Sans Superellipse Ongig 5 is a regular weight, normal width, monoline, upright, normal x-height font.
Keywords: ui text, app design, signage, headlines, branding, techno, industrial, futuristic, utilitarian, clean, modernization, technical clarity, geometric system, interface neutrality, rounded corners, squared curves, compact, geometric, low contrast.
A geometric sans built from rounded-rectangle and superelliptic forms, with consistent stroke thickness and crisp, squared-off terminals softened by generous corner radii. Curves tend to resolve into flat-ish arcs rather than true circles, giving bowls and counters a slightly squarish, engineered feel. Proportions are compact with a steady cap height and a moderate x-height; spacing reads even and controlled, with counters kept open for clarity. Diagonals are clean and straight, while round letters like O, C, and G maintain a rectilinear rhythm through their flattened curves.
Well-suited to interface typography, dashboards, and on-screen labeling where a clean, engineered texture helps maintain order. It also performs well in short headlines, wayfinding, and tech-forward branding that benefits from rounded-square geometry and a controlled rhythm.
The overall tone is modern and technical, with a subtle sci‑fi/industrial flavor. Its squared curves and rounded corners suggest machinery, interfaces, and contemporary product design rather than humanist warmth. The texture feels steady and pragmatic, projecting reliability and precision.
The design appears intended to deliver a contemporary geometric sans with a superelliptic backbone—prioritizing clarity and consistency while adding a distinctive rounded-rect silhouette. It balances strict construction with softened corners to feel approachable without losing its technical edge.
Distinctive superellipse construction is especially apparent in rounded characters (O, Q, 0, 8), which look more like rounded boxes than circles. The lowercase shows simple, architectural forms (single-storey a, compact e, open c) that keep the voice consistent across sizes, while numerals follow the same rounded-rect geometry for a cohesive set.