Sans Superellipse Habud 1 is a bold, normal width, low contrast, upright, normal x-height font visually similar to 'Futo Sans' by HB Font, 'Famiar' by Mans Greback, and 'Bitner' by The Northern Block (names referenced only for comparison).
Keywords: headlines, branding, ui, signage, posters, modern, friendly, utilitarian, techy, confident, modernization, approachability, clarity, impact, rounded corners, blocky, compact, sturdy, geometric.
A heavy, geometric sans with rounded-rectangle construction and softened corners throughout. Curves tend toward superelliptical shapes rather than true circles, giving bowls and counters a squarish, compact feel. Strokes are uniform with minimal modulation, terminals are mostly flat, and joins are clean and deliberate, producing a sturdy, dense texture in text. Proportions lean slightly wide in key forms (notably rounded letters and numerals), while the overall rhythm remains even and highly legible at larger sizes.
Best suited for headlines, brand marks, packaging, and poster typography where its blocky, rounded geometry can carry personality and impact. It also fits UI labels, wayfinding, and dashboards thanks to its consistent stroke weight and clearly differentiated forms.
The tone reads modern and approachable while still feeling industrial and purposeful. Its rounded geometry adds friendliness, but the blunt terminals and compact counters keep it assertive, making it suitable for contemporary, tech-adjacent branding and clear, attention-grabbing messaging.
The design appears intended to combine a geometric, superellipse-based construction with friendly rounding to create a contemporary workhorse display sans. It prioritizes strong silhouette, consistency across letterforms and numerals, and a compact, confident presence in running sample text.
The uppercase set feels architectural and stable, with generous corner radii that prevent harshness. Numerals follow the same rounded-rect logic (e.g., a broad, squared-off “0” and a sturdy “8”), reinforcing consistency for interfaces and data-forward layouts.