(2) Laird Technologies offers its line of low profile beryllium copper shielding fingerstock. Simple installation is accomplished by hooking one end of the gasket onto the edge of the housing. The other end is secured with pressure sensitive adhesive (PSA) with extra-wide release liner and designed with a teardrop feature to improve surface contact. Ideally suited for low profile, bi-directional applications such as the rack mounting of linecards in telecommunications equipment. The gaskets offer high shielding performance in applications where space may be limited.
(2) Laird Technologies offers its line of low profile beryllium copper shielding fingerstock. The gaskets are provided with pressure sensitive adhesive tape with an extra wide release liner to facilitate secure placement and ease of application.
The Mini-Longitudinal Grounding Gasket is designed to accommodate small applications which often require lower compression forces. Available in UltraSoft low compression version (98-974).
This series of beryllium copper strips combines finger compression with the direction of motion in the longitudinal axis. Available in UltraSoft low compression version (98-975).
UltraSoft (98-Series) products are available in the same lengths as the standard (97-Series) products. All UltraSoft products are also available in your choice of finishes. UltraSoft fingers have been designed for communications, computers and electronic systems designers concerned with EMI compliance and lightweight enclosure designs. Available in the same full range of standard configurations, UltraSoft fingers offer designers greater flexibility and versatility than ever before- permitting more extensive use of lighter, thinner construction materials to help cut costs and/or enhance system performance.
(10) Obtaining the same level of shielding effectiveness shown in the following tested gaskets to MIL-DTL-83528, Para. 4.6.12 or SAE ARP 1705 may not be accomplished without an equivalent test flange/fixture configuration. Many mechanical factors (size, tolerances, cover plate fastening/holding, flange stiffness, etc.) influence performance by enhancing or lowering shielding effectiveness.
