Oyaide Power Receptacle R-1

Oyaide Power Receptacle R-1
Item# R-1
Availability: Usually ships the next business day

Product Description

Oyaide Power Receptacle R-1
Oyaide Power Receptacle R-1

The R-1 inherited the basic exterior design of SWO-ULTIMO series. However, responding to needs of users, it can be used for both 20A and 15A.

30% glass filled PBT is employed for its excellent machining characteristic and electrical isolation. Created under extremely high pressure, the body of the R-1 outlets is highly rigid. Its weight is increased over the previous model and improves damping ability. As a result of improved processing accuracy, the holding power of the blade is improved and unnecessary vibration is attenuated to the maximum extent possible. Moreover, its internal structural layout is that of a highly engineered load distribution.

■ Mounting flame

The 1.5mm thick gold mounting flame has preeminent strength and protects against the feedback of unnecessary vibrations from the wall. The housing is that of the R-1 made with the ultimate in design and materials.

■ Screws/Junctions

All screws are made of stainless steel. Due to its high rigidity, there is no problem such as screw head rounded off. The maximum cable size is 5.5sq.In thorough testing, the cable has never separated from the plug by a force less than 30kg.

■ Plating Process

To complete the R-1, the manufacturing process is started from foundation coating. The material which was punched out as a part is polished by hand piece by piece after machined barrel-polishing. The plating of the R-1 is a combination of platinum and palladium which was selected as a result of repeated listening tests. The inner platinum layer is 0.5 microns thick and the outer palladium layer is 0.3 microns thick.

■ Contact

The contact of the R1 is made of beryllium copper-same as the F1/M1 series using a new and high level of performance. The use of heat treated beryllium copper insures mechanical integrity and high conductivity. It is 1.0mm thick and 6.0mm in width, reducing vibration at the point of contact with no loss of signal transmission.