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Printing Devices

Printing Devices

The prediction that the computer would create a paperless office could not have been further from reality. More paper is being consumed as computer printing has become available to the masses. In fact, computers have created a new category of computingdesktop publishingthat produces printed paper of near-publication quality.

Printers provide a permanent paper record of computer output data, graphics, or text and are available in a wide variety of different speeds, features, and capabilities. Printers can also be used with different types of paper forms to print labels, stamps, bank checks, and a wide range of business forms. All printers have some level of variable recurring cost in toner cartridges that must be replaced when the toner is completely used. Printers have both a built-in character set and can download new character set fonts. The output of many printers takes the form of graphical bit maps that represent image dots exactly. Some printers have built-in processing capability to accept data in the form of a page description language, usually Adobe Postscript or Adobe Portable Document Format. The controller in the printer then processes the page description language to a bit map image within the printer itself. Memory is provided within the printer to store temporarily the bit-mapped image while it is being printed.

The performance of a printer is measured in speed and quality. The speed of a printer is measured by the number of pages printed per minute (ppm). Like a display screen, the quality or resolution of a printer's output is measured by the number of dots printed per inch (dpi). There are, however, two major differences between the dots used in printers and the pixels used in computer displays. The number of dots per inch in a printer is generally much higher (3001200 dpi) than the number of pixels per inch in a monitor (70100 dpi). While some printers can slightly vary the size of dots, in general the dots created by a printer are fixed in intensity, as opposed to pixels in a display, which can take an infinite range of intensities. To create an intermediate intensity, referred to as a half-tone, printers cluster groups of dots together in close proximity so that the human eye will perceive a gray or intermediate color.

Types of Printers

Regardless of the size of the system, quantity of printing, or capacity of the printer, modern printers use one of three technologies to print dots: dot matrix, inkjet, or laser.

Dot matrix technology results from physical impact of the print head onto paper. The print head on a dot matrix printer consists of a number of printing pins, usually between seven and twenty-four, whose positions can be controlled by individual electromagnets. When a current is applied, the corresponding pin is forced to strike the paper through an inked ribbon to form a dot. Using more pins and overlapping dots by multiple passes over the same line can increase print quality. Most dot matrix printers can operate in several modes offering different tradeoffs between print quality and speed.

In recent years, better print heads and more intelligent controllers have improved the size and accuracy of the dots so that dot matrix printers, originally only intended for character printing, can now print high-quality graphics with resolutions that rival laser printers. Multiple inked ribbons can be used to produce color. However, dot matrix color is not considered acceptable for most purposes. Dot matrix printers are inexpensive in terms of ink ribbon and are reliable, but they are slow, noisy, and poor at graphics. Dot matrix printers have three major uses: printing on large preprinted forms; printing on small pieces of paper (such as cash register receipts, ATM machine receipts, credit card transactions, and airline tickets); and multi-part, continuous forms with carbon paper in between.

Inkjet printers use nonimpact printing by spraying heated ink from a tiny nozzle onto paper. The tiny nozzle is smaller than the width of a human hair and the volume of each sprayed droplet is about one-millionth the volume of an eye-drop. Inside each nozzle, an ink droplet is electrically heated to its boiling point until it explodes so that the only place the ink can go is out the front of the nozzle. The nozzle is then cooled and the resulting vacuum sucks in another droplet of ink. The speed of the printer is thus limited by the length of the boil/cool cycle.

Inkjets have resolutions ranging from 300 dpi to 1440 dpi. Some inkjet printers use a vibrating piezo-crystal instead of heat to produce ink droplets. In ink jet printers, the electric current causes a deformation of the crystal that squeezes out the drop of ink. Mechanically the inkjet printer works similarly to a dot matrix printer. It moves across a page to print a row, and mechanical rollers move the paper downward to print successive rows. Multiple reservoirs of ink may be available to print multiple colors. Inkjet printers are popular for low-cost home printing because they are small and economical. However, they are slow and produce ink-soaked output that can be messy.

