DE1265297B - Electrical indicator circuit for monitoring voltage levels on a number of electrical elements - Google Patents

Description

Electrical indicator circuit for monitoring the voltage levels on a Series of electrical elements The invention relates to an electrical Indicator circuit for monitoring voltage levels on a number of electrical elements, in particular of transistorized computing amplifiers, with the help of a step switch with at least two switching levels, with the electrical outputs of each Points to be checked on contacts of one switching level of the multiple switch and the associated switching arm is connected to the input of the display device.

In a known circuit of this type, there are several measuring points connected to the contacts of a first switching level, with a contact device as Display device acts by switching its switch from the rest position to the working position with the participation of the other two switching levels and more Relay ensures that instead of measuring point indicator lamps, fault indicator lamps be operated. The stepladder is constantly in motion and becomes an example driven by a motor. Considerable effort is required here because one step switch with three switching levels and continuous drive as well as for each measuring point requires a relay, several sets of contacts and two indicator lamps.

For many purposes, a very large number of measuring points must be monitored. In the case of the known display circle, this no longer leads to a reasonable effort. Analog computers are given as an example. These have a larger number of processing amplifiers. When switching on and during the work of the computer it is always necessary to check the status and function of the control individual amplifier. DC amplifiers usually have two amplifier branches, one direct and one correction branch, which is used to eliminate zero shifts serves. The operation of the amplifier shows that the signal, the one Malfunction of the amplifier determined from a point of the correction branch of the DC amplifier can be removed. Since the correction branch of the DC amplifier mostly from the amplifier and the modulator at the input and is occupied by the demodulator at the output, the signal comes from the function of the amplifier decides, based on the AC voltage, its frequency the modulator is determined. In the event of malfunction of the direct current amplifier increases the amplitude of the signal mentioned z. B. an order or also more. One the Overload indicating circuit must be the amplitude difference of the faulty Estimate the signal.

In the case of direct current computer amplifiers with electron tubes, the display of the function of the amplifier mostly used glow lamps in the Instantly begin to glow where the amplifier is not in its normal Working condition. Since the power consumption of the glow lamps is only a fraction of a Milliamperes and the corrective tap of the amplifier has a large voltage amplitude output, it is not difficult to perform the amplifier overload indication.

In the case of amplifiers with transistors, on the other hand, the amplitude of the alternating voltage is in the correction branch of the amplifier due to the transistor final voltage limited to a few volts, and this precludes the use of glow lamps to indicate overloads. In this case, for example, you can use the Use an incandescent lamp fitted with a separator that is either contains a zener diode or transistor. However, this solution is insofar afflicted with a great disadvantage as they use a large number of semiconductors for must use the display of the overload, because the current consumption of the indicator light bulb can the maximum current consumption of the whole ODC computational amplifier exceed many times.

The invention is therefore based on the object of a monitoring circuit specify that with little effort both permanent monitoring and enables the exact definition of the faulty measuring point. Here the circuit should also be suitable for a larger number of measuring points and normal operation affect each measuring point as little as possible.

To solve this problem, an electrical display circuit is the one at the beginning described type characterized in that the same electrical outputs over Resistors are connected to a common conductor, which is connected to another Contact of the first switching level and connected to the switching arm of the second switching level whose contacts, which are the first-mentioned contacts of the first switching level correspond to a common voltage.

With this arrangement, a display device with a single signal lamp is sufficient. The tap changer is normally at rest. As long as there is no error, the display device is not operated.

It only lights up when an error occurs at any measuring point Display device on. This is the signal, the individual measuring points with the step switch to be scanned individually. As soon as the display device responds again, the faulty one Measuring point found.

The effort required for this is low. A single indicator light is used both for continuous monitoring and for individual display.

Continuous scanning is not necessary.

You can do without a single relay.

With the step switch, only two rows of contacts are necessary. this applies even if a large number of measuring points, e.g. B. 100 amplifiers are monitored have to. The display circle is also suitable for cases where it is used of transistors or other semiconductor elements only low voltages for monitoring be available.

The invention is described below in connection with one in the drawing illustrated embodiment explained in more detail. The drawing shows a circuit diagram for the display circle.

The electrical outputs 1, 2 of the individual measuring points are on the one hand connected directly to contacts 31, 32 ... of a switching level of a multiple switch and lead via its switching arm30 to the input of the display device 50. On the other hand they are connected to a common conductor 70 via resistors 21, 22 '. This common conductor 70 is a second switching level via a switching arm 300 of the tap changer and through the associated contacts to a common voltage connected, with a contact 39 of the first switching level to the common conductor is connected, while a corresponding contact 390 isolates the second switching level is.

The function of the display circle enables a central display any voltage level at the individual electrical outputs 1, 2 ... the Bodies to be monitored when the switching arms 30,300 of the switch are in the Position 39, 390 are located. The overload indicator 60 shows each time the electrical signal levels at any of the outputs 1, 2 ... of the ones to be monitored Places on. If you switch arms 30, 300 of the tap changer one after the other with the individual contacts 31, 32 ..., 310, 320 ... connects which the individual Outputs 1, 2 ... correspond to the points to be monitored, one can determine at which output the voltage level was exceeded.

When displaying the overload of computer amplifiers, it is an alternating voltage, which decides on the function of the amplifier, and this alternating voltage can have a phase difference of 1800. To ensure the correct function of the display secure, diodes 11, 12 ... are switched on in the circuit, which cause that the signal at points 41, 42 ... always maintains the same polarity.

An evaluation circuit in the display device 50 provides a function of the overload indicator in such a way that, for example, the indicator lamp then lights up when the voltage at outputs 1, 2 is a certain, previously selected Value exceeds.

Claims (2)

Claims: 1. Electrical display circuit for monitoring the Voltage levels across a number of electrical elements, particularly transistorized ones Computing amplifiers, with the help of a step switch with at least two switching levels, the electrical outputs of the individual points to be checked at contacts one switching level of the multiple switch and the associated switching arm at the input of the display device are connected, which are not shown t that the same electrical outputs (1, 2 ... 8) via resistors (21, 22 ... 28) are connected to a common conductor (70) which is connected to a further contact (39) of the first switching level (30 ... 39) and to the switching arm (300) of the second switching level (310, 320 ... 390) is connected, the contacts of which correspond to the first mentioned Contacts (31, 32 ... 38) of the first switching level correspond to a common one Tension. 2. Electrical display circuit according to claim 1, characterized in that that the electrical outputs (1, 2... 8) of the individual points to be checked are provided with diodes (11, 12... 18). Documents considered: German Auslegeschrift No. 1 107 132.