Entries |
Document | Title | Date |
20080224666 | Electric Hand-Held Power Tool with a Shut-Off Delay Device - The invention relates to a handheld electrical machine tool having at least one electrical drive, at least one electrical device requiring electrical energy for its operation, a shut-off delay apparatus for the electrical drive and/or the electrical device and having at least one rechargeable battery for the electrical supply to the drive and the electrical device. Provision is made for the handheld electrical machine tool to have an exhaustive discharge protection apparatus ( | 09-18-2008 |
20080252259 | Power supply unit and electric apparatus - Provided is a power supply unit that notifies the third person that the electric apparatus is in the state prohibiting introduction into vehicle and also make the electric apparatus in the state safely introducible into vehicle at the same time. | 10-16-2008 |
20080297115 | Device Using Residual Energy of a Battery - Control means ( | 12-04-2008 |
20080309289 | Temperature and polarization voltage compensation system - A control module for a battery that powers a load includes a compensation module that adjusts a shutoff voltage based on voltage and impedance of the battery and current drawn by the load from the battery as time the load is drawing current increases. A discharge control module restricts power to the load based on the adjusted shutoff voltage. | 12-18-2008 |
20080315839 | Early detection of battery cell thermal event - A battery module for use in an electric vehicle is disclosed. The battery module includes a plurality of cells arranged in a predetermined pattern within the module. The battery module also includes an optical pyrometer arranged inside the module. The optical pyrometer is installed within the module after being tuned to detect a predetermined frequency or band of frequencies. The pyrometer will be used to detect an increase in short wave radiation density from one of the battery cells within the module wherein that battery cell has a temperature above a predetermined threshold. The optical pyrometer will be used to communicate an electric signal to a control system of the electric vehicle wherein that control system will implement a predetermined mitigation process to contain the thermal event of that one cell within the battery module. | 12-25-2008 |
20080315840 | Electronic device and imaging apparatus - Disclosed herein is an electronic device having a display section, which may include, a housing section configured to house a plurality of batteries, a detection section configured to detect status of each of the plurality of batteries housed in the housing section, a selection section configured to select part of the plurality of batteries for use as a power supply of the electronic device in accordance with the status detected by the detection section, and a display control section configured to display on the display section an indication identifying the part of the plurality of batteries. | 12-25-2008 |
20080315841 | Discharge State Indicator - A circuit for displaying the state of a battery that is almost discharged features a battery, an inductive load, and a controllable switch connected in series. The circuit also includes a display element connected in series with the inductive load and the battery. The controllable switch is opened when a voltage of the battery is lower than a first threshold level and is only closed again when the voltage of the battery is greater than a second threshold level. The circuit may also include a control circuit having a comparator which compares the voltage of the battery with the first threshold level and the second threshold level and triggers the controllable switch accordingly. | 12-25-2008 |
20090039835 | BATTERY SHORT CIRCUIT MONITORING - A system measures a voltage of a battery of a user device, measures a temperature and an acceleration of the battery if a decrease in battery voltage is measured, and determines whether the battery is functioning properly based on one or more of the measured voltage, temperature, or acceleration of the battery. | 02-12-2009 |
20090045779 | Adjustable cut-off voltage for mobile device battery - A power management system for a mobile electronic device, including a microprocessor for continually monitoring a voltage of a battery within a mobile electronic device, wherein the device can operate in either a standalone mode powered by the battery, or in an externally powered mode, and wherein the battery is charged when the device is in external power mode, and a power manager coupled with said voltage meter, for controlling operation of the device according to the following logic: if the monitored voltage falls below an upper turn-on threshold, UTOT, during operation of the device in standalone mode, but is above a lower turn-on threshold, LTOT, then automatically turning the device off, and enabling the device to be turned on in an emergency mode, wherein at least one emergency action is enabled, and if the monitored voltage falls below LTOT during operation of the device in standalone mode, then automatically turning the device off, and preventing the device from being turned on. A method is also described and claimed. | 02-19-2009 |
20090045780 | BATTERY CONTROL METHOD FOR HYBRID VEHICLES - A hybrid control module comprises a vehicle load module and a hybrid battery discharge module. The vehicle load module determines a first power based on power delivered to an accessory power module (APM). The hybrid battery discharge module determines a discharge power based on the first power and selectively controls power consumed by an inverter based on the discharge power when a state of charge of a hybrid battery is less than a first threshold and greater than a second threshold. The inverter and the APM selectively receive power from the hybrid battery. | 02-19-2009 |
20090051325 | AUTOMOTIVE POWER SYSTEM AND METHOD OF CONTROLLING SAME - A power source is electrically connected with a battery and an electrical load. The power source has an output voltage and provides current for the battery and electrical load. A charging voltage for the battery is determined based on temperature of the battery. An offset voltage is determined based on the provided current to the battery. The output voltage is determined based on the charging and offset voltages. | 02-26-2009 |
20090058367 | ADAPTIVE BATTERY ESTIMATOR AND METHOD - An adaptive battery estimation control system includes a fixed and adaptive battery estimators effective for a battery parameter estimations across a wide range of dynamic battery operational conditions. | 03-05-2009 |
20090079397 | ANTI-SWELL PROTECTION CIRCUIT FOR BATTERY CELLS - The present invention provides a protection circuit and method for preventing a battery from swelling in one embodiment. The protection circuit includes: a voltage monitoring circuit that monitors a voltage across the battery; a control circuit that receives voltage information from the voltage monitoring circuit; and a discharge circuit that turns on to discharge the battery upon receiving a signal from the control circuit. The control circuit includes: a timer that sets predetermined time periods; a signaling section that outputs the signal to the discharge circuit after a first predetermined time period if the voltage stays above a first predetermined voltage threshold without charging or discharging to a load for the first predetermined time period; a sleep mode applying section that applies a sleep mode when the voltage falls below a second predetermined voltage threshold; and a load disconnecting section that disconnects the load if a wake-up command is not issued during the sleep mode for a third predetermined time period. Alternatively, the protection circuit may include a swell monitoring device that monitors a swell associated with the battery; a control circuit that receives swell information from the swell monitoring device; and a discharge circuit that turns on to discharge the battery upon receiving a signal from the control circuit. | 03-26-2009 |
20090102425 | Vehicle-use power supply management apparatus - The vehicle-use power supply management apparatus includes a first function of detecting start of any of electrical loads mounted on a vehicle, a second function of detecting a battery voltage, a third function of determining whether or not load restriction should be performed on the basis of the battery voltage detected by the second function, a fourth function of making a determination of whether or not the detected electrical load can be applied with load restriction, and a fifth function of applying load restriction to the detected electrical load if a determination result of the third function and a determination result of the fourth function are affirmative. The third function is configured to make an affirmative determination if a drop of the battery voltage immediately after the start of the detected electrical load is larger than a predetermined value and the duration of the drop exceeds a predetermined time period. | 04-23-2009 |
20090115372 | DISCHARGE CONTROL SYSTEM - A discharge control system of a electric storage pack has a plurality of electric rechargeable cells connected in series and a discharge line is connected from a electric rechargeable cell to a load driving feeding circuit. The discharge control system includes cell voltage detection units for detecting respective cell voltages of the plurality of cells, a switch group made up of a plurality of switches connected between the plurality of cells, and a control unit which designates a cell having a highest cell voltage in the plurality of electric rechargeable cells possessed by the electric storage pack in accordance with detection results by the cell voltage detection units and on/off controls the switches of the switch group individually so as to form a discharge line from a electric rechargeable cell of the group to the load driving feeding circuit. | 05-07-2009 |
20090128095 | CIRCUIT FOR MEASURING AND CONTROLLING DIFFERENTIAL VOLTAGES - The invention relates to circuits for managing differential voltages in series. To individually control the differential voltages of voltage sources in series, there is provided an integrated control circuit for a set of N sources in series. This circuit comprises N discharge control and measurement cells which are each produced in a separate well, insulated from the substrate and from the other wells. The cells are linked to the circuits formed in the substrate by level translation circuits having a part inside the well and a part outside the well. These circuits use transistors withstanding voltages of several tens of volts. The integrated circuits may be cascaded on an SPI bus if one wishes to control a group of k.N sources with k>1. | 05-21-2009 |
20090128096 | ELECTRONIC APPARATUS WITH REMAINING BATTERY POWER INDICATING FUNCTION - An electronic apparatus has a multiplicity of display units including an electronic viewfinder and a liquid crystal display (LCD) panel. The apparatus has various display modes. The remaining battery power, i.e., estimated amounts of remaining battery times relative to a current remaining battery capacity, are calculated for the respective display modes. The calculated remaining battery power is collectively displayed as the remaining battery power information on the respective display units. The remaining battery power can be obtained for all the display modes even when the battery is being charged, so that a user can always grasp the remaining battery power of any of the display modes. | 05-21-2009 |
20090184686 | BATTERY CONTROL SYSTEM AND METHOD - A battery control system and method for a battery of a vehicle includes a battery for supplying electrical power to a plurality of loads of the vehicle and a controller that receives a battery signal representative of a condition of the battery, an ignition key signal representative of a state of an ignition key of the vehicle, and an engine signal representative of a state of an engine in the vehicle. The controller selectively electrically connects/disconnects the plurality of loads of the vehicle and the battery based on at least one of the battery signal, the ignition key signal, and the engine signal. An interface provides information on at least one of the battery and a connection state between the plurality of loads and the battery. | 07-23-2009 |
20090195211 | Method and system for regulating current discharge during battery discharge conditioning cycle - Methods and systems are disclosed for utilizing a memory control circuit for controlling transfer of data to and from a memory system. A memory control circuit with a back up battery and control circuits is provided. Battery health is determined through a discharge cycle of the back up battery. A power supply generated from the back up battery is provided to circuitry of the memory control card during normal operations of the memory control circuit during a non-power loss state. The power supplied from the back up battery during the non-power loss state of the memory control circuit is utilized by at least a first circuit of the memory control circuit as part of normal memory controller card operations during the battery health discharge cycle. When the system is not performing a battery health cycle the first circuit receives normal system power. The memory control circuit may be a RAID card. The first circuit may be memory circuitry. The backup battery discharge rate may be regulated during the battery health discharge cycle by switching the power source for the circuitry of the memory control card between the backup battery and the normal system power. | 08-06-2009 |
20090195212 | Method and system for utilizing a memory control circuit for controlling data transfer to and from a memory system - Methods and systems are disclosed for utilizing a memory control circuit for controlling transfer of data to and from a memory system. A memory control circuit with a back up battery and control circuits is provided. Battery health is determined through a discharge cycle of the back up battery. A power supply generated from the back up battery is provided to circuitry of the memory control card during normal operations of the memory control circuit during a non-power loss state. The power supplied from the back up battery during the non-power loss state of the memory control circuit is utilized by at least a first circuit of the memory control circuit as part of normal memory controller card operations during the battery health discharge cycle. When the system is not performing a battery health cycle the first circuit receives normal system power. The memory control circuit may be a RAID card. The first circuit may be memory circuitry. The backup battery discharge rate may be regulated during the battery health discharge cycle by switching the power source for the circuitry of the memory control card between the backup battery and the normal system power. | 08-06-2009 |
20090195213 | Conversion systems with balanced cell currents - A conversion system includes a conversion circuit coupled to multiple cells for generating multiple sampling signals indicative of the cell voltages of the cells respectively. Each sampling signal is with respect to the same reference level. In addition, the conversion system includes a compensation circuit coupled to the conversion circuit for generating a compensation current that flows through at least one cell of the multiple cells via the conversion circuit for balancing the currents respectively flowing through the cells. | 08-06-2009 |
20090218989 | RECHARGEABLE SPLIT BATTERY SYSTEM - A battery system is split into first and second battery subsystems. When the first battery subsystem reaches a first discharge level, the first battery system is decoupled from output terminals of the battery system and the second battery subsystem is coupled to the output terminals of the battery system. | 09-03-2009 |
20090230923 | Battery management circuit - A non-rechargeable battery includes a housing with an opening and a cover that closes the opening in the housing. The housing and the cover define a volumetric region within the battery. The battery also includes at least one electrochemical cell and a management component, both located in the volumetric region. The management component includes programmable electrical circuitry that selectively interrupts electrical current output from the cell out of the battery based on an actively monitored state of the battery. The chemistry of the battery is Li—FeS | 09-17-2009 |
20090237034 | Battery operated device having power saving mode - A battery-powered electronic device comprises at least one functional circuit and a controller adapted to receive a signal representative of residual energy of a battery powering the device and to cut off operating power of the functional circuit if said residual energy is below a predetermined threshold. The controller is further adapted to detect whether a predetermined criterion is fulfilled or not, to cut off operating power of the functional circuit only if the predetermined criterion has been fulfilled for a given time interval, and to set the duration of the time interval depending on said residual energy. | 09-24-2009 |
20090256527 | AMBULATORY MEDICAL DEVICE WITH ELECTRICAL ISOLATION FROM CONNECTED PERIPHERAL DEVICE - Methods and apparatus are provided for electrically isolating an ambulatory medical device for infusing treatment materials into a patient when the medical device is connected to a peripheral device via an active communication cable. In one embodiment, the ambulatory medical device include first circuitry controlling infusion of a medicament to the patient by a fluid conduit connectable to the patient and second circuitry controlling communications when an active communication cable is connected to the medical device. The first and second circuitry are electrically isolated using a pair of first and second isolation transceivers, where the first pair of isolation transceivers communicate a control signal and the second pair of isolation transceivers are giant magneto-resistive (GMR) transceivers that communicate at least one data signal. | 10-15-2009 |
20090273315 | Method and apparatus for battery pre-check at system power-on - A system including at least one electronic component and a battery check circuit. When a power consumption level of the at least one electronic component is increased, the battery check circuit determines whether to provide power from a battery to the at least one electronic component by comparing a power level of the battery to a first power level. | 11-05-2009 |
20090278502 | Method for controlling the end of the discharge of a rechargeable battery - The method for controlling the end of discharge of a rechargeable battery according to the invention comprises determining (F | 11-12-2009 |
20090284226 | METHOD FOR EXCHANGING RECHARGEABLE BATTERIES - A rechargeable battery exchanging method which exchanges rechargeable batteries of an assembled battery to rebuild new assembled battery. The method includes discharging a rechargeable battery derived from an assembled battery until the rechargeable battery becomes a fully discharged state and storing the rechargeable battery in a storage region for a predetermined period of time or longer from when the rechargeable battery becomes the fully discharged state to prepare a reusable rechargeable battery. The method further includes rebuilding a regenerated assembled battery by combining the stored reusable rechargeable battery with a stored reusable rechargeable battery derived from other assembled batteries or combining the stored reusable rechargeable battery with a fresh rechargeable battery. | 11-19-2009 |
