Timothy K.
Timothy K. Kerssen, San Diego, CA US
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20140269495 | SELECTING A NETWORK FOR A WIRELESS DEVICE - Disclosed is an apparatus, system, and method for a wireless device to select a network. The wireless device receives a request from a user to access a network site. The wireless device then selects a network based upon a predefined weighted criteria setting that was previously selected by the user. | 09-18-2014 |
Timothy K. Mueller, Somerville, MA US
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20120219856 | ELECTRODE MATERIALS FOR MAGNESIUM BATTERIES - A compound of formula A | 08-30-2012 |
20120219859 | ELECTRODE MATERIALS FOR MAGNESIUM BATTERIES - A compound of formula A | 08-30-2012 |
Timothy K. Stangle, Linwood, NJ US
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20140014611 | Child-Resistant Cap for Liquid Medicaments - An improved child-resistant closure for dispensers of liquid medicaments, the closure being of a two-part construction. The closure has an outer cap with a quantity of shoulder lugs and skirt lugs and an inner cap with a quantity of shoulder lugs and flexible beams. The closure has equal quantities of shoulder lugs on the inner and outer caps, equal quantities of skirt lugs and flexible beams, flexible beams having an arcuate underside, shoulder lugs having a depth to prevent hyper-flexion of the flexible beams, and an ideal overlap when the faces of the shoulder lugs are aligned. Additionally, provided are methods for attaching and removing the cap from a pre-existing bottle. | 01-16-2014 |
Timothy K. Strommen, Fremont, CA US
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20130324035 | METHODOLOGY FOR USING SMARTPHONE IN DESKTOP OR MOBILE COMPUTE ENVIRONMENT - Embodiments of the present invention may be directed to an apparatus comprising a user interface device. The user interface device may include one or more peripheral units and a first circuit operable to create a pairing between the user interface device and a wireless computing device via a near-field wireless connection. The peripheral units may include a second circuit operable to create a wireless communication channel between the one or more peripheral units and the wireless computing device via a wireless communication protocol. The apparatus may also include an inductive charging pad operable for charging the wireless computing device. The inductive charging pad may generate a configuration eligibility signal indicating eligibility of the wireless computing device to connect to the one or more peripheral units upon the wireless computing device placed in proximity to the inductive charging pad. | 12-05-2013 |
20130326104 | METHODOLOGY FOR USING SMARTPHONE AND MOBILE COMPUTER IN A MOBILE COMPUTE ENVIRONMENT - Embodiments of the present invention may be directed to an apparatus comprising a user interface docking device. The user interface docking device may include a first dock connector, a second dock connector, a battery, and a built-in keyboard. The first dock connector is operable to create a pairing between the user interface docking device and a wireless computing device. The second dock connector is operable to create a pairing between the user interface docking device and a mobile computer. The wireless computing device and mobile computer, when paired, are operable to combine resources for execution of tasks. The user interface docking device is operable to interact with content on the wireless computing device and the mobile computer. The apparatus may also include an inductive charging pad operable to facilitate a pairing between the number of peripheral units and user interface docking device via a near-field wireless connection. | 12-05-2013 |
Timothy K. Zahnley, Spencer, NY US
Patent application number | Description | Published |
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20080225914 | SYSTEM OF METHOD FOR DYNAMIC RANGE EXTENSION - The present invention generally relates to the operation of optical network equipment such as optical amplifiers. In one aspect, a method of operating an optical amplifier is provided such that output of the optical amplifier avoids the effects of operating an optical gain medium in a non-linear (kink) region of an L-I curve. The method generally includes operating an optical gain medium in a fully off state or fully on state above the kink region with a PWM signal. In another aspect, the effects of the kink region may be compensated for by utilizing a lookup table. A sample of the optical power of an amplified optical signal may be used to select an entry in the lookup table that compensates for non-linearities in the kink region. In yet a further aspect, a lookup table may be used to control a pulse modulator to compensate for non-linearites in the kink region of the L-I curve. | 09-18-2008 |
20080279237 | DYNAMIC THERMAL MANAGEMENT OF LASER DEVICES - The present invention generally relates to dynamic thermal management of a device. In one aspect, a method for thermally controlling a device is provided. The method includes setting a value of a set point in a thermoelectric cooler, wherein the set point corresponds to a first operating state. The method also includes monitoring a condition of the device to determine if the device is in the first operating state or a second operating state. Additionally, the method includes dynamically altering the value of the set point according to an algorithm upon determination that the device is in the second operating state. In another aspect, a method for dynamically controlling a device having a thermoelectric cooler is provided. In yet a further aspect, a system for dynamic thermal management of a device is provided. | 11-13-2008 |
20110090558 | SYSTEM OF METHOD FOR DYNAMIC RANGE EXTENSION - The present invention generally relates to the operation of optical network equipment such as optical amplifiers. In one aspect, a method of operating an optical amplifier is provided such that output of the optical amplifier avoids the effects of operating an optical gain medium in a non-linear (kink) region of an L-I curve. The method generally includes operating an optical gain medium in a fully off state or fully on state above the kink region with a PWM signal. In another aspect, the effects of the kink region may be compensated for by utilizing a lookup table. A sample of the optical power of an amplified optical signal may be used to select an entry in the lookup table that compensates for non-linearities in the kink region. In yet a further aspect, a lookup table may be used to control a pulse modulator to compensate for non-linearites in the kink region of the L-I curve. | 04-21-2011 |
Timothy K. Zahnley, Savona, NY US
Patent application number | Description | Published |
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20150253217 | In-Service Optical Time Domain Reflectometry Utilizing Raman Pump Source - An arrangement for providing real-time, in-service OTDR measurements in an optical communication system utilizing distributed Raman amplification. One or more of the laser diodes used to provide the pump light necessary to create optical gain is modified to also generate short duration pulses that ride above or below the conventional pump light. These short duration pulses (which co-exist with the pump light within the optical fiber) are used in performing OTDR measurements, with a conventional processing system used to evaluate reflected pulses and create the actual OTDR measurements. | 09-10-2015 |