DE4244187A1 - - Google Patents

Abstract

Safety device for computers with uninterrupted power feed; including a line failure detector G-1,B that, at the input and output of the uninterrupted power system G-1,A sends orders to an intake checker and parallel converter in series G-4,B and D fed by G-4,A, that in turn attacks the auxiliary series intake G-2,B of the main data processing system G-2, according to which the computer sends to the module G-4 commands that are accepted and transmitted in parallel by a module G-4,C to the stop/go control of the system apparatuses G-1,C optimizing the apparatuses connected to the uninterrupted power feed and also protecting the procedures running, and files in use, so that the process is stopped and then continued once the power line and autonomy of the batteries is restored. The device can be incorporated in the general data processing system or installed as a separate element in or physically outside the same, and allows connection/disconnection through G-1,D with a remote control programming clock. The device is applicable to data processing systems that demand a high degree of working reliability. <IMAGE>

Description

The invention relates to a safety device for Continuous power computer, the one Circuit includes, with the disturbances in the power line recognized, which are transferred to the main computer and to optimize the uninterrupted power supply be evaluated so that a minimal effect on the ongoing process is exercised.

Computers now use continuous power systems (U.P.S.), or are fed by such systems.

These are energy storage systems, the Energy is obtained from the electrical line leading to the Computer, but at the same time a group of Generator batteries goes through, so that a short-term Supply interruption (micro-shutdowns) or one longer interruption is not perceived by the computer, and not only in the supply, but also in the Quality of tension and wave uniformity that one can have an important effect on the system processes.

These U.P.S. systems are usually expensive and solve that Supply disruption problem very good. Longer Faults require a large battery capacity, however a large investment and significant volume and Weight means.

Such supply breakdowns can occur from the known U.P.S. systems, however, for no more than 15 minutes be bridged. In many cases the user donates not paying enough attention to this problem. Even with a warning, the user does not have much time to read the most important to secure parts of his process.  

In addition, the user must have unpleasant surprises too avoid constantly checking for supply disruptions occur to take appropriate action immediately can. Therefore, the user cannot use the computer operate outside of office hours as there is a risk of There is a supply disorder.

All of these problems can be solved either by a very powerful U.P.S. System with those already mentioned Disadvantages can be solved, or by using a device according to the invention.

Thanks to this device it is possible to carry out the various Terminals in the system from a supply disruption too teaching. A running process can automatically in the the most appropriate moment. The system can be in be automatically stopped at a pre-selected moment. The processes that have not ended can be canceled the files opened by the processes getting closed. The tension from the S.A.I. can be uncoupled when it breaks down. The system can be started automatically and the system can be stopped and automatically disconnected when unattended processes that are outside of the normal working hours.

The device consists of a circuit that Breakdowns in the line to the U.P.S. System detects. If a malfunction is detected, a is activated in the device Command generates the main computer on the deviation points out, and at the same time warm mechanisms for the different users of the main system, so that they abort the running processes and the files  can close in the given time, and accordingly a certain automatic, depending on the special design the device.

If the entire system is adequately protected, it will U.P.S. -System automatically disconnected, resulting in a discharge of batteries allowed, essentially around the process and save the files without excessive unloading, which could damage the process and the files.

When the voltage is restored, it starts System automatically using commands issued by the already mentioned detector are generated. This leads a battery charge check to make sure to ensure that there is sufficient autonomy.

The device also allows activation and that Stop by having a programmed clock and a Remote control used.

The device according to the invention is designed so that it in any data processing system with one known U.P.S. system can be included, either as an external additional unit or in the manufacture of the Computer U.P.S. system in which it is a part of this Systems forms.

The advantages for data processing are so great that future systems will be equipped with it if the Cost of circuit to add due to Mass production is less than that of a large one U.P.S. system.  

Not just the construction, but also the Use of the device according to the invention better understand, will be an embodiment in the following to which the invention is not limited is, reference being made to the attached Drawing showing the device and its connection a computer with a U.P.S. supply as Block diagram shows.

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

In group G-1, section A represents the U.P.S. or classically represents the uninterrupted power supply, which in all data processing systems is used and with the electrical line R is connected.

The device according to the invention comprises in section B. Module with at least 8 voltage-free outputs, the Sends signals to indicate the status of the system. The module is equipped with an alarm if this is not already included in the equipment.

The most important signals that can be handled here are: Commutation to the direct power line, impending Disconnection, malfunction of the digital-to-analog converter of the U.P.S. System, emergency, and any other signal that is required is.

