Super Flower Golden King 650 W Power Supply Review
Secondary Analysis
Contents
As one would expect in a high-efficiency power supply, the Super Flower Golden King 650 W uses a synchronous design, where the Schottky rectifiers are replaced with MOSFETs. Also, the reviewed product uses a DC-DC design in its secondary. This means that the power supply is basically a +12 V unit, with the +5 V and +3.3 V outputs produced by two smaller power supplies connected to the main +12 V rail. Both designs are used to increase efficiency.
The +12 V output uses four IPP041N04N G MOSFETs, each one supporting up to 80 A at 100° C in continuous mode, or up to 400 A at 25° C in pulse mode, with a maximum RDS(on) of 4.1 mΩ. The 750 W version uses more powerful transistors here (90 A at 100° C).
Figure 15: The +12 V transistors
As explained, the +5 V and +3.3 V outputs are produced by two DC-DC converters, which are situated on a single printed circuit board located in the secondary section of the power supply. Each converter is controlled by one NCP1587A integrated circuit and uses four IPD040N03L MOSFETs, each supporting up to 76 A at 100° C in continuous mode and up to 400 A at 25° C in pulse mode, with a maximum RDS(on) of 4 mΩ.
Figure 16: The DC-DC converters
Figure 17: The DC-DC converters
We didn’t see an integrated circuit for monitoring the power supply outputs. Since the Power Good wire and sensors were connected to the small printed circuit board where the resonant controller was attached, our best guess is that the enigmatic SF29601 controller with the aid of four operational amplifiers provided by an LM324 integrated circuit do the trick.
The electrolytic capacitors available in the secondary are also Japanese, from Chemi-Con
, and labeled at 105° C, as usual.
Figure 18: Capacitors
