Bizjak
Franc Bizjak, Idrija SI
Patent application number | Description | Published |
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20140184016 | DYNAMO-ELECTRIC MACHINE - A dynamo-electric machine is provided comprising a stator and a rotor assembly which is rotatably mounted relative to the stator and which has a rotor shaft. The rotor assembly also has a rotor winding through which current flows and which is connected to terminals associated with the stator in an electrically conductive manner without interruption via a slip ring arrangement. The slip ring arrangement comprises at least two pairs of slip rings, each pair having a stator slip ring and a rotor slip ring that permanently rest against each other in a ring-shaped non-cylindrical contact zone. The two rotor slip rings are arranged between the two stator slip rings. Furthermore, each rotor slip ring is arranged on a rotor support disk that is rotationally fixed to the rotor shaft. The position of the two stator slip rings can be changed relative to each other in the axial direction. | 07-03-2014 |
Gregor Bizjak, Smarje Pri Jelsah SI
Patent application number | Description | Published |
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20100308642 | WHEEL - A wheel adapted for use with high performance vehicles, such as for example, a high performance motorcycle, having, without limitation, one or more of the following characteristics: a low weight, low moment of inertia, reduced air resistance, ventilation capabilities, wheel variations tolerance, tyre pressure variation tolerance, thermal variation tolerance and/or impacts tolerance is disclosed. | 12-09-2010 |
Luca Bizjak, Villach AT
Patent application number | Description | Published |
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20100096923 | Synchronization of Plural DC-DC Voltage Converters - The present disclosure relates to circuits and methods for improving the performance of plural DC-DC voltage converters. | 04-22-2010 |
20110115453 | NONLINEAR CONTROL LOOP FOR DC-DC CONVERTERS - A nonlinear converter, such as a DC-DC converter, includes a nonlinear controller configured to receive an output voltage and a current, and configured to generate a PWM signal. The PWM signal is generated based on setting the converter to a first phase associated with both buck and boost modes when a clock signal is asserted, and selecting a second phase associated with the buck mode of the converter, if a sliding function signal achieves a first predetermined relationship with respect to a buck threshold before a next clock signal is asserted, or selecting a third phase associated with the boost mode of the converter, if the sliding function signal achieves a second predetermined relationship with respect to a boost threshold before a next clock signal is asserted. The nonlinear converter may include a power stage configured to provide the output voltage and a coil current to the nonlinear controller. | 05-19-2011 |
20110210707 | PULSE MODULATION CONTROL IN A DC-DC CONVERTER CIRCUIT - In a device, a pulse modulation switching logic is provided to generate switching signals of a pulse modulator so as to generate a pulse modulated signal with a first pulse modulation control parameter and a second pulse modulation control parameter. The first pulse modulation control parameter is controlled on the basis of a first control signal, and the second pulse modulation control parameter is controlled on the basis of a second control signal. A first control loop is provided to generate the first control signal from an output signal derived from the pulse modulated signal. A second control loop is provided to generate the second control signal on the basis of the output signal. The first and second control signals are applied to concurrently control the first and second pulse modulation control parameters. | 09-01-2011 |
20140139296 | PULSE MODULATION CONTROL IN A DC-DC CONVERTER CIRCUIT - In a device, a pulse modulation switching logic is provided to generate switching signals of a pulse modulator so as to generate a pulse modulated signal with a first pulse modulation control parameter and a second pulse modulation control parameter. The first pulse modulation control parameter is controlled on the basis of a first control signal, and the second pulse modulation control parameter is controlled on the basis of a second control signal. A first control loop is provided to generate the first control signal from an output signal derived from the pulse modulated signal. A second control loop is provided to generate the second control signal on the basis of the output signal. The first and second control signals are applied to concurrently control the first and second pulse modulation control parameters. | 05-22-2014 |