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Herb

Herb Amster, Delray Beach, FL US

Patent application number	Description	Published
20100259877	VIDEO DISPLAY UNIT SUPPORT BRACKET - A video display unit support bracket (	10-14-2010

Herb Grubic, Pittsburgh, PA US

Patent application number	Description	Published
20090247865	DRIP CHAMBER AND FLUID LEVEL SENSING MECHANISM FOR A FLUID DELIVERY SYSTEM - The fluid injector system includes a source of injection fluid, a pump device, a fluid control device operably associated with the pump device, and a fluid path set in fluid connection with the source of injection fluid and the pump device. The fluid path set includes a drip chamber including an elongated body having a top end, a bottom end and a raised projection, the raised projection being substantially rectangular in shape and extending longitudinally from the top end along the drip chamber body and terminating adjacent to the bottom end. A fluid level sensing mechanism is operably associated with the fluid control device, and includes a drip chamber support for supporting the drip chamber body and a fluid level sensor associated with the drip chamber support. The drip chamber support is adapted to support the drip chamber body such that the raised projection is in operational contact with the fluid level sensor and the fluid level sensing mechanism is operable to transmit ultrasonic or light energy through the raised projection to be sensed by the fluid level sensor for sensing the injection fluid level in the drip chamber.	10-01-2009

Herb Kamphausen, Willits, CA US

Patent application number	Description	Published
20090064611	FLOOR SYSTEM - A floor system includes a pair of joist rim assemblies each having a web defining a first surface. The web also includes a mounting portion defining a second surface offset from the first surface. The joist rim may also include a prong defining a slot along with the web. A joist connector bracket is received within the slot and is connectable to the mounting portion of the web. A joist extends between the pair of joist rim assemblies and is connected to the joist connector bracket of each joist rim assembly.	03-12-2009

Herb Meingast, Ann Arbor, MI US

Patent application number	Description	Published
20120111138	High Load Resistant Stop Lamp Switch Brackets and Brake Pedal Assemblies Incorporating the Same - A switch bracket includes a bracket body that includes a lower surface and a kickplate. The switch bracket also includes a switch mount located on the lower surface of the bracket body, where at least a portion of the kickplate extends outward from the lower surface further than the stop lamp switch that is retained at the switch mount. In another embodiment, a brake pedal assembly includes a switch bracket coupled to a pedal mount, the switch bracket having a lower surface and a kickplate. The brake pedal assembly also includes a stop lamp switch coupled to the lower surface of the switch bracket, and a brake pedal rotationally engaged with the pedal mount and coupled to the stop lamp switch.	05-10-2012

Herb Perasso, San Jose, CA US

Patent application number	Description	Published
20090314425	METHOD OF MANUFACTURING ANALYTE TEST STRIP FOR ACCEPTING DIVERSE SAMPLE VOLUMES - A method of manufacturing an analyte test strip includes positioning a patterned spacer layer between a first insulating layer and a second insulating layer such that the second insulating is disposed above the first insulating layer and a channel is defined between the first and second insulating layers. Moreover, the channel thus defined has a sample-receiving chamber therein, a first port, and a second port. The method also includes coupling a third insulating layer to the first insulating layer such that the third insulating layer is disposed at least partially below the first insulating layer. In the coupling step, the third insulating layer includes a platform portion that extends beyond the first insulating layer and the second insulating layer and the platform portion has an upper surface. In this manufacturing method, the first and second ports are in fluidic communication with the sample-receiving chamber; the upper surface of the platform portion is configured to receive a first (relatively large) bodily fluid sample of at least 5 micro-liters and for filling the sample-receiving chamber with a portion of the first bodily fluid sample, and the second port is configured to receive a second (relatively small) bodily fluid sample of lesser volume than the first bodily fluid sample and for filling the sample-receiving chamber with a portion of the small bodily fluid sample.	12-24-2009
20090317297	ANALYTE TEST STRIP FOR ACCEPTING DIVERSE SAMPLE VOLUMES - An analyte test strip for accepting diverse bodily fluid sample volumes includes a first insulating layer, a second insulating layer disposed above the first insulating layer, and a third insulating layer disposed below the first insulating layer. The third insulating layer has a platform portion that extends beyond the first and second insulating layers and an upper surface. The analyte test strip also has a patterned spacer layer positioned between the first and second layers. The patterned spacer layer defines a channel between the first and second insulating layers that has a sample-receiving chamber, a first port proximate the platform portion and a second port at an outer edge of the analyte test strip. Moreover, the first port and the second port are in fluidic communication with the sample-receiving chamber. In addition, the upper surface of the platform portion is configured to receive a first (relatively large) bodily fluid sample of at least 5 micro-liters and transfer at least a portion of the first bodily fluid sample to the sample-receiving chamber via the first port. The second port is configured to receive a second (relatively small) bodily fluid sample of lesser volume than the first bodily fluid sample and to transfer at least a portion of the second bodily fluid sample to the sample-receiving chamber.	12-24-2009
20090317847	METHOD FOR DETERMINING AN ANALTYE IN A BODILY FLUID - A method for determining (e.g., detecting and/or measuring the concentration of) an analyte in a bodily fluid sample includes obtaining a bodily fluid sample, applying the bodily fluid sample to an analyte test strip, transferring the applied bodily fluid sample to a sample-receiving chamber of the analyte test strip, and determining an analyte in the bodily fluid sample. The analyte test strip employed in the method includes a first port in fluidic communication with the sample-receiving chamber and proximate a platform portion of the analyte test strip. Moreover, the platform portion is configured to receive a first (relatively large) bodily fluid sample of at least 5 micro-liters and transfer at least a portion of the first bodily fluid sample to the sample-receiving chamber via the first port. The analyte test strip also includes a second port in fluidic communication with the sample-receiving chamber and an outer edge of the analyte test strip, the second port configured to receive a second (relatively small) bodily fluid sample of lesser volume than the first bodily fluid sample and for transferring at least a portion of the second bodily fluid sample to sample-receiving chamber. In addition, the applying step involves applying the bodily fluid sample to one of the second port and the platform portion of the analyte test strip depending on the volume of the bodily fluid sample.	12-24-2009