NL9202290A - PROTECTIVE DEVICE FOR COMPUTERS WITH CONTINUOUS POWER. - Google Patents

Description

Protection devices for computers with uninterrupted power supply

The invention relates to a security device for computers with uninterrupted power supply, comprising a circuit for detecting errors in the power supply, which are transferred to the "mainframe" computer for interpreting and performing actions to optimize the uninterrupted power supply and to achieve a minimal effect on processes in process. Computers now use uninterrupted power system (U.P.S.) and are powered by it.

These are storage systems for energy obtained from the electricity grid and which is fed to the computer at the same time via a group of generator batteries, so that a momentary break in the power supply (micro-shutdowns) or a long-term interruption is not provided by the computer is observed not only with regard to the power supply as such, but with regard to the quality of the voltage and the waveform uniformity, which may have an important effect on the system processes.

These U.P.S. systems are usually expensive and solve the power failure problem very well, however, long-term errors require large battery capacity, which means a greater investment and a considerable volume and weight.

Such network outages resolved by known U.P.S. systems last for no more than 15 minutes and in many cases the user has insufficient information about the problem he is facing. Even by applying a warning, the user does not have enough time to protect the most important part of his process. In addition, in order to avoid unpleasant surprises, the user must be constantly alert to power outages, to take immediate action and avoid running the computer outside of business hours due to the risk of a power outage.

All these problems are solved either by using a very extensive U.P.S. with said inconveniences, or by using the device according to the invention.

Thanks to this device, it is possible to warn the various peripheral devices of the system about the occurrence of a power failure, a process that is running, to automatically stop at the most appropriate time, to automatically stop the system at a pre-selected time, the process that is not ready yet, cancel the files affected by these processes, shutdown the power from the SAI shutdown when it fails, start the system automatically, and automatically shutdown and shutdown the system when unmanaged processes that end outside normal working hours.

The device consists of a circuit that detects a power failure from the mains to the UPS system (uninterruptible power system), whereby upon detection of an error, an instruction is generated in the device, by means of which the "mainframe" computer is warned about the irregularity, which circuit at the same time starts a warning mechanism to warn the various users of the "mainframe" system and to cancel running processes and close files in the required time period according to a specified autonomy allowing in the specific design of the establishment has been taken into account.

If the entire system is appropriately protected, the U.P.S. Automatically shuts down, allowing the batteries to discharge, essential for securing the process and the files without excessive discharge which could cause damage.

When power is restored, the system will automatically start by commands generated by the detectors listed above, which will check the charge of the batteries to ensure that they have sufficient autonomy.

The device also offers the option of activation or stopping using a programmed clock or by remote control.

The device according to the invention is designed to be incorporated into any data processing system equipped with a known U.P.S., or as an additional external unit or included during manufacture of the computer U.P.S. system and thus forms a whole.

The advantages for data processing are such that the device could be included in future systems, since the circuit to be added involves costs that are lower in mass production than for an extended U.P.S. system.

In order to better understand not only the configuration, but also the application of the device according to the invention, a practical example is described below, which only serves to illustrate and in no way limit the invention, the things shown in the drawing, which are a block diagram. with a mode of forming the device connected to a computer with a UPS nutrition.

The drawing is divided into four main groups G-1 through G-4, which in turn are divided into sections or modules described below.

In group G-1, section A establishes the U.P.S. or a classic uninterruptible power supply system, which can be used in all data processing systems and which is connected to the power line R,

In section B, the device according to the invention comprises a module with at least eight, non-voltage outputs, which emit signals to indicate the state of the system and alarms when not already included in the device.

The most important signals that can be treated are: Commutation to the direct power supply, imminent disconnection, fault of the DC / AC converter of the U.P.S. , emergency and everything else that might be needed.

The versatility of the system allows it to be connected to more sophisticated line analysis systems whose outputs will activate the listed outputs while remaining completely independent of the system. Section C of group G-1 includes a module with at least eight inputs for freely switching or disconnecting power, allowing data processing elements to be connected or separated, such as terminal equipment, printers, etc. connected to the U.P.S. are connected, which allows the stored energy to be optimized. The connections and disconnections can be controlled from the "mainframe" computer.

