Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Caro, US
Jayson Caro, Diamond Bar, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090102546 | COMPOSITE BAND-PASS FILTER AND METHOD OF FILTERING QUADRATURE SIGNALS - A composite band-pass filter receives a quadrature input signal and passes an intermediate frequency signal while attenuating all other signals including an undesired image signal. The composite band-pass filter is comprised of a continuous time polyphase filter and a discrete time polyphase filter and can amplify signals. The amplification is distributed through out the composite band-pass filter and the amount of amplification may be selected by control signals. The composite band-pass filter has improved dynamic range and noise characteristics, selectable amplification and replaces an external crystal filter. | 04-23-2009 |
Jorge Luis Caro, Lawrenceville, GA US
| Patent application number | Description | Published |
|---|---|---|
| 20100270882 | Generator-Powered Electric Motor Circuit - A generator powered electric circuit is provided. The generator powered electric motor circuit includes a motor; a controller that monitors the power cycle corresponding to the motor; a fuel cell that initiates a power-up cycle corresponding to the motor; and a generator that is coupled to the motor. | 10-28-2010 |
Jose Caro, Gladwyn, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20090035347 | ISOLATED STROMAL CELLS AND METHODS OF USING THE SAME - Methods of treating patients who are suffering from a disease, disorder or condition characterized by a bone cartilage or lung defect are disclosed. The methods comprising the step of intravenous administration of stromal cells isolated from normal syngeneic individuals or intravenous administration of stromal cells isolated from the patient subsequent to correction of the genetic defect in the isolated cells. Implant devices comprising a container that has at least one membrane surface and stromal cells isolated from bone marrow that comprise a gene construct are disclosed. The gene construct in the stromal cells comprises a nucleotide sequence that encodes a beneficial protein operably linked to regulatory elements which function in stromal cells. Methods of treating individuals with diseases, disorders or conditions which can be treated with a beneficial protein, including diseases, disorders or conditions characterized by gene defects are disclosed. The methods comprise introducing into such individuals, stromal cells that are administered in a manner that physically isolates them from the recipient's immune system and that comprise a gene construct that comprises a nucleotide sequence that encodes a beneficial protein operably linked to regulatory elements which function in stromal cells. | 02-05-2009 |
| 20100008964 | ISOLATED STROMAL CELLS AND METHODS OF USING THE SAME - Methods of treating patients who are suffering from a disease, disorder or condition characterized by a bone cartilage or lung defect are disclosed. The methods comprising the step of intravenous administration of stromal cells isolated from normal syngeneic individuals or intravenous administration of stromal cells isolated from the patient subsequent to correction of the genetic defect in the isolated cells. Implant devices comprising a container that has at least one membrane surface and stromal cells isolated from bone marrow that comprise a gene construct are disclosed. The gene construct in the stromal cells comprises a nucleotide sequence that encodes a beneficial protein operably linked to regulatory elements which function in stromal cells. Methods of treating individuals with diseases, disorders or conditions which can be treated with a beneficial protein, including diseases, disorders or conditions characterized by gene defects are disclosed. The methods comprise introducing into such individuals, stromal cells that are administered in a manner that physically isolates them from the recipient's immune system and that comprise a gene construct that comprises a nucleotide sequence that encodes a beneficial protein operably linked to regulatory elements which function in stromal cells. | 01-14-2010 |
Perry A. Caro, San Jose, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110283186 | COMPUTER GENERATION OF DOCUMENTS USING LAYOUT ELEMENTS AND CONTENT ELEMENTS - Bindings are used to describe a document (and a different document) by associating content elements with layout elements, the layout elements defining layout features or placement information to be applied to the associated content elements in the document, the bindings being stored separately from both the content and layout elements. | 11-17-2011 |
Ricardo J. Caro, Marietta, GA US
| Patent application number | Description | Published |
|---|---|---|
| 20100299185 | Diagnostic Tools and Methods Thereof - A diagnostic tool for use in adjusting a welding project. The diagnostic tool having an input device adapted to transfer base data into a first computer readable database. The input device further adapted to transfer performance data relating to each welding apparatus into a second computer readable database. The diagnostic tool further having a computer program adapted to transform the base transform the base data and the performance data into optimization data. The diagnostic tool further having an output device adapted to display the optimization data. | 11-25-2010 |