20090309548 | Graphic State of Charge Indicator for a Battery Charging System and Method of Use - A graphic state of battery charge indicator is used to provide the user with a visual indication of state of battery charge, magnitude of current flow and direction of current flow by using displays such as multi-segment LCD or LED displays in the shape of a battery. The indicator is able to provide these parameters by sequencing the on/off operation of the segmented displays. A microcontroller is provided battery state data from a battery monitor and converts this information to on/off commands for the segmented displays. There may be up to 10 segmented displays in the indicator with each segment proportionally representing a percentage of the state of battery charge. State of charge is indicated by a single on display at the appropriate location in the display. Current flowing into the battery is represented by a ripple effect in the displays in the positive direction. Current flowing out of the battery is represented by a ripple effect in the display in the negative direction. | 12-17-2009 |
20090309549 | MONITORING SYSTEM FOR MONITORING LOW VOLTAGE DISCONNECTING VALUE OF SECONDARY BATTERIES AND METHOD FOR THE SAME - A monitoring system for monitoring low voltage disconnecting value of a secondary battery includes a signal collection apparatus, an analogy-digital converter, a processor, a switch, and a controller. The signal collection is connected to a secondary battery to read voltage signals of the secondary battery at regular intervals. The analogy-digital converter is connected to the signal collection apparatus to receive the voltage signals and convert the voltage signals to digital signals. The processor is connected to the analogy-digital converter to determine whether the voltage of the secondary battery reach a low voltage disconnecting value. The switch is connected to the secondary battery to supply power to a functional unit. The controller is connected to the switch and the processor to determine status of the switch according to the determined result of the processor. | 12-17-2009 |
20090322284 | BATTERY PROTECTION CIRCUIT AND PROTECTION METHOD - A battery protection circuit and protection method for a rechargeable battery is provided. The rechargeable battery includes a positive voltage pin, a negative voltage pin, and a temperature sensing pin. A resistance of the temperature sensing pin varies with the temperature of the rechargeable battery. The battery protection circuit includes a temperature and voltage detection unit and a discharging unit. The temperature and voltage detection unit is coupled between the positive voltage pin and the temperature sensing pin, and configured to determine the temperature of the rechargeable battery according to the resistance of the temperature sensing pin. The discharging unit discharges the rechargeable battery when the temperature of the rechargeable battery is higher than a predetermined temperature and stops discharging the rechargeable battery when a voltage of the positive voltage pin is lower than a first predetermined value. | 12-31-2009 |
20100019731 | Device and Method for Instantaneous Load Reduction Configuration to Prevent Under Voltage Condition - A device may include a battery and a plurality of components receiving power from the battery. A voltage of the battery is maintained above a threshold voltage by decreasing a current drawn by one of the components when the battery voltage approaches the threshold voltage. | 01-28-2010 |
20100019732 | ELECTRIC CELLS FOR BATTERY PACK, BATTERY CONTROL SYSTEM, AND BATTERY CONTROL METHOD - There are provided a battery control system and a battery control method which can eliminate a management device controlling voltages of individual cells in a battery pack, resist the influence of noise, prevent an increase in size, and reduce the load on a management device. A cell for a battery pack will be interconnected with another cell to be used as a battery pack, the cell comprises unit cell | 01-28-2010 |
20100019733 | BATTERY MONITORING SYSTEM - A battery monitoring system (BMS) configured for use in measuring operating conditions of a battery or other source of electric current. The BMS may include a housing configured to include a dampening element between a shunt and connection arm in order to limit the likelihood of vibrations and other forces acting on the BMS shorting or otherwise disrupting electrical connections used to measure current through the shunt. | 01-28-2010 |
20100033132 | CONTROL SYSTEM OF SECONDARY BATTERY AND HYBRID VEHICLE EQUIPPED WITH THE SAME - A battery model unit includes an electrode reaction model unit based on the Butler_Volmer equation, an electrolyte lithium concentration distribution model unit analyzing a lithium ion concentration distribution in an electrolyte solution by a diffusion equation, an active material lithium concentration distribution model unit analyzing an ion concentration distribution in a solid state of an active material by a diffusion equation, a current/potential distribution model unit for obtaining a potential distribution according to the charge conservation law, a thermal diffusion model unit and a boundary condition setting unit. The boundary condition setting unit ( | 02-11-2010 |
20100033133 | SMALL ELECTRICAL DEVICE WITH CHARGING STATE INDICATOR - In one aspect, a handheld electric appliance includes: an oscillating electric motor or linear motor controlled by control circuitry; a battery connected to the oscillating electric or linear motor; and charge detection circuitry configured to determine a charging state of the battery. The charge detection circuitry is coupled to the control circuitry such that, in response to the charge detection circuitry determining that the charging state of the battery reaches a predetermined threshold, the control circuitry activates the oscillating electric motor or linear motor to cause noise generated by the motor to perceptibly change to indicate a threshold charging state. | 02-11-2010 |
20100033134 | POWER TOOL - To provide a power tool which can supply electric power again from a battery even in a case where the supply of electric power from the battery is stopped by an over-discharge detection means. A power tool | 02-11-2010 |
20100033135 | POWER STORAGE SYSTEM - An object is to improve safety. Provided is a power storage system including a battery apparatus | 02-11-2010 |
20100052619 | ENERGY SOURCE ISOLATION AND PROTECTION CIRCUIT FOR AN ELECTRONIC DEVICE - An energy source isolation and protection circuit is provided for an electronic device, such as a patient-worn or patient-carried medical device. The isolation and protection circuit includes a supply voltage rail, a reference voltage rail, an electrical load coupled across the supply voltage rail and the reference voltage rail, and an energy source for supplying a voltage to the electrical load via the supply voltage rail and the reference voltage rail. The isolation and protection circuit also includes a voltage-controlled switch architecture that is configured to detach and electrically isolate the energy source from the electrical load (and from itself) in response to the voltage of the energy source falling below a threshold voltage. The voltage-controlled switch architecture is also designed to maintain the energy source in the detached and electrically isolated state in the absence of operating voltage provided by the energy source to the voltage-controlled switch architecture. | 03-04-2010 |
20100060237 | BATTERY DISCHARGE CIRCUIT AND DISCHARGE METHOD THEREOF - A battery discharge circuit, used to couple a battery to an electronic device, includes a battery protecting module and a voltage adjusting module. The battery protecting module detects an output voltage of the battery, compares the output voltage with an end voltage of the battery, and selectively discharges the battery or not in response to the comparison result. The voltage adjusting module compares the output voltage with a work voltage of the electronic device, and selectively directly outputs the output voltage or boosts the output voltage first and then outputs the boosted output voltage. | 03-11-2010 |
20100060238 | Battery Management System And Method - A battery management system for managing a plurality of subsystem circuits and functions of a mobile communication device powered by a battery is disclosed. The battery management system includes a battery monitoring circuit, a user interface, and a battery management module. The battery monitoring circuit is operable to monitor a present battery capacity and generate a battery capacity signal based on the present battery capacity. The user interface is operable to receive a user-input allocation of battery capacity among the subsystem circuits and functions. The battery management module is operable to receive the user-input allocation and the battery capacity signal, and to selectively disable each subsystem circuit or function when each subsystem circuit or function has depleted its allocation of battery capacity. | 03-11-2010 |
20100066308 | METHOD AND DEVICE FOR PROTECTING BATTERY OF ELECTRONIC DEVICE FROM OVERHEATING - A method for protecting a battery of an electronic device from overheating is provided. The method senses the temperature of the battery and conduct an unloading action when the temperature of the battery ascends to an unloading temperature. The method further halts the unloading action when the temperature of the battery descends to a lowest critical temperature, wherein the unloading temperature is not lower than the lowest critical temperature. | 03-18-2010 |
20100079113 | BATTERY MANAGEMENT FOR OPTIMIZING BATTERY AND SERVICE LIFE - The provision of a mode in silver zinc batteries where a user can access extra capacity as an emergency reserve for times when extra capacity is needed. While this temporarily increases capacity, it does not detrimentally affect cycle life over the longer term, and it permits a silver zinc battery to essentially mimic the long term capacity and cycle life characteristics of a lithium ion battery while still affording inherent advantages associated with silver zinc batteries. In a variant embodiment, this ability to temporarily increase capacity is optimally employed at the end of a battery life cycle in a controlled “roll-off” that accords additional cycles of battery service life. In another variant embodiment, the general capability to control capacity is employed to gradually decrease the available capacity of a battery over the life of the battery, to thereby extend the battery service life. | 04-01-2010 |
20100085016 | METHOD AND APPARATUS FOR BATTERY GAUGING IN PORTABLE TERMINAL - A method and apparatus for battery gauging in a portable terminal are provided. In the battery gauging method, it is determined in a low-power mode whether a listening interval occurs for detecting the presence of a received signal. The remaining battery capacity is detected if the listening interval occurs. An interrupt signal is transmitted to the second processor, operating in a low-power mode, if the remaining battery capacity is less than or equal to a threshold. Upon receipt of the interrupt signal, the second processor wakes up to interrupt the power of the portable terminal. | 04-08-2010 |
20100090653 | BATTERY DEVICE - A battery device includes electric cells connected in series, resistors connected to respective electrodes of the electric cells, discharge switches for discharging voltages between the respective electrodes of each of the battery cells via the resistors, and a voltage detection and control circuit. When a detection voltage when the discharge switch is closed and not disconnected is defined as V, a detection voltage when a discharge switch is closed and disconnected is defined as V | 04-15-2010 |
20100109612 | METHOD, APPARATUS, AND SYSTEM FOR POWER SOURCE FAILURE PREDICTION - Some embodiments of a method, apparatus, and system for power source failure prediction are described. According to some embodiments, the system may include, among other things, a display device to draw power from a direct current power source, two or more electrical lines positioned on either side of the direct current power source to determine a voltage across the direct current power source, and a power source management unit coupled to the two or more electrical lines to measure the voltage. In some embodiments, a cell monitoring unit may be coupled to the two or more electrical lines to measure the voltage for the power source management unit, where the cell monitoring unit is capable of converting the measured voltage to a digital signal, measuring the rate of change of the voltage over a period of time, and providing information to the power source management unit. Other embodiments are described. | 05-06-2010 |
20100123437 | OVERCURRENT PROTECTION CIRCUIT OF A RECHARGEABLE BATTERY - An overcurrent protection circuit of a rechargeable battery includes a current detection terminal and an overcurrent return resistor connecting part. A voltage converted from a discharge current of the rechargeable battery is detected at the current detection terminal. The overcurrent return resistor connecting part connects the current detection terminal to overcurrent detection resistors having different resistances in accordance with a level of the voltage detected at the current detection terminal when the voltage detected at the current detection terminal is equal to or greater than a discharge overcurrent detection voltage and a discharge overcurrent state in which an overcurrent flows from the rechargeable battery is detected. | 05-20-2010 |
20100141215 | RECHARGEABLE BATTERY PROTECTION INTEGRATED CIRCUIT DEVICE, RECHARGEABLE BATTERY PROTECTION MODULE USING THE RECHARGEABLE BATTERY PROTECTION INTEGRATED CIRCUIT DEVICE, AND BATTERY PACK - A rechargeable battery protection integrated circuit device, includes a short circuit detecting circuit configured to convert a discharge electric current of a rechargeable battery to a voltage value and detect a short circuit state of the rechargeable battery when the converted voltage value is equal to or greater than a designated short circuit detecting voltage; a discharge control terminal configured to output a control signal when the short circuit state is detected by the short circuit detecting circuit, the control signal being configured to stop a discharge of the rechargeable battery; and an overcharge detecting circuit configured to detect an overcharge of the rechargeable battery, wherein the short circuit detecting circuit includes a short circuit detecting voltage change part, the short circuit detecting voltage change part being configured to change the short circuit detecting voltage when the overcharge is detected by the overcharge detecting circuit. | 06-10-2010 |
20100141216 | BATTERY SYSTEM AND PROTECTION APPARATUS THEREOF - A battery system includes a battery and a battery protection apparatus. The battery protection apparatus protects the battery from over-discharge. The battery protection apparatus includes a voltage controlled switch, a start switch, and a voltage detecting unit. The voltage controlled switch establishes an electrical connection between the battery and the load. The start switch turns on the voltage controlled switch when actuated. The voltage detecting unit detects a battery voltage of the battery and generates a detecting voltage according to the battery voltage. The voltage controlled switch is turned off when the detecting voltage is lower than a predetermined value. | 06-10-2010 |
20100148729 | BATTERY PACK - A system and method for battery protection. In some aspects, a battery pack includes a housing, a cell supported by the housing, a circuit supported by the housing and operable to control a function of the battery pack, and a heat sink in heat transfer relationship with the circuit and operable to dissipate heat from the circuit. | 06-17-2010 |
20100176766 | CONTROL METHOD FOR AN ACCUMULATOR BATTERY AND A HAND POWER TOOL - A control method for a system of a hand power tool and an accumulator battery is disclosed. The hand power tool is connectable to the accumulator battery via a current interface for supplying the hand power tool. The hand power tool features a data interface for communicating with the accumulator battery. Characterizing data of the hand power tool and/or data about an operating process of the hand power tool is transmitted to the accumulator battery via the interface. | 07-15-2010 |
20100181966 | BATTERY PACK - A cordless power tool system is provided which is driven by using a battery pack as a power source, and which has work performance equivalent to an AC power tool is driven by using a commercial power source as a power source. The cordless power tool system is configured to include: a battery pack in which DC voltage of battery modules is converted into AC voltage, to thereby output the AC voltage having a level which is comparable to that of the commercial power source; a cordless power tool which is driven by using the battery pack as a power source; an electrical cord adapter which allows power supply from the commercial power source to the battery pack for charging the battery pack; and an electrical cord adapter which allows power supply from the commercial power source to the cordless power tool for driving the cordless power tool. | 07-22-2010 |
20100188050 | BATTERY INTERNAL SHORT-CIRCUIT DETECTION APPARATUS AND METHOD, AND BATTERY PACK - A battery internal short-circuit detection apparatus includes: a voltage detection unit for detecting a terminal voltage of the battery; a current detection unit for detecting a discharging current of the battery; a voltage drop and recovery detection unit for detecting a momentary voltage drop of the battery and a recovery from the voltage drop, in response to a result of detection performed by the voltage detection unit; and a determination unit for determining that an internal short circuit has occurred, when a maximum value of the discharging current detected by the current detection unit between the voltage drop and the recovery is equal to or lower than a threshold current. | 07-29-2010 |
20100194348 | Systems and methods for waking up a battery system - Systems and methods for waking up a battery system (e.g., battery pack such as a smart battery pack) installed in an information handling system from a shipping mode in response to the occurrence of one of at least two detected events. The first of these of these at least two events is detection of the battery system being removed and reinstalled into operational electrical contact with the information handling system, and the second of these at least two events is the activation of a user input device provided for the battery system. | 08-05-2010 |
20100194349 | ROUTER DEVICE - The router device acquires detected temperature T from a thermistor provided inside the battery box containing secondary battery that provide the power supply, and if the detected temperature T is not smaller than a threshold value Th | 08-05-2010 |
