Patent application number | Description | Published |
20090049415 | METHOD AND SOFTWARE TOOL FOR AUTOMATIC GENERATION OF SOFTWARE FOR INTEGRATED CIRCUIT - A method of generating software code for a processor of an IC based on a simple input description of the IC's standards. The method includes generating a macros description of each of the primitives from the standards and the response corresponding to each of the primitives, wherein the macros description includes information relating to a number of first fields for each of the primitives and a number of second fields for each response. The method further includes generating a blank version of a template that includes each of the second fields and receiving a completed version of the template, wherein the completed template specifies a behavior of the integrated circuit in response to the primitives. Finally, the method includes compiling the software code based on the macros description and the completed version of the template. Also, a software tool implementing the method is provided. | 02-19-2009 |
20090070729 | METHOD AND SOFTWARE TOOL FOR DESIGNING AN INTEGRATED CIRCUIT - A method of designing an integrated circuit for use in an application having standards having a plurality of primitives, wherein each of the primitives has a corresponding response. The method includes generating a macros description of each of the primitives and the response corresponding to each of the primitives, generating a template relating to the response corresponding to each of the primitives, receiving information specifying a behavior of the integrated circuit in response to the primitives based on the template, and generating a hardware description language representation for the integrated circuit based on the macros description and the information. | 03-12-2009 |
20110103312 | Methods and Apparatus for Switching A Transponder To an Active State, and Asset Management Systems Employing Same - A transponder that may be used as an RFID tag includes a passive circuit to eliminate the need for an “always on” active RF receiving element to anticipate a wake-up signal for the balance of the transponder electronics. This solution allows the entire active transponder to have all circuit elements in a sleep (standby) state, thus drastically extending battery life or other charge storage device life. Also, a wake-up solution that reduces total energy consumption of an active transponder system by allowing all non-addressed transponders to remain in a sleep (standby) state, thereby reducing total system or collection energy. Also, the transponder and wake-up solution are employed in an asset tracking system. | 05-05-2011 |
20110298591 | Methods and Apparatus for Switching A Transponder To an Active State, and Asset Management Systems Employing Same - A transponder that may be used as an RFID tag includes a passive circuit to eliminate the need for an “always on” active RF receiving element to anticipate a wake-up signal for the balance of the transponder electronics. This solution allows the entire active transponder to have all circuit elements in a sleep (standby) state, thus drastically extending battery life or other charge storage device life. Also, a wake-up solution that reduces total energy consumption of an active transponder system by allowing all non-addressed transponders to remain in a sleep (standby) state, thereby reducing total system or collection energy. Also, the transponder and wake-up solution are employed in an asset tracking system. | 12-08-2011 |
Patent application number | Description | Published |
20090005833 | METHOD FOR SELECTING ELECTRODES FOR DEEP BRAIN OR CORTICAL STIMULATION AND PULSE GENERATOR FOR DEEP BRAIN OR CORTICAL STIMULATION - In one embodiment, a system for electrically stimulating neural tissue of a patient and for determining neurotransmitter release in response to stimulation, the system comprises: pulse generating circuitry for generating electrical pulses; at least one electrical lead for conducting electrical pulses generated by the pulse generating circuitry to neural tissue, the at least one electrical lead comprising a plurality of electrodes; at least one electrochemical sensor for sensing an extracellular level of one or several neurotransmitters; circuitry for sampling a signal from the at least one electrochemical sensor; a controller for automatically applying stimulation to neural tissue using a plurality of electrode combinations, the controller generating data related to neurotransmitter release for each of the plurality of electrode combinations; and a display for displaying neurotransmitter release for electrode combinations to a clinician. | 01-01-2009 |
20100204749 | STIMULATION SYSTEM AND METHOD TREATING A NEUROLOGICAL DISORDER - According to one aspect, a stimulation system is provided for electrically stimulating a predetermined site to treat a neurological condition. The system includes an electrical stimulation lead adapted for implantation into a subcutaneous area in communication with a predetermined site, wherein the site is neuronal tissue that is associated with C2/C3 dermatome area, or stimulating cervical nerve roots and/or stimulating cranial nerves and/or stimulating any area associated with the occipital area. The stimulation lead includes one or more stimulation electrodes adapted to be positioned in the predetermined site. The system also includes a stimulation source that generates the stimulation pulses for transmission to the one or more stimulation electrodes of the stimulation lead to deliver the stimulation pulses to the predetermined site to treat a neurological disorder or condition. | 08-12-2010 |
20110098778 | STIMULATION SYSTEM AND METHOD TREATING A NEUROLOGICAL DISORDER - According to one aspect, a method of treating a patient by electrically stimulating a predetermined site to treat a neurological condition. The method includes implanting a lead into subcutaneous tissue of the C | 04-28-2011 |
20120158092 | STIMULATION SYSTEM AND METHOD TREATING A NEUROLOGICAL DISORDER - According to one aspect, a stimulation system is provided for electrically stimulating a predetermined site to treat a neurological condition. The system includes an electrical stimulation lead adapted for implantation into a subcutaneous area in communication with a predetermined site, wherein the site is neuronal tissue that is associated with C2/C3 dermatome area, or stimulating cervical nerve roots and/or stimulating cranial nerves and/or stimulating any area associated with the occipital area. The stimulation lead includes one or more stimulation electrodes adapted to be positioned in the predetermined site. The system also includes a stimulation source that generates the stimulation pulses for transmission to the one or more stimulation electrodes of the stimulation lead to deliver the stimulation pulses to the predetermined site to treat a neurological disorder or condition. | 06-21-2012 |