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Chapter 4 graphics, Introduction, Serial matrix compatible bit image graphics – Printronix P3000 Series User Manual

Page 63

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4–1

Graphics

CHAPTER 4

GRAPHICS

Introduction

The printer can produce Bit Image graphics when in Serial Matrix protocol and P–Series Plot Mode
graphics when in P–Series protocol. You can print text and graphics on the same line only by using the
Bit Image protocol in Serial Matrix protocol. In either mode, printing text is the default mode. Conse-
quently, each line of graphics data must include the necessary plot mode commands to enable the print-
er to perform the desired graphics functions.

The following graphics information is presented in this chapter:

Serial Matrix Compatible Bit Image Graphics

Page 4–1

. . . . . . . . . . . .

P–Series Compatible Plot Mode

Page 4–5

. . . . . . . . . . . . . . . . . . . . . . .

Combining Graphics and Text

Page 4–12

. . . . . . . . . . . . . . . . . . . . . . . .

Serial Matrix Compatible Bit Image Graphics

The printer produces Bit Image graphics in Serial Matrix protocol. Bit Image graphics are created by
printing a series of vertical Bit Image data bytes which represent the binary code bit pattern. This meth-
od utilizes the “1” or “true” bit from a binary data byte to print dot patterns. These data bytes are actu-
ally the binary equivalent of ASCII character decimal values 0 through 255. When the data byte is
rotated vertically, the result is a vertical data byte pattern with the Most Significant Bit (MSB) at the
top.

Plotting a Bit Image Pattern

A Bit Image pattern is produced by following these steps:

1.

Lay out the graphic(s) pattern on a quadrille pad or graph paper.

2.

Determine the decimal equivalent of each Bit Image data byte required to produce the pattern
(Figure 4–1).

3.

Write a program to generate the complete pattern.

4.

Enter and run the program on the host computer.