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公开(公告)号:KR1020120017983A
公开(公告)日:2012-02-29
申请号:KR1020100080990
申请日:2010-08-20
Applicant: 현대자동차주식회사
CPC classification number: H05K7/20927 , B60K2001/003 , B60Y2400/61 , H01G2/08 , H01G4/38 , H01L23/473 , H01L25/165 , H01L2924/0002 , Y02T10/7022 , H01L2924/00
Abstract: PURPOSE: A hybrid electric vehicle heating component cooling structure body is provided to maximize the cooling efficiency of a film capacitor comprising a motor driving system. CONSTITUTION: A hybrid electric vehicle heating component cooling structure body(100) comprises a heatproof unit(30). All different heating components are installed in the heatproof unit. The heatproof unit is provided to cool all different heating components in a water cooling method through cooling medium such as cooling water. The heatproof is formed a flow path(31) and heat transfer channels(HR1,HR2). The cooling medium flows inside the flow path. The heat transfer channel comprises a power module(11), an inductor(12), and film capacitor(13).
Abstract translation: 目的:提供一种混合电动汽车加热部件冷却结构体,以使包括电机驱动系统的薄膜电容器的冷却效率最大化。 构成:混合电动车辆加热部件冷却结构体(100)包括耐热单元(30)。 所有不同的加热部件均安装在耐热单元中。 提供耐热单元以通过诸如冷却水的冷却介质以水冷方式冷却所有不同的加热部件。 隔热层形成有流路(31)和传热通道(HR1,HR2)。 冷却介质在流路内流动。 传热通道包括功率模块(11),电感器(12)和薄膜电容器(13)。
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公开(公告)号:KR100877854B1
公开(公告)日:2009-01-13
申请号:KR1020070029783
申请日:2007-03-27
CPC classification number: Y02T10/7005 , Y02T10/7077
Abstract: 본 발명은 정상 주행시와 메인릴레이가 오프된 비상 주행시 사용되는 변속맵을 이원화하여 비상시에는 정상 주행 차속 대비 엔진 회전수를 높이고 구동모터로부터 발생하는 역기전압을 입력 전력으로 사용하여 12V 배터리를 충전하는 하이브리드 차량의 전력변환장치 비상구동방법에 관한 것으로,
종래에는 고전압을 이어주는 메인 릴레이가 오프되면 전력변환장치가 정상적인 고전압 입력을 받지 못해 동작을 하지 않게 되고, 그에 따라 12V 계열의 전장부하는 순수하게 12V 배터리에서 전력을 소비하게 되므로 전장부하의 경중에 따라 방전시간이 다르기는 하겠지만 결국 배터리가 방전이 되어 정상적인 차량 운행에 지장을 주게 되고 운전자의 안전에도 위협이 따르게 되는 문제가 있었던 바,
하이브리드 차량의 정상 주행시와 메인릴레이가 오프된 비상 주행시 사용되는 변속맵을 이원화하여 비상시에는 정상 주행 차속 대비 엔진 회전수(rpm)를 높이고 구동모터로부터 발생하는 역기전력을 입력 전력으로 사용하여 12V 배터리를 충전하고 전장부하에 전력을 공급하는 것을 특징으로 하는 본 발명에 의하면 메인 릴레이가 오프되는 비상시에도 12V 전원을 사용하는 각종 차량 제어기와 단품의 안정적인 동작을 보증할 수 있어 안전작동(fail-safety) 측면에서 차량의 성능을 향상시킬 수 있게 되고, 메인 릴레이 오프로 인해 고전압이 제대로 인가되지 않은 비상시에도 12V 배터리를 충전함으로써 차량의 안전운행 뿐만 아니라 배터리의 방전을 막고 스트레스를 줄여 수명을 연장시키므로 부품 교환비를 절약할 수 있게 되며, 림프홈 모드시에도 12V 배터리의 사용시간을 늘여 충분히 정비소까지 갈 수 있는 시간을 확보할 수 있어 상품성 향상에 크게 기여할 수 있게 되는 등의 효과를 얻을 수 있게 된다.
