ELMEC Technology of America, Inc.is the OEM Sales Office of ELMEC Corporation selling ELMEC's superior high-speed delay lines to the world. A privately held company established in 1981, ELMEC is headquartered in Kawasaki, Japan, with 24x7 manufacturing facilities in Matsue, Japan. ELMEC holds 39 patents in Japan and 24 patents in the U.S. for its innovative delay line technology.
ELMEC Technology of America, Inc. handles direct sales of the ELMEC product line through El Monte-California based sales offices and warehouses. The market leader for delay line products in Japan, today they are rapidly gaining market share in North America, Europe, Middle East and Asia.
1. Super High-Speed, High-Density Delay Lines
With distributed constant or lumped constant structures, ELMEC’s delay line components have a super high-speed, high-density design achieved through our unique development process to make the most of your logic applications.
The distributed constant types; the SIP FDC type and the SMD CDA type are made using a unique micro strip pattern for an extremely dense formation with super high-speed. The lumped constant types; the SIP FDC and FDD types and SMD CDA type have an extremely compact form while housing high-density components. The FDC and FDD types have a 15 section structure (this is normally a 5 section structure for other companies) so even with the same delay time, the cutoff frequency is high. This makes it possible to pass very high-speed signals.
2. High-Resolution Variable Mechanisms
ELMEC has succeeded in developing high-resolution variable mechanisms that can obtain resolutions higher than those previously available.
VDA and VDS type high-speed variable delay lines have been designed for superior performance.The VDS type houses a 20 section delay component. This allows 20 step variability with each step be a 5% increment. The VDS has over 40 mechanical stability step points, and is designed to obtain delay time changes at a finer level than 5% demonstrating the capabilities of these high-resolution variable mechanisms.