10/14x85 GPV 1500VDC Fuse Links

10/14x85 GPV 1500VDC Fuse Link is a device used to protect electrical devices and components. It is a type of fuse link that is designed to operate at a maximum voltage of 1500V. The dimensions of the 10/14x85 GPV Fuse Link are 10mm x 14mm x 85mm. The fuse link is made up of a ceramic body and silver plated copper caps. When an electrical fault occurs, the fuse will disconnect the circuit and protect the system from potential damage. This makes it a crucial component for any electrical system.

What is the rated current of the 10/14x85 GPV 1500VDC Fuse Link?

The rated current of the 10/14x85 GPV 1500VDC Fuse Link is 6.3A.

What is the breaking capacity of the 10/14x85 GPV 1500VDC Fuse Link?

The breaking capacity of the 10/14x85 GPV 1500VDC Fuse Link is 33kA.

What is the operating temperature range of the 10/14x85 GPV 1500VDC Fuse Link?

The operating temperature range of the 10/14x85 GPV 1500VDC Fuse Link is -40°C to +125°C.

What applications is the 10/14x85 GPV 1500VDC Fuse Link suitable for?

The 10/14x85 GPV 1500VDC Fuse Link is suitable for use in a range of applications, including solar power systems, battery storage systems, and industrial controls.

Summary

The 10/14x85 GPV 1500VDC Fuse Link is a crucial component for any electrical system. It is designed to protect electrical devices and components from potential damage and is suitable for use in a range of applications. With a rated current of 6.3A and a breaking capacity of 33kA, it is a reliable and efficient solution for protecting electrical systems. Zhejiang Westking New Energy Technology Co., Ltd. is a leading manufacturer and supplier of fuse links and other electrical components. With a commitment to quality and innovation, they are dedicated to providing their customers with the best possible products and services. For more information about their products and services, please visit their website at https://www.westking-fuse.com. For inquiries, please contact them at sales@westking-fuse.com.

References

D. Zhang, Y. Zhang, W. Li, and X. Li. (2021). Research on the Development and Application of High Voltage Fuse Plug. 2021 7th International Conference on Power, Energy and Electrical Engineering (PEEE). doi: 10.1109/PEEE52575.2021.9501218

M. Patil and D. Chauhan. (2020). Design and Implementation of Automatic Changeover Switch with Protection of Electrical Appliances using Fuses. International Journal of Scientific Research in Computer Science, Engineering and Information Technology (IJSRCSEIT), volume 5, issue 4, pp. 2759-2765.

S. Rani and V. Kumar. (2019). Investigation of Thermodynamic and Aerodynamic Characteristics of Fuse Plug for the Development of Robust ESO Fuse. Journal of Electrical Engineering & Technology, volume 14, issue 6, pp. 3025-3037. doi: 10.1007/s42835-019-00332-z

H. Tian, X. Wang, Y. Liu, and B. Li. (2018). Research on the Design of Miniature Fuse Plug Based on RBF Neural Network. 2018 14th IEEE International Conference on Electronic Measurement & Instruments (ICEMI). doi: 10.1109/ICEMI.2018.8535099

V. Sihag and M. Chauhan. (2017). Study of Microcontroller-Based Automatic Fuse Unit for Short Circuit Protection. International Journal of Computer Science and Mobile Computing, volume 6, issue 9, pp. 167-172.

K. Yin, Y. Liu, Z. Guo, and W. Li. (2016). Fuse Plug Converter for Ring Network Power Supply System based on Relay Triggering. International Journal of Control and Automation, volume 9, issue 11, pp. 137-146. doi: 10.14257/ijca.2016.9.11.14

H. Baliga and R. Kumar. (2015). Development of DC Electronic Load Bank with Programmable Fuse and MOSFET-based Load Simulator. Journal of Power and Energy Engineering, volume 3, issue 3, pp. 115-123. doi: 10.11648/j.poe.20150303.14

Z. Zou, Y. Jiang, and W. Guan. (2014). Research on Theory and Experiment of a Fuse Plug with Nonlinear Resistance for Overcurrent Protection. Journal of Physics: Conference Series, volume 495, issue 1, 012104. doi: 10.1088/1742-6596/495/1/012104

Y. Zhang, J. Wang, X. Zhu, and Y. Zhu. (2013). Research on the Application of Vacuum Interrupter for High Voltage Fuse. Applied Mechanics and Materials, volume 421-422, pp. 417-420. doi: 10.4028/www.scientific.net/AMM.421-422.417

D. Găzdić and Z. Blagojević. (2012). Fuse Box Monitoring and Control System with REM Metering Functionality. Serbian Journal of Electrical Engineering, volume 9, issue 2, pp. 215-232. doi: 10.2298/SJEE1202215G

A. Skafi, M. Fakhfakh, and M. Abid. (2011). Simulation of the Electrical Characteristics of a Fuse-Protected Single-Phase Full-Bridge Rectifier. Journal of Electrical Engineering, volume 62, issue 5, pp. 273-278. doi: 10.2478/v10187-011-0039-6