Richard G. Caro, San Francisco, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090171231 | METHOD OF DETERMINING LUNG CONDITION INDICATORS - A method and a microprocessor controlled device for use in medical evaluation of the pulmonary system. The method and device incorporate two different non invasive evaluative techniques. Passive auscultation provides indicators of lung condition. Active auscultation, a different evaluative technique, provides information or indications generally not available or provided from passive auscultation. Combining the information from both techniques greatly improves the ability to provide effective medical treatment. | 07-02-2009 |
| 20100056930 | RAPID NON-INVASIVE BLOOD PRESSURE MEASURING DEVICE - A measurement device for generating an arterial volume-indicative signal includes an exciter and a detector. The exciter is adapted to receive an oscillating signal and generate a pressure wave based at least in part on the oscillating signal on the artery at a measurement site on a patient. The pressure wave includes a frequency. The detector is placed sufficiently near the measurement site to detect a volumetric signal indicative of arterial volume of the patient. | 03-04-2010 |
| 20110263990 | RAPID NON-INVASIVE BLOOD PRESSURE MEASURING DEVICE - A measurement device for generating an arterial volume-indicative signal includes an exciter and a detector. The exciter is adapted to receive an oscillating signal and generate a pressure wave based at least in part on the oscillating signal on the artery at a measurement site on a patient. The pressure wave includes a frequency. The detector is placed sufficiently near the measurement site to detect a volumetric signal indicative of arterial volume of the patient. | 10-27-2011 |
Sal Caro, Camarillo, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080289493 | ADVANCED METHANE AND AMMONIA RECOVERY SYSTEM - An advanced methane and ammonia recovery system processes gaseous waste from domestic livestock and poultry farms to reduce the green house gasses which are presently dumped into the environment and to produce useful material. The system includes a gas recovery system. The methane and ammonia recovery system captures ammonia and methane and converts the ammonia into fertilizer and methane into energy. The system is designed to substantially reduce the amount of green house gases introduced into the environment, while providing additional income to the domestic livestock and poultry farms | 11-27-2008 |
| 20090126563 | ADVANCED METHANE AND AMMONIA RECOVERY SYSTEM - An advanced methane and ammonia recovery system captures gaseous waste produced by domestic livestock to reduce the release of greenhouse gasses into the atmosphere and to generate energy. The system includes a gas capture system residing at a peak of a barn. At large commercial operations, the captured gasses pass through a separator to separate methane from ammonia gas. The ammonia is processed to obtain a fertilizer. The methane is stored in a tank, and drawn from the tank to provide fuel for an electrical generator. At smaller operations, the captured gasses may be stored in a tank for periodic collection by a tanker truck or other transportation, or where economically feasible, piped to a central processing location. The system is designed to substantially reduce the amount of methane gas released into the environment while providing additional income to the domestic livestock operations. | 05-21-2009 |
| 20090197489 | EXHAUST INTAKE BONNET (EIB) FOR MARITIME EMISSIONS CONTROL SYSTEM - An improved Exhaust Intake Bonnet (EIB) for an Advanced Maritime Emissions Control System (AMECS) includes a shroud carried by a rigid upper frame and a lowerable and raisable rigid lower frame. The upper frame includes a peak with a duct for receiving exhaust gasses captured by the shroud and winches for lowering and raising the lower frame. The shroud is expandable when the lower frame is lowered and collapsible when the lower frame is raised and has a cinchable base. The AMECS is joined to a ship by positioning the EIB over a ship's exhaust stack using a deployment arm. The shroud is then lowered over the stack and then cinched around the stack to provide a soft attachment between the EIB and the ship's stack. Later, the steps are reversed to separate the AMECS from the ship. | 08-06-2009 |
| 20100180559 | ELLIPSOID EXHAUST INTAKE BONNET (EIB) FOR MARITIME EMISSIONS CONTROL SYSTEM - An improved Exhaust Intake Bonnet (EIB) for an Advanced Maritime Emissions Control System (AMECS) includes a ribbed frame lowered and then drawn around a stack of an Ocean Going Vessel (OGV), and a shroud unfurled over the ribbed frame. The ribbed frame has a more flexible structure to better conform to rectangular and oval stacks. The bonnet includes a peak with a duct for receiving exhaust gasses captured by the shroud. The bonnet is positioned over the stack using a deployment arm. A duct carries exhaust from the stack to an Advanced Maritime Emissions Control Unit (AMECU) where the exhaust gasses are processed before releasing to the air. The AMECU) may reside on a ship, a barge, a trailer next to a docked OGV, or be a stationary AMECU) on a dock. | 07-22-2010 |