The connection trip signals can be handled from the outside and it is not necessary, as in section B, to provide for internal manipulation of the U.P.S. for its installation, as it remains independent of the system,

Section B of group G-1 proposes the design of the automatic switch-on and switch-off, applying a radio program or manual control from a remote control point.

G-2 represents the data processing system, where A is the main C.P.U. C is the software specific to the system and B is the auxiliary series channels to be used for communication between the data processing system and the device according to the invention.

G-4 represents the converter module of the device, which can be divided into the following sections: A. Represents the power source itself, that voltage at the output of the U.P.S. receive, used in the entire data processing system and is thus externally connected. The voltages which supply the device are generated in this block.

B. Imagines the module receiving at least eight signals free of voltage from the section B of Gl, which are transmitted through a galvanic isolator (opto-coupler) and proposes an interference filter which also provides feedback from the relays in Gl avoid.

(B). Followed by a "SCHMITT" trigger that generates signals with perfectly defined lines, in order to control the two-way buffer at the input of the 8-bit binary converter and the serial output.

C. Presents the unit which transmits outputs free of power to the C unit of G1 formed by a two-way buffer connected to the output of the converter to activate the opto coupler as the second stage with a Larlington which energizes the output relays.

D. Includes a generator with a 19.2 kHz crystal frequency required to receive and transmit data in series and parallel form, which generator is connected to the control logic formed by NAND gates in the "SCHMITT" trigger , which control the synchronized access edges to the local oscillator.

The converter converts the signals received in parallel into a series form, which signals are interpreted by the computer to make decisions by suitable equipment (G-2), with the result that they are transferred to the SERIES position to the converter, whereby a parallel output is obtained with at least eight states or combinations of switch-on switch-off.

In block E, the communication characteristics between the computer and the two-way converter are performed, the selection is made, using equipment that is compatible with all current communication systems by means of conventional adapters.

The different relationships are performed by activating mini switches installed on the circuit board and which have ON / OFF states equivalent to 1/0. The most common selections could be: 1. Transmission speed selection.

2, Parity mode: none, even, odd.

3. Data bits. k. Stop bits.

E. is supplemented by F and serves as an adjustment device for voltage and impedance levels for the receive and transmit signals from the computer to the converter and vice versa.

The group G-4 is also entirely external and autonomous from the U.P.S., providing a compact unit with interconnections, the input being merely a simple serial input to the data processing system. It should be noted that the designs mentioned above and shown in the drawing are subject to change in details thereof, provided that the basic principle is not changed.

Claims (4)

1. Protection device for computers with uninterrupted power supply, rne.t. the_kgnmgrk, that it is provided with a mains failure detector connected to the input and output of the uninterrupted power supply, formed within a first module with at least eight power-free outputs indicating the situation, this module being connected to a second module and with a third module, provided with an adaptation device and a converter to evaluate levels and formats for the data processing system used, the signals of which are generated in response to received signals from the first module via the processing system a fourth module for output emissions, which in turn forms other power-free outputs leading to a fifth module for executing switch-on and switch-off commands to elements constituting the data processing system, the latter module having manual activation elements enabling the program is changed and before switching on and shutdown actions, the system being provided with means for operation under the control of hourly programmed clock signals and / or remote control. Device according to claim 1, characterized in. that the power failure detector has been replaced by an electrical line analyzer whose output is connected to the second module with the data processing level adjuster. Device according to claim 1, characterized in that the connection between the modules for the detection of a power failure and the connection to the data processing system of the "mainframe" computer is established by using opening and closing of parallel circuits free of electrical power. Device according to claim 1, characterized in that a connection is made between the different modules and the "mainframe" data processing system and the uninterrupted power supply system to the external outputs or external accesses to both systems. Device according to claims 1 and 3, characterized in that the parallel connections between different modules of the device are converted into a serial form and also the serial outputs are converted into parallel so that the different modules can function.