公开(公告)号：KR100928186B1

公开(公告)日：2009-11-25

申请号：KR1020070121775

申请日：2007-11-28

Applicant: 한국전기연구원

Inventor： 전진홍 ,  김슬기 ,  김종율 ,  조창희 ,  안종보

IPC: G06F15/16

Abstract: A data link intermediating apparatus and a communication system having the same are provided to obtain the same effect as an actual microgrid pilot plant by forming a computer-based RTDS and an interface so as to be the same as the actual microgrid driving state. A data link intermediating apparatus comprises a display device(310), a communication interface(320), a hard wire interface(330), a processor(340) and an EPLD(Erasable Programmable Logic Device)(350). The communication interface transmits and receives signals for monitoring and controlling the states of an MMS(Microgrid Management System)(210) and component devices within a microgrid. The hard wire interface transmits and receives driving states of main microgrid components which are being simulated by RTDS(Real Time Digital Simulator)(220) and control commands. The processor implements various communication protocols for driving the communication interface.

Abstract translation: 提供一种数据链路中介设备和具有该数据链路中介设备的通信系统，以通过形成基于计算机的RTDS和接口以便与实际微电网驱动状态相同来获得与实际微电网中试设备相同的效果。 数据链路中介装置包括显示设备（310），通信接口（320），硬线接口（330），处理器（340）和EPLD（可擦除可编程逻辑设备）（350）。 通信接口发送和接收用于监视和控制微电网内的MMS（微电网管理系统）（210）和组件设备的状态的信号。 硬线接口发送和接收由RTDS（实时数字模拟器）（220）和控制命令正在模拟的主微电网组件的驱动状态。 处理器实现用于驱动通信接口的各种通信协议。

公开(公告)号：KR1020090056124A

公开(公告)日：2009-06-03

申请号：KR1020070123149

申请日：2007-11-30

Applicant: 한국전기연구원

Inventor： 조창희 ,  손천돈 ,  전진홍 ,  김슬기 ,  안종보

IPC: G06F11/07

Abstract: The failure safe system of a dual processor control device for individually monitoring the state of a different task and an operation task of a processor of the other party through a common memory between two processors are provided to install the common memory without addition of the separate hardware. The failure safe architecture of a dual processor controller comprises two processors(10, 20) and a common memory(30). The common memory is connected to between two processors. The operation state of two processors is detected by the common memory. In case the malfunction occurs among two processors, the common memory generates the malfunction return signal.

Abstract translation: 提供双处理器控制装置的故障安全系统，用于通过两个处理器之间的公共存储器单独地监视另一方的处理器的不同任务的状态和操作任务的状态，以安装公共存储器而不添加单独的硬件 。 双处理器控制器的故障安全架构包括两个处理器（10,20）和公共存储器（30）。 公共存储器连接到两个处理器之间。 两个处理器的操作状态由公共存储器检测。 如果在两个处理器之间出现故障，公共存储器会产生故障返回信号。

公开(公告)号：KR1020090055057A

公开(公告)日：2009-06-02

申请号：KR1020070121775

申请日：2007-11-28

Applicant: 한국전기연구원

Inventor： 전진홍 ,  김슬기 ,  김종율 ,  조창희 ,  안종보

IPC: G06F15/16

Abstract: A data link intermediating apparatus and a communication system having the same are provided to obtain the same effect as an actual microgrid pilot plant by forming a computer-based RTDS and an interface so as to be the same as the actual microgrid driving state. A data link intermediating apparatus comprises a display device(310), a communication interface(320), a hard wire interface(330), a processor(340) and an EPLD(Erasable Programmable Logic Device)(350). The communication interface transmits and receives signals for monitoring and controlling the states of an MMS(Microgrid Management System)(210) and component devices within a microgrid. The hard wire interface transmits and receives driving states of main microgrid components which are being simulated by RTDS(Real Time Digital Simulator)(220) and control commands. The processor implements various communication protocols for driving the communication interface.

