|Corsair CX430 V2 Features & Specs|
|Max. DC Output||430W|
|Operating temperature||30°C for full power|
|Protections||Over Voltage Protection|
Under Voltage Protection
Over Power Protection
Short Circuit Protection
|Cooling||120 mm Sleeve Bearing Fan|
|Dimensions||150 mm (W) x 86 mm (H) x 140 mm (D)|
|Compliance||ATX12V v2.3, EPS12V 2.91|
|Price at time of review||44.99$|
The PSU does not feature overcurrent protection so, taking also into account that there is only one +12V rail, overpower protection will handle the job if anything goes wrong. Finally, the warranty is satisfactory for a product of this category and price range.
|Corsair CX430 V2 Power Specs|
|Total Max. Power||430W @ 30°C ambient temperature|
Corsair states 430W maximum power at only 30°C. This is a very low ambient even for a case with good airflow. In our tests we will raise the ambient beyond 40°C and see how the PSU handles the heat. Let's remind you here that the ATX specification recommends that a PSU should be able to deliver full power even at 50°C ambient.
Cables & Connectors, Power Distribution
The number of connectors in general is very restricted, something partially justified by the small capacity of the PSU. Regarding the peripheral connectors we would like to see two additional ones, since three are very few. Also to our surprise the PSU is equipped with a single 6+2 pin PCIe connector. To the best of our knowledge there isn't any VGA card that uses a single 8-pin power connector, instead all midrange cards are powered by one or two 6 pin connectors. High-end cards come with 6+8 pin or 2x 8-pin - but never a single 8-pin alone. It would have made much more sense if Corsair had put two 6-pin connectors on the cable, which have a maximum power draw of 150 W, just like a single 6+2 connector. This would dramatically improve the versatility of the power supply. Very weird choice indeed. Finally, all cables use 18 AWG wires, the ATX recommended wire size.
Since this PSU features a single +12V rail we do not have anything to comment about its power distribution.