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A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of Epson SQ-2000, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.
What is an instruction?
The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of Epson SQ-2000 one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.
Unfortunately, only a few customers devote their time to read an instruction of Epson SQ-2000. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.
What should a perfect user manual contain?
First and foremost, an user manual of Epson SQ-2000 should contain:
- informations concerning technical data of Epson SQ-2000
- name of the manufacturer and a year of construction of the Epson SQ-2000 item
- rules of operation, control and maintenance of the Epson SQ-2000 item
- safety signs and mark certificates which confirm compatibility with appropriate standards
Why don't we read the manuals?
Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of Epson SQ-2000 alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of Epson SQ-2000, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the Epson service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of Epson SQ-2000.
Why one should read the manuals?
It is mostly in the manuals where we will find the details concerning construction and possibility of the Epson SQ-2000 item, and its use of respective accessory, as well as information concerning all the functions and facilities.
After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.
Table of contents for the manual
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Page 1
EPSON SQ-2000 Printer Operating Manual[...]
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Page 2
FCC COMPLIANCE STATEMENT FOR AMERICAN USERS This equipment generates and uses radio frequency energy and if not installed and used properly, that is, in strict accordance with the manufacturer’s instructions, may cause interference to radio and television reception. It has been type tested and found to comply with the limits for a Class B computi[...]
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Page 3
Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 About This Manual . . . . . . . . . . . . . . . . . . . . . . . . 2 1 10 Steps to Printing ....................... . Selecting the Right Location ............... . Unpacking the Printer .[...]
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Page 4
3 Using the SQ-2000 ....................... . Using the SQ-2000 with Word Processors ... . Using the SQ-2000 with other application programs ............................. . Programming with the SQ-2000 ........... . Computer-to-printer communications ... . ASCII codes ........................... . Control codes ......................... . ESCape se[...]
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Page 5
6 DotGraphics.. ........................... . How the SQ-2000 Prints Dot Graphics ....... . Syntax of the Graphics Command ........... . Using Hand-Calculated Data to Print Graphics. . ............................. . Printing Multiple Lines of 8-Dot Graphics ... . Using the 24-Dot Graphics Options ......... . Using the SQ-2000 as a Plotter ........[...]
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Page 6
Appendixes A SQ-2000 Command Summary ......... . Vertical Spacing Commands ........... . Horizontal Spacing Commands ......... . Print Style Commands ................. . Character Set Commands ............. . Graphics Commands ................. . Miscellaneous Commands ............. . . . . . . . . . . . . . . . . . . . B ASCII Code Conversion Char[...]
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Page 7
Figures 1-1 1-2 1-3 1-4 1-5 1-6 1-7 1-8 1-9 Printer location ........................... . Printerparts ............................. . Interface card installed Installing the paper feed knob’ . ... ........... . ........... . The ink cartridge ......................... . Installing the single-sheet paper guide ..... . Removing the protective pla[...]
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Page 8
6-6 6-7 6-8 Map of 24-dot graphics ................... . Data layout for 24-dot graphics ............. . Eight-dot (top) and 24-dot (bottom) versions of the density ............................. . 6-9 Figure produced by plotting program ....... . 6-10 Order of array elements ................... . 6-11 Curve produced by minor change in plotting prog[...]
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Page 9
Tables 2-1 Messages of panel indicator lights ......... . 3-1 Proportional print styles ................... . 3-2 Draft pica print styles ..................... . 3-3 Draft elite print styles ..................... . 3-4 Letter quality pica print styles ............. . 3-5 Letter quality elite print styles ............. . 5- l User-defined character [...]
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Page 10
Introduction The Epson SQ-2000 Ink Jet Printer gives you the versatility, speed, and graphics capability of a dot matrix printer, together with print quality close to that of a daisy wheel printer. A major advantage of the ink jet is its quiet operation, which sets it in a class by itself. Features Like a conventional dot matrix printer, the SQ-200[...]
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Page 11
About the Manual This manual contains all the information you need to operate the SQ-2000. In the first section, you’ll find the necessary details to get your SQ-2000 up and running. The second part of the manual contains information on how to take full advantage of some of the printer’s special features. Chapter 1 shows you how to print your f[...]
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Page 12
Chapter 1 10 steps to Printing Setting up your SQ-2000 is simple and straightforward, even if you’ve never used a printer before. In this chapter, you’ll learn how to set up your printer and perform your first printing job in 10 easy steps, shown on the next two pages. 3[...]
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1 2 Unpacking the printer Putting on the paper feed knob 3 Installing the ink cartridge 4 Setting up the paper guide 5 Installing the inferface card 4[...]
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6 Connecting the printer 7 Customizing the printer 8 Loading the paper 9 Self-testing the printer ABCDEFGHIJKLMNOPQRSTUVWXYZ[] BCDEFGHIJKLMNOPQRSTUVWXYZ[]^ CDEFGHIJKLMNOPQRSTUVWXYZ[]^_ DEFGHIJKLMNOPQRSTUVWXYZ[]^_' EFGHIJKLMNOPQRSTUVWXYZ[]^_'a FGHIJKLMNOPQRSTUVWXYZ[]^_'ab GHIJKLMNOPQRSTUVWXYZ[]^_'abc HIJKLMNOPQRSTUVWXYZ[][...]
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Page 15
Figure 1-1. Continuous paper feeding Selecting the Right Location To make sure you’ve picked a satisfactory location for your SQ-2000, keep the following points in mind. The location should be: l A flat, stable surface with enough room for continuous paper feed as shown in the illustration. l Served by an electrical outlet that cannot be turned o[...]
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Page 16
Single-sheet paper guide Manual Figure l-2. Printer parts 1 Unpacking the Printer Carefully lift the SQ-2000 from the carton. Remove the protec- tive shipping material and plastic wrapping. Save these packing materials with the carton in case you need to ship or store your printer later. Check to see that you have all the parts shown above. If a pa[...]
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Page 17
Figure 1-4. Installing the paper feed knob 2 Putting on the Paper Feed Knob Slip the paper feed knob into place as shown above, aligning the knob so that it matches the flat side of the platen shaft. Note: If you’re going to ship the printer, be sure to remove the knob to safeguard against damaging it. 8[...]
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Page 18
Figure 1-5. The ink cartridge 3 Installing the Ink Cartridge Caution: Under no circumstances should the power be switched ON when the ink cartridge has been removed. The ink compartment is located in the left rear corner of the printer. To open the compartment, pull back and up on the lid and set it aside. Remove the ink cartridge tank from its vac[...]
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Page 19
Figure 1-6. Installing the single-sheet paperguide 4 Setting Up the Single-Sheet Paper Guide You’ll use the single-sheet paper guide to feed individual sheets of paper into the SQ-2000. To install this guide, hold the guide in both hands, facing the front of the printer. With the guide tilted away from you, lower its two notched feet into the two[...]
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Page 20
5 Figure 1-7. Removing the protective plate Installing the Interface Card If your printer already has the interface card installed, go ahead to Step 6. (Look back to Step 1 to see how the card looks when it is installed.) Warning: If you have been operating the printer, first turn it off, then unplug it before attempting to install or remove the in[...]
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Figure l-9. Snapping the interface card into place Use both thumbs as shown above to push the card into place. You should feel a slight resistance when there’s about a quarter of an inch to go. Press gently with gradually increasing pressure until the card snaps into place. If the card doesn’t seem to align correctly, remove it carefully and tr[...]
