Mike M.
Mike M. Asoodeh, Hammond, LA US
Patent application number | Description | Published |
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20090112510 | Method and system for continuously determining vessel draft and amount of cargo in a vessel undergoing loading - The present invention discloses an improved method and system to continuously acquire, record, and analyze data with the goal of determining the draft of a water-borne vessel and/or the amount of cargo currently loaded. | 04-30-2009 |
Mike M. Cai, San Jose, CA US
Patent application number | Description | Published |
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20130091189 | Single datapath floating point implementation of RCP, SQRT, EXP and LOG functions and a low latency RCP based on the same techniques - Methods and apparatus is provided for computing mathematical functions comprising a single pipeline for performing a polynomial approximation (e.g. a quadratic polynomial approximation, or the like); and one or more data tables corresponding to at least one of the RCP, SQRT, EXP or LOG functions operable to be coupled to the single pipeline according to one or more opcodes; wherein the single pipeline is operable for computing at least one of RCP, SQRT, EXP or LOG functions according to the one or more opcodes. | 04-11-2013 |
Mike M. Masoudipour, Torrance, CA US
Patent application number | Description | Published |
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20100117473 | ROBUST PERMANENT MAGNET ROTOR ASSEMBLY - A rotor assembly for an electric motor having at least one gas vent allowing for the release of gases from within an enclosed portion is provided. The rotor assembly comprises a rotor shaft with at least one magnet longitudinally extending a portion of an outer surface thereof in an axial direction and being retained therewith. A non-magnetic wedge spacer may be positioned between each of a plurality of magnets and a cylindrical sleeve may be positioned about the at least one magnet. An end cap or stub shaft is adhered or mechanically held to or within each end of the cylindrical sleeve adjacent the at least one magnet forming an enclosed portion of the rotor assembly. At least one vent hole, channel, or bevel provides a gas flow through passage in flow communication with the enclosed portion and an environment outside of the enclosed portion of the rotor assembly. | 05-13-2010 |
20110303003 | ACCUMULATOR WITH BOTH DIRECT AND REMOTE QUANTITY LEVEL INDICATION - An apparatus for determining the fluid level of a container, such as an accumulator, may include both a remote quantity indicator and a direct quantity indicator. The remote quantity indicator may include a remote dial at the end of a flexible cable or an electrical signal receiver receiving an electrical signal from a rotary variable differential transformer (RVDT), such as a potentiometer. The RVDT type of indicator may include an electrical connector on the accumulator to attach an electrical cable to carry the quantity level signal. The direct quantity indicator may include a dial directly mounted on the accumulator. The remote/direct quantity indicators may include, for example, one of the following three combinations: 1) a dial directly on the accumulator and a remote dial at the end of a flexible cable; 2) an RVDT output and a dial directly on the accumulator; and 3) an RVDT output on an accumulator, a remote dial at the end of a flexible cable and a dial directly on the accumulator. | 12-15-2011 |
Mike M. Masoudipour, Rancho Palos Verdes, CA US
Patent application number | Description | Published |
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20080199326 | TWO-STAGE VAPOR CYCLE COMPRESSOR - A two-stage vapor cycle compressor includes a first stage impeller, a second stage impeller situated adjacent to the first stage impeller, an electric motor running on a pair of foil bearings, a thrust disk including two foil bearings and being positioned between the second stage impeller and the electric motor, and a compressor housing enclosing the first and second stage impeller and the electric motor. A refrigerant vapor compressed by the first stage and second stage impeller flows through an internal passageway formed by the compressor housing and cools the foil bearings and the electric motor. The compressor may be a gravity insensitive, small, and lightweight machine that may be easily assembled at low manufacturing costs. The two-stage vapor cycle compressor may be suitable for, but not limited to, applications in vapor compression refrigeration systems, such as air-conditioning systems, for example, in the aircraft and aerospace industries. | 08-21-2008 |
20090044548 | TWO-STAGE VAPOR CYCLE COMPRESSOR - A two-stage vapor cycle compressor includes a first stage impeller, a second stage impeller situated adjacent to the first stage impeller, an electric motor running on a pair of foil bearings, a thrust disk including two foil bearings and being positioned between the second stage impeller and the electric motor, and a compressor housing enclosing the first and second stage impeller and the electric motor. A refrigerant vapor compressed by the first stage and second stage impeller flows through an internal passageway formed by the compressor housing and cools the foil bearings and the electric motor. The compressor may be a gravity insensitive, small, and lightweight machine that may be easily assembled at low manufacturing costs. The two-stage vapor cycle compressor may be suitable for, but not limited to, applications in vapor compression refrigeration systems, such as air-conditioning systems, for example, in the aircraft and aerospace industries. | 02-19-2009 |