The versatility of the system also allows connection to complicated line analysis systems, the outputs of which activate the named outputs while completely remain independent of the system.  

Section C of group G-1 includes a module at least 8 free voltage inputs that open and can be closed what the connection or Decoupling of data processing elements such as terminals, Printers, etc. to the U.P.S. system, which enables the stored energy is optimized. The connections and Decouplings are controlled by the main computer.

The connection decoupling signals can be from the outside be handled. An internal manipulation of the U.P.S. Systems like in section B is not for its installation necessary because it remains independent of the system.

Section B of group G-1 provides a layout for one automatic disconnection, which is a Radio program used or manually by a Remote control is operated.

G-2 represents a data processing system in which A the Main C.P.U. is. C provides specific software for the system and B an additional serial Interface for communication between the Data processing system and the invention Contraption.

G-4 represents a converter module of the device that is divided into the following sections:

A represents the voltage source itself, which is the voltage receives at the output of the U.P.S. system, which in the entire data processing system is used and on this way is connected externally.  

In this block the voltage feeding the device generated.

B represents the module that has at least 8 free ones Receives voltage signals from section B of group G-1, by a galvanic isolator (optocoupler) and a Interference filter, which is also a feedback from the Group G-1 (B) relay prevented. This follows Schmitt trigger, the signal with precisely defined lines generated to be able to use the bi-directional Memory at the input of the 8-bit binary converter and serial Attack exit.

C represents the unit that provides free voltage outputs of the C unit of group G-1 and by one bidirectional memory is formed, which with the Converter output is connected, the optocoupler is stimulated with a second stage with a Larlington, which excites the output relays.

D includes a generator with a crystal of frequency 19.2 KMz, which is required to serial and parallel Receive and transmit data. That follows control logic that is controlled by N.A.N.D gates in the Schmitt trigger is formed and the synchronized Rising edges to the local oscillator controlled.

The converter converts the received signal into series of parallel signals with the help of suitable software (G-2) the signals are interpreted by the computer and evaluated, whereby the result for the S.E.R.I.E.S.- Position of the converter is transmitted, thereby creating a parallel output with at least 8 states or Combinations of connections-decouplings is obtained.  

In block E, the communication characteristics between the computer and the bidirectional converter filed. The selection is made using hardware carried out with the conventional adapters of the known communication systems is compatible.

The different relationships are activated by activating Mini switches run on the printed circuit are arranged and have ON / OFF states that are equivalent to 1/0. The most common selections will be be:

• 1. selection of the transmission rate,
• 2. Parity mode: not, even, odd,
• 3. data bits,
• 4. Stop bits.

F complements E and serves as an adapter for the Voltage and impedance levels for the receive / transmit signals from the computer to the converter and vice versa.

The group G-4 is therefore completely external and autonomous from that U.P.S. System, being a compact unit without Connections forms and the entrance being a simple one serial interface to the data processing system.

After the nature of the invention and the manner of it Execution is sufficiently described, it should be noted that the previously specified embodiment, which in the drawing is shown, are modified in their details can as long as the principle of the invention is not changed becomes.

Claims (5)

1. Security device for computers with an uninterrupted power supply, characterized in that a detector is provided for interruptions in the line connected to the input and the output of the uninterrupted power supply, the detector being arranged in a first module which is at least 8 voltage-free, the situation has indicating outputs, this module being connected to a second module and a third module, which form an adapter and a converter for evaluating levels and shapes for the data processing system, the response signals to the signals received by the first module by the data processing system being a fourth Module for transmission are supplied, which comprises further voltage-free outputs, which are led to a fifth module to send connection and disconnection commands to elements of the data processing system, the latter module elements for manual activation tion that change the program and effect the connection and disconnection, the system having means for work control in the form of an hourly programmed clock and / or remote control. 2. Device according to claim 1, characterized, that the line break detector formed by an electrical line analyzer whose output is connected to a second module Adaptation to data processing levels is connected. 3. Device according to claim 1, characterized, that the detector modules for interruptions in the line and the connection with the Data processing system of the main computer through the Opening and closing of parallel circuits that are free of electrical energy. 4. The device according to claim 1, characterized, that a connection between the different Modules and the main data processing system and the uninterrupted power supply system to the external outputs or external inputs of both Systems is manufactured. 5. The device according to claim 1 and 3, characterized, that the parallel connections between the different modules of the device in series are converted and so are the series outputs are converted to parallels so that the different modules can work.