Sans Superellipse Onbiw 9 is a bold, normal width, monoline, upright, normal x-height font.
Keywords: headlines, branding, logos, packaging, posters, modern, tech, friendly, clean, geometric, geometric clarity, softened impact, modern branding, ui-friendly, rounded, squared, soft, compact, high-contrast.
This typeface is a geometric sans with a superellipse construction: curves read as rounded-rectangle arcs rather than perfect circles, and many terminals end in softly squared cuts. Strokes are consistently heavy and even, with minimal modulation and tight, efficient counters that keep letters compact. Rounds (O, C, G, Q, 0, 8, 9) appear slightly squarish, while diagonals (A, V, W, X, Y) are sturdy and symmetrical, producing a steady, engineered rhythm. Lowercase forms are simple and sturdy with a single-storey a and g, and punctuation and numerals match the same rounded, blocklike geometry.
Well-suited to headlines, branding, and logo wordmarks that benefit from a bold, geometric voice with softened edges. It can also work effectively on packaging and posters where a compact, high-impact sans is needed, and in product/UI marketing graphics where a modern, rounded-square aesthetic fits.
The overall tone is contemporary and approachable, combining a tech-forward, UI-ready crispness with softened corners that keep it from feeling harsh. Its geometric regularity and compact counters convey precision and efficiency, while the rounded-square forms add a friendly, product-oriented character.
The design appears intended to deliver a strong, modern sans built from superellipse-like curves, balancing strict geometry with softened corners for a friendly, contemporary presence. Emphasis is placed on consistent stroke weight, compact forms, and a distinctive rounded-square silhouette that stays coherent across caps, lowercase, and numerals.
Distinctive squared rounding shows up in the bowls and shoulders, giving the font a subtle “rounded square” signature across both letters and figures. The heavy weight and relatively closed apertures suggest best performance at display sizes or in short, prominent text where its shape language can read clearly.