Power supply device and a synchronous rectifier PCB

What is claimed is: 1. A synchronous rectifier printed circuit board (PCB) to be connected to a main unit of a power supply device, the main unit including a transformer that includes a primary coil and a secondary coil, a primary-side circuit electrically coupled to the primary coil, and a secondary-side circuit electrically coupled to the secondary coil, the secondary-side circuit including an output filter circuit capable of filtering out ripples in a direct-current (DC) voltage, said synchronous rectifier PCB comprising: a printed circuit board; two power switching elements disposed on said printed circuit board, each of said power switching elements having a source terminal, a gate terminal and a drain terminal; two driving circuits disposed on said printed circuit board, and electrically and respectively coupled to said gate terminals of said power switching elements; and two snubbers disposed on said printed circuit board, each of said snubbers being electrically coupled between said drain and source terminals of a corresponding one of said power switching elements; wherein said synchronous rectifier PCB is electrically coupled between the secondary coil of the transformer and the output filter circuit for synchronously rectifying an alternating-current (AC) voltage induced at the secondary coil into a direct-current (DC) voltage to be subsequently outputted to the output filter circuit, and wherein said printed circuit board is formed at an edge with a plurality of connection pads, and is further formed with a plurality of conductive tracks, said drain terminals of said power switching elements being electrically coupled to a first one of said connection pads through a first one of said conductive tracks, said source terminals of said power switching elements being electrically and respectively coupled to a second one and a third one of said connection pads respectively through a second one and a third one of said conductive tracks, said gate terminals of said power switching elements being electrically and respectively coupled with said driving circuits respectively through a fourth one and a fifth one of said conductive tracks, said drain and source terminals of each of said power switching elements being further electrically coupled to a corresponding one of said snubbers. 2. The synchronous rectifier PCB of claim 1 , wherein said printed circuit board is a single layer printed circuit board, said conductive tracks being made of copper foils patterned on said printed circuit board, each of said first, second and third ones of said conductive tracks being greater in width and surface area than said fourth and fifth ones of said conductive tracks. 3. The synchronous rectifier PCB of claim 1 , wherein said conductive pads are made of copper foils patterned on said printed circuit board. 4. The synchronous rectifier PCB of claim 1 , wherein each of said power switching elements is a metal oxide semiconductor field-effect transistor (MOSFET). 5. A synchronous rectifier printed circuit board (PCB) comprising: a printed circuit board; two power switching elements disposed on said printed circuit board, each of said power switching elements having a source terminal, a gate terminal and a drain terminal; two driving circuits disposed on said printed circuit board, and electrically and respectively coupled to said gate terminals of said power switching elements; and two snubbers disposed on said printed circuit board, each of said snubbers being electrically coupled between said drain and source terminals of a corresponding one of said power switching elements, wherein said printed circuit board is formed at an edge with a plurality of connection pads, and is further formed with a plurality of conductive tracks, said drain terminals of said power switching elements being electrically coupled to a first one of said connection pads through a first one of said conductive tracks, said source terminals of said power switching elements being electrically and respectively coupled to a second one and a third one of said connection pads respectively through a second one and a third one of said conductive tracks, said gate terminals of said power switching elements being electrically and respectively coupled with said driving circuits respectively through a fourth one and a fifth one of said conductive tracks, said drain and source terminals of each of said power switching elements being further electrically coupled to a corresponding one of said snubbers, and wherein said conductive tracks and said connection pads are made of copper foils patterned on said printed circuit board.