Sans Superellipse Dyby 7 is a regular weight, normal width, monoline, upright, tall x-height font.
Keywords: ui labels, app design, wayfinding, dashboards, branding, clean, techy, friendly, minimal, modern, system type, geometric clarity, friendly tech, consistency, rounded, geometric, soft corners, open apertures, uniform stroke.
A geometric sans with a rounded-rectangle (superellipse) construction throughout. Strokes are uniform and the corners are consistently softened, giving letters a smooth, modular feel. Round characters like O, C, and G read as squarish ovals with generous curvature, while counters tend toward rounded rectangles. Terminals are blunt and rounded, and curves transition into straights with an engineered, consistent radius. The lowercase shows a tall presence with compact, neatly contained bowls and clear, open shapes; figures are similarly squared-off with rounded corners for a cohesive alphanumeric texture.
This font suits interface and product contexts where a clean, contemporary voice is needed—navigation labels, settings screens, dashboards, and lightweight signage. Its rounded geometry also works well in modern brand systems, packaging, and short headlines where a friendly technical character is desirable.
The overall tone is contemporary and approachable, balancing a tech-forward, UI-like precision with soft, friendly rounding. It feels calm and efficient rather than expressive, suggesting clarity, structure, and modernity.
The design appears intended to deliver a modern geometric sans built on superelliptical forms, prioritizing consistency and clarity across letters and numerals. The softened corners and uniform strokes suggest a focus on screen-friendly, system-oriented typography with an approachable edge.
The design maintains a steady rhythm in text through consistent corner treatment and even stroke color, producing a tidy, grid-friendly texture. Distinctive superelliptical forms in both letters and numerals reinforce a cohesive, systemized look, especially in rounded characters and squared-off curves.