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Page 22
Figure l-10. Connecting the printer and computer 6 Connecting the Printer to Your Computer To connect the SQ-2000 to your computer, you’ll need either a parallel or serial interface cable, depending on your computer. Refer to the manual for your computer or check with your dealer for the proper cable. First, make sure both the computer and printe[...]
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olumn DIP switch panel Interface DIP switch panel Figure l-21. Locating the DIP switches 7 Customizing the Printer There are two DIP switch panels on the SQ-2000 that allow you to customize the printer to your special needs. These are shown in the picture. The switches are preset at the factory, but they can be changed to suit a variety of applicat[...]
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Page 24
Figure l-12. Loading single-sheet paper 8 Loading Single-Sheet Paper Before beginning the paper-loading procedure, plug in the SQ-2000 and turn it on. When you turn the printer on, a number of things happen: l The print head moves all the way to the left, and goes through a brief self-cleaning cycle. You’ll hear a whirring noise that will last a [...]
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Page 25
Now you’re ready to load paper. 1. Press the ON LINE button. The ON LINE and READY lights go out, indicating that the printer is off-line-the power is on but the printer won’t print. 2. Insert a sheet of paper into the paper guide and press the SHEET FEED button. The paper automatically feeds into the printer, and the red PAPER OUT light goes o[...]
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ABCDEFGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefgh BCDEFGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghi CDEFGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghij DEFGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghijk EFGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghijkl FGHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghijklm GHIJKLMNOPQRSTUVWXYZ[]^_'abcdefghijklmn HIJKLMNOPQRSTUVWXYZ[]^_&apo[...]
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Page 27
A Word About Selecting Paper With an ink jet printer, paper absorbency is an important com- ponent for good print quality. Paper which is either too absor- bent or not absorbent enough will give you less than optimum print quality. You can see in Figure 1-16 what happens when paper is used which soaks up too much ink. The ink tends to bleed, causin[...]
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Page 28
Testing your paper To test a supply of paper, take the top sheet from the package and load it in the printer. Have your printer perform its self-test as shown in Step 9. Now carefully look at each character in every line. If no ink bleeds, the paper should be suitable for your SQ-2000. Then take a new sheet from the package. This time, turn the she[...]
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Page 29
10 Printing Your First Document Now you’re ready to print out your first document. Simply follow the normal procedure for your word processor. Additional information on printing documents can be found in Chapter 3. 20[...]
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MEMO ---- - From: Don Donnison. President To: All employees AS you all know, we have just entered an excitin g new field in the sensing devic e industry , “Smart” infrared sensors . A smart infrared sensor incorporate s microcomputer technology in the form of a high-spee d microprocessor wit h standar d infrared sensin g equipment. The appli - [...]
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Page 31
Chapter 2 Operation This chapter covers the switches that control the operation of the SQ-2000, the panel indicators, and initialization sequences. Power Switch The main power switch is a rocker switch on the left side of the SQ-2000 towards the back. Press the front of the switch to turn the power on and the back of the switch to turn it off. Warn[...]
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Page 32
Figure 2-l. Power switch and control panel Control Panel Buttons The control panel buttons are on the front of the printer. You should familiarize yourself with their functions before operating your printer. Figure 2-2. Control panel buttons ON LINE button This button switches between the on-line and off-line states. If the paper is properly loaded[...]
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Page 33
FF (Form Feed) button This button is effective only when the SQ-2000 is in the off- line state. When you press the FF button in the off-line state, the paper is advanced to the next top of form. LF (Line Feed) button This button is effective only when the SQ-2000 is in the off- line state. When you press this button in the off-line state, the paper[...]
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Page 34
Indicators The control panel has a number of lights that indicate the state of the printer. The meanings of the indicators are as follows. Figure 2-3. Control panel indicators Table 2-l. Messages of panel indicator lights Indicator POWER ON LINE READY INK LOW PAPER OUT Color O N OFF Blinking Green Power on Power off Green On-line state Off-line sta[...]
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Page 35
Paper-end detector The printer is equipped with a paper-end detector that warns you when the printer runs out of paper. When the printer detects that the paper has run out, printing stops, the PAPER OUT in- dicator goes on and the buzzer sounds. The PAPER OUT light goes out when paper is loaded. Howev- er, printing does not restart until the ON LIN[...]
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Page 36
Initialization The SQ-2000 is initialized (i.e., set to a fixed set of conditions) in the following cases: l When you turn the power switch on. l (When you use a parallel interface) If the INIT signal is re- ceived from the host computer, causing pin 31 of the parallel interface to become LOW. l When you give the <ESC>@ software command. The [...]
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Page 37
Chapter 3 Using the SQ-2000 This chapter tells you how to set up your word processor or other applications software to work with the SQ-2000. If you are interested in programming with the SQ-2000, the second part of this chapter contains basic information on control codes and ESCape sequences. Using the SQ-2000 with Word Processors Most word proces[...]
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Page 38
What type of interface Parallel or serial (this will depend on the are you using? interface board in the SQ-2000, your computer, and the type of cable you have). Programs that don’t specifically list the SQ-2000 may ask other questions about your printer. The following questions are asked most often (the answers follow in bold). 1. Does your prin[...]
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Page 39
Computer-to-printer communications A computer and printer communicate by means of numbered codes. If you press the letter A on the keyboard, it is translated into a numeric code, transmitted to a peripheral device (such as a video screeen or a printer) then displayed as the letter A. To cope with the many different kinds of computers and print- ers[...]
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Page 40
Control codes Most of the time you don’t give this code system a thought. If you press A on the keyboard, the computer sends the code to the printer and the letter A is printed. However, some printer codes, like the one for a line feed, do not have a key on the keyboard. These are the ASCII codes with values of less than 33. These codes are calle[...]
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Page 41
Translating the ASCII code You may also find that different manuals and programs use different terms for the same characters or functions. For example, your computer manual may say to send the decimal 10 for a line feed, while your spreadsheet program recommends a <CR> or CTRL-J for the same thing. Appendix B contains a conversion chart for a[...]
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Page 42
3. Next type: 20 LPRINT CHR$(27) "4" "ITALIC PRINTING"; 4. Now press RETURN, type RUN, and press RETURN again. The SQ-2000 prints: NORMAL PRINTING ITALIC PRINTING This time the printer receives a CHR$(27) which is the code for ESCape or <ESC>. This tells the printer that whatever comes next should be interpreted as a print[...]
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Page 43
The “p” 1 in line 40 turns on the proportional printing, and the “p” 0 in line 50 turns it off. 9. Next type: 60 LPRINT CHR$(27) “E ” “EMPHASIZED PRINTING” ; 70 LPRINT CHR$(27) “F” ; 10. Now press RETURN, type RUN, and press RETURN again. The SQ-2000 prints: NORMAL PRINTING ITALIC PRINTING PROPORTIONAL PRINTING EMPHASIZED PRINTI[...]
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Page 44
This command would select italic proportional print. In BASIC, the same command would look like this: LPRINT CHR$(27) “!” CHR$(66); You can make up your own combinations quite easily. This is possible because each print style has its own value you can use with the Master Select command. To create a “custom” Master Select Code, add the value[...]
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Page 45
The Select Print Quality command will select either the letter quality or the draft set. The select print quality command looks like this: <ESC> “x” 0 - To select the draft set <ESC> “x” 1 - To select the letter quality set Table 3-1. Proportional print styles Pica Expanded Print Master Print Master Sample Select Sample Select N[...]
