Sans Superellipse Piloj 7 is a bold, narrow, low contrast, upright, normal x-height font visually similar to 'North Block' by BoxTube Labs, 'Nomad' by Coniglio Type, 'Mr Alex' by Hipopotam Studio, and 'Evanston Tavern' by Kimmy Design (names referenced only for comparison).
Keywords: posters, headlines, signage, packaging, logos, industrial, utilitarian, authoritative, condensed, technical, space saving, high impact, systematic geometry, signage clarity, rectilinear, rounded corners, compact, sturdy, poster-like.
A compact sans with tall proportions, squared counters, and heavily rounded corners that create a superellipse, rounded-rectangle construction. Strokes are consistently heavy with minimal modulation, producing dense, high-impact letterforms. Curves resolve into flattened bowls and soft-angled joins, while terminals are largely straight-cut and vertical. Overall spacing is tight and the rhythm is strongly vertical, with simplified interior shapes that stay open and legible at display sizes.
This font performs best in headlines, posters, and branding where compact width and strong vertical presence help fit more characters per line. It also suits signage, labels, and packaging that benefit from a sturdy, engineered aesthetic and clear numeral forms.
The tone is pragmatic and assertive, with an industrial, no-nonsense feel. Its condensed, blocky forms suggest signage and engineered systems rather than casual or expressive typography, giving text a controlled, authoritative voice.
The design appears intended to deliver maximum impact and economy of space through condensed proportions and a rounded-rectangular geometry. Its consistent stroke weight and simplified counters prioritize robust reproduction and clear recognition in display and utilitarian settings.
Round letters like O and Q read as squarish ovals with softened corners, reinforcing the geometric system across capitals and lowercase. Numerals share the same sturdy, compact build and look well suited to tabular or label-like contexts where clarity and density matter.