FR2662277A1 - DEVICE FOR EXTERNAL PROTECTION OF COMPUTER SYSTEMS WITH RESPECT TO MICROSWITCHES OF ELECTRICAL SUPPLY. - Google Patents

Abstract

The external protection device for data processing systems against micro-outages is arranged between the AC network and the data processing system and is comprised of a DC output (9) which supplies the central processing unit or units and an AC output (4) which supplies the screen or screens. The DC voltage delivered at the output (9) is generated by a full-wave bridge rectifier (12); a storage capacitor is connected in parallel to the DC output of said rectifier so as to store a charge for maintaining a voltage equivalent to that of the AC network during a safety period. The device of the invention has an extremely simple structure, does not require an inverter, may be fabricated at very low cost so as to be compatible with low power electronic systems.

Description

EXTERNAL PROTECTION DEVICE FOR COMPUTER SYSTEMS5
WITH REGARD TO MICROSWITCHES OF THE POWER SUPPLY
The invention relates to a device for external protection of computer systems with regard to micro-cuts in the power supply; it aims to preserve the information contained in the central unit or units of the computer system for a predetermined period, called the security period, which can be of the order of a few seconds.

 We know that the AC power supply network is subject to frequent short-term disturbances, known as micro-outages, which are likely to affect, sometimes seriously, the information contained in the memories of computer systems as well as the magnetic media of this information.

 To avoid the problems linked to these micro-cuts, it is customary to interpose on the supply of the computer system a device called uninterruptible alternative supply, which ensures a permanent alternative supply of the system. This device essentially comprises an inverter which can either operate continuously associated with a buffer battery, or be started up in the event of detection of a supply fault.

However, such devices have by their very nature the defect of being complex and therefore costly; in fact, in the first case, the inverter is permanently supplied by a low voltage / high current source which must also ensure the maintenance of the charge of the buffer battery: such a system requires complex electronic circuitry and an inverter high reliability; in the second case, the complexity stems from the need to provide means for detecting supply faults, means for very rapid switching of the inverter and means for synchronizing it with the network.

 The costs of uninterruptible alternative power supply devices, currently available on the market, reserve their use for a minority of users the majority of users, in particular users of small systems, are still suffering from the disruptions created by network blackouts. (more than 80 t of users).

 Thus, the problem of the overall protection of a computer system against micro-cuts is currently poorly resolved for the majority of the computer system fleet.

 The present invention proposes to provide a satisfactory solution to this protection problem by providing a new computer system protection device with regard to micro-cuts. The invention relates to an external device intended to be connected upstream of the computer system between the alternative power supply network and the computer system, in order to ensure the backup of the latter for a predetermined period, called the security period, which can be adjusted to a few seconds.

 An essential objective of the invention is to provide a device of extremely simple structure, not requiring the presence of an inverter, in order to benefit from a cost considerably reduced compared to the cost of current systems.

 Another objective is to provide a device capable of clipping short-term overvoltages or parasites which may appear on the alternating supply network.

 Thereafter, the abbreviation AC will be used as usual to qualify an AC voltage.

The external protection device targeted by the invention is intended to be connected upstream of a computer system comprising at least one central unit with a standard AC power outlet and at least one screen with a standard outlet. 'AC supply; the device according to the present invention comprises in combination
- input means adapted to be connected to the AC network,
a rectifier, preferably in full-wave bridge, having an alternating input connected to the input means and a continuous output delivering a direct voltage, of value corresponding to the peak voltage present on the input means,
a storage capacitor of capacity adapted to contain a charge for maintaining a voltage equivalent to that of the AC network during the safety period, this capacitor having its terminals connected to the continuous output of the rectifier, so as to store the charge under a voltage of value equivalent to the peak voltage of the AC network,
- first output means, connected to the terminals of the storage capacitor and adapted to allow connection of the standard AC power outlet of the central unit or units of the computer system,
- second output means, adapted to allow the standard AC power socket to be connected to the computer system screen (s),
- a bypass connecting the input means and the second output means.

 Thus, the device of the invention does not include any inverter and, instead of supplying the central units with alternating current, it supplies them with a direct voltage corresponding to the peak value of the alternating voltage of the network, while the one or more screens are always supplied, via the above-defined tap-off, by the AC voltage of the network. The central units of computer systems being equipped with switching converter, the DC voltage delivered by the device of the invention is strictly equivalent, for these converters and therefore for the central units placed in series, at the alternating voltage delivered by the network or by the inverters of the conventional protection devices: consequently, in normal operating phase, the device of the invention makes no modification to the operation of the computer system, except that it ensures very favorable decrementing of any overvoltage ns of the AC voltage of the network. In the event of a micro-interruption, the storage capacitor, kept permanently charged, restores the energy stored in the form of a direct current which prolongs the normal supply current during the duration of the micro-interruption: it is therefore hidden for the central unit and the information contained in its memories, as well as the supports thereof are preserved. In addition, the screen being only a vision monitor can turn off without any consequences during the duration of the micro-interruption, its supply being again ensured through the bypass at the end of the latter.

The device of the invention thus provides perfectly effective protection of computer systems with regard to micro-cuts, by means of a structurally very simple device, by treating screens (large energy consumer) and central units differently. (much lower power), and by supplying them with a DC voltage easy to store; it is essential to note that this continuous supply is made at the peak network voltage, so that, taking into account the energy to be stored, the size of the storage capacitor remains reduced and of cost compatible with the low cost price of the device.

 In particular, for a computer system called to be supplied with an alternating voltage of 220 volts, the DC supply voltage delivered by the protection device of the invention is approximately 300 volts (220 ##). If P is the power of the central units expressed in watts and T the safety duration expressed in seconds, the capacitance C of the capacitor, expressed in microfarads, will be chosen between 10 P.T and 50 P.T.