하이브리드 차량, 변속맵, 전력변환장치, 모터, 고전압 배터리, 역기전력-
公开(公告)号:KR1020120136828A
公开(公告)日:2012-12-20
申请号:KR1020110056003
申请日:2011-06-10
Applicant: 현대자동차주식회사
IPC: F02N11/12 , B60R16/033 , B60W20/00
Abstract: PURPOSE: A vehicle starting apparatus and a control method thereof are provided for drivers to safely and conveniently use vehicles by starting the vehicles with a small battery. CONSTITUTION: A vehicle starting apparatus comprises a vext, a first parallel connection unit, a second regulator(9), and a second parallel connection unit. The first parallel connection unit connects the vext to a B+ terminal and IG terminal in parallel with a first regulator(5). The second regulator is formed to inform a first CPU(7) of a battery management system that the power is applied to the vext. The second parallel connection unit connects the vext to the B+ terminal and IC terminal in parallel with a third regulator. [Reference numerals] (17) High voltage battery; (21) Auxiliary battery(12V); (5,9,13) Regulator; (AA) Vehicle communication; (BB) Vehicle load
Abstract translation: 目的:提供一种车辆启动装置及其控制方法,用于驾驶员通过用小电池启动车辆来安全地和方便地使用车辆。 构成:车辆启动装置包括一个vext,一个第一并联单元,一个第二调节器(9)和一个第二并联单元。 第一并联单元将vext与第一调节器(5)并联连接到B +端子和IG端子。 第二调节器被形成为向电池管理系统的第一CPU(7)通知电力被施加到vext。 第二并联单元将vext与第三调节器并联连接到B +端子和IC端子。 (附图标记)(17)高压电池; (21)辅助电池(12V); (5,9,13)调节器; (AA)车辆通讯; (BB)车辆载荷
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公开(公告)号:KR101209686B1
公开(公告)日:2012-12-10
申请号:KR1020100122656
申请日:2010-12-03
CPC classification number: H05K7/20254 , H01L23/473 , H01L2924/0002 , H01L2924/00
Abstract: 본발명은하이브리드자동차나전기자동차에설치되어있는인버터나 LDC 등과같은전기부품들을효과적으로냉각시켜주는장치에관한것이다. 본발명은하이브리드용전기장치1의상부유로와전기장치2의하부유로가쿨링세퍼레이터에의해분리되도록하는방식을채택하여전기장치1과전기장치2의냉각유로를분리운용하는새로운형태의냉각시스템을구현함으로써, 전기장치1과전기장치2의균일한냉각성능을보장할수 있는동시에전체적으로우수한방열성능을확보할수 있는하이브리드및 전기자동차용전기장치의냉각장치를제공한다.
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公开(公告)号:KR1020120061366A
公开(公告)日:2012-06-13
申请号:KR1020100122656
申请日:2010-12-03
CPC classification number: H05K7/20254 , H01L23/473 , H01L2924/0002 , H01L2924/00
Abstract: PURPOSE: A cooling device for electric parts in hybrid and electric vehicles is provided to reduce thermal affects between two electric parts by using separate cooling water for each electric part. CONSTITUTION: An upper first electric part(10) and a lower second electric part(11) are stacked. Upper and lower cooling water paths are formed between the first and second electric parts. The cooling water paths are formed in a structure in which an inlet(13) on one side is connected to an outlet on the other side. A plate-type cooling separator(15) is installed in the boundary between the cooling water paths formed on the underside of the first electric part and the top of the second electric part. Cooling water drawn into the inlet is divided into the upper and lower cooling water paths, and the divided cooling water is discharged to the outlet.
Abstract translation: 目的:提供混合动力和电动车辆电气部件的冷却装置,通过为每个电气部件使用单独的冷却水来减少两个电气部件之间的热影响。 构成:堆叠上部第一电气部件(10)和下部第二电气部件(11)。 在第一和第二电气部件之间形成有上下冷却水路径。 冷却水路径形成为一侧的入口(13)与另一侧的出口连接的结构。 在形成在第一电气部件的下侧的冷却水路径与第二电气部件的顶部之间的边界上安装有板式冷却分离器(15)。 吸入入口的冷却水分为上,下冷却水路,分流冷却水排放到出口。
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公开(公告)号:KR1020120002322A
公开(公告)日:2012-01-05
申请号:KR1020100063141
申请日:2010-06-30
Applicant: 현대자동차주식회사
Abstract: PURPOSE: The whole pressure drop can be reduced through the flow rate distribution of the cooling water. The efficient cooling is included of the structure of being simple. CONSTITUTION: A cooling device of heating element for hybrid electrical vehicles comprises a radiating unit(10). The radiating unit comprises a cooling jacket(11), an inlet(14), and an outlet(15). In the cooling jacket, flow paths(12,13) in which the cooling medium passes by inside the radiating unit is formed. The bottom plate is installed in center and the cooling jacket is classified into the front side and back side. The respective flow path is separately formed in the front side and back side of the cooling jacket. The inlet is formed in the cooling jacket one side. It is communicated with the flow path and the cooling medium flows in. It is communicated with the flow path of the front side and the flow path of the back side and the inlet distributes the cooling medium to the front side and back side. It is communicated with the flow path of the front side and the flow path of the back side and the outlet discharges the cooling medium.
