Relevant bibliographies by topics / Automatic transfer switch

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Automatic transfer switch'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 February 2022

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Journal articles on the topic "Automatic transfer switch"

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Ivanova, V., N. Rozhentcova, E. Gracheva, and A. Udaratin. "Development of an automated control system for 6/0.4 kV transformer substation with automatic transfer switch using standard IEC 61131-3." E3S Web of Conferences 288 (2021): 01105. http://dx.doi.org/10.1051/e3sconf/202128801105.

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This work is devoted to the development of an automated transfer switch (ATS) for the 6/0.4 kV substation. The work is relevant due to the introduction of automation and the replacement of electromechanical equipment with microprocessor devices in the power systems. At the lower (field) level, automation is driven by the use of programmable logic controllers (PLCs) and various smart sensors. The possibility of using modular PLC in automation systems is considered. Developed are an algorithm and a program for the implementation of automated regulation of the application of automatic transfer switches at a substation using the recommendations of the IEC 61131.3 “Programming languages of programmable logic controllers” standard.
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Fomin, Igor Nikolaevich, Roman Pavlovich Belikov, Tatyana Anatolyevna Kudinova, and Nailya Kamilevna Miftakhova. "Development of a Method and Algorithm for Inhibiting an Automatic Transfer Switch of the Circuit Breaker for a Sustained Short-Circuit." E3S Web of Conferences 220 (2020): 01011. http://dx.doi.org/10.1051/e3sconf/202022001011.

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Circuit breakers with automatic transfer switches (ATS) are designed in such a way that when the voltage disappears during a short-circuit (SC) in the ring network line, the ATS device is triggered. At the same time, its switch is turned on at short-circuit, then it is turned off with acceleration. Even a shortterm switching on of the automatic transfer switch for a sustained short-circuit leads to emergency situations [1,2]. The electrical equipment of the ring network spare line is exposed to high emergency short-circuit currents, and the consumers powered by the spare transformer are turned off. It is possible to minimize and eliminate the damages caused by the above mentioned cases by inhibiting the switching on of the circuitbreaker of the automatic transfer switch.
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Pearman, Gordon R. "Automatic BusBar Transfer Switch Fault Tree Analysis." Marine Technology and SNAME News 34, no. 01 (January 1, 1997): 31–43. http://dx.doi.org/10.5957/mt1.1997.34.1.31.

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This paper discusses the application of an existing statistical analysis technique called "Fault Tree Analysis " to Automatic BusBar Transfer Switch failures on a new class of Naval Supply Ship. Fault Tree Analysis is a technique, used in many "High Technology Industries, " to pictorially display facts surrounding system, equipment or process failures. Technological complexity and safety concerns in the marine industry make it necessary to also use an organized technique to display facts affecting undesirable events, or failures, and their cause and effect.
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Chen, Lin, Jianfeng Hong, Zaifa Lin, Daqing Luo, Mingjie Guan, and Wenxiang Chen. "A Converter with Automatic Stage Transition Control for Inductive Power Transfer." Energies 13, no. 20 (October 11, 2020): 5268. http://dx.doi.org/10.3390/en13205268.

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An automatic stage transition converter for an inductive power transfer system is presented in this paper. An effective control strategy with two working stages of independent energy injection stage and free resonance stage is employed in the proposed converter. With the automatic stage transition strategy, when the frequency of the resonance network changes, the ending time of the free resonance stage is automatically determined. At the same time, the phase angle of the free resonance stage is automatically set as half a resonant cycle. As the stage transition is not triggered by the switches, the switch motion can be executed in advance of the transition moments. Time margins are offered for every switch in the converter, which make the switching moments of the switches flexible and the control simple. Another feature of this converter is that during the energy injection stage, the energy is injected into the inductor independently. Therefore, the input power can be easily regulated by adjusting the energy injection time. A prototype for the converter and the inductive power transfer system was implemented experimentally. From the experimental results, the automatic stage transition and power regulation capability of the proposed converter are verified. The switches all operated at the soft switch condition. When the energy injection time was adjusted from 10 μs to 25 μs, the output power changed from 143 W to 740 W.
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Vinogradova, A. V., A. I. Psarev, A. V. Vinogradov, V. E. Bolshev, M. Jasinski, and R. R. Gibadullin. "Restoring normal network operation mode by automatically disabling network ATS." E3S Web of Conferences 178 (2020): 01072. http://dx.doi.org/10.1051/e3sconf/202017801072.

