• Title/Summary/Keyword: battery voltage drop

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An optimal design guideline for voltage drop of DC distribution system with batteries (예비축전지를 갖는 배전계통 전압강하의 비용최적 설계)

  • Cho, Il-Kwon;Kim, Marn-Go
    • Proceedings of the KIEE Conference
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    • 1994.11a
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    • pp.400-402
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    • 1994
  • The voltage drop in distribution path of battery-reserved DC power system can affect the total of battery, cable and electricity costs. To determine an optimum voltage drop in distribution path for minimizing the total cost, battery, cable and electricity costs are represented as a function of the voltage drop, respectively, and are summed up to the total cost. An optimum voltage drop is selected as the value giving the minimum total cost. In this paper, a design technique of optimum voltage drop in distribution path of DC power system is proposed to minimize the total of battery, cable and electricity costs. The design procedure is described and design curve for selecting optimum voltage drop is also presented as a function of distribution distance.

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A Study on the Low Power LDO Having the Characteristics of Superior IR Drop (우수한 IR Drop 특성을 갖는 저전력 LDO에 관한 연구)

  • Lee, Kook-Pyo;Pyo, Chang-Soo;Koh, Si-Young
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.12 no.10
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    • pp.1835-1839
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    • 2008
  • Power management is a very important issue in portable electronic applications. Portable electronic devices require very efficient power management like LDO to increase the battery life. As the voltage variation of battery power is large in the application of cell phone, camera, laptop, automotive, industry application and so on, battery power is not directly used and LDO is used to supply the power of internal circuit. Besides, LDO can supply DC voltage that is lower than bauer voltage and constant DC voltage that is not related to largely fluctuated battery power. In the study, the power-save mode current and IR-drop characteristics are analyzed from a LDO with on-chip fabricated in 0.18-um CMOS technology.

Development of a Motor Speed Controller of Drones Considering Voltage Drop of Battery (배터리 전압 강하를 고려한 드론 모터 속도 제어기 개발)

  • Lee, Sunghee;Yun, Bo Ram;Kim, Deok Yeop;Kim, Hwangsoo;Lee, Woo Jin
    • Journal of KIISE
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    • v.44 no.6
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    • pp.601-606
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    • 2017
  • Recently, we have frequently encountered flying drones with the growth of drone industry. However, it is difficult for a driver to stabilize the motor speed of drones, since the voltage of a Lithium polymer battery used in drones may suddenly drop or rise when its power is exhausted. The instability of the motor speed precludes the drone from maintaining a flight altitude, so that the fuselage of a drone performs ascending and descending repeatedly. For solving this problem, existing techniques either add a compensator considering voltage drop of battery or change the control model. Since these techniques use hardware-implemented modules or depend on motor type and experimental results, there is a problem that new suitable modules should be implemented in accordance with the used motor of the fuselage. For solving this problem, in this paper, we implement a motor speed controller in the firmware of drones by considering voltage drop of battery to enhance drone flight stability.

Battery State-of-Charge Estimation Algorithm Using Dynamic Terminal Voltage Measurement

  • Lee, Su-Hyeok;Lee, Seong-Won
    • IEIE Transactions on Smart Processing and Computing
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    • v.4 no.2
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    • pp.126-131
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    • 2015
  • When a battery is discharging, the battery's current and terminal voltage must both be measured to estimate its state of charge (SOC). If the SOC can be estimated by using only the current or voltage, hardware costs will decrease. This paper proposes an SOC estimation algorithm that needs to measure only the terminal voltage while a battery is discharging. The battery's SOC can be deduced from its open circuit voltage (OCV) through the relationship between SOC and OCV. But when the battery is discharging, it is not possible to measure the OCV due to the voltage drop in the battery's internal resistance (IRdrop). The proposed algorithm calculates OCV by estimating IRdrop using a dynamic terminal voltage measurement. This paper confirms the results of applying the algorithm in a hardware environment via algorithm binarization. To evaluate the algorithm, a Simulink battery model based on actual values was used.

Bus Voltage Drop Analysis Caused by Payload Operation of LEO Satellite (저궤도 인공위성 탑재체 구동에 따른 버스 전압 강하 해석)

  • Park, Hee-Sung;Jang, Jin-Baek;Park, Sung-Woo;Lee, Sang-Kon
    • Aerospace Engineering and Technology
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    • v.9 no.2
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    • pp.57-62
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    • 2010
  • SAR payload of LEO satellite will consume about 150A current. This high current makes the voltage drop between battery, satellite main bus and payload interface, which cannot guarantee the input voltage level of the satellite electrical unit and payload. So, it is necessary to predict the main bus and payload input voltage level when the payload works. In this paper, the worst case analysis of the harness and contact resistance was executed and predicted the voltage drop when the payload works.

