Technical data
Table Of Contents
- 0. i Cover B
- 0. i Copyright B
- 0. i TOC B
- 1. i Introduction B
- 2. i Programming Concepts B
- 3. i Code Quick Reference B.backup
- 4. i Standard Command Codes B
- 5. i Optional Command Codes B
- 6. i Bi-Directional Communications B
- 7. i Appendix B
- 7
- appendix
- custom graphics
- CUSTOM GRAPHICS EXAMPLE
- 1. Determine the matrix size for the graphic. It must be in 8 dot by 8 dot blocks. The example here has six blocks horizontally and six blocks vertically (48 x 48).
- 2. Lay out a grid and draw the image on the grid.
- 3. Transfer the image into a bit map representation and then into hexadecimal format:
- 4. Using the hexadecimal data, send the following code to print the graphic image as designed.
- 5. To send the data in binary format, the software must convert the data into binary format before transmitting it to the printer. Using the BASIC programming language for example, this is done by notation “CHR$ (&HC0)” which sends the hexidecima...
- PCX GRAPHICS EXAMPLE
- CUSTOM GRAPHICS EXAMPLE
- printer configuration commands
- reference tables
Unit 4: Standard Command Codes
“i” Programming Reference
4-42 PN: 9001158B
PRINT DARKNESS
FUNCTION
To specify a new print darkness setting through software control for unique media and ribbon
combinations.
FORMAT
<ESC>#Ea
a = Print Darkness Value
Must be placed immediately after <ESC>A and immediately before <ESC>Z in its own separate data
stream.
Refer to the product manual for specific print speed increments.
EXAMPLE
<ESC>A
<ESC>#E2
<ESC>Z
OUTPUT
This command does not result in printer output.
NOTES
This becomes the new setting in the printer configuration for all subsequent print jobs unless changed.
The setting is stored in non-volatile memory and is not affected by cycling power. The lightest setting is
the smallest value and the darkest setting is the largest value.