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Automatic sectionalizing and redundancy of power transmission lines is one of the conditions for network intellectualization and can significantly reduce the power supply interruption time for rural consumers. However, both sectionalizing and redundancy of power transmission lines in 0.4 kV electric networks are used extremely limitedly since there are no sufficiently effective methods and technical means for their implementation. This article presents a method to automatically deactivate the automatic load transfer switch when restoring the normal network operation mode. The paper considers the implementation of the method on the example of damage occurring in the network where power is supplied to consumers from two power sources using an automatic load transfer switch and two sectionalizing units. A device is developed which allows implementing the developed method of automatic load transfer switch deactivation. The device consists of sectionalizing unit, automatic load transfer switch, voltage presence sensor, power direction sensor, memory element, repeater element, element AND and 3 elements NOT. The work of the device is described. The proposed method for automatically disconnecting the automatic load transfer switch in order to return the consumers’ power supply circuit to its initial state solves the problem of eliminating unreasonable power supply interruptions for consumers.
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Bulanov, Robert, Alexei Gurov, and Alexandr Konyukhov. "Multifunctional automatic transfer switch with an active filter." Energy Safety and Energy Economy 5 (October 2018): 52–55. http://dx.doi.org/10.18635/2071-2219-2018-5-52-55.

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Tian, Bing, Chengxiong Mao, Jiming Lu, Dan Wang, Yu He, Yuping Duan, and Jun Qiu. "400 V/1000 kVA Hybrid Automatic Transfer Switch." IEEE Transactions on Industrial Electronics 60, no. 12 (December 2013): 5422–35. http://dx.doi.org/10.1109/tie.2013.2238872.

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Song, Dan, Zhi Rui Liang, Zhu Zhan, and Hong Qing Gan. "The Application of Fixed Circuit Breaker and ATS in 380V Equipment in Substation." Advanced Materials Research 614-615 (December 2012): 1081–84. http://dx.doi.org/10.4028/www.scientific.net/amr.614-615.1081.

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In recent years, a new type of 380V low voltage fixed circuit breakers are used in newly built substations. Fixed circuit breakers without chassis only have two states. They are on and off. They can not provide a clear break point in circuit. So Their isolation function is not obviously. Low voltage equipment in Hub substations should have automatic mutual transfer function. Recently Automatic Transfer Switch (ATS) is often chosen in the newly built digital substation, intelligent substation or large hub substations. Automatic Transfer Switch has interlocking function to avoid the collision of two different power. With the popularize of new equipment such as the 380V fixed circuit breaker and Automatic Transfer Switch, the operation and management of low-voltage equipment in substations puts forward higher requirements as well. The conclusion contains the better ways in operation and maintenance of these new low-voltage equipment.
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Suhanto, Suhanto. "SIMULASI AUTOMATIC TRANSFER SWITCH DAN AUTOMATIC MAINS FAILURE DENGAN PLC OMRON SYSMAC CP1E." Journal of Mechanical Engineering and Mechatronics 4, no. 1 (April 11, 2019): 27. http://dx.doi.org/10.33021/jmem.v4i1.662.

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<p>Electric power supply is the main requirement of equipment at the airport, therefore the reliability of the supply of power supplies is a top priority to support flight services. In addition to PLN as the main power supply the generator is used to supply a backup power supply. Automatic Transfer Switch (ATS) and Automatic Mains Failure (AMF) control systems are needed to regulate the switching of power supplies from PLN to Genset or vice versa. The ATS and AMF control systems use the Omron Sysmac CP1E PLC with a display using Easy Builder 8000 from Weintek which functions as an ATS and AMF monitor and control. Test results on ATS and AMF in manual and automatic modes, the system runs well.<br />Keywords. Automatic Transfer Switch (ATS), Automatic Mains Failure (AMF), PLC</p>
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Fora, Rony Haendra Rahwanto, and Sunandar. "AUTOMATIC TRANSFER SWITCH PANEL IN PLN ELECTRICITY AND POWER INVERTER 2000 WATT." BEST : Journal of Applied Electrical, Science, & Technology 2, no. 1 (August 2, 2020): 10–16. http://dx.doi.org/10.36456/best.vol2.no1.2579.