A Study on Instantaneous Voltage Compensation of UPS using on Ultracapacitor (울트라커패시터를 이용한 UPS의 순시전압보상에 관한 연구)

  • Kim, Choon-Sam;Kim, Ji-Heon;Kim, Soo-Hong;Sung, Won-Ki
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.20 no.5
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    • pp.18-24
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    • 2006
  • This paper proposed UPS system parallel connected in battery and ultracapacitor to compensate instantaneous voltage drop. Ultracapacitor parallel connected with battery compensate instantaneous voltage drop at failure and it's reduced the voltage regulation of output voltage. We are produced for fast instantaneous voltage drop compensation of ultracapacitor at UPS system and experiments are achieved. Experimental result was verified that the ultracapacitor indicated the fast compensation characteristics and regulation of the output voltage satisfied within 5[%] by using ultracapacitor.

Design of DC Battery Size & Controller for Household Single-Phase ESS-PCS Considering Voltage Drop and DC Link Voltage Ripple (주택용 단상 ESS-PCS의 전압손실과 직류링크 맥동을 고려한 직류측 배터리 사이즈 및 제어기 설계)

  • Kim, Yong-Jung;Lee, Jinsung;Kim, Hyosung
    • The Transactions of the Korean Institute of Power Electronics
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    • v.23 no.2
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    • pp.94-100
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    • 2018
  • Generally, in a single-phase energy storage system (ESS) for households, AC ripple component with twice the fundamental frequency exists inevitably in the DC link voltage of single-phase PCS. In the grid-connected mode of a single-phase inverter, the AC ripple component in the DC link voltage causes low-order harmonics on grid-side current that deteriorates power quality on an AC grid. In this work, a control system adopting a feedforward controller is established to eliminate the AC ripple interference on the DC link side. Optimal battery nominal voltage design method is also proposed by considering the voltage loss and AC ripple voltage on DC link side in a single-phase ESS. Finally, the control system and battery nominal voltage design method are verified through simulations and experiments.

Study on Design of 60 V TDMOSFET for Protection Circuit Module (Protection Circuit Module에 최적화된 60 V급 TDMOSFET 최적화 설계에 관한 연구)

  • Lee, Hyun-Woong;Jung, Eun-Sik;Oh, Reum;Sung, Man-Young
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.25 no.5
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    • pp.340-344
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    • 2012
  • Protected Circuit Module protects battery from over-charge and over-discharge, also prevents accidental explosion. Therefore, power MOSFET is essential to operate as a switch within the module. To reduce power loss of MOSFET, the on state voltage drop should be lowered and the switching time should be shorted. However there is trade-off between the breakdown voltage and the on state voltage drop. The TDMOS can reduce the on state voltage drop. In this paper, effect of design parameter variation on electrical properties of TDMOS, were analyzed by computer simulation. According to the analyzed results, the optimization was performed to get 65% higher breakdown voltage and 17.4% on resistance enhancement.

A Study on the Improved Load Sharing rate in Paralleled Operated Lead Acid Battery by Using Microprocessor (마이크로 프로세서를 이용한 축전지의 병렬 운전 부하분담률 개선에 관한 연구)

  • 이정민
    • Proceedings of the KIPE Conference
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    • 2000.07a
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    • pp.493-497
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    • 2000
  • A battery is the device that transforms the chemical energy into the direct-current electrical energy without a mechanical process. Unit cells are connected in series to obtain the required voltage while being connected in parallel to organize capacity for load current. Because the voltage drop down in one set of battery is faster than in two one it may result in the low efficiency of power converter with the voltage drop and cause the system shutdown. However when the system being shutdown. However when the system being driven in parallel a circular-current can be generated,. It is shown that as a result the new batteries are heated by over-charge and over-discharge and the over charge current increases rust of the positive grid and consequently shortens the lifetime of the new batteries. The difference between the new batteries and old ones is the amount of internal resistance. In this paper we can detect the unbalance current using the microprocessor and achieve the balance current by adjusting resistance of each set, The internal resistance of each set becomes constant and the current of charge and discharge comes to be balanced by inserting the external resistance into the system and calculating the change of internal resistance.

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New Secondary Battery Charger/Discharger Available for Zero Voltage Discharge (영전압 방전이 가능한 새로운 방식의 2차전지 충/방전기)

  • Chae, Soo-Yong;Chung, Dae-Taek;Kim, Dong-Wook;Hong, Soon-Chan
    • Proceedings of the KIPE Conference
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    • 2012.07a
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    • pp.250-251
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    • 2012
  • This paper proposes a new secondary battery charger/discharger available for zero voltage discharge which is used for test equipments and formation. The proposed system is able to discharge the battery to zero voltage which does not matter to voltage drop of circuit. The validity of proposed system is verified by experiment.

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