Sans Faceted Kogy 2 is a regular weight, wide, monoline, upright, normal x-height font.
Keywords: display, logotypes, headlines, ui labels, posters, futuristic, tech, sci‑fi, industrial, mechanical, modernize, tech signaling, geometric clarity, brand voice, angular, faceted, geometric, stencil‑like, octagonal.
This typeface is built from straight strokes and clipped corners, replacing curves with crisp, planar facets. The forms are monoline in feel, with consistent stroke thickness and squared, octagonal counters in letters like O and D. Terminals are frequently chamfered or notched, creating a subtle stencil-like rhythm and sharp interior angles, while crossbars and joins stay rigid and geometric. Lowercase echoes the uppercase construction, using compact, segmented shapes (notably in a, e, s, and g) and maintaining clear, modular proportions across letters and figures.
Best suited for display contexts where its faceted construction can be appreciated—headlines, short UI labels, product branding, and tech-forward packaging. It also works well for sci-fi or industrial-themed posters and title cards, while longer paragraphs may feel visually busy due to the frequent angular breaks.
The overall tone is futuristic and engineered, evoking control panels, aerospace markings, and digital hardware. Its sharp facets and deliberate notches give it an assertive, technical voice that reads as modern and slightly militaristic without becoming decorative.
The font appears designed to translate a machine-made, panel-marking aesthetic into a clean sans structure, prioritizing geometric consistency and a distinctive faceted silhouette. Its notches and chamfers seem intended to add character and a sense of precision while keeping letterforms sturdy and legible at larger sizes.
The design maintains strong consistency in its chamfer logic, which helps unify mixed-case settings and numerals. The most distinctive signature is the repeated clipped-corner geometry and occasional cut-in details that create small highlights and directional energy along strokes.