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Lateef Onaadepo Ibrahim(라티프),Youl-Moon Sung(성열문) 한국조명·전기설비학회 2021 한국조명·전기설비학회 학술대회논문집 Vol.2021 No.11
This paper describes the development of a system which monitors photovoltaic (PV) power generation in real-time using LabVIEW. The system is designed to continuously acquire both electrical parameters and atmospheric weather data for analysis of PV power generation. This system allows users to continuously check the output of generated solar power, store parameter data and view weather conditions in a friendly manner.
Distributed Control of the Arago’s Disc System with Gain Scheduler
Lateef Onaadepo Ibrahim,최군호 한국반도체디스플레이기술학회 2017 반도체디스플레이기술학회지 Vol.16 No.3
Arago's disk system consists of a speed controller of the DC motor (inner loop controller) and a position controller of the magnetic bar angle (main controller), which are implemented by the design of the PI and PID controller, respectively. First, we analyzed the nonlinear characteristics of the Arago disk system and found the operating point range of three locations as a result. In this paper, a gain scheduler method was applied to guarantee a constant control performance in the range of 0 ~ 130 °, and a structure to change the controller according to the control reference value based on the previously obtained operating points was experimentally implemented. The Distributed Control Systems (DCS) configuration using the Controller Area Network (CAN) was used to verify the proposed method by improving the operational efficiency of the entire experimental system. So, simplicity of the circuit and easy diagnosis were achieved through a single CAN bus communication.
Distributed Control of the Arago's Disc System with Gain Scheduler
Ibrahim, Lateef Onaadepo,Choi, Goon-Ho The Korean Society Of SemiconductorDisplay Technol 2017 반도체디스플레이기술학회지 Vol.16 No.3
Arago's disk system consists of a speed controller of the DC motor (inner loop controller) and a position controller of the magnetic bar angle (main controller), which are implemented by the design of the PI and PID controller, respectively. First, we analyzed the nonlinear characteristics of the Arago disk system and found the operating point range of three locations as a result. In this paper, a gain scheduler method was applied to guarantee a constant control performance in the range of $0{\sim}130^{\circ}C$, and a structure to change the controller according to the control reference value based on the previously obtained operating points was experimentally implemented. The Distributed Control Systems (DCS) configuration using the Controller Area Network (CAN) was used to verify the proposed method by improving the operational efficiency of the entire experimental system. So, simplicity of the circuit and easy diagnosis were achieved through a single CAN bus communication.