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Table 3-2. Draft pica print styles Pica Compressed Expanded Compressed Expanded Print Master Prin t Master Select Print Master Sample Selec t Sample Number Sample Sample Master Number Number Number Regular MISwiy 0 MISwiy 4 MISwi y 3 2 MISwiy 3 6 Emphasized MISwiy 8 MISwiy 12 MiSwi y 4 0 MISwiy 4 4 Italic Regular MISwiy 6 4 MISwiy 68 MlSwi y 9 6 MI[...]
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Table 3-3. Draft elite print styles Regular Emphasized Italic Regular Emphasized Underlined Regular Emphasized Italic underlined Regular Emphasized Elite Print Master Select Sample Number MISwiy 1 MISwiy 9 MISwiy 65 MISwiy 73 MISwiy 129 MISwiy 137 MISwiy 193 MISwiy 201 Compressed Expanded Compressed Expanded Print Master Master Master Select Print [...]
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Page 48
Table 3-4. Letter quality pica print styles Pica Compressed Expanded Compressed Expanded Print Sample Master Select Number Regular Emphasized Italic Regular Emphasized Underlined Regular Emphasized Italic underlined Regular Emphasized MISwi y 0 MISwiy 8 MISwiy 64 MISwi y 72 MISwi y 12 8 MISwiy 136 MISwiy 192 MISwi y 200 Print Master Sample Select N[...]
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Page 49
Table 3-5. Letter quality elite print styles Elite Compressed Expanded Compressed Expanded Master Print Master Master Master Sample Select Select Print Select Print Number Select Sample Number Sample Number Sample Number Regular MISwiy 1 MISwiy 5 MISwiy 3 3 MISwiy 37 Emphasized MISwiy 9 MISwiy 13 MISwiy 4 1 MISwiy 4 5 Italic Regular MISwiy 65 MISwi[...]
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Page 50
Chapter3 Using the SQ-2000 This chapter tells you how to set up your word processor or other applications software to work with the SQ-2000. If you are interested in programming with the SQ-2000, the second part of this chapter contains basic information on control codes and ESCape sequences. Using the SQ-2000 with Word Processors Most word process[...]
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Page 51
What type of interface Parallel or serial (this will depend on the are you using? interface board in the SQ-2000, your computer, and the type of cable you have). Programs that don’t specifically list the SQ-2000 may ask other questions about your printer. The following questions are asked most often (the answers follow in bold). 1. Does your prin[...]
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Page 52
Computer-to-printer communications A computer and printer communicate by means of numbered codes. If you press the letter A on the keyboard, it is translated into a numeric code, transmitted to a peripheral device (such as a video screeen or a printer) then displayed as the letter A. To cope with the many different kinds of computers and print- ers[...]
-
Page 53
Control codes Most of the time you don’t give this code system a thought. If you press A on the keyboard, the computer sends the code to the printer and the letter A is printed. However, some printer codes, like the one for a line feed, do not have a key on the keyboard. These are the ASCII codes with values of less than 33. These codes are calle[...]
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Page 54
Translating the ASCII code You may also find that different manuals and programs use different terms for the same characters or functions. For example, your computer manual may say to send the decimal 10 for a line feed, while your spreadsheet program recommends a <CR> or CTRL-J for the same thing. Appendix B contains a conversion chart for a[...]
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Page 55
3. Next type: 20 LPRINT CHR$(27) "4" "ITALIC PRINTING"; 4. Now press RETURN, type RUN, and press RETURN again. The SQ-2000 prints: NORMAL PRINTING ITALIC PRINTING This time the printer receives a CHR$(27) which is the code for ESCape or <ESC>. This tells the printer that whatever comes next should be interpreted as a print[...]
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Page 56
The “p” 1 in line 40 turns on the proportional printing, and the “p” 0 in line 50 turns it off. 9. Next type: 60 LPRINT CHR$(27) “E ” “EMPHASIZED PRINTING” ; 70 LPRINT CHR$(27) “F” ; 10. Now press RETURN, type RUN, and press RETURN again. The SQ-2000 prints: NORMAL PRINTING ITALIC PRINTING PROPORTIONAL PRINTING EMPHASIZED PRINTI[...]
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Page 57
This command would select italic proportional print. In BASIC, the same command would look like this: LPRINT CHR$(27) “!” CHR$(66); You can make up your own combinations quite easily. This is possible because each print style has its own value you can use with the Master Select command. To create a “custom” Master Select Code, add the value[...]
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Page 58
The Select Print Quality command will select either the letter quality or the draft set. The select print quality command looks like this: <ESC> “x” 0 -- To select the draft set <ESC> “x” 1 -- To select the letter quality set Table 3-1. Proportional print styles Pica Expanded Print Master Print Master Sample Select Sample Select[...]
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Page 59
Table 3-2. Draft pica print styles Pica Compressed Expanded Compressed Expanded Print Master Master Select Print Select Print Master Sample Number Sample Number Sample Select Number Selec t Number Regular MISwiy 0 MISwiy 4 MISwi y 3 2 MISwiy 3 6 Emphasized MISwiy 8 MISwiy 12 MISwi y 4 0 MISwiy 4 4 Italic Regular MISwiy 6 4 MISwiy 68 MlSwi y 9 6 MIS[...]
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Page 60
Table 3-3. Draft elite print styles Regular Emphasized Italic Regular Emphasized Underlined Regular Emphasized Italic underlined Regular Emphasized Elite Print Master Select Sample Number MISwiy 1 MISwiy 9 MISwiy 65 MISwiy 73 MISwiy 129 MISwiy 137 MISwiy 193 MISwiy 201 Compressed Expanded Compressed Expanded Print Master Master Master Select Print [...]
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Page 61
Table 3-4. Letter quality pica print styles Pica Compressed Expanded Compressed Expanded Print Sample Master Select Number Regular Emphasized Italic Regular Emphasized Underlined Regular Emphasized Italic underlined Regular Emphasized MISwi y 0 MISwiy 8 MISwiy 64 MISwiy 72 MISwi y 128 MISwiy 13 6 MISwiy 192 MISwiy 200 Print Master Sample Select Num[...]
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Page 62
Table 3-5. Letter quality elite print styles Elite Compressed Expanded Compressed Expanded Master Print Master Master Master Sample Select Select Print Select Print Number Select Sample Number Sample Number Sample Number Regular MISwiy 1 MISwiy 5 MISwiy 3 3 MISwiy 37 Emphasized MISwiy 9 MISwiy 13 MISwiy 4 1 MISwiy 4 5 Italic Regular MISwiy 65 MISwi[...]
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Page 63
Chapter 4 Printer Care and Maintenance In this chapter, you’ll learn about the self-cleaning feature and other operating aspects of the printer. There’s also a trouble- shooting chart you can use to quickly solve any little problems that might arise. As you’ll see, the SQ-2000 is not only easy to use -- it’s also simple to maintain on a dai[...]
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Page 64
How Automatic Print Head Cleaning Works Each time you turn on the printer it goes through a brief cleaning cycle in which cleaning solvent is sprayed through the nozzles. When you turn the printer off, it cleans itself again. Moreover, during printing the SQ-2000 periodically pauses for a few moments to clean the print head’s lower nozzles, which[...]
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Page 65
Figure 4-Z. Buttons for cleaning during printing This time the print head did something different. It performed the cleaning action, but first it stopped for several seconds in front of the revolving rubber “brush” next to the storage station. That gave it an additional scrubbing to remove dirt and other deposits. To resume printing, simply pre[...]
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Page 66
ton. This special cleaning also takes about two minutes. Be careful not to unplug the printer too quickly. As with the other extended cleaning cycle, there’s a quiet period during which solvent is allowed to soak into the print head and other parts. Wait for the POWER light to go out. That’s your signal the printer is ready to be stored or tran[...]
