Renaudin
Fabrice Renaudin, Les Chatteliers Chateaumur FR
Patent application number | Description | Published |
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20120169091 | SLIDING ROOF DEVICE, IN PARTICULAR FOR A MOTOR VEHICLE - A sliding roof device for a vehicle, in particular for an automobile, is provided. The device has a movable panel, the front region of which is mounted such that it is slidable in the longitudinal direction of the vehicle, while the rear region is hinged to at least one push-out lever that is likewise mounted such that it is slidable in the longitudinal direction of the vehicle. The sliding roof device additionally comprises drive devices configured to displace the movable panel by directly driving each push-out lever in the direction of a displacement in the longitudinal direction of the vehicle. | 07-05-2012 |
Francois Renaudin, Cholet FR
Patent application number | Description | Published |
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20100140997 | Automobile Seat for Children With Visual Indicator of Harness Tightness and Corresponding Visual Indicator - The present disclosure relates to an automobile seat for children. The seat includes a safety harness and a system of tightening the safety harness. | 06-10-2010 |
20140008959 | CHILDCARE DEVICE INCLUDING INFLATABLE SAFETY ELEMENTS - A child care device is configured to receive a child. The device includes a child-restraint harness including first and second shoulder straps and inflatable elements associated with each shoulder strap. | 01-09-2014 |
20140246888 | CAR SEAT FOR A CHILD, THE HEIGHT OF THE SEAT PORTION OF WHICH IS ADJUSTABLE - A juvenile vehicle seat includes a squab (i.e. base) on which a child may sit when the squab is placed on a passenger seat in a vehicle. The orientation of the squab relative to the passenger seat may be varied at the option of a caregiver. | 09-04-2014 |
20150054263 | CHILDCARE DEVICE INCLUDING INFLATABLE SAFETY ELEMENTS - A childcare device is configured to receive a child. The device includes a child-restraint harness including first and second shoulder straps and inflatable elements associated with each shoulder strap. | 02-26-2015 |
Marc Renaudin, Biviers FR
Patent application number | Description | Published |
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20080214108 | Contactless Communications Method Based On Asynchronous Modulations And Demodulations - The invention relates to a method for exchanging information by inductive coupling or without contact between a reader ( | 09-04-2008 |
20090307516 | Asynchronous circuit insensitive to delays with time delay insertion circuit - The asynchronous circuit insensitive to delays comprises at least one time delay insertion circuit on the propagation path of a signal. The delay insertion circuit comprises, between an input and an output of the signal, a Muller C-element and a plurality of delay circuits connected in series to an output of the Muller C-element. The outputs of the delay circuits are connected to corresponding inputs of a multiplexing circuit having an output constituting the output of the delay insertion circuit. The Muller C-element comprises an input connected to the output of the last delay circuit via an inverter gate, and an input constituting the input of the signal to the delay insertion circuit. The multiplexing circuit control circuit preferably comprises a random generator. | 12-10-2009 |
20130234758 | DELAY-INSENSITIVE ASYNCHRONOUS CIRCUIT - The asynchronous circuit includes a fork having at least two branches, each branch being connected to a logic gate so that the logic gate receives as input a branch-ending signal. It further includes a circuit for branching the branch-ending signal at the level of each logic gate to form a branched signal, and a blocking circuit comprising a Muller gate and receiving as input at least one branched signal, the blocking circuit being configured to prevent the propagation of an output signal when the branch-ending signals are in different logic states. | 09-12-2013 |
20140075084 | ASYNCHRONOUS CIRCUIT WITH SEQUENTIAL WRITE OPERATIONS - The asynchronous circuit includes an input channel, a divergence operator connecting the input channel to a plurality of intermediate channels, a convergence operator gathering the intermediate channels into a single output channel, a main sequencer including a plurality of sequentially-activated control channels, each intermediate channel being associated to a control channel, and a switch arranged in a request path of one of the intermediate channels and connected to the last active control channel. The circuit further includes a memory circuit, arranged in each of the other intermediate channels, connected to the associated control channel and configured to transmit the request signal of the associated intermediate channel to the output channel and to modify an output state of the associated intermediate channel, by means of the main sequencer, without requiring any state change of the input channel. | 03-13-2014 |
Patrice Renaudin, Tremblay Les Villages FR
Patent application number | Description | Published |
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20100244657 | HALL EFFECT ION EJECTION DEVICE - The disclosure relates to a Hall-effect ion ejection device that comprises a longitudinal axis substantially parallel to the ion ejection direction, and comprises at least: a main ionization and acceleration annular channel, the annular channel being open at its end; an anode extending inside the channel; a cathode extending outside the channel at the outlet thereof; a magnetic circuit for generating a magnetic field in a portion of the annular channel, said circuit including at least an annular inner wall, an annular outer wall and a bottom connecting the inner and outer annular walls and defining the downstream portion of the magnetic circuit; characterised in that the magnetic circuit is arranged so as to create at the outlet of the annular channel a magnetic field independent from the azimuth. | 09-30-2010 |
Valerie Renaudin, Calgary CA
Patent application number | Description | Published |
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20120259572 | SYSTEM AND METHOD FOR GYROSCOPE ERROR ESTIMATION - Methods and systems for compensating for gyroscopic errors. A system uses magnetometers to detect and measure a magnetic field local to a personal navigation device. When the local magnetic field is quasi-static, the rate of change of the magnetic field is combined with the rotational rate of change of the device. This generates an estimated gyroscope error. The error can then be used to correct for time-varying inherent gyroscope errors. | 10-11-2012 |