Bobak
Bobak Ha'Eri, Wayzata, MN US
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20130101710 | Producing Infused Beverages Using Ultrasound Energy - Infused beverages are produced using ultrasound energy. The device delivers ultrasound energy to the target, producing infused beverages that may have more flavor and smoothness and are safer than conventionally produced infused beverages. The process of infusing one or more ingredients with a beverage comprises placing the ingredients with beverage, placing an ultrasound transducer at a predetermined location from the ingredients, and sonicating the ingredients by applying ultrasound energy from the ultrasound transducer. The process can comprise the additional step of pulverizing the ingredient. The steps can occur in any order, including partially or completely simultaneously. | 04-25-2013 |
Bobak Ha'Eri, Minneapolis, MN US
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20100224571 | ULTRASOUND BALLAST WATER TREATMENT DEVICE AND METHOD - The disclosure relates to the use of ultrasound for treating ballast water in ships. Specifically the invention discloses the use of ultrasound to activate chemicals to significantly improve there disinfectant properties at low concentrations. Ultrasound chemical activation allows for sonication of only a portion of the incoming ballast water, greatly increasing the cost-effectiveness of ballast water treatment. The ballast water treatment system may integrate with new or existing shipboard ballast systems attaching to the ballast inlet mains; mixing, sonicating and delivering the active substance as it feeds into the ballast tanks. Alternatively, when space or other factors are an issue it can be designed to achieve the same mixing, sonication and delivery from a small apparatus attached to the ballast tanks. | 09-09-2010 |
Bobak Modaress-Razavi, Morrisville, NC US
Patent application number | Description | Published |
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20090116593 | CIRCUIT FOR PROVIDING AUTOMATIC ADAPTATION TO FREQUENCY OFFSETS IN HIGH SPEED SERIAL LINKS - Aspects of providing automatic adaptation to frequency offsets in high speed serial links are described. First signals for phase adjusts in a receiver link are adjusted by detecting trends in the first signals to generate second signals, the second signals improving a rate of compensation for the frequency offsets by the phase adjusts. An up/down counter is included for counting signals for phase adjustments by a clock-data-recovery loop of a serial receiver. An adder is coupled to the up/down counter and outputs accumulated data indicative of a trend in the phase adjustments. Combinatorial logic coupled to the adder adapts the signals based on the accumulated data. | 05-07-2009 |
20090146722 | Systems and Arrangements to Provide Input Offset Voltage Compensation - In one embodiment a method is disclosed that includes applying a series of voltages to an input of an offset evaluation latch, detecting an offset voltage from the offset evaluation latch in response to the application of the series of voltages, and applying an offset compensation voltage to the input of a plurality of sampling latch in response to the detected offset voltage. In some embodiments a digital value can be assigned to the applied offset voltage. When the offset voltage is determined, it can be applied to a plurality sampling latches and a data stream can be received and clock and data recovery can be performed. | 06-11-2009 |
Bobak Mosadegh, Boston, MA US
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20150266186 | LOW STRAIN PNEUMATIC NETWORKS FOR SOFT ROBOTS - An actuator includes a plurality of chambers comprised of an extensible material, the chambers having interior side walls and exterior walls, wherein at least a portion of the interior side wall is separated from an interior side wall of an adjacent chamber; and a strain limiting base; and a channel that fluidically interconnects the plurality of chambers, wherein the interior walls are configured to be more compliant than the exterior walls. | 09-24-2015 |
Bobak Mosadegh, Irvine, CA US
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20110183868 | SOLUTION MICROARRAYS AND USES THEREOF - The present invention relates to solution microarrays. In particular, the present invention relates to an aqueous 2-phase system for solution microarrays and uses thereof. Additional embodiments are described herein. | 07-28-2011 |
20110301535 | MICROFLUIDIC CONTROL SYSTEMS - The present invention relates to microfluidic devices. In particular, the present invention relates to microfluidic devices for performing spatio-temporal operations and applications thereof. | 12-08-2011 |
Bobak Mosadegh, Ann Arbor, MI US
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20110003372 | MICROFLUIDIC GRADIENT DEVICES - Provided herein are apparatuses, systems and methods for the efficient generation of gradients. | 01-06-2011 |
Bobak Mosadegh, New York, NY US
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20150112130 | SOFT BLADDER FOR INTERABDOMINAL SURGERY - A surgical device for displacement of organs within a body cavity for providing at least visual access to a selected site includes an expandable bladder, wherein the elasticity of the bladder varies across the surface of the bladder, said variation in elasticity selected to provide a predetermined, non-spherical shape when expanded; and a valve on the proximal end on the inflatable bladder for introduction of a pressurizing gas into the soft bladder. | 04-23-2015 |
20150240958 | APPARATUS, SYSTEMS, AND METHODS FOR ACTUATING PRESSURIZABLE CHAMBERS - A pneumatic controller for controllably providing pressurized gas to a target location is disclosed. The pneumatic controller can include an elastomeric manifold comprising a body and a first membrane coupled to a lower portion of the body. The body and the first membrane can form a first integrated channel having a first inlet, a first outlet, and an exhaust, and the first integrated channel is configured to receive pressurized gas at a first pressure at the first inlet and provide the pressurized gas to the first outlet. The body also has a sufficient stiffness to withstand an elevated pressure of the pressurized gas. The pneumatic controller can also include an actuator configured to change the first membrane from a first configuration to a second configuration to control a flow of the pressurized gas in the first integrated channel. | 08-27-2015 |