Class / Patent application number | Description | Number of patent applications / Date published |
320124000 | SEQUENTIAL CHARGING OR DISCHARGING OF BATTERIES OR CELLS | 12 |
20080246436 | Energy Management System of a Transport Device - An energy management system for a transport device, in particular for a motor vehicle running on fuel and electricity, includes an energy source, an intermediate energy store and an electric energy consumer, in particular an electric drive. Control and/or regulation of the provision of energy, which is dependent on information relating to future energy requirements and supplied by means of at least one part of the transport device can be carried out by the energy management system by means of the intermediate energy store and/or the energy requirements. | 10-09-2008 |
20090072788 | Method for Managing a Bank of Rechargeable Batteries Using the Coup De Fouet Effect on Charging - The batteries of at least one battery subset are partially and preferably simultaneously charged; during this partial charging, electrical parameters representative of a coup de fouet effect on charging are measured to enable the extent of discharge of each of the batteries of the subset to be analyzed; the batteries are then charged sequentially with an order of priority that depends on the extent of discharge of the different batteries; priority is preferably given to charging the most extensively discharged batteries. | 03-19-2009 |
20090102424 | HIGH RELIABLE SMART PARALLEL ENERGY STORAGE TANK CHARGE/DISCHARGE MANAGEMENT SYSTEM - The high reliable smart parallel energy storage tank charge/discharge system is composed of one or multiple identical Smart Energy Storage Unit. And each Smart Energy Storage Unit comprises an Energy Storage Management Module, an Energy Storage Device, a Sensor Switch Device and a Smart Identifier and Transmission Interface. All the historical records and real time information for charge/discharge condition of Smart Energy Storage Unit can upload to external connected equipment via the External Equipment Interface. To operate in coordination with an External Energy (Electric Power) Source, under any one Smart Energy Storage Unit served as the controller, this management system can carry out an effective charge/discharge management. When the Smart Energy Storage Unit which is in charged of the charge/discharge managing failed and cannot operate, the other normally operated Smart Energy Storage Units can automatically detect the situation and replace the role of charge/discharge management immediately so as to accomplish a high reliable charge/discharge management system. | 04-23-2009 |
20090295330 | DC POWER CONTROL TO MAXIMIZE BATTERY CHARGING TIME - Systems and methods are provided for managing the batteries and the power source as a single combined output to power the load, allowing the system to use power source with reduced maximum power output, reducing system cost and complexity. Furthermore, the switch matrix controller efficiently and dynamically manages the internal power transfer to minimize the charging/discharging cycle of the batteries while ensuring that the power source and the batteries meet changing load power demand. Finally, maximizing charging time and having independent control of each battery increase power efficiency, prolong the operational life of the battery, and increase overall system life. | 12-03-2009 |
20090309546 | System and Method for Charging Batteries - A method for charging a battery including the steps of providing a battery charger, connecting the battery to the battery charger, supplying a charging current to the battery from the battery charger to increase a charge of the battery, and ceasing to supply the charging current to the battery once the charge of the battery has reached a threshold value, wherein said threshold charge value is selected to correspond with a percentage of a full charge of said battery that occurs prior to substantial gassing of said battery. | 12-17-2009 |
20100213899 | MULTIPLE FUNCTION CURRENT-SHARING CHARGING SYSTEM AND METHOD - Multiple function current-sharing charging systems and methods are provided. Where first and second rechargeable power supplies are connected to a charging system, a first charging current is provided to the first rechargeable power supply and a second charging current is provided to the second rechargeable power supply. Upon detection of a predetermined charge level of one of the rechargeable power supplies, a third charging current is provided to the first rechargeable power supply and a fourth charging current is provided to the second rechargeable power supply. | 08-26-2010 |
20130293199 | CHARGING MANAGEMENT - A charging method and system. The method includes detecting and monitoring by a computer processor, a frequency signal associated with an input voltage signal used for powering power consumption devices at a first specified location. The computer processor generates frequency level data associated with the monitoring. The computer processor receives a request to enable a charging process for charging a rechargeable power source and power source data associated with the rechargeable power source and a user. In response to the request, the computer processor enables a customized charging process associated with charging the rechargeable power source based on the frequency level data and/or the power source data. | 11-07-2013 |
20130307481 | Technique for Rapid Battery Capacity Testing - A method of rapidly testing the discharge capacity of a battery comprises discharging the battery at a first discharge rate until a first cutoff potential is reached, relaxing the battery during a first period, discharging the battery at a lower discharge rate until a second cutoff potential is reached and relaxing the battery during a second, longer period. The process is repeated with successively lower discharge rates and successively longer relaxation periods until the battery is substantially exhausted. The cumulative value of all of the discharges is taken as a tested capacity of the battery. Optionally, cleanup charges can be sent to the battery during the relaxation periods and a low-frequency, low-amplitude current can be supplied throughout testing in order to shorten testing time. | 11-21-2013 |
20150295433 | CHARGING DEVICE AND CHARGING METHOD - A charging device of an aspect of the present disclosure includes couplers and control circuitry that controls a charging operation. If the number of one or more secondary battery-equipped devices to be charged is smaller than a set number, the control circuitry charges each of the one or more secondary battery-equipped devices to be charged with a continuous current. If the number is greater than or equal to the set number, the control circuitry intermittently repeats charging of each of the one or more secondary battery-equipped devices to be charged with a stopping interval placed between charging operations while selectively and sequentially switching the one or more secondary battery-equipped devices to which a charging current is supplied at the same time, and the control circuitry increases the charging current and shortens an application duration of the charging current per charging with an increase in the number of secondary battery-equipped devices to be charged. | 10-15-2015 |
20160181828 | DEVICE AND METHOD FOR CONTROLLING BATTERY | 06-23-2016 |
20190143838 | POWER SUPPLY CONTROL SYSTEM AND POWER SUPPLY CONTROL METHOD | 05-16-2019 |
20220140411 | Battery Charger with Battery State Detection - A battery charger and method is disclosed for detecting when a battery has a low state of health while simultaneously charging or maintaining the battery. A battery charger includes a processor; a non-transitory memory device; a power management device to receive an input power and to output a charging current; a pair of electrical conductors to electrically couple with a battery, and a display electrically coupled to the processor. The display being configured to indicate a bad battery indicator when the battery has a low state of health and whether the battery is good to start. | 05-05-2022 |