One of our adaptors

RTX 4090 16-Pin Cable Surveys Indicate Some Use ‘Under Spec’ Wiring

Posted on

The Nvidia GeForce RTX 4090 power cable melting issue continues to confound. As more information is dug up and presented, the picture isn’t always becoming clearer. The RTX 4090 may be one of the best graphics cards, but it’s in a difficult spot right now in terms of supply, pricing, and whether or not the adapters are ‘safe’ for long-term use. We’ll need Nvidia to publish an official statement about the observed issues, as there appear to be so many variables that even the biggest tech sites and video channels haven’t been able to come to any helpful conclusions.

For example, on Saturday we reported on Igor’s Labs’ findings with regard to the underlying factors causing the 16-pin power connector melting issues. Igor found that one of his cables was constructed in such a way that important connectors could ‘easily’ fail, and he suggested cable makers crimp rather than solder the connector joints.

Igor’s reasoning was basically that soldering is less than ideal for any connector that may be subject to pressure, stress, or strain. Solder joints created without due care can be brittle, feature air bubbles, or introduce corrosive compounds to the wiring. Instead, manufacturers should use inherently flexible wiring plus crimped joins, which are said to be more amenable to flexing. However, Igor’s destructive testing of his cable didn’t produce the socket melting issue.

Then on Sunday, Steve Burke of Gamers Nexus (GN) published a video (opens in new tab) on this same topic. GN sought to do more extensive testing and tried very hard to replicate the melting socket using a selection of five cables from various sources, three powerful RTX 4090 graphics cards, and running for multiple hours at stock and overclocked (>600W) settings. GN even invested in new thermal imaging equipment to get to the bottom of this problem. Armed with a quintet of cables, a trio of GPUs, and thermal cameras and probes, the testing began.

In the course of its investigations, GN peeled back the adhesive strain-relief tape and exposed the area of the metal cabling / connectors inside the GPU power plugs. It did so carefully, “without damaging them.” Burke recalled that Igor’s investigations revealed the power and ground lines used 150V cabling, however, with all five adapters that GN had, they found all used component cables labeled as rated for 300V (14AWG, 105C).

Partners that GN spoke to indicated that the 300V cabling was on spec, which means Igor’s cable must have been under-spec. The specification requires 300V 14AWG for power delivery, though the four ‘sensing wires’ can use a lower gauge. There were other differences, for example where Igor said that removing the sleeve could cause underlying thin plate metal to “tear immediately,” no such problems were observed at GN. For some other important differences in Igor’s and GN’s cables, check the diagram below.

(Image credit: Gamers Nexus)

With the more substantial solder points, more evenly distributed power delivery, and 300V rated wires (they are labeled), GN was unable to reproduce any overheating issues, even though they tried various ‘worst-case’ connector destruction methods. Below you can see a chart showing that even the worst damage could only muster an 8C temperature increase around the connector area, and that was with up to eight hours of continuous stress testing.

Source link

Leave a Reply

Your email address will not be published. Required fields are marked *