DE3925372C2 - - Google Patents

Description

The invention is directed to a circuit arrangement to reduce surge peaks in an AC circuit, with a switch in a load current path, of a control unit that detects the surge peaks is activated.

Interference can occur in circuits or from outside be forced to create considerable tension and Can lead to current peaks. So when lightning strikes Voltage of 10,000 V and currents of 10,000 A arise being used to protect these circuits passive dissipative construction elements such as varistors, gas arresters or suppressor diodes which are used by partial short-circuiting most of the overvoltage generators absorb. The voltage remaining in the network depends especially the resistance of the power line and the Internal resistance of the parallel arresters, since the Power lines and the parallel arrester in the Prin zip form a voltage divider.

The disadvantage of the known measures lies in particular in that they take no account of which rela tive position or phase the interference to the sinus half-wave  of the network, because the interference voltages and interference currents Represent pulses that the 50 Hz sine wave of the Net zes are superimposed and by the known protective measure men are evenly cut. Through this even Capping results, for example, that with an Ab cut the pulses to, for example, 900 V, what is realistic, an impulse at the highest point the sine wave of, for example, 900 V-320 V = 580 V is present, while the 900 V at zero crossing the Total sine wave present. It is special disadvantageous that this residual signal because of its from the Ab conductors certain low internal resistance with the be known means can practically no longer be reduced.

A protective circuit is known from the generic DE 38 14 251 C1 to protect capacitive loads against pulse-shaped Surges known. Here are impermissibly high Currents and / or voltages recognized and subsequently disconnects an active switch element for the duration of the overvoltage the load from the supply network. References to one Surge protection are also the reference "power supply electronic circuits and devices "by S. W. Wagner, 1964, R. v. Deckers Verlag, pages 390 to 393, contain.

Already offer the solutions described in the prior art  some protection against surge peaks, so In contrast, the object of the invention is Reduced surge peaks already with known means reduce even further, taking the influence of the location the spike relative to the sine wave of the network essentially independent of the zero crossing of this sine wave le should be.

This object is achieved according to the invention in that the control unit has a differential amplifier with a downstream Has threshold detection, the one Input of the differential amplifier with one to the voltage in the AC circuit proportional voltage is applied directly and the other input of the differential amplifier the latter voltage supplied via a low pass and is the output of the threshold detection is connected to the control input of the switch.

The invention reduces the amplitude of Overvoltage peaks achieved, and with comparative simple structural means, but only when it occurs the control unit is activated by surge peaks, to keep the resulting tip away from the load. Thereby, that the switch for the duration of the surge remains open, an incision is made in the sine wave to practically 0.  

In an embodiment, the invention provides that for compensation the additional voltage peaks generated by the switching an LC filter between the switch and the Load is provided. This measure bears the fact Bill that in the switch itself by the shutdown process additional peaks are generated, which indeed may be weaker than externally caused peaks, however the load should also be protected from these peaks be. This is where the invention intervenes.

A further embodiment of the invention consists in that parallel and in series to the load filter for suppression additional tips, especially as inductive Storage choke acting filters are provided.

The invention is below with reference to the drawing explained in more detail, for example. This shows in

Fig. 1 is a simplified picture of the circuit according to the invention and in

Fig. 2 shows a basic curve of a sine half-wave with interference pulse.

On lines 1 and 2 of an AC circuit ei ne is connected to 5 designated load. The AC circuit is closed via a bridge rectifier 3 with egg nem normally closed switch and Dros seln 11 and 12 .

To protect the load, passive overvoltage protection 6 ( not shown in more detail) is provided, the residual peaks still present being passed directly to an operational amplifier or subtractor 10 via a low-pass filter 9 , with threshold electronics (not shown in more detail) from the subtractor 10 and the switch 4 be opens what is indicated by a line 15 .

With 7 and 8 additional voltage dividers are provided for loading the operational amplifier 10 , parallel to the load, further filters 13 and 14 are installed in the switching system.

The mode of action is as follows:
When a predetermined amplitude threshold is exceeded, the switch 4 is opened by the threshold detection electronics for the duration of this peak and the load current circuit is interrupted for the same duration. The filters 11 , 12 , 13 and 14 serve to suppress the additional peaks caused by the interruption. By combination with the passive overvoltage protection 6 , the blanking circuit 3 , 4 , 7 , 8 , 9 and 10 with the successive filters 11 , 12 , 13 and 14 can reduce the overvoltage peaks to a low, harmless value for the load 5 , as can be seen in principle from FIG. 2.

The hatched in FIG. 2 energy area 16 of the interference pulse without the measure according to the invention on the one hand essentially corresponds to the pulse energy area 17 reverse hatching according to the course according to the inven tion. In Fig. 2, the switch-off interval is 18 .

Claims (3)

1. Circuit arrangement for reducing overvoltage peaks in an AC circuit, with a switch located in a load current path and activated by a control unit that detects the overvoltage peaks, characterized in that the control unit has a differential amplifier ( 10 ) with downstream threshold value detection ( 15 ), the an input (-) of the differential amplifier ( 10 ) is acted upon directly by a voltage proportional to the voltage in the AC circuit, and the latter input is fed to the other input (+) of the differential amplifier via a low-pass filter ( 9 ) and the output of the threshold value detection ( 15 ) is connected to the control input of the switch ( 3 , 4 ). 2. Circuit arrangement according to claim 1, characterized in that an LC filter between the switch ( 4 ) and the load ( 5 ) is provided to compensate for the additional voltage peaks generated by the switching. 3. Circuit arrangement according to claim 1 or 2, characterized in that filters ( 11 - 14 ) are provided in parallel and in series with the load ( 5 ) to suppress additional peaks, in particular filters ( 11 , 12 ) acting as inductive storage chokes.