Sans Normal Sype 2 is a regular weight, normal width, very high contrast, upright, normal x-height font.
Keywords: headlines, editorial, magazines, branding, posters, fashion, refined, dramatic, modern, premium appeal, headline impact, editorial tone, modern elegance, high-contrast, sharp terminals, calligraphic stress, elegant, crisp.
This typeface features an ultra high-contrast construction with hairline-thin connecting strokes and weighty verticals, producing a crisp, polished texture. Curves show a clear calligraphic stress, with round forms that taper into fine points and occasional flared joins, giving letters a sculpted feel. Terminals are predominantly sharp and clean rather than rounded, and the overall rhythm alternates between bold stems and delicate hairlines for a distinctly dramatic silhouette. Proportions feel balanced with a moderate x-height and relatively open counters, while spacing in text appears controlled and even, supporting composed word shapes.
Best suited to headlines, magazine layouts, and brand identities where high contrast can create impact and a premium feel. It will also perform well for posters and large-format typographic compositions, particularly when ample size and whitespace allow the hairlines to remain visually clear.
The overall tone is refined and high-end, with a fashion/editorial sensibility driven by dramatic contrast and sleek detailing. It reads as contemporary and confident, with a hint of classic, display-oriented elegance.
The design appears intended to deliver a modern, high-contrast voice that feels luxurious and attention-grabbing, combining sculpted curves with crisp, minimal terminals to create a sophisticated display texture.
In the specimen text, the strongest impression comes from the interplay of thick verticals and very fine horizontals/diagonals, which makes the font look especially striking at larger sizes. The design maintains a consistent stress and contrast pattern across capitals, lowercase, and numerals, helping paragraphs feel cohesive despite the dramatic stroke modulation.