Laser printing is derived from xerography with the difference that the image is produced electronically from the computer using a laser or light-emitting diode rather than scanned with a bright light. There are four steps in the operation of a laser printer. First, a laser illuminates the dots to be printed on a photosensitive drum that becomes electrically charged wherever a dot is to be printed. Second, the photosensitive drum rotates the charged dots into a tank of black toner where the toner sticks to the drum wherever a charge is present. Third, a sheet of paper is fed toward the drum, coated with electrical charges, and contacts the drum, picking up the toner image from the drum. Finally, the toner image on the paper is heated in a fusing system that melts the toner into the paper while the drum has its charge erased by the corona wire in preparation for the next page.

Other Printing Devices

The complete set of colors that a printer can produce is called its gamut. No printer has a gamut that matches the real world. It is limited by colors, discrete intensities, imperfections, non-uniform spacing across the color spectrum, and human perception. Transferring a color image that looks perfect on a computer display to an identical printed page is difficult for the following reasons:

  • Display monitors use transmitted light, while color printers use reflected light;
  • Display monitors produce 256 intensities per color, while color printers use half-tones ;
  • Display monitors have a dark background, paper has a light background;
  • Display monitors have a RGB (red, green, blue) gamut and printers have a CYMK (cyan, yellow, magenta, black) gamut.

Common ways to print color images include the use of special inks and paper. Inkjet printers can use dye-based inks or pigment-based inks. Dye-based inks consist of colored dyes dissolved in a fluid carrier. They provide bright colors and flow easily. Pigment-based inks contain solid particles of pigment suspended in a fluid carrier that evaporates from the paper leaving the pigment behind. They do not fade in time like dye-based inks, but they are also not as bright, and the pigment particles tend to clog nozzles requiring periodic cleaning. Coated or glossy paper, specially designed to hold ink droplets and not let them spread, is required for printing photographs.

Solid ink printers are slightly higher quality than inkjet printers. These printers accept solid blocks of special waxy ink that is then melted in hot ink reservoirs. Startup times of these printers are long (typically ten minutes) while the ink blocks are melting. The hot ink is sprayed onto the paper, where it solidifies and is fused with the paper by forcing it between two hard rollers.

A step up from solid ink printers is a color laser printer. A color laser printer works exactly like a black and white laser printer, except an image is transferred to the roller using four different toners (the CYMK gamut). Because the full bit map of an image is generally produced in advance, the memory requirements make this type of printer expensive, but printing is fast, high quality, and images are stable over time. A 1200 by 1200 dpi image for a page containing 516 square centimeters or 80 square inches needs 115 million pixels. At 4 bits per pixel, the printer needs 55 MB just for the bit map, exclusive of memory for the internal processors and fonts.

For highest-quality color images, more specialized methods such as thermal wax transfer or dye sublimination are required. Sublimation is the scientific name for a solid changing into a gas without passing through a liquid state. The mechanisms for both methods are similar. The paper is fed into the printer and clamped against a drum with a print head providing a row of dot-sized heating elements. Between the paper and the print head, a roll of impregnated film is exposed. The heat from the print head melts the wax or dye onto the paper. The film is impregnated with either colored wax or dye in page-sized sections of cyan, yellow, magenta, and black.

For thermal wax transfer, the input paper is pre-coated with clear wax to compensate for slight paper imperfections and so that the wax may be applied more uniformly. For dye sublimation, the dyes diffuse and actually blend in the paper. Although dye sublimation can print continuous color tones without half toning, it also requires high temperatures and expensive specialized paper. The colors fade when exposed to ultraviolet light, such as that contained in sunlight. Small snapshot printers often use the dye sublimation process to produce highly realistic photographic images.

Organizations that produce and store significant copies of paper documents often use computer output microfilm (COM) devices to place data from a computer directly onto microfilm, thus eliminating the need for photographic conversion.

Evolution of Printing and Plotters

Early printers were derived from typewriters using daisywheel printers form characters that were mounted at the ends of arms attached to wheels shaped like a daisy. Like typewriters, printing resulted from the wheel rotating to the proper position and an energized magnet forcing the wheel through an inked ribbon onto paper. These printers were difficult to maintain and incapable of generating any graphical images or foreign words that could not be formed by the given set of formed characters. Most formed-character impact printers have disappeared from use. Nearly all modern computer printers produce their output as a combination of dots.

