Sans Superellipse Olned 7 is a bold, normal width, monoline, upright, tall x-height font visually similar to 'Leftfield' by Fenotype and 'Charles Wright' by K-Type (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, friendly, modern, utilitarian, approachable, compact, impact, clarity, approachability, geometric consistency, display strength, rounded corners, soft terminals, boxy rounds, high contrast presence, sturdy.
A heavy, monoline sans with squarish curves built from rounded-rectangle geometry. Strokes are consistently thick with soft, radiused corners and mostly flat-cut terminals, producing a compact, blocky rhythm. Counters are fairly open for the weight, and many rounds (C, G, O, 0) read as superellipse-like forms rather than true circles. Lowercase proportions show a tall x-height with short extenders, and the overall spacing feels tight but controlled, emphasizing a strong, poster-ready texture.
Best suited for headlines, short statements, and branding where strong presence and quick readability matter. The rounded, blocky forms work well on packaging and signage, and the clear numerals support interfaces, labels, and data-forward graphics at display sizes.
The rounded-rectangular construction gives the face a friendly, contemporary tone while keeping a no-nonsense, industrial steadiness. It feels confident and straightforward, with a slightly playful softness from the corner radii that prevents the heavy weight from becoming harsh.
The design appears intended to deliver a strong, modern sans voice that stays approachable through rounded geometry and simplified construction. Its superellipse-based rounds and compact proportions suggest an emphasis on consistency, impact, and clear letter differentiation in bold settings.
Digits are bold and legible with simple, geometric shaping; the slashed zero is prominent for disambiguation. The uppercase forms appear especially compact and sturdy, while lowercase maintains clarity through large interior spaces and simplified joins.