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The IBM 1403 line printer was introduced as part of the IBM 1401 computer in 1959 and had an especially long life in the IBM product line. The original model could print 600 lines of text per minute and could skip blank lines at up to 75 inches per second (190 cm/s). The standard model had 120 print positions. An additional 12 positions were available as an option. A print chain with up to five copies of the character set spun horizontally in front of the ribbon and paper. Hammers struck the paper from behind at exactly the right moment to print a character as it went by. In later models, the print chain was replaced by a print train; print slugs instead of being mounted on a chain were placed in a track. The standard 1403 chain or train could print 48 different characters: 26 letters, 10 digits, and 12 special characters: &, . - $ * / % # @ ≠ ⌑. Special chains or trains could be ordered for other character sets. Scientific users, for example, would use a chain that had the left parenthesis, the right parenthesis, and the plus sign in place of the per cent sign (%), the lozenge (⌑),〔The "lozenge" is the square lozenge ((U+2311 )) that resembles an overstuffed pillow, not the diamond-shaped one. Some Unicode typefaces do not render it correctly at this low resolution.〕 and the ampersand (&). The numerics chain had more copies of fewer characters. The ink ribbon was a long roll the width of the print area that was positioned between the print chain and the paper. The roll came in two parts, the feeder roll and take-up roll. The roll was constantly wound and rewound during printing. Like most IBM printers of the era, the 1403 used fan-folded paper with perforated edges for tractor feeding. A carriage control tape or, later, a buffer, under program control,〔this was system dependent〕 specified form length and the form line where printing was to begin so that paper of various sizes could be used. An IBM 1403 printer played a cameo role in Stanley Kubrick's 1964 movie Dr. Strangelove, serving as a hiding place for a portable radio. The overstrike capability of the printer was used to generate a wide range of grey-scale equivalents. Many images were scanned, pixelated and could be reproduced on the 1403, most notably the Mona Lisa.〔MacLeod, I.D.G., ("Pictorial Output with a Line Printer" ), ''IEEE Transactions on Computers'', February 1970, pp.160-162.〕〔Perry, Benson, Mendelsohn, Mortimer L., ("Picture Generation with a Standard Line Printer" ), ''Communications of the ACM'', v.7, pp.311-313, May 1964〕 These were noisy machines, especially when the cover was raised. Some people were able to create text that used the timing of the print hammers to generate desired frequencies and actually play music when that text was printed.〔(1403-generated music ) at the Computer History Museum〕 == History == Prior to the introduction of the model 1403, IBM printers utilized technology originally developed for their line of accounting machines. Models 402 and 405 used type bars.〔The IBM 402 Series of Accounting Machines, http://www.columbia.edu/cu/computinghistory/402.html〕 These were vertical bars, one for each print position. Each bar was one character wide with either the entire alphabet, including numerals and symbols, or just numerals & symbols only, molded into the front surface, in a single column. In printing, each bar was raised up until the correct character for that print position was opposite the paper, whereupon the bar was pushed toward the paper, so that the correct numeral or letter pressed against the ribbon, striking the paper much the way type slugs leave an impression on paper in a standard typewriter. This action was relatively slow, as it took time for each bar to be brought up into the correct position and then drop back down in preparation to print the next line. In the model 407, each type bar was replaced with a type wheel, with the characters along the outside edge. To print, each wheel was rotated to the correct character position, then the entire wheel was pushed forward to strike the paper. This action was somewhat faster in that the wheels were less massive than the bars and could be positioned more rapidly. Still, however, speeds of 150 lines per minute were all that were achieved. Although this might seem slow by later printing standards, the speed at which electromechanical accounting machines could read punched cards and perform their basic arithmetic functions meant that no faster printing speeds were needed. The IBM 1132 was the last printer manufactured by IBM to use this technology. When faster computers were developed, however, the speed of card reading, magnetic tape, and early disk drives, along with newer high speed transistorized circuits, meant that processing could be done at a much higher speed, and a faster print mechanism was needed to match the resulting productivity.〔Charles J. Bashe, et. al. ''IBM's Early Computers''. MIT Press, 1986, p.471-472〕 IBM's early computers, such as the IBM 701, were developed for higher speed calculation than was possible with earlier electromechanical calculating machines. They did not have a demand for high speed printing, as the results of massive calculations produced very little printed output. Around the time that the 1403 was introduced, IBM's line of computers had been largely divided into two lines, "scientific" and "business." However, as newer computers were being used for a greater variety of purposes, there was a need to print a greater variety of characters from a single device, including upper and lower case alphabets. With type bars and type wheels, changing character sets was impractical. The advent of the chain printer, as used in the 1403, allowed the type chain assembly to be removed and replaced within a few minutes. With the cover open, the print unit was unlatched and swung open, the ribbon roll covering the front of the chain was removed, whereupon the print chain assembly could be unlatched and lifted out. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「IBM 1403」の詳細全文を読む スポンサード リンク
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