Case Studies
Case Studies
Get insight into the world of surge protection and witness some of the innovative solutions we’re implementing for clients around the world.
Food Processing
Food Processing KEY INSIGHT Manufacturing capacity and efficiency have seen huge growth through technological advancements in recent years, but this progress comes with new challenges.
Water Treatment
Water Treatment KEY INSIGHT Disrupted groundwater production, treatment, and distribution can affect the health and welfare of communities, not to mention hampering industrial operations and
Manufacturing
KEY INSIGHT Technological advancements in manufacturing have provided a major growth in production capacity and efficiency. Unfortunately, the electronic components that make these advancements possible
Oil Production
KEY INSIGHT Reacting to unplanned maintenance issues prevents teams from being able to focus on important tasks and projects. Not only is this frustrating, but
Water Production
KEY INSIGHT Reliable groundwater production is mission-critical to many communities, industrial operations, and other establishments. Replacing a downhole pump is typically a painful and expensive
Lighting
KEY INSIGHT New lighting technologies have overtaken the lighting industry based on low energy consumption and long-life expectancies. The energy savings are real, but many
Our Team
Talk With The Maxivolt Power Quality Team
A team of power quality specialist to help you find a solution for your power quality issues. With vast experiance and knowledge protecting industires from transient voltage, our team will help you with product selection, placement, and installation are critical to the performance of a surge protection system.
Over 35 Years Experience & Knowledge Protecting Industries from Transient Voltage
Product selection, placement, and installation are critical to the performance of a surge protection system. Maxivolt determines what devices are needed based on the immunity level of the specific electrical load to be protected. The placement of the devices is then determined based on the ideal location to maximize protection against both externally and internally generated power surges. Next the device must be installed as “the path of least resistance” in the system. Coordination of these 3 critical factors ensures the client’s surge protection system will perform to it’s optimum capabilities.
