Page 2:Packaging, Contents, Exterior And Cabling
Page 3:A Look Inside And Component Analysis
Page 4:Load Regulation, Hold-Up Time And Inrush Current
Page 5:Efficiency, Temperature And Noise
Page 6:Cross-Load Tests And Infrared Images
Page 7:Transient Response Tests
Page 8:Ripple Measurements
Page 9:Performance, Performance Per Dollar, Noise and Efficiency Ratings
Page 10:Pros, Cons And Final Verdict
Raidmax is the first company to utilize Andyson's new Titanium platform with its Monster RX-700AT PSU. This is a semi-modular unit with a double ball-bearing fan and Japanese capacitors, promising high performance and exceptional efficiency.
Raidmax chose a strange name for its new PSU. When you hear the word "monster," you either expect a bad external design or limitless capacity. But neither assumption holds true. Nevertheless, Radmax's Monster RX-700AT utilizes Andyson's new Titanium-rated platform that delivers excellent performance and ultra-high efficiency. In fact, as far as we know, Raidmax is the first company using this platform, so we're curious to see how it fares compared to the Andyson N700. The truth is that Andyson isn't one of the more active PSU manufacturers, and with its new 700W Titanium and 1200W Platinum designs, the company has the chance to gain popularity among partners looking for differentiated products.
For the most part, Raidmax focuses on the mainstream segment; its presence in the high-end space is limited. Most of its PSUs are made by Andyson. The only exception is the Vampire Power family (there's another strange name) manufactured by HEC/Compucase. The RX-700AT we're testing today shares the same platform with Andyson's Titanium N700. It achieves Titanium efficiency without a bridge-less design, which is mostly used in higher efficiency Titanium units. In order to restrict energy losses, this PSU employs a semi-modular design with more fixed cables. Removable cables incur increased impedance compared to native ones, leading to voltage drops. In short, energy is lost on modular sockets. This affects efficiency, and when you're gunning for a Titanium rating without a cutting-edge design, you have to minimize loss wherever you can.
Significant amounts of energy are lost on a PSU's bridge rectifiers, since they consist of diodes subject to voltage drops. Thus, all high-capacity Titanium-rated PSU designs use FETs instead of bridge rectifiers. In a FET, the lower the Rds (on) parameter (representing the resistance between source and drain), the lower the energy losses, especially under high currents. However, bridge-less designs require a more sophisticated APFC converter, more FETS and more boost diodes. All of that increases costs compared to conventional bridge rectifiers. Andyson's decision to go with a less exotic platform makes more sense in this context.
Besides Titanium efficiency and semi-modular cabling, the RX-700AT's other notable characteristics include a double ball-bearing fan and compatibility with Intel's C6 and C7 states. Unfortunately, the maximum operating temperature at which Raidmax says the PSU can deliver its full power continuously is 40 °C, whereas the ATX spec recommends at least 50 °C. In addition, over-temperature protection is missing from the feature set. That shouldn't be the case on a PSU with a 40 °C rating. Lastly, Andyson doesn't arm this unit with the semi-passive mode we'd expect to see given its Titanium-class efficiency.
The RX-700AT's dimensions are a little larger than normal, and we don't care at all for the short two-year warranty. Selling for almost $150, that sort of coverage won't get the RX-700AT anywhere near its competition. We can't help but wonder why Raidmax doesn't guarantee the unit for at least five years since that's what Andyson gives you with its similar N700 units. We'll look more closely at this power supply's build quality for hints as to why the warranty is so short.
|Total Max. Power (W)||700|
The minor rails only offer 100W maximum combined power, which should still cover any modern system. On the other hand, one +12V rail delivers up to 58A. That'll support powerful gaming machines. Finally, the 5VSB rail is fairly typical, though we'd like to see it rated for at least 3A since this is still a high-end PSU.
Cables And Connectors
|Description||Cable Count||Connector Count (Total)|
|ATX connector 20+4 pin (520mm)||1||1|
|4+4 pin EPS12V/ATX12V (630mm)||1||1|
|6+2 pin PCIe (540mm+150mm)||1||2|
|6+2 pin PCIe (500mm+150mm)||1||2|
|Four-pin Molex (500mm+150mm+150mm+150mm)||1||4|
|FDD adapter (+150mm)||1||1|
There are too many native cables for our tastes. We know this helps Raidmax hit its Titanium efficiency rating, but we'd rather see Andyson's engineers fine-tune the platform and cut some of the fixed cables. Another major disadvantage is the single EPS connector. This is a high-end PSU and it should be compatible with high-end motherboards that need more than one EPS connection (or at least one EPS connector and an ATX12V one).
The rest of the connectors are ample to deliver this PSU's power effortlessly. There is also an FDD adapter that gives you a four-pin Molex connector in parallel with the Berg connector. The RX-700AT's cable length is adequate, and the same goes for the distance between connectors.
The 24-pin ATX, the EPS and the modular PCIe connectors all use thicker 16-gauge wires for lower voltage drops. The native PCIe connectors and everything else employs normal 18-gauge wires.
Since this PSU features a single +12V rail, we do not have anything to say about its power distribution.
- Packaging, Contents, Exterior And Cabling
- A Look Inside And Component Analysis
- Load Regulation, Hold-Up Time And Inrush Current
- Efficiency, Temperature And Noise
- Cross-Load Tests And Infrared Images
- Transient Response Tests
- Ripple Measurements
- Performance, Performance Per Dollar, Noise and Efficiency Ratings
- Pros, Cons And Final Verdict