Back in May 2017, we published our first look at RGB lighting, showcasing early motherboard controls and standards, RGB light strips, and the first RGB-enabled RAM. Now, two years later, things have come a long way, so it's time to take another look lighting to see what's possible with the latest components and software, this time focusing on addressable RGB lighting, which takes customization up a couple notches.
One thing that has remained the same since 2017, however, is that companies are still coming to grips with industry standards. With some of the biggest case and cooler manufacturers (notably NZXT and Corsair) continuing to go their own way with proprietary connectors and controls, PC enthusiasts who like to, you know, actually select their own components, need to work as hard as ever to find RGB components that will work together. Luckily a few manufacturers have gone the other way, moving towards adoption of the motherboard standards first developed by Asus, including Cooler Master, Phanteks, and SilverStone. The most recent manufacturer to make the switch to industry standards is long-time PC powerhouse Thermaltake. We're going to be focusing this article on some of its products, as they offer the best combination of functionality, quality, and price of any industry-standard ARGB products on the market today.
With that said, sometimes it does take going your own way to develop a new product, so we're also going to be looking at the first addressable RGB RAM product to hit the market: Corsair's Dominator Platinum RGB RAM. It offers lighting effects that have simply never been possible before, but to achieve them, Corsair has moved away from industry standards that it helped pioneer with its Vengeance RGB RAM. When released in early 2017, Vengeance RGB the first RAM on the market that could have its lighting controlled straight through the RAM slots. Corsair has updated the look of Vengeance with its new Vengeance RGB Pro line, which is still the very best choice for anyone looking to have fully integrated lighting controls, but for a taste of the future, Dominator Platinum's ARGB lighting is where it's at, even if it does require Corsair's proprietary iCUE software to control
Special thanks to Thermaltake for providing samples of its Water 3.0 360 ARGB Sync Cooler and 120mm ARGB Sync Fan Kit, and to Corsair for providing a sample of its Dominator Platinum RGB 32GB DDR4-3600 RAM Kit.
The specs for our test system are shown below:
- CPU: Intel Core i9-9900K
- Motherboard: Asus Z390 Maximus XI Hero Wi-Fi
- Video Card: EVGA GeForce GTX 2080 Ti 11GB Black Edition
- SSD #1: Samsung 970 Pro 1TB M.2 (thank you to Samsung for providing this review sample)
- RAM: Corsair 4x8GB Dominator Platinum RGB DDR4-3600 RAM (thank you to Corsair for providing this review sample)
- Case: Thermaltake A500 Aluminum Tempered Glass Case (thank you to Thermaltake for providing this review sample)
- Cooler: Thermaltake Water 3.0 360 ARGB Sync (thank you to Thermaltake for providing this review sample)
- Case Fans: Thermaltake 3x 120mm ARGB Sync Fan Kit (thank you to Thermaltake for providing this review sample)
- Power Supply: SilverStone ST1000-PTS (thank you to SilverStone for providing this review sample)
- Operating System: Windows 10 Flash Drive
From our point of view, the critical innovation in RGB lighting was the adoption of first the standard 4-pin 12V RGB header on previous-generation motherboards, and now the standard 3-pin 5V RGB header on cutting-edge high-end boards, including the Asus Z390 Maximus XI Hero we used.
Note that while early RGB-capable motherboards included RGB controls within their UEFI interfaces, this is now a thing of the past. ARGB lighting is simply too complicated to set up using a UEFI, so it's all done with Windows software at this point. A screenshot of the Asus Aura interface is shown below:
Note that to connect the light strips or controller box to the motherboard, you have to pay special attention to the connector you're using. Most motherboards now have at least one 4-pin 12V connector, which must be plugged in one way, but unfortunately can physically be connected backwards. Luckily, the new 3-pin 5V ARGB connector standard deals with that problem in the most obvious way possible: by preventing a reverse connection! You can see the two standards below:
The one remaining issue that the 3-pin standard didn't fix is the lack of any locking mechansim. These connectors slipped off constantly during our testing, and the pins bend pretty easily too (although they are easy enough to bend back). Luckily, once you get the connector in place, you can rest assured that it will probably stay in place, given that not much moves around inside a closed PC case! Even so, we'd love it if a 2nd-gen ARGB standard added a lock, as long as it's backward compatible (please!!!).
So with setup and connection out of the way, we can check out what next-gen addressable RGB lighting looks like!