Metal Plate Load Banks
Metallic plate load bank resistors are typically used for high power load testing of emergency power systems including generators, uninterruptible power supplies, turbines, battery systems and dynamic braking power dissipation for generators and large motors.
Resistor Special Features
Our metallic load elements feature the following design advantages:
- Use of special alloys for longer element life and consistent operating performance
- Load elements are fully supported across their entire length by vibration resistant stainless steel support rods with high-temperature ceramic insulators
- Ceramic insulators have excellent thermal shock resistance making them ideally suited for use in extreme climates
- Load elements assembled in discrete trays designed for modularity
- Spiral element design allows for much greater power density and heat dissipation
Resistor Specifications
- Load elements designed for compatibility with all typical voltages
- Each load element rated for 8.33kW 240/480V
- Maximum metallic alloy overload temperature: 1300°C
- Maximum operating temperature as applied in load system: 600°C.
If you have any questions or need more information, please contact one of our distributors or call us at 1-866-9-OHMITE.
Why Should You Partner with Ohmite?
Stability: Leader in Resistive Technology for 100 Years
Ohmite has manufactured resistors for 100 years! We've demonstrated a proven track record of creating quality resistive products for high power, high energy, and high voltage applications.
Flexibility: We are Experienced Problem Solvers
Whether it's our expansive catalog of standard parts, our many customization options for each series, or our ability to develop brand new products based on customer designs, Ohmite is dedicated to solving engineers' problems.
Accessibility: We're Here to Help as Trustworthy Partner
Ohmite's team of engineers are available to explain our technology, answer your questions, and consult on important design decisions to help make our customers' lives easier.