SYSTEM FOR ESTIMATING INITIAL SOC OF LITHIUM BATTERY OF VEHICLE AND CONTROL METHOD THEREOF
원문보기
IPC분류정보
국가/구분
United States(US) Patent
공개
국제특허분류(IPC7판)
B60L-011/18
G01R-031/36
H02J-007/00
출원번호
15946755
(2018-04-06)
공개번호
20190184846
(2019-06-20)
우선권정보
KR-10-2017-0173180 (2017-12-15)
발명자
/ 주소
KANG, Seung Won
JEON, Jee Hwan
OH, Hyun Jong
PARK, Sung Jin
PARK, Min Gyu
출원인 / 주소
KANG, Seung Won
인용정보
피인용 횟수 :
0인용 특허 :
0
초록▼
A vehicle includes a vehicle battery; a vehicle sensor configured to detect a current, a voltage and a temperature of the vehicle battery; and an alternator configured to output a target voltage to the vehicle battery. A controller is configured to calculate state of charge (SOC) estimation based on
A vehicle includes a vehicle battery; a vehicle sensor configured to detect a current, a voltage and a temperature of the vehicle battery; and an alternator configured to output a target voltage to the vehicle battery. A controller is configured to calculate state of charge (SOC) estimation based on the current, voltage and temperature of the vehicle battery, calculate an initial SOC based on a direct current internal resistance (DCIR) map and apply the initial SOC to the SOC estimation, when an open circuit voltage (OCV) is maintained in a predetermined range after engine-off, and adjust an available SOC range based on a difference between an actual battery charge current amount, to which the initial SOC is applied, and the calculated SOC estimation.
대표청구항▼
1. A vehicle comprising: a vehicle battery;a vehicle sensor configured to detect a current, a voltage, and a temperature of the vehicle battery;an alternator configured to output a target voltage to the vehicle battery,wherein the a controller configured to: calculate state of charge (SOC) estimatio
1. A vehicle comprising: a vehicle battery;a vehicle sensor configured to detect a current, a voltage, and a temperature of the vehicle battery;an alternator configured to output a target voltage to the vehicle battery,wherein the a controller configured to: calculate state of charge (SOC) estimation based on the current, voltage, and temperature of the vehicle battery;calculate an initial SOC based on a direct current internal resistance (DCIR) map and apply the initial SOC to the SOC estimation, when an open circuit voltage (OCV) is maintained in a predetermined range after engine off; andadjust an available SOC range based on a difference between an actual battery charge current amount, to which the initial SOC is applied, and the calculated SOC estimation. 2. The vehicle of claim 1, wherein when the OCV is maintained in the predetermined range after a stabilization time of the vehicle battery elapses since the engine-off, the controller sets the initial SOC as a fault value and performs a calculation algorithm of the initial SOC through the DCIR map. 3. The vehicle of claim 2, wherein when the initial SOC is the fault value after an ignition is turned on, the controller sets a charging voltage of the vehicle battery as a first voltage through the alternator, andwhen the current is discharged from the vehicle battery, the controller sets the initial SOC based on the DCIR map. 4. The vehicle of claim 3, wherein after the initial SOC is set, the controller sets the charging voltage of the vehicle battery as a second voltage through output voltage control of the alternator, and starts a current integration, andwhen an SOC of the vehicle battery reaches a charging reference value, the controller stops the current integration and sets the SOC estimation as a present current integration amount. 5. The vehicle of claim 4, wherein the controller determines whether the SOC of the vehicle battery reaches the charging reference value or not based on the charging voltage, the current, and an engine revolutions per minute (RPM) of the vehicle battery. 6. The vehicle of claim 4, wherein the controller determines whether endurance reduction of the vehicle battery occurs or not based on the actual battery charge current amount after the initial SOC is set, the initial SOC, and the SOC, and adjusts the available SOC range when it is determined that the endurance reduction of the vehicle battery occurs. 7. The vehicle of claim 6, wherein the controller calculates the actual battery charge current amount of the vehicle battery after setting the initial SOC based on the following equation: SOC∫IB=(∫IBl/Ah)×100,wherein SOC∫IB is the actual charge current amount of the vehicle battery, ∫IB is a total current integration, and Ah is a battery capacity. 8. The vehicle of claim 1, wherein the controller adjusts the available SOC range by aggregating a minimum SOC of the available SOC range, and the difference between the actual charge current amount of the vehicle battery to which the initial SOC is applied and the calculated SOC estimation. 9. The vehicle of claim 1, wherein the vehicle battery is a lithium battery. 10. A control method of a vehicle comprising steps of: detecting, by a vehicle sensor, a current, a voltage, and a temperature of a vehicle battery;receiving, by a controller, an engine-off signal;setting, by the controller, an initial state of charge (SOC) as a fault value, when an open circuit voltage (OCV) is maintained in a predetermined range in a SOC-OCV map;calculating, by the controller, the initial SOC based on a direct current internal resistance (DCIR) map;calculating, by the controller, SOC estimation by applying the initial SOC; andsetting, by the controller, a target voltage by using the SOC estimation and outputting the target voltage to the vehicle battery. 11. The control method of claim 10, further comprising: before the step of setting the initial SOC as the fault value after receiving the engine-off signal, identifying whether a stabilization time of the vehicle battery elapses after the engine-off,wherein when the stabilization time of the vehicle battery elapses, identifying whether the OCV is in a predetermined range. 12. The control method of claim 10, wherein the step of calculating the initial SOC comprises:when the initial SOC is the fault value after an ignition is turned on, charging the vehicle battery by setting a charging voltage of the vehicle battery as a first voltage through an alternator;identifying whether a discharge current of the vehicle battery is less than 0 (zero);when the discharge current is less than 0 (zero), identifying whether a discharge current variation of the vehicle battery exceeds a retention time; andwhen the discharge current variation of the vehicle battery exceeds the retention time, calculating DCIR and estimating the initial SOC. 13. The control method of claim 10, wherein the vehicle battery is a lithium battery. 14. A control method of a vehicle comprising steps of: setting, by a controller, an initial SOC based on a direct current internal resistance (DCIR) map;starting, by the controller, a current integration by setting a charging voltage of a vehicle battery as a second voltage through output voltage control of an alternator;when an SOC of the vehicle battery reaches a charging reference value, stopping, by the controller, the current integration;setting, by the controller, SOC estimation as a present current integration amount;determining, by the controller, whether endurance reduction of the vehicle battery occurs or not based on an actual charge current amount of the vehicle battery, the initial SOC, and the SOC estimation; andadjusting, by the controller, an available SOC range when the endurance reduction of the vehicle battery occurs. 15. The control method of claim 14, wherein whether the SOC of the vehicle battery reaches the charging reference value or not is determined based on the charging voltage, current and engine RPM of the vehicle battery. 16. The control method of claim 14, wherein the actual charge current amount of the vehicle battery is calculated based on the following equation, SOC∫IB=(∫IBl/Ah)×100,wherein SOC∫IB is the actual charge current amount of the vehicle battery, ∫IB is a total current integration, and Ah is a battery capacity. 17. The control method of claim 14, wherein the step of adjusting the available SOC range is performed by aggregating a minimum SOC of the available SOC range, and a difference between the actual charge current amount of the vehicle battery to which the initial SOC is applied and the calculated charge amount of the battery.
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