Patents by Inventor Yuan Dao
Yuan Dao has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10367239Abstract: An integral battery temperature control system monitors and heats a battery to enable operation in cold environments and utilizes a heating device coupled to one of the terminals of the battery to heat the terminal and thereby heat the electrode coupled thereto. The heated electrode is within the battery housing and internally heats the battery. A temperature sensor measures the temperature of the opposing terminal and a controller will terminate heating when the measured temperature of the opposing terminal rises above an upper threshold temperature value. The heating device be coupled with or be part of a discharge circuit, wherein electrical current from the battery is used to heat the battery. A discharge circuit is part of a battery unit monitoring module that balances the voltage of a plurality of battery units. The heating device may include a resistor or a transistor of the discharge circuit.Type: GrantFiled: June 9, 2017Date of Patent: July 30, 2019Assignee: Elite Power Holdings LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 10358043Abstract: An automatic rechargeable battery control module for a vehicle, such as a golf cart incorporates an automatic battery control system that automatically switches from charge to discharge modes with a single relay, thereby preventing the need to manually reset a relay switch due to an over or under voltage situation. An automatic battery control circuit is coupled with a battery management system and a relay contactor is opened and closed by a signal from the battery management system. The battery management system monitors a state of charge of the battery unit as well as current flow to and from a battery unit. The automatic rechargeable battery control module may have a state of charge output that is connected with a state of charge indicator to inform a driver of an approximate driving range or time remaining.Type: GrantFiled: September 12, 2017Date of Patent: July 23, 2019Assignee: Elite Power Solutions, LLCInventors: Yuan Dao, William Jeffrey Schlanger, Jennifer Dao
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Publication number: 20180354375Abstract: An automatic rechargeable battery control module for a vehicle, such as a golf cart incorporates an automatic battery control system that automatically switches from charge to discharge modes with a single relay, thereby preventing the need to manually reset a relay switch due to an over or under voltage situation. An automatic battery control circuit is coupled with a battery management system and a relay contactor is opened and closed by a signal from the battery management system. The battery management system monitors a state of charge of the battery unit as well as current flow to and from a battery unit. The automatic rechargeable battery control module may have a state of charge output that is connected with a state of charge indicator to inform a driver of an approximate driving range or time remaining.Type: ApplicationFiled: September 12, 2017Publication date: December 13, 2018Inventors: Yuan Dao, William Jeffrey Schlanger, Jennifer Dao
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Patent number: 10116149Abstract: An automatic battery control system automatically switches from charge to discharge modes with a single relay, thereby preventing the need to manually reset a relay switch due to an over or under voltage situation. An automatic battery control circuit is coupled with a battery management system and a relay contactor is opened and closed by a signal from the battery management system. The battery management system monitors a state of charge of the battery unit as well as current flow to and from a battery unit. A parallel resistor is configured across the input and output sides of the single relay contactor and the voltage drop across the resistor indicates a connection to either a charging power source or a load. The connection is communicated to the battery management system by an optocoupler and if the battery unit has an acceptable state of charge, the relay contactor is closed.Type: GrantFiled: July 24, 2017Date of Patent: October 30, 2018Assignee: Elite Power Solutions, LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 10084334Abstract: An automatic rechargeable battery control module incorporates an automatic battery control system that automatically switches from charge to discharge modes with a single relay, thereby preventing the need to manually reset a relay switch due to an over or under voltage situation. The module requires on a single power connection line connected with a single power connector on the module. Both input power to charge the battery and output power flow in and out of the single power connector and through the single power connection line. An automatic battery control circuit is coupled with a battery management system and a relay contactor is opened and closed by a signal from the battery management system. The battery management system monitors a state of charge of the battery unit as well as current flow to and from a battery unit.Type: GrantFiled: September 12, 2017Date of Patent: September 25, 2018Assignee: Elite Power Solutions, LLCInventors: Yuan Dao, William Jeffrey Schlanger, Jennifer Dao
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Patent number: 9929571Abstract: An integrated battery control system for energy storage incorporates a power control system to reliably provide power to a load and protects lithium ion batteries from over-charging and over-discharging. One or more power sources, such as renewable power sources, such as solar or wind power generators, or a generator, may be coupled with the integrated battery control system to provide power for charging the battery pack and/or for supplying power to said load. A portion of the power from a power source may be used to charge the battery pack and a portion may be provided to a load. A control circuit and one or more microprocessors may control the components of the system to provide power in an efficient manner. Power to and from the battery may run through an inverter and a control system may open and close switches to control flow of power in the system.Type: GrantFiled: March 29, 2016Date of Patent: March 27, 2018Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 9595847Abstract: An uninterrupted power supply system incorporates a plurality of lithium batteries as a back-up power supply to an AC power supply. In the event that there is an