DE1298121B - Disturbance suppression circuit for television receivers - Google Patents

Description

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The invention relates to an interference suppression circuit for the respective receiving circuit for television receivers with a tran ratio and thus the best possible effective sistor, whose KoUektor ^ emitter path the pulse rate of the circuit.

separation stage and the control voltage generator stage The invention is based on the in the drawing connects to a reference potential and explains the nor- 5 illustrated embodiment,

is sometimes conductive and if interference occurs. The rectified video signal is known in

pulses, the height of which corresponds to the size of the synchronization mode of the control voltage generator circuit 15.

pulses is exceeded, is blocked and the pulse is performed, a triode 16, coupling resistors 17

disconnection stage switches off. and 18 and bias resistors 19, 20 and 21

Normally, television receivers use the io. Depending on the image and line

Synchronizing pulses of the television signal except for synchronizing pulses, which are AC coupled

Horizontal and vertical synchronization also for the deflection circuit supplied via line 22

Used to generate the control voltage. If this is sensed, the control voltage circuit generates

Catched signal of interference pulses superimposed, the 15 of which is a control voltage that is transmitted via line 23 as

Amplitude is that of the synchronization pulses over bias voltage used for the HF and IF stages

If you progress, there is a risk that it will be distracting.

The video signal is also the pulse separation voltage being affected. circuit 24 fed to a triode 27, pre

In a known circuit of the initially voltage resistors 28 and 29, a circuit 30

mentioned type is the normally conductive tran- 20 for generating the grid bias from resistors

sistor by sufficiently high interference pulses in stands 31 and 32 and capacitors 33 and 34

Locked state controlled and thereby switches both the contains. Depending on the grid current of the triode

Pulse separation stage as well as the control voltage 27, the grid bias voltage is generated, which the

Generation level. Although an exit triode 27 is switched off as long as the am-

fall of the deflection stages as a result of such glitches 25 plitude of the video signal at the control grid of the triode

prevented, but at the same time the control 27 does not decrease the amplitude of the synchronizing pulses

voltage off so that the HF and IF levels are exceeded.

maximum gain can be set. In addition, one is controlled by glitches Reception of a normal or strong RF signal transistor circuit 35 provided, which have a Tranhaben therefore, in this known circuit, interference transistor 36 contains which is normally in saturation impulses is present in spite of the suppression circuit or carries a strong collector current and result in considerable image errors. this via the resistor 37 at a front

The object of the invention consists in the voltage source 41 whose DC voltage improves the known circuit in such a way that it depends directly on the strength of the received signal. Control voltage not in an undesirable manner at 35 The bias voltage source 41 ensures that interference pulses occur in the event of interference. According to the invention, this object is achieved by the scanning threshold of the transistor 36, so that the control voltage generator stage is AC-coupled to the interference-insensitivity of the synchronizing transistor and the pulse separating circuit 24 is improved. In the saturation via a smoothing capacitor, the transistor 36 connects the cathode to the reference potential and that one of the tubes 27 is connected to ground, and the capacitor 38 is provided with a bias voltage source which, in addition to the capacitor 42, provides an alternating switching threshold Transistor bias current path for the cathode of tubes 16 according to directly proportional to the strength of the received mass.
RF signal generated. 45 The rectified video signal is above the

In this circuit, the control voltage resistor 39 is 180 ° in phase opposition to the

Generation stage not switched off by glitches, tubes 16 and 27 fed signal to the base

so that the regulation even during the disturbances of the transistor 36.

The capacitor 42 represents an additional affect the image quality. Via the AC 50 AC path from the cathode of tube 16 Voltage coupling will represent the glitches from to ground. This is the possibility under transistor of the control voltage generation stage that the control voltage circuit 15 does not conducts to work on the grid of the control voltage tube when after a weak reception occurs To compensate for glitches. Suddenly a very strong signal occurs on this signal. In Way, an interruption of the feedback 55 in this case the transistor 36 is practically through for all the effect of glitches is avoided. operating states occurring at the table through a video

The smoothing capacitor in the cathode circuit signal rapidly increasing strength in the state the control voltage tube prevents undesired low conductivity from being switched. The one from the transistor Effects of the noise suppression circuit applied at 36 via capacitor 38 to the cathode of the tube rapid fluctuations (growth) of the HF 60 16 reaching, rapidly changing voltage signal would occur and in the absence of this impulse have a reducing effect on the generated control capacitor for blocking the control voltage bias voltage fed to the HF and IF stages Producer stage would lead. will. The effect of this disturbance is thereby

Furthermore, the bias voltage source regulates the threshold level that the transistor 36 by a strong remote voltage, in which the transistor is kept in the low conductivity state by the conductive in 65 visual signal the non-conductive state switches over, is directly pro- and that the generation of a suitable rule is proportional the strength of the received RF signal signal would not be possible. The capacitor 42 and serves to optimally adapt the interference suppression to these undesirably fast voltage

Fluctuations at the cathode of the tube 16, the generation of a suitable control signal by the Circuit 15 would interfere.

The bias of the transistor 36 is dimensioned so that only glitches that are larger than the synchronization pulses occurring at the output of the rectifier, the transistor 36 from the Can bring out satiety. Such glitches push the transistor into a low conductivity state or turn it off completely. So if such interference pulses arrive at the transistor 36, then the cathode of the tube 27 is separated from ground, so that grid current can no longer flow and thus it is blocked for precisely these glitches, which are coupled to their grid with 180 ° phase shift will. The transistor 36 suppresses the undesirable effect of interference pulses, their Amplitude exceeds the synchronizing pulse amplitude in the synchronizing pulse separating circuit 24.

When the transistor 36 is keyed into a low conductivity state by the aforementioned interference ao pulses is, the subsequent voltage pulses at the collector of the transistor 36 are additional coupled via the capacitor 38 to the cathode of the tube 16 to the effect of the same in the Phase rotated by 180 ° to suppress interference pulses coupled to its grid. This ensures that the control voltage circuit 15 does not respond to these interference pulses and therefore not these pulses are included in the control voltage signal fed to the HF and IF stages.

Claims (1)

Claim: Interference suppression circuit for television receivers with a transistor, its collector-emitter path the pulse separation stage and the control voltage generator stage connects to a reference potential and which is normally conductive and if interference pulses occur, the height of which exceeds the size of the sync pulses, is blocked and the pulse separation stage switches off, characterized in that the control voltage generator stage (16) is coupled to the transistor (36) in terms of AC voltage is and also constantly connected to the reference potential via a smoothing capacitor (42) and that a bias voltage source (41) is provided which determines the switching threshold Transistor bias generated in direct proportion to the strength of the received RF signal. 1 sheet of drawings