Abstract translation: 提供数据链路中介装置和具有该数据链路中间装置的通信系统，以通过形成与实际的微电网驱动状态相同的基于计算机的RTDS和接口来获得与实际的微电网中试装置相同的效果。 数据链路中介装置包括显示设备（310），通信接口（320），硬线接口（330），处理器（340）和EPLD（可擦除可编程逻辑设备）（350）。 通信接口发送和接收用于监视和控制微电网内的MMS（微电网管理系统）（210）和组件设备的状态的信号。 硬线接口传输和接收正在由RTDS（实时数字模拟器）（220）和控制命令模拟的主微电网组件的驱动状态。 处理器实现用于驱动通信接口的各种通信协议。

公开(公告)号：KR1020090029055A

公开(公告)日：2009-03-20

申请号：KR1020070094311

申请日：2007-09-17

Applicant: 한국전기연구원

Inventor： 김종율 ,  전진홍 ,  조창희 ,  김슬기 ,  안종보

IPC: H02J3/38

CPC classification number: Y02P80/14

Abstract: A control method for microgrid including multiple distributed generation and energy storage device are provided to perform the operation stable and efficient of the microgrid using the energy store device having the quick response characteristic. The energy storing device(61) of the quick response characteristic performs the first control. The distributed power(63) of the slow response characteristic performs the second control. In the second control, the distributed power outputs as the output of the energy store device by the first control. The control module(62) changes the output of the rest distributed power as the output of the energy storing device. The programmable locked loop performs the role of dividing the output of the whole energy storing device into each distributed power. The energy storing device controls microgrid. A plurality of distributed powers instead of the output of the energy store device makes the output value of the energy store device zero.

Abstract translation: 提供了包括多个分布式发电和能量存储装置在内的微电网控制方法，使用具有快速响应特性的能量存储装置来执行微电网的操作稳定和高效。 快速响应特性的能量存储装置（61）执行第一控制。 慢响应特性的分布式功率（63）进行第二控制。 在第二控制中，通过第一控制将分布式功率输出作为能量存储装置的输出。 控制模块（62）改变剩余分布式电力的输出作为能量存储装置的输出。 可编程锁定环执行将整个储能装置的输出分成每个分布式电力的作用。 储能装置控制微电网。 多个分布式功率而不是能量存储装置的输出使能量存储装置的输出值为零。

公开(公告)号：KR1020080111712A

公开(公告)日：2008-12-24

申请号：KR1020070060014

申请日：2007-06-19

Applicant: 한국전기연구원

Inventor： 조창희 ,  손천돈 ,  전진홍 ,  김슬기 ,  안종보

IPC: H02J3/40

Abstract: A coordinates conversion type phase angle detection method estimating synchro-angle according to breaker closing time and bumpless auto synchronizer are provided to prevent a damage of an apparatus and to extend a lifetime of a system by relieving an impact of a generator by a voltage difference due to a breaker operation time delay. A coordinates conversion type phase angle detection method comprises the following steps: a step for sensing a breaker operation state(S1); a step for sampling a voltage supplied through a power system and a generator while a breaker is opening(S2); a step for checking a phase sequence of a three-phase power about a sampled signal(S3); a step for converting coordinates using a reference axis coordinate about a phase sequence signal(S4); a step for operating a variable of a root mean square voltage, a phase angle, a synchro-angel, a synchronous speed etc about a converted value(S5); and a step for determining a breaker closing through a voltage comparing step(S7) and a speed comparing step(S8) after operating step(S11).

Abstract translation: 提供了一种根据断路器闭合时间和无扰动自动同步器估计同步角的坐标转换型相位角检测方法，以防止设备损坏，并通过将发电机的冲击消除由于电压差而延长系统的使用寿命 到断路器运行时间延迟。 坐标转换型相位角检测方法包括以下步骤：用于检测断路器操作状态的步骤（S1）; 在断路器断开时采样通过电力系统和发电机提供的电压的步骤（S2）; 用于检查关于采样信号的三相电力的相位序列的步骤（S3）; 使用关于相位序列信号的参考轴坐标转换坐标的步骤（S4）; 用于操作关于转换值的均方根电压，相位角，同步角，同步速度等的变量的步骤（S5）; 以及在操作步骤（S11）之后通过电压比较步骤（S7）和速度比较步骤（S8）确定断路器闭合的步骤。