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In line with the development of science and technology today, especially in the field of electricity brought many changes in the use of electricity. Electricity is currently needed both industrial and non-industrial. Electricity needs are currently provided by PLN as the main power source. The flow of electricity from the electricity grid is not always continuous in its distribution, one day there must be a blackout that may be caused by interference with the transmission system or distribution system. To anticipate this outage, it is necessary to design an automatic control called an automatic transfer switch and to prepare a backup source, a 2000-watt power inverter. Automatic transfer switch is electrical equipment that functions as a controller of the process of switching the PLN electricity supply to the inverter power supply or vice versa automatically. In the operation of this automatic transfer switch can be operated manually and automatically. Where is in automatic mode, if there is a power outage on PLN this tool is useful for turning on and connecting the power inverter to the load automatically. When PLN revives, this tool will transfer the power source to the load from the power inverter to the PLN electricity. At this time technological advances are developing very rapidly, technology is an inspiration so that life in the world becomes lighter, easier and practical.
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Dissertations / Theses on the topic "Automatic transfer switch"

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Zlý, Marián. "Řídicí jednotka k automatickému přepínači." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2009. http://www.nusl.cz/ntk/nusl-218019.

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The main topic of this Master's Thesis is design and implementation of automatic range switch AC/DC Transfer Standart Fluke 792A. In the first part is introduce and description of character and the parameters AC/DC trasfer Standart Fluke 792A and design of the Automatic range switch for this equipment. In the next part is introduce design and description of realize automatic switch control unit it has comunication faculty witch PC over GPIB bus. In the finish part is show of the theoretic description for GPIB bus and her realization with helped microcontroller Atmega16.
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Jučas, Tomas. "Elektros tinklo valdymo laboratorinio stendo prototipas." Bachelor's thesis, Lithuanian Academic Libraries Network (LABT), 2012. http://vddb.laba.lt/obj/LT-eLABa-0001:E.02~2012~D_20120702_113342-54397.

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Parengtas bakalauro baigiamasis darbas yra skirtas suprojektuoti ir pagaminti automatinio rezervo įjungimo skydo prototipą, kurį būtų galima naudoti laboratoriniams darbams universitete.Šio darbo paskirtis yra papildyti elektros aparatų discipliną dar vienu, dažnai sutinkamu ir naudojamu visame pasaulyje stendu, paaiškinant jo veikimo principą, galimybes. Darbe aiškiai yra išdėstomos visos stendo dalys, stendui keliami reikalavimai, parodomos principinė ir valdymo schemos, paaiškinamas detalus veikimas, stendo valdiklio programos algoritmas. Taip pat supažindinama su Lucas-neulle mokomuoju dviejų atskirų tiekimo linijų stendu, parodant visas jo sudedamąsias dalis ir jas trumpai paaiškinant.
ATS helps to avoid serious problems in healthcare facilities for example by the same time when surgery is being held to save human lives and power supply interference occurs, it safely automatically switches power supply mains with no effect to the user. In industry it helps to avoid any power supply problems which every single of them could lead to destruction of expensive machinery or even harm people. Considering problems occurring in power supply lines, this was a great inspiration to produce automatic transfer switch prototype as my Bachelors degree thesis. Since Electrical Engineering Department had no real ATS system prototype before, it will surely supply existing basis and will help students to gain useful experience. Furthermore, all the details about ATS are expounded and will lead to full understanding of the system.
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Trojan, Martin. "Automatický přepínač rozsahů pro AC-DC etalon Fluke 792A." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2011. http://www.nusl.cz/ntk/nusl-374741.

