Abstract: Techniques of load modulation are described herein. A wireless power transmitting unit may include a resonator to periodically transmit a short beacon having a first time period. The wireless power transmitting unit also includes circuitry coupled to the resonator. The circuitry is configured to detect a load change in the resonator when transmitting the short beacon and cause the resonator to transmit a long beacon subsequent to said transmitting the short beacon if said load change is detected. The long beacon has a second time period longer than the first time period.

Abstract: Methods and systems for optimizing wireless charging are provided. The method may include identifying, by a charging controller, charging apparatus location information associated with a wireless charging apparatus configured to direct charging beams, and identifying, by the charging controller, an optimal charging zone of the wireless charging apparatus based at least in part on the charging apparatus location information. The method may include receiving, by the charging controller, a first location information associated with a mobile device, and determining, by the charging controller, a first proximity of the mobile device to the optimal charging zone of the wireless charging apparatus based at least in part on the first location information. The method may include transmitting, by the charging controller, first optimal charging indicator information to the mobile device, the first optimal charging indicator information based at least in part on the first proximity.

Abstract: Techniques of providing increased safety for wireless systems are described herein. A wireless power receiving unit includes a first receiving coil to inductively couple to a wireless power transmitting unit having a transmitting coil. A safety component is provided to reduce wireless power received at a second receiving coil from the wireless power transmitting unit.

Abstract: Some demonstrative embodiments include apparatuses, systems and/or methods of wireless power transfer. For example, an apparatus may include a wireless power controller to communicate between a Wireless Power Receiver (WPR) and a Wireless Power Transmitter (WPT) an indication of a requested amount of power to be provided from the WPT to the WPR via a wireless power signal, said indication is in the form of a load modulation event within a predefined time interval, said load modulation event comprises a change in a level of a magnetic field of said wireless power signal, a duration of said load modulation event is based on the requested amount of power to be provided from the WPT to the WPR.

Abstract: Systems and methods for power distribution allocation are provided. A system may establish a first wireless connection between the system and a first mobile device. The system may receive a first charge request from the first mobile device comprising first mobile device information, and may identify charging system policies based at least in part on the first charge request. The system may determine a first charge program for the first mobile device based at least in part on the first charge request and the one or more charging system policies, where the first charge program comprises a power allocation of the first mobile device with respect to other mobile devices connected to the charging system. The system may wirelessly charge the first mobile device, based at least in part on the first charge program.

Abstract: Methods, systems, apparatus and articles of manufacture are disclosed to secure devices. An example disclosed apparatus includes a platform detector to determine when the device is within a threshold proximity to a platform, a device locking manager to initiate a locking service for the device when within the threshold proximity, and a device tampering manager to initiate a tampering remedy in response to detecting an indication of tampering.

Abstract: Techniques of load modulation are described herein. A wireless power receiving unit may include a receiving coil to receive a short beacon having a first time period, and a long beacon having a second time period longer than the first time period. A controller of the wireless power receiving unit is to initiate load modulation at the receiving coil during the long beacon. The controller is configured to continue to perform the load modulation during the long beacon until sufficient power is received at the wireless power receiving unit to initiate a wireless data transmission during the long beacon.

Abstract: Two devices containing NFC radios may use some of the NFC components to permit one device to wirelessly charge a battery in the other device. Time sharing between the communication and charging, functions may allow the two devices to use the same frequency for both functions, without the charging, function causing interference in the communication function. One device may periodically transmit polls, with both a data exchange communication period and a charging period occurring between two successive polls. In some embodiments, a data exchange period using the NFC radios and a charging period using the charging circuitry do not overlap in time.

Abstract: Described herein are techniques related to near field coupling and wireless charging or wireless power transfer (WPT). More particularly, an induced current at a receiving coil antenna is measured and utilized as a basis for re-alignment with a transmitting coil antenna is described.

Abstract: A system and method for interacting with a graphical user interface (GUI) on a display means of a computing device. The system includes a multifunctional input device configured to interact with a simplified graphical user interface (GUI) of the computing device. The multifunctional input device is configured to provide improved accessibility to the computing device for users having limited computing knowledge and/or skills, as well as limited physical and/or cognitive abilities.