公开(公告)号：KR100856715B1

公开(公告)日：2008-09-04

申请号：KR1020060100559

申请日：2006-10-17

Applicant: 한국전기연구원

Inventor： 안종보 ,  전진홍 ,  조창희 ,  김슬기 ,  윤기갑

IPC: H02J3/38

Abstract: 분산발전 시스템이 배전계통의 일정 지역의 부하를 감당할 만큼 충분히 보급된 상태를 전제로 이들을 통합적으로 제어하고 운영하는 새로운 배전망의 형태인 마이크로 그리드에 있어서 마이크로 그리드의 단독 운전 상황을 검출하기 위한 마이크로 그리드용 단독 운전 검출 방법 및 그 장치가 개시되어 있다. 장치는 전력 망에 차단기를 통해 연결되는 마이크로 그리드 및 상기 마이크로 그리드를 전력 망과 연계하여 통합 관리하는 마이크로 그리드 에너지 관리 시스템에 있어서, 상기 차단기를 흐르는 전류 검출하기 위한 전류 검출기; 상기 차단기의 양단 전압을 검출하기 위한 전압 검출기; 상기 전류 및 전압 검출기로부터의 전류 검출 신호 및 전압 검출 신호를 디지털 신호로 변환하기 위한 AD 변환 회로; 상기 마이크로 그리드 에너지 관리 시스템과 통신 가능하게 연결되고, 상기 마이크로 그리드 에너지 관리 시스템으로부터의 단독 운전 검출 개시 신호를 수신하는 경우, 상기 AD 변환 회로로부터의 전압 및 전류 검출 디지털 신호들을 기초로 상기 마이크로 그리드의 단독 운전을 검출하기 위한 신호 처리 프로세서를 포함한다.

公开(公告)号：KR1020080041310A

公开(公告)日：2008-05-13

申请号：KR1020060109203

申请日：2006-11-07

Applicant: 한국전기연구원

Inventor： 전진홍 ,  김슬기 ,  조창희 ,  안종보 ,  김응상 ,  최흥관

IPC: H02J3/38 ,  H02J7/35

CPC classification number: Y02E10/563 ,  Y02E10/566

Abstract: A DC/AC converter control system for a grid-connected transformerless type photovoltaic generation system is provided to secure the stability of an operation of an entire system by using an auxiliary control algorithm for maintaining a proper DC link voltage. A first DQ conversion module is connected to a DC/AC converter and generates synchronous voltage vectors(512,513) required for control by using three-phase distribution voltage(511) and phase angle estimation information(521). A phase synchronous module(520) generates the phase angle estimation information by using the synchronous voltage vectors. A second DQ conversion module generates synchronous current vectors(532,533) by applying the phase angle estimation information to a three-phase current of the DC/AC converter. A current control module(550) generates output voltage vectors(561,562) outputted by the DC/AC converter by comparing an output current reference value(554) with present synchronous current vector information and using generated error information. A DQ inversion module calculates a proper switching time of switching elements constituting the DC/AC converter by using the phase angel estimation information and information of the output voltage vectors. A PWM(Pulse Width Modulation) controls the DC/AC converter by supplying an on and off signal to each of the switching elements according to the switching time calculated by the DQ inversion module. A power control module(540) generates the output current reference value based on output electric energy of a photovoltaic cell array, a voltage(546) of a DC link capacitor, and DC link operation range(547) information.

Abstract translation: 提供了一种用于并网无变压器型光伏发电系统的DC / AC转换器控制系统，以通过使用用于维持适当DC链路电压的辅助控制算法来确保整个系统的操作的稳定性。 第一DQ转换模块连接到DC / AC转换器，并且通过使用三相分配电压（511）和相位角估计信息（521）产生用于控制所需的同步电压矢量（512,513）。 相位同步模块（520）通过使用同步电压矢量产生相位角估计信息。 第二DQ转换模块通过将相位角估计信息应用于DC / AC转换器的三相电流来产生同步电流矢量（532,533）。 电流控制模块（550）通过将输出电流参考值（554）与当前同步电流矢量信息进行比较并使用产生的误差信息来生成由DC / AC转换器输出的输出电压矢量（561,562）。 DQ反相模块通过使用相位角估计信息和输出电压矢量的信息来计算构成DC / AC转换器的开关元件的适当切换时间。 PWM（Pulse Width Modulation，脉宽调制）通过根据由DQ反相模块计算出的切换时间向每个开关元件提供通/断信号来控制DC / AC转换器。 功率控制模块（540）基于光伏电池阵列的输出电能，直流链路电容器的电压（546）和直流链路工作范围（547）来生成输出电流参考值。

