DE2630256A1 - Interference pulse suppressor for communications receiver - has gap caused by suppressed interference pulse filled by pure signal from IF selection circuit - Google Patents

Abstract

The suppressor has at least one gate in the high frequency signal path, toe which a blocking pulse is applied when an interference voltage detector recognises an interference pulse. A first gate (5) is followed by an intermediate frequency selection circuit (12) whose output is connected through an amplifier (16) and a second gate (7), switching inversely to the first one (5), to the intermediate frequency selection circuit (12). A gap produced by a blocking pulse behind the first gate (5) is filled by pure intermediate frequency signal from the output of the intermediate frequency selection circuit (12) and applied to its input through the amplifier (16) and the second gate (7).

Description

Circuit arrangement for suppressing interference pulses

The invention relates to a circuit arrangement for suppression of interference pulses in a receiving device in communications engineering, which at least has a gate circuit arranged in the RF signal path, which upon receipt of one of an interference voltage detector detected interference pulse is fed to a blocking pulse.

With such circuit arrangements should be prevented that with The interference pulses picked up by the received signal reach the LF amplifier.

This problem occurs particularly with receiving devices that are in electrical facilities having vehicles are operated.

It is known to use the RF input section of a receiver to convert interference pulses detected by an interference voltage detector into blocking pulses and to use these to sample the composite signal to be transmitted in the RF signal path. Here Although the actual interference pulses are largely blanked out, the resulting ones However, blanking intervals generate perceptible noise. The one in a blanking which corresponds to a 100% square-wave AM modulation, the resulting pulse edges also cause a Triggering the downstream of the blanking stage Oscillating circuits.

Bridging the blanking time through the ringing of an EF storage circuit, which is located behind the gate circuit would only make sense if on a clearly selected RF carrier would be present at this point. The blanking takes place before the actual selection stage, the storage circuit can use neighboring frequencies are excited, which leads to incorrect level values. Arranging the gate circuit at points with a higher selection is also not sensible because of the narrower ones Bandwidth too long blanking times are required.

The invention has for its object to be less at one point Selection of a selective RF level suitable for bridging the blanking time to obtain.

This object is achieved according to the invention in that one in the IF signal path the receiving device arranged first gate circuit followed by an IF selection block whose output is via an amplifier upd via an inverse to the first gate circuit switching second gate circuit connected to the input of the IF selection block is, and that the switching means are dimensioned such that one of a blocking pulse Blanking interval in the preselected IF signal caused after the first gate circuit by one taken from the output of the IF selection block, via the amplifier and fed back via the second gate circuit to the input of the IF selection block IF signal that corresponds to the pure IF component of the first gate circuit Signal mixture corresponds, is filled in terms of energy.

To such a circuit arrangement with relatively short blanking times to be able to operate, is according to a further embodiment of the invention the IF signal generated in the niche stage of the receiver via a delay element, a third gate circuit controlled by the interference voltage detector and via an IF preselection stage fed to the first gate circuit.

The advantages achieved with the invention are in particular: that the circuit arrangement has a high-frequency-side suppression of interference pulses in which residual disturbances caused by blanking gaps do not occur.

An embodiment of the invention is shown in the drawing as a block diagram and is described in more detail below.

A pending at an RF input stage 1 of a receiving device The received signal is connected to an oscillator 2 in a manner known per se Mixer 3 and an interference voltage detector 4 supplied. A first output of the Interference voltage detector 4 is connected to the control input of a first gate circuit 5 and via an inverting switching element 6 to the control input of a second gate circuit 7 connected. In addition, a second output of the interference voltage detector 4 is connected to the Control input of a third gate circuit 8 connected.

The actual IF signal path starts from mixer 3 Via a delay element 9 acting as a low-pass filter, the third gate circuit 8, a IF preselection stage 10, the first gate circuit 5, an interconnector 11, an IF selection block 12 and via an IF amplifier 13 to the demodulator 14, which is followed by an audio amplifier 15. The output of the IF selection block 12 is via an amplifier 16, the second gate circuit 7 and via the interconnector 11 with the receipt of the ZF selection block 12 connected.

If an interfering pulse is received together with a useful signal, it arrives this via the mixer 3 and via the delay element 9 to the input of the third gate circuit 8. The interference pulse occurring in the RF input stage 1 responsive interference voltage detector 4 leads the third gate circuit 8 a first Blocking pulse, which briefly interrupts the IF signal path. The one blanking interval having signal is via the IF preselection stage 10 to the input of the first Gate circuit 5 supplied. A generated in the interference voltage detector 4, the control input the second blocking pulse supplied to the first gate circuit 5 is dimensioned such that the settling process caused by the IF preselection stage is also blanked out. The relatively sluggish response of the IF selection block 12 to blanking gaps becomes a factor used, an IF signal picked up at the output of the IF selection block 12 with the aid the second gate circuit 7 operated inversely to the first gate circuit 5 into the blanking interval to key in. The switching times of gate circuits 5, 7 and those with the amplifier determinable amplitude of the selective IF signal are matched to one another in such a way that that the blanking interval behind the first gate circuit 5 is caused by a returned IF signal, which is the pure IF component of the signal mixture present at the first gate circuit 5 in terms of energy, is filled out. The duration of the keying in of the traced If the signal level is raised accordingly, the IF signal is shorter than the duration of the be behind the first gate circuit 5 occurring blanking.

Due to the integrating effect of the IF selection block 12, there is none Residual interference more audible because the interference voltage integral is almost zero.

Claims (5)

Claims 1. Circuit arrangement for suppressing interference pulses in a receiving device of communications technology, which at least one in the RF signal path having arranged gate circuit, which upon receipt of an interference voltage detector detected interference pulse a blocking pulse is supplied, characterized in that a first gate circuit (5) arranged in the IF signal path of the receiving device IF selection block (12) is connected downstream, the output of which via an amplifier (16) and via a second gate circuit that switches inversely to the first gate circuit (5) (7) is connected to the input of the IF selection block (12) and that the switching means are dimensioned such that one of a blocking pulse behind the first gate circuit (5) The blanking gap in the preselected IF signal caused by a signal at the output of the IF selection block (12) taken via the amplifier (16) and the second Gate circuit (7) IF signal fed back to the input of the IF selection block (12), which is the pure IF component of the composite signal at the first gate circuit is filled in terms of energy. 2. Circuit arrangement according to claim 1, characterized in that the IF signal generated in the mixer (3) of the receiver via a delay element (9), a third gate circuit (8) controlled by the interference voltage detector (4) and over an IF preselection stage (10) is fed to the first gate circuit (5). 3. Circuit arrangement according to claim 2, characterized in that the interference voltage detector (4) when detecting an interference pulse of the third gate circuit (8) a first blocking pulse and the first gate circuit (5) a second blocking pulse supplies, which is dimensioned so that the oscillation process caused by the first blanking interval the IF preselection stage (10) connected downstream of the third gate circuit (8) is blanked. 4. Circuit arrangement according to one of claims 1 or 2, characterized characterized in that the blocking pulse fed to the first gate circuit (5) is the second Gate circuit (7) is supplied via an inverting switching element (6) and that the switching times of the two gate circuits (5, 7) are matched to one another in this way are that the closing time of the second gate circuit (7) is less than the opening time the first gate circuit (5). 5. Circuit arrangement according to claim 1, characterized in that the interference voltage detector (4) its information from the RF input stage (1) of the Receiving device contains.