Sans Normal Anraw 7 is a regular weight, normal width, low contrast, upright, normal x-height font visually similar to 'HK Nova' by Hanken Design Co., 'Chesna Grotesk' by Horizon Type, 'Almarose' by S&C Type, 'Infoma' by Stawix, 'TT Norms Pro' by TypeType, 'URW Geometric' by URW Type Foundry, and 'Oslo' by Wilton Foundry (names referenced only for comparison).
Keywords: ui text, editorial, brand systems, signage, presentations, modern, neutral, clean, friendly, functional, versatility, legibility, modernity, clarity, geometric, even rhythm, open counters, rounded bowls, crisp terminals.
This typeface is a clean, geometric-leaning sans with smooth, round bowls and straightforward construction. Strokes are even and consistent, with crisp, mostly squared terminals that keep the forms tidy and controlled. The letterforms show open counters and generous apertures (notably in shapes like e, c, and s), supporting clarity in continuous text. Uppercase proportions feel balanced and stable, while the lowercase maintains a steady rhythm with simple, unembellished details.
It suits interface copy, product text, and general-purpose editorial layouts where clarity and an even typographic texture matter. The clean geometry also works well for brand systems and supporting typography in marketing materials, and it should remain readable in straightforward signage and presentation settings.
The overall tone is modern and neutral, with a friendly clarity that feels practical rather than expressive. Its restrained shapes and even texture give it a dependable, contemporary voice suitable for everyday communication.
The design appears intended as a versatile, general-purpose sans that prioritizes clarity, consistency, and a contemporary, unobtrusive presence across both display and text applications.
Figures appear straightforward and legible, with clear distinctions between rounded and straight-sided forms and minimal stylistic quirks. The sample text forms an even typographic color, suggesting consistent spacing and predictable word shapes at reading sizes.