Sans Normal Onkih 14 is a bold, normal width, low contrast, upright, normal x-height font visually similar to 'Aspira' by Durotype, 'Muller Next' by Fontfabric, and 'Olivine' by URW Type Foundry (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, signage, confident, modern, friendly, straightforward, workmanlike, impact, clarity, modernity, approachability, versatility, geometric, roundish, compact, open counters, high legibility.
A sturdy sans with rounded geometry and a compact footprint, built from broad, even strokes and generous curves. Bowls and counters read open and clean, while joins and terminals stay largely blunt and uncomplicated, keeping the texture solid in both caps and lowercase. Uppercase forms feel stable and slightly condensed in stance, and the lowercase maintains clear differentiation between similar shapes through simple, pragmatic construction. Numerals are robust and highly readable, matching the same rounded, no-nonsense drawing style.
Best suited for display work where impact and clarity matter—headlines, posters, brand marks, packaging, and short UI or signage strings. It can also handle brief blocks of text when a strong, contemporary voice is desired, though its dense color is most effective at larger sizes.
The overall tone is confident and contemporary, projecting clarity and directness rather than delicacy. Its rounded shapes keep it approachable, while the dense, solid color gives it an authoritative, headline-ready presence.
The design appears intended to deliver a clean, modern sans voice with strong presence and dependable readability. Its rounded construction and simplified terminals suggest an aim for versatility across branding and editorial display without leaning into overt stylization.
In text settings the font produces a strong, dark typographic color with consistent rhythm and minimal stylistic distraction. Curved letters like C, G, O, and S emphasize smooth, circular construction, while straight-sided letters maintain crisp, vertical energy.