Sans Superellipse Etmoz 5 is a regular weight, narrow, medium contrast, italic, short x-height font.
Keywords: headlines, logotypes, posters, sports branding, tech ui, futuristic, techy, sporty, dynamic, sleek, speed, modernity, display impact, tech aesthetic, rounded, angular, condensed, forward-leaning, streamlined.
A slanted sans with compact proportions and a distinctly squared-round construction, where curves often resolve into rounded-rectangle corners rather than true circles. Strokes are clean and mostly monolinear with subtle modulation, and terminals tend to be sheared or tapered in ways that reinforce forward motion. Counters are tight and geometric, and several forms show purposeful asymmetry and cut-in notches that add character without becoming decorative. The overall rhythm is slightly irregular from glyph to glyph, giving the set a lively, engineered feel while keeping a consistent superelliptical backbone.
Best suited to short, prominent text where its forward-leaning geometry and tight counters can create impact—such as headlines, posters, product branding, esports/sports identities, and tech-themed interface treatments. It can also work for signage or labels when set with generous size and spacing to preserve interior clarity.
The font reads as modern and kinetic, with a retro-future edge reminiscent of sci‑fi interfaces and performance branding. Its italic stance and compact, squared curves convey speed and efficiency, while the quirky details add a mildly playful, custom-built tone rather than a purely neutral voice.
The design appears intended to blend geometric, superellipse-based forms with an energetic slant to suggest speed and modernity. Its controlled quirks and angular terminals imply a custom display voice aimed at contemporary tech and action-oriented branding rather than neutral body copy.
The design favors sharp joins and angled entry/exit strokes, which can create a crisp texture in headlines but may feel busy in long passages at small sizes. Numerals and capitals echo the same rounded-rect geometry, supporting a cohesive, display-oriented system.