Abstract translation: 目的:通过冷却水的流量分布可以降低整个压降。 包括简单的结构的高效冷却。 构成:用于混合电动车辆的加热元件的冷却装置包括辐射单元(10)。 辐射单元包括冷却套(11),入口(14)和出口(15)。 在冷却套中,形成有冷却介质在散热单元内部通过的流路(12,13)。 底板安装在中心,冷却套分为正面和背面。 各个流路分别形成在冷却套的前侧和后侧。 入口在冷却套中形成一侧。 与流路连通,冷却介质流入,与前侧的流路,背面的流路和入口将冷却介质分配到前侧和后侧。 与前侧的流路连通,背面的流路与出口排出冷却介质。
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公开(公告)号:KR1020100062702A
公开(公告)日:2010-06-10
申请号:KR1020080121450
申请日:2008-12-02
Applicant: 현대자동차주식회사
CPC classification number: Y02T10/7241
Abstract: PURPOSE: A battery switch protection device and a method thereof are provided to prevent the electric shock of a driver by preventing damage to a battery switch. CONSTITUTION: A battery switch protection device comprises an inverter(120), a battery(130), a battery switch part, an overvoltage prevention part(170) and a controller(160). The inverter converts electric energy into mechanical energy. The battery gives high voltage to the inverter. The battery switch part transfers the high voltage of the battery to the inverter. The overvoltage prevention part prevents the overvoltage given in the battery switch part.
Abstract translation: 目的:提供电池开关保护装置及其方法,以防止对电池开关的损坏来防止驾驶员的电击。 构成:电池开关保护装置包括逆变器(120),电池(130),电池开关部件,过电压防止部件(170)和控制器(160)。 逆变器将电能转换为机械能。 电池给变频器提供高电压。 电池开关部分将电池的高电压转移到逆变器。 防过电压部防止电池开关部中的过电压。
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公开(公告)号:KR1020090008754A
公开(公告)日:2009-01-22
申请号:KR1020070071963
申请日:2007-07-18
Applicant: 현대자동차주식회사
Abstract: An emergency operation method in switch malfunction of a DC/DC converter is provided to perform the emergency operation of a LDC(Low-voltage DC Converter) by using a pair of switches of steady- state among four switches in switch open trouble. A controller delivers signals for switch fault diagnostics to a switch trouble detector in the abnormal operation of a LDC(ST1). According to the signal of the controller, the switch trouble detector authorizes PWM(Pulse Width Modulation) signal for checkup in a switch(ST2). The switch trouble detector makes the diagnosis of malfunction and type of the switch based on the current value detected from a current sensor connected to a switching unit input terminal. When one or two between a pair of switches among four switches operating to a pair are in open trouble and a remaindering pair of switches are steady, the PWM signal for drive is applied at the two steady switches(ST8). The emergency operation of the LDC is performed by on/OFF operation of the two steady switches.
