公开(公告)号：KR1020160084269A

公开(公告)日：2016-07-13

申请号：KR1020150002856

申请日：2015-01-08

Applicant: 삼성전자주식회사 ,  버지니아 테크 인터렉추얼 프라퍼티스, 인크.

Inventor： 허진석 ,  박휘열 ,  조경훈 ,  샤프스나단 ,  하쯔무하매드알. ,  프리야샤상크 ,  압델케피압데살타

IPC: H02N2/18

CPC classification number: H01L41/1136 ,  H01L41/053 ,  H02K35/02 ,  H02N1/08 ,  H02N2/188 ,  H02N2/22

Abstract: 진동에너지를전기에너지로변환하여하베스팅하는에너지하베스터가개시된다. 개시된에너지하베스터는, 베이스와, 상기베이스에의해지지되는것으로상기베이스와이격되게마련되는클램핑구조체와, 상기베이스와상기클레임구조체사이에마련되어상기클레임구조체를상기베이스에대해탄성적으로움직이게하는탄성부재와, 상기클램핑구조체에일측이고정되며타측은탄성적으로움직일수 있는캔틸레버빔 및상기캔틸레버빔 상에마련되는질량체를포함하는캔틸레버구조체;를포함한다.

Abstract translation: 公开了一种能量收集器，将振动能量转化为电能并收获。 能量收集器包括基座，夹持结构，其由基座支撑并与基座分离;弹性构件，其被制备在基座和夹紧结构之间并弹性地将索赔结构移动到基座;悬臂梁， 具有固定在夹持结构上而另一侧弹性移动的一侧，以及包括在悬臂梁上准备的质量体的悬臂结构。

公开(公告)号：KR1020140070118A

公开(公告)日：2014-06-10

申请号：KR1020120138215

申请日：2012-11-30

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  조경훈

IPC: H02N2/18

CPC classification number: H02K21/00 ,  H02K53/00 ,  H02K99/10

Abstract: According to an embodiment of the present invention, an energy harvesting device includes at least one first magnet which can rotate making a first circle; at least one piezoelectric cantilever which is located away from a surface on which the first circle is located and can bend in the direction perpendicular to the surface on which the first circle is located; and at least one second magnet which is joined with the at least one piezoelectric cantilever and is overlapped with the first circle.

Abstract translation: 根据本发明的一个实施例，能量收集装置包括至少一个第一磁体，该第一磁体可旋转成第一个圆; 至少一个压电悬臂，其位于远离所述第一圆的表面上并且可以在垂直于所述第一圆的所述表面的方向上弯曲; 以及至少一个与所述至少一个压电悬臂连接并与所述第一圆重叠的第二磁体。

公开(公告)号：KR1020130006744A

公开(公告)日：2013-01-18

申请号：KR1020110030993

申请日：2011-04-05

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  박창민 ,  오석환 ,  여정호

IPC: H01L21/027 ,  G03F1/72

CPC classification number: G03F7/0002 ,  B29C35/0805 ,  B29C2035/0827 ,  B29L2031/737 ,  B82Y10/00 ,  B82Y40/00 ,  H01L21/0274 ,  G03F1/72 ,  H01L21/0337

Abstract: PURPOSE: A method for manufacturing a mask and an operating method thereof are provided to easily manufacture a mask with a desirable shape by accurately correcting only the distorted design pattern. CONSTITUTION: A template(110) is installed on the upper side of a mask substrate(S). A polymer layer(P) is formed on the upper side of the mask substrate. A design pattern(112) is formed on the lower side of the template. A correction unit(120) is arranged on the upper side of the template. A pressing unit(130) is connected to the upper side of the correction unit. A hardening unit(140) hardens the mask pattern.

