PET STUFF

Brand Owner (click to sort) Address Description
PETSTUFF PETSMART, INC. 19601 N. 27TH AVENUE PHOENIX AZ 85027 PET STUFF;retail pet supply store services;
PETSTUFF PETSMART, INC. 19601 N. 27TH AVENUE PHOENIX AZ 85027 PET STUFF;retail pet supply store services;
PETSTUFF PET STUFF AMERICA 250 PARKWAY DRIVE, SUITE 270 LINCOLNSHIRE IL 60069 PET STUFF;The mark consists of a black shaded circle with a green outline featuring a tiny green paw print outlined in black displayed in the upper half of the circle and above the wording PET in white and STUFF in green.;Clothing for pets;Pet toys;Deodorizers for household pet litter boxes, urine odor removers for household pet litter boxes, medicated grooming preparations for pets, namely, paw and nose balms, spray sanitizer and shampoos for cleaning, soothing and itch relief for pets' skin, pre-moistened medicated wipes for cleaning pets' paws, face and eyes, and shampoo for cleaning pets' ears; deodorizing cleaning and sanitizing preparations for pet toys and pet bowls;Disposable house training pads for pets;Pet feeding mats and pet litter pan floor mats;Deodorants for pets, deodorizers for pets, odor removers for pets, pet stain removers, toothpaste for pets;The color(s) green, white, and black is/are claimed as a feature of the mark.;Pet feeding and drinking bowls;PET STUFF;Beds for household pets;Pet treats, edible pet treats, consumable pet chews;
 

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

    
Technical Examples
  1. A digital communications system that can asynchronously map/de-map digital signals from one clock domain to another, while reducing mapping jitter levels and permitting higher levels of integration. The digital communications system includes an asynchronous stuff bit insertion circuit, an asynchronous stuff bit removal circuit, and a communications network connected therebetween. The asynchronous stuff bit insertion circuit includes a first elastic store, a barrel shifter, and a stuffing circuit. The asynchronous stuff bit removal circuit includes a de-stuffing circuit, a second elastic store, and a frequency control path including a phase-locked loop having a variable divider circuit, the operation of which is controlled based on the presence/absence of stuff bits in the data provided to the de-stuffing circuit. By employing the first elastic store for temporary gross data frame storage and the barrel shifter for temporary fine data frame storage to reduce the number of gates in the asynchronous stuff bit insertion circuit, integration levels are increased. Further, by employing the frequency control path in the asynchronous stuff bit removal circuit to recover the clock signal of the first clock domain, mapping jitter levels in the digital communications system are reduced.