interruption in the AC power supply, a power output switch is automatically activated by a power control system to draw power from a lithium battery pack. In an embodiment, a battery pack is monitored by a battery management system that is coupled to battery monitoring modules couple to each battery. The battery management system may be configured to monitor the voltage and/or temperature of each battery. In another embodiment, an uninterrupted power supply system comprises a battery unit balancing system that maintains each battery within a battery unit below a threshold voltage value. A charging circuit and discharging circuit are used to maintain the batteries in a ready state of charge when not being used for the output power.Type: GrantFiled: March 25, 2014Date of Patent: March 14, 2017Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 9553460Abstract: A wireless battery management system includes a computing device and first and second battery unit monitoring modules. The computing device includes an output data request port and an input data port. In response to a data request from the output data request port of the computing device, a first battery unit monitoring module transmits data of the first battery unit to the input data port of the computing device wirelessly and may transmits a data request to the second battery unit monitoring module. In response, the second battery unit monitoring module may transmit data of the second battery unit to the input data port of the computing device wirelessly or transmit data of the second battery to the first module for wireless transmission. In addition, each battery unit monitoring module may communicate wirelessly and independently with the computing device.Type: GrantFiled: March 13, 2015Date of Patent: January 24, 2017Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 9371067Abstract: An integrated battery control system incorporates a battery management system and a power control system to reliably and safely provide power to vehicles and other mobile devices. The integrated power control system incorporates safety features to protect the batteries from dropping below a threshold voltage or being overcharged, and from operating the vehicle when it is coupled with an AC power supply. An integrated power control system may be contained in a control enclosure having a computing device, battery power input, an AC power input, a power output switch, a power output, a key-switch interface and a shunt to measure current flow. The power control system regulates electrical power delivery to a drive motor and a pre-charge resistor as a function of the battery state of charge. When a battery unit is below a threshold value, power delivery is disabled to the drive motor and a pre-charge resistor.Type: GrantFiled: March 20, 2015Date of Patent: June 21, 2016Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Publication number: 20150191162Abstract: An integrated battery control system incorporates a battery management system and a power control system to reliably and safely provide power to vehicles and other mobile devices. The integrated power control system incorporates safety features to protect the batteries from dropping below a threshold voltage or being overcharged, and from operating the vehicle when it is coupled with an AC power supply. An integrated power control system may be contained in a control enclosure having a computing device, battery power input, an AC power input, a power output switch, a power output, a key-switch interface and a shunt to measure current flow. The power control system regulates electrical power delivery to a drive motor and a pre-charge resistor as a function of the battery state of charge. When a battery unit is below a threshold value, power delivery is disabled to the drive motor and a pre-charge resistor.Type: ApplicationFiled: March 20, 2015Publication date: July 9, 2015Inventors: Yuan Dao, William Jeffrey Schlanger
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Publication number: 20150185291Abstract: A switched capacitor battery monitoring system enables reliable measurement of the battery voltages of a plurality of batteries in a battery unit with a single microprocessor and or analog-to-digital converter. A battery unit having a plurality of batteries may have a switched capacitor battery monitor configured on each battery. Each switched capacitor battery monitor utilizes a capacitor that is charged to substantially the same voltage level as the battery it is attached to. The capacitor is isolated from the battery by a switch and the voltage level of the capacitor is provided to an analog-to-digital convened to measure the voltage level of said battery. This method enables the individual battery voltage to be measured and therefore does not measure the cumulative voltage of two or more batteries connected in series. This method maintains the measured voltage below a voltage threshold of the analog-to-digital converter and microprocessor.Type: ApplicationFiled: March 13, 2015Publication date: July 2, 2015Inventors: Yuan Dao, William Jeffrey Schlanger
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Publication number: 20150188334Abstract: A wireless battery management system includes a computing device and first and second battery unit monitoring modules. The computing device includes an output data request port and an input data port. In response to a data request from the output data request port of the computing device, a first battery unit monitoring module transmits data of the first battery unit to the input data port of the computing device wirelessly and may transmits a data request to the second battery unit monitoring module. In response, the second battery unit monitoring module may transmit data of the second battery unit to the input data port of the computing device wirelessly or transmit data of the second battery to the first module for wireless transmission. In addition, each battery unit monitoring module may communicate wirelessly and independently with the computing device.Type: ApplicationFiled: March 13, 2015Publication date: July 2, 2015Inventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 9024639Abstract: The present application describes, among other things, a ground fault detection system. The system includes an optocoupler, a current sink, and a first voltage source connected in series. The first voltage source can connect to a negative terminal of a battery unit. Upon connection between a positive terminal of the battery unit and a first node at a ground zero reference level, current can flow through the optocoupler and the current sink to cause the optocoupler to output a ground fault detection signal.Type: GrantFiled: March 31, 2011Date of Patent: May 5, 2015Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Schlanger
