DE3102256A1 - Circuit arrangement for suppressing interference signals - Google Patents

Abstract

Circuit arrangement for suppressing interference signals, in particular in the transmission of digital signals of changing amplitude and a time-constant component. A voltage-limiting component is connected in parallel with the time-constant component. A further time-constant component is connected in series which is dimensioned in such a way that its time constant is greater than that of the first time-constant component.

Description

State of the art:

The invention relates to a circuit arrangement for suppression of interfering signals during the transmission of digital signals.

It is known to receive such signals from a receiver To amplify signals in a preamplifier. The amplitudes are amplified then stored with the help of an RC element, so that the amplitudes forms the corresponding analog value. The digital signals that exceed this analog value control a subsequent amplifier stage. Glitches that are below the stored Value are suppressed.

If the distance between the useful pulses is different, the time constant must of the RC element must be designed so that the signals with the shorter distances still be transmitted. However, this has the consequence that the stored analog value at larger pulse intervals of the digital signal has dropped so far that interference pulses can get through more easily, e.g. digital signals with different Intervals, i.e. pulse code modulated signals, when remote control of radio and televisions. Those sent out as carriers by means of infrared light Signals consist of several serial short pulses, whereby the information, i.e. which channel of the television operation is to be influenced in the different Intervals between the individual pulses. It'll become digital that way Words made up of several bits formed with a large distance e.g. forms an H signal and a short distance forms an L signal.

In the previously known circuit concepts with remote control of Receiving devices were individual interference pulses not very critical, because test circuits did not accept an incorrectly received command. It looks different in the receiver technology off, if these are equipped with microprocessors, the microprocessor through his program the most varied of controls and monitors one after the other performs, such as querying the remote control, showing the display, voting and Frequency control etc.

The program of the microprocessor system is set up so that this treats the remote control commands preferentially.

In the course of the program it is checked again and again whether a remote control command otherwise other subroutines are running continuously. If now strong glitches are present, is called continuously, so that the microprocessor system no more Can perform tasks.

The invention is therefore based on the object of eliminating interference pulses as much as possible to suppress, so that the operation of a receiver, e.g. with microprocessor control works flawlessly. This task is characterized by that in the claims Circuit measures solved.

Description: For the purpose of explaining the invention, it is intended to use the drawing can be described using an example.

Figure 1 shows the relationships of the previous circuit technology, Figure 2 shows waveforms at the designated switching points; Figure 3 and Figure 4 show the corresponding relationships achieved by the invention.

In Figure 1, the prior art is first shown using a pulse code modulated Remote control signal explained. The remote control signals arrive via the receiver diode D1 to a first amplifier stage V1. The amplified pulses are at output A. of the pulse code modulated remote control signal according to Figure 2A. These are with the help the diode D2 is rectified and the peak value is stored in a P element R1C1. The analog value E according to FIG. 2B is produced by the time constant R1C1. On the Coupling capacitor C3 is the difference between the amplitudes of the useful signal and the stored peak value to the next stage V2. The pulse peaks after Figure 2C control the subsequent stage V2. The remote control signal appears at output U. according to Figure 2D.

If interference pulses S are also received in addition to the useful signal N, the latter can become effective and harmful if they exceed the analog voltage at point B. This is particularly critical when the useful signals have wide pulse intervals the voltage at point B has dropped so far that the interference pulses S the useful pulses cause corresponding signals at output D.

The circuit according to FIG. 3 is used to remedy this deficiency.

Here, the components corresponding to FIG. 1 are identical Provided with reference numerals. In contrast to the circuit described above, a additional RC element R2C2 inserted and the first RC element R1C1 is a voltage-limiting one Zener diode connected in parallel. There are stresses at points A, B1, B2, C and D. according to Figure 4 A-D.

The time constant of the RC element R2C2 is much higher than that of the first RC element RiEl. The voltage limitation on the latter is determined by the Zener diode Z designed so that a change by this value is sufficient to the following Level V2 to be controlled clearly. The time constant R1C1 is used in a known manner determined according to the shortest distance between the useful signals, while the time constant R2C2 aligns with the greatest distance between the useful signal pulses.

It can also be the long breaks between each Acting impulse packets that form the individual digital control words.

With the circuit just described, there is reliable suppression of interference pulses guaranteed as long as this c are smaller than that Useful signal minus the maximum possible voltage at R1C1, due to the voltage-limiting Middle Z.

The circuit works fine even if the time constant R1C1 is extremely small by using a capacitor with a very small value is what is indicated by the dashed curve in Figure 4 B2.

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Claims (3)

Claims: $ circuit arrangement for suppressing interference pulses, when transmitting digital signals of variable amplitudes with a time constant element, characterized in that parallel to the time constant element (R3 / C1) a voltage-limiting Means (Z) is connected and that the time constant element (R1, C1) has a further time constant element (R2, C2) is switched on, the time constant of which is greater than that of the first time constant element tR1 * C1). 2. Circuit arrangement according to claim 1, characterized in that the voltage-limiting agent (Z) which is applied to the first time constant term (R1lC1) lying voltage is limited to a value that is necessary for the control of the following Amplifier level (V2) is sufficient. 3. Circuit arrangement according to claim 1, characterized in that the time constant of the second time constant element (R2C2) after the greatest distance the pulse train of the useful signal is dimensioned.