20100207585 | RESERVING POWER FOR ELECTRONIC DEVICES - The present invention provides way to reserve power for electronic devices such as mobile devices. Specifically, under the present invention, a user can establish and/or change a setting/threshold corresponding to an amount of (battery) power available to the electronic device to be held in reserve. The setting can be a percentage of total available power (e.g., n %). Once set, this amount of power is held in reserve and is unavailable for use by the electronic device. Before to the total power available to the device is reduced to the amount of power set by the user (e.g., 1-n %), an alert will be issued. If the user wishes to use the power held in reserve, the user can input a previously established reserve power access code amount that will make the reserve power available to the electronic device. | 08-19-2010 |
20100231170 | ADAPTIVE LOW VOLTAGE DISCONNECT CONTROLLER, METHOD OF PROTECTING A BATTERY AND A POWER SYSTEM MANAGER - Provided herein is a controller for a low voltage disconnect (LVD), a method of protecting and providing a maximum or substantially maximum battery reserve coupled to a DC load bus and a power system manager. In one embodiment, the LVD controller includes an adaptive disconnect system configured to determine a variable LVD threshold voltage value and instruct the LVD to disconnect a battery reserve from a DC load bus based thereon. The variable LVD threshold voltage is determined based on a current of the battery reserve during a battery-discharge event. | 09-16-2010 |
20100270975 | Dynamic Discharging To Detect Derated Battery Cells - A system for dynamic discharging to detected derated battery cells. In such a system, a battery cell capacity, cell voltage, as well as a time to discharge are used in combination to identify good or bad battery cells. More specifically, during a dynamic discharge cycle, an accumulated discharge capacity value is calculated and monitored by a charge level battery gas gauge via analog to digital (A/D) converters and an internal discharge time value is monitored. One of the values is assigned as a fixed value and the other value is used to identify good or bad batter cells. | 10-28-2010 |
20100270976 | BATTERY SYSTEM FOR VEHICLE - A battery system for a vehicle warms up a battery, which is mounted to charge and discharge. A charge/discharge unit is located closer to a battery set than an inverter unit is. When the battery set cannot produce a required output power because of its low temperature, a control unit controls the charge/discharge unit to charge and discharge and also controls a blower to deliver heat transfer medium, which receives heat generated from the charge/discharge unit, to the battery set, so that the battery set is warmed up to produce the required output power at earlier time. | 10-28-2010 |
20100289455 | BATTERY-POWERED APPARATUS, METHOD OF CONTROLLING THE APPARATUS, PROGRAM FOR IMPLEMENTING THE METHOD, AND STORAGE MEDIUM STORING THE PROGRAM - A battery-powered apparatus which makes it possible to perform battery check with accuracy irrespective of whether a battery is used as an internal battery or an external battery and make the end voltages of the internal battery and the external battery coincide with each other. It is determined whether the battery or an accessory having the battery incorporated therein has been attached to the apparatus, and a predetermined voltage threshold level is set based on the determination result. The voltage value of the battery or the accessory having the battery incorporated therein is detected, and the detected voltage value and the voltage threshold level are compared with each other to decide whether or not it is possible to drive the apparatus. | 11-18-2010 |
20100315044 | System for Preventing Deep Battery Discharge - A battery management system for managing the voltage of a battery cell, such as a lithium ion battery, is disclosed. The battery management system comprises a semiconductor switch coupled to the battery cell, wherein the semiconductor switch is in an on condition when the voltage across the battery cell exceeds a first threshold voltage, and a microprocessor coupled to the semiconductor switch, wherein the microprocessor monitors the voltage across the battery cell when the semiconductor switch is on, and turns itself off when the when the monitored voltage is less than a second threshold voltage, thereby preventing further current drain from the battery cell. | 12-16-2010 |
20100327815 | BATTERY PACK - A system and method for battery protection. In some aspects, a battery pack includes a housing, a cell supported by the housing, a circuit supported by a flexible circuit board. The circuit is operable to control a function of the battery pack. | 12-30-2010 |
20110001457 | Battery charge status indicator for user terminal device - The invention relates to an indicator device for displaying a battery charge status of an electronic battery powered user terminal device, which is adapted to provide a plurality of applications to a user. The user terminal device comprises a plurality of electric components performing the applications, a battery supplying power to the electric components and a power supply control deactivating the electric components of individual applications at a predetermined battery charge status respectively. The indicator device comprises a detection device for detecting the battery charge status of the user terminal device and a display for displaying the battery charge status. A charging state arrangement is provided for determining and displaying an application-specific battery charge state of at least one of the applications. | 01-06-2011 |
20110006739 | MOBILE COMMUNICATION TERMINAL AND CONTROL METHOD THEREOF - A mobile communication terminal has a first wireless communication interface capable of detachably connecting an external apparatus, a determination unit for determining whether the external apparatus connected to the interface is a second wireless communication unit, a battery voltage detection unit for detecting battery voltage of a power supply unit, a charging detection unit, and a control unit for controlling, if the battery voltage detected by the battery voltage detection unit is lower than a first predetermined value while the charging detection unit detects the charging state, so as to prohibit concurrent use of the first wireless communication unit and the second wireless communication unit. | 01-13-2011 |
20110037435 | POWER TOOL - A power tool | 02-17-2011 |
20110043170 | Secondary battery - A secondary battery that provides a usage voltage lower than a charged voltage. The secondary battery includes a chargeable/dischargeable battery cell, an external terminal electrically connected to the cell unit to charge and discharge the cell unit, and a protective circuit module including a current providing circuit. The protective circuit module electrically connects the cell unit to the external terminal. The current providing circuit includes a charge path and a discharge path that are separated from each other, a voltage drop unit dropping an output voltage of the cell unit to a usage voltage on the discharge path, and a reverse current preventing unit preventing reverse currents from flowing into the charge path and the discharge path. | 02-24-2011 |
20110050177 | Systems and methods for predicting remaining battery capacity - A system according to various aspects of the present invention predicts remaining battery capacity for a battery used by a device. The system includes a memory that stores indicia of remaining battery capacity and a plurality of predefined increments of battery capacity consumption. The system further includes a circuit that determines a duration of operating corresponding to one or more of the increments and stores in the memory a predicted remaining battery capacity, adjusted in accordance with the duration and the one or more increments. Other systems, according to various aspects of the present invention, further include a display indicating remaining battery capacity, for example, as a percentage of initial battery capacity, and/or temperature compensation. | 03-03-2011 |
20110074358 | Battery Protection Device which Utilizes Light Current to Control Heavy Current - A battery protection device which utilizes light current to control heavy current primarily uses an electronic control circuit of light current in combination with a large current control element, such as a relay, to protect large current recharging and discharging of a battery. The light current electronic control circuit includes three main circuits: a main control (micro control unit) circuit, a sampling circuit and a relay control circuit. The relay is primarily a latching relay, allowing the relay to have a self-locking function after operation, without continually supplying electricity to a solenoid. | 03-31-2011 |
20110089907 | IN-SITU BATTERY HEALTH DETECTOR AND END-OF-LIFE INDICATOR - Some embodiments provide a system that monitors a battery in a portable electronic device. During operation, the system applies a pulse load to the battery and determines an impedance of the battery by measuring a voltage of the battery during the pulse load. Next, the system assesses a health of the battery based on the impedance. Finally, the system uses the assessed health to manage use of the battery in the portable electronic device. | 04-21-2011 |
20110095726 | Physical Key To Facilitate An Inactive Mode For A State-Of-Charge Indicator Within A Battery - The invention provides a system and battery including a state-of-charge indicator (SOCI) to monitor and display the amount of charge within the battery. The SOCI is capable of operating in a hibernate mode, an active mode, and/or a sleep mode. The battery may be manufactured, shipped and/or stored with the SOCI operating in a power-saving hibernate mode. The SOCI may exit the hibernate mode and begin operating in active mode if a physical key connected to the battery is removed. In addition, the SOCI may operate in a sleep mode while the battery is not being used to conserve power. Furthermore, the invention provides a method of making a battery including a SOCI to monitor and display the state of charge of the battery. | 04-28-2011 |
20110115439 | BATTERY'S STATE-OF-CHARGE BALANCING CONTROL METHOD FOR HYBRID VEHICLE - A battery's state-of-charge (SOC) balancing control method for a hybrid vehicle is provided, in which the outside air temperature at a traveling destination is reflected to perform the control. | 05-19-2011 |
20110127968 | Method Of Managing A Rechargeable Battery For An Electronic Device - A method for managing a rechargeable battery set coupled to an electronic device comprises steps of obtaining a temperature of the rechargeable battery set; obtaining a remainder capacity of the rechargeable battery set; sending a first signal to indicate the electronic device to receive power from the rechargeable battery set if the temperature of the rechargeable battery set exceeding a threshold of temperature and the remainder capacity of the rechargeable battery set exceeding a threshold of capacity. The method prevents the rechargeable battery | 06-02-2011 |
20110148361 | BATTERY SYSTEM AND METHOD FOR DETECTING CURRENT RESTRICTION STATE IN A BATTERY SYSTEM - A battery system includes a battery pack | 06-23-2011 |
20110163724 | METHOD AND DEVICE FOR MONITORING A HYBRID VEHICLE POWER STORAGE SYSTEM - In a hybrid vehicle system comprising an electric power storage system and an electric motor, the method includes a first step of allowing the electric power storage system to be discharged: upon detecting a condition of a charge of the electric power storage system that is greater than a first threshold to optimize power consumption; and upon detecting a condition of the charge of the electric power storage system that is greater than a second threshold to increase performance. | 07-07-2011 |
20110199053 | BATTERY PACK INPUT/OUTPUT CONTROL SYSTEM - A controller | 08-18-2011 |
20110210703 | Thermal Sensor Device With Average Temperature And Hot Spot Feedback - A battery system employs a plurality of PTC devices and an additional temperature sensor to provide safety and optimization features in a multi-cell battery system. The system provides both temperature fault detection and information that may be used for battery system performance optimization. A single negative temperature coefficient (NTC) thermistor and multiple PTC thermal protection devices are integrated into a battery block, and can be implemented as a single sensor package that is in thermal contact with each of the battery cells in the battery block. | 09-01-2011 |
20110215766 | Discharging of Batteries - Embodiments are disclosed that relate to devices for discharging batteries. For example, one disclosed embodiment provides a battery discharge device including a positive battery contact for forming an electrical contact with a positive battery terminal of a battery, a negative battery contact for forming an electrical contact with a negative battery terminal of the battery, and a battery discharge indicator including a resistive heating material in electrical communication with the positive battery contact and with the negative battery contact, and also including a reversible thermochromic indicator in thermal communication with the resistive heating material. | 09-08-2011 |
20110215767 | BATTERY PACK - A system and method for battery protection. In some aspects, a battery pack includes a housing, a cell supported by the housing, a circuit supported by a flexible circuit board. The circuit is operable to control a function of the battery pack. | 09-08-2011 |
20110221395 | ELECTRONIC APPARATUS - When discharge power calculated based on a current value detected by a current detector is smaller than expected maximum power, which is the maximum power expected in an actual operation, a discharge efficiency at the expected maximum power is set as a discharge efficiency used for remaining capacity calculation. This ensures that a remaining capacity based on power required for a photographing operation can be detected. | 09-15-2011 |
20110221396 | ENERGY CONSUMPTION OUTPUT DEVICE AND METHOD FOR OUTPUTTING A STILL REMAINING USABILITY - An energy consumption output device for outputting the still remaining usability of an electrical consumer which may be connected to an energy storage. The energy consumption output device has the following features: a unit for providing a residual capacity of the electrical energy storage; a power consumption ascertainment unit which is configured to ascertain a power consumption rate in an instantaneous operating mode of the electrical consumer; and an output unit which is configured to determine information concerning the maximum usability for a user of the energy consumption output device with regard to the instantaneous operating mode, using the provided residual capacity and the ascertained power consumption rate, and to output this information. | 09-15-2011 |
20110260692 | Estimation Method for Residual Discharging Time of Batteries - An estimation method for residual discharging time of batteries includes the steps of: providing a set of battery-discharge-current intervals and a set of battery-discharge equations, setting discharge time of each battery-discharge-current intervals zero; detecting a discharge current, voltage and time of batteries; judging whether the discharge current exceeding all of the battery-discharge-current intervals; selecting one of the battery-discharge-current intervals and the associated battery-discharge equation according to the detected discharge current; calculating an estimation of residual discharging time; accumulating and recording the discharge time; judging whether the discharge voltage being lower than a predetermined value and calculating an estimation error of the residual discharging time; adjusting parameters of the battery-discharge equation for reducing the estimation error of the residual discharging time if the estimation error is greater than a predetermined error value. | 10-27-2011 |
20110309800 | BATTERY MAINTENANCE DEVICE WITH THERMAL BUFFER - A battery maintenance device configured to maintain a storage battery. An electrical connection couples the battery maintenance device to the storage battery. Maintenance circuitry couples to the battery through the electrical connection and performs maintenance on the battery. The maintenance circuitry includes an electrical load configured to draw an electrical current from the battery. The electrical current causes the electrical load to heat. A phase change material is thermally coupled to the load. The phase change material has a specific heat index which has a non-linear relationship to temperature to thereby reduce a rate of change in temperature of the electrical load. | 12-22-2011 |
20120019211 | PROTECTION OF A THIN-LAYER BATTERY - A method for protecting a thin-layer battery connected to an intermittent load including the steps of periodically operating the battery at its maximum discharge current, and disconnecting the battery as soon as the voltage across it reaches a threshold value greater than its critical voltage for the maximum discharge current. | 01-26-2012 |
20120032647 | METHOD FOR DETERMINING COMPLETION OF CHARGE OF LITHIUM ION SECONDARY BATTERY, METHOD FOR DETERMINING TERMINATION OF DISCHARGE OF LITHIUM ION SECONDARY BATTERY, CHARGE CONTROL CIRCUIT, DISCHARGE CONTROL CIRCUIT, AND POWER SUPPLY - A method for determining completion of charge of a long-duration lithium ion secondary battery is provided. | 02-09-2012 |
20120038322 | Rechargeable Battery Management - Systems and methods for adjusting sampling and switching rates of a battery management system are provided. For example, a rate at which different battery cells of a battery cell stack are in communication with an analog to digital converter may be adjusted in response to conditions of a battery cell. | 02-16-2012 |
20120043942 | SULFIDE-BASED ALL-SOLID-STATE LITHIUM SECONDARY BATTERY SYSTEM - In an all-solid-state lithium secondary battery provided with a sulfide-based electrolyte-containing layer, the production of hydrogen sulfide is effectively inhibited without deteriorating battery characteristics. A battery system ( | 02-23-2012 |
20120056598 | BATTERY PACK AND METHOD OF CONTROLLING THE SAME - A battery pack including a plurality of battery cells and a method of controlling the battery pack are provided. The method includes: permanently cutting off charging and discharging paths of the battery pack; and discharging one or more of the battery cells when a condition of which satisfies a reference condition. Therefore, state of the battery pack changes from its failure state to a stable state. | 03-08-2012 |
20120081079 | EMERGENCY DISCHARGE FEATURE - A system includes a channel over which to charge a battery, control circuitry, and a discharge circuit associated with the channel to discharge the battery. The discharge circuit is configured for discharging the battery at a current that exceeds an operational current through the channel. In response to a fault in the battery, the control circuitry is configured to disconnect the battery from a signal path in the channel and to produce an electrical connection to enable discharge of the battery through the discharge circuit. | 04-05-2012 |
