|EVGA NEX1500 Features & Specs|
|Max. DC Output||1500W (1650W in OC mode)|
|Efficiency||80 PLUS Gold|
|Operating temperature||0°C - 50°C|
|Protections||Over Voltage Protection|
Under Voltage Protection
Over Current Protection
Over Power Protection
Over Temperature Protection
Short Circuit Protection
|Cooling||120 mm Double Ball-Bearing Fan (SANYO DENKI 9G1212P4G03)|
|Dimensions||150 mm (W) x 86 mm (H) x 200 mm (D)|
|Compliance||ATX12V v2.31, EPS 2.92|
|Price at time of review (exc. VAT)||$449.99|
The maximum continuous power increases to 1650 W when the PSU is powered by 230VAC and OC mode is enabled via DIP switches or software. This is a huge amount of power and you will need incredibly power hungry components to stress this monster. You will not stress this PSU in the slightest unless you are a top overclocker benching with liquid nitrogen, while also running high clock and voltage on CPU/VGAs going through the roof with their power consumption. The unit is 80 Plus Gold compliant despite its huge capacity, something that should not be taken lightly since it is much harder to attain high efficiency as capacity increases. This PSU's maximum operating power reaches 50°C and has all protection features available.
The cooling fan in this PSU is a high-quality Sanyo Denki model that uses double ball-bearings for increased lifetime. It can spin up to 4500 RPMs if need be, making noise equal to a jet fighter during takeoff. You have to make sure your chassis supports this PSU before buying it since it is 20 cm long. The ten year warranty is the longest we have ever seen in a PSU and the same does, unfortunately, apply to its price. It is the highest amongst all desktop PSUs.
|EVGA NEX1500 Power Specs|
|150W||1485W (1600W OC Mode)||20W||9.6W|
|Total Max. Power||1500W (1650W OC Mode)|
In multi-rail mode, there are eight +12V rails with a rather small max current output each. You are better off switching to single rail mode if you are going to install multiple highly overlocked VGAs. The +12V rail can almost deliver the full power of the unit on its own, either in normal or overclocked mode. The minor rails are very strong at 150 W max combined output, and the 5VSB provide sufficient juice with 4 A max current output. We did expect an even stronger 5VSB rail, since this PSU targets extreme users putting their system through extreme situations.
Cables & Connectors, Power Distribution
|ATX connector (750mm)||20+4 pin|
|8 pin EPS12V (600mm) / 6 pin PCIe (+150mm+150mm)||2 / 4|
|6+2 pin PCIe (750mm+150mm)||8|
|6+2 pin PCIe (600mm+150mm)||8|
|4 pin Molex (550mm+100mm+100mm+100mm)||8|
|FDD Adapter (+150mm)||2|
With such high capacity, many cables/connectors are needed, but we were still surprised to find that this unit is equipped with 16 PCIe connectors. There are also four additional 6 pin PCIe connectors for directly powering any mainboard that has the corresponding sockets, along with two EPS. Moreover, the number of SATA and peripheral connectors is sufficient for every high-end system out there.
The length of the ATX cable is huge. The same applies to four of the eight PCIe cables. The EPS cables are of sufficient length for even full tower cases. The SATA cables come in three different lengths up to the first connector, to give the user the option to use the SATA cable most suitable for his/her case, while the two peripheral cables share the same length. Regarding the distance amongst connectors, it is ideal on the PCIe cables, while the distance is rather small on the peripheral cables. The SATA cables have the same distance amongst their connectors as the peripheral cables, but SATA devices (HDDs/SSDs) are usually installed close to each other, and a small distance here actually makes cable management much easier. As you can see from the table above, EVGA provides the essential USB cable to connect the PSU to a mainboard's USB header, allowing you to control it through software.
All cables consist of individually sleeved wires, with the sleeving being of such exceptional quality that it will satisfy even the hard-core modders. The 24 pin ATX connector uses thicker 16AWG gauges for lower voltage drops at high loads, while all the remaining connectors use 18AWG wires, which are the minimum recommended by ATX spec (except sense wires and FDD ones).
Unfortunately, power distribution is far from optimal since the EPS connectors are mixed in with the VGA ones in some rails, and the 12V4 feds two PCIe sockets. If you plan to install multiple VGAs, you better switch the PSU to single-rail mode or read the leaflet which provides two cabling configurations for multiple VGA installation.