Cursive Konop 15 is a very light, narrow, medium contrast, italic, very short x-height font.
Keywords: branding, logotypes, invitations, editorial, packaging, elegant, airy, romantic, delicate, expressive, signature style, elegant display, personal touch, flourished caps, monoline, looping, slanted, whiplash strokes, open counters.
A delicate, signature-like script with long, sweeping entry and exit strokes and a pronounced rightward slant. Strokes are hairline-thin overall with subtle pressure changes, creating light contrast at curves and terminals while keeping a predominantly monoline feel. Letterforms are compact in height with tall, ascending capitals and extended cross-strokes, producing a lively baseline rhythm and frequent overlaps where loops and swashes pass through other strokes. Spacing feels tight and fluid, and the forms favor narrow, elongated ovals and open counters that keep the texture light on the page.
Well-suited to branding and logotype work where a light, high-end handwritten feel is desired, as well as invitations, greeting cards, and romantic packaging. It can also serve as an accent face for short editorial headlines or pull quotes, where its flourishes have room to breathe.
The font conveys a refined, intimate tone—more like a personal autograph than a formal calligraphic hand. Its airy hairlines and sweeping curves suggest romance and sophistication, with a slightly dramatic flourish that reads as expressive and upscale rather than casual.
The design appears intended to emulate a quick, stylish signature with fashion-forward elegance. Its emphasis on sweeping capitals and hairline strokes suggests a display-oriented script meant to add personality and refinement in prominent, short-form text.
Capitals are notably ornamental, often built from large loops and long horizontal or diagonal strokes that can dominate a word. The lowercase maintains a consistent forward motion with simplified joins, while some letters use extended descenders and crossing strokes that add visual sparkle but can increase collision risk in dense settings.