Sans Superellipse Etris 3 is a regular weight, very narrow, medium contrast, italic, normal x-height font.
Keywords: headlines, posters, branding, sports, packaging, dynamic, sporty, modern, assertive, condensed, space saving, headline impact, contemporary motion, graphic clarity, slanted, rounded corners, clean, tall, compact.
A condensed, right-slanted sans with compact proportions and a tall, tightly packed rhythm. Strokes are smooth and largely monolinear with subtle modulation, and terminals are clean with gently rounded corners. Counters tend to be small and oval, with superellipse-like curves in letters such as C, O, and G, while diagonals (A, V, W, X, Y) feel crisp and streamlined. Lowercase forms are simple and utilitarian, with single-storey a and g, a compact e, and a narrow, upright n/m structure that reinforces the font’s vertical emphasis. Numerals follow the same condensed, forward-leaning logic, staying bold in silhouette and legible at display sizes.
Best suited to headlines, posters, branding, and packaging where a compact, energetic voice is useful and horizontal space is limited. It can also work for sports and entertainment graphics, signage, and short callouts where its condensed slant helps create momentum. For longer text, it will be most effective at larger sizes with generous line spacing.
The overall tone is fast and energetic, with a contemporary, performance-driven feel. Its slant and compressed width give it a sense of motion and urgency, while the rounded geometry keeps it friendly rather than aggressive. The result reads as modern, sporty, and headline-ready.
The design appears intended to deliver a space-saving, contemporary italic sans that emphasizes speed and impact while maintaining clean, rounded geometry for a controlled, modern finish.
Spacing appears tight and efficient, producing strong word shapes in short bursts but a dense texture in longer passages. The italic construction looks integral to the design rather than a simple oblique, with consistent slant and carefully shaped curves across both cases.