Sans Superellipse Yony 5 is a very bold, wide, high contrast, upright, normal x-height font.
Keywords: headlines, posters, logos, packaging, gaming, futuristic, techno, industrial, arcade, bold, impact, futurism, branding, signage, display, squared-round, blocky, rounded corners, compact counters, modular.
This typeface is built from heavy, squared forms with generously rounded corners, giving letters a superelliptical, rounded-rectangle construction. Strokes are consistently thick with tight internal counters and small apertures, producing dense silhouettes and strong color on the page. Curves are minimized in favor of flat terminals and stepped, geometric joins; where curves appear (as in bowls and shoulders) they stay boxy and controlled rather than fully circular. The overall rhythm feels modular and engineered, with sturdy verticals and broad horizontals that emphasize a horizontal, sign-like presence.
Best suited to display applications where its dense, geometric mass can be appreciated: headlines, posters, logotypes, product titles, and packaging. It also fits UI theming for games, tech events, sci‑fi or industrial branding, and bold wayfinding-style graphics where a compact, engineered look is desired.
The tone is assertive and synthetic, evoking retro-futurist machinery, digital interfaces, and arcade-era display styling. Its compact openings and chunky geometry feel tough and utilitarian, leaning more toward impact and attitude than softness or refinement.
The design appears intended to deliver maximum visual impact through a modular, rounded-rect geometry that stays consistent across letters and numerals. Its tight counters and flattened curves prioritize a futuristic, industrial personality and strong presence in short lines of text.
Distinctive notch-like details and squared inner cutouts appear across several glyphs, reinforcing a constructed, stencil-like sensibility without breaking into true stencil gaps. The figures and capitals are especially emblematic, reading as emblematic blocks that hold up well at large sizes, while the tight counters suggest care is needed at smaller settings or in low-resolution environments.