Sans Contrasted Neja 3 is a regular weight, wide, high contrast, upright, normal x-height font.
Keywords: headlines, posters, branding, ui display, gaming, techno, futuristic, industrial, angular, modular, sci‑fi branding, digital aesthetic, industrial signage, display impact, chamfered, geometric, monolinear feel, sharp terminals, squared forms.
This typeface is built from geometric, mostly rectilinear forms with frequent chamfered corners and crisp, angular terminals. Strokes show noticeable contrast created by alternating heavier verticals and lighter connecting strokes, producing a segmented, constructed look rather than continuous curves. Counters are predominantly squarish and open, and many joins are resolved with straight cuts that create small notches and diagonal facets. Proportions are horizontally generous, with compact, technical letterforms that maintain consistent rhythm across caps, lowercase, and numerals.
It works best in large sizes where the chamfers, cut-ins, and contrast can read clearly—headlines, logos, packaging accents, event graphics, and tech or gaming-themed interfaces. For long passages or small UI text, it’s better suited to short labels or callouts where its angular detailing remains legible.
The overall tone is futuristic and machine-made, evoking sci‑fi interfaces, electronics labeling, and industrial signage. Its sharp facets and engineered contrast give it a confident, high-tech voice with a slightly aggressive edge, more “display” than neutral text.
The design appears intended to deliver a constructed, techno-geometric sans with purposeful faceting and contrast, prioritizing a distinctive sci‑fi/industrial personality over invisibility. Its consistent modular geometry suggests it was drawn to feel precise, engineered, and modern in display settings.
Several glyphs lean into a stenciled/constructed sensibility through deliberate breaks and angled cut-ins, which adds character but can increase visual noise at smaller sizes. The numerals match the same squared, chamfered logic, supporting cohesive use in data-forward compositions.