Fiebrich
Georgia G. Fiebrich, San Antonio, TX US
Patent application number | Description | Published |
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20110041253 | Individual Crib Rail Bumper - A crib rail bumper is formed with a cushioning pad, a fabric cover dimensioned to encompass the pad, and reversible fastening means on opposite sides of the cover for securing the cover and pad to the crib rail. The reversible fastening means is preferably a reversible zipper. The crib rail bumper is compressible along the length dimension so as to encompass crib rails of varying lengths. The cushioning pad has a major length dimension, a minor width dimension, and a thickness dimension, the dimensions being selected for encompassing a crib rail. The reversible fastener allows multiple bumpers to be attached together to encompass wide rails or a plurality of rails. | 02-24-2011 |
Georgia Gabrielle Fiebrich, Alexandria, VA US
Patent application number | Description | Published |
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20090235453 | Individual Crib Bumper (Rolley Poleys) - An individual crib rail bumper providing protective padding in and around a child's crib to increase bodily protection and to provide additional comfort, support, and aesthetic design. An individual crib rail bumper is a long, cushioned, 2-sided, rectangular shaped soft protective material that securely wraps 360 degrees around each individual crib rail by use of strategically placed fasteners. A set of individual crib bumpers offers different fabric choices on each side and is designed to accommodate any size crib rail. They can easily be applied and are simple to remove for washing. The individual vertical crib bumpers also provide critical safety features that resolve long outstanding safety hazards of the standard and widely used conventional crib bumper. | 09-24-2009 |
Greg R. Fiebrich, Georgetown, TX US
Patent application number | Description | Published |
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20090251837 | System and Method for Information Handling System Display Backlight Protection and Monitoring - A current limiting MOSFET monitors power applied to a direct current boost regulator that powers an LED backlight to automatically shut off power to the boost regulator if the current exceeds a predetermined amount. An embedded controller interfaces with the current limiting MOSFET for normal control of operation of the boost regulator by turning the MOSFET on and off. An overcurrent alert is communicated from the MOSFET to the embedded controller if the current exceeds the predetermined amount so that the embedded controller shuts off power to the boost regulator and indicates the failure to an end user. | 10-08-2009 |
20090271644 | ENERGY EFFICIENT METHOD TO WAKE HOST SYSTEM FOR CHARGING BATTERY POWERED PORTABLE DEVICES VIA BUS POWERED EXTERNAL I/O PORTS - Optimized bus powered peripheral battery charging includes a circuit to initiate a change in an advanced configuration and power interface (ACPI) state in a controller allowing charging of a peripheral device battery, the circuit including a signal converter coupled between an input port and the controller to sense when a the peripheral device battery is coupled to an input port and to restrict the controller from changing ACPI state multiple times for a given peripheral device battery coupling; and a ground loop detector coupled in parallel to the signal converter between the input port and the controller to allow the controller to know that the peripheral device battery has maintained being coupled to the input port. | 10-29-2009 |
20100072956 | Low Power and Accurate Adapter-Current Detection Scheme for Dynamic Load Balancing - A charger provides a charging current to an information handling system battery by measuring current provided from an external power source using a Hall sensor. The Hall sensor is integrated into an integrated circuit of the charger to measure current provided by an external power source and output a voltage proportional to the measured current. The charger analyzes the external power source current relative to an available current to determine the charging current. The Hall sensor provides the total current from the charger with minimal resistance to reduce power consumption at the charger. | 03-25-2010 |
20120005502 | Device Charging System - Optimized bus powered peripheral battery charging includes a circuit to initiate a change in an advanced configuration and power interface (ACPI) state in a controller allowing charging of a peripheral device battery, the circuit including a signal converter coupled between an input port and the controller to sense when a the peripheral device battery is coupled to an input port and to restrict the controller from changing ACPI state multiple times for a given peripheral device battery coupling; and a ground loop detector coupled in parallel to the signal converter between the input port and the controller to allow the controller to know that the peripheral device battery has maintained being coupled to the input port. | 01-05-2012 |
Timothy Fiebrich, Needville, TX US
Patent application number | Description | Published |
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20140240146 | Wireless Vehicle Detector Aggregator and Interface to Controller and Associated Methods - Embodiments of systems and methods of the present invention include efficient, reliable aggregation and transfer of one or more sensor pods detect status to the base station and then the traffic controller. An embodiment of an access point maintains a sensor state array, which is the current status of the sensor pods in communication with the access point. The access point can maintain the sensor state array in its memory and relay the sensor state array to the base station. An embodiment of a base station can use the sensor state array information to generate and update a vehicle detector array, which is the current status of all the sensor pods in the wireless vehicle detector network. An embodiment of the base station emulates one or more bus interface units and uses the vehicle detector array to relay detector information to the traffic controller periodically or when polled. | 08-28-2014 |
20140244145 | WIRELESS VEHICLE DETECTION SYSTEM AND ASSOCIATED METHODS HAVING ENHANCED RESPONSE TIME - Embodiments of the invention include a wireless vehicle detection systems and associated methods with extended range and battery life. The wireless vehicle detection system can include a plurality of sensor pods in communication with an access point without repeaters. Embodiments of the sensor pod can include a vehicle detector controller adapted to determine the presence of vehicles and a communication controller connected to the vehicle detector and adapted to transmit data 300 feet or more to an access point, which in turns communicates with the base station. To extend the battery life of the sensor pod, the sensor pod can be adapted to detect received communication signal strength and adjust transmitting power based upon said strength to thereby conserve power. Embodiments of the sensor pod can also include a battery connected in parallel to an HLC capacitor to further extend the life of the battery. | 08-28-2014 |
20150046075 | WIRELESS VEHICLE DETECTION SYSTEM AND ASSOCIATED METHODS HAVING ENHANCED RESPONSE TIME - Embodiments of the invention include a wireless vehicle detection systems and associated methods with extended range and battery life. The wireless vehicle detection system can include a plurality of sensor pods in communication with an access point without repeaters. Embodiments of the sensor pod can include a vehicle detector controller adapted to determine the presence of vehicles and a communication controller connected to the vehicle detector and adapted to transmit data 300 feet or more to an access point, which in turns communicates with the base station. To extend the battery life of the sensor pod, the sensor pod can be adapted to detect received communication signal strength and adjust transmitting power based upon said strength to thereby conserve power. Embodiments of the sensor pod can also include a battery connected in parallel to an HLC capacitor to further extend the life of the battery. | 02-12-2015 |