Xerography
From Free net encyclopedia
Image:Carlson-Chester-F.gif Xerography (or Electrophotography) is a photocopying technique developed by Chester Carlson in 1938 and patented on October 6, 1942. He received United States Patent number 2,297,691 for his invention.
Xerography is used in most photocopying machines and in laser and LED printers.
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The Xerographic Process
The most common realization is an office photocopier, described here.
A metal cylinder is mounted to rotate about a horizontal axis, this is called the drum. It is about 150 mm ( 6 inches ) in diameter and the end to end dimension is the width of print to be produced plus a generous tolerance. The drum is manufactured with a surface coating of amorphous selenium (more recently ceramic or organic), by vacuum deposition. Amorphous selenium will hold an electrostatic charge in darkness and will conduct away such a charge under light.
The drum rotates at the speed of paper output. One revolution passes the drum surface through the steps described below. The drum may be a belt and there are variants at every step.
Step 1. Charging Electostatic charges are uniformly distributed over the surface of the drum by a corona discharge with output limited by a grid.
Step 2. Exposure The document to be copied is lit and passed over a lens, so that its image is projected onto the drum at exactly the same speed that the drum turns. In a laser or LED printer, a thin beam is modulated by the controller. Where there is text or image on the document, light will not penetrate to the drum; the opposite is true where there is no image. The light that penetrates releases the charge on the drum, but only where there is no image. The resulting charge that remains on the drum is called the 'latent' image and is a positive of the original document.
Step 3. Development During development, toner particles are attracted to the electrostatic latent image on the drum surface. Thus, a visible toner image is created.
Step 4. Transfer Paper is passed between the drum and the transfer corona. Because oppositely charged particles attract, the toner image is transferred from the drum or belt surface to the paper.
Step 5. Peeling Electric charges on the paper are partially neutralized by the detack saw. As a result, the paper is peeled off from the drum or belt surface.
Step 6. Fixing or Fusing The toner image is permanently fixed to the paper by heat and pressure.
Step 7. Cleaning The drum is discharged and the remaining toner is removed from the drum surface by a rotating brush under suction.
The development of xerography has led to new technologies that some predict will eventually eradicate traditional offset printing machines. These new machines that print in full CMYK color, such as Xeikon, use xerography but provide nearly the quality of traditional ink prints.
Xerography in animation
Ub Iwerks managed to adapt xerography to eliminate the hand-inking stage in the animation process by printing the animators drawings directly to the cels. At first only black lines were possible, but in the 80's lines in different colors was introduced. The most impressive animated features to use the xerographic process are films like Nimh and The Little Mermaid.
External links
Further reading
"Copies in Seconds: How a Lone Inventor and an Unknown Company Created the Biggest Communication Breakthrough Since Gutenberg - Chester Carlson and the Birth of the Xerox", by David Owenda:Xerografi es:Xerografía fr:Électrophotographie id:Xerografi it:Xerografia he:זירוגרפיה ru:Ксерокопирование