DE1113716B - Circuit arrangement for devices for receiving frequency and amplitude modulated waves - Google Patents

Description

Circuit arrangement for devices for receiving frequency and amplitude modulated Waves When receiving frequency-modulated waves, the amplification is very high received high-frequency vibrations are required in order for them to carry through effectively Limiter can be freed from the disruptive amplitude modulation.

A very large gain in the high frequency part of the receiving device also provides a very high level of noise that is behind the high frequency rectifier in the absence of a signal carrier there is already an interfering DC voltage, which can become so large that a display tube switched as usual is already full is controlled. On the other hand, the noise in the loudspeaker is and will be audible Perceived as annoying when tuning the device.

The invention is concerned with a circuit arrangement in which this Disadvantages avoided and a very reliable tuning to a modulated in the frequency Transmitter is guaranteed.

Some features of the invention are also advantageously applicable to Switching the receiving device to receive an amplitude-modulated wave in connection with another feature of the invention, which is a considerable extension of the control range of the high-frequency amplifier in the receiving device and therefore greater security when receiving amplitude-modulated waves Tuning even weakly received stations results.

The invention is concerned with the suppression of the effect of the direct voltage, caused by the noise in FM reception, as well as with a simultaneous increase the display sensitivity for FM and AM reception, furthermore with a broadening of the control range for AM reception.

I @ he invention relates to a circuit arrangement for 'devices for receiving frequency and amplitude modulated waves to achieve an automatic low frequency Height control and to suppress the effect of the noise floor voltage on the Tuning display and for steepening the display for FM reception. She is through it characterized in that the negative fed to the grid of the display tube are rectified Received voltage is also fed to the grid of an amplifier tube, which in Series with a capacitor parallel to the input of the low frequency amplifier, a negative feedback is effected by means of a capacitor in this tube, and that in the case of FM reception as the anode voltage for the display tube, the by action of the anode resistance according to the control changing anode voltage of the Tube is used, the grid of this tube having a positive DC voltage is supplied, which is so large that it the rectified negative received voltage compensated to zero as long as no frequency-modulated carrier is received.

According to a further feature of the invention, when receiving an AM sliding delay voltage for the fading control achieved in that the The anode of the tuning indicator tube is connected to a fixed anode voltage source that the positive bias for the grid of the amplifier tube is switched off and that from the anode resistance of the amplifier tube via a voltage divider of the fading control line a positive compensation voltage is supplied.

The idea of the invention is to be described in more detail using an exemplary embodiment to be discribed.

The drawing shows at 1 a known tuning indicator tube, whose Cathode 2 is connected to the common negative line (ground). The anode 3 of the display system is on positive operating voltage. The anode 4 of the associated Amplifier system is via a series resistor 5 and a range switch 6 when receiving amplitude-modulated waves also at a fixed positive operating voltage 7th

When receiving frequency-modulated waves, however, the anode is 4. over the resistor 5, the switch 6 and the resistors 14 and 15 with the positive Operating voltage source connected. The one supplied by the high frequency rectifier Received DC voltage reaches the grid 10 of the amplifier system of the display tube 1 and also via the resistor 11 to the grid 12 of an amplifier tube 9. This amplifier tube 9 is also connected with its anode 8 via the resistors 14 and 15 connected to the positive operating voltage.

If no transmitter is received in the FM range, there is a negative DC voltage certain size on the grids 10 and 12. The amount of this DC voltage is depending on the amplitude of the noise voltage. The resulting DC voltage is usually so large that the display system of the tuning indicator tube is fully controlled will.

According to the invention, however, the grid 12 of the amplifier tube 9 is over the resistor 13 and the switch 23 are supplied with a positive voltage. This positive Compensation voltage is dimensioned so that the DC voltage on the grid 12, against Cathode measured, equals zero, so the tube is fully open. Through the large current, which then flows through the resistors 14 and 15, arises at these a relatively high voltage drop that is sufficient to reduce the anode voltage of the amplifier system to reduce the display tube 1 so far that there is no display in the display system. At the same time, however, the voltage at the anode 8 of the amplifier tube 9 is still the same great that the tube remains fully open.

