Abstract: Vampire energy loss occurs when an electronic or mechanical machine consumes energy while not being utilized for any useful purpose. Vampire energy losses in consumer electronic devices are under intense scrutiny for needlessly wasting an estimated 20% of the electric power production in the United States. It is also estimated by the US Department of Energy that by 2015 vampire electronics could be responsible for nearly 30 percent of the total household power consumption in the United States. Smarter vampire proof technologies are needed to address this growing problem.

Abstract: Vampire energy loss occurs when an electronic or mechanical machine consumes energy while not being utilized for any useful purpose. Vampire energy losses in consumer electronic devices are under intense scrutiny for needlessly wasting an estimated 20% of the electric power production in the United States. It is also estimated by the US Department of Energy that by 2015 vampire electronics could be responsible for nearly 30 percent of the total household power consumption in the United States. Smarter vampire proof technologies are needed to address this growing problem.

Abstract: Several methods and systems to perform automatic coupling of an alternating current power source and an inductive power apparatus to charge a target device battery are disclosed. In an embodiment, an inductive battery charging system includes a connection module to determine when a target device is coupled to a charging apparatus comprised of an inductive power apparatus. The system further includes a monitoring module to determine when a target device battery is below a charging threshold while using power from a supplemental power source. In addition, the system includes an activation module to automatically couple the inductive power apparatus and an alternating current power source when a power level of the target device battery is below the charging threshold.