Sans Faceted Ilbe 5 is a very light, normal width, monoline, upright, normal x-height font.
Keywords: ui labels, wayfinding, tech branding, posters, headlines, tech, futuristic, digital, minimal, clinical, display impact, tech aesthetic, modular system, distinctiveness, angular, geometric, segmented, modular, squared.
A geometric, segmented sans built from straight strokes and clipped corners, replacing curves with short angled facets. Terminals are squared with small breaks and gaps that create a dotted/connector rhythm at corners and joins, giving each glyph a constructed, modular feel. Proportions are clean and fairly open, with generous counters in round-derived forms like O and Q rendered as rectilinear loops; diagonals (K, R, X, Y) are handled with crisp straight segments. The overall texture is airy and precise, with consistent stroke thickness and a slightly mechanical articulation in both uppercase and lowercase.
Best suited to short text where its segmented construction can be appreciated: interface labels, dashboards, device graphics, sci‑fi themed branding, and poster headlines. It can also work for compact subheads or captions when ample size and spacing are available to keep the corner gaps from filling in.
The font reads as technological and system-like, evoking digital displays, circuitry, and schematic labeling. Its sharp facets and deliberate interruptions add a coded, engineered character that feels modern, cool, and slightly retro-futurist rather than expressive or handwritten.
The design appears intended to translate a faceted, display-like construction into a usable sans for contemporary layouts, balancing geometric clarity with a distinctive segmented detail. Its consistent modular logic suggests a focus on technical aesthetics and a recognizable voice for modern, digital contexts.
The corner breaks and segmented joins are a defining motif and remain visible in running text, adding sparkle but also introducing a deliberate, staccato rhythm. Numerals follow the same rectilinear construction, producing a cohesive set suited to interfaces and data-forward compositions.