20120105010 | LITHIUM ION SECONDARY BATTERY SYSTEM AND BATTERY PACK - A lithium ion secondary battery system includes: an assembled battery including a plurality of lithium ion secondary batteries; a SOC measuring unit for measuring the SOC of the lithium ion secondary battery, and a temperature sensing unit for sensing the temperature thereof; and a heating unit for heating the lithium ion secondary battery. When a SOC measured by the SOC measuring unit is lower than a preset SOC set in advance in association with discharge rate, and a temperature measured by the temperature sensing unit is lower than a preset temperature set in advance in association with discharge rate, then, a control unit sends a command to the heating unit to supply heat, so that the temperature of the lithium ion secondary battery becomes a predetermined temperature. | 05-03-2012 |
20120119707 | ELECTRIC CELLS FOR BATTERY PACK, BATTERY CONTROL SYSTEM, AND BATTERY CONTROL METHOD - There are provided a battery control system and a battery control method which can eliminate a management device controlling voltages of individual cells in a battery pack, resist the influence of noise, prevent an increase in size, and reduce the load on a management device. A cell for a battery pack will be interconnected with another cell to be used as a battery pack, the cell comprises unit cell | 05-17-2012 |
20120161715 | CELL BALANCING CIRCUIT, METHOD OF DRIVING THE SAME, AND BATTERY MANAGEMENT SYSTEM THAT INCLUDES THE CELL BALANCING CIRCUIT - A battery management system (BMS) includes a cell balancing circuit. The cell balancing circuit includes a reference voltage generator that is coupled in parallel to at least one battery and generates a reference voltage, a comparator that compares a voltage output from a terminal of the battery with the reference voltage output from the reference voltage generator, and a transistor that discharges a current from the battery, when turned-on in response to a signal outputted from the comparator, through a discharge resistor coupled in series to the battery. | 06-28-2012 |
20120169292 | Circuit for Protecting a Thin-Layer Battery - A method for protecting a thin-layer battery, including the steps of: periodically operating the battery at a forced discharge current, which is a function of temperature; and disconnecting the battery as soon as the voltage across it reaches a threshold, said threshold being greater than its critical voltage for a maximum discharge current under a maximum temperature. | 07-05-2012 |
20120176098 | POWER SOURCE HAVING A PARALLEL CELL TOPOLOGY - A power source with multiple cells connected in parallel to a common node or power supply point. The individual cells within the power source may also have a dedicated controller for each of the individual cells. Additionally, a system controller is coupled to each controller in a feedback loop and is configured to selectively connect each cell of the plurality of cells to a power bus to control the discharge of each of the plurality of cells. | 07-12-2012 |
20120187916 | Virtual Charge for Electric Vehicles - The described method and system provides for dynamic adjustment of the lower charge threshold of an electrically-powered vehicle to allow a fuel-depleted vehicle also low on battery charge to continue to be operated. The vehicle's telematics unit monitors the fuel level and charge level via the vehicle bus or other vehicle resources to determine if the vehicle is running low on fuel and electric charge. If the telematics unit determines that the fuel is depleted and the charge level is approaching, meets or falls below the lower threshold, the telematics unit communicates the vehicle fuel status and vehicle position to a call center along with vehicle identification data. The call center determines the amount of charge required to reach one or more local fueling stations or other points of interests and propose destination recommendations to the driver. The driver may then select one of the recommendations, and the call center transmits a new lower charge threshold to the vehicle. | 07-26-2012 |
20120187917 | BATTERY CONDITION ESTIMATING METHOD AND POWER SYSTEM - The invention provides a battery condition estimating method and a power system permitting to estimate aging level or discharge ability of a battery in high precision by reducing transient changes of response voltages caused by repetitive discharges. A recovery time after a discharge is prolonged with a number of times of discharge and a relationship between the number of times of discharge and the recovery time is approximated by using an exponential function in the battery condition estimating method of the invention. A discharge pattern as shown in FIG. | 07-26-2012 |
20120206106 | Electrical Device and Battery Management Method Thereof - A battery management method of an electrical device, including an internal power source and a battery management unit, includes the following steps. The battery management unit detects whether the electrical device is electrically connected with an external power source. If the electrical device is electrically connected with the external power source, the battery management unit utilizes a timer to determine whether the electrical device has been electrically connected with the external power source for a predetermined time. If the electrical device has been electrically connected with the external power source for the predetermined time, the battery management unit resets the timer and controls the internal power source to discharge fast. | 08-16-2012 |
20120206107 | PROTECTION MODULE AND METHOD FOR MANAGING STATUS DATA OF THE PROTECTION MODULE - A protection module interposed between a chargeable/dischargeable secondary battery and a load, the protection module includes a first switching element connected to the chargeable/dischargeable secondary battery, a second switching element connected to the load, a protection unit configured to prevent over-charge and over-discharge of the chargeable/dischargeable secondary battery by switching on/off the first and the second switching elements, a storage unit configured to store status data of the chargeable/dischargeable secondary battery and threshold data pertaining to a status of the chargeable/dischargeable secondary battery, a status monitor unit configured to monitor the status of the chargeable/dischargeable secondary battery. The status monitor unit is configured to set plural storage areas in the storage unit and store the status data and a flag data indicating whether the status data is a latest status data in one of the plural storage areas. | 08-16-2012 |
20120212185 | COMPOSITE DEVICE SYSTEM - A composite device system including: a first device including a nonvolatile memory; and a second device configured to supply a power to the first device, the second device including: a power supply circuit configured to stabilize a first power supplied from an external part into a second power lower than the first power, and to supply the second power to the first device; a communication circuit configured to receive control data from the first device; and a switch configured to switch between on and off based on the control data, and to supply the first power to the first device when the switch is on, wherein the second device receives the control data from the first device by the communication circuit when data is written into the nonvolatile memory so that the switch is turned on and the first power is supplied to the first device. | 08-23-2012 |
20120217934 | Charging Management Method and Apparatus for Storage Battery - In order to reasonably adjust charging current of a storage battery according to temperature, realize quick, safe and reliable charging of the storage battery, and effectively prolong the service life of the storage battery, the present invention provides a charging management method and apparatus for a storage battery. The method comprises the following steps: monitoring discharge capacity of a storage battery, and determining discharge depth of the storage battery according to the discharge capacity and total capacity of the storage battery (S | 08-30-2012 |
20120229094 | BATTERY MONITORING CIRCUIT AND BATTERY MONITORING SYSTEM - The battery monitoring circuit includes a first switch element, a second switch element, a third switch element. The battery monitoring circuit includes a first output capacitor connected to the second end of the first switch element at a first end. The battery monitoring circuit includes a first output controlling switch element connected between a second end of the first output capacitor and the ground. The battery monitoring circuit includes an AD converter that analog-to-digital converts a signal responsive to a voltage at an output terminal between the second end of the first output capacitor and the first output controlling switch element. The battery monitoring circuit includes a controlling circuit that controls turning the first to third switch elements and the first output controlling switch element and controls the AD converter. | 09-13-2012 |
20120229095 | CONTROL APPARATUS, CONTROL METHOD, AND EXECUTION APPARATUS - A control apparatus includes: a detection section configured to detect whether a rechargeable battery is in a fully charged state or not, and if the detection section detects that the rechargeable battery is in the fully charged state, an execution control section configured to give an instruction to an execution apparatus to execute a holdable task using electric power supplied from the rechargeable battery. | 09-13-2012 |
20120249079 | COMPLIANT TIP THERMISTOR FOR AN ENERGY STORAGE SYSTEM - An energy storage system comprising at least one energy storage module adapted to supply electrical energy to a hybrid vehicle. The energy storage module comprises an enclosure, at least one battery array located within the enclosure, and an energy storage controller module located within the enclosure and electrically connected to the battery array. The energy storage module further comprises a compliant tipped thermistor which may be installed within a flexible clip. The thermistor is positioned to monitor the temperature of one or more of the batteries within the energy storage system. | 10-04-2012 |
20120249080 | AIR BATTERY SYSTEM - An air battery system that can inhibit production of hydrogen. The air battery system includes a battery cell which is provided with an air electrode, an anode containing an active material capable of releasing lithium ions, and a solid electrolyte layer and aqueous electrolytic solution layer having lithium ion conductivity which are disposed between the air electrode and the anode; a detecting device which is capable of detecting a voltage between the anode and the air electrode; and a signaling device which emits a signal when the voltage detected by the detecting device becomes | 10-04-2012 |
20120280661 | BATTERY PROTECTION CIRCUIT AND METHOD OF CONTROLLING THE SAME - A battery protection circuit and a method of controlling the same is disclosed. The battery protection circuit includes: a battery management system for controlling charging and discharging of a battery; and a reset control circuit for controlling a reset operation of the battery management system. The battery management system includes: a reset terminal to which a first voltage for determining reset is applied; and a reset prevention terminal to which a second voltage for determining reset prevention of the battery management system is applied. The reset control circuit is connected between the reset terminal and the reset prevention terminal to control the applying of the first voltage to the reset prevention terminal. Accordingly, an unintended reset operation of the battery management system may be prevented. | 11-08-2012 |
20120293132 | REMAINING CAPACITY CALCULATION METHOD, BATTERY PACK PRE-SHIPMENT ADJUSTMENT METHOD, REMAINING CAPACITY CALCULATING DEVICE AND BATTERY PACK | 11-22-2012 |
20120306452 | SYSTEM AND METHOD FOR DISCHARGING A HIGH IMPEDANCE BATTERY - An electrochemical battery system in one embodiment includes a first electrochemical cell, a memory in which command instructions are stored, and a processor configured to execute the command instructions during a discharge cycle of the first electrochemical cell to (i) establish a first discharge voltage of the first electrochemical cell based upon a first sensed discharge voltage, and (ii) permit a second discharge voltage of the first electrochemical cell after establishing the first discharge voltage, wherein the second discharge voltage is greater than the first discharge voltage. | 12-06-2012 |
20130038295 | BACKUP BATTERY PROTECTION SYSTEM - A backup battery protection system for protecting a backup battery supplying power to a load includes a switch unit and an overdischarge protection module. The switch unit switches power supplied by the backup battery to the load. The overdischarge protection module shuts down the switch unit to stop the backup battery from discharging when voltage of the backup battery is lower than a first preset voltage and starts the switch unit when voltage of the backup battery increases to be higher than a second preset voltage after the discharging stop. | 02-14-2013 |
20130038296 | System For Storing Electric Energy - The invention relates to a system for storing electric energy, comprising a first and a second storage cell, each storage cell having an operating voltage, and a device is provided for reducing the energy content of a storage cell when a threshold voltage is exceeded or reached. The invention is characterized in that a control device which is designed to detect a parameter of the first and/or second storage cell, to identify a state of deterioration of the storage cell, and to change the threshold voltage of the first and/or the second storage cell is provided. | 02-14-2013 |
20130057223 | BATTERY MANAGEMENT SYSTEM AND BATTERY MANAGEMENT METHOD - A battery management system (BMS) for managing discharging of a plurality of battery cells is disclosed. The battery management system comprises a battery monitoring unit, for monitoring statuses of the plurality of battery cells; and a discharge control unit, for controlling the plurality of battery cells to output a plurality of output powers to a load according to the statuses of the plurality of battery cells. | 03-07-2013 |
20130057224 | CONTROL SYSTEM OF BATTERY PACK AND METHOD OF CHARGING AND DISCHARGING USING THE SAME - A control system of a battery pack and a method of charging and discharging the battery pack using the method are disclosed. The control system includes a plurality of battery cells, a balancing unit that selectively balances the battery cells, and a controller that controls a balancing operation. The controller calculates an amount of charge current accumulation and measures voltages of the respective battery cells, and controls a balancing operation of at least one of the battery cells if the calculated amount of charge current accumulation is in a range of a reference capacity values. | 03-07-2013 |
20130063097 | MONITORING A BATTERY IN A PORTABLE ELECTRONIC DEVICE - The disclosed embodiments provide a system that monitors a battery in a portable electronic device. During operation, the system monitors a state of charge of the battery while the battery is powering the portable electronic device. Next, when the state of charge of the battery reaches a predetermined reserve capacity, the system monitors a voltage of the battery. Then, when the monitored voltage of the battery reaches a predetermined termination voltage, the system puts the portable electronic device into a low power usage state. | 03-14-2013 |
20130113436 | CHARGE CONTROLLING METHOD AND DISCHARGE CONTROLLING METHOD, CHARGING APPARATUS CONTROLLER AND DISCHARGING APPARATUS CONTROLLER, AND CHARGE CONTROLLING PROGRAM AND DISCHARGE CONTROLLING PROGRAM - Disclosed herein is a charge controlling method, wherein, when charging into at least one of a plurality of charging apparatus each including a battery is to be started, if it is detected that at least one of the charging apparatus is connected or disconnected, then charging into all of the charging apparatus is stopped. | 05-09-2013 |
20130113437 | CONTROL APPARATUS, CONTROL METHOD AND CONTROL SYSTEM - Disclosed herein is a control apparatus, including: a discrimination section configured to discriminate a plurality of battery units which are to share and output electric power required by a load; and a control section configured to carry out discharge control for the battery units in response to a situation of each of batteries which the battery units individually have. | 05-09-2013 |
20130119941 | System and Method for Assessing ADC Operation and Voltage of a Battery Pack - Systems and methods for assessing operation of ADCs of a battery pack supplying power to a vehicle are disclosed. One example system comprises, a first ADC for determining the voltage of at least one battery cell; a second ADC for determining the voltage of a plurality of battery cells; and a controller performing an action in response to comparing an output of said first ADC to an output of said second ADC. | 05-16-2013 |
20130127423 | BATTERY PACK AND METHOD OF CONTROLLING CHARGE-AND-DISCHARGE OF BATTERY PACK BY ITS THERMOELECTRIC PROPERTY - A battery pack and a method for controlling charge-and-discharge of the battery pack by its thermoelectric property are provided, in which the battery pack has a plurality of thermal regions divided by different ranges of temperature. The battery pack includes a plurality of parallel-connected battery groups and a plurality of variable resistances. The parallel-connected battery groups are located in the thermal regions respectively, and each of the parallel-connected battery groups includes batteries connected in parallel. The variable resistances are disposed between two parallel-connected battery groups. | 05-23-2013 |
20130127424 | DISCHARGE SYSTEM - A discharge system includes: a secondary battery pack; a discharge device; and an application software running on a personal computer connected to the discharge device. The application software receives total battery voltage information, temperature information, and over-discharge information of the secondary battery pack through the discharge device, determines deterioration of the secondary battery pack based on the informations, and displays results of the determination. Further, the application software instructs the discharge device to terminate the discharge when the temperature in the pack exceeds a predetermined value and/or an over-discharge is detected. | 05-23-2013 |
20130134945 | BATTERY HEATING CIRCUITS AND METHODS USING VOLTAGE INVERSION BASED ON PREDETERMINED CONDITIONS - Certain embodiments of the present invention provide a battery heating circuit, comprising a switch unit | 05-30-2013 |
20130134946 | POWER CONTROL APPARATUS AND POWER CONTROL METHOD - A power control apparatus includes: a control unit that controls discharged power of a first battery and discharged power of a second battery; and a power acquisition unit that acquires a total power to be supplied from the first and second batteries to a load device connected to the first and second batteries. The control unit: in a first period, changes the discharged power of the first battery according to a change in the acquired total power, and changes the discharged power of the second battery toward a first direction in which the discharged power of the second battery approximates the discharged power of the first battery; and, in a second period after the first period, changes the discharged power of the second battery according to the change in the acquired total power, and changes the discharged power of the first battery toward a second direction opposite the first direction. | 05-30-2013 |
