CS231799B1 - Connection for silencing of receivers reception - Google Patents

Description

The invention relates to a circuitry for silencing the reception of radio receivers at all ranges and selected functional inputs as well as switching presets, which is effected by short-circuiting the signal path before entering the low-frequency amplifier. This closing is controlled by an active control circuit with a defined charging time constant. The circuit is controlled by a pulse generated by the selection of a range or arbitrary input of the receiver as well as a preselection and is also active at a time when the previous pulse has already blocked the signal path.

In radio receivers with electronic range and preset switching, a transient event occurs in the switching stages of the low-frequency inputs and in the tuning voltage circuits, which results in an unpleasant sound in the loudspeaker systems of the radio receiver. In the case of range switching, it is the charging of coupling capacitors in the switching stages of the low-frequency inputs. In tuning circuits, in turn, set-up processes when switching to spit levels of tuning voltages of preset stations. Elimination of these disturbing noises is usually done in the highest quality receivers with high output power, where they can be reproduced very intensively. The current receivers have a suppression of these phenomena solved in different ways. As for the transient phenomenon resulting from switching preferences, i. j. in case the receiver did not have electronic range switching, solutions with its suppression in the IF amplifier were preferred. One of the possible solutions is contained in MS. author's certificate no. 185 705. When introducing range electronic switching, where the inputs of the low-frequency amplifier are simultaneously switched, it is necessary to place the silencing circuit after the switching stages of the low-frequency inputs. In the stereo low-frequency parts of radio receivers, the silencing must be carried out simultaneously in both channels. It is controlled from a common control circuit.

The wiring according to the invention solves the technical problem of suppressing said interfering phenomena by shortening the signal path for a short defined time before entering the radio frequency amplifier. At the same time, by controlling the short-circuit element, it ensures undistorted transmission of the low-frequency signal even at its higher amplitudes.

Compared to the prior art, the circuit according to the invention is advantageous in that the active control circuit with a defined charging time constant is controllable by each pulse of the pulse block generated even during the silencing time, which is not possible, for example, according to the invention.

These drawbacks are eliminated by wiring to silence the reception of radio receivers at all ranges, functional inputs and presets when switching them, before entering their own low-frequency amplifier, configured with a power supply, pulse block, control circuit and signal source, which is based on: a grounded source of voltage at one end is connected through a second resistor to the collector of the first transistor, one terminal of the second capacitor and the base of the second transistor and through a third resistor to the collector of the second transistor and the emitter of the third transistor the second capacitor terminal and one pulse block terminal and one first resistor terminal, while the second pulse block terminal is connected via the first capacitor to the base of the first transistor and the second terminal of the first resistor, while the one grounded fourth resistor is connected to the base of a third transistor whose collector via point A is connected to the base of a fourth transistor whose emitter is connected to ground and collector to one outlet of the third and fourth capacitor as well as through the fifth resistor to ground, connected to ground and the second terminal of the fourth capacitor to terminal B.

The circuitry of the invention is novel by placing a simple switching transistor for silencing the signal in the low frequency signal path and controlling it via an additional serial transistor switch. The benefit of such a circuit is, inter alia, to ensure low distortion of the low frequency signal even at its high levels.

The attached figure shows the described connection to silence the reception of radio receivers.

One end grounded power supply as shown in the figure is connected via a second resistor 6 to the collector of the first transistor 5, the base of the second transistor 8 and through the second capacitor 7 to ground. In addition, the voltage source 1 is connected via a third resistor 9 to the collector of the second transistor 8. Its emitter and the emitter of the first transistor 5 are grounded. The grounded impulse block 2 is connected via a first capacitor 3 to the base of the first transistor 5 and through a first resistor 4 to ground. The emitter of the third transistor 11 is connected to the collector of the second transistor 8, the base of which is connected to ground through the fourth resistor 12. The collector of the third transistor 11 is connected via point A to the base of the fourth transistor 14, whose emitter is grounded and the collector is connected between the third and fourth capacitors 16 and 17 and through the fifth resistor 15 to ground. The ground source 13 is coupled to terminal B via the third and fourth capacitors 16 and 17.

In the wiring as shown, the room mode is t. j. a mode for transmitting a low frequency signal from the signal source 13 via the third and fourth capacitors 16 and 17 to terminal B, the fourth transistor 14 such that the transistor is closed. It is closed by opening the third transistor 11, which is controlled by the open second transistor 8 and the closed transistor 5. In the illustrated circuit diagram according to the invention, when the range, function input or presets from pulse block 2 is arbitrarily switched, a positive voltage pulse is applied. a first base capacitor 3 of the first transistor 5 having a resting operating point such that it is closed. With a positive pulse, the first transistor 5 opens and discharges the second capacitor 7. Thus, the base of the second transistor 8 is grounded, resulting in its closing.

The voltage at the collector of the second transistor 8 thus steps and closes the third transistor 11, thus opening the fourth transistor 14 and grounding the signal path between the third and fourth capacitors 16 and 17 to ground. The otlm of the signal by shorting through the fourth transistor 14 to ground is given by the dividing ratio of the internal resistance of the signal source 13 and the resistance of the open fourth transistor 14. The shorting of the signal path is short term and determined by the charging rate of the second capacitor 7 through the second resistor 6. The charging time constant given by the second resistor 6 and the second capacitor 7 is selected in the range of 0.3 to 1 sec. During this time, the fourth transistor 14 will be open and will short the signal path of the low frequency signal and automatically silence the program received by the receiver.

The unidirectional circuit of the fourth transistor 14 closes via the fifth resistor 15 to ground. In point A, in the case of a stereo tuner or a low-frequency part of a radio receiver, it is possible to connect the base of another controlled transistor shorting the signal path of the second low-frequency channel in the manner described for the fourth transistor 14. Between the output of the control circuit 10, t. j. point C and the base of the fourth transistor 14 is connected as described by the third transistor 11, which moves the trimming boundary of the transmitted low frequency signal from the signal source 13 through the third and fourth capacitors 16 and 17 to terminal B by the fourth transistor 14 to such a level. so that even at the highest levels of the transmitted signal, its distortion does not exceed the standard specified. From terminal B, the low-frequency signal is passed to the low-frequency stages of the radio receiver for further processing.

The invention may also be used in other fields, for example in television technology, where, in the electronic switching of presets, a short-term silencing of the sound at the entrance to the low-frequency amplifier can be introduced as described above.

Claims (1)

Wiring to silence the reception of radio receivers on all ranges, functional inputs and presets at light switching, before entering its own low-frequency amplifier, in configuration with the power supply, pulse block, control circuit and signal source, characterized in that the power supply (1) on one end grounded is connected through the second resistor (6) to the collector of the first transistor (5), one outlet of the second capacitor (7) and the base of the second transistor (8) and through the third resistor (9) to the collector of the second transistor (8) and emitter of the third a transistor (11), while the emitters of the first and second transistors (5) and (8) are grounded as is the second terminal of the second capacitor of the invention (7) and one terminal of the pulse block (2) and one terminal of the first resistor (4); while the second terminal of the pulse block (2) is connected via the first capacitor (3) to the base of the first transistor (5) and the second terminal of the first resistor (4), while one in the grounded fourth resistor (12) is connected to the base of the third transistor (11), the collector of which via point (A) is connected to the base of the fourth transistor (14), whose emitter is connected to ground and the collector to one terminal of the third and fourth capacitor 16) and (17) as well as through the fifth resistor (15) to ground, while the second terminal of the third capacitor (16) is connected to ground through a signal source (13) and the second terminal of the fourth capacitor (17) to terminal (B).