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Patent number: 9007023Abstract: In one aspect, the present disclosure describes an apparatus that may include a battery unit including one or more lithium-ion battery cells, and a charging unit configured with a first automatic shut-off, where the automatic shut-off is responsive to detection of an upper threshold voltage level of the battery unit. The apparatus may include an inverter configured with a second automatic shut-off, where the second automatic shut-off is responsive to detection of a lower threshold voltage level of the battery unit, and an input connection functionally connected to the charging unit. The apparatus may be configured to isolate the battery unit from the inverter responsive to detecting both (a) the input connection is disconnected from an input voltage source, and (b) the inverter is shut off.Type: GrantFiled: March 14, 2012Date of Patent: April 14, 2015Assignee: Elite Power Solutions LLCInventor: Yuan Dao
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Publication number: 20140285022Abstract: An uninterrupted power supply system incorporates a plurality of lithium batteries as a back-up power supply to an AC power supply. In the event that there is an interruption in the AC power supply, a power output switch is automatically activated by a power control system to draw power from a lithium battery pack. In an embodiment, a battery pack is monitored by a battery management system that is coupled to battery monitoring modules couple to each battery. The battery management system may be configured to monitor the voltage and/or temperature of each battery. In another embodiment, an uninterrupted power supply system comprises a battery unit balancing system that maintains each battery within a battery unit below a threshold voltage value. A charging circuit and discharging circuit are used to maintain the batteries in a ready state of charge when not being used for the output power.Type: ApplicationFiled: March 25, 2014Publication date: September 25, 2014Applicant: Elite Power Solution LLCInventors: Yuan Dao, William Jeffrey Schlanger
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Patent number: 8723482Abstract: A battery unit balancing system comprises a discharging circuit and means for connecting the discharging circuit to a battery unit. The discharging circuit is configured such that it is automatically activated, when a voltage of the battery unit exceeds a predetermined threshold, to draw a constant discharging current from the battery unit until the voltage of the battery unit falls below the predetermined threshold.Type: GrantFiled: November 4, 2010Date of Patent: May 13, 2014Assignee: Elite Power Solutions LLCInventors: Yuan Dao, William Schlanger
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Publication number: 20130241488Abstract: In one aspect, the present disclosure describes an apparatus that may include a battery unit including one or more lithium-ion battery cells, and a charging unit configured with a first automatic shut-off, where the automatic shut-off is responsive to detection of an upper threshold voltage level of the battery unit. The apparatus may include an inverter configured with a second automatic shut-off, where the second automatic shut-off is responsive to detection of a lower threshold voltage level of the battery unit, and an input connection functionally connected to the charging unit. The apparatus may be configured to isolate the battery unit from the inverter responsive to detecting both (a) the input connection is disconnected from an input voltage source, and (b) the inverter is shut off.Type: ApplicationFiled: March 14, 2012Publication date: September 19, 2013Applicant: Elite Power Solutions, LLCInventor: Yuan Dao
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Publication number: 20120249334Abstract: The present application describes, among other things, a battery management system. The battery management system includes a computing device and first and second battery unit monitoring modules. The computing device includes an output data request port and an input data port. Each battery unit monitoring module is connected in parallel to the input data port of the computing device. In response to a data request from the output data request port of the computing device, the first battery unit monitoring module transmits data of the first battery unit to the input data port of the computing device, and transmits a data request to the second battery unit monitoring module. In response to the data request from the first battery unit monitoring module, the second battery unit monitoring module transmits data of the second battery unit to the input data port of the computing device.Type: ApplicationFiled: March 31, 2011Publication date: October 4, 2012Applicant: Elite Power Solutions, LLCInventors: Yuan Dao, William Schlanger
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Publication number: 20120249154Abstract: The present application describes, among other things, a ground fault detection system. The system includes an optocoupler, a current sink, and a first voltage source connected in series. The first voltage source can connect to a negative terminal of a battery unit. Upon connection between a positive terminal of the battery unit and a first node at a ground zero reference level, current can flow through the optocoupler and the current sink to cause the optocoupler to output a ground fault detection signal.Type: ApplicationFiled: March 31, 2011Publication date: October 4, 2012Applicant: Elite Power Solutions, LLCInventors: Yuan Dao, William Schlanger
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Publication number: 20110074355Abstract: A battery unit balancing system comprises a discharging circuit and means for connecting the discharging circuit to a battery unit. The discharging circuit is configured such that it is automatically activated, when a voltage of the battery unit exceeds a predetermined threshold, to draw a constant discharging current from the battery unit until the voltage of the battery unit falls below the predetermined threshold.Type: ApplicationFiled: November 4, 2010Publication date: March 31, 2011Applicant: Elite Power Solutions, LLCInventors: Yuan Dao, William Schlanger