20130154572 | POWER STORAGE SYSTEM - An integration control device of a power storage system obtains pieces of status information of power storage devices from control devices of unit modules, compares the obtained pieces of status information with one another, and performs driving control of an electrical load based on a worst value of the pieces of status information. | 06-20-2013 |
20130169234 | METHOD AND SYSTEM FOR CONTROLLING ENERGY STORAGE DEVICE - A system and method of use including a controller responsive to a deviation in absolute value or relative slope and operable to terminate a discharge operation in an energy storage device is provided. The absolute value or relative slope is determined at sampling frequency based upon a combination of measured operating parameters, for example, potential and current. Any deviation in the absolute value or relative slope indicates that a threshold limit in the available energy of the system has been reached, for example when active materials in the device are at a point of depletion, indicating a need to cease the discharge operation. The system and method operate on a real-time basis, providing instantaneous SOH information with regard to the device. | 07-04-2013 |
20130169235 | POWER PACK REMAINING CAPACITY LEVEL DETECTION - Systems and methods to detect particular levels of remaining battery capacities. A ratio of changes in battery output voltage over changes in battery capacity (ΔV/ΔC) is calculated. Detected rises in the value of this ratio are used to detect that a battery has a remaining capacity level that is near depletion. In a certain temperature range, the ΔV/ΔC ratio is used to provide an indication that the battery is approaching a low remaining capacity state. In another temperature range, an increase in the ΔV/ΔC ratio indicates that the battery has reached a mid-range remaining capacity level. | 07-04-2013 |
20130169236 | ELECTRIC FACILITY OPERATING ACCORDING TO GALVANIC PRINCIPLES, SUCH AS A LITHIUM-ION CELL, COMPRISING A CONTROL FOR THE OPERATING CONDITIONS - A facility which operates according to galvanic principles, such as in particular a lithium-ion accumulator, and a method for monitoring and controlling an electric operating condition of the facility. The facility comprises at least one galvanic cell and an operating management system for monitoring and controlling the electric operating condition of the facility and for monitoring a representative temperature of the facility. The operating management system is designed to control the electric operating condition of the facility as a function of the temperature. This Abstract is not intended to define the invention disclosed in the specification, nor intended to limit the scope of the invention in any way. | 07-04-2013 |
20130175999 | SYSTEMS AND METHODS FOR DE-ENERGIZING BATTERY PACKS - Systems and methods for de-energizing battery packs in vehicles that receive at least a portion of their motive power from electricity generated from a battery are provided. By way of example, one embodiment includes a battery de-energizer that is configured to electrically couple to a port or receptacle, such as the service disconnect receptacle, on the vehicle and discharge the electrical energy stored in the battery pack. Another embodiment includes a battery management unit (BMU) designed to monitor one or more sensors to determine if a crash has occurred. If a crash is determined, the BMU electrically couples a battery de-energizer circuit to the battery pack to discharge the electrical energy stored in the battery pack. | 07-11-2013 |
20130187616 | Battery Discharge System and Method of Operation thereof - A battery based power supply assembly is disclosed. The system comprises a discharge initiating device and a plurality of battery modules electrically connected with one another. Each of the battery modules comprises a plurality of battery cells, a discharge load connected in series with the battery cells, a switch coupled between the battery cells and the discharge load, a temperature sensor, and a controller adapted for placing the switch in its electrically connected state upon being driven by the discharge initiating device. The invention further provides a safe method of draining the energy from the power supply assembly disclosed herein. | 07-25-2013 |
20130193929 | Battery with at least two electrochemical energy converters and method of operating said battery - A battery with a converter including at least two electrochemical energy converters provided to convert chemical energy into electrical energy and to supply electrical energy particularly to a consumer has the energy converters electrically connected to one another. The converter arrangement includes two configuration connectors of different polarity at which a configuration voltage is present, and the configuration voltage corresponds to the electrical voltage of the converter. Two battery connectors of different polarity are also included and make the electrical connection to the consumer. The battery connectors are electrically connected to the configuration connectors The battery also includes a device connected at least indirectly to the configuration connectors which can be converted from a first state into a second state. In the first state, the configuration connectors are electrically insulated from one another and in the second state they are electrically connected to one another. | 08-01-2013 |
20130200855 | System and Method for Discharging a Battery in a Vehicle after a Crash - In one embodiment, a discharge control system for a vehicle includes an energy storage device supported by the vehicle, a switch, a first load selectively connectable to the energy storage device by the switch, a memory in which program instructions are stored, and a controller operatively connected to the switch and the memory and configured to execute the program instructions to control the switch to a condition in which the energy storage device is operatively connected to the first load based upon a predetermined rate of heat generation of the energy storage device. | 08-08-2013 |
20130207616 | BATTERY SYSTEM, CONTROLLING METHOD OF THE SAME, AND POWER STORAGE SYSTEM INCLUDING THE BATTERY PACK - A battery system, a method of controlling the battery system, and an energy storage system including the battery system are disclosed. The method of controlling the battery system includes steps of selecting one of the plurality of batteries by using a multiplexer; measuring a voltage of the selected battery; and calculating a charging capacity of the battery based on the measured voltage. Accordingly, cell balancing may be efficiently performed. | 08-15-2013 |
20130221930 | POWER SYSTEM HAVING A BATTERY UNIT THAT CALCULATES CUMULATIVE WORK VOLUME VALUE - A camera includes: a battery unit on which a battery is mounted, that can be detachably loaded into the camera and supplies power to the camera; and a function unit that executes camera functions, wherein: as a function of the camera is executed, the function unit transmits information related to the executed function to the battery pack; and the battery unit has a storage unit in which the information related to the camera function is stored. | 08-29-2013 |
20130229156 | BATTERY MONITORING IN ELECTRIC VEHICLES, HYBRID ELECTRIC VEHICLES AND OTHER APPLICATIONS - A method for monitoring the condition of at least one cell of a battery, used in an electric or hybrid electric vehicle. The battery is connected to a power converter to supply electrical power to an electrical load. The method includes the steps of: controlling the power converter to vary the input impedance of the power converter to draw a varying current from the cell; sensing the voltage across the cell and the current drawn in response to varying the impedance of the power converter; calculating from the sensed voltage and current the complex impedance of the cell; and comparing the calculated complex impedance with information indicative of a correlation between (i) the complex impedance and (ii) information indicative of the condition of the cell, to give an indication of the condition of the cell. The varying current may be actively varied or passively varied. | 09-05-2013 |
20130241499 | BATTERY PACK - An electrical combination. The electrical combination comprises a battery pack configured to be interfaced with a hand held power tool, a control component, and a semiconducting switch. The transfer of power from the battery pack to the hand held power tool is controlled by the control component and the switch based on one of a battery pack state of charge and a respective state of charge of one of a plurality of battery cells. A discharge current of the battery pack is regulated based on the switch being controlled into one of a first state and a second state by the control component to selectively enable the transfer power from the plurality of battery cells to the hand held power tool. | 09-19-2013 |
20130249496 | BATTERY PACK - A battery pack includes a battery for supplying power to a starter motor of a vehicle, and a battery management unit for monitoring a condition of the battery, and for blocking the supply of power from the battery to the starter motor when a stability condition requirement for the battery is not satisfied. | 09-26-2013 |
20130249497 | DISCHARGE CONTROLLER - Remaining capacity calculation section ( | 09-26-2013 |
20130257386 | ELECTRIC DEVICE AND METHOD FOR OPERATING AN ELECTRIC DRIVE - In a method for operating an electric device, which includes a first storage battery pack, a second storage battery pack and an electrical load, no more than one storage battery pack is discharged at any given time to operate the load. In the process, the storage battery pack to be discharged is selected as a function of a temperature of the first storage battery pack and a temperature of the second storage battery pack and/or as a function of an internal resistance of the first storage battery pack and an internal resistance of the second storage battery pack. | 10-03-2013 |
20130278223 | Battery Controller with Monitoring Logic for Model-Based Battery Control - A battery controller with monitoring logic for a model-based battery control of a battery performs battery current characterizing, parameter and state variable abnormality detection, and bound checking of error signals between measured and predicted output variables to generate an output. Switching between closed-loop operation (i.e., the model-based battery control) and open-loop operation (i.e., a traditional battery control) is done based on the output of the monitoring logic such that closed-loop stability and performance are reasonably guaranteed. | 10-24-2013 |
20130320932 | INTEGRATED BATTERY MANAGEMENT - For managing a battery, a first switch is in electrical communication with a first connection and a second connection. At least one of a load and a power supply is in electrical communication with the first connection. In addition, an inductor is in electrical communication with the second connection. A second switch is in electrical communication with the first connection and in electrical communication with the common. The third switch is in electrical communication with a third connection and in electrical communication with the battery. The fourth switch is in electrical communication with the third connection and in electrical communication with the common. The inductor is also electrical communication with the third connection. | 12-05-2013 |
20140002030 | Method and Device for Operating an Energy Store | 01-02-2014 |
20140015492 | EXTERNALLY REFERENCED SCALABLE AUTO DISCHARGE METHOD FOR HYBRID ELECTRIC VEHICLES - A system and method for discharging a high voltage vehicle battery. The system includes a discharge circuit having a reference voltage source providing a reference voltage and a load for discharging the battery. A negative terminal of the voltage source is electrically coupled to a negative terminal of the battery so that upon initiation of the discharging sequence, the battery is discharged through the load to the reference voltage. The discharge circuit can be electrically configured so that the battery, the voltage source and the load are electrically coupled in series or the battery, the voltage source and the load are electrically coupled in parallel. | 01-16-2014 |
20140028265 | BATTERY CONTROL UNIT, CHARGE-DISCHARGE UNIT, ELECTRIC POWER CONTROL UNIT, BATTERY UNIT, ELECTRIC VEHICLE - A battery control unit includes: a storage section holding remaining amount data that indicates a remaining amount of a battery; and a control section managing the battery in a fashion of separating the battery into a first region and a second region, by a way of separating the remaining amount data into first remaining amount data and second remaining data and of allowing the storage section to hold the first and second remaining amount data. | 01-30-2014 |
20140028266 | MODULAR MULTILEVEL CONVERTER WITH CELL-CONNECTED BATTERY STORAGES - The invention concerns a method, voltage source converter and computer program product for supporting an associate AC system and comprising: a number of cells (CA1, CA2, CA3, CA4, CA5, CA6, CB1, CB2, CB3, CB4, CBS, CB6, CC1, CC2, CC3, CC4, CCS, CC6), each cell comprising a string of switching elements in parallel with a cell capacitor, at least some cells further including a battery module group comprising at least one battery module connectable in parallel with the cell capacitor and a control unit ( | 01-30-2014 |
20140042981 | ADAPTER AND ELECTRIC POWER TOOL - An adapter includes a converter unit which increases at least one of voltage and current outputted from a battery pack and supply the increased the voltage and/or the current to a load, and a characteristic detection unit which detects at least one of the voltage outputted from the battery pack, the current outputted from the battery pack, a temperature of the battery pack, a voltage inputted to the load, a current inputted to the load and a temperature of the converter unit. The adapter further includes a control unit configured to control the converter unit to increase each of said at least one of the voltage and the current outputted from the battery pack to a corresponding reference value and perform a control operation of suppressing such increase to prevent an occurrence of over-current or over-discharge based on at least one detection result. | 02-13-2014 |
20140042982 | Monitoring Device and Method for Monitoring the Functional Capability of an Accumulator for Electrical Energy of a Battery and Discharge Device, Battery System and Motor Vehicle - In order to monitor a functional capability of an accumulator for electrical energy of a battery, at least one position sensor is provided which outputs a position signal which is representative of the position of the accumulator. If the duration of an incorrect position exceeds a minimum duration, an incorrect position signal is output by a monitoring device. | 02-13-2014 |
20140049224 | SYSTEM AND METHOD FOR BALANCING VOLTAGES - A circuit providing voltage cell balancing is provided. The circuit includes a cell balancing network comprising separate switching circuits, each being configured to balance a respective cell voltage for a respective cell of a plurality of voltage cells based on a respective switching control signal. A control circuit includes a plurality of current sources, each of the plurality of current sources selectively connected to a respective one of the separate switching circuits to independently control operation of each of the separate switching circuits of the cell balancing network to balance the voltage across the plurality of voltage cells. | 02-20-2014 |
20140049225 | ELECTRIC CELLS FOR BATTERY PACK, BATTERY CONTROL SYSTEM, AND BATTERY CONTROL METHOD - There are provided electric cells, a battery pack containing three or more electric cells, a battery control system and a battery control method. An electric cell for a battery pack will be interconnected with another cell to be used as a battery pack. For example, an electric cell comprises an electrochemical cell, a communication unit communicating with other electric cells, a measurement unit acquiring cell-state of the electrochemical cell, and a discharge unit discharging the electrochemical cell. The communication unit transmits a cell-state of the electrochemical cell and receives external information. The discharging unit discharges the electrochemical cell based upon both the cell-state of the electrochemical cell and the received external information. | 02-20-2014 |
20140062417 | INTELLIGENT CHARGE-DISCHARGE CONTROLLER FOR BATTERY AND ELECTRONIC DEVICE HAVING SAME - An intelligent charge-discharge controller for a battery includes a charging voltage test circuit configured for testing an input voltage of the battery when in charge; a charging current control circuit configured for controlling an input current of the battery based on the tested input voltage; a battery voltage test circuit configured for testing a current voltage of the battery; and a discharging current control circuit configured for controlling a discharging current of the battery. The charging voltage test circuit and the battery voltage test circuit each are electrically connected to the charging current control circuit, and the charging voltage test circuit and the discharging current control circuit have a common circuit section. An electronic device having the intelligent charge-discharge controller is also provided. | 03-06-2014 |
20140070772 | METHOD FOR AUTOMATIC ENERGY DISCHARGE OF A BATTERY PACK VIA INTERNAL BATTERY ELECTRONICS POST CRASH EVENT - A system and method for individually discharging battery cells in a high voltage vehicle battery. The system includes a battery controller that monitors and controls the state-of-charge of each of the battery cells and a cell balancing circuit for maintaining the charge of the cells substantially equal. The controller receives a signal from a vehicle crash detector indicating that the vehicle has been in a crash, and in response instructs the cell balancing circuit to discharge all of the battery cells. | 03-13-2014 |
20140077769 | METHOD AND APPARATUS FOR IMPROVING CYCLE LIFE CAPACITY OF A BATTERY PACK | 03-20-2014 |
20140091771 | LITHIUM-BASED BATTERY PACK FOR A HAND HELD POWER TOOL - A method for conducting an operation including a power tool battery pack. The battery pack can include a housing, a first cell supported by the housing and having a voltage, and a second cell supported by the housing and having a voltage. The battery pack also can be connectable to a power tool and be operable to supply power to operate the power tool. The method can include discharging one of the first cell and the second cell until the voltage of the one of the first cell and the second cell is substantially equal to the voltage of the other of the first cell and the second cell. | 04-03-2014 |
20140091772 | ADAPTIVE THERMAL MANAGEMENT OF AN ELECTRIC ENERGY STORAGE METHOD AND SYSTEM APPARATUS - A system, method, and computer-readable storage medium to dynamically manage heat in an electric energy storage system, such as a battery pack or ultra-capacitor pack system in an electric vehicle. | 04-03-2014 |
