Sans Superellipse Bynor 3 is a very light, very narrow, monoline, upright, normal x-height font.
Keywords: ui labels, wayfinding, posters, branding, packaging, futuristic, technical, minimal, modular, clean, space-saving, systematic design, modernism, tech aesthetic, display clarity, rounded corners, geometric, condensed, linear, wireframe.
This font is built from slender, even strokes with rounded-rectangle construction and consistently softened corners. Proportions are tall and tightly set, with narrow counters and a compact rhythm that reads like a drawn tube or wireframe. Curves are handled as superelliptic bends rather than true circles, giving bowls and arches a squared-off roundness. Terminals are generally blunt and rounded, and the overall spacing feels measured and controlled, supporting a crisp, structured texture in text.
It works well for interface labels, dashboards, and compact headings where narrow letterforms help fit space without adding visual weight. The squared-round geometry also suits sci‑fi or tech-forward posters, product branding, and packaging where a clean, engineered aesthetic is desired. For longer text, it is best used at comfortable sizes where the thin strokes remain clear.
The overall tone is futuristic and technical, with a minimalist, engineered feel. Its narrow, linear presence suggests interfaces, instruments, and schematic labeling more than traditional editorial typography, conveying precision and a slightly retro sci‑fi character.
The design appears intended to explore a rounded-rectangle geometric system in an ultra-clean, low-ink voice, prioritizing consistency of curvature and a precise, modern rhythm. It aims to deliver a compact, futuristic sans suitable for structured layouts and technical or digital-themed communication.
Distinctive rounded-rectangular bowls and tight apertures create a mechanical regularity, especially noticeable in rounded letters and numerals. The punctuation and small details keep the same thin-stroke logic, reinforcing a cohesive, streamlined voice across display lines and longer samples.