entirely of liquid dielectric, wherein the liquid dielectric is not converted into a solid state until the dielectric is processed. | 02-23-2012 |
20120085750 | Covering Device for an Organic Substrate, Substrate with a Covering Device, and Method for Producing a Covering Device - A covering device for covering an area of an organic substrate, with a connecting zone between a closure cap and the substrate. It is proposed that the connecting zone includes, at least in certain areas, a heating element for heating the connecting zone during the creation of a connection between the closure cap and the substrate. Also provided is an organic substrate with a covering device and a production method for producing a covering device. | 04-12-2012 |
20120118752 | Method for Electrodeposition of an Electrode on a Dielectric Substrate - A method for the electrodeposition of an electrode including a metallic electrode material ( | 05-17-2012 |
20120185024 | Self-Dissolving Electrode or Probe Implant - The present disclosure relates to permanently implantable electrode structures or probes of the type used, in particular, in cardiac pacemakers, ICDs, CRT-Ds and/or neurostimulators. Such electrode structures or probes include at least one control element, the physical-chemical state of which can be specifically manipulated using external excitation, such that local degradation or dissolution of a part of the implant or the entire implant takes place in this region. As a result of this partial dissolution, for example, the electrode structure or at least a portion thereof is modified such that the conditions for explantation are improved and/or parts of an implanted electrode structure that remain in the body are functionally deactivated. | 07-19-2012 |