Sans Superellipse Ormaf 7 is a very bold, very narrow, low contrast, upright, normal x-height font visually similar to 'Hyperlac' by Bisou, 'CF Blast Gothic' by Fonts.GR, 'Ozonos' by Kufic Studio, 'Neue Helvetica' by Linotype, 'Reforma Grotesk' by ParaType, and 'Nimbus Sans' by URW Type Foundry (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, wayfinding, industrial, condensed, commanding, modern, utility, space saving, high impact, functional clarity, systematic geometry, blocky, compact, squared, rounded corners, vertical stress.
A condensed sans with heavy, even strokes and compact proportions. Letterforms are built from squared, superellipse-like curves: rounds read as rounded rectangles, and terminals are blunt and clean. Counters are relatively tight, with sturdy joins and minimal modulation, giving the face a dense, high-impact texture. The rhythm is strongly vertical, with tall uppercase, short extenders, and a straightforward, no-nonsense construction across letters and figures.
Best suited to headlines and short statements where space is limited but impact is needed. It performs well in posters, packaging, and branding systems that call for a compact, authoritative voice, and it can also serve signage and wayfinding where bold, condensed forms help maintain strong presence at a distance.
The overall tone is tough and functional, with a modern industrial character. Its compressed width and blocky curves suggest urgency and authority, making text feel direct and emphatic rather than delicate or expressive.
The design appears intended to deliver maximum visual weight in minimal horizontal space while maintaining a clean, contemporary sans structure. Its squared curves and blunt finishing prioritize durability, uniformity, and strong graphic presence in display use.
The lowercase is simple and workmanlike, pairing well with the uppercase’s rigid geometry; curves stay squared-off rather than fully circular. Numerals follow the same compact, reinforced build, prioritizing solidity and consistency in dense settings.