DE703728C - Device for wireless reception with automatic fading compensation and manually operated volume control - Google Patents

Description

Device for wireless reception with automatic fading compensation and manually operated volume control. The most common radio receivers often contain so-called fading compensation circuits (fading compensation), - with which the differences in field strength between the individual transmitters and those caused by atrophy phenomena field strength fluctuations caused by a transmitter are compensated for during reception should. On the other hand, each device is provided with a device through which one can regulate the volume manually. As with more modern devices, especially those with fading compensation, the previously common means of variable feedback no longer come into consideration for volume control, takes place. now the volume control either by changing the grid bias of the pre-tubes (high-frequency volume control) or by changing the amount fed to the grating of one of the low-frequency tubes Audio frequency voltage with the help of a potentiometer circuit behind the audion (low frequency Volume control).

The two means mentioned, manual volume control and color compensation, were usually arranged in the known devices in such a way that a special control grid tube was provided for fading compensation (fading compensation tube), the grid circuit of which was controlled by the DC voltage fluctuations occurring in the anode circuit of the audio , and the grid bias of this fading compensation tube has been adjusted at the same time by the manually operated resistor. An embodiment of this known circuit is shown in Fig. I. It contains an excerpt from a receiver circuit and shows only the parts necessary to understand the present invention: i is a high-frequency tube, the input circuit of which is a tuned oscillating circuit a, which is connected either to the antenna or to preceding high-frequency stages. The anode circuit of the tube i is followed by a circuit shown schematically. Amplifier 3 (or a superimposition stage), to these an oscillating circuit 4, which is located in the grid circle of an audio tube 5. The anode circuit - the audio tube 5 contains in the supply line to the cathode, an ohmic resistor 6, to which a smoothing capacitor 7 of large capacitance is connected in parallel. The end of the resistor 6 facing away from the cathode leads to the grounded zero point o of the feed circuit z. B. a potentiometer 8, which is in the power connector of the device