Sans Superellipse Esgun 3 is a bold, normal width, low contrast, italic, normal x-height font visually similar to 'Siro' by Dharma Type, 'Normaliq' by Differentialtype, 'Panton' by Fontfabric, 'Hint' by ParaType, 'Core Sans N SC' and 'Core Sans NR' by S-Core, 'Accord Alternate' by Soneri Type, 'Kongress' by Tipo Pèpel, and 'Exalted' by Zafara Studios (names referenced only for comparison).
Keywords: headlines, posters, branding, sportswear, packaging, sporty, modern, energetic, confident, friendly, create motion, boost impact, modernize tone, improve approachability, oblique, rounded, soft corners, geometric, compact.
A heavy oblique sans with rounded, superellipse-like counters and softened corners throughout. Strokes stay broadly consistent with minimal contrast, producing a sturdy, even color in text. Curves are full and slightly squared-off rather than purely circular, while terminals are clean and crisp, keeping the forms tight and compact. Spacing appears moderately open for an italic, helping maintain clarity at larger display sizes as well as in short text.
Best suited to headlines, short paragraphs, and prominent UI or signage moments where a strong, dynamic voice is needed. It works particularly well for branding systems that want a modern, sporty emphasis, and for packaging or promotions that benefit from bold, slanted typography with friendly rounded forms.
The overall tone is energetic and forward-leaning, with a confident, sporty feel. Rounded geometry keeps it approachable, while the bold slant and compact forms add urgency and motion.
The design appears intended to deliver a modern, high-impact italic sans that stays readable while conveying motion. Its rounded superellipse construction suggests an aim for a contemporary, approachable geometry rather than sharp industrial rigidity.
Uppercase shapes read as streamlined and geometric, while lowercase forms keep a simple, utilitarian construction that supports fast recognition. Numerals are similarly robust and oblique, matching the same rounded-rect geometry and steady stroke weight.