FR2932288A1 - Internal and external power supplies and component e.g. hard disk, handling device, for e.g. personal computer, has board with tracks that connect locations of connector assembly to connect assembly on power supplies, in accurate locations - Google Patents

Abstract

The device has a printed circuit board (N) inserted in a CPU of a computer e.g. personal computer. The board has tracks that connect locations (A-L) of an assembly of three sets of advanced technology extended (ATX)connectors with different number of pins (1-10, 11, 20), so as to connect the assembly of the connectors on internal and external power supplies of the computer, in accurate locations on the printed circuit board.

Description

The present invention relates to a device for managing two power supplies, internal and external, computer and related components, to provide immediate troubleshooting to computer users. Today, during a power failure on a PC-type microcomputer, users can no longer use their computer and are forced to have their computer equipment repaired by a professional. It sometimes follows, a waiting time of repair. There is also a solution with redundant power supplies, only internal, whose architecture (PC world) and functionality are completely different, and whose use is mainly intended for computer servers and industrial machines. The device of the invention overcomes these disadvantages. It consists of a printed circuit which will be inserted in the central unit of a PC, whatever its brand, in a slot available PCI slot, printed circuit not powered by this slot or in a free slot in facade type 5 inches -. This card internally in the computer case, allows the interconnection of all connections of hard drives, optical drives, floppy disk drives, SD cards and the existing power supply. Externally, the connection of a second power supply to the connectors provided for this purpose. During a failure of the internal power supply, the computer can start on the external power supply. For additional safety reasons, the user is advised to unplug the power cord from the first power supply and attach it to the external power supply, and press the power button on the external power supply. before starting his computer. According to particular embodiments, the printed circuit will be made in single layer. It will present tracks that will connect the locations of all connectors whose number of pins differ, in order to connect this set on the external and internal power supplies, with specific locations on this circuit. The appended drawing (FIG. 1) illustrates the invention: FIG. 1 represents in section the printed circuit (N) and its interconnections between the tracks and the twelve locations of the connectors. -Three slots for the twenty-pin (24-point expandable) connectors that will be linked in a straight circuit, point-to-point according to the numbering of the number of pins and the applied voltages supplied by the power supply (A B C). At these locations, the connectors will be soldered vertically to the circuit board. -Three slots for the four-pin connectors (expandable to 8) that will be linked in straight circuit, point-to-point according to the numbering of the number of pins and the applied voltages supplied by the power supply (D E F). The connector on the slot (D) will be soldered vertically, and the connectors on the slots (E and F) will be soldered horizontally on the circuit board. - Twice three slots for straight-through, point-to-point four-pin connectors, depending on the numbering of the number of pins, and applied voltages supplied by the power supply (G H I J K L). The connectors on the slots will be soldered vertically. - The location (A-1 to 10 and 11 to 20) of the printed circuit will be connected to a connector (0) ATX 20 pins facing outward on a square (M). - On the locations (B and C - 1 to 10 and 11 to 20) of the printed circuit, there will be two 20-point ATX connectors to be soldered. - The slot (D - 1 to 4) will be connected to a 4-pin 12-volt ATX CPU connector facing outward on the bracket (M). - On the slots (E and F - 1 to 4) of the PCB, there will be two ATX 4-pin CPU connectors to be soldered. 20 - On the slots (G H I J K L), there are six 4-point connectors to be soldered.

- Electrical technical diagram of the different connectors: For the connectors (ABC) 20 pins: Pin 1 + 3.3VDC 25 Pin 2 + 3.3VDC Pin 3 COM Pin 4 + 5VDC Pin 5 COM Pin 6 + 5VDC 30 Pin 7 COM Pin 8 PWR OK Pin 9 + 5VSB Pin 10 + 12VDC Pin 11 + 3.3VDC Pin 12 -12VDC Pin 13 COM Pin 14 PS ON # Pin 15 COM Pin 16 COM Pin 17 COM Pin 18 -5VDC Pin 19 + 5VDC Pin 20 + 5VDC For the connectors (DEF) 4 pins: Pin 1 Mass Pin 2 Mass Pin 3 + 12V Pin 4 + 12V

For the six four-pin connectors (G H I J K L): Pin 1 + 12V Pin 2 Mass Pin 3 Mass Pin 4 + 5V

