TY - JOUR T1 - Domestic Battery Charge Unit Design and Production for Military Vehicle AU - Aktas, Ahmet PY - 2019 DA - July JF - The Eurasia Proceedings of Science Technology Engineering and Mathematics JO - EPSTEM PB - ISRES Publishing WT - DergiPark SN - 2602-3199 SP - 74 EP - 80 VL - 6 LA - en AB - As a result of increased researchand development expenditures on the branding of domestic products used in thedefense industry in our country, speed is given. The defense industryconstitutes a large share of the inventory of military vehicles in landvehicles. At the same time, military vehicles are exported to many units of thearmed forces. Domestic production of other hardware components used in thesevehicles will reduce external dependency. As a result of developments inelectronic communication and electro-optical technologies, such devices arewidely used in fixed point surveillance and command-control tasks. With thisstudy, original and locally designed and prototype production of batterycharging units have been realized in order to meet the energy needs of theelectronic systems in the fixed point services of military land vehicles fromthe network. Manufactured in accordance with military standards, the batterycharger unit is designed to extend the cycle life of the battery by controllingits temperature. With the battery charging unit realized, defense contributesto my country economically and strategically by decreasing the externaldependency by using indigenous and original resources in the industry. KW - Defense industry KW - Battery charge KW - Control systems KW - Power electronics CR - Bogosyan, S., Gokasan, M., and Goering, D. J., A Novel Model Validation and Estimation Approach for Hybrid Serial Electric Vehicles, IEEE Trans Veh Technol, vol. 56, pp. 1485-1497, 2007. Masrur, M. A., Skowronska, A. G., Hancock, J., Kolhoff, S. W., McGrew, D. Z., Vandiver, J. C. , and Gatherer, J., Military-Based Vehicle-to-Grid and Vehicle-to-Vehicle Microgrid-System Architecture and Implementation, IEEE Trans on Transp Electf, vol. 4, pp. 157-171, 2018. Lee, S., and Kim, J., Implementation methodology of powertrain for series-hybrid military vehicles applications equipped with hybrid energy storage, Energy, vol. 120, pp. 229-240, 2017. Antoniou, A. I., Komyathy, J., Bench, J., and Emadi, A., Modeling and Simulation of Various Hybrid-Electric Configurations of the High-Mobility Multipurpose Wheeled Vehicle (HMMWV), IEEE Trans Veh Technol, vol. 56, pp. 459-465, 2007. UR - https://dergipark.org.tr/en/pub/epstem/issue//605344 L1 - https://dergipark.org.tr/en/download/article-file/784861 ER -