This is what an edited 13-digit 5x7 matrix display looks like.
This is a clone of 9-Digit 5x7 Matrix DisplayWhile suffering some serious fonter's block, here's another "wonky" experiment: this time, based on my "21st Century Dot Matrix" font. Random numbers were used to determine each dot's nudged position for the vertical (–½ / –¼ / 0 / +¼ / +½), and another set of random numbers for the horizontal. Each position had an equal 20% chance of placement.
On the previous "wonky" font ("Wonky Pins"), I adjusted some dots manually to be more visually pleasing, but I refrained from doing that here. Because so many dots were nudged to extreme positions (–½ & +½ vertically and horizontally) WITHOUT further adjustment, the printed text is still legible but definitely not as refined at "Wonky Pins"...
This typeface was also based on 2 sets of dots this time: one randomized set for an even number of dots across a row (6 or 8), and the other set for an odd number of dots (7). Sometimes, even dots and odd dots are used together on the same row in order to match the placement in the original design. These blocks are present in the "À" position. A slightly larger generic block in position "Á" is only present to prevent word processors from 'cutting off' dots nudged too far vertically up or down; initial test printings resulted in ½ dots being printed at those extremes.
Perhaps another "wonky" experiment will place the extreme ends at a lower chance of occurance (perhaps 10%) while the other three (–¼ / 0 / +¼) more at likely at 26.67% each. Or perhaps an even higher chance that the dot is not even nudged at all, with lower likelihoods as you move outwards to the extremes. This might alleviate the need for any manual adjustments, yet still get the point across that something... something has gone wonky with the printer...
This is what an edited 24-digit 5x7 matrix display looks like.
This is a clone of 13-Digit 5x7 Matrix DisplayThis is what an edited 31-digit 5x7 matrix display looks like.
This is a clone of 24-Digit 5x7 Matrix DisplayThis is what an edited 35-digit 5x7 matrix display looks like.
It is what's known as a LED/LCD display.
This is a clone of 31-Digit 5x7 Matrix DisplayThis is what an edited 35A-digit 5x7 matrix display looks like.
It is what's known as a LED/LCD display.
This is a clone of 35-Digit 5x7 Matrix DisplayInspired by Anders de Flon 3x3 Bitmap Typeface. [wikipedia:::] 3x3 is a typeface based on a 3x3 bitmap matrix. It was created by type designer Anders de Flon, who long refused to release the typeface, due to the large type foundries' demand for only complete typefaces, which means upper and lower case characters, exclamation marks, etc. The typeface has appeared on several record sleeves; a slightly modified version appears on the cover of LFO's Sheath, designed by The Designers Republic. A similar typeface named 3x3 but not adhering to a 3x3 bitmap matrix was designed by Swiss graphic designer Marc Beekhuis in 2001. [:::wikipedia] [further informations:::] http://en.wikipedia.org/wiki/3x3 http://www.deflon.se/ http://www.dafont.com/3x3.font [:::further informations]
if you want to use this font for commercial matters. get in contact with me. the commercial use of this font is bind to a donation to any children health care in your country. I want to see the transfer voucher of the donation.
It's got more "okayer" detail than the other one. Just as okay as the other one. Really.
This is a clone of 8x8 Okay Screen Solid