- The connector on slot (A) will be connected to the external power supply via the ATX connector (0). - The connector on slot (B) will be connected to the 20-pin ATX connector on the motherboard. - The connector on slot (C) will be connected to the 20-pin ATX connector of the internal power supply. - The connector on slot (D) will be connected to the 12-volt CPU ATX connector of the external power supply via connector (P). - The connector located on slot (E) will be plugged into the 12-volt CPU ATX connector on the motherboard. - The connector located on the slot (F) will be connected to the 12-volt CPU ATX connector on the internal power supply of the CPU 3 - The connectors located on the slots (H and K), four points, will be connected to parts such as the hard disk, the burner, ... - The connectors located on the locations (G and J), four points, will be connected on two other four-point connectors, on an additional square, to connect the two four-point connectors of the external power supply. - The connectors on the I and L locations, four points, will be connected to the two four-point connectors of the internal power supply. It may be provided a cover that will cover the printed circuit so as to protect the latter, and to show only the connectors soldered on the printed circuit.

By way of non-limiting example, the product (printed circuit + cache) will have the dimensions of the order of 8 cm height, 16 cm in length, 2 cm thick. The device according to the invention is particularly intended for all users of PC-type microcomputers - the technical services of resellers, computer maintainers.

Claims (5)

CLAIMS1) Device for managing two computer power supplies, internal and external (the two power supplies will be connected simultaneously, but fed one after the other), and connected components (motherboard, hard disk, burner, .. .), to allow immediate troubleshooting to computer users characterized in that it comprises a printed circuit (N) which will be made in single layer. It will present tracks that will connect the locations of all connectors whose number of pins differ, in order to connect this set on the external and internal power supplies, with specific locations on this circuit. 2) Device according to claim 1, characterized in that three 20-point connectors (expandable 24 points) will be linked in straight circuit (ABC), point-to-point according to the numbering of the number of pins, and the applied voltages provided by the power supply. and vertically welded to the printed circuit board. Then, three four point connectors (D E F) (expandable to 8) will be linked in a straight circuit, point-to-point according to the numbering of the number of pins, and applied voltages supplied by the power supply. The connector on the slot (D) will be soldered as an example vertically, and the connectors on the slots (E and F) will be soldered as an example horizontally. Also, twice three four-point connectors (G H I J K L) in the right circuit, point-to-point, according to the numbering of the number of pins, and the applied voltages supplied by the power supply, welded vertically to the printed circuit. The location (A-10 and 11-20) of the printed circuit will be connected to a 20-pin ATX connector (0) facing outward on a square (M). On the locations (B and C - 1 to 10 and 11 to 20) of the printed circuit, there will be two ATX connectors 20 points to be welded. The slot (D - 1 to 4) will be connected to a 4-pin 12-volt ATX CPU connector facing outward on the bracket (M) to a four-pin (P) connector. On the slots (E and F - 1 to 4) of the PCB, there will be two ATX 4-pin CPU connectors to be soldered. On the slots (G H I J K L), there are six 4-point solder connectors. 3) Device according to any one of the preceding claims characterized in that the connector located on the slot (A) will be connected to the external power supply via the ATX connector (0). The connector on slot (B) will be connected to the 20-pin ATX connector on the motherboard. The connector on slot (C) will be connected to the 20-pin ATX connector of the internal power supply. The connector on slot (D) will be plugged into the 12-volt CPU ATX connector of the external power supply via connector (P). The connector on slot (E) will be plugged into the 12-volt CPU ATX connector on the motherboard. The connector on the slot (F) will be plugged into the CPU ATX 12-volt connector on the internal power supply of the CPU. The connectors on the slots (G and J), four points, will be connected on two other 4-point connectors, on an additional bracket, to connect the two four-point connectors of the external power supply. The connectors located on the locations (H and K), four points, will be connected to the components of the central unit such as the hard disk, the burner, ... The connectors located on the slots (I and L), four points, will be connected to the two four-point connectors of the internal power supply. 4) Device according to claim 3, characterized in that an additional bracket will be necessary and created to allow the connection of the two connectors four points of this bracket on the connectors located on the locations (G and J), four points, to allow the connection of the two four-point connectors of the external power supply. 5) Device according to claim 1 characterized in that it may be provided a cover that will cover the printed circuit so as to protect the latter, and to show only the connectors soldered on the printed circuit. This set will snap into a PCI bus or fix in a 5-inch slot.