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The main topic of this Master's Thesis is design and implementation of mechanical connection between the automatic range switch unit and the AC-DC Transfer Standart Fluke 792A. This Master's Thesis contains theoretical analysis of the the AC-DC Transfer Standart Fluke 792A and of stepper motors. Followed the choosing of appropriate drive. In next chapter is the theoretical analysis of automatic range switch unit, used microcontroller and the description of the GPIB. Last part of this Master's Thesis describes design of mechanical connecting part and the selection of appropriate sensors for sensing the current position of the shading component.
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Měřínský, Jiří. "CAE systém EPLAN Electric P8 - tvorba výkresové dokumentace pro dálkové ovládání motorgenerátoru." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2010. http://www.nusl.cz/ntk/nusl-218804.

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This Graduation Theses dissertate about a creation of a drawing documentation at the professional CAE EPLAN Electric P8 system. One original solution of a remote control and of motor-generator monitoring with a mobile phone, short SMS-aided in this case, was used as an example of the drawing documentation. As has allready been noted in previous Bachelor Thesis, this application can be use not only for a remote control of a motor-generator, but this solution is suitable for other electric devices too, which are out of reach of an attendance for example. In our case a generator with 6kVA power is concerned with rated output voltage 230Vac and rated current 25A. The system of a remote control has the advantage that it is created from standard components (electric instruments, a PLC – programmable automat, a GSM modem, an operating panel and the respective program in the PLC).
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Wang, Xusheng. "Ultrasonic Generator for Surgical Applications and Non-invasive Cancer Treatment by High Intensity Focused Ultrasound." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS052/document.

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La technique de haute intensité ultrasons focalisés (HIFU) est maintenant largement utilisée pour le traitement du cancer, grâce à son avantage non-invasif. Dans un système de HIFU, une matrice de transducteurs à ultrasons est pilotée en phase pour produire un faisceau focalisé d'ultrasons (1M ~ 10 MHz) dans une petite zone de l'emplacement de la cible sur le cancer dans le corps. La plupart des systèmes HIFU sont guidées par imagerie par résonance magnétique (IRM) dans de nos jours. Dans cette étude de doctorat, un amplificateur de puissance de classe D en demi-pont et un système d'accord automatique d'impédance sont proposés. Tous deux circuits proposés sont compatibles avec le système IRM. L'amplificateur de puissance proposé a été réalisé par un circuit imprimé (PCB) avec des composants discrets. Selon les résultats du test, il a rendement de conversion en puissance de 82% pour une puissance de sortie conçue de 1,25W à une fréquence de travail de 3MHz. Le système d'accord automatique d'impédance proposé a été conçu en deux versions: une version en PCB et une version en circuit intégré (IC). Contrairement aux systèmes d'accord automatique proposés dans la littérature, il n'y a pas besoin de l'unité de microcontrôleur (MCU) ou de l'ordinateur dans la conception proposée. D'ailleurs, sans l'aide de composants magnétiques volumineux, ce système d'auto-réglage est entièrement compatible avec l'équipement IRM. La version en PCB a été conçue pour vérifier le principe du système proposé, et il est également utilisé pour guider à la conception du circuit intégré. La réalisation en PCB occupe une surface de 110cm². Les résultats des tests ont confirmé la performance attendue. Le système d'auto-tuning proposé peut parfaitement annuler l'impédance imaginaire du transducteur, et il peut également compenser l'impédance de la dérive causée par les variations inévitables (variation de température, dispersion technique, etc.). La conception du système d'auto-réglage en circuit intégré a été réalisé avec une technologie CMOS (C35B4C3) fournies par Austrian Micro Systems (AMS). La surface occupée par le circuit intégré est seulement de 0,42mm². Le circuit intégré conçu est capable de fonctionner à une large gamme de fréquence tout en conservant une consommation d'énergie très faible (137 mW). D'après les résultats de la simulation, le rendement de puissance de ce circuit peut être amélioré jusqu'à 20% comparant à celui utilisant le réseau d'accord statique
High intensity focused ultrasound (HIFU) technology is now broadly used for cancer treatment, thanks to its non-invasive property. In a HIFU system, a phased array of ultrasonic transducers is utilized to generate a focused beam of ultrasound (1M~10MHz) into a small area of the cancer target within the body. Most HIFU systems are guided by magnetic resonance imaging (MRI) in nowadays. In this PhD study, a half-bridge class D power amplifier and an automatic impedance tuning system are proposed. Both the class D power amplifier and the auto-tuning system are compatible with MRI system. The proposed power amplifier is implemented by a printed circuit board (PCB) circuit with discrete components. According to the test results, it has a power efficiency of 82% designed for an output power of 3W at 1.25 MHz working frequency. The proposed automatic impedance tuning system has been designed in two versions: a PCB version and an integrated circuit (IC) version. Unlike the typical auto-impedance tuning networks, there is no need of microprogrammed control unit (MCU) or computer in the proposed design. Besides, without using bulky magnetic components, this auto-tuning system is completely compatible with MRI equipment. The PCB version was designed to verify the principle of the proposed automatic impedance tuning system, and it is also used to help the design of the integrated circuit. The PCB realization occupies a surface of 110cm². The test results confirmed the expected performance. The proposed auto-tuning system can perfectly cancel the imaginary impedance of the transducer, and it can also compensate the impedance drifting caused by unavoidable variations (temperature variation, technical dispersion, etc.). The IC design of the auto-tuning system is realized in a CMOS process (C35B4C3) provided by Austrian Micro Systems (AMS). The die area of the integrated circuit is only 0.42mm². This circuit design can provide a wide working frequency range while keeping a very low power consumption (137 mW). According to the simulation results, the power efficiency can be improved can up to 20% by using this auto-tuning circuit compared with that using the static tuning network
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Hsieh, Chang-Hsien, and 謝章顯. "Automatic Transfer Switch Using Programmable Logic Controller with Dual Backup Source." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/r62t6n.