20140097800 | METHOD FOR CHARGING BATTERY AND CHARGE CONTROL DEVICE FOR BATTERY - A method for charging a battery is used for charging a solid secondary battery including a positive electrode active material layer, a negative electrode active material layer and a solid electrolyte layer formed between the positive electrode active material layer and the negative electrode active material layer. Specifically, the method for charging a battery includes a process for obtaining or estimating temperature of the solid secondary battery; and an over-discharge process for lowering voltage of the solid secondary battery to or below a rated voltage by performing over-discharge and/or making an external short circuit with respect to the solid secondary battery prior to a process for charging the solid secondary battery, provided that the temperature is equal to or higher than a predetermined temperature. | 04-10-2014 |
20140117942 | HYBRID ELECTRIC VEHICLE BATTERY DISCHARGER - A battery discharge device using a plurality of power modules for varying a discharge capacity of the device, and its method of use. The device can be used to discharge high-voltage, high-energy density battery packs such as might be used in hybrid or electric vehicles. The device can discharge the energy of the battery pack at a relatively constant power rate. | 05-01-2014 |
20140125291 | SOLID SECONDARY BATTERY SYSTEM AND MANUFACTURING METHOD OF RECOVERABLE SOLID SECONDARY BATTERY - The invention provides a solid secondary battery system including a solid secondary battery having a cathode active material layer, an anode active material layer, and a solid electrolyte layer formed between the cathode active material layer and the anode active material layer, and an overdischarge processing unit for discharging the solid secondary battery until a SOC of the solid secondary battery becomes less than 0%. | 05-08-2014 |
20140132223 | APPARATUS AND METHOD FOR DISCHARGING A BATTERY AND DETERMINING A CONDITION OF THE BATTERY - A method and apparatus for determining the condition of a rechargeable battery determines a dynamic impedance of the battery while discharging the battery, and determines a battery condition category based on the dynamic impedance. The battery can be discharged in a manner that recovers the stored energy being discharged from the battery. | 05-15-2014 |
20140167703 | Dynamic Line Termination of Communication Buses in Monitoring Circuits for Battery Modules and a Method for Performing the Line Termination during the Initialization of the Monitoring System - A monitoring circuit for a battery module includes at least two terminals configured to be connected to bus lines of a bus system, a series circuit having a line terminating resistor, and a switching device. Ends of the series circuit are in each case electrically connected to one of the two terminals. | 06-19-2014 |
20140176081 | BOOST CONTROL METHOD AND SYSTEM FOR BOOST CONVERTER - A boost control method and system for a boost converter by which a stability of parts is secured when a fuel cell vehicle is started up, and the number of parts is reduced by eliminating an additional hardware construction such as a pre-charge relay. The boost control method includes analyzing a battery state before a boost, and determining a normal state and when the battery state is normal, a processor executes a first boost mode via the boost converter to primarily boost up a voltage of a bus terminal. In addition, the method includes analyzing situation data during the primary boost, and determining an abnormal state of the bus terminal and when the bus terminal is normal, the processor executes a second boost mode to increase a voltage of the bus terminal up to a final target value. | 06-26-2014 |
20140184168 | APPARATUS AND METHOD FOR EQUALIZING ENERGY OF BATTERY CELLS - Provided are an apparatus and method for equalizing energy of battery cells. The apparatus includes a cell balancing controller, a cell balancing executor, and a temperature detector. The cell balancing controller detects a voltage of each of a plurality of cells included in a battery pack and, when a cell requiring cell balancing is extracted, decides a balancing duty to execute discharging control. The cell balancing executor discharges a voltage charged in each cell according to a cell balancing duty signal applied from the cell balancing controller. The temperature detector continuously monitors a temperature of the cell balancing executor to supply the monitored result to the cell balancing controller, and decides the balancing duty on the basis of a cell voltage differential and the temperature of the cell balancing executor. | 07-03-2014 |
20140184169 | BATTERY CONTROL APPARATUS - A battery control apparatus is provided which can keep an inter-terminal voltage of each single cell within a permitted range while permitted power is controlled in units of a battery pack. The battery control apparatus of the invention restricts the permitted power of the battery pack according to a degree of closeness of a close circuit voltage of the single cell to an upper limit or a lower limit of the permitted range. | 07-03-2014 |
20140197799 | Electrochemical Cell Or Battery With Reduced Impedance And Method For Producing Same - The invention disclosed is a method for decreasing the internal resistance or impedance of a battery or electrochemical cell is described which comprises the step of discharging the battery or cell until it reaches an overdischarge condition and maintaining the battery or cell in the overdischarge condition for a period of time sufficient to effect a diminution of the internal resistance or impedance of a battery or electrochemical cell; and a battery or electrochemical cell having a reduced impedance. | 07-17-2014 |
20140197800 | LITHIUM SOLID STATE SECONDARY BATTERY SYSTEM - The main object of the present invention is to provide a lithium solid state secondary battery system capable of restoring the decrease of output characteristics of a lithium solid state secondary battery without deteriorating an anode. The present invention attains the above-mentioned object by providing a lithium solid state secondary battery system including a lithium solid state secondary battery and an overdischarge treating unit, wherein an anode active material layer of the above-mentioned lithium solid state secondary battery contains an anode active material and a sulfide solid electrolyte material containing Li, A (A is at least one kind of P, S, Ge, Al and B) and S and having an ortho-composition, and the above-mentioned anode current collector includes a metal. | 07-17-2014 |
20140203784 | ACTIVE SWELLING REDUCTION FOR POUCH CELLS - An aspect provides a method, including: normally discharging one or more battery cells housed in a flexible exterior material; determining one or more of the one or more battery cells has less than a predetermined voltage level; and actively discharging the one or more battery cells determined to have less than the predetermined voltage. Other aspects are described and claimed. | 07-24-2014 |
20140203785 | Systems and Methods for Evaluating and Controlling a Battery System - Systems and methods for estimating the relative capacity of individual battery subdivisions in a battery system are presented. In some embodiments, a system may include calculation system configured to analyze the electrical parameters to generate derivative values of the parameters over a period of time. The calculation system may further calculate summation values associated with individual battery subdivisions based upon the derivate values. A battery control system may utilize the summation values to generate one or more commands configured to control an aspect of an operation of the battery pack based on using the summation values. The summation values associated with battery subdivisions may be used to determine a relative capacity for storing electrical energy, according to some embodiments. The determination of relative capacity may be used by a control system to prevent over-discharge of a battery subdivision having the lowest energy storage capacity. | 07-24-2014 |
20140203786 | POWER SUPPLY APPARATUS AND POWER SUPPLY CONTROL APPARATUS - According to one embodiment, a power supply apparatus includes a battery assembly, a fuse element, a switch unit, and a control unit. The fuse element is connected between the battery assembly and a load unit driven by being supplied with power from the battery assembly. The switch unit is connected in parallel to the load unit. The control unit causes, when an over voltage of at least one of the battery assembly and the load unit is detected, the switch unit to be in an ON state, provides an over current to flow from the battery assembly to the fuse element, and fusing the fuse element. | 07-24-2014 |
20140232351 | VOLTAGE MONITORING APPARATUS OF ASSEMBLED BATTERY - A voltage monitoring apparatus of an assembled battery has a voltage monitoring section that monitors each voltage of the assembled battery formed by a plurality of cells, and a power supply circuit that acquires a voltage from the assembled battery to generate a power supply voltage of low voltage, and supplies the power supply voltage to a load. The assembled battery is configured by a series circuit of a first block, which includes a plurality of cells or a singular cell, and a second block, which is configured by a plurality of cells or a singular cell. The power supply circuit acquires a voltage from both ends of the second block. The voltage monitoring apparatus further has a power transmission circuit that acquires a voltage from both ends of the first block and supplies a power corresponding to the acquired voltage to at least the second block. | 08-21-2014 |
20140232352 | METHOD AND DEVICE TO MONITOR THE CURRENT OF A BATTERY-OPERATED HANDHELD POWER TOOL - A method to monitor the current of a handheld power tool ( | 08-21-2014 |
20140247017 | METHOD, A CONTROL MODULE A SERVER, A SYSTEM, A COMPUTER PROGRAM AND A COMPUTER PROGRAM PRODUCT FOR DISCHARGING AN ENERGY STORAGE OF A VEHICLE IN PARTICULAR AND ELECTRICAL BATTERY OF AN ELECTRIC VEHICLE, HAVING A PREDETERMINED DISCHARGE LIMIT THRESHOLD, IN PARTICULAR BELOW A MAXIMUM CAPACITY OF SAID ENERGY STORAGE - The invention concerns a method for discharging an energy storage of a vehicle, in particular an electrical battery of an electric vehicle, having a predetermined discharge limit threshold, in particular below a maximum capacity of said energy storage, wherein said method comprises the steps of
| 09-04-2014 |
20140253045 | METHOD AND APPARATUS FOR BATTERY CONTROL - Generally, a system and a method for controlling a battery to power a load disable battery discharge if a battery voltage is less than a low voltage. Disabling battery discharge inhibits current flow from the battery to the load. Battery discharge is enabled after receipt of a reserve enable signal even if the battery voltage is less than the low voltage. | 09-11-2014 |
20140253046 | METHOD AND APPARATUS FOR BATTERY CONTROL - Generally, a system and a method for controlling a battery to power a load determine a battery temperature and control current flow from the battery based on the battery temperature. If the battery temperature is less than a low temperature, load current is disabled and current is enabled through a resistive load to discharge the battery, at least until the battery temperature is about equal to or greater than the low temperature. | 09-11-2014 |
20140266063 | CONTROL OF POWER FLOW IN BATTERY CELLS OF A VEHICLE - A vehicle includes a high voltage traction battery for providing propulsion energy to the vehicle. A battery control module controls the operation of the battery, and also commands cell balancing out of or between cells of the battery to maintain a relative equilibrium of charge across a plurality of the cells. The battery control module is in communication with an interactive display in the vehicle or a communication device outside of the vehicle. A user can define a time period in which the vehicle is to enter a hibernation mode. During the hibernation mode, the battery control module inhibits cell balancing in the battery. Upon expiration of the user-defined time period, the battery control module enables cell balancing. | 09-18-2014 |
20140266064 | Battery Cell Unit Comprising a Battery Cell and a Monitoring and Actuation Unit for Monitoring the Battery Cell and Method for Monitoring a Battery Cell - A battery cell unit includes a battery cell and a monitoring and actuation unit for monitoring the function state of the battery cell. A coupling unit is provided in the battery cell unit, in which coupling unit two half-bridges forming a full-bridge are arranged, which half-bridges each comprise a first power semiconductor coupled to a positive pole of the battery cell, a second power semiconductor coupled to a negative pole of the battery cell and a central connection and are connected to a respective other output terminal of the battery cell unit via the respective central connection. The battery cell is configured to operate, in the normal operating mode, the power semiconductors of the half-bridges in such a way that a battery cell voltage of the battery cell is present at the output terminals of the battery cell unit optionally with a positive or negative orientation. | 09-18-2014 |
20140347015 | POWER SUPPLY AVOIDING OVER-DISCHARGE OF BATTERY MODULES - A power supply avoiding over-discharge of battery modules includes a main power supply system and a redundant power supply system. The invention uses a battery protection module to detect the status of a battery module in the redundant power supply system in normal conditions. The battery protection module includes an activation path connected to the main power supply system to receive standby power, a battery detection path connected to the battery module to receive a micro current and generate a protection activation signal when the battery module is in a charge-waiting state, and a protection activation path connected to a switch unit in the redundant power supply system to receive the protection activation signal to make the switch unit enter an OFF state. | 11-27-2014 |
20140347016 | METHOD FOR CONTROLLING AN ENERGY STORAGE SYSTEM - A method for controlling an energy storage system. The same battery system shall support multiple services at the same time. During a planning phase, the multiple services to be provided are determined, based on the market situation and the capabilities of the energy storage system, and prioritized according to predefined criteria. During an operation phase, the power and energy status of the energy storage system is periodically monitored, and compared against the power and energy demands of the multiple services, in order to determine whether at each time instance, the multiple services can indeed be supported at the same time. In case power and/or energy limits are exceeded by the multiple services, at least one service is interrupted to allow the operation of the energy storage system to be within power/energy limits again. The interrupted service(s) is resumed when the power/energy limits are met. | 11-27-2014 |
20140354240 | ELECTRIC AUTOMOBILE AND DISCHARGING DEVICE THEREOF - A discharging apparatus for an electric vehicle and an electric vehicle are provided. The discharging apparatus comprises: an AC charging interface, connected with a charging pile and configured to transmit an AC to a power grid via the charging pile; an instrument, configured to send a discharging preparation instruction; a controller, configured to detect whether the AC charging interface is connected with the charging pile after receiving the discharging preparation instruction, and to detect whether there is a PWM wave with a predetermined voltage in the controller, and if there is a PWM wave with a predetermined voltage in the controller, to switch to an external discharging mode; a battery manager, configured to control an external discharging circuit in a high-voltage distribution box of the electric vehicle to be connected after the controller switches to the external discharging mode; a power battery, connected with the high-voltage distribution box. | 12-04-2014 |
20140361749 | CONTROL SYSTEM AND CONTROL METHOD FOR CHARGE LEVEL OF BATTERY - A control system includes a background unit, a control module, a power supply module, and a battery. The background unit includes a procedure subunit, an operation subunit, and a transceiving subunit. The control module includes an information read-write unit and a processing unit. The processing unit includes a detecting subunit, a control subunit, and a switch subunit. The transceiving subunit sends an operating request to the detecting subunit. The detecting subunit detects a dump energy value of the battery and determines whether the dump energy value is less than a predetermined charge level value. When the dump energy value is greater than the predetermined charge level value, the switch subunit is switched on, and the information read-write unit sends powering information to the transceiving subunit, and the operating subunit operates the procedure subunit. The disclosure further offers a control method. | 12-11-2014 |
20140375272 | MOBILE VARIABLE POWER SYSTEM AND METHOD - A mobile energy storage apparatus comprised of: a. at least one variable energy control device which converts DC to DC, AC to DC and DC to AC and b. at least one energy storage device (such as a battery) and c. a means to adjust said at least one variable energy control device to various electrical output powers and d. a means to connect said mobile energy storage apparatus to an EV (electric vehicle) or other device electrically and mechanically to enable transferring energy even when in motion and e. optionally a means for attaching various covers to said mobile energy storage apparatus to suit various applications. The mobile energy storage apparatus allows the transfer of energy to or from: an EV, a building or any other electrical facility or device and can be configured with built-in or attached to various power sources. | 12-25-2014 |
20140375273 | DRIVE CONTROL DEVICE, DRIVE CONTROL METHOD AND DRIVE CONTROL PROGRAM - A drive control device that is capable of ensuring user convenience. The drive control device ( | 12-25-2014 |
20150008886 | SYSTEM AND METHOD OF BALANCING BATTERY CELL - A method and system of balancing battery cells are provided that use a data map that includes a balancing duty ratio based on an environment temperature of a battery and the number of balancing target-cells. The method includes measuring, by a temperature sensor, the environment temperature of a battery. In addition, a controller is configured to identify the number of the balancing target-cells and calculate a balancing duty ratio by substituting the environment temperature and the number of the balancing-target cells to the data map. A balancing time is deducted by the controller based on the calculated duty ratio and the corresponding battery cells are balanced by the controller with the calculated duty ratio for the balancing time. | 01-08-2015 |
20150008887 | BATTERY WARM UP SYSTEM AND METHOD FOR WARMING UP BATTERY USING THE SAME - A battery warm up system according to the present disclosure includes a battery state measuring unit to measure a state of charge (SOC) of each module of a battery pack of a vehicle, a control unit to optionally output a forced discharging start signal and to output a balancing start signal, a forced discharging circuit unit to force at least one battery module among a plurality of battery modules of the battery pack to be discharged in response to the forced discharging start signal, and a balancing unit to balance the SOC of each of the battery modules in response to the balancing start signal. | 01-08-2015 |
