Robert D Downing

53506596, Sep 27, 1994

Mar 31, 1993

8/040965

Frank P. Lee - Oakville, CA
Sheau V. Kao - Oakville, CA
Gerald R. Allison - Oakville, CA
Hadi K. Mahabadi - Etobicoke, CA
Geroge Liebermann - Mississauga, CA
Gopalan Vijayakumar - Fremont CA
Robert A. Downing - San Jose CA

Xerox Corporation - Stamford CT

G03G 500

430137

A method for making conductive toner particles includes (A) heat treating in fluidized bed processing equipment a mixture of non-conductive toner particles containing a thermoplastic resin and a colorant, and an effective amount of conductive powder blended with and coated on surfaces of the non-conductive toner particles, wherein the heat treatment is carried out at a temperature at or above the glass transition temperature of the resin for a period of time at least sufficient to fuse the conductive powder onto the surfaces of the non-conductive toner particles, and then (B) cooling the heated conductive toner particles to a temperature below the glass transition temperature of the resin. The final toner particles have a conductivity of at least about 10. sup. -8 ohm. sup. -1 -cm. sup. -1 and preferably from about 10. sup.

46601520, Apr 21, 1987

Jun 18, 1984

6/621965

Robert A. Downing - San Jose CA
Lorin K. Hansen - Fremont CA

Xerox Corporation - Stamford CT

G06G 757
G03G 1500
B67D 508

364509

A system is disclosed that monitors the concentration of material in a fluid carrier which includes means for circulating the fluid carrier within a substantially closed loop system and means for measuring the concentration of material carried in the fluid. The measuring means includes means to detect rapid changes in transmissivity of the fluid carrier, which are indicative of the presence of entrained air bubbles in the fluid carrier, so that measurements of material concentrate under such conditions may be ignored or rejected. Further, to ensure that an accurate measurement of concentrated material depletion is being observed, more than one consecutive measurement is made and validated before concentrate is finally added to the fluid carrier in the system. In the preferred embodiment, the determination of whether air bubbles may be entrained in the fluid carrier is accomplished by determining a disparity between two consecutively measured samples to have been greater than a predetermined value. If such a disparity exists, the measurement sampling rate is increased until the disparity between consecutively measured samples is again less than the predetermined value, at which time sampling is again performed at slower sampling rate.