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碩士
國立臺北科技大學
電機工程系所
93
Think about the stability and reliability of the electric power supply, the very important place such as hospital or a pumping station, ATS used for main power source and backup generator interchangeable selection. General, ATS system provided one generator for backup power source controlled by a printed circuit board, when main power is failure, ATS switch to the position of generator and starting the generator on the same time and the electric power can be supply to load continuously. The research use two generators for backup source that should be exchangeable each other, and add one more ATS that controlled by PLC and implement in a pumping station successfully. At first, the research introduce the principle of ATS using single generator, including the detection of the failure of main power, starting control of generator, automatic control of frequency and voltage, malfunction detection and control such as over voltage、under voltage、over speed and low frequency, etc. Then study the character of PLC and it development recently, and apply to use two generators as backup power source to alternate running between each other and form a control logic diagram and structure of hardware. The starting control of generator including the same as single generator for backup power source in common base control of the value of frequency and voltage, and augment the right priority of starting of generator with automatic selection, cover the detection and switch over control when the failure take place at generator in initial starting condition.
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Chang, Kuang-Wei, and 張匡維. "Development and Application of Automatic Transfer Switch for Energy-Saving within Intelligent Server Rack System." Thesis, 2014. http://ndltd.ncl.edu.tw/handle/4q4fr6.

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碩士
國立臺北科技大學
機電整合研究所
102
As the Cloud service evolved rapidly and the service demand of information technology increases quickly, the redundant power system within the data center infrastructure is more important than ever for ensuring the critical equipment’s stability and safety. This paper studies the hardware circuitry design of the automatic transfer switch (ATS) developed by a particular company, and then utilizes such design on a software platform. This study takes the design, which is already used in the industry, to do further improvement on cost and safety mechanism, and then discusses its relationship with the server rack’s energy-saving and application. The major findings are as the following: 1、The current ATS designs within the industry are all based on a single machine unit. This paper develops a dual-machine design and implements module integrated concept, cost down, and additional hardware safety for competivity. This design adheres to the requirement of TIA-942-2005 Tier II level, which ensures its applicability, stability, and safety. 2、The installation of the products within the current industry is to physically fix it onto a server machine unit. This paper develops a hot-swapable module for machine front-end installation while still keeping the power on, which lowers the maintenance time and cost and enhances operators’ safety. 3、Server rack must not be powered off and must have high reliability, and so it should use a fast-speed transfer switch module with low component failure rate. The current industry utilizes the high-cost solid state relay (SSR) design, while this paper utilizes the silicon controlled rectifier (SCR) design for lower cost and high reliability. The comparison is based on mean time between failure (MTBF) The findings of this paper can be a referenced for further academic study and enterprise’s application development.
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Book chapters on the topic "Automatic transfer switch"