20150015208 | DISCHARGE CONTROL DEVICE, DISCHARGE CONTROL METHOD AND COMPUTER READABLE MEDIUM - A discharge control device for controlling discharge in an energy storage device disposed in an electric apparatus, wherein the discharge control device includes a first determination unit adapted to determine whether or not an electric apparatus's status is being outside a predetermined first range and a discharge controller adapted to start discharge in the energy storage device, when the first determination unit determines that the status of the electric apparatus is being outside the first range. | 01-15-2015 |
20150015209 | SYSTEM AND METHODS FOR CURRENT BALANCING - A battery module includes: a battery pack including multiple cells; control circuits corresponding to the cells, each control circuit including a control unit for managing the corresponding cell and a compensation unit for generating a corresponding compensation current such that the sum of the corresponding consumed current and the corresponding compensation current is equal to a target total current, where the control circuits include a first control circuit and a second control circuit, where the first control circuit includes a first control unit operating with a first consumed current, the second control circuit includes a second control unit operating with a second consumed current, and where the first control circuit conditionally generates a first compensation current and the second control circuit conditionally generates a second compensation current based on a comparison of the first consumed current and the second consumed current. | 01-15-2015 |
20150022159 | DETECTION OF A MALFUNCTION IN AN ELECTROCHEMICAL ACCUMULATOR - An electrochemical accumulator, including a casing, at least two electrodes and an electrolyte contained in the casing. There is a ferromagnetic material contained in the casing and having remanent magnetization. There is also a magnetic sensor arranged outside the casing and capable of measuring a remanent magnetic field of said ferromagnetic material. There is further included a circuit configured to determine the temperature inside the casing as a function of the measured remanent magnetic field. | 01-22-2015 |
20150042289 | ASSEMBLED BATTERY - An assembled battery includes a plurality of secondary cells, a first arithmetic operator, a second arithmetic operator, and a discharger. The first arithmetic operator calculates a voltage change rate of each of the secondary cells during charging/discharging thereof. The second arithmetic operator determines a discharge condition for each of the secondary cells from the voltage change rate calculated in the first arithmetic operator and a state of charge of each of the secondary cells. The discharger performs discharging of each of the secondary cells on the basis of the discharge condition when the assembled battery is neither being charged nor being discharged. The second arithmetic operator determines the discharge condition of each of the secondary cells such that each of the secondary cells after the discharging has the same state of charge. | 02-12-2015 |
20150054467 | BATTERY CONTROL DEVICE - A battery management portion has communication portions for receiving battery status data from a battery unit and transmitting a signal based on the battery status data (e.g., a signal pertaining to allowing or disallowing charging and discharging) to a power conversion control portion which performs charge/discharge control. Operation is performed in either a normal operation mode, in which communication is continuously performed by the communication portions, or an intermittent operation mode, in which communication by the communication portions is intermittently discontinued, according to the mode request signal from the control portion. If an abnormal state (such as overcharging) is identified during operation in the intermittent operation mode, the operation mode is forcibly shifted to the normal operation mode, irrespective of the state and content of reception of the mode request signal. | 02-26-2015 |
20150061601 | DISCHARGE DEVICE FOR ELECTRICITY STORAGE DEVICE - A battery-condition monitoring device that monitors a condition of the battery through discharge thereof includes a discharger and a discharge control device. The discharger includes a discharge circuit having a load resistor and a switching element connected in series between a positive electrode of the battery and a negative electrode thereof. The discharge control device controls an open/close operation of the switching element. The discharge control device adjusts the resistance value of the load resistor in the discharger, thereby enabling an adjustment of a discharge current. | 03-05-2015 |
20150061602 | Electrochemical Cell with Magnetic Sensor - In accordance with one embodiment, a battery system includes an electrochemical cell, a flexible sensor assembly attached to the cell, the flexible sensor assembly including an array of spin valve magnetic field sensors exhibiting an organic magneto resistance effect, and a battery management system operably connected to the flexible array, the battery management system including a memory with program instructions stored therein, and a processor operably connected to the memory and to the array, the processor configured to execute the program instructions to identify local changes in magnetic flux using input from the array of magnetic field sensors. | 03-05-2015 |
20150097532 | METHOD OF OPERATING A BATTERY AND STRUCTURE THEREFOR - In accordance with an embodiment, a method for discharging a power source such as, for example, a battery, includes determining a capacity of the battery and discharging the battery in response to the capacity of the battery being greater than a reference level. In accordance with another embodiment, a circuit suitable for use with a battery includes a power measurement circuit coupled to a discharge indicator circuit, a control circuit, and a load. The discharge indicator circuit is coupled to the control circuit, which is coupled to a switch configured for activating a discharge operation through the load. | 04-09-2015 |
20150108951 | IN-VEHICLE POWER STORAGE DEVICE AND CONTROL METHOD THEREOF - An in-vehicle power storage device that discharges a battery in a case where collision of a vehicle is detected or predicted, and stops discharging the battery when an over-discharged state has not been reached, and a control method thereof. The in-vehicle power storage device includes: a battery mounted in a vehicle; charge-state detection means for detecting a charge state of the battery; and a discharging load for discharging the battery, and a control device which includes: battery charge-state detection means for detecting a charge state; a battery discharger means for discharging the battery using the load if collision of the vehicle is detected or predicted; and discharge stopping means to stop discharging the battery before the battery becomes over-discharged. | 04-23-2015 |
20150115895 | SYSTEM AND METHOD OF DISCHARGING HIGH-VOLTAGE BATTERY - A method of discharging a high-voltage battery is provided. The method includes demounting a communication connector of a battery management system (BMS) and connecting the BMS communication connector and a discharge system to enable communication between the BMS and the discharge system. Additionally, the method includes discharging the battery using the discharge system. | 04-30-2015 |
20150115896 | Power Storage Device and Power Storage Device Control Device - A power storage device includes a positive electrode, a negative electrode, and a non-aqueous electrolyte. The negative electrode comprises a plurality of types of negative electrode active materials, wherein each of the plurality of types has different lithium-ion absorption potentials. | 04-30-2015 |
20150295431 | SECONDARY BATTERY SYSTEM - A secondary battery system according to one aspect of the present disclosure includes: a plurality of secondary batteries; a power source; and a control circuitry. The control circuitry is operative to intermittently charges each of the plurality of secondary batteries plural times with a pause between charges while repeating a cycle including (a) selecting a secondary battery to be charged next from among the plurality of secondary batteries and (b) charging the selected secondary battery at a charging current not less than a standard current. The standard current is defined to reduce a charging capacity of each secondary battery decreases by 20% from a maximum charging capacity in a case where the secondary battery is continuously charged at the standard current. | 10-15-2015 |
20150295449 | DELAYED REACTIVE ELECTRICAL CONSUMPTION MITIGATION - The electrical consumption mitigation provided by energy storage systems can be unreliable when a consumption peak lasts long enough to deplete the energy stored and the remainder of the peak is unmitigated. By implementing a waiting period between detecting the peak and discharging the energy storage in which characteristics of the peak are observed, a peak mitigation system can lengthen the effective discharge duration of the energy storage system and prevent unmitigated plateaus from appearing. For example, when a consumption plateau is detected, the system may discharge at a slower rate than when a spike is detected in order to prolong mitigation activities before the conclusion of the plateau. Thus otherwise-incurred demand-related utility charges can be reduced without having to increase the capacity of the mitigation system. In some cases, these processes are performed with respect to the bounds of demand-averaged time periods used to calculate demand charges. | 10-15-2015 |
20150303434 | BATTERIES AND BATTERY SYSTEMS FOR STORING ELECTRICAL ENERGY - A battery unit comprising an electric energy reservoir having positive and negative voltage supply terminals, three or more electric contact pads on an outer surface of the battery unit, and a dynamically configurable connection unit for electrically connecting each of said positive and negative voltage supply terminals to any one or more of said electric contact pads, wherein electric energy can be drawn from the electric energy reservoir via selectively different combinations of electric contact pads. | 10-22-2015 |
20150303442 | BATTERY CELL - A battery cell having a first switching member switchable between a first position and a second position, wherein in the first position of the first switching member, a first electrode of the battery stack is being connected to a first terminal of the battery cell. In the second position of the first switching member the first electrode is being separated from the first terminal. The battery cell may further comprise a control unit in order to control a switching of the first switching member. Optionally there may be a second switching member providing a bypass between the second electrode and the first terminal, once the first terminal is being separated from the first electrode in response to a critical state of the battery cell. | 10-22-2015 |
20150355281 | ELECTRONIC DEVICE WITH SUPERVISOR CIRCUIT FOR DETECTING RESISTANCE PARAMETER OF AN ENERGY STORAGE DEVICE - An electronic device has an energy storage device and circuitry supplied with a storage device voltage from the energy storage device. A supervisor circuit enables the circuitry in response to the storage device exceeding an enable threshold voltage. The supervisor circuit detects a resistance parameter which is indicative of an internal resistance of the energy storage device and adjusts the enable threshold voltage based on the resistance parameter. | 12-10-2015 |
20150357838 | BATTERY SYSTEM - A battery system, having at least one battery cell, wherein a circuit arrangement is provided in a negative current path. The circuit arrangement includes two series-connected field-effect transistors, of which the battery-cell-side field-effect transistor has a charge-current-blocking diode path and can be bridged by a precharging path with a precharging resistor, and the field-effect transistor which is remote from the battery cell has a discharge-current-blocking diode path. The system also includes a voltmeter for detecting a voltage present across the field-effect transistor directly upstream and downstream of the field-effect transistor which is remote from the battery cell; and a current sensor for detecting a current flowing through the negative current path. | 12-10-2015 |
20150357845 | BATTERY MANAGEMENT SYSTEM FOR A WATERCRAFT MOTOR MODULE - Disclosed herein is a battery management system. A housing may contain one or more of an electric motor, a battery electrically coupled to the electric motor, and a sensor configured to detect a harmful environmental condition within the housing. Such sensors can detect a potentially harmful condition including but not limited to smoke, heat, water, or shock. A circuit may be coupled to the at least one sensor and configured to uncouple the battery from the motor and discharge the battery when the sensor detects the harmful environmental condition. If a potential problem with the internal environment of the cassette is detected, the cassette batteries can be effectively disconnected with the main output, thus disabling the motors. Furthermore, energy stored in the batteries can be slowly and safely discharged. In some embodiments, when a potential problem with the internal environment of the cassette is detected, the batteries can be discharged and permanently disabled. Illustrative embodiments disclose a battery management system implemented in a motorized watercraft. | 12-10-2015 |
20150364940 | DYNAMICALLY CONFIGURABLE AUTO-HEALING BATTERY - A method, apparatus, and computer program product for a dynamically configurable auto-healing battery are provided in the illustrative embodiments. Identification of a condition is performed within the battery. The battery comprises a set of cells a subset of which is electrically connected in a configuration such that the configuration delivers a first amount of electrical power from the battery. The battery further comprising a second set of spare cells. Responsive to the condition, a cell is selected from the subset. Responsive to the condition, a spare cell is selected from the set of spare cells. The selected cell in the subset is made electrically unavailable in the configuration. The selected spare cell is made electrically available in the configuration, resulting in eliminating an effect of the condition on a power output of the battery. | 12-17-2015 |
20150367747 | Method for Revitalizing and Increasing Lithium Ion Battery Capacity - A hybrid or electric vehicle includes a lithium-ion battery and a controller. The controller is programmed to discharge the battery through an electrical load to a predetermined voltage less than a voltage associated with zero state of charge such that relative degrees of lithiation associated with the electrodes of the battery change for at least one state of charge resulting in an increase in battery maximum capacity. The controller may be on-board or off-board of the vehicle. The electrical load may be part of the vehicle or external to the vehicle. | 12-24-2015 |
20150380960 | DISCHARGE PROTECTION CIRCUIT AND ITS CONTROL METHOD - A discharge protection circuit has a cell combination with more than one cell, a power supply circuit, an output circuit, a MCU chip, a voltage detection circuit, a NTC circuit, a current detection circuit, a drive circuit and a drive switch. The power supply circuit, the output circuit and the cell combination form a series connection and the MCU chip forms an electrical connection with the voltage detection circuit, the drive circuit and the current detection circuit, respectively, with the voltage detection module being electrically connected with the cell combination and the NTC circuit respectively. A control method includes enabling a discharge procedure of the discharge protection circuit to discharge with a power quantity 0.2 times nominal power quantity each hour. In this procedure, the MCU chip is cyclically dormant to reduce the control power dissipation and improve discharge quantity while achieving discharge protection of the battery pack. | 12-31-2015 |
20160001672 | EQUIVALENT CIRCUIT BASED BATTERY CURRENT LIMIT ESTIMATIONS - A battery system includes a plurality of battery cells and a controller. The controller outputs a plurality of current limits for the cells, and controls operation of the cells according to the current limits. Each of the current limits has a different time duration and is based on state variables from an equivalent circuit model of the cells. The state variables are based on terminal voltage and output current data associated with the cells. | 01-07-2016 |
20160020624 | BATTERY MANAGEMENT SYSTEM AND METHOD FOR EXTENDING TIME UNTIL A BATTERY REACHES AN OVER-DISCHARGED STATE DURING STORAGE OF AN INFORMATION HANDLING SYSTEM - A computer-implemented method extends the time until the battery reaches an over-discharged state of an information handling system during storage. The method comprises determining if a first battery parameter is outside an associated first battery parameter specification. When the first battery parameter is outside the associated first battery parameter specification, a power management controller isolates the battery by turning off a charge/discharge field effect transistor. The method also includes determining if the first battery parameter is outside an associated second battery parameter specification. In response to the first battery parameter being outside the associated second battery parameter specification, the power management controller is triggered to enter a minimum power state to further reduce power consumption from the battery. | 01-21-2016 |
20160023567 | TEMPERATURE DEPENDENT ELECTROCHEMICAL BATTERY MODEL FOR VEHICLE CONTROL - A vehicle battery system includes a traction battery. The traction battery includes at least one cell having an anode, a cathode and an electrolyte therebetween defining a solid-electrolyte interface including an anode solid-electrolyte interface and a cathode solid-electrolyte interface. The system also includes at least one controller that operates the traction battery according to a battery operational variable that is based on a temperature dependent diffusion coefficient of the solid-electrolyte interface, a temperature dependent Ohmic resistance, a Li-ion concentration that is derived from a response to a current profile, and an operating battery current. | 01-28-2016 |
20160036260 | CIRCUIT AND METHOD FOR AVOIDING SHUTDOWN OF A PORTABLE DEVICE DUE TO A FALSE LOW VOLTAGE CONDITION - A method and circuit for avoiding a low voltage shutdown in a portable device due to a low voltage falsely indicating a discharged battery employs an input current sensing circuit to determine when a high current is being drawn by the portable device. When the portable device is drawing a high current from the battery, the shutdown function is at least temporarily suppressed. If, during the high current event, the battery behavior indicates that it is actually near fully discharged, the shutdown functionality can be enabled to shut down the portable device. | 02-04-2016 |
20160039289 | Method and Device for Increasing the Security when using Battery Modules - A method for inducing a secure state of a battery module of a motor vehicle includes continuously checking and evaluating a current state of the battery module. The secure state of the battery module to be induced is a state, in which effects of a defective battery module are reduced. The secure state is induced in dependence of a motor vehicle state. | 02-11-2016 |
