My ideas? I have many them, most are even about them at hands. You can skip the next block of text if you would like, nothing crucial is found in it.
I believe that the 40c rating for full output power is nice, nothing special per-say, but good. I’ll believe the Ultra-quiet fan claim after i (don’t) listen to it. I’ll say this: I love that Thermaltake didn’t say ultra-silent. Silence is absolute, you can’t have Extra Silent anymore than you could have infinity 1. So thanks Thermaltake with that front. Universal input includes APFC, nothing special there nowadays, although it is great. 99% APFC is nearly assumed nowadays, in case your APFC bits cannot manage 99% they’re doing the work wrong. 80 Bronze is a superb start, though nowadays it’s not as snazzy as it was once given all of the gold units going swimming.
Same for Double-Forward switching, it’s ultra-efficient when compared with older flavors possibly, but when compared with modern LLC resonant stuff? Less. 100% 105c Japanese capacitors is one thing I’m able to fall behind. They’d better believe I’ll be checking this though! (Modular) Cable management and flat cables are a couple of a few things i just like a lot. If your 1kw unit didn’t support SLI/CFX I’d be shocked! A MTBF rating of >100,000 hrs implies that, theoretically, you’ll overcome 11 years using this factor. Lastly we’ve claims of numerous protections and safety certifications. I’ll be examining the supervisor IC to make certain it may do the things they express it can, though since second 12 V rail (presuming there actually are two!) is 80 amps, SCP/OCP might be kind of pointless. I’m enticed to bridge some connectors and appearance for SCP.
Whew, which was a bigger quantity of ideas than I figured I’d, let’s proceed to connectors.
Observe that the motherboard connector isn’t a 20 4 pin, however a single piece 24 pin connector. The image from the connector is inaccurate. Really the entire list is amusingly enough. It doesn’t show the 2nd CPU power connector. Well i guess. The written text version is much more accurate:
This is actually the very first time I have seen the conventional “Molex” connector (an undesirable reputation for it truly, Molex is the organization store the patent. They create lots of other connectors too) known as PATA connector. It’s most likely better than calling it a Molex though.
900 watts divided by 12 volts provides for us an optimum 12 V combined load of 75 amps, yet 12V2 is with a rating of 80 amps? Sometimes I question about individuals marketing. I suppose the kodak playtouch camcorder can released more about 12v rail 2 of computer can released overall.
Features and Specifications
- TX 12V V2.3 & EPS 12V 2.92 enables most reliable and robust power delivery.
- Guaranteed to deliver 1000W continuous output at 40℃.
- Ultra-quiet 135mm cooling fan delivers excellent airflow at an exceptionally low noise level.
- Universal AC input 100V~240V automatically scans and detects the correct voltage for different country.
- 99% Active Power Factor Correction provides clean and reliable power to your system.
- 80 PLUS® Bronze Certified: 82% or more efficiency at 20%, 50%, and 100% load.
- Robust and dedicated dual +12V output provides superior performance under all types of system loading.
- Double forward ultra-efficient circuitry design for added power savings.
- 100% High quality 105℃ Japanese capacitors provide uncompromised performance and reliability.
- Cable Management improves internal airflow by reducing cable clutter within PC to promote accelerated heat removal.
- Flat, low-profile modular cables allow for easy cable routing and increased airflow.
- Supports multiple core high-end graphic cards & CPU. (NVIDIA SLI & ATI CrossFire Ready)
- Dimension: 150mm(W)x86mm(H)x160mm(D).
- High reliability: MTBF>100,000 hours.
- Built-in industry grade protections : Over Power, Over Voltage, Under Voltage, Over Current and Short-Circuit protection.
- Safety / EMI : UL, CUL, TUV, FCC, CE certification.
Final Thoughts and Conclusion
Thermaltake Smart-M 1000 W is best power supply for gaming has what looked to become a good unit here. Even with the regulation/load testing phase things looked quite good. After we hit the ripple testing the image wasn’t as pretty after which came the problem. The ripple outcome was bad prior to the Random Hunting section and absolutely terrible at that time. 350-440 mV of ripple is much more than is suitable. This can be a serious problem.
The system looks quite good, all of the hardwired cables are sleeved, the modular cables are generally sleeved or from the flat ribbon style. I like the ribbon type cables. The marketing claims was up pretty much, all of the capacitors actually are Japanese and 105 °C rated also it can actually pay out a kilowatt.
The regulation was decent for that 5 V and three.3 V rails and ideal around the 12 V, the kodak playtouch camcorder did very well there.
The internals and style look great. It’s a dual-forward design with schottkys for regulation, but there’s nothing wrong with this when the cost is appropriate.