Patent ID: 8374530

Claim:
A method for developing an electrostatic latent image on an image holding body the developed latent image comprising conductive toner particles to be transferred to a transfer medium, the method comprising: providing a developer assembly including a mixture of conductive toner particles and carrier particles wherein the conductive toner particles are devoid of an insulative layer, wherein the conductive particles consist essentially of particles selected from the group consisting of carbon and metal, and wherein the conductive particles have a resistance value of less than about 10 2 Ω-cm, wherein the mixture including the conductive toner particles in the developer assembly is positioned at a non-contact proximate position to the image holding body, wherein the mixture of carrier particles and conductive toner particles comprises both magnetic and non-magnetic materials, wherein the developer assembly further comprises: a magnetic assembly; a conductive non-magnetic rotating sleeve encapsulating the magnetic assembly, wherein the developer assembly is positioned such that the image holding body and the conductive non-magnetic rotating sleeve are at a non-contact proximate position with respect to one another; mixing the conductive toner particles with carrier particles such that the magnetic assembly attracts the mixture to the conductive non-magnetic rotating sleeve; charging the conductive toner particles in the mixture attracted to the conductive non-magnetic rotating sleeve by applying a voltage to the conductive non-magnetic rotating sleeve; and generating a first electric field and a second electric field associated with the developer assembly, the electric fields adapted to cause the conductive toner particles to leap from the developer assembly to the image holding body by the generated electric fields, wherein the conductive toner particles comprise non-magnetic conductive particles, wherein the carrier particles comprise magnetic carrier particles selected from the group consisting of ferrite and iron, whereby the conductive toner particles are held by mechanical forces of the magnetic carrier particles, wherein the developer assembly further comprises a development roller, wherein the development roller is at a non-contact proximate position with respect to the magnetic assembly and with respect to the conductive non-magnetic rotating sleeve and with respect to the image holding body, wherein the generated first electric field is adapted to cause the conductive particles to leap from the conductive non-magnetic rotating sleeve to the development roller, and wherein the generated second electric field is further adapted to next cause the conductive particles to leap from the development roller to the image holding body.