DE3115405A1 - Electronic apparatus - Google Patents

Abstract

An electronic apparatus is proposed which has a plurality of assemblies, a separate power supply being provided for each assembly. Fitted on each assembly is a temperature sensor which switches if a predetermined temperature is exceeded and in consequence interrupts the power supply for the assembly or for a group of assemblies. If central assemblies become defective (are interfered with), the complete power supply is interrupted. In the event of fans failing or in the event of the electronic apparatus being excessively heated, in this case only those assemblies are switched off which are severely endangered by the high temperature. <IMAGE>

Description

Electronic device

PRIOR ART The invention is based on an electronic one Device according to the preamble of the main claim. They are already electronic devices known, which are switched off at too high a temperature. This approach has the Disadvantage that the whole device is put out of operation, even if only a part the device is overheated. It is also known that if fans fail put the entire device out of operation.

This also means that the entire device is not ready for operation is when only one fan fails or one due to low ambient temperatures Overheating of the device does not occur.

Advantages of the Invention The electronic device according to the invention with the characterizing features of the main claim has the advantage that only the module that is overheated is switched off. The other assemblies remain connected to the supply voltage so that they can continue to operate separately can be.

The measures listed in the subclaims are advantageous Further developments and improvements of the electronic specified in the main claim Device possible. It is particularly advantageous to connect the temperature sensors on the modules with the switching devices to interrupt the supply voltage to run via bus lines. If the electronic device is expanded, as a result, any number of new assemblies with their own temperature sensor can be added or exchanged. The bus system also makes it possible to use the entire electronic Divide the device into self-powered units, which are independent of each other are temperature monitored. Another advantage is that for each assembly special limit temperatures can be determined, for example as a function of are determined by the components.

It is also advantageous to switch off the power supply in the event of a fault for example to interrupt the processing unit for all assemblies. This parent Temperature monitoring has the advantage that in an emergency, if generally one The module essential for the device fails, all modules can be switched off are. In order to facilitate the maintenance of the electronic device, it is advantageous to that display units are provided that turn off the power supply for displays an assembly or part of the assemblies. It is also advantageous if the switching devices for switching the supply voltages have their own Have power supply, so that the switching devices are always operational are.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description. It shows Fig. 1 shows an embodiment according to the invention and FIG. 2 shows a possible modification of the embodiment according to FIG. 1.

Description of the exemplary embodiments FIG. 1 shows two mains terminals 1 to which the power supply for the electronic device is connected. A transformer 2 is connected to the mains terminals 1, and its transformed Voltage is fed to a rectifier 3. To smooth the DC voltage is at the output of the rectifier 3, a capacitor 4 in parallel. To the positive operating voltage line A resistor 5 is connected to 34, followed by a light-emitting diode 6 in series. the Light emitting diode 6 leads to the collector of a transistor 9, the emitter of which has a Diode 10 is connected to the ground line. Between the operating voltage line 30 and the collector of the transistor 9, a relay 7 is connected to which a diode 8 is connected in parallel. The relay 7 actuates a contact 21, which is in the power line is connected between terminals 1 and 23. The base of the transistor 9 is via a resistor 11 to the operating voltage line 34 and with a Terminal 20 connected. Furthermore, with the operating voltage line 34 is a relay 12 connected, which is connected to the collector of a transistor 16, whose Emitter through a diode 17 is connected to the ground line. Parallel A diode 13 is connected to the relay 12. It is also parallel to the relay 12 the series connection of a resistor 14 with a light emitting diode 15. The relay 12 actuates a contact 22, which is in a further mains voltage line between the terminals 1 and another terminal 23 is switched. The base of the transistor 16 is connected to the operating voltage line 34 via a resistor 18. The emitter of the transistor 16 is connected to the ground line via a diode 17. The bases of the transistors 9 and 16 are connected to one another via a diode 19. Furthermore, the base of the transistor 16 leads to a second terminal 20. The output terminals 23 are each used separately for the power supply of an assembly 24 and an assembly 25. On the assembly 24, a temperature-dependent switch 26 is attached, the when a predetermined temperature is exceeded, its contact closes. On the Assembly 25 is a temperature-dependent switch 27 attached, which like the switch 26 works. The switch 26 is connected to ground on the one hand and on the other hand via a line Connected via the connector 20 to the base of the transistor 9, while the Switch 27 on the one hand to ground, on the other hand via switching contacts 20 to the base of transistor 16 is connected.

