| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 307070000 | Load transfer without paralleling sources | 6 |
| 20090039708 | Backup For Circuits Having Volatile States - An electrical circuit contains volatile states that are lost without continued application of power to circuit elements to preserve their volatile states. A first power source in the circuit provides power to the volatile state circuit for holding and preserving their volatile states. A power selection circuit is coupled to the circuit elements and has a plurality of selectable modes. A first mode of operation of the power selection circuit is selected when the circuit elements are to be operated at a first power level via the first power source which constitutes a first mode of operation. A second mode of operation is selected when the volatile state circuit elements are to be operated under a condition where the first power source is inactivated, such as, for example, during a circuit backup or standby operation. During the second mode of operation, the circuit elements volatile states are preserved via a power selection circuit that provides power from a second power source at a second power level, different from the first power level, to the volatile state circuit elements in place of the first power source. | 02-12-2009 |
| 20090251007 | Hot-Swappable Battery Retrofit Module - A retrofit module electrically connects to a device's battery terminals, where an original main battery would otherwise connect to the device, and a hot-swappable battery electrically connects to the retrofit module, thereby retrofitting the device for operation with hot-swappable batteries, without shutting down the device to swap the batteries. When a charged hot-swappable battery is connected to the retrofit module, the retrofit module powers the device from the hot-swappable battery. The retrofit module includes a bridge battery and a circuit that charges the bridge battery from the hot-swappable battery and that provides power to the device from the bridge battery while the hot-swappable battery is replaced. The retrofit module may include a releasable structure that maintains the module in contact with the device's battery terminals, even after the hot-swappable battery has been removed. The retrofit module may have a form factor and power supplying terminals similar to those of the main battery that the device is configured to accept. | 10-08-2009 |
| 20110080048 | ELECTRONIC ASSEMBLY PROVIDED WITH A PARALLEL CIRCUIT FOR CONNECTING ELECTRICALLY TO TWO BATTERY UNITS - An electronic assembly with two battery units includes a system module provided with a preset threshold value and a parallel circuit. The parallel circuit is coupled electrically to the system module, and includes first and second power diverter circuits. Each of first and second power diverter circuit consists of a diode member coupled electrically to a respective battery unit and the system module and an operation switch that is coupled electrically to the diode member in parallel manner and that is coupled electrically to the respective battery unit and the system module in such a manner that a normal bias voltage is existed between the respective battery unit and the system module. | 04-07-2011 |
| 20110266875 | POWER SUPPLY SYSTEM AND ELECTRONIC DEVICE - A power supply system capable of inhibiting electricity loss and deterioration of each power supply device while realizing high stability in the case where electricity supply is performed by using a plurality of power supply devices is provided. A switching element corresponding to a power supply device having a higher inter-terminal voltage out of two power supply devices selectively becomes in ON state, and a switching element corresponding to a power supply device having a lower inter-terminal voltage selectively becomes in OFF state. Thereby, overload on a specific power supply device is prevented, and current flow between the different power supply devices is able to be prevented without generating needless electricity loss. Further, since electricity of the power supply device having a higher inter-terminal voltage is selectively outputted, variation between the respective power supply devices becomes allowable to some extent. | 11-03-2011 |
| 20110298288 | ENERGY STORAGE SYSTEM - An energy storage system includes a converter coupled between an inverter and both a power generator and a battery, thereby reducing the number of devices for circuit implementation and the size of a printed circuit board (PCB). The energy storage system is coupled to an electric power system that generates a system power, and the energy storage system includes a battery for generating a battery power and a converter coupleable to a power generator for generating an electric power and the battery in parallel, wherein the converter is configured to boost or drop a voltage of at least one of the electric power, the battery power, or the system power. | 12-08-2011 |
| 20120181872 | PARALLELING OF TWO TRANSFER SWITCHES - A backup power management system connectable to a primary power source and a secondary power source, and a method of operating the same. The system includes a single controller that is connected to both a first transfer switch contactor and a second transfer switch contactor. Both the primary power source and a secondary power source are broken into two separate output supplies. The two separate output supplies from the primary power source and the secondary power source are each provided to one of the first and second transfer switch contactors. The single controller sends signals to the first and second transfer switch contactors to control the movement of the contactors between first and second positions. In this manner, the single controller controls both the first transfer switch contactor and the second transfer switch contactor. | 07-19-2012 |
