|Antec HCG-750M Features & Specs|
|Max. DC Output||750W|
|Efficiency||80 PLUS Bronze|
|Intel Haswell Ready||Yes|
|Operating temperature||no info|
|Protections||Over Voltage Protection|
Under Voltage Protection
Over Power Protection
Surge & Inrush Protection (SIP)
Over Temperature Protection
Over Current Protection
Short Circuit Protection
|Cooling||135 mm Double Ball-Bearing Fan (ADN512UB-A90LD)|
|Dimensions||150 mm (W) x 86 mm (H) x 170 mm (D)|
|Compliance||ATX12V v2.31, EPS 2.92|
|Price at time of review (exc. VAT)||$129.99|
Efficiency is Bronze in an effort to restrict cost, since the components needed for Gold and Platinum efficiency are still expensive. Also, the unit features modular connectors, and is, according to the results of our test sessions, Haswell ready, but there is unfortunately no word on the operating temperature range; we still strongly believe that the unit can operate flawlessly at its full power at up to 50°C.
Antec was very generous with the protection features, so all of them equip the unit and, therefore, the system it powers. The cooling fan uses double ball-bearings and features LED lighting that can be toggled on/off via a switch at the front of the PSU. Also, its low efficiency rating doesn't allow for a semi passive operation as that requires the thermal characteristics of a Gold or Platinum unit. The PSU is pretty large and weighs a little over two kg.
When we saw the packaging of the HCG-750M, we noticed a weird thing. Antec claimed that this unit is ATX v2.32 compliant, but to the best of our knowledge no such version of the ATX spec exists. We unraveled this mysterium after a short discussion with Antec's PM. The ATX spec was revamped with some changes/upgrades after v2.31 but Intel stopped increasing revision numbers for their own reasons. So there have actually been several revisions after v2.31, hidden in the design system guides. In an effort to highlight that the HCG-750M uses a newer revision than the initial v2.31 spec, Antec improvised with the v2.32 numbering scheme which, however, isn't 100% correct. Intel thankfully, and for the good of us all, manufacturers and reviewers included, decided to start using the ATX spec numbering scheme again, so the newest iteration is v2.4.
With five years, warranty is pretty long on the new HCG-M units, so the user will enjoy a fairly long peace of mind. The price is high, something we were expecting given Seasonic is a pretty expensive OEM.
|Antec HCG-750M Power Specs|
|Total Max. Power||750W|
The two +12V rails can deliver almost the unit's full power, indicating that DC-DC converters are utilized for the generation of the minor rails. The latter are pretty strong, too, with 150 W combined power. Finally, the 5VSB rail is a bit stronger than that of other PSU's with a similar capacity, as 2.5 A is usually the norm.
Cables & Connectors, Power Distribution
|ATX connector (520mm)||20+4 pin|
|4+4 pin EPS12V/ATX12V (650mm)||1|
|6+2 pin PCIe (550mm+150mm)||4|
|SATA (560mm+150mm+150mm / 4 pin Molex (+150mm)||9 / 3|
|4 pin Molex (560mm+150mm+150mm) / FDD(+150mm)||3 / 1|
The EPS cable is sufficiently long, but we would like to see at least 550 mm on the ATX one. The other connectors are installed on long enough cables, and the distance amongst connectors is ideal. There are enough PCIe-, SATA-, and peripheral connectors for the capacity of the unit, but the single EPS connector troubled us; we expect there to be two in a PSU with a capacity of 750 W. We also liked the idea of adding a single 4-pin Molex connector on the SATA cables. Finally, all cables consist of the standard AWG18 gauges as these provide low enough voltage drops along with the necessary flexibility.
Antec was kind enough to put descriptions of the rails on the modular panel, but you had better take a look at the table and the text below to figure out the optimal sockets for all the PCIe cables.
|12V1||Peripheral, left 16-pin socket|
|12V2||EPS, ATX, right 16-pin socket|
Even connecting all modular cables to the HCG-750M will leave one of the two 16-pin sockets vacant. You had better connect both PCIe cables to the left 16-pin socket because the 12V2 rail feeds the EPS connector; that is, if you don't want to mix them up, which could trigger the unit's OCP. Taking into consideration the only two +12V rails, we think that power distribution is good, but users should follow the aforementioned advice to avoid any problems.