Cooler Master V Series 1000 W Review 8

Cooler Master V Series 1000 W Review

Efficiency, Temperatures & Noise »

Test Setup

All measurements were performed using two Chroma 6314A mainframes equipped with the following electronic loads: six 63123A [350 W each], one 63102A [100 W x2], and one 63101A [200 W]. The aforementioned equipment is able to deliver 2500 W of load, and all loads are controlled by a custom-made software. We also used a Picoscope 3424 oscilloscope, a Picotech TC-08 thermocouple data logger, a Fluke 175 multimeter, and a Yokogawa WT210 power meter. We also included a wooden box, which, along with some heating elements, was used as a hot box. Finally, we had at our disposal four more oscilloscopes (Rigol 1052E and VS5042, Stingray DS1M12, and a second Picoscope 3424), and a CEM DT-8852 sound level meter. In this article, you will find more details about our equipment and the review methodology we follow. Finally, we conduct all of our tests at 40-45°C ambient in order to simulate with higher accuracy the environment seen inside a typical system, with 40-45°C being derived from a standard ambient assumption of 23°C and 17-22°C being added for the typical temperature rise within a system.

Primary Rails Voltage Regulation

The following charts show the voltage values of the main rails, recorded over a range from 60W to the maximum specified load, and the deviation (in percent) for the same load range.







5VSB Regulation

The following chart shows how the 5VSB rail deals with the load we throw at it.


Hold-up Time

The hold-up time is a very important characteristic of a PSU and represents the amount of time, usually measured in milliseconds, that a PSU can maintain output regulations as defined by the ATX spec without input power. In other words, it is the amount of time that the system can continue to run without shutting down or rebooting during a power interruption. The ATX spec sets the minimum hold-up time with the maximum continuous output load to 16 ms. In the following screenshot, the blue line is the mains signal and the yellow line is the "Power Good" signal. The latter is de-asserted to a low state when any of the +12V, 5V, or 3.3V output voltages fall below the undervoltage threshold, or after the mains power has been removed for a sufficiently long time to guarantee that the PSU cannot operate anymore.



The hold-up time reaches the minimum allowed time that the ATX spec requires. This is something not to take lightly, since many PSUs, including enough high-end ones, failed this test. It also becomes more difficult to attain a large hold-up time as a unit's capacity increases because larger APFC capacitors are required. Using larger APFC capacitors is also, besides their cost, which is significant, especially if they are of high-quality, a space issue.

Inrush Current

Inrush current or switch-on surge refers to the maximum, instantaneous input-current drawn by an electrical device when first turned on. Because of the charging current of the APFC capacitor(s), PSUs produce large inrush-current right as they are turned on. Large inrush current can cause the tripping of circuit breakers and fuses and may also damage switches, relays and bridge rectifiers; as a result, the lower the inrush current of a PSU right as they are turned on, the better.



The inrush current is over 40 A, which is to be expected because large hold-up caps are used, but it is, at the same time, also lower than the inrush current that other high-end 1 kW units registered.

Voltage Regulation and Efficiency Measurements

The first set of tests revealed the stability of the voltage rails and the efficiency of the V1000. The applied load was equal to (approximately) 20%, 40%, 50%, 60%, 80%, 100%, and 110% of the maximum load that the PSU can handle. We conducted two additional tests. In the first test, we stressed the two minor rails (5V and 3.3V) with a high load while the load at +12V was only 2 A. In the second test, we dialed the maximum load that the +12V rail could handle while the load on the minor rails was minimal.

Voltage Regulation & Efficiency Testing Data
Cooler Master V1000
Test12 V5 V3.3 V5VSBPower
(DC/AC)
EfficiencyFan SpeedFan NoiseTemp
(In/Out)
PF/AC
Volts
20% Load14.705A1.982A1.971A0.985A199.70W91.63%757 RPM34.3 dBA 38.56°C0.916
12.114V5.031V3.344V5.074V217.95W 40.64°C230.1V
40% Load29.813A3.975A3.949A1.185A399.53W92.66%775 RPM34.4 dBA 39.69°C0.959
12.088V5.025V3.339V5.052V431.19W 42.65°C230.0V
50% Load37.266A4.970A4.941A1.586A499.50W92.67%790 RPM34.5 dBA 41.36°C0.969
12.077V5.022V3.338V5.035V538.99W 44.57°C229.9V
60% Load44.739A5.970A5.933A1.989A599.46W92.38%1378 RPM41.0 dBA 42.94°C0.974
12.064V5.019V3.336V5.015V648.90W 46.62°C229.9V
80% Load59.896A7.972A7.922A2.404A799.26W91.64%2004 RPM49.9 dBA 44.19°C0.980
12.036V5.013V3.332V4.988V872.15W 48.61°C229.8V
100% Load75.734A8.984A8.924A3.025A999.00W90.49%2135 RPM53.2 dBA 46.11°C0.981
12.007V5.008V3.326V4.956V1104.05W 52.05°C229.7V
110% Load84.127A8.988A8.933A3.030A1098.85W89.93%2135 RPM53.2 dBA 46.15°C0.982
11.996V5.005V3.324V4.946V1221.85W 52.10°C229.6V
Crossload 11.964A15.006A15.005A0.502A151.78W85.89%790 RPM34.5 dBA 42.90°C0.900
12.118V5.020V3.339V5.072V176.72W 46.62°C230.2V
Crossload 282.952A1.000A1.002A1.001A1009.29W90.92%2135 RPM53.2 dBA 43.92°C0.982
12.006V5.015V3.332V5.013V1110.05W 48.59°C229.7V

Up to the 60% load test, the unit kept its fan at low speed, outputting low noise despite the high ambient temperature in which we conducted our tests. The fan dramatically increased its speed with an 80% and up to 110% load to protect the unit from overheating.

Overall voltage regulation is superb, with all major rails registering a deviation below 1% and 5VSB staying within 3%. Also, efficiency throughout the entire load range was very high; it was, as you can see, constantly well above 90% with our normal load tests (test#1-6). As expected, Seasonic's new KM3 platform performed excellently, allowing the V1000 to easily meet the tough competition in this category.
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