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Page 67
Troubleshooting Guide Problem Chec k Printer will not operate at Printer is not on-line with all after being turned on. computer. Print head will not move or printer stops printing. Dots are missing Possible Cause Ink cartridge is not set in place or pushed down far enough. No ink in cartridge. Paper loaded incorrectly. Printing has reached bot- to[...]
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Page 68
Problem Possible Cause Check To Solve It See Page Dots still missing after Dirty print head. l Do extended cleaning. 45 normal cleaning cycle. Ink cartridge faulty. l Check ink cartridge for l Turn printer off. Re- 9, 44 effective use period. place with new ink car- tridge with unexpired effective period. Clean after replacement. Print “bleeds”[...]
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Page 69
Problem Possible Cause Paper has ink stains or splotches. Continuous paper feeds irregularly: tension on paper is uneven. Paper setting method is wrong. Ink has been sprayed onto platen. Obstruction behind platen is binding paper. Check I To Solve It l Check to see that paper l Adjust rollers on paper pressure bar is properly pressure bar. set with[...]
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Page 70
Chapter 5 User-Defined Characters With the SQ-2000, it is possible to define and print characters of your own design. This can be useful if you want to design an entirely new alphabet or typeface. You can also create characters for special applications (for example, mathematical or scientific symbols). Or, you may want to create graphic patterns wi[...]
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Page 71
As the print head moves across the page, electrical impulses cause the appropriate nozzles to release ink against the the paper, causing a single dot to print with each impulse. Figure 5-1 shows the print head as it prints a capital H. In the first column, six nozzles release ink, and in the next four columns, one nozzle releases ink. In the last c[...]
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Page 72
Figure 5-2 shows two of the character matrixes with the dots used to print the letter H. All of the SQ-2000’s characters are stored in the same manner. Draft Letter Quality Figure 5-2. Character grids Defining Your Own Characters With the knowledge of how the SQ-2000 stores and prints characters, you are ready to define your own. The first step i[...]
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Page 73
Fig. 5-3. User-defined character Next, you translate the dot pattern you’ve created on paper to a numeric format so you can send the information to the SQ-2000. Every dot has an assigned value. Each vertical column (which has a maximum of 24 dots) is first divided into three groups of eight dots. Each group of eight dots is represented by one byt[...]
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Page 74
MS B LS B MS B LSB MSB LSB 00011001 -25:D 01010101 - 85:D 2 01010000 - 8O:D 3 MSB = Most significant bit LSB = Least significant bit Figure 5-4. Data bytes for -he first column of a new capital A You’ve seen how to design a character by laying out the dots on a grid, translating the dots to binary information, and then converting the binary numbe[...]
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Page 75
Note: The entire range of ASCII decimal codes (from 0 to 127) can be used for user-defined characters, but a caution is in order. Char- acters with ASCII decimal values below 32 are usually reserved as control codes by both your computer and your printer. While these characters can be replaced by user-defined characters, it should be avoided becaus[...]
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Page 76
An example character definition should make this clear: 10 ‘*** User-defined character: Capital A *** 20 ’ 30 ‘Select draft 40 LPRINT CHR$(27) “x’ CHR$(O); 50 ’ 60 ‘Define download character 70 LPRINT CHR$(27) “&” CHR$(O); 80 ’ 90 ‘beginning and ending at A 100 LPRINT “AA”; 110 LPRINT CHR$(2) CHR$(1O) CHR$(1); 120 ’ [...]
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Page 77
Printing User-Defined Characters If you entered the example program above, you defined a capital A and placed it in the RAM location for ASCII decimal 65 (replacing the standard “A” ). You can now print out a three-line sample of your work. The first and third lines (printed by lines 200 and 280 of the program) print the normal A; the second li[...]
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Page 78
Therefore, the SQ-2000 has a command which allows you to copy all of the standard characters from ROM to the user-defined character set. The command format is: <ESC> “:” <NUL> <NUL> <NUL> Note: This command will cancel any user-defined characters you have created. You must send this command to the printer before you defi[...]
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Table 5-1. User-defined character design grids Draft Letter Qualit y Proportional dl (maximum) 9 15 37 dO+d1+d2 (maximum) 12 18 Draft mode characters As you have seen, draft characters are designed on a grid which is 24 dots high by 9 dots wide (plus up to three columns of dots for space between characters). User-defined draft characters print at t[...]
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Unlike draft characters, there are no restrictions on which dots can print. You can print a solid box of 360 (15x24) dots if you wish. This, coupled with the closer dot spacing, allows you to design characters with higher resolution. The drawback is speed. Normal letter quality characters print more slowly than draft characters; the same is true of[...]
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Other considerations Keep in mind that user-defined characters are stored in RAM, which is volatile in nature. Whenever the printer power is turned off, all of the user-defined characters are lost. Likewise, initializ- ing the printer will clear the user-defined character area. Initializ- ing can be done with the <ESC> “@” command. Also, [...]
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230 , 240 'Select download 250 LPRINT CHR$(27) "%" CHR$(1); 260 ' 270 'Print character 50 times 280 FOR I=1 TO 50 290 LPRINT "="; 300 NEXT:LPRINT 310 ' 320 'Print character 50 times 330 FOR I=1 TO 50 340 LPRINT ">"; 350 NEXT:LPRINT 351 FOR I=1 TO 25 352 LPRINT "=>"; 353 NEXT 360[...]
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Figure 5-5. Character design grid for border characters Here’s how the program works. Line 40 selects letter quality characters; this will be the attribute of the user-defined charac- ters. The data for the first character, which replaces the “=” sign, is sent in lines 140-170. The second character (“>“) is defined in program lines 190[...]
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Characters that connect vertically Because the SQ-2000’s vertical spacing can be changed, you can also create characters that connect vertically. All you need to do is change the line spacing so that there is no extra space between lines. The following program shows how this technique can be used to print an integral sign that is two lines high. [...]
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410 DATA 0,0,0,0,0,0,0,0,24,0,0,0,0,0,60,0,0,0,0,0,24 420 DATA 0,0,0,0,0,16,0,0,0,0,0,32,0,0,0,255,255,192 430 DATA 0,0,0,255,252, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 440 DATA 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0 450 DATA 0,0,0,0,0,0,0,0,0,0,0,0 The design grid is shown in Figure 5-7. Figure 5-7. Design grid for integral sign made of two vertically conne[...]
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Chapter 6 Dot Graphics The SQ-2000 has all the dot graphics capabilities of the other Epson printers as well as the ability to produce dot graphics using all 24 of the nozzles in the print head. This gives the SQ-2000 approximately three times the vertical resolution of the other printers. This chapter covers how the SQ-2000 produces dot graphics, [...]
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When the SQ-2000 produces 8-dot graphics options, it prints with every third nozzle. Each byte of data received controls the nozzles for only one vertical column of dots. This means you have to send the printer more information when printing dot graphics, but it also means that you have full control over what each print nozzle is doing. A byte of d[...]
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Assigned nozzle values Usable nozzles Figure 6-2. Values assigned to the print nozzles It is not a coincidence that the values that are assigned to the pins are powers of two. These assigned values are the decimal equivalents of the binary values of the nozzles. This means that each combination of nozzle values produces a unique sum; there is never[...]
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Dots to print Nozzle values 128 - ¡ ¡ 64 - ¡ 32 - ¡ 16 - ¡ 8 - ¡ 4- ¡ 2 - ¡ 1 - ¡ Sum of nozzle values 73 226 255 Figure 6-3. Value of thegraphics data byte Syntax of the Graphics Command The SQ-2000 has one command that allows you to use any of the 10 graphics options. The syntax of the command is: <ESC> “*” s n1 n2 data In this[...]
