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Ceglia
Kenneth P. Ceglia, Gardnerville, NV US
| Patent application number | Description | Published |
|---|---|---|
| 20110049883 | SYSTEM, DEVICE AND METHOD FOR WIND TURBINE CONTROL BASED ON OPERATING PROFILES - A method for operating a wind turbine based on operating profiles for the wind turbine corresponding to operating modes. The method includes defining operating modes and acquiring a plurality of parameter values, each based on a reading from a sensor of the wind turbine. Each of the parameter values is associated with one of the operating modes to create a wind turbine operating profile for each mode. The wind turbine is controlled based on the operating profiles. | 03-03-2011 |
Michael J. Ceglia, Cherry Hill, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20100179612 | Non-bioelectric pressure-based sensing for pacemakers and implantable cardioverting defibrillators - Manually and autonomously configured non-bioelectrical-monitoring backup and/or primary pacemaker sensing is provided in the right ventricle and in the right atrium. Non-bioelectrical-monitoring is accomplished via direct, in-chamber metering and analysis of right ventricle and right atrium dynamic intracardiac pressures. A sensor is located on the right ventricular lead, another on the right atrial lead, and both are connected to the pacemaker. Right ventricular and right atrial dynamic intracardiac pressures are monitored and analyzed to indicate the presence or absence of contraction, relaxation and acceptable rhythm. | 07-15-2010 |
| 20100234915 | Non-bioelectrical pressure-based sensing for temporary pacemakers - For temporary cardiac pacing, non-bioelectrical monitoring of intracardiac blood pressure variations is provided in the right ventricle. Unlike traditional bioelectric sensing, which is accomplished via the pacing leads, pressure based sensing can be independently accomplished from anywhere within the volume of the right ventricle, making it unnecessary to force a stiff pacing electrode tip into the myocardium to ensure quality sensing. Consequently, the distal pacing electrode can be designed with a more bulbous tip to significantly reduce the risk of myocardial perforation during implant. An inflatable bladder, employed initially to guide the catheter into the right ventricle, is subsequently employed as a fluid pressure sensor bulb to transmit intracardiac blood pressure variations to a fluid pressure transducer integral within the pacing controller. | 09-16-2010 |
Paul Ceglia, Basel CH
| Patent application number | Description | Published |
|---|---|---|
| 20100026518 | Measuring system having a sensor module and a transmitter module - The sensor module includes: a sensor housing; at least one measuring transducer arranged at least partially in the sensor housing for registering at least one measured variable and for producing at least one primary signal influenced by the measured variable; as well as sensor electronics arranged within the sensor housing and connected with the measuring transducer for converting the primary signal delivered from the measuring transducer into a sensor signal. Further provided in the sensor electronics is an energy supply unit, which includes at least one energy storer arranged within the sensor housing for storing energy to be converted in the measuring system. The transmitter module is coupled to the sensor module and includes a transmitter housing and a transmitter electronics accommodated in the transducer housing and electrically coupled with the sensor electronics for converting the sensor signal delivered from the sensor module into measured values representing the at least one measured variable. | 02-04-2010 |