For a current nominal power of less than 100 watts of the central units, this capacity will advantageously be between 2000 and 5000 microfarads, which represents a stored energy between 90 and 225 joules, capable of ensuring a maintenance of the supply current for at least 2 seconds (generally micro-cuts have durations of less than one second).

 It should be noted that certain computer systems have, at the level of some of their sub-assemblies, low-voltage buffer capacitors integrated in internal circuits. However, none of these circuits makes it possible, as is the case with the device of the invention, to protect a computer system overall by supplying all the central units with direct current, by ensuring the charging of a live capacitor continuous high and feeding different screens.

Other characteristics, objects and advantages of the invention will emerge from the description which follows with reference to the appended drawings which present, by way of nonlimiting example, an embodiment of the invention; on these drawings which form an integral part of this description:
FIG. 1 is a perspective view of the device of the invention and of its connections to the AC network and to a low power computer system,
- Figure 2 is an electronic diagram of the device.

 The protective device shown by way of example in the figures is housed in a case 1 which comprises a male chassis socket 2 intended to be connected to the AC 220 volt network by an extension 3. This case also includes a female chassis socket 4 intended to be connected, via an extension 7, to the standard male chassis socket 5 fitted to the computer screen 6 of the computer system. In addition, a movable cord 8 escapes from the shoemaker and carries at its end a female socket marked 9, intended to be connected to the male socket 10 of the central unit 11 of the computer system.

 As shown in FIG. 2, the male plug 2 is connected to the alternating diagonal of a bridge rectifier 12 constituted by a full-wave bridge of four diodes.

 A load current limiting resistor 13 is inserted upstream of the rectifier 12, while a delayed effect fuse 14 (for example 200 ms) is inserted in series on the male input socket 2.

 The continuous diagonal of the rectifier 12 is connected to the female socket 9, with a rapid fuse 15 inserted in series.

 In addition, an electrolytic capacitor 16 is connected in parallel to the output of the continuous diagonal of the rectifier 12. This capacitor has, in the example, a capacity of 3,300 microfarads, ensuring a good compromise between size, price and guaranteed protection (greater than 2 seconds for a 60 watt central unit). In practice, the capacitor 16 will be chosen as already indicated in a range between 10 PT and 50 PT (P: power of the central unit or units in watts; T: safety duration in seconds; C expressed in microfarads ).

 Furthermore, a bypass 17 is connected to the input socket 2 downstream of the fuse 14 in order to connect the latter to the output socket 4 in order to supply the screen with the AC voltage of the AC network.

 The protection device according to the invention has a very simple structure (devoid of inverters and any active switching system) and can be manufactured at a reduced price, making its use economically compatible with all existing computer systems. It ensures an adequate supply of the computer system when the voltage on the network is normal and masks the blackouts of this voltage. In addition, this system also has the advantage of clipping any parasites and short-term overvoltages present on the AC supply voltage.

Claims (9)

 1 / - External protection device of a  computer system with regard to the micro-cuts of  the power supply of duration at most equal to a duration  predetermined security duration, this computer system  comprising at least one central unit with a socket  AC power standard and at least one screen with a  standard AC power outlet, said  external protection being intended to be connected upstream of the  computer system between the alternative power network  electrical AC and said computer system, and being  characterized in that it comprises in combination  - input means (2) adapted to be  connected to the AC network,  - a rectifier (12) having an input  alternative connected to the input means (2) and an output  DC delivering a value DC voltage  corresponding to the peak voltage present on the means  input,  - a storage capacitor (16) of  capacity adapted to contain a charge for maintaining a  voltage equivalent to that of the AC network during the  safety, this capacitor having its terminals connected to the output  continuous rectifier (12) so as to store the load under  a voltage of value equivalent to the peak network voltage  AC,  - first output means (8, 9), connected  across the storage capacitor (16) and suitable for  connect the standard AC power outlet to  the central unit or units of the computer system,  - second output means (4), adapted to allow connection of the standard AC power outlet  computer system screen (s),  - a derivation (17) connecting the means  inlet (2) and the second outlet means (4).  2 / - Device according to claim 1 for  the protection of a computer system intended to be  supplied with an alternating voltage of 220 volts, of which  the central unit has a predetermined nominal power P, characterized in that the capacitor (16) is an electrolytic capacitor of capacity C between 10 PT and 50 PT where C is expressed in microfarads, P is expressed in watts and T is the safety time expressed in seconds.  3 / - Device according to claim 2 for the protection of a computer system whose central unit has a nominal power less than 100 watts, characterized in that the capacitor (16) has a capacity of between 2,000 and 5,000 microfarads .  4 / - Protective device according to one of claims 1, 2 or 3, characterized in that the rectifier (12) is a full wave bridge rectifier, having a diagonal of alternative input and a diagonal of continuous output.  5 / - External protection device according to claim 4, wherein the rectifier (12) is constituted by a full-wave bridge of four diodes.  6 / - External protection device according to one of claims 1, 2, 3 or 4, wherein the input means are constituted by a male plug (2).  7 / - Device according to one of claims 1, 2, 3, 4, 5 or 6 for the protection of a computer system in which the standard sockets central unit and screen are male chassis sockets, characterized in that  the first outlet means consist of a movable cord (8) equipped with a marked female socket (9),  - The second outlet means are constituted by a female chassis socket (4) for the purpose of installing an extension.  8 / - External protection device according to one of claims 1 to 7, wherein a resistor (13) for limiting the load current is inserted upstream of the rectifier (12).  9 / - External protection device according to one of claims 1 to 8, in which  - a delayed-effect fuse (14) is inserted in series on the input means (2),  - a fast fuse (15) is inserted in series on the first output means (9).