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The SQ-2000 uses the formula n1 + n2 X 256 to determine how many bytes of graphics data to expect. To determine the values of n1 and n2, given the number of dot columns of graphics data that you want to send, use the following formulas (where X is the number of columns of graphic data): n1 = X mod 256 and n2 = X256 (where represents integer divi[...]
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Figure 6-4. Design sketch and sum of nozzle values Write the assigned values of the nozzles next to your design and then total the values for each column of dots. These totals are the values that will be sent to the printer as graphics data to print the design. To print the example design using the normal density option, the complete command (inclu[...]
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Page 92
To break the previous design (Figure 6-4) into three lines of 8-dot graphics, triple the number of dots in each column and break the design into what will look like three lines of 8 bits each. For example: the first column of two dots will now be a column of six dots; the second column of three dots will now be a column of nine dots, etc. Next, tri[...]
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Page 93
Now total the values for each column of dots. These totals are the values that are sent to the printer as graphics data for the print design. And here is a new BASIC program to print the design. 10 ‘*** Prints Graphics/Single-Density Mode *** 20 ’ 30 ‘Set line spacing 24/180 40 LPRINT CHR$(27) “3” CHR$(24); ‘Set line spacing 24/180 50 F[...]
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Lines 50 and 140 set a FOR-NEXT loop which will include selecting the graphics option and printing the graphics data for each of the three (8-bit) lines. Line 80 assigns the graphics option each time one of the three lines is printed. ASCII 0 assigns S-dot, single-density printing while ASCII decimal 42 tells the printer the design will have 42 col[...]
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Graphics data bytes First byte Second byte Third byte Print head MSB = Most significant bit LSB = Least significant bit Figure 6-6. Map of 24-dot graphics Figure 6-7 shows the design used for B-dot graphics now adapted for 24-dot graphics. In this adaptation, each dot printed using the B-dot option will be printed as a square of nine dots when usin[...]
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Here is the BASIC program adapted for 24-dot graphics. 10 WIDTH "LPT1:",255 20 LPRINT CHR$(27) "*" CHR$(39) CHR$(42) CHR$(0); 30 FOR X=1 TO 126 40 READ N 50 LPRINT CHR$(N); 60 NEXT X 70 LPRINT 80 DATA 0,0,63,0,0,127,0,0,255,0,3,255,0,3,255,0,15,255,0,31,255 90 DATA 0,127,255,0,255,255,1,255,255,3,255,255,7,255,255, 15,255,255 10[...]
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Figure 6-8 shows the design modified to take advantage of the higher resolution of 24-dot graphics. Notice that the curves are smoother and the edges are less ragged. This illustrates the major advantage of 24-dot graphics. The vertical resolution is approx- imately three times that of B-dot graphics which means you can produce better-looking graph[...]
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100 ' *** SQ-2000 Plotter Program: 5-Point Star *** 110 ' 120 ' Initialize 130 ' 140 DIM BUFFER%(360,45) 150 FOR BIT = 0 TO 7 : DOT%(7 - BIT) = 2 A BIT : NEXT 160 X.SCALE = 20 : Y.SCALE = 20 170 X.FACTOR = 360 / X.SCALE : Y.FACTOR = 360 / Y.SCALE 180 ESC$ = CHR$(27) : LF$ = CHR$(lO) 190 ' 200 ' Plot curve 210 ' 22[...]
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460 BUFFER% (COLUMN, ROW) = BUFFER% (COLUMN, ROW) OR DOT% (I) 470 NEXT COUNT 480 NEXT ANGLE 490 ' 500 ' Print curve 510 ' 520 OPEN "LPT:1" AS #1 : WIDTH #1,255 530 PRINT #1, ESC$ "3" CHR$(24); 540 FOR PRINT.LINE = 0 TO 44 STEP 3 550 PRINT #1, ESC$ "*" CHR$(39) CHR$(104) CHR$(1); 560 FOR COLUMN = 0 TO 359[...]
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The program explained here is an overly simplified plotting program. It is not efficient in its use of memory, nor is it very fast. In fact, the BASIC language itself is not very suitable for graphics programs of a very large scale. BASIC is just not fast enough to handle the massive amounts of data required for graphics. But despite its drawbacks,[...]
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Page 101
Line 250 starts a loop to calculate the points on the curve. Since BASIC uses radian measure for angles, the value of ANGLE goes from 0 to just over 360 degrees, slightly more than a full circle (to ensure that there is no gap at the end). The step value must be small enough that the curve appears smooth, and not as a series of straight lines. Line[...]
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Page 102
After the entire figure is created in the array in memory it is sent to the printer. Since we are using a 24-dot graphics option the procedure is slightly complicated. The array in memory is structured just as the figure will print: array element 0,0 is the upper left corner, 1,0 is adjacent to it on the right, and 0,l is directly below it. But whe[...]
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Page 103
The program uses three nested FOR-NEXT loops to print the graphics image. The first loop starts in line 540. It steps through the horizontal rows of the array BUFFER%( ). The step value is 3 because we print the array three rows at a time. Line 550 selects the triple-density 24-dot graphics option with 360 columns of graphics data. (Remember that w[...]
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Individual Graphics Options Commands As previously mentioned, Epson printers are upward compati- ble. Therefore the SQ-2000 responds to commands that are also used with Epson FX and RX series printers. There are four indi- vidual graphics options commands that act very much the same as the <ESC> “*” command, but each one works for only on[...]
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Chapter 7 Using the Hex Dump Feature The SQ-2000 has the ability to print the hexadecimal number of each code that it receives, instead of interpreting the codes as characters and commands as it normally does. This is a great tool for locating problems in programs that work with the printer. The hex dump feature is turned on by holding down both th[...]
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Page 106
Review the hex dump for missing codes or codes that have been changed or added to. Typical things to look for include: an <LF> (ASCII 0AH) added after the <CR> (ASCII 0DH) code, <HT> (ASCII 09H) changed into a series of spaces (ASCII 20H), or <FF> (ASCII 0CH) changed into a series of <LF> (ASCII 0AH) codes. The program[...]
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Chapter 8 Programming Hints The SQ-2000 printer can be used with many different compu- ters. However, almost all computers have some built-in quirks that cause problems with the SQ-2000 (or any other printer, for that matter). We’re sure that the computer’s designers would describe these quirks as features, because they typically solve one sort[...]
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Page 108
Apple Computers The Apple II computers present two problems when using them with a printer like the SQ-2000. First, they can only send seven bits of data to the printer, and second, they use the code ASCII 9 for internal initialization of the printer routines. The seven-bit limitation presents the largest problem, but we have two solutions to offer[...]
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TRS-80 Computers The TRS-80 computers are not without their own set of quirks. The TRS-80 Model I computer, for instance, does not correctly send ASCII decimal codes 0, 10, 11, and 12 to printers like the SQ-2000. A quick solution for TRS-80 Model I (and TRS-80 Model III) users to avoid sending ASCII decimal 12 (Form Feed, or <FF>) is to use [...]
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Page 110
The program uses a machine language printer driver routine (line 10), then tells the system where the new driver is located. When you RUN the program, all codes (including those nasty problem codes) are sent directly to the printer. This driver will also work with the TRS-80 Model III with one change in line 10; change 32E837 to D3FB. IBM Personal [...]