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Zhao, Liang, Jian Zhang, He Zhu, Xiaoxiao Cheng, and Feifei Zhang. "Static Security Analysis of the Regional Power Grid Based on the Busbar Automatic Transfer Switch." In Lecture Notes in Electrical Engineering, 419–26. Cham: Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-01273-5_46.

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Conference papers on the topic "Automatic transfer switch"

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Akhunov, F. I., F. F. Isaev, A. R. Soliyev, and Sh R. Djukharov. "Development of automatic transfer switch." In 2016 International Conference on Information Science and Communications Technologies (ICISCT). IEEE, 2016. http://dx.doi.org/10.1109/icisct.2016.7777376.

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Deaconu, Ioan-Dragos, Marilena Stanculescu, Aurel-Ionut Chirila, Valentin Navrapescu, and Horia Andrei. "On Automatic Transfer Switch System Security." In 2018 International Conference on Applied and Theoretical Electricity (ICATE). IEEE, 2018. http://dx.doi.org/10.1109/icate.2018.8551369.

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Azeem, M. Qaisar, Habib-ur-Rehman, Sheeraz Ahmed, and Amjad Khattak. "Design and analysis of switching in automatic transfer switch for load transfer." In 2016 International Conference on Open Source Systems & Technologies (ICOSST). IEEE, 2016. http://dx.doi.org/10.1109/icosst.2016.7838589.

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Romero, M. E. V., L. G. Wesz da Silva, and J. R. S. Mantovani. "Optimal switch allocation for automatic load transfer in distribution substations." In 2011 IEEE PES PowerTech - Trondheim. IEEE, 2011. http://dx.doi.org/10.1109/ptc.2011.6019208.

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Tsyruk, S. A., S. I. Gamazin, Y. N. Ryzhkova, and K. F. Charafeddine. "Determination of Source Fault Using Fast Acting Automatic Transfer Switch." In 2018 Dynamics of Systems, Mechanisms and Machines (Dynamics). IEEE, 2018. http://dx.doi.org/10.1109/dynamics.2018.8601484.

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Boteza, Aurel, Radu Tirnovan, Ioan Boiciuc, Silviu Stefanescu, and Dan Rafiroiu. "Automatic transfer switch using IEC 61850 protocol in smart grids." In 2014 International Conference and Exposition on Electrical and Power Engineering (EPE). IEEE, 2014. http://dx.doi.org/10.1109/icepe.2014.6970073.

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Stanchev, Plamen, and Mediha Mehmed-Hamza. "Simulation Training Models for an Automatic Transfer Switch and Relay Protection." In 2020 21st International Symposium on Electrical Apparatus & Technologies (SIELA). IEEE, 2020. http://dx.doi.org/10.1109/siela49118.2020.9167151.

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Hasanah, Rini Nur, Soeprapto Soeprapto, and Hari Purnomo Adi. "Arduino-Based Automatic Transfer Switch for Domestic Emergency Power Generator-Set." In 2018 2nd IEEE Advanced Information Management,Communicates, Electronic and Automation Control Conference (IMCEC). IEEE, 2018. http://dx.doi.org/10.1109/imcec.2018.8469629.

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Darmanto, Nugroho Agus, and Bhaskara Wisnu Ardli Mahardika. "Design and Development of Automatic Transfer Switch System, Energy Saving Emergency Panel." In 2020 7th International Conference on Information Technology, Computer, and Electrical Engineering (ICITACEE). IEEE, 2020. http://dx.doi.org/10.1109/icitacee50144.2020.9239160.

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Noel, J. G. "Design of an 10 kVA-45 A automatic static transfer switch module." In 7th IET International Conference on Power Electronics, Machines and Drives (PEMD 2014). Institution of Engineering and Technology, 2014. http://dx.doi.org/10.1049/cp.2014.0468.

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