SYSTEMS SUPPLYING CONTROLLING

Brand Owner (click to sort) Address Description
EXIDE ELECTRONICS STRATEGIC POWER MANAGEMENT Exide Electronics Corporation 8609 Six Forks Road Raleigh NC 27615 systems for supplying and controlling electrical power, namely uninteruptible power supply and power suppression units and parts therefor; and computer software for controlling such systems;ELECTRONICS and POWER MANAGEMENT;
HELPING YOU STAY IN POWER Exide Electronics Corporation 8609 Six Forks Road Raleigh NC 27615 systems for supplying and controlling electrical power; namely, uninterruptible power supply and power suppression units and parts therefor;
POWERWARE HOT SYNC Exide Electronics Corporation 8609 Six Forks Road Raleigh NC 27615 systems for supplying and controlling electical power, namely, uninterruptible power supply units and parts therefor and features thereof;POWER WARE HOT SYNC;HOT SYNC;
POWERWARE HOT SYNC POWERWARE CORPORATION 8609 Six Forks Road Raleigh NC 27615 Systems for supplying and controlling electrical power, namely, uninterruptible power supply units and parts therefor;HOT SYNC;
STRATEGIC POWER MANAGEMENT Exide Electronics Corporation 8609 Six Forks Road Raleigh NC 27615 systems for supplying and controlling electrical power, namely, uninterruptible power supply and power suppression units and parts therefor; and computer software for controlling such systems;POWER MANAGEMENT;
SURGEXPERT Powertech Electronic, Inc. 365 Cloverleaf Dr., Unit B Baldwin Park CA 91706 Systems for supplying and controlling electrical power, namely, multiple power outlet strips, voltage surge suppressors, electrical power extension cords, electrical plugs and uninterruptible power supplies;SURGE EXPERT;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A driving apparatus of a plasma display panel includes an energy recovery circuit. The energy recovery circuit recovers charging/discharging energies of a panel capacitor to a power source supplying unit using a transformer according to charging/discharging operations of the panel capacitor. It includes a first controlling switch, a second controlling switch, and a transformer. The second controlling switch is connected between the panel capacitor and the power source supplying unit and switched according to an external control signal to control the energy recovery from the panel capacitor to the power source supplying unit. The first controlling switch is connected between the panel capacitor and the power source supplying unit and switched according to an external control signal to control the energy recovered in the power source supplying unit to be supplied to the panel capacitor. The transformer is connected between the first controlling switch and the second controlling switch and the panel capacitor so that resonance current flows on a primary inductor by the switching operations of the first controlling switch and the second controlling switch, and induced current induced by the resonance current flowing on a secondary inductor flows to a direction compensating the resonance current through the first controlling switch and the second controlling switch.