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INFORMATION EPSON EPSON AMERICA, INC. Product Support Bulletin Subject: Epson Dot - Matrix Printer Options and Accessories Date: 8/11/89 PSB No: P-1117B Page: 1 of 2 Originator: RFA 9 - PIN DOT MATRIX OPTIONS FX-1050 LX-810 FX-850 DFX-5000 TRACTOR UNITS...
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PSB No: P-1117B Page: 2 of 2 24 - PIN MATRIX OPTIONS LQ-1050 LQ-2550 LQ-510 LQ-850 LQ-950 TRACTOR UNITS 7314-A PULL TRACTOR 7313-A 7312-A C800061 7311-A CUT SHEET FEEDERS SINGLE BIN 7340-A C806121 7339-A 7345-A 7348-A 7343-A DOUBLE BIN 7346-A 7347-A 7762 7767...
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Product Support Bulletin Subject: Power Specifications Date: 2/7/90 PSB No: P-0060 Originator: RFB Page: 1 of 2 The following information is a list of the power requirements for the Epson 9 and 24 pin printers and laser printers. 504 VA maximum...
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84 VA maximum 286.69 If the power requirements of a particular Epson printer is not listed please refer to the appropriate User's Manual for the electrical specifications. In the event that the User's Manual is not available, locate the silver label This is a reliable source for the electrical on the back of the Epson printer.
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EPSON EPSON AMERIC& INC. Product Support Bulletin Subject: Quick Reference for Current Dot-Matrix Printer Print Speeds Date: 10/9/92 PSB No: P-0030C Page(s): 1 of 1 Originator: SLS 9 - P I N P R I N T E R S Model D”:,“n”-“,““c”p4...
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Page(s): 1 of 1 Originator: SLS This PSB provides a quick reference for the paper specifications on Epson’s current line of 9-pin and 24-pin dot-matrix printers when using continuous paper. The ‘Maximum No. of Copies” is the maximum allowable number of copies when using continuous multi-part carbonless paper.
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EPSON EPSON AMERICA, INC. Product Support Bulletin Subject: Quick Reference for Printer Acoustic Noise Levels Date: 6/5/91 PSB No: P-0016D Page(s): 1 of 2 Originator: SLS Sound intensity is measured in units called Bels (named after Alexander Graham Bell,) or more commonly in tenths of this fundamental unit: decibels. In making noise measurements a weighting network is applied in an attempt to match the frequency response of the instrument to that of the human ear.