Plotters are hard-copy printing devices consisting of one or multiple independently maneuverable ink pens that are used for general design work such as blueprints, schematics, drawings, and plotting mathematical functions. Standard plot widths are 61 centimeters by 91.5 centimeters or 24 inches by 36 inches, but the attractive feature of plotters is limitless size when necessary for uses such as graphic arts.

see also Input Devices; Pointing Devices; Serial and Parallel Transmission.

William J. Yurcik

Bibliography

Chambers, Mark L. Printer Handbook, 2nd ed. Foster City, CA: IDG Books Worldwide, 2000.

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Typewriter and Printer Analysis

Typewriter and Printer Analysis

Criminals may type a document like a ransom note or a threatening letter in the mistaken belief that, unlike handwriting, typed script cannot be readily identified. However, the forensic document examiner may well be able to extract some valuable evidence from a typed document. The advent of modern office technology has brought about some important changes in this kind of work. Most documents today are produced on modern laser printers and photocopiers that are difficult to distinguish from one another. Manual typewriters are much more individual as machines and the investigator can glean far more information from a manually typed document than from a printed document.

While it is unusual to find a manual typewriter in a modern office, some people still keep these machines for personal use. They are also still found in some developing countries. Therefore, the forensic examination of typewritten documents can still be important. A manual typewriter has many moving parts that tend to deteriorate over time and introduce tiny faults into a printed document. The document examiner looks for these faults when trying to tie a document to a particular machine that may already be available as an item of evidence, perhaps having been found at a suspect's address.

Typewriters produce letters with standard typefaces, but the size, shape, and styling of the letters may vary with the make and model of the machine. There are databases with identifying information on the letters produced by different typewriters and a comparison may be informative. If a suspect machine is present, the investigator will use it to produce a comparison document to see how closely it resembles the questioned document. He or she will try to reproduce the conditions, such as paper, age of the typewriter ribbon, and so on, that were used to produce the original. A side-by-side visual comparison of the two documents may be sufficient to decide whether they have been produced by the same machine.

Manual typewriters in which the individual characters are fixed to the end of a type bar can produce a number of individual characteristics, such as misaligned or damaged letters, as the letters begin to age. There may also be subtle variations in the pressure applied to the page by different keys which will show up as differences in how heavily inked the letters are. The investigator will also look for tiny variations in the spacing between the letters.

Electric typewriters are more modern than manual machines and the letters are produced with either a daisy wheel or a golf ball. The most important feature of these two elements, from a forensic point of view, is that they start to deteriorate with increased use. Faults develop which are transferred to the typing on the paper and the examiner may be able to detect tiny flaws within the print. These same flaws will show up in a comparison document produced with the same machine and so can be used to help identify it.

Typewriter ribbons can be quite informative to the document examiner. The letters are stamped out on the paper as an image of the ink of the ribbon. Therefore the ribbon may bear an image of some of the letters and words of the document. The roller or platen of the typewriter may also contain information, because an image of the text may have been transferred to it. Tiny imperfections in the roller may also be transferred onto the document. Analysis of carbon paper, used to create copies, and correction papers may also reveal fragments of text from the document under investigation.

In most offices and homes, typewriters have now been replaced by printers. The first printers, which are not much seen now, were dot matrix printers. These were then superseded by ink jet and laser printers. It is relatively easy to determine whether a document was produced with a dot matrix, ink jet, or laser printer. Beyond this, however, it can be very hard to distinguish one make and model of printer from another. Printers are mass produced and they have fewer moving parts than typewriters which makes it hard to extract much identifying evidence that can tie a document to a particular machine. However, there may be tiny scratches on the drum of a laser printer which may be transferred onto the document.

Sometimes the investigator wants to determine whether a document is an original or a photocopy. Modern photocopiers have much the same mechanism as a laser printer. Minute faults on the camera lens, drum, or other part of the mechanism may be transferred onto the document. Similarly, specks of dust on the glass sheet where the paper to be copied is placed may transfer so called "trash marks" onto the copy. In this way, it might be possible to match a copy to a particular photocopier.

It was reported in late 2004 that, in an effort to assist governments trying to combat crimes such as counterfeiting, some color laser printer and copier manufacturing companies, such as Xerox, have begun utilizing technology that prints faint information, including the serial number of the machine, on every document it prints in small yellow dots that are virtually invisible to the naked eye. Though this technology is useful to those trying to combat crime, it also has privacy ramifications.

see also Document forgery; Ink analysis.

