Sans Faceted Fipa 5 is a regular weight, normal width, low contrast, italic, normal x-height font.
Keywords: headlines, posters, sports branding, gaming ui, tech packaging, edgy, futuristic, techno, aggressive, sporty, impact, motion, sci-fi, branding, signage, angular, chiseled, faceted, slanted, octagonal.
This typeface is built from sharp, planar strokes where curves are replaced by clipped corners and straight segments, producing an overall faceted silhouette. Forms are slightly right-slanted with a forward-leaning rhythm, and strokes stay largely uniform in thickness with crisp terminals. Round letters and numerals (O, C, G, 0, 8, 9) read as octagonal rings, while diagonals and joints create pronounced notches and wedges that emphasize directionality. Spacing and proportions feel compact and efficient, with a consistent, mechanical geometry across caps, lowercase, and figures.
It performs best in short to medium-length display settings where the faceted silhouettes can read clearly: headlines, event posters, game titles, team or esports branding, and technology-themed packaging or graphics. The distinctive angular texture also suits interface labels or overlays when used at larger sizes with generous tracking.
The angular construction and forward slant give the font a tense, high-energy tone that feels technical and combative. Its chiseled shapes evoke industrial signage and sci‑fi interfaces, projecting speed and impact rather than warmth or tradition.
The design appears intended to deliver a stylized, geometric voice by translating sans structures into sharp facets and clipped corners, pairing that with a forward slant to suggest motion and urgency. Consistent stroke weight and repeated octagonal motifs create a strong, system-like identity suitable for bold visual themes.
Uppercase and lowercase share the same faceted logic, keeping texture cohesive in mixed-case text. Numerals match the letterforms closely, reinforcing a display-oriented, branded look where shape character matters more than neutral readability at small sizes.