Abstract translation: 提供DC / DC转换器的开关故障的紧急操作方法,通过在开关故障中使用四个开关中的一对稳态开关来执行LDC(低压DC转换器)的紧急操作。 在LDC(ST1)的异常运行中,控制器向交换机故障检测器提供交换机故障诊断信号。 根据控制器的信号,开关故障检测器授权PWM(脉宽调制)信号进行开关检查(ST2)。 开关故障检测器基于从连接到开关单元输入端子的电流传感器检测到的电流值来诊断故障和开关的类型。 当对一对操作的四个开关中的一对开关之间的一个或两个处于开路故障状态,并且剩余的一对开关稳定时,用于驱动的PWM信号被施加在两个稳定开关(ST8)。 LDC的紧急操作通过两个稳定开关的开/关操作来执行。
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公开(公告)号:KR100867795B1
公开(公告)日:2008-11-10
申请号:KR1020070070381
申请日:2007-07-13
Applicant: 현대자동차주식회사
CPC classification number: Y02T10/7005 , Y02T10/7216
Abstract: DC/DC converter operation control method of hybrid vehicle is provided to improve charging efficiency of 12V sub battery for the overall length for vehicle and remove the factor of lifetime reduction by segmenting operation logic and output voltage control method of the DC/DC converter according to the vehicle system operation mode. DC/DC converter operation control method of hybrid vehicle comprises the following steps: a first step checking 12V sub battery voltage in HCU which is the upper controller after the IG on and start-up of a hybrid vehicle; a second step(S106) checking the SOC [%] value of the present high voltage battery from BMS which is the high voltage battery controller in HCU before the vehicle enters into the acceleration and driving mode and the DC / DC volume of power value which is amount of load of vehicle overall length from the DC/DC converter; a third step(S107) comparing the high voltage battery SOC [%] value and set value in HCU after the vehicle enters into the driving mode without the break signal and comparing accelerator opening degree with the upper value; a fourth stage(S109) comparing the DC / DC volume of power with the base load amount if the high voltage battery SOC [%] is [%] is the set value or greater and the accelerator opening degree is not greater than the upper value as a result of comparison of the third step; a fifth step(S110) determining the amount of power generation and restoring energy(charged capacity) through information of high voltage battery SOC [%], car speed [km/h], accelerator opening degree of operator and brake activation amount in HCU if the high voltage battery SOC [%] is the set value or less as a result of comparison of the third step; and a sixth step(S111) comparing the amount of charging energy of high voltage battery and DC / DC volume of power in HCU; a seventh step determining the power generation and restoring energy amount(charged capacity) by using information of high voltage battery SOC [%], car speed [km/h], accelerator opening degree of driver and brake activation amount in HCU if the vehicles does not stop despite the deceleration mode in the break signal generation by the demand of driver.
Abstract translation: 提供混合动力汽车的DC / DC转换器运行控制方法,以提高车辆总长度的12V子电池的充电效率,并根据DC / DC转换器的运行逻辑和输出电压控制方法,消除寿命降低的因素 车辆系统运行模式。 混合动力车辆的DC / DC转换器操作控制方法包括以下步骤:第一步检查在混合动力车辆的IG启动和启动之后作为上控制器的HCU中的12V副电池电压; 第二步(S106)在车辆进入加速和驱动模式之前,在HCU中的高电压电池控制器的BMS和功率值的DC / DC体积上检查本高压电池的SOC [%]值, 是来自DC / DC转换器的车辆总长度的负载量; 第三步骤(S107)比较车辆进入驾驶模式之后的高压电池SOC [%]值和HCU中的设定值而没有中断信号并将加速器开度与上限值进行比较; 如果高电压电池SOC [%]为[%],则将功率的DC / DC容积与基本负载量进行比较的第四级(S109)为设定值以上,并且加速器开度不大于上限值 作为比较第三步的结果; 第五步骤(S110)通过高压电池SOC [%],车速[km / h],操作者的加速器开度和HCU中的制动器激活量的信息来确定发电量和恢复能量(充电容量),如果 作为比较第三步骤的结果,高压电池SOC [%]是设定值以下; 以及第六步骤(S111),比较高压电池的充电能量和HCU中的DC / DC功率量; 第七步通过使用高压电池SOC [%],车速[km / h],驾驶员的加速器开度和HCU中的制动器激活量来确定发电和恢复能量(充电容量),如果车辆 尽管驾驶员的需求在休息信号产生中减速模式仍然停止。
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公开(公告)号:KR101897343B1
公开(公告)日:2018-09-11
申请号:KR1020160117763
申请日:2016-09-13
Applicant: 현대자동차주식회사
IPC: H01L23/40 , H01L23/367 , H01L23/433 , H01L23/48 , H05K7/12 , H05K7/20
Abstract: 본발명에의한일체형클램핑구조를갖는반도체소자모듈은, 반도체소자; 상기반도체소자의일면에접하도록설치되어상기반도체소자에서발생되는열을배출시키는히트싱크; 상기반도체소자의타면방향에배치되어상기반도체소자에제어신호및 전기를송수신하는보드; 및상기보드에설치되어상기반도체소자의타면을가압하는클램프;를포함한다.
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