We suspect that this lock-in is ultimately untenable, and that at some point all the component companies are going to have to get together and agree on at least some basic universal standards. RGB Controller is a small device that is used to control the RGB lighting of your RGB devices (RGB. So you're incentivized to buy other relevant/certified components from the same company. Cooler Master MasterBox K500 with 2x RGB LED fan and RGB LED striping, Tempered glass side panel - TPShop.Ru. LED Fan Editor Make your USB fan different AppNee. The application can be used to control the RGB lighting in keyboards, mice, mousemats, motherboards, RAM modules, graphics cards, LED strips, fan controllers, smart LED light bulbs, fans, coolers, and more, from brands / manufacturers like ASUS, ASRock, Corsair, G.Skill, Gigabyte, HyperX, MSI, Razer, ThermalTake, and more. The idea, from a business perspective, is vendor lock-in you buy components from a certain brand, and the associated RGB system is specific to that brand.
#RGB LED FAN EDITOR SOFTWARE#
Many vendors now have their own software ecosystems for managing RGB LED lighting, fan control, and AIO pump control for supported products. Don't make any assumptions, though: Be sure to consult your hardware documentation for additional details. In addition, many five-pin RGB+W solutions can use the four-pin RGB connection without special adapters. Considering that these days, we're paying a premium to have RGB functionality injected into almost every possible hardware component ( including cupholders!) whether we want it or not, many of us would prefer those premiums to be as low as possible.įurthermore, although many brands advertise their own versions of RGB functionality, we have found that most will work together in harmony-provided that they employ the standard four-pin power connector and control connection.
There's technically a quality trade-off, but a commensurate cost savings. To reiterate: Most current PC-hardware color options involving RGB employ standard-flavor RGB (that is, minus the "W" or "WW").
Also like its RGB+W cousin, RGB+WW uses a five-pin connection interface in most implementations, and that connection may or may not be compatible with common four-pin RGB solutions. Like with RGB+W, RGB+WW can employ an on-node warm-white diode, or it can have a separate warm-white diode near to (but separate from) the RGB node. Both RGB+W and RGB+WW were designed to accomplish similar tasks, but with different approaches.