Patent application number | Description | Published |
20110101109 | CARD WITH ILLUMINATED CODES FOR USE IN SECURE TRANSACTIONS - A card for use in secure transactions includes a card body having a first major surface and a second major surface, the first major surface having a combination of a plurality of symbols disposed thereon. The card body has a plurality of LEDs disposed in connection with the plurality of preprinted symbols, individual ones of LEDs being disposed to identify respective individual ones of the plurality of symbols when illuminated. An LED controller is coupled to the plurality of LEDs and operable upon actuation to selectively illuminate individual ones of the plurality of LEDs to identify a sub-combination of the plurality of symbols, thereby providing an illuminated one-time code for use in a secure transaction. | 05-05-2011 |
20110140841 | SECURE SMART CARD SYSTEM - A smart card usable in magnetic stripe swipe transactions with a transaction terminal configured to read transaction information encoded on a magnetic stripe of a standard transaction card includes a card body, which includes a magnetic stripe emulator for use with the transaction terminal, a smart card chip programmed with at least one transaction application for providing secured data for use in a transaction and dynamic card verification data, a power supply, and a card controller in communication with the magnetic stripe emulator. The card controller is configured to receive the dynamic card verification data and control the magnetic stripe emulator to emit a magnetic field encoded with at least a portion of the secured data and the dynamic card verification data. | 06-16-2011 |
20120313754 | BIOMETRIC SMART CARD READER - A system and method for verifying the identity of an individual. The method may include for a smart card interfaced to a biometric interface device, determining if a match-on-card application exists on the smart card as a function of information contained on the card and capturing a biometric of an individual if a match-on-card application exists on the smart card using the biometric interface device. The captured biometric is then compared with a stored biometric. If the captured biometric matches with the stored biometric then a host application may be notified that the individual has been verified to access the data. Any one or several of these steps are performed without the use of a host application. | 12-13-2012 |
20130191281 | CARD WITH ILLUMINATED CODES FOR USE IN SECURE TRANSACTIONS - A card for use in secure transactions includes a card body having a first major surface and a second major surface, the first major surface having a combination of a plurality of symbols disposed thereon. The card body has a plurality of LEDs disposed in connection with the plurality of preprinted symbols, individual ones of LEDs being disposed to identify respective individual ones of the plurality of symbols when illuminated. An LED controller is coupled to the plurality of LEDs and operable upon actuation to selectively illuminate individual ones of the plurality of LEDs to identify a sub-combination of the plurality of symbols, thereby providing an illuminated one-time code for use in a secure transaction. | 07-25-2013 |
20140052630 | SECURE SMART CARD SYSTEM - A smart card usable in magnetic stripe swipe transactions with a transaction terminal configured to read transaction information encoded on a magnetic stripe of a standard transaction card includes a card body, which includes a magnetic stripe emulator for use with the transaction terminal, a smart card chip programmed with at least one transaction application for providing secured data for use in a transaction and dynamic card verification data, a power supply, and a card controller in communication with the magnetic stripe emulator. The card controller is configured to receive the dynamic card verification data and control the magnetic stripe emulator to emit a magnetic field encoded with at least a portion of the secured data and the dynamic card verification data. | 02-20-2014 |
Patent application number | Description | Published |
20090205347 | Variable Displacement Compressor With A Compensated Suction Shufoff Valve - A variable displacement compressor with a compensated suction shutoff valve (SSV). The SSV prevents noise generated by a suction reed valve at low refrigerant flow rates in an internal suction region from propagating to an air conditioner evaporator by moving a piston to obstruct an opening and restrict fluid communication. The degree of restriction is decreased by an opening force generated by refrigerant at an external suction pressure acting over a first area, and increased by refrigerant at a crankcase pressure acting over a second area. The second area is smaller than the first area so that at high refrigerant flow rates, the effect of crankcase pressure is reduced so that the restriction is reduced and the compressor operates at greater efficiency. The piston position is also influenced by refrigerant at a pressure intermediate the external suction pressure and the internal suction pressure acting over a third area. | 08-20-2009 |
20100242510 | Air Conditioner System Having an Externally Controlled Variable Displacement Compressor and a Clutch and Method of Operating the Same - A vehicle air conditioner system having, and method of operating, an externally controlled variable displacement compressor and a compressor clutch. If the system is operating during conditions when the operating displacement is low, the efficiency of the system is increased by duty cycling the clutch. Operating an externally controlled variable displacement compressor in this manner can also prevent overcooling by the air conditioner. | 09-30-2010 |
20120305822 | ELECTRONIC CONTROL VALVE HAVING AN INTEGRAL NON-CONTACT NOISE MITIGATION DEVICE - An electronic control valve having a valve stationary portion defining a substantially central bore extending along an axis of the valve, and a valve train including a movable member of the valve. The valve train moveable member is disposed in the central bore, and the valve train is adapted for reciprocal movement along the axis. A mass is engaged is with the valve train and adapted for reciprocal movement along the axis. A biasing means is disposed between the valve train and the mass. Reciprocal movements of the mass along the axis induced by forces exerted along the axis by the valve train are transmitted through the biasing means, whereby reciprocal movement of the valve train along the axis is dynamically reduced by the mass. | 12-06-2012 |
20140180607 | METHOD OF TORQUE PREDICTION FOR AUTOMOTIVE AIR CONDITIONING COMPRESSOR - The torque of a vehicular air-conditioning compressor is predicted by the steps of starting a vehicle air-conditioning system having an engine and engine control module for controlling multiple vehicle functions, calculating a steady state torque value using an rpm value from the engine, calculating an engine RPM transient torque value using the rpm value from the engine, calculating a electronic control valve current transient torque value using a current value applied to an electronic control valve, selecting a final torque value from a group consisting of the steady state torque value, the engine RPM transient torque value, and the electronic control valve transient torque value, and providing a final torque value to the vehicle engine control module to control a predetermined vehicle function. | 06-26-2014 |