Sans Superellipse Nyhi 7 is a very bold, normal width, low contrast, upright, normal x-height font visually similar to 'QB One' by BoxTube Labs, 'Panton Rust' by Fontfabric, 'Gltp Starion' by Glowtype, and 'Bega' by Indian Type Foundry (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, bold, playful, friendly, modern, assertive, impact, clarity, blocky, compact, chunky, rounded corners, squared curves.
A dense, blocky sans with superelliptical curves and rounded-rectangle construction throughout. Strokes are thick and uniform, terminals are softly squared, and counters are tight but clearly carved, producing a strong silhouette and steady rhythm. The forms lean slightly geometric with generous corner radii, yielding a smooth, modern texture that stays stable in all-caps and in mixed-case text.
Works best for headlines, posters, packaging, and brand marks that need a solid, modern voice. It’s well-suited to signage, app/tech marketing, social graphics, and short UI labels where a compact, rounded aesthetic helps readability at a glance. In longer paragraphs it can feel heavy, so it’s most effective in short bursts and larger sizes.
The overall tone is confident and loud, with a friendly, contemporary edge. Its rounded corners and compact internal spaces keep the heaviness from feeling aggressive, making it read as approachable and playful while still commanding attention.
The design appears intended for high-impact display use where immediate legibility and a distinctive, rounded-rect geometry matter more than typographic delicacy. The consistent stroke weight and softened corners suggest a goal of pairing strong presence with an approachable feel, suitable for contemporary graphic applications.
Distinctive rounded-square behavior shows up consistently across curves and joints, giving letters like C, G, O, S, and U a cohesive superelliptical feel. The numerals follow the same compact, softened construction, and the lowercase maintains a sturdy, monoline presence with minimal modulation.