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2. Write a file on diskette and then use the DOS COPY command with the /B option to send it to the printer (i.e. COPY PRNTFILE/B PRN). Open the file for random access or the ASCII decimal 26 may be interpreted as an end-of-file marker. 3. Buy a copy of Compaq DOS 2.1. The BASIC that comes with this operating system has all of the features of IBM-PC[...]
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Page 112
There is another way of circumventing the ASCII 9. The OUT command sends information directly to the printer without going through the MBASIC operating system. A sample program which performs this OUT routine is shown below. The program is meant to be a subroutine that sends a 9 to the printer whenever it is called. 500 IF INP(21) AND &H20 THEN[...]
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Appendix A SQ-2000 Command Summary This appendix gives a brief summary of the SQ-2000 com- mands (control codes). While this is a complete list of the com- mands, the descriptions are not complete in all cases. The com- plete descriptions of all the commands, including examples of their use, can be found in the LQ-2500 Programmer’s Manual also av[...]
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Vertical Spacing Commands Function: Line feed Format: Symbol <LF > Decimal 10 Hexadecimal 0 A Remarks: Returns the print head to the left margin and advances the paper one line. Function: One-time n/180-inch line feed Format: Symbol <ESC> “J” n Decimal 27 74 n Hexadecimal 1B 4A n Remarks: Advances the paper n/180 inches. It does not[...]
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Page 115
Vertical Spacing Commands (continued) Function: Select l/6-inch line spacing Format: Symbol <ESC> “2 ” Decimal 27 50 Hexadecimal 1B 32 Remarks: Sets the line spacing for subsequent line feed commands to l/6 inch. Function: Set n/180-inch line spacing Format: Symbol <ESC> “3” n Decimal 27 51 n Hexadecimal 1 B 33 n Remarks: Sets t[...]
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Vertical Spacing Commands (continued) Function: Form Feed Format: Symbol <FF> Decimal 12 Hexadecimal 0 C Remarks: Advances the paper to the top of the next page. Function: Set page length by lines Format: Symbol <ESC > “C” n Decimal 27 67 n Hexadecimal 1 B 43 n Remarks: Sets the length of the page to n lines (n can range from 1 to 1[...]
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Vertical Spacing Commands (continued) Function: Cancel bottom margin Format: ASCII <ESC> “0” Decimal 27 79 Hexadecimal 1B 4F Remarks: Sets the bottom margin to 0 lines. The command uses the letter “0”, not the number zero. Function: Vertical tab Format: ASCII <VT > Decimal 11 Hexadecimal 0 B Remarks: Advances the paper to the ne[...]
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Vertical Spacing Commands (continued) Function: Select a vertical tab channel Format: ASCII <ESC> “/” c Decimal 27 47 c Hexadecimal 1 B 2F c Remarks: This command selects one of the vertical tab channels. Subse- quent vertical tab codes will advance the paper to the next vertical tab position in the selected channel (c can range from 0 to[...]
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Horizontal Spacing Commands Function: Carriage return Format: ASCII <CR > Decimal 13 Hexadecimal O D Remarks: Returns the print head to the left margin. If auto-line feed is on, paper is also advanced one line. Function: Set right margin Format: ASCII <ESC> “Q” n Decimal 27 81 n Hexadecimal 1 B 51 n Remarks: Sets a right margin at n[...]
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Horizontal Spacing Commands (continued) Function: Horizontal tab Format: ASCII <HT > Decimal 9 Hexadecimal 0 9 Remarks: This code advances the print head to the next horizontal tab position. The default tab settings are every eight characters. Function: Set horizontal tabs Format: ASCII Decimal Hexadecimal Remarks: <ESC> “D” n1 n2 n[...]
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Horizontal Spacing Commands (continued) Function: Absolute dot position Format: ASCII <ESC> “$” n1 n2 Decimal 27 36 n1 n2 Hexadecimal 1B 24 n1 n2 Remarks: Moves the print head to an absolute horizontal position. The position, in inches, is determined by the formula (n + n2 X 256)/60. The maximum position is 13.6 inches. Function: Move pri[...]
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Print Style Commands Function: Select print mode Format: ASCII <ESC> "x” n Decimal 27 120 n Hexadecimal 1B 78 n Remarks: Selects between the draft mode (n = 0) and the letter quality mode (n = 1). Function: Select print style (Master Select) Format: ASCII <ESC> "1" n Decimal 27 33 n Hexadecimal 1 B 21 n Remarks: Allows [...]
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Print Style Commands (continued) Function: Cancel elite width print Format: ASCII <ESC> “P” Decimal 27 80 Hexadecimal 1B 50 Remarks: Cancels elite width print and returns the SQ-2000 to pica width print. Function: Proportional print on/off Format: ASCII <ESC> "P " n Decimal 27 112 n Hexadecimal 1 B 70 n Remarks: This comma[...]
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Print Style Commands (continued) Function: One-line expanded width print Format: ASCII <ESC> <SO > Decimal 27 14 Hexadecimal 1B 0E Remarks: This command selects expanded width print for the remainder of the current line (unless explicitly canceled sooner). This command is the same as <SO>. Function: Cancel one-line expanded width [...]
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Print Style Commands (continued) Function: Select compressed width print Format: ASCII <ESC> <SI > Decimal 27 15 Hexadecimal 1 B OF Function: Cancel compressed width print Format: ASCII <DC2> Decimal 18 Hexadecimal 1 2 Function: Select emphasized print Format: ASCII <ESC> “E” Decimal 27 69 Hexadecimal 1B 45 Function: Can[...]
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Print Style Commands (continued) Function: Cancel italic print Format: ASCII <ESC> “5 ” Decimal 27 53 Hexadecimal 1B 35 Remarks: This command cancels italic printing and returns you to the standard character set. Function: Underline on/off Format: ASCII <ESC> “-" n Decimal 27 45 n Hexadecimal 1B 2D n Remarks: This command tur[...]
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Character Set Commands Function: User-defined character set on/off Format: ASCII <ESC> “%” n Decimal 27 37 n Hexadecimal 1 B 25 n Remarks: This command either selects the user-defined character set (n = 1) or cancels the user-defined character set (n = 0). Function: Define user-defined characters Format: ASCII <ESC> “&” <[...]
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Character Set Commands (continued) Function: Select international character set Format: ASCII <ESC> “R” n Decimal 27 82 n Hexadecimal 1B 52 n Remarks: Selects one of the 11 international character sets. The following table shows the valid values of n and the character sets selected for each. The characters that change in the international[...]
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Graphics Commands Function: Single-density dot graphics Format: ASCII <ESC> “K” n1 n2 Decimal 27 75 n1 n2 Hexadecimal 1B 4B n1 n2 Remarks: data data data Prints single-density dot graphics at 60 dots per inch. The values of n1 and n2 define the number of bytes of data accord- ing to the formula n1 + n2 X 256. Each byte of data controls th[...]
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Graphics Commands (continued) Function: High-speed, double-density dot graphics Format: ASCII <ESC> “Y" n1 n2 data Decimal 27 89 n1 n2 data Hexadecimal 1 B 59 n1 n2 data Remarks: Prints high-speed, double-density dot graphics at 120 dots per inch. The values n1 and n2 define the number of bytes of data according to the formula n1 + n2 [...]
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Graphics Commands (continued) Function: Selected density dot graphics Format: ASCII <ESC> “*" n1 n2 Decimal 27 42 n1 n2 Hexadecimal 1B 2A n1 n2 Remarks: data data data Prints dot graphics in a selected density, and with either 8 nozzles or 24 nozzles. The functions of this command are co- vered in the LQ-1500 Programmer’s Manual. Fun[...]
