Cooling blower control device and method for high-voltage battery
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24F-011/053
F24F-011/00
H01M-010/613
H01M-010/633
B60L-011/18
G05B-013/02
H01M-008/04
G06F-001/20
G06N-005/04
H01M-010/48
H01M-010/6563
출원번호
US-0677980
(2012-11-15)
등록번호
US-9528719
(2016-12-27)
우선권정보
KR-10-2012-0092208 (2012-08-23)
발명자
/ 주소
Kang, Min Kyeong
출원인 / 주소
Hyundai Motor Company
대리인 / 주소
Mintz Levin Cohn Ferris Glovsky and Popeo, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
10
초록▼
Disclosed is a cooling blower control device and method for a high-voltage battery, by which a cooling blower used in a high-voltage battery is efficiently controlled using fuzzy control. To this end, the cooling blower control device includes a temperature (or first) sensor configured to sense an i
Disclosed is a cooling blower control device and method for a high-voltage battery, by which a cooling blower used in a high-voltage battery is efficiently controlled using fuzzy control. To this end, the cooling blower control device includes a temperature (or first) sensor configured to sense an internal temperature of a battery pack assembly, and a current sensor configured to sense an output current of the battery pack assembly. A fuzzy controller performs fuzzy control by using outputs of the temperature sensor and the current sensor as inputs to output a cooling blower's duty ratio, and a pulse-width modulation (PWM) controller performs PWM control by using an output of the fuzzy controller as an input to output a control signal for driving the cooling blower.
대표청구항▼
1. A cooling blower control system for a high-voltage battery, the cooling blower control device comprising: a first sensor configured to sense an internal temperature of a battery pack assembly;a second sensor configured to sense an output current of the battery pack assembly;a first controller con
1. A cooling blower control system for a high-voltage battery, the cooling blower control device comprising: a first sensor configured to sense an internal temperature of a battery pack assembly;a second sensor configured to sense an output current of the battery pack assembly;a first controller configured to perform fuzzy control by using outputs of the temperature sensor and the current sensor as inputs to output a cooling blower's duty ratio; anda second controller configured to perform pulse-width modulation (PWM) control by using an output of a fuzzy controller as an input to output a control signal for driving the cooling blower,wherein the first controller is the fuzzy controller which comprises: a fuzzifier configured to receive the outputs of the first sensor and the second sensor as inputs and converts the inputs into values corresponding to membership degrees of respective input membership functions;a fuzzy reasoning unit configured to receive outputs of the fuzzifier as inputs, perform fuzzy reasoning by using a rule base, and reason outputs; anda defuzzifier configured to convert the cooling blower's duty ratio into a general constant by using a Mamdani reasoning method which uses membership degrees corresponding to the outputs of the fuzzy reasoning unit as rounding-down criteria for respective output membership functions. 2. The cooling blower system of claim 1 wherein the output membership functions are classified into an S-type membership function and a π-type membership function. 3. The cooling blower control system of claim 2, wherein the S-type membership function is expressed as Equation 1 and the π-type membership function is expressed as Equation 2: μA(x)=[0x≤a2[x-ac-a]a≤x≤b1-2[x-ac-a]b≤x≤c1c≤x](1)μA′(x)=[s(x,a′-b′,a′-b′2,a′)x≤a′1-s(x,a′,a′+b′2,a′+b′)x≥a′](2)wherein the S-type membership function has a curved form, and in the S-type membership function, a, b, and c are constants which satisfy μA(a)=0, μA(b)=0.5, and μA(c)=1, respectively, andthe π-type membership function has a curved form, and in the π-type membership function, a′ and b′ are constants which satisfy μ′A(a′−b′)=0, μ′A({a′−b′}/2)=0.5, μ′A(a′)=1, μ′A({a′+b′}/2)=0.5, and μ′A(a′+b′)=0, respectively, and s(x:α,β,γ) function of μ′A(x) is μA(x) which satisfies α=a, β=b, and γ=c. 4. The cooling blower control system of claim 1 wherein a membership function to which the internal temperature belongs is x and a membership function to which the discharge current belongs is y. 5. The method of claim 4, wherein the rule base is defined as follows: when x=warm, then drive the cooling blower is driven slower than normal,when x=hot, then drive the cooling blower is driven normally,when x=very hot, then drive the cooling blower is driven faster than normal,when x=warm & y=high, then drive the cooling blower is driven slower than normal,when x=warm & y=very high, then drive the cooling blower normally,when x=hot & y=high, then drive the cooling blower faster than normal,when x=hot & y=very high, then drive the cooling blower faster than normal, andwhen x=very hot & y=high, then drive the cooling blower is driven at the cooling blower's fastest setting. 