2.4kV – 38kV Load Interrupter metal-enclosed medium-voltage switchgear, MVS Mini
0:30
The quick-make, quick-break mechanism on MVS switchgear provides full-load current interrupting capability, while fuses deliver accurate, permanently calibrated short-circuit detecting and interrupting capabilities. To meet the varied needs of multiple applications, MVS is available in arc-resistant, narrow design and mini switchgear options, in both stand-alone or line-ups. MVS switches are ideal for transformer primaries, duplex switches and selector switches. Eaton’s MVS load interrupter switchgear is designed and tested to meet or exceeds the requirements of IEEE, ANSI and NEMA industry standards.
The quick-make, quick-break mechanism on MVS switchgear provides full-load current interrupting capability, while fuses deliver accurate, permanently calibrated short-circuit detecting and interrupting capabilities. To meet the varied needs of multiple applications, MVS is available in arc-resistant, narrow design and mini switchgear options, in both stand-alone or line-ups. MVS switches are ideal for transformer primaries, duplex switches and selector switches. Eaton’s MVS load interrupter switchgear is designed and tested to meet or exceeds the requirements of IEEE, ANSI and NEMA industry standards.
Related videos for "medium voltage switchgear design"
-
How to select medium-voltage switchgear
9:13
In this video, our expert Dakota Larson showcases a video that walks through the aspects of air-insulated and gas-insulated medium-voltage switchgear designs to consider when selecting medium-voltage switchgear.
-
Medium voltage drives and synchronous transfer control
15:52
In this video we discuss medium voltage drives and illustrate the synchronous transfer system in various applications.
-
Medium-voltage switchgear fundamentals | Eaton PSEC
15:50
Explore medium-voltage switchgear types including metal-clad, metal-enclosed, and compact switchgear. Learn key standards, design features, and advancements that enhance reliability, reduce downtime, and improve protection in power systems.
