California State University Channel Islands (CSUCI) Brand Color Codes
with HEX, RGB, CMYK, Pantone & RAL
- Red: #D31F36
- Silver: #898C8D
What are the California State University Channel Islands (CSUCI) brand color codes?
The California State University Channel Islands (CSUCI) colors are Red, Silver. The California State University Channel Islands (CSUCI) brand color codes in HEX, RGB, CMYK, and Pantone formats can be found below. The following table provides standardized color codes across multiple systems, including HEX, RGB, and CMYK, along with Pantone (PMS), RAL, and NCS (Natural Color System). HEX and RGB formats are specifically intended for digital applications such as web design and user interfaces, while CMYK values are optimized for professional printing purposes.
Color Names & Codes of the California State University Channel Islands (CSUCI) Brand
*The color values above are not explicitly specified in the California State University Channel Islands (CSUCI) brand guidelines, but represent the closest approximations based on the official color references available.
The California State University Channel Islands (CSUCI) brand colors are Red, Silver. The Red color code for the brand is HEX: #D31F36, RGB: (211, 31, 54), CMYK: (11, 100, 85, 2), Pantone: PMS 186, RAL: 3018. The Silver color code for the brand is HEX: #898C8D, RGB: (137, 140, 141), CMYK: (47, 37, 36, 2), Pantone: PMS 877, RAL: 7042.
California State University Channel Islands (CSUCI) Brand Image with Color Palette
Download California State University Channel Islands (CSUCI) Color Palette
Download the California State University Channel Islands (CSUCI) brand color palette image, which includes all official HEX codes in a single visual format designed for digital use. These HEX values are recommended for applications such as web design, UI components, and digital presentations. For professional print production or spot color requirements, refer to the Pantone® (PMS) and RAL codes listed above, which are standardized for accurate color reproduction in physical materials.