公开(公告)号：KR1020060124825A

公开(公告)日：2006-12-06

申请号：KR1020050044362

申请日：2005-05-26

Applicant: 한국전기연구원

Inventor： 안종보 ,  전진홍 ,  조창희 ,  강도현

IPC: H02J3/38

Abstract: A control module for distributed power and a method thereof are provided to reduce manufacturing cost and time by commonly using a control module of the distributed power using a power converting unit. In a control module for distributed power, a control unit(500) generates a power command by selectively realizing algorithm according to the kind of output voltage of an energy source(100), and outputs a switching signal to a rectifier(202) and an inverter(203) of a power converting unit(200) through PWM output by using voltage and current information of the power converting unit(200) according to the power command. The power converting unit(200) is switched by the switching signal, and converts AC or DC power(201) output from the energy source(100) into AC power of desired voltage and frequency.

Abstract translation: 提供了用于分布式电力的控制模块及其方法，以通过使用功率转换单元共同使用分布式电力的控制模块来降低制造成本和时间。 在用于分布式电力的控制模块中，控制单元（500）通过根据能量源（100）的输出电压的种类选择性地实现算法来产生功率指令，并将切换信号输出到整流器（202）和 根据功率指令通过使用电力转换单元（200）的电压和电流信息通过PWM输出的电力转换单元（200）的逆变器（203）。 电力转换单元（200）通过开关信号切换，将从能量源（100）输出的AC或DC电力（201）变换成所需电压和频率的AC电力。

公开(公告)号：KR1020170000933A

公开(公告)日：2017-01-04

申请号：KR1020150090159

申请日：2015-06-25

Applicant: 한국전기연구원

Inventor： 김진욱 ,  천종민 ,  이주훈 ,  조창희

IPC: F03D7/02

CPC classification number: Y02E10/723

Abstract: 본발명은시간지연추정을이용한풍력터빈의피치제어방법에관한것으로서, 바람에의하여회전할수 있는블레이드와, 상기블레이드에연결되어상기블레이드의회전동력을전달받아회전하는회전자를포함하는풍력터빈과; 상기회전자의회전속도를감지하는회전속도감지부와; 감지된상기회전자의회전속도와기 설정된정격회전속도간의편차및 상기편차의변화량과, 기저장된상기제1시각일때의제어신호값을이용하여상기제2시각일때의제어신호값을계산하는피치제어부와; 상기계산된제어신호값에따라상기블레이드의피치각을조절하여상기회전자를구동하는피치구동부;를포함하는것을특징으로한다. 이에따라, 시간지연추정을이용한피치제어를통해특정동작점이외에도최적의성능을나타낼수 있는효과가있다.

公开(公告)号：KR101544713B1

公开(公告)日：2015-08-24

申请号：KR1020130147557

申请日：2013-11-29

Applicant: 한국전기연구원

Inventor： 김종율 ,  김슬기 ,  김응상 ,  전진홍 ,  조창희

IPC: G06F19/00

Abstract: 본발명은태양광발전기출력저하판단방법및 장치에관한것이다. 보다상세하게는기상정보를기반으로태양광발전기의출력치를미리예측한후 상기예측된출력치를이용하여태양광발전기에서발생할수 있는비정상적인출력저하현상을미리감지할수 있도록하는태양광발전기출력저하판단방법및 장치에관한것이다. 본발명은태양광발전기출력저하판단방법에있어서, (a) 상기출력저하판단시점을기준으로전일의시간대별기상정보, 상기전일의상기태양광발전기의시간대별발전량데이터, 및상기태양광발전기의특성정보를수집하는단계; (b) 상기전일의시간대별기상정보및 상기태양광발전기의특성정보를이용하여상기출력저하판단시점을기준으로상기태양광발전기의시간대별발전량예측데이터를생성하는단계; 및 (c) 상기태양광발전기의시간대별발전량예측데이터와상기전일의상기태양광발전기의시간대별발전량데이터를비교한후 상기비교결과에따라상기출력저하판단시점을기준으로상기태양광발전기에대한시간대별출력저하여부를판단하는단계를포함하는것을특징으로한다. 본발명에의하면다수의태양광발전기가포함된태양광발전단지에서개별태양광발전기에대한효과적관리가가능한효과를갖는다.