OREA Series: Eliminates parasitic vibrations, and provides greater sound clarity and focus. The OREAs are ideal for electronic components including Amplifiers, DACs, CD Players, Speakers, and Turntables. Made of machined stainless steel, these isolators have a low-profile design to minimize any increase in height. Each OREA model is designed for different weight capacities. They each have a colored ring on the bottom isolator that denotes the model and weight capacity. The OREA series are packaged individually to allow greater flexibility when determining the number of units to use. We recommend a minimum of 3 units under each component, depending on weight. The upper flange of the OREA is designed to provide a suction cup-like effect and adhere to the underside of the component, while the lower flange adheres to the supporting surface. All the energy is managed within the core of the OREAs, which are tuned to work within specific weight ranges. This results in greater sound clarity and a more open soundstage providing authentic, three-dimensional sound. The existing feet on an audio component may connect well and fit nicely around the perimeter of the OREA isolator. Alternatively, you may get better performance by either removing the feet entirely or placing the OREAs beside the existing feet to have them connect directly to the chassis or base of the component. The OREAs are designed to be used in multiples to match the weight of the component or speaker. The total weight capacity is calculated as follows: Total Weight Capacity = [Weight cap. per isolator] x [Qty of Isolators] It is common to use 3 or 4 OREA isolators for each component or speaker but keep in mind that it is most important to stay within the weight capacity of the OREA isolator. The weight distribution of the component can also be taken into account. If for example, the component is heaviest at the back, then it is common to use 3 isolators with 2 positioned at the back corners and 1 positioned front/center. The weight limits are based on the performance curves which are illustrated in the chart below: