DE1791016A1 - Circuit arrangement for noise suppression when tuning FM receivers - Google Patents

Description

Circuit arrangement for noise suppression when tuning FM receivers When tuning high-gain receivers - (generally for FM reception) occurs at the transition from one station to the next very annoying strong noise. There are numerous suppression circuits this noise known (Pitsch, textbook of radio reception technology, 3rd and 4th edition, Volume II, Section 404). In general, when the receiver is in the idle state, the low-frequency part is used locked and at. Reception of a transmitter by __ a control voltage unlocked that e.g. obtained by rectifying the intermediate frequency. These 'circuits but have the disadvantage that distortions occur during the switching process. But it is also known '(German patent specification 657 529), the blocking or unblocking in the high frequency part (intermediate frequency part). make, with the unlocking voltage obtained in the previous part of the receiver and the grating of a high or intermediate frequency tube is fed. When blocking or unblocking occur however Distortion caused by detuning, especially in transistor receivers.

The invention is based on the problem of noise suppression to be able to perform in the intermediate frequency part without distortion. This task will according to the invention achieved in that to block the transmission path in the intermediate frequency part a 'field effect transistor placed parallel to an intermediate frequency oscillation circuit serves, which in the absence of control voltage an intermediate frequency oscillation circuit strongly attenuating alternating current without direct current component leads and through the Reception * occurring control voltage applied to the control electrode of the field effect transistor @ is blocked.

Besides avoiding distortion by detuning, join Application of the invention has other advantages. By operating without a direct current component can no DC voltage jumps in the regulation and thus no clicks develop. When using a diode or a bipolar transistor, these could Benefits are not obtained.

A field effect transistor has the particular advantage that the intermediate frequency oscillations are damped symmetrically because both the positive and negative half oscillations of the intermediate frequency voltage cause a current through the field effect transistor. In this way, an additional amplitude modulation of the carrier is avoided. The drawing shows an embodiment of the invention. The intermediate frequency 2F is fed to an oscillating circuit .1. In the following part 2 of the transmission path there are means for IF amplification. An intermediate frequency circuit 3 then follows, which, for example, represents the primary side of the band filter in front of a ratio detector. According to the invention, a field effect transistor 4, whose control electrode receives the bias voltage zero via the resistor 5, is used to block reception for the purpose of noise suppression, so that the field effect transistor carries an alternating current without direct current and thus has a strong attenuating effect on the intermediate frequency voltage at the oscillating circuit 3. In this way, the transmission is significantly weakened. If the tuning of the receiver to a transmitter is set, an intermediate frequency voltage appears on the intermediate frequency circuit 1 and thus also on the circuit 9, which is rectified in the rectifier 6. The direct voltage obtained is screened in a known manner through the filter means 7 and then the direct voltage is amplified in a transistor 8 so that a switching process that is as abrupt as possible occurs. The control voltage occurs at the collector resistor 5 of the transistor 8, which blocks the field effect transistor 4, so that the damping of the oscillating circuit 3 is omitted and the receiver for the playback is unlocked.

Claims (1)

Patent application Circuit arrangement for noise suppression when tuning FM receivers by blocking the transmission path in the intermediate frequency section when there is no reception by means of a control voltage, characterized in that a field effect transistor (4) placed parallel to an intermediate frequency oscillation circuit (3) is used to block the transmission path in the intermediate frequency section ) is used, which in the absence of control voltage, the intermediate frequency oscillation. supply circuit (3) leads strongly attenuating alternating current without direct current component and blocked by the level voltage which occurs during reception and is applied to the control electrode of the field effect transistor (4).