ATTENUATORS

Brand Owner (click to sort) Address Description
BE SURE WITH THE SHIELD JUUVA ENTERPRISES, INC. 2162 W. Grove Parkway, Suite 200 Pleasant Grove UT 84062 Attenuators, namely, radiation shields for protecting against electromagnetic emissions from cellular and other portable telephones;
CATION SHIELD JUUVA ENTERPRISES, INC. 2162 W. Grove Parkway, Suite 200 Pleasant Grove UT 84062 Attenuators, namely, radiation shields for protecting against electromagnetic emissions from cellular and other portable telephones;SHIELD;
EARSAVER TM Manufacturing, Inc. P.O. BOX 1324 635 TIMBER LANE EDMOND OK 73083 Attenuators; Audio processing equipment, namely, limiters and compressors; Earphones and headphones;EAR SAVER; EARPHONES SAVER;
PHANTOM Timothy Gregoire 727 N. Leose Lane Glendora CA 91741 Attenuators;
SMARTSHIELD WRAPHabillement 530 36th Avenue East Seattle WA 98112 Attenuators;SMART SHIELD;
TERMILODE MORGANITE RESISTORS LIMITED PAULSWAY, BEDE TRADING ESTATE JARROW ATTENUATORS, DUMMY LOADS AND MATCHED TERMINATIONS FOR USE IN PULSE AND CONTINUOUS WAVE, MICROWAVE AND ULTRA HIGH FREQUENCY ELECTRICAL EQUIPMENT SUCH AS RADAR RADIO COMMUNICATION AND LIKE APPARATUS;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A technique for manufacturing optical fixed attenuators in which two fibers are axially cojoined using fusion splicing. The spliced fibers are then captured in either a splice protection splint or cylindrical ferrule that can be housed in an optical adapter. In this process for producing the attenuator, the fusion splicing is preceded by a deformation of the mode field diameters of the ends of the fibers with the cleaning arc function of the splicing unit. The resulting attenuation of the splice is dependent on the amount of deformation of the fiber core and mode field diameter. Such a technique enables precision attenuation with very low wavelength dependent loss to be fabricated. The performance of Dense Wavelength Division Multiplexing systems, as well as test facilities and individual optical components can be improved by the use of such attenuators.