20160041230 | BACKUP BATTERY - A backup battery includes a battery cell, a storage medium, and a processor. The storage medium is configured to store a computer program. The processor is configured to execute the computer program so as to monitor the operating state of the battery cell. The processor selectively generates one or more output signals according to the operating state of the battery cell. | 02-11-2016 |
20160043392 | ALL-SOLID SECONDARY BATTERY, METHOD OF CONTROLLING ALL-SOLID SECONDARY BATTERY AND METHOD OF EVALUATING ALL-SOLID SECONDARY BATTERY - A lithium ion secondary battery including a cathode layer, an anode layer including an anode active material and a coating including a metal element, wherein the coating is disposed on the anode active material; and a solid electrolyte layer disposed between the cathode layer and the anode layer, wherein the coating has an electrochemical reaction potential with lithium that is greater than an electrochemical reaction potential of the anode active material with lithium. | 02-11-2016 |
20160056655 | BATTERY PACK FOR MOTOR-DRIVEN APPLIANCE - A battery pack for a motor-driven appliance comprises a battery including a plurality of cells, a cell discharge unit that discharges each cell individually, a voltage detection unit that detects each cell voltage, a target cell determination unit, and a discharge control unit. When at least one cell having the cell voltage equal to or smaller than a specified threshold is present, the cell voltage that is the smallest among them is set as a smallest cell voltage, and when at least one other cell having the cell voltage larger than the smallest cell voltage by a defined value or more or having the cell voltage larger than the threshold by the defined value or more is present, the target cell determination unit determines the at least one cell as a target cell, and the discharge control unit causes the target cell to be discharged by the cell discharge unit. | 02-25-2016 |
20160079788 | BATTERY PACK AND METHOD FOR CONTROLLING DISCHARGE OF SECONDARY CELL - The battery pack including a battery group in which a plurality of secondary batteries are connected in series; a detector that detects a charging and discharging current value flowing in the battery group and a voltage value of the battery group in a time-division manner by switching between the current value and the voltage value using an electronic circuit; and a controller/operator that performs operation and control using the current value and the voltage value detected by the detector. In the battery pack, the detector detects current values before and after the voltage value of the battery group is detected, and the controller/operator determines that the voltage value of the battery group is influenced by the peak discharge power when at least one of the current values exceeds a predetermined threshold. | 03-17-2016 |
20160082855 | CONNECTION MONITORING APPARATUS AND BATTERY SHARING SYSTEM - A switch exists between first and second terminals provided for the connector, and is configured to be in ON when the connector is in connection to the inlet, and to be in OFF when the connector is in separation. A first power supply is connected to an electrical circuit including the first and second terminals, and configured to supply electrical power during ON period of the switch. A judgement circuit is configured to monitor an electrical state of at least one of the first and second terminals and output a monitor signal showing a judgment result of ON or OFF of the switch. | 03-24-2016 |
20160082860 | METHOD FOR MANAGING THE TEMPERATURE OF A BATTERY OF AN ELECTRIC OR HYBRID VEHICLE - A method for managing the temperature of a battery of an electric or hybrid vehicle includes recording a temperature value at which the cooling or heating of the battery is triggered. The method further includes, for two consecutive values in a predefined sequence of states of charge: a step of comparing a real gradient to a reference gradient of the battery temperature; and a step of modifying, depending on the comparison, the value of the trigger temperature, or the value of the power output by cooling or heating the battery; and also includes applying the modified trigger temperature or output power for the following two consecutive values of the state of charge of the battery in the predefined sequence. | 03-24-2016 |
20160087685 | METHODS AND SYSTEMS FOR CONTACTLESS BATTERY DISCHARGING - Disclosed herein are methods and systems for contactless battery discharging. One embodiment takes the form of a contactless power-transfer system that includes a wireless-communication interface, a controller connected to the wireless-communication interface, a magnetic-resonance circuit, a power-conditioning circuit connected to the magnetic-resonance circuit, and a load element connected to the power-conditioning circuit. The controller is configured to determine that a smart-battery system is in a discharge-needed state and responsively transmit, via the wireless-communication interface, a battery-discharge command instructing the smart-battery system to generate an oscillating magnetic field. The magnetic-resonance circuit is configured to couple with the generated oscillating magnetic field and responsively output a corresponding power signal. The power-conditioning circuit is configured to receive the power signal from the magnetic-resonance circuit, rectify the received power signal, and output the rectified power signal. The load element is configured to receive the rectified power signal from the power-conditioning circuit. | 03-24-2016 |
20160099587 | METHOD FOR CELL BALANCING FOR A PLURALITY OF BATTERY CELLS, AND BATTERY SYSTEM FOR PERFORMING SUCH A METHOD - A method for cell balancing for a plurality of battery cells. Such a method involves the cell balancing being performed on the basis of a need that can be ascertained comparatively accurately. The method described above allows equalization of the states of charge, or cell balancing, based on the state of charge of the battery cells to be made possible, even without knowledge of the capacities of the in particular series-connected battery cells, such that the loss of charge as a result of the cell balancing is particularly low. Hence, a loss of charge as a result of unnecessary equalization of the charge can be prevented or at least significantly reduced. | 04-07-2016 |
20160118829 | SEMICONDUCTOR DEVICE AND BATTERY MONITORING SYSTEM - A semiconductor device includes a first electrical current source connected to an assembled battery through a power source terminal; and a second electrical current source connected to an input terminal to which an external electrical current is input. The first electrical current source is configured to generate a first electrical current according to a reference voltage based on a power source electrical current input into the power source terminal, and to output the first electrical current to an output terminal. The second electrical current source is configured to generate a second electrical current according to the reference voltage based on the external electrical current, and to output the second electrical current to the output terminal. | 04-28-2016 |
20160134139 | BATTERY SYSTEM - A battery system includes: an alkali secondary battery in which a negative electrode open-circuit potential remains constant within a predetermined SOC range; a temperature sensor configured to detect a temperature of the battery; a current sensor; a voltage sensor; and a controller configured to set an upper limit power value that is discharged from the alkali secondary battery, the controller being configured to: calculate a negative electrode potential of the alkali secondary battery based on the negative electrode open-circuit potential, a resistance value of a negative electrode of the alkali secondary battery, the resistance value being specified from the temperature, and the current value; calculate a positive electrode potential of the alkali secondary battery based on the negative electrode potential and the voltage value; and reduce the upper limit power value below a reference power value when the positive electrode potential is equal to or lower than a threshold. | 05-12-2016 |
20160134145 | SUPPLY AND DEMAND ADJUSTMENT SYSTEM, SUPPLY AND DEMAND ADJUSTMENT METHOD, AND SUPPLY AND DEMAND ADJUSTMENT PROGRAM - A supply and demand adjustment system, that utilizes characteristics of a supply-and-demand adjustment apparatuses and precisely matches the total supply-and-demand adjustment amount with a required adjustment amount, when adjusting supply and demand, is provided. The supply and demand adjustment system that includes a central control apparatus and one or more supply-and-demand adjustment apparatuses, the central control apparatus including, supply-and-demand-adjustment-apparatus-state-collection unit that collects information with regard to a state of each supply-and-demand adjustment apparatus, allocation band calculation unit that calculates a frequency band and an intensity of a fluctuation of supply and demand adjustment to be allocated to the supply-and-demand adjustment apparatus based on the information of the state, and a supply-and-demand-adjustment-amount-calculation-unit that calculates a supply-and-demand adjustment amount for each supply-and-demand adjustment apparatus based on the frequency band and the intensity of the fluctuation of supply and demand adjustment to be allocated to the supply-and-demand adjustment apparatus. | 05-12-2016 |
20160134146 | BATTERY CONTROL METHOD BASED ON AGEING-ADAPTIVE OPERATION WINDOW - A battery control method based on ageing-adaptive operation window is provided, including: performing a multi-dimensional electrochemical impedance spectrum method to obtain a three-dimensional Nyquist-vs-SoC relation diagram; using an equivalent circuit model to analyze the Nyquist-vs-SoC diagram to obtain at least a major ageing factor; defining an operation window stress index, and based on the stress index defining a plurality of control reference points for the battery operation window; and based on the plurality of control points, performing the control of battery discharging. | 05-12-2016 |
20160137091 | RADIO BATTERY SYSTEM, AND CELL CONTROLLER AND BATTERY CONTROLLER THAT HAVE RADIO BATTERY SYSTEM - A radio battery system according to the present invention includes a battery controller and a plurality of cell controllers. The battery controller and the plurality of cell controllers communicate at a plurality of communication slots of a time division communication. The battery controller transmits data at a beginning of each of the plurality of communication slots. Each of the cell controllers measures a state of a cell at one or plurality of predetermined communication slots and transmits data at a predetermined communication slot. Each of the cell controllers is capable of switching between a normal transmission/reception mode and a sleep mode with a low power consumption. | 05-19-2016 |
20160141733 | HEAT QUANTITY CONTROL DEVICE - A heat quantity control device has a heat flux sensor arranged between first and second heating elements arranged adjacently to each other, and a control section for controlling a heat quantity of the first and second heating elements. The heat flux sensor has an insulation board made of thermoplastic resin, first and second via holes formed in the insulation board penetrating in a thickness direction thereof. First and second layer connection members are embedded in the first and second via holes, respectively. The first and second layer connection members are made of different metals and alternately connected in series. The control section controls a heat quantity generated in the first and second heating elements based on the electromotive force generated in the heat flux sensors so that a heat flux flowing between the first and second heating elements becomes not more than a predetermined value. | 05-19-2016 |
20160149428 | ELECTRONIC APPARATUS - According to one embodiment, an electronic apparatus removably connectable to an external apparatus includes a first battery and circuitry. The circuitry sets a charge mode of the first battery to a first or second mode, sets, when the external apparatus includes a second battery, a charge mode of the second battery to the first or second mode, and displays a combination of charge mode options of the first mode and the second mode for the first battery and charge mode options of the first mode and the second mode for the second battery, and usage information suitable for the combination. | 05-26-2016 |
20160152156 | ELECTRONIC DEVICE FOR CONTROLLING THE ELECTRIC CHARGE OF A LOAD ELECTRICALLY SUPPLIED BY A BATTERY PACK AND SYSTEM FOR MOVING AN ELECTRIC OR HYBRID TRACTION VEHICLE USING THE DEVICE | 06-02-2016 |
20160156212 | BATTERY CONTROL CIRCUIT AND ELECTRONIC DEVICE | 06-02-2016 |
20160159243 | APPARATUS AND METHOD FOR DISCHARGING BATTERY - The present invention relates to a battery discharging apparatus and a method thereof of a battery management system and an exemplary embodiment of the present invention provides a battery discharging apparatus, including: a battery module including a plurality of battery cells; a discharging element which is connected to the battery cells through switches to discharge a voltage of the battery cells; a detecting unit which detects an abnormal state of a vehicle; and a control unit which is connected to the battery module to monitor a charged/discharged status of the battery cells of the battery module and controls the switches to balance the battery cells, in which when the control unit receives a vehicle abnormal state signal from the detecting unit, the control unit controls the switches to be turned on/off at a predetermined duty ratio to discharge the battery cell. | 06-09-2016 |
20160167540 | Current Sensor for a Vehicle | 06-16-2016 |
20160172879 | MONITORING A BATTERY IN A PORTABLE ELECTRONIC DEVICE | 06-16-2016 |
20160181845 | METHOD AND APPARATUS FOR BATTERY MANAGEMENT WITH THERMAL CONTROL | 06-23-2016 |
20160190833 | SYSTEMS AND METHODS FOR MANAGEMENT AND MONITORING OF ENERGY STORAGE AND DISTRIBUTION - A plurality of battery packs is provided in communication with an energy monitoring and control system. Each battery pack includes a plurality of battery cells that collectively dictate the capabilities of the battery pack. The energy monitoring and control system determines a plurality of pack charging or pack discharging parameters for each battery pack that, when performed, achieve one or more performance metrics at a user level (e.g., performance metrics of each battery pack within a system of multiple battery packs). The battery pack further determines a plurality of cell charging or cell discharging parameters for each battery cell based upon the determined plurality of pack charging or pack discharging parameters for each battery cell that, when performed, achieve one or more performance metrics at a battery level (e.g., performance metrics of different cells of each battery pack). | 06-30-2016 |
20160190835 | SECONDARY BATTERY PROTECTION CIRCUIT, SECONDARY BATTERY PROTECTION DEVICE, BATTERY PACK AND METHOD OF WRITING DATA - A secondary battery protection circuit for protecting a secondary battery including: a power supply terminal; a protection operation circuit configured to monitor a state of the secondary battery through the power supply terminal to generate a signal for turning on/off conduction of a current path between the secondary battery and a load according to a protection state determined by the monitored state of the secondary battery; a nonvolatile memory in which data is written by a writing voltage being provided at the power supply terminal, an operation of the secondary battery protection circuit being controlled by the data; a voltage generation circuit configured to generate a provision voltage which is provided to a low withstand voltage circuit; and a control circuit configured to enable the nonvolatile memory to store the data therein in accordance with the protection state upon an input voltage being greater than a determination threshold voltage. | 06-30-2016 |
20160200216 | METHODS, APPARATUS, AND SYSTEMS FOR PREVENTING OVER-TEMPERATURE BATTERY OPERATION | 07-14-2016 |
20160201634 | BATTERY PACK | 07-14-2016 |
20160204633 | CONTROL SYSTEM | 07-14-2016 |
20160375790 | INTERNAL RESISTANCE ESTIMATION METHOD FOR SECONDARY BATTERY, OUTPUT CONTROL METHOD FOR SECONDARY BATTERY, AND VEHICLE - An internal resistance estimation method for a secondary battery includes: acquiring an initial internal resistance value and temperature course information including a battery temperature and time information about time at which the battery temperature has been recorded; estimating an increased amount of the internal resistance value after a lapse of a predetermined time from the predetermined reference time on the basis of the temperature course information; estimating a reduced amount of the internal resistance value of the secondary battery resulting from a relative change between a range of use of a state of charge of the positive electrode and a range of use of a state of charge of the negative electrode on the basis of the temperature course information; and calculating an internal resistance variation in the lapse of the predetermined time on the basis of the increased amount and the reduced amount. | 12-29-2016 |
20160380315 | BATTERY SYSTEMS HAVING MULTIPLE INDEPENDENTLY CONTROLLED SETS OF BATTERY CELLS - Provided are battery systems having multiple independently controlled sets of battery cells and method of using these systems to power, for example, drive trains of electric and hybrid vehicles. A battery system includes two or more sets of battery cells. Each set can be discharged and/or charged independently of another set based on different factors, such as a current power demand, power output capabilities of each set, and other like factors. One or multiple sets can be used to deliver power at any given time. In some embodiments, one set may be used to charge another set in the same power system. The same or different types of battery cells may be used in different sets. For example, one set may have battery cells having a higher power output capability, while another set may have battery cells with a higher energy density. | 12-29-2016 |
20160380451 | OVERCURRENT PROTECTION CIRCUIT AND METHOD FOR BATTERY DISCHARGE - An overcurrent protection circuit and method for battery discharge. The overcurrent protection circuit includes a discharge switch tube; a discharge control module which is used for detecting the discharge current of batteries in real time, and judging whether an overcurrent is generated by way of comparing the detected discharge current with a preset limiting value, the discharge control module controlling switch-on of the discharge switch tube if no overcurrent is generated, the discharge control module controlling switch-off of the discharge switch tube if an overcurrent is generated, and the discharge control module locking the discharge switch tube in a switch-off state when the overcurrent has timed out; and a time delay module which is used for judging whether the overcurrent has timed out by way of comparing the time when the overcurrent is generated with a preset delay time. | 12-29-2016 |
20190148780 | CHARGE AND DISCHARGE CONTROL APPARATUS AND METHOD FOR AN ENERGY STORAGE THAT PROVIDES MULTIPLE SERVICES | 05-16-2019 |