Patent application number | Description | Published |
20090130465 | LAYER SYSTEM FOR THE FORMATION OF A SURFACE LAYER ON A SURFACE OF A SUBSTRATE AND ALSO VAPORIZATION SOURCE FOR THE MANUFACTURE OF A LAYER SYSTEM - The invention relates to a layer system for the formation of a surface layer on a surface of a substrate, in particular on the surface of a tool, wherein the layer system includes at least one first hard layer of the composition (M | 05-21-2009 |
20100044214 | PHYSICAL VAPOUR DEPOSITION COATING DEVICE AS WELL AS A PHYSICAL VAPOUR DEPOSITION METHOD - The invention relates to a physical vapour deposition coating device ( | 02-25-2010 |
20100051445 | Coating Apparatus For The Coating Of A Substrate, As Well As A Method For The Coating Of A Substrate - The present invention relates to a vaporization apparatus ( | 03-04-2010 |
20100236919 | High-Power Pulsed Magnetron Sputtering Process As Well As A High-Power Electrical Energy Source - The invention relates to a high-power pulsed magnetron sputtering process ( | 09-23-2010 |
20120189841 | LAYER SYSTEM FOR THE FORMATION OF A SURFACE LAYER ON A SURFACE OF A SUBSTRATE AND COATING METHOD FOR THE MANUFACTURE OF A LAYER SYSTEM - The invention thus rel | 07-26-2012 |
20130302596 | COATING METHOD FOR DEPOSITING A LAYER SYSTEM ON A SUBSTRATE AND SUBSTRATE HAVING A LAYER SYSTEM - The invention relates to a coating method for depositing a layer system formed from hard material layers on a substrate, by depositing at least one contact layer including the evaporation material on the surface of the substrate only by means of a cathodic vacuum arc evaporation source. After the depositing of the contact layer, at least one intermediate layer is deposited in the form of a nano-layer intermediate layer in a hybrid phase or as a nanocomposite layer, including the evaporation material and the discharge material, by parallel operation of a cathodic vacuum arc evaporation source and of a magnetron discharge source. | 11-14-2013 |
20140174920 | EVAPORATION SOURCE - Evaporation source, in particular for use in a sputtering process or in a vacuum arc evaporation process, preferably a cathode vacuum arc evaporation process. The evaporation source includes an inner base body which is arranged in an outer carrier body and which is arranged with respect to the outer carrier body such that a cooling space in flow communication with an inlet and an outlet is formed between the base body and the carrier body. In accordance with the invention, the cooling space includes an inflow space and an outflow space, and the inflow space is in flow communication with the outflow space via an overflow connection for the cooling of the evaporation source such that a cooling fluid can be conveyed from the inlet via the inflow space the overflow connection and the outflow space to the outlet. | 06-26-2014 |
20140238852 | CYLINDRICAL EVAPORATION SOURCE - Cylindrical evaporation source which includes, at an outer cylinder wall, target material to be evaporated as well as a first magnetic field source and a second magnetic field source which form at least a part of a magnet system and are arranged in an interior of the cylindrical evaporation source for generating a magnetic field. In this respect, first magnetic field source and second magnetic field source are provided at a carrier system such that a shape and/or a strength of the magnetic field can be set in a predefinable spatial region in accordance with a predefinable scheme. In embodiments, the carrier system is configured for setting the shape and/or strength of the magnetic field of the carrier system such that the first magnetic field source is arranged at a first carrier arm and is pivotable by a predefinable pivot angle (α | 08-28-2014 |
Patent application number | Description | Published |
20140152327 | Capacitive Proximity Sensor As Well As Method For Capacitive Approximation Detection - A capacitive proximity sensor has a first sensor electrode and a second sensor electrode, a signal generator for providing a first and a second electric alternating signal, a first load element which comprises a first and a second electric load, in which the first alternating signal by the first load can be fed to the first sensor electrode and the second alternating signal by the second load to the second sensor electrode, and wherein the electric loads each together with the capacitive load to be measured at the respective sensor electrode form a lowpass filter, and a signal processing device, which is coupled with the first sensor electrode and with the second sensor electrode, and which is adapted to form a first measurement value from the push-pull portion of a first electric parameter tapped at the first sensor electrode and a second electric parameter tapped at the second sensor electrode. | 06-05-2014 |
20140155000 | Capacitive Sensor Device And Radio Transceiver With A Capacitive Sensor Device And A Method For Adjusting A Transmission Power Of A Handheld Radio Transceiver - A capacitive sensor device for a handheld radio transceiver for estimating a specific absorption rate (SAR) can be coupled with at least one first electrode, wherein during the operation of the handheld radio transceiver the first electrode is at the same time a sensor electrode of the capacitive sensor device and an antenna of the handheld radio transceiver. Moreover a handheld radio transceiver with such a capacitive sensor device can be provided. Moreover, a method can be provided for adjusting a transmission power of a handheld radio transceiver, wherein an approach of an object to the handheld radio transceiver is detected and wherein depending on the detected approach the transmission power of the handheld radio transceiver is increased or reduced. | 06-05-2014 |
20140176160 | Electrode Configuration For A Capacitive Sensor Device And A Capacitive Sensor Device For The Detection Of An Approximation - An electrode configuration for a capacitive sensor device has a transmitting electrode and a receiving electrode, wherein the transmitting electrode can be brought into a capacitive coupling with the receiving electrode, wherein the electrode configuration has at least one first and second sensor area, wherein both of the electrode surfaces of the transmitting electrode and of the receiving electrode in the first sensor area are small compared to the electrode surfaces of the transmitting electrode and of the receiving electrode in the second sensor area. A capacitive sensor device for the detection of an approximation may have such an electrode configuration. An electrical device, particularly an electrical hand-held device, may have at least one such capacitive sensor device. | 06-26-2014 |