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Miscellaneous Commands Function: Delete line Format: ASCII <CAN> Decimal 24 Hexadecimal 1 8 Remarks: Clears the current line from the printer’s data buffer. Function: Delete character For-n-rat: ASCII <DEL> Decimal 127 Hexadecimal 7 F Remarks: Deletes the character immediately preceding it, unless that character has already been print[...]
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Miscellaneous Commands (continued) Function: Select printer Format: ASCII <DCl > Decimal 17 Hexadecimal 1 1 Remarks: Returns the SQ-2000 to an on-line state. It enables the printer to receive data again after it has been deactivated by a deselect printer code. This code will not override the ON LINE button. Function: Set specified data to rep[...]
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Miscellaneous Commands (continued) Function: Clear eighth-bit Format: ASCII <ESC> "= " Decimal 27 61 Hexadecimal 1B 3D Remarks: Sets the eighth data bit to 0. Function: Cancel eighth-bit control Format: ASCII <ESC > "# " Decimal 27 35 Hexadecimal 1 B 23 Remarks: Cancels control of the eighth data bit set by either th[...]
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Miscellaneous Commands (continued) Function: Backspace Format: ASCII <BS > Decimal 8 Hexadecimal 8 Remarks: Moves the print head one character to the left. This allows you to overstrike characters. (Note that the print head doesn’t actually move to the left, the SQ-2000 combines the two charac- ters and prints them as one.) Function: Initia[...]
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Miscellaneous Commands (continued) Function: Unidirectional printing on/off Format: ASCII <ESC> “U” n Decimal 27 85 n Hexadecimal 1 B 55 n Remarks: Selects unidirectional printing (n = 1) or returns the printer to bidirectional printing (n = 0). A-24[...]
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Appendix B ASCII Code Conversion Chart This chart can be used to convert between the different names for ASCII codes. The codes from 0 to 32 have both decimal and hexadecimal numbers, abbreviations, and the control keys used to type them. The codes above 32 have the character that prints instead of the abbreviation. Decimal 0 1 2 3 4 5 6 7 8 9 10 1[...]
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Decimal Hexadecimal 33 21 34 22 35 23 36 24 37 25 38 26 39 27 40 28 41 29 42 2A 43 2B 44 2C 45 2D 46 2E 47 2F 48 30 49 31 50 32 51 33 52 34 53 35 54 36 55 37 56 38 57 39 58 3A 59 3B 60 3C 61 3D 62 3E 63 3F 64 40 65 41 66 42 67 43 68 44 69 45 70 46 71 47 72 48 73 49 74 4A 75 4B 76 4C 77 4D 78 4E 79 4F Character ! " # $ % & , ( ) * + ' [...]
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Decimal Hexadecimal Character Decimal 127 7F <DEL> 144 128 80 <NUL> 145 129 81 <SOH > 146 130 82 <STX> 147 131 83 <ETX> 148 132 84 <EOT> 149 133 85 <ENQ> 150 134 86 <ACK> 151 135 87 <BEL> 152 136 88 <BS > 153 137 89 <HT > 154 138 8A <LF > 155 139 8B <VT> 156 140 8C <FF[...]
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Decimal Hexadecimal 214 D6 215 D7 216 D8 217 D9 218 DA 219 DB 220 DC 221 DD 222 DE 223 DF 224 E0 225 El 226 E2 227 E3 228 E4 229 E5 230 E6 231 E7 232 E8 233 E9 234 EA Character V W x Y z [ ] ^ ' a b c d e f g h i j Decimal 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 Hexadecimal EB EC ED EE EF FO Fl F2 [...]
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Appendix C Widths of the Proportional Characters This table lists the widths of the SQ-2000’s proportional char- acters. The values given are in 360ths of an inch (for example: a value of 36 is 36/360-inch). You may need to enter these widths into a special table for your word processing program so that it can calculate the number of proportional[...]
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Total width Right-space Body Left-space Figure C-l. Character Q and its widths Proportional (normal) c- 2[...]
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Proportional (normal) (continued) C- 3[...]
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Proportional (normal) (continued) C- 4[...]
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Proportional (normal) (continued) C- 5[...]
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Proportional (superscript/subscript) C- 6[...]
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Proportional (superscript/subscript) (continued) C- 7[...]
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Proportional (superscript/subscript) (continued) C-8[...]
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Appendix D Setting the DIP Switches The SQ-2000 is provided with two sets, or panels, of dual in-line package (DIP) switches. When these switches are preset, the printer assumes a certain set of conditions each time it is turned on or reset. For instance, if you usually print standard-sized business documents, set the column DIP switches so that th[...]
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Figure D-1. Location of column DIP switch panel The second set of switches, consisting of two or more groups, is located on the interface card at the back of the printer (see Figure D-2). The number of groups of switches depends on the type of interface you have. Two groups are common to all inter- faces and are used to select various features, suc[...]
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Before You Change the Switch Settings For DIP switch changes to have effect, you must first turn off the printer. Be sure to treat the switches gently. Avoid touching them with your hands. Static charges, dirt and oil from your fingers can harm the switches. The switches are most easily changed with a pointed object such as a small screwdriver or b[...]
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Table D-l. Column DIP switch setting for printing area Switch Number of Width SW-1 SW-2 SW-3 columns* (inch) Paper shape and size OFF OFF OFF 65 71/8 OFF OFF ON 75 8 ¼ OFF ON OFF 78 8½ B5 vertical A4 horizontal US. letter vertical OFF ON ON 80 9½ ON OFF OFF 94 10¼ B4 vertical ON OFF ON 102 11 US. letter horizontal ON ON OFF 109 11¾ A3 vertical[...]
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SW1-1 Set this switch to OFF if you want to use the print buffer. This switch controls the 2K-byte print buffer. When it is OFF the buffer is used. This means information coming into the print- er from the computer can be stored in the buffer until it is ready to be processed, permitting the computer to operate more efficiently. When the switch is [...]
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Interface DIP switch Panel 2 The second interface DIP switch panel has eight switches that select print characteristics when the SQ-2000 is turned on. Most of the functions of these switches are duplicated by software commands. The difference is that the software commands are cancelled when the printer is turned off or reset. Use this panel to set [...]
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Table D-4. International character sets Draft Quality Letter Quality Table D-5. DIP switch settings for international characters SW2-1 SW2-2 SW2-3 County ON ON ON U.S.A (ASCII) ON ON OFF France ON OFF ON Germany ON OFF OFF England OFF ON ON Denmark OFF ON OFF Sweden OFF OFF ON Italy OFF OFF OFF Spain D- 7[...]
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SW2-4 Set the form length with this switch. ON is 12 inches; OFF is 11 inches. When a form feed character is sent by the computer, the paper moves to the next sheet if the optional cut sheet feeder is attached, or to the top of the next form if the optional tractor unit is being used. Set the switch according to the length of the sheets or forms yo[...]
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Appendix E Using the Optional Tractor Unit With the optional tractor unit, your printer can use continuous paper with pin feed holes along the sides. The unit is adjustable so that the continuous paper can be any width from 4 to 15 inches. Printer Location When you use the tractor and continuous paper, you must locate your SQ-2000 so that the paper[...]
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Figure E-2. Continuous paper stacked behind printer Installing the Tractor Unit To install the removable tractor unit, first pull the printer’s friction lever toward the front of the printer. Open the dust cover to provide better access. Then hold the tractor with the gears to the right as shown in Figure E-3. Slip the tractor into the two slots [...]
