Ramez
Ramez Abdulnour, Racine, WI US
Patent application number | Description | Published |
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20100032149 | HEAT EXCHANGER AND METHOD OF MANUFACTURING THE SAME - The present invention provides, among other things, a heat exchanger including a plurality of tubes providing a flow path for a first fluid, a fin supported between two of the plurality of tubes and positioned along a flow path for a second fluid. Together, the fin and the plurality of tubes at least partially define a heat exchanger core. The heat exchanger can also include first and second tanks positioned adjacent to opposite ends of the plurality of tubes and an elastically deformable side part extending across the heat exchanger core and including a pair of integrally formed caps for closing openings in the first and second tanks. | 02-11-2010 |
Ramez Atiya, Salt Lake City, UT US
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20140182280 | PARALLEL CYCLE FOR TIDAL RANGE POWER GENERATION - A parallel cycle process of extracting energy from the rise and fall of the ocean tides utilizes a marine enclosure capable of supporting a differential head, equipment capable of using a differential fluid head to generate electricity and equipment capable of pumping against a differential head to generate power from the rise and fall of ocean tides in a manner that preserves and maintains sensitive intertidal zones. | 07-03-2014 |
Ramez Ghardi, Orleans FR
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20100071120 | TOILET BOWL ASSEMBLY WITH AIR ASPIRATION AND FILTRATION - A toilet bowl assembly comprising a base fixed to a bowl, provided with a toilet seat and a device for aspirating air from the bowl. The base comprises an extension that has its upper part provided with a presence detection window directed to above the seat and forming an aspiration channel opening into the bowl. A circuit for controlling the function of the aspirating device with an infrared detector situated in the detection window to detect a presence on the seat and with an electric power supply for the circuit and the aspirating device. | 03-25-2010 |
Ramez Guindi, Sugar Land, TX US
Patent application number | Description | Published |
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20100202896 | PUMP MOTOR PROTECTOR WITH REDUNDANT SHAFT SEAL - An electric submersible pump device having a motor part, a pump part, and a protector part. The protector part includes redundant shaft seal parts. | 08-12-2010 |
20140322038 | Pump Motor Protector with Redundant Shaft Seal - An electric submersible pump device having a motor part, a pump part, and a protector part. The protector part includes redundant shaft seal parts. | 10-30-2014 |
Ramez Shehada, La Mirada, CA US
Patent application number | Description | Published |
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20110152990 | MRI COMPATIBLE LEAD EMPLOYING MULTIPLE MINIATURE INDUCTORS - An implantable medical lead is disclosed herein. The lead includes a first electrode and a first electrical circuit. The first electrode is near a distal portion of the lead. The first electrical circuit extends through the lead to the first electrode and includes at least one conductor and a first band stop filter coupled between the distal end of the conductor and the electrode. The first band stop filter includes a first group of inductors in parallel and a second group of inductors in parallel. The first group is in series with the second group. The first group of inductors may include a self resonant L. The first group of inductors may include a self resonant tank LC. The first group of inductors may include a miniature self resonant L or miniature self resonant tank LC. The first group of inductors may include an integrated circuit of L and C components. | 06-23-2011 |
20130073020 | HEADER EMBEDDED FILTER FOR IMPLANTABLE MEDICAL DEVICE - A filter circuit embedded into a header of an implantable medical device attenuates energy that may otherwise enter the implantable medical device. At MRI frequencies, the impedance of the filter circuit is much higher than the impedance of the feedthrough capacitor of the implantable medical device. Thus, MRI-induced current that would otherwise enter the implantable medical device is limited by the filter circuit. Consequently, localized device heating that may otherwise occur during MRI scanning is significantly reduced by operation of the filter circuit. In some implementations, the header embedded filter circuit is electrically isolated from the header housing. In this way, localized heating of the header housing also may be avoided. | 03-21-2013 |