Abstract translation: 目的：提供一种制造掩模的方法及其操作方法，以通过精确地仅校正扭曲的设计图案来容易地制造具有期望形状的掩模。 构成：在掩模基板（S）的上侧安装有模板（110）。 聚合物层（P）形成在掩模基板的上侧。 在模板的下侧形成设计图案（112）。 校正单元（120）布置在模板的上侧。 按压单元（130）连接到校正单元的上侧。 硬化单元（140）使掩模图案硬化。

公开(公告)号：KR1020120108615A

公开(公告)日：2012-10-05

申请号：KR1020110026712

申请日：2011-03-25

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  오석환 ,  여정호

IPC: G03F7/20 ,  H01L21/027

CPC classification number: G03F7/20 ,  G03F7/70075 ,  G03F7/70133 ,  G03F7/70608 ,  G03F7/70616 ,  H01L21/0274

Abstract: PURPOSE: A measurement method for exposed energy in an exposure device is provided to accurately measure the energy of exposed light and to extend the operating time of the exposure device. CONSTITUTION: A measurement method for exposed energy in an exposure device includes the following steps: a photoresist film is coated on a substrate(S100); the photoresist film is exposed by varying the energy of exposure light according to shots(S102); the exposed photoresist film is developed to form a sample photoresist film(S104); the image is taken of the sample photoresist film on the entire substrate is taken(S106); the intensity of color for each shot is analyzed(S108); a shot, of which the color intensity is varied according to the intensity of the exposure energy, is designated(S110); the intensity of color for each pixel is measured at the designated shot(S112); the average intensity of the color is measured toward the scanning direction of the exposure light(S114); and the energy of the exposure light is calculated on the basis of the intensity of the color(S116). [Reference numerals] (S100) Coating a photoresist film on a substrate; (S102) Exposing the photoresist film by varying the energy of exposure for each shot; (S104) Developing the photoresist film to form a sample photoresist film; (S106) Taking the image of the sample photoresist film on the entire substrate; (S108) Analyzing the intensity of color for each shot; (S110) Designating a shot of which the color intensity is varied according to the intensity of exposure energy; (S112) Measuring the intensity of the color for each pixel at the designated shot; (S114) Measuring the average intensity of the color to the scanning direction of exposure light; (S116) Calculating the energy of exposure light using the intensity of the color

Abstract translation: 目的：提供曝光装置中暴露能量的测量方法，以准确测量曝光光的能量并延长曝光装置的工作时间。 构成：曝光装置中的曝光能量的测定方法包括以下步骤：在基板上涂布光致抗蚀剂膜（S100）; 通过根据照片改变曝光光的能量来曝光光致抗蚀剂膜（S102）; 曝光的光致抗蚀剂膜被显影以形成样品光致抗蚀剂膜（S104）; 拍摄整个基板上的样品光致抗蚀剂膜的图像（S106）; 分析每个镜头的颜色强度（S108）; 指定颜色强度根据曝光能量的强度而变化的镜头（S110）。 在指定镜头测量每个像素的颜色强度（S112）; 朝向曝光光的扫描方向测量颜色的平均强度（S114）; 并且基于颜色的强度来计算曝光光的能量（S116）。 （附图标记）（S100）在基板上涂布光致抗蚀剂膜; （S102）通过改变每次拍摄的曝光能量来曝光光致抗蚀剂膜; （S104）显影光致抗蚀剂膜以形成样品光致抗蚀剂膜; （S106）将样品光致抗蚀剂膜的图像置于整个基板上; （S108）分析每次拍摄的颜色强度; （S110）根据曝光能量的强度指定颜色强度变化的镜头; （S112）测量指定拍摄时每个像素的颜色强度; （S114）测量与曝光光的扫描方向的颜色的平均强度; （S116）使用颜色的强度计算曝光光的能量

公开(公告)号：KR1020110069497A

公开(公告)日：2011-06-23

申请号：KR1020090126256

申请日：2009-12-17

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  이정석

IPC: H01M8/04 ,  G01R11/00

CPC classification number: H01M8/0494 ,  H01M8/04022 ,  H01M8/04559 ,  H01M8/04589 ,  H01M8/04619 ,  H01M8/04738 ,  H01M8/04753 ,  H01M8/04768 ,  H01M8/04776 ,  H01M8/04805 ,  H01M8/0491 ,  H01M8/04992 ,  H01M8/0612

Abstract: PURPOSE: A method for controlling a fuel cell system is provided to improve the efficiency of improving the efficiency of the fuel cell system by varying only control algorithm of the fuel cell system without the change of hardware. CONSTITUTION: A method for controlling a fuel cell system comprises the steps of: detecting the variation form of output power of a fuel cell system; and controlling the amount of output power of the fuel cell system and the amount of the fuel supplied to the system on a basis of the variation form of the detected output power. The control step further includes a step of setting a reduction temperature of the temperature of a catalyst for reformate reaction of fuel in a direction increasing fuel utilization and reducing the supply quantity of LNG for heating the catalyst of the reformate reaction of the fuel according to the reduction temperature.

