Sans Normal Tybar 2 is a bold, normal width, high contrast, upright, normal x-height font visually similar to 'Cosan' by Adtypo, 'EF Radiant' by Elsner+Flake, 'Epoca Classic' by Hoftype, '19-PRA' by ILOTT-TYPE, 'Contemporary Sans' by Ludwig Type, 'Skeena' by Microsoft Corporation, and 'Alinea Incise' by Présence Typo (names referenced only for comparison).
Keywords: headlines, posters, signage, branding, sports, confident, industrial, sporty, no-nonsense, institutional, impact, clarity, modernity, compactness, geometric, compact, sturdy, crisp, blocky.
A heavy, geometric sans with compact proportions and strongly filled counters. Round letters are built from near-circular bowls with tight apertures, while straight-sided forms use firm verticals and squared terminals. Stroke contrast is noticeable in curves versus stems, giving bowls and joins a slightly sculpted feel rather than a purely monoline construction. Overall spacing reads dense and efficient, with robust capitals and lowercase forms that keep a steady rhythm in text.
Performs best in headlines, posters, and short bursts of copy where a dense, high-impact texture is desirable. It also fits branding systems that need a sturdy, industrial voice, as well as signage and wayfinding where strong silhouettes help maintain clarity from a distance.
The tone is assertive and utilitarian, leaning toward a modern, engineered feel. Its weight and compactness convey strength and decisiveness, making it feel suited to attention-grabbing messaging rather than delicate or expressive typography.
Likely intended to deliver a compact, powerful sans voice that stays clean and modern while maximizing visual punch. The design prioritizes strong silhouettes, efficient spacing, and consistent geometric structure for reliable performance in display and branding contexts.
Digits are large and simplified with strong silhouettes, matching the letterforms’ compact, high-impact presence. The lowercase maintains clear differentiation between similar shapes (e.g., a/e/c) through tight apertures and sturdy joins, supporting quick recognition at display sizes.