The lines leading from terminals 20 and 23 to the modules 24 and 25 are arranged in the form of a bus system. The assemblies 24 and 25 are connected to the bus system via plug contacts on the chassis of the electronic Device is attached. The number of modules 24 and 25 is arbitrary expandable. If the temperature of modules 24 and 25 is below a specified limit temperature, so the switches 26 and 27 are high resistance. The transistors 9 and 16 are switched on and the relays 7 and 12 closed. This means that contacts 21 and 22 are also closed, so that the supply voltage is applied to the modules 24 and 25.

If the critical temperature at module 24 is exceeded, so the switch 26 closes. The transistor 9 is blocked and the relay 7 falls off. So that the switch 21 is opened, so that the power supply only to assembly 24 is interrupted. While the assembly 24 is no longer functional is, it is still possible to continue the functions present in the assembly 25 to use.

When the transistor 9 lights up, the light-emitting diode 6 also goes out, so that it is easy to see from the outside which module has been switched off. in the It is within the scope of the invention to use several circuit arrangements as with the transistor 9 and the relay 7 to be arranged so that several assemblies can be switched off separately are.

If a fault now occurs in a particularly critical assembly 25, for example in a computer unit that controls the other assemblies, so it is advisable to shut down the entire electronic device in this case. If the switch 27 closes because the temperature is too high, not only does the transistor block 16, resulting in a drop in relay 12 and opening of the Contacts 22 causes, but via the diode 19 and the transistor 9, so that both the assembly -24 and the assembly 25 is without power. This avoids that in the event of failure of a central assembly 25, the remaining assemblies 24 assume unauthorized states.

In Fig. 2, the bus system is again clarified and shown, that several assemblies, which are related to each other, when the Temperature can be switched off together. In addition to the assembly 24 there are also assemblies 28, 29 and 30 are present, which have a common supply voltage line, not shown be supplied with electricity.

In addition to the temperature switch 26, there are further temperature switches 31, 32 and 33 assigned to the corresponding assemblies 28 to 30, which are among each other are connected in parallel and lead to terminals 20 via the bus line.

This modular test system enables temperature monitoring possible with simple means.

The assemblies 24, 25, 28, 29 and 30 are, for example, any Number of plug-in cards, which can also be freely interchanged with one another, which are in can be inserted into a universal frame at various points. As already As mentioned above, additional units can be added to the system, with the The number of bus lines and control devices can be expanded. The entire control unit is supplied via special supply lines via a separate transformer 2, so that it is always ready for use. There is a temperature monitor on each assembly can be appropriate for anyone Assembly a suitable limit temperature can be set so that a shutdown only takes place if for the special Assembly the critical temperature is exceeded.

The embodiment shown is particularly suitable for electronic Computing systems to which peripheral or test units are connected.

If a test unit fails, the computer system continues to work separately, thereby avoiding the loss of data contained in the computer when a Test or peripheral unit fails. On the other hand, a sensible operation is the Computer system then no longer possible if the central computer is too high Temperature fails. This is then expediently the module, as in the example 25 to be provided with a priority circuit.

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Claims (5)

Claims WE Electronic device with several assemblies and with one separate power supply for each assembly, characterized in that each Assembly (24, 25, 28-30) a temperature sensor (26, 27, 31-33) is attached, which switches when a predetermined temperature is exceeded and that thereby the Power supply for the corresponding assembly or for a group of assemblies interrupted. 2. Electronic device according to claim 1, characterized in that that the connection of the temperature sensors (26, 27, 31-33) with the switching devices (7, 9, 12, 16) takes place via bus lines. 3. Electronic device according to claim 1 or 2, characterized in that that the power supply in the event of a failure of a preferred assembly (25) for Everyone Assemblies (24, 25, 28-30) is interrupted. 4. Electronic device according to one of claims 1 to 3, characterized characterized in that a display unit (6, 15) is provided, which switches off the power supply for a module (2, 25, 31 -33) or a part of the modules indicates. 5. Electronic device according to one of claims 1 to i, characterized characterized in that the switching devices (7, 9, 12, 16) have their own power supply (2, 3).