Crepin
Bettina Crepin, Stuttgart DE
Patent application number | Description | Published |
---|---|---|
20090210127 | Closed-Loop Control of Brake Pressure Using a Pressure-Limiting Valve - A device for controlling the brake pressure in a hydraulic brake system with the aid of a pressure-limiting valve that limits the brake pressure to a predefined threshold value, and to that end is driven by an electronic device in accordance with a valve characteristic curve. The setting accuracy can be improved considerably if an estimating unit for estimating the brake pressure, a sensor system for measuring the brake pressure, a unit for determining a pressure difference between the measured brake pressure and the estimated brake pressure, as well as a controller unit which drives the pressure-limiting valve as a function of the pressure difference are provided. | 08-20-2009 |
Jean-Philippe Crepin, Ath BE
Patent application number | Description | Published |
---|---|---|
20100193642 | CABLE CARRIER CHAIN FOR LEADING EDGE MOBILE SLAT FOR AN AIRCRAFT WING - The invention relates to an aircraft wing comprising a wing fixed central body, and a leading edge mobile slat ( | 08-05-2010 |
Jean-Pierre Georges Armand Crepin, Villemomble FR
Patent application number | Description | Published |
---|---|---|
20140366661 | FORWARD AND REVERSE PEDALLING SYSTEM FOR A BICYCLE - A forward and reverse pedaling system for a bicycle with automatic gear change replacing the derailleur and clutch operating at a very low speed using an engagement wheel ( | 12-18-2014 |
Jean-Pierre Georges Armand Crepin US
Patent application number | Description | Published |
---|---|---|
20140366661 | FORWARD AND REVERSE PEDALLING SYSTEM FOR A BICYCLE - A forward and reverse pedaling system for a bicycle with automatic gear change replacing the derailleur and clutch operating at a very low speed using an engagement wheel ( | 12-18-2014 |
J. Francois Crepin, Orangevale, CA US
Patent application number | Description | Published |
---|---|---|
20090265563 | SYSTEMS AND METHODS OPERABLE TO ALLOW LOOP POWERING OF NETWORKED DEVICES - Embodiments of the present invention provide a network device operable to receive a network signal that may include both power and data from a coupled network. This network device includes a network connector and an integrated circuit. The network connector physically couples the network device to the network. An optional protection circuit may provide surge protection or incoming network signals received by the network device through the network connector. An optional switching/rectifying circuit sees the output of the protection circuit and is operable to rectify a power signal when contained within the network signal. The integrated circuit further includes a power feed circuit conductively coupled to the protection circuit and the rectifying circuit. This power feed circuit is operable to separate and pass the received data signal to a network physical layer and separate and pass the received power signal to a power management module. The power management module electrically couples to the integrated circuit but is not necessarily part of the integrated circuit. The power management module is operable to at least partially power the network device for specific circuits within the network device from the received power signal. | 10-22-2009 |
Ronan Philippe Crepin, Buc FR
Patent application number | Description | Published |
---|---|---|
20130045206 | ANTIBODIES DIRECTED AGAINST THE TRANSFERRIN RECEPTOR AND USES THEREOF FOR IMMUNOTHERAPY OF IRON-DEPENDENT TUMOURS - The present invention relates to a molecular structure characterised in that said structure includes at least one amino acid sequence selected from: SEQ. ID NO.: 1, SEQ. ID NO.: 2, SEQ. ID NO.: 3, SEQ. ID NO.: 4, SEQ. ID NO.: 5, SEQ. ID NO.: 6, SEQ. ID NO.: 7, SEQ. ID NO.: 8, SEQ. ID NO.: 9, SEQ. ID NO.: 10, SEQ. ID NO.: 11, SEQ. ID NO.: 12, SEQ. ID NO.: 13, SEQ. ID NO.: 14, SEQ. ID NO.: 15, SEQ. ID NO.: 16, SEQ. ID NO.: 17, SEQ. ID NO.: 18, SEQ. ID NO.: 19, SEQ. ID NO.: 20, SEQ. ID NO.: 21, SEQ. ID NO.: 22, SEQ. ID NO.: 23, SEQ. ID NO.: 24, SEQ. ID NO.: 25, SEQ. ID NO.: 26, SEQ. ID NO.: 27, SEQ. ID NO.: 28, SEQ. ID NO.: 29, SEQ. ID NO.: 30, SEQ. ID NO.: 31, SEQ. ID NO.: 32, SEQ. ID NO.: 33, SEQ. ID NO.: 34, SEQ. ID NO.: 35, SEQ. ID NO.: 36, said amino acid sequence corresponding to an antigen complementarity determining region (CDR) of the variable domain of the heavy chain (CDR-H) or the light chain (CDR-L) of an antibody targeting the human transferrin receptor (TfR). The present invention also relates to a pharmaceutical composition including a therapeutically effective amount of at least one molecular structure as defined in the present application, combined with a pharmaceutically acceptable carrier. | 02-21-2013 |
Thibaut Crepin, Grenoble FR
Patent application number | Description | Published |
---|---|---|
20120108493 | Polypeptide Fragments Comprising Endonuclease Activity and Their Use - The present invention relates to polypeptide fragments comprising an amino-terminal fragment of the PA subunit of a viral RNA-dependent RNA polymerase or variants thereof possessing endonuclease activity, wherein said PA subunit is from a virus belonging to the Orthomyxoviridae family. This invention also relates to (i) crystals of the polypeptide fragments which are suitable for structure determination of said polypeptide fragments using X-ray crystallography and (ii) computational methods using the structural coordinates of said polypeptide to screen for and design compounds that modulate, preferably inhibit the endonucleolytically active site within the polypeptide fragment. In addition, this invention relates to methods identifying compounds that bind to the PA polypeptide fragments possessing endonuclease activity and preferably inhibit said endonucleolytic activity, preferably in a high throughput setting. This invention also relates to compounds and pharmaceutical compositions comprising the identified compounds for the treatment of disease conditions due to viral infections caused by viruses of the Orthomyxoviridae family. | 05-03-2012 |