Product Description

The RZW02.1-400-006 braking resistor excels as a robust and reliable solution for industrial applications requiring effective energy dissipation. Constructed from galvanized steel, this housing ensures maximum durability even in demanding environments. The steel material stands up to corrosion and withstands a wide range of temperatures from sub-zero storage to optimal performance in operation. With a capacity of 22.5 kW, this resistor handles significant power demands. Its 1.8 ohm resistance value couples perfectly with the generous power rating to smoothly and consistently dissipate braking energy.

Inside the steel exterior works an engineering design optimized for thermal and electrical efficiency. Components chosen for their conductive qualities swiftly direct braking currents out of mechanical systems. Generated heat spreads uniformly and dissipates harmlessly, keeping the interior cool during repeated use. This carries out the core function of energy dissipation without overstressing internal parts. As a result, the resistor reliably meets braking demands over thousands of duty cycles. For installation, the resistor offers versatility through common M6 and M8 connection terminals. These standardized fasteners simplify attachment to various machine braking circuits. Straightforward connections accelerate the integration process. Additionally, the resistor stays compact at 386 mm wide by 92 mm deep and 120 mm tall, allowing placement in tight mechanical spaces. Its size allows for out-of-the-way mounting without compromising performance.

During operation, the braking resistor cycles effectively from zero to full demand and back repeatedly. Its responsive, precisely regulated resistance immediately redirects mechanical braking energy as electrical power. Internal components handle high currents smoothly without damage or loss of efficacy. The steel housing also shields these parts while channeling heat to the exterior for dissipation without escalation. As a result, the resistor proves durable through extensive braking duty. The resistor also proves application-flexible through a functioning range down to freezing and up to comfortable working temperatures.