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Installing the Paper Separator Now assemble and install the paper separator as shown in Figure E-4, inserting the separator into the slots on the back of the printer. The separator keeps the paper that is coming out of the printer from being pulled back in. Figure E-4. Paper separator being assembled and installed When you want to use single-sheet [...]
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Figure E-S. Tractor release levers Loading Continuous Paper Once you have installed the tractor and separator, the printer is ready to accept continuous paper. To do this you first need to adjust the printer. Check that the DIP switch under the dust cover (SW-4 as de- scribed in Appendix D) is in the OFF position. This switch must be off except whe[...]
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Figure E-6, Location of parts for tractor unit The two wheels, or sprockets, on the tractor unit must be moved to match the width of the paper you use. The paper feeds through these sprockets using the holes near the paper’s two side edges. Move the left sprocket by releasing its locking lever. Place the sprocket about a quarter of an inch from i[...]
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Figure E-7. Feeding the paper into the printer Next, pull the paper up until the top is above the pin-feed holders. Fit the holes on the left side of the paper over the pins in the left holder and close the cover. Now fit the right side of the paper in the right holder, moving the holder as needed to match the width of the paper. Close the second c[...]
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Figure E-8. Top-of-page position When you turn on your SQ-2000 it will remember this top-of- page position and will use it when any program tells it to move to the top of the next page. If you later find that your word proces- sing or other applications program is putting your printing too high or too low on the page, check to see that your top-of-[...]
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Appendix F Specifications Printing Printing method . . . . . . . . . . . . . On-demand ink-jet, with 24-nozzle print head Printing speed ... . .............. Draft 176 characters per second Let- ter quality 105 characters per second Character sets . . . . . . . . . . . . . . . . . 96 regular, 96 italic, 32 international characters in each of: lette[...]
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Printer Dimensions . . . . . . . . . . . . . . . . . . . . Height: 6.5 inches (165mm) 11.7 inches (296mm) with sheet guide 7.5 inches (188mm) with optional tractor unit Width: 24.5 inches (595mm) with knob Depth: 15 inches (383mm) Weight . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 lbs (18kg) (printer only) Power required . . . . . . [...]
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INDEX A Apple II computers 90 eighth bit control 90, A-21 American Standard Code for Information Interchange (ASCII) codes, conversion 31, B-l Applications programs 30 ASCII codes 31, 33, B-l Assigning graphics options 85 Automatic line feed D-4 B Backspace 30 BASIC common problems 89 language 33 programming hints 89 <BEL>. Sound buzzer A-22 [...]
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Cleaning 44,46 Code compatibility 31 conversion, ASCII B-l problems 89 Column DIP switch panel D-l, D-3 Column width F-l Command codes format A-l graphics 70, A-17 summary A-l listed by function A-l listed in ASCII order B- l graphics A-17 horizontal spacing A-7 miscellaneous A-20 print style A-10 summary A-l vertical spacing A-2 Communications 31 [...]
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D <DCl>. Select printer A-21 <DC2>. Cancel compressed width A-13 <DC3>. Deselect printer A-20 <DC4>. Cancel one-line expanded print A-12 Debugging programs 87 Default values 28, A-23 Defining characters connecting 62 explanation 53 program example 57 <DEL>. Delete character A-20 Delete line A-20 Deselect printer A-20 D[...]
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E Eighth-bit control cancel A-22 clear A-22 set A-21 Elite print style A-10 cancel 36, A-10 Emphasized print A-13 cancel A-13 Environment, specifications for F-2 Epson printers code compatibility 29 Epson QX-10 computers 93 <ESC> <SO>. <ESC> <SI>. <ESC> <SP>. <ESC> “!“. <ESC> “$“. <ESC> [...]
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<ESC> “Q”. Set right margin A-7 <ESC> “R”. Select international character set A-16 <ESC> “S”. Select superscripts or subscripts A-14 <ESC> “T”. Cancel superscripts and subscripts A-14 <ESC> “U”. Unidirectional printing on/off A-24 <ESC> “V”. Set data to print repeatedly A-21 <ESC> ?[...]
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H Hexdump 87 Horizontal spacing commands A-17 Horizontal tabs A-8 absolute A-9 problems 93 <HT>. Horizontal tab A-8 I IBM Personal Computer 92 Indicators 26 blinking 27 Initialize DIP switch settings D-6 effect on user-defined characters 62 command A-23 conditions 28 sequence 28 Ink cartridge 9, 27, F-2 Ink low 27 Input buffer D-4 Installing [...]
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Line spacing types F- l l/6-inch A-3 l/8-inch A-2 n/180-inch A-3 n/60-inch A-2 variable A-2 Loading paper 16, E-4 LQ-1500 User’s Manual A-l M Maintenance 43 Margin bottom A-4 left A-7 right A-7 Master Select command 35, A-10 restrictions 36 values for 36 Matrix, character 52, F-l. See also Character, grids Memory, of printer D-4 Microsoft BASIC 3[...]
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P Page length setting D-6 setting by inches A-4, D-6 setting by lines A-4 Paper absorbency 18 feeding E-l loading 15 position E-l selection 18 separator E-3 test 18 types F- l Paper-out detector 27 Parts 7 Perforation. See Skip-over-perforation. Pica width print 38, 60 Power requirements 23, F-2 Power-on default values. See Default values. Print bu[...]
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Printer driver 30 interface card 7 location 6 MTBF F-2 parts 7 requirements 6 self-test 17 type 29 Printing area D-3 continuous D-8 dot-matrix 51 line overflow A-24 method F-l shape D-3 speed D-8, F-l unidirectional A-24 Printing style selection individual commands 33, A-10 Master Select command 35, A-10 on initialization D-6 Printing styles draft [...]
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R Repeat printing A-21 Restrictions, draft style user-defined characters 56, 60 Master Select 36 RAM 58, 61 ROM 58, D-4 S Selecting paper 18 printer location 6 Select printer A-21 Seven-bit systems, limitations 90 Self-test 17 <SI>. Compressed width print A-12 Single-sheet paper guide 10 Skip-over-perforation A-4 cancel A-5 SLCT IN signal D-6[...]
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U Underline control A-14 Unidirectional printing A-24 one-line A-23 User-defined characters 53 calculating data 53 character matrix 54 control of A-15 copying ROM characters to RAM 58 defining 53 defining connecting characters 62, 65 draft style characters 60 effect of initializing 62 example program 57 letter quality style characters 60 matrix 54 [...]
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Using SQ-2000 Commands with BASIC Master Select Codes Most versions of BASIC use the LPRINT command and the CHR$(n) function to send codes to the printer. In the CHR$(n) function the value n is the number of the code that you want to send to the printer. For example, to set a right margin at column 60, the SQ-2000 command is: <ESC> “Q” 60[...]
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Decimal Hexadecimal Abbreviation Control key 0 00 <NUL> 1 01 <SOH> 2 02 <STX> 3 03 <ETX> 4 04 <EOT> 5 05 <ENQ> 6 06 <ACK> 7 07 <BEL> 8 08 <BS> 9 09 <HT> 10 0A <LF> 11 0B <VT> 12 0C <FF> 13 0D <CR> 14 0E <SO > 15 0F <SI> 16 10 <DLE> 17 11 <DCl &g[...]
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EPSON AMERICA, INC. LIMITED WARRANTY Epson America, Inc. hereby warrants that it will repair or replace, at its option, any part of the Epson product with which this warranty is enclosed which proves defective by reason of improper workmanship and/or material, without charge for parts or labor, for a period of one (1) year. This warranty period com[...]