6. A cooling blower control method for a high-voltage battery, the cooling blower control method comprising: sensing, a first sensor, an internal temperature of a battery pack assembly;sensing, by a second sensor, an output current of the battery pack assembly;performing, by a first controller, fuzzy control by using an internal temperature and an output current of the battery pack assembly as inputs to determine a cooling blower's duty ratio; anddriving, by a second controller, a cooling blower by performing pulse-width modulation (PWM) control which uses the cooling blower's duty ratio as an input,wherein the performing of the fuzzy control comprises: receiving, by the first controller, the internal temperature and the output current of the battery pack assembly as inputs and converting them into values corresponding to membership degrees of respective input membership functions a fuzzy outputs;receiving, by the first controller, the fuzzy outputs as inputs, performing fuzzy reasoning by using a rule base, and reasoning outputs therefrom; andconverting, by the first controller, the cooling blower's duty ratio into a general constant by using a Mamdani reasoning method which uses membership degrees corresponding to the outputs of the fuzzy reasoning step as rounding-down criteria for respective output membership functions. 7. The method of claim 6 wherein the input membership functions are classified into an S-type membership function and a π-type membership function. 8. The method of claim 7, wherein the S-type membership function is expressed as Equation 1 and the π-type membership function is expressed as Equation 2: μA(x)=[0x≤a2[x-ac-a]a≤x≤b1-2[x-ac-a]b≤x≤c1c≤x](1)μA′(x)=[s(x,a′-b′,a′-b′2,a′)x≤a′1-s(x,a′,a′+b′2,a′+b′)x≥a′](2)wherein the S-type membership function has a curved form, and in the S-type membership function, a, b, and c are constants which satisfy μA(a)=0, μA(b)=0.5, and μA(c)=1, respectively, andthen π-type membership function has a curved form, and in the π-type membership function, a′ and b′ are constants which satisfy μ′A(a′−b′)=0, μ′A({a′−b′}/2)=0.5, μ′A(a′)=1, μ′A({a′+b′}/2)=0.5, and μ′A(a′+b′)=0, respectively, and s(x:α,β,γ) function of μ′A(x) is μA(x) which satisfies α=a, β=b, and γ=c. 9. The method of claim 6 wherein a membership function to which the internal temperature belongs is x and a membership function to which the discharge current belongs is y. 10. The method of claim 9, wherein the rule base is defined as follows: when x=warm, then drive the cooling blower is driven slower than normal,when x=hot, then drive the cooling blower is driven normally,when x=very hot, then drive the cooling blower is driven faster than normal,when x=warm & y=high, then drive the cooling blower is driven slower than normal,when x=warm & y=very high, then drive the cooling blower normally,when x=hot & y=high, then drive the cooling blower faster than normal,when x=hot & y=very high, then drive the cooling blower faster than normal, andwhen x=very hot & y=high, then drive the cooling blower is driven at the cooling blower's fastest setting. 11. A non-transitory computer readable medium containing program instructions executed by a controller, the computer readable medium comprising: program instructions that perform fuzzy control by using an internal temperature and an output current of the battery pack assembly received from a plurality of sensors as inputs to determine a cooling blower's duty ratio;program instructions that drive a cooling blower by performing pulse-width modulation (PWM) control which uses the cooling blower's duty ratio as an input;program instructions that convert the internal temperature and the output current of the battery pack assembly received from the plurality of sensors into values corresponding to membership degrees of respective input membership functions as fuzzy outputs;program instructions that the fuzzy outputs, perform fuzzy reasoning by using a rule base, and reason outputs therefrom; andprogram instructions that convert the cooling blower's duty ratio into a general constant by using a Mamdani reasoning method which uses membership degrees corresponding to the outputs of the fuzzy reasoning step as rounding-down criteria for respective output membership functions.
Presti Matteo Lo (Misterbianco ITX) D\Angelo Giuseppe (Misterbianco ITX) Cucuccio Antonino (Catania ITX), Fuzzy control process for switching power supplies, and device for performing it.
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