This RGB CABLE was pretty cool...before it BROKE!

**A Closer Look at the RGB Cable: Unpacking its Features and Potential**

When Liam Lee sent me a sample of this cable, I was excited to take a closer look at its features and see if it lived up to my expectations. However, upon further inspection, I realized that there was more information missing from the spec sheet than I had initially thought. Pricing, availability, and other details were not included, leaving me hoping that we would find out more during Computex, which is just around the corner.

**The Cable's Construction**

Taking a closer look at the cable, I was pleased to see that it has a decent level of quality. The white casing is free from heat shrink and fraying, indicating that it is made with durable materials. However, I wouldn't say that it is the best cable I've seen, but it should be sufficient for most purposes.

**The RGB Housing Array**

On the other side of the cable, I found what appears to be a 5-volt addressable RGB fiber optic lighting housing array. This is where the illumination takes place and consists of twelve sort of transparent wires that span across the entire extension. The cables are secured by custom cable combs that latch onto the wires, although these appear to be slightly loose in certain areas. I hope that this will be addressed in the final retail model.

**Flipping the LED Housing**

One feature that stood out to me was the ability to flip the LED housing to the other side of the cable based on the motherboard's ATX clip position. This is a nice touch, as not all motherboards have the same side orientation for the ATX connector. It allows users to easily install and remove the cable without having to deal with awkward angles.

**The Cable that Fell Off**

Assuming this was connected, I saw that it would actually plug into the power supply's 24-pin connector, which is conveniently located on the side of the connector. From here, there are a few different options for connecting and controlling the LEDs. There's a three-pin connector that can be plugged into the included controller expansion bracket or directly to the motherboard if it supports addressable RGB devices.

**The Controller Expansion Bracket**

Speaking of the controller expansion bracket, I was impressed by its design and functionality. It has three buttons on the back: one for LED mode or color mode, another for effect speed, and a third for memory profiles or lighting profiles. I'm not entirely sure what the memory profile feature does, but I suspect it's related to creating customizable lighting profiles that can be saved and recalled later.

**The PCB and Power Connection**

The bracket is connected to the motherboard via a molex connector, which is not ideal. According to the spec sheet, it was supposed to be SATA, so I'm hoping that will change in the retail model. The cable itself has a standard 24-pin ATX connector on one end.

**Installation and Potential Issues**

One potential issue I encountered during installation was clearance problems with the PCB and PCI Express slots on my motherboard. If the PCB were mounted slightly differently, it would resolve this issue entirely. However, I had to bend the PCB significantly to fit it flush with the case. This may be a problem for some users, so it's essential to consider this before purchasing.

**Conclusion**

Overall, while this RGB cable has its pros and cons, I believe it could be an interesting addition to many gaming setups or creative projects. The ability to customize the lighting effects and create memory profiles is a nice touch, but the molex power connector and potential clearance issues are drawbacks that need to be considered. What do you think? Would you spend your hard-earned dollars on this RGB 24-pin ATX extension cable, or is it just another gimmick? Let us know in the comments!