If the high-frequency section is now tuned to a frequency-modulated transmitter, the DC received voltage becomes negative. As a result, tube 9 is regulated down. The current through the tube 9 is therefore lower and with it the voltage drop across the resistors 14 and 15. As a result, the effective anode voltage on the amplifier system of the display tube 1 also increases . The sensitivity of the display is significantly increased by the fact that the DC reception voltage comes into effect on the one hand at the grid 10 and on the other hand via the tube 9 at the anode 4 of the amplifier system of the display tube.

Another feature of the invention causes the noise to be absent can be heard in the loudspeaker of the receiving device. For this purpose, the anode 8 is the amplifier tube 9 connected to the input of the low frequency amplifier via a capacitor 17, simultaneously via the capacitor 16 with the grid 12 of this tube. Will not be a transmitter received, as described above, the tube 9 is fully open. Then that is internal resistance is very small and is parallel to the low-frequency amplifier input via the capacitor 17. The noise cannot be heard. If a transmitter is received, the amplifier tube becomes largely blocked, and the internal resistance becomes very great. So there is none Cut off the high frequencies more. An effective support for this Measure can be achieved by switching on the capacitor 16.

In the case of AM reception, according to an expedient development of the concept of the invention some of the switching elements that are effective in the FM range to expand the control range the shrinkage control is used.

In the AM range, the anode 4 is the amplifier system of the display tube connected to a fixed positive operating voltage 7 as usual. The condenser 17 is no longer directly at the input of the low frequency amplifier.

With AM reception, the intermediate frequency amplifier receives the signal Via the capacitor 21 to the diode 18 of the amplifier tube 9. The usual working resistance is denoted by 20. The control voltage is fed to the high-frequency amplifier via the resistor 22 fed. Usual delay elements of the control line are not shown.

According to the invention, the working resistor 20 is now applied to the resistors 15 and 19 are supplied with a positive voltage, so that the size of the resistor 20 standing DC voltage is dependent on the voltage drop across resistor 15 and thus dependent on the current through the amplifier tube 9. The grid 12 of this amplifier tube 9 is when switching on the AM range is not via the resistor 13 with the positive Operating voltage connected.

These measures result in a significant increase in the control range achieved, since the use of the control voltage is not, as usual, from a threshold voltage is dependent, but occurs continuously. The advantage is that of weakly incident up to strong incident transmitters, there is always an almost even, reliable tuning is achieved.

Claims (4)

PATENT CLAIMS: 1. Circuit arrangement for devices for receiving frequency- and amphtudenmoduherter waves to achieve an automatic low-frequency height control and to suppress the effect of the background noise voltage on the tuning display as well as to steepen the display in FM reception, characterized in that the grating (10) the display tube (1) fed negative rectified received voltage is also fed to the grid (12) of an amplifier tube (9), which is in series with a capacitor (17) parallel to the input of the low frequency amplifier, by means of a capacitor (16) in this tube Negative feedback is effected, and that in FM reception the anode voltage of the tube (9), which changes due to the action of the anode resistor (14, 15) according to the control, is used as the anode voltage for the display tube (1), the grid (12) of this tube a positive DC voltage is supplied, which is so large that it is the same Directed negative received voltage compensated to zero as long as no frequency-modulated carrier is received. 2. Circuit arrangement according to claim 1, characterized in that when receiving amplitude-modulated vibrations, the anode (4) of the tuning indicator tube (1) is connected to a fixed anode voltage source (7), that the positive bias for the grid (12) of the amplifier tube (9) is switched off and that a positive compensation voltage is supplied to the fading control voltage from the anode resistor (14, 15) of the amplifier tube (9) via a voltage divider (19, 20). 3. Circuit arrangement according to Claim 1 and 2, characterized in that the anode resistance of the amplifier tube is constructed from partial resistors (14 15). 4. Circuit arrangement according to claim 2 and 3, characterized characterized in that the diode (18) for obtaining the delayed fading control voltage with the amplifier system of the amplifier tube in a manner known per se to one Composite tube (9) is combined. Publications considered: Swiss Patent No. 185 299.