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printer

printer, device that reproduces text, images, or other data from a computer, digital camera, smartphone, or the like on paper or another medium.

Impact printers, which mostly have been superseded by ink-jet and laser printers, use a mechanical hammering device to produce each character. A formed character printer forces metal or plastic characters against an inked ribbon to produce a sharp image on paper; the characters may be on a moving bar, a rapidly rotating chain, a rotatable ball, or wheel spokes. A dot matrix printer uses a matrix of tiny pegs that, when hit from behind against a ribbon, impart a set of dots to form a character on the paper; a wide variety of characters and graphics is created using different dot combinations. Although noisy, impact printers can produce multiple copies of business forms simultaneously using carbon or carbonless techniques.

Nonimpact printers use thermal and electrostatic, rather than mechanical, techniques. Ink-jet printers, including bubble-jet printers, squirt heated ink through a matrix of holes to form characters or images. Laser printers form an image of the output on a selenium-coated drum using laser light that is turned on and off by data from the computer and then transfer the output from the drum using photocopying techniques. Thermal-wax-transfer printers and dye-sublimation printers use heat to transfer color pigment from a ribbon to a special paper to produce photographic-quality color images. Nonimpact printers are quieter than impact printers and produce higher quality output, especially of graphics, but at a greater cost per page.

See also laser printer.

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printer

printer An output device that converts the coded information from the processor into a readable or pictorial form on paper or transparent media. There are many types, varying in method, speed, and quality of printing: there are serial printers, line printers, and page printers, and these may be solid-font or matrix printers. Many matrix printers, including laser and inkjet printers, can act as plotters. Printer technology may or may not use mechanical impact to transfer ink (see impact printer, nonimpact printer).

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printer

printer printer's devil an errand-boy or junior assistant in a printing office; a devil is a person employed in a subordinate position to work under the direction of or for a particular person.
Printers' Bible an early 18th century edition with the misreading ‘Printers have persecuted me without a cause’ in Psalm 119, ‘printers’ being substituted for ‘princes’.

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printer

print·er / ˈprintər/ • n. a person whose job or business is commercial printing. ∎  a machine for printing text or pictures onto paper, esp. one linked to a computer.

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printer

printerbitter, committer, critter, embitter, emitter, fitter, flitter, fritter, glitter, gritter, hitter, jitter, knitter, litter, permitter, pitta, quitter, remitter, sitter, skitter, slitter, spitter, splitter, submitter, titter, transmitter, twitter, witter •drifter, grifter, lifter, shifter, sifter, snifter, uplifter •constrictor, contradictor, depicter, dicta, evictor, inflicter, predictor, victor •filter, kilter, philtre (US philter), quilter, tilter •Jacinta, midwinter, Minter, Pinta, Pinter, printer, splinter, sprinter, tinter, winter •sphincter •assister, ballista, bistre (US bister), blister, enlister, glister, lister, mister, resistor, Sandinista, sister, transistor, tryster, twister, vista •trickster •minster, spinster •hipster, quipster, tipster •cohabiter • arbiter • presbyter •exhibitor, inhibitor, prohibiter •Manchester • Chichester • Silchester •Rochester • Colchester •creditor, editor, subeditor •auditor • Perdita • taffeta • shopfitter •forfeiter • outfitter • counterfeiter •register • marketer •cricketer, picketer •Alistair • weightlifter • filleter •fillister • shoplifter •diameter, heptameter, hexameter, parameter, pentameter, tetrameter •Axminster • Westminster •limiter, perimeter, scimitar, velocimeter •accelerometer, anemometer, barometer, gasometer, geometer, manometer, micrometer, milometer, olfactometer, optometer, pedometer, photometer, pyrometer, speedometer, swingometer, tachometer, thermometer •Kidderminster • janitor •banister, canister •primogenitor, progenitor, senator •administer, maladminister, minister, sinister •monitor • per capita • carpenter •spanakopita • Jupiter • trumpeter •character • barrister • ferreter •teleprinter •chorister, forester •interpreter, misinterpreter •capacitor • ancestor • Exeter •stepsister •elicitor, solicitor •babysitter • house-sitter • bullshitter •competitor • catheter • harvester •riveter • banqueter • non sequitur •loquitur •inquisitor, visitor •compositor, expositor

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