The G.SKILL RIPJAWS KM780R RGB and KM780R MX Mechanical Keyboards
Taipei, Taiwan – 15 January 2015
G.SKILL International Enterprise Co., Ltd., the world’s leading manufacturer of extreme performance memory and gaming peripherals, announces the release of RIPJAWS KM780R RGB and KM780R MX model mechanical gaming keyboards, an expansion of the best-selling KM780 series gaming keyboard. Featuring the same great build and design, the KM780R series is the redux of the original without the extra gaming keycaps, puller tool, and keycap box; and most importantly, at a lower price.
The Whole Package: Build and Design
The KM780R models offer the same great features and designs of the original KM780 series keyboards: highly responsive and extremely durable Cherry MX key switches (rated for 50 million keypresses without losing the same mechanical feel), military-grade aluminum plate in a brushed black anodized finish, and the full suite of extra macro keys, onboard keyboard profiles, and media control keys with the digital LED volume display.
And of course, these new KM780R RGB and KM780R MX models will be available in Cherry MX red, brown, and blue flavors. See below for a brief comparison chart.
Availability and Price
These new G.SKILL RIPJAWS KM780R RGB and KM780R MX models are currently available on Amazon.com, and would be sold via G.SKILL authorized worldwide distribution partners at a later date. Both RIPJAWS KM780R RGB and KM780R MX are now available with a respective MSRP of $159.99 and $119.99 USD – $10 reduction from the original KM780 models.
Check out the G.SKILL RIPJAWS KM780R RGB and KM780R MX at Amazon
About G.SKILL
Established in 1989 by PC hardware enthusiasts, G.SKILL specializes in high performance memory and SSD products, designed for PC gamers and enthusiasts around the world. Combining technical innovation and rock solid quality through our in-house testing lab and talented R&D team, G.SKILL continues to create record-breaking memory for each generation of hardware and hold the no. 1 brand title in overclocking memory.