Abstract translation: 目的：提供一种用于控制燃料电池系统的方法，以通过仅改变燃料电池系统的控制算法来改善燃料电池系统的效率，而不改变硬件。 构成：控制燃料电池系统的方法包括以下步骤：检测燃料电池系统的输出功率的变化形式; 并且根据所检测的输出功率的变化形式来控制燃料电池系统的输出功率量和供给到系统的燃料量。 控制步骤还包括如下步骤：在燃料利用率增加的方向上设定燃料重整反应催化剂的温度的还原温度，并减少LNG供应量，以加热燃料的重整反应催化剂，根据 还原温度。

公开(公告)号：KR1020100063994A

公开(公告)日：2010-06-14

申请号：KR1020080122389

申请日：2008-12-04

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  히가시타카미 ,  김동관

IPC: H01M8/04 ,  H01M8/24

CPC classification number: H01M8/04201 ,  H01M8/04007 ,  H01M8/04119 ,  H01M8/04373 ,  H01M8/0444 ,  H01M8/04686 ,  H01M8/04753 ,  H01M8/0618

Abstract: PURPOSE: A connecting apparatus inside of a fuel cell system, and the fuel cell system including thereof are provided to control the generation of a leak by forming a connecting unit inside the fuel cell system as one module. CONSTITUTION: A connecting apparatus(300) connects a reformer(210) and a stack inside a fuel cell system including the reformer, the stack, an automatic drain(230) and a heat exchanger(240). The connecting apparatus comprises the following: a first valve(310) formed with a first incoming unit connected to the reformer, a first outgoing unit connected to an anode of the stack, and a second outgoing unit; a second valve(320) formed with a second incoming unit connected with the second outgoing unit, a third outgoing unit, and a fourth outgoing unit; a pipe module(270) including a third incoming unit, a fifth outgoing unit, and a check valve; and a controller controlling the operating of the pipe module.

Abstract translation: 目的：提供燃料电池系统内部的连接装置及其燃料电池系统，用于通过在燃料电池系统内部形成作为一个模块的连接单元来控制泄漏的产生。 构成：连接装置（300）将重整器（210）和包括重整器，堆，自动排水（230）和热交换器（240）的燃料电池系统内的堆叠连接。 连接装置包括：第一阀（310），形成有连接到重整器的第一输入单元，连接到堆叠的阳极的第一输出单元和第二输出单元; 形成有与第二输出单元连接的第二输入单元的第二阀（320），第三输出单元和第四输出单元; 包括第三输入单元，第五输出单元和止回阀的管道模块（270） 以及控制管模块的操作的控制器。

公开(公告)号：KR1020090112822A

公开(公告)日：2009-10-29

申请号：KR1020080038540

申请日：2008-04-25

Applicant: 삼성전자주식회사

Inventor： 허진석 ,  이현철 ,  히가시타카미

IPC: H01M8/04

CPC classification number: H01M8/04268 ,  H01M8/04022 ,  H01M8/04029 ,  H01M8/0618 ,  H01M8/0668 ,  Y02E60/50

Abstract: PURPOSE: A fuel cell system and a control method thereof are provided to rapidly increase the temperature of a stack by supplying warm water generated during initial driving to a stack. CONSTITUTION: A fuel cell system includes a reformer(20) and a stack(30). The reformer generates reformate gas. The stack generates energy by supplying reformate gas generated in a reformer. A control method of a fuel system comprises the steps of: driving a reformer and heating heat media by heat energy generated by the driving of a reformer; heating a stack to the normal operating temperature by using heated heat media; and supplying the reformate gas to the stack after the stack reaches the normal operating temperature.

Abstract translation: 目的：提供燃料电池系统及其控制方法，以通过将初始驱动期间产生的温水提供给堆来快速提高堆的温度。 构成：燃料电池系统包括重整器（20）和堆（30）。 改性剂产生重整气。 堆叠通过提供在重整器中产生的重整气体产生能量。 燃料系统的控制方法包括以下步骤：通过由重整器的驱动产生的热能驱动重整器并加热热介质; 通过使用加热的热介质将堆叠加热至正常工作温度; 并且在堆叠达到正常工作温度之后将重整气体供应到堆叠。