Sans Superellipse Osbuh 9 is a very bold, narrow, low contrast, upright, normal x-height font visually similar to 'Brinova' by Digitype Studio, 'Asket' by Glen Jan, and 'Vinila' by Plau (names referenced only for comparison).
Keywords: headlines, posters, branding, signage, packaging, industrial, sporty, assertive, utilitarian, contemporary, impact, space saving, modern geometry, high visibility, brand emphasis, compact, blocky, rounded corners, condensed, sturdy.
A compact, heavy sans with simplified, superellipse-driven construction and rounded-rectangle counters. Strokes are uniform and dense, with minimal modulation and tight interior space that creates strong color in text. Curves transition quickly into straighter segments, producing a squared-off roundness in letters like C, O, and S, while terminals read mostly flat and clipped. The overall rhythm is condensed and punchy, with straightforward geometry and sturdy proportions across caps, lowercase, and numerals.
Best suited to short, high-impact settings such as headlines, posters, brand marks, packaging callouts, and wayfinding or retail signage. It can work in brief text at larger sizes where its dense weight and compact proportions enhance emphasis and clarity.
The font projects a forceful, no-nonsense tone with a modern, engineered feel. Its compact width and dense weight make it read loud and confident, leaning toward athletic, industrial, and signage-driven aesthetics rather than delicate or literary ones.
The design appears intended to deliver maximum impact in a tight horizontal footprint, using rounded-rectangle geometry to keep forms modern and cohesive while maintaining a rugged, practical presence. It prioritizes bold visibility and a consistent, engineered texture across the character set.
In the sample text, the heavy weight and tight counters emphasize silhouettes and word shapes; spacing appears tuned for impact more than airiness. The lowercase shows single-storey forms (notably a and g) that reinforce the simplified, contemporary voice, and the numerals match the same squared-round geometry for a cohesive set.