Sans Superellipse Imgan 5 is a very bold, very wide, medium contrast, italic, normal x-height font.
Keywords: headlines, logos, posters, sports branding, gaming ui, futuristic, racing, aggressive, techno, sporty, impact, speed, tech aesthetic, branding, display, oblique, angular, rounded corners, chiseled, compact counters.
A heavy, forward-leaning sans with squarish, superellipse-derived bowls and generously rounded corners. Strokes are thick and consistent, with crisp, angled terminals and frequent cut-ins that create sharp internal notches. Counters tend toward rectangular or slit-like openings, giving letters a tight, engineered feel. The overall rhythm is fast and directional, with wide letterforms and a low-slung, aerodynamic silhouette that stays consistent across caps, lowercase, and numerals.
Best suited for large-scale display typography such as headlines, posters, event graphics, and logotypes where its speed-forward styling can lead the composition. It also fits sports and esports identities, gaming and streaming overlays, and tech or automotive promotional graphics. Use with ample size and spacing when readability is a priority.
The tone is high-energy and performance-driven, suggesting speed, machinery, and sci‑fi interface aesthetics. Its oblique stance and aggressive cuts read as action-oriented and competitive rather than friendly or casual. The look evokes motorsport branding and arcade-era techno styling.
The design appears intended to deliver a sleek, high-impact, motion-centric voice built from rounded-rectangle geometry and sharp cutaway details. By pairing wide proportions with an oblique stance and chiseled terminals, it aims to communicate speed, strength, and a modern engineered aesthetic.
Distinctive glyph construction relies on carved shapes and offset joins that create a modular, industrial texture in words. The wide stance and condensed counters can reduce clarity at small sizes, but they amplify impact and motion in larger display settings. Numerals follow the same squared, streamlined geometry for cohesive titling and scoring applications.