Sans Normal Kynoh 7 is a very bold, wide, low contrast, italic, normal x-height font visually similar to 'Nexa' by Fontfabric, 'Magenos' by Graphite, 'Kirshaw' by Kirk Font Studio, 'Mazzard' by Pepper Type, 'Neue Reman Sans' by Propertype, 'Corbert' by The Northern Block, and 'Mundial Narrow' by TipoType (names referenced only for comparison).
Keywords: headlines, posters, branding, packaging, sportswear, friendly, playful, sporty, retro, punchy, impact, approachability, motion, display, rounded, soft corners, heavy terminals, oblique slant, compact counters.
A heavy, oblique sans with rounded construction and softened corners throughout. Strokes are thick and even, with minimal modulation, producing dense black shapes and small internal counters. Curves are broad and smooth, while joins and terminals read slightly chamfered or cushioned rather than sharp. The overall proportions feel horizontally roomy, and the italic angle is consistent across caps, lowercase, and figures, giving the alphabet a unified forward motion.
Best suited to large sizes where its mass and slant can act as a strong visual hook—headlines, poster typography, brand marks, and bold packaging. It can also work for short UI or social graphics where a friendly, energetic emphasis is needed, but the tight counters suggest avoiding long passages at small sizes.
The tone is upbeat and approachable, with a confident, energetic slant that suggests motion. Its rounded heft reads more friendly than aggressive, leaning toward sporty and retro display styling rather than sober utility.
The design appears intended to deliver maximum impact with a warm, rounded voice, combining a consistent oblique rhythm with simplified, heavy shapes for attention-grabbing display use.
Round letters like O/C/G are generously shaped but remain tight inside due to the weight, and the “a” is single-storey, reinforcing an informal, contemporary feel. The numerals match the letterforms with the same oblique stance and chunky silhouettes, staying legible through simplified, high-mass shapes.