APPARATUS PROCESSING SIGNALS

Brand Owner (click to sort) Address Description
INGRESS SAFE Technetix Group Limited Communications House, Edward Way Burgess Hill, W Sussex United Kingdom Apparatus for processing signals for digital television; apparatus for supplying and relaying signals for digital television; digital signal splitters; leads, cables, connectors, terminators and adaptors; filters and galvanic isolators;Installation, maintenance and repair of apparatus for processing, supplying or relaying signals; installation, maintenance and repair of apparatus for processing, supplying or relaying signals for digital television;
MODEM SAFE TECHNETIX B.V. Kazemat 5 Veenendaal 3905NR Netherlands Apparatus for processing signals for digital television, namely, cable television convertors; apparatus for supplying and relaying signals for digital television, namely, television receivers and transmitters, [aerials;] system protection and safety apparatus, namely, voltage surge protectors; integrated circuits; signal distribution equipment, namely, transmitters, receivers, splitters, [signals scramblers,] modulators and de-modulators; signal combiners, namely, electronic combiners for connecting antennas and receivers; digital signal splitters for electronic apparatus; surge protecting galvanic isolators; filters for radio interference suppression; [cable modems;] coaxial cable terminators and adaptors;Color is not claimed as a feature of the mark.;MODEM SAFE;
QUANTUM TRAP Eagle Comtronics, Inc. 7665 Henry Clay Blvd Liverpool NY 13088 apparatus for processing signals in cable television and audio transmission; namely, security encoders, decoders, traps, and transformers;TRAP;
 

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

    
Technical Examples
  1. The invention comprises a method and apparatus for processing signals reflecting a physiological characteristic by detecting the intensity of light following tissue absorption at two wavelengths and subtracting the best estimate of the desired signal from the difference between the signals. Corrected first and second intensity signals are determined by applying a residual derived from a combination of the first and second intensity signals as multiplied by a residual factor and subtracted from a difference between the first and second intensity signals to the first and second intensity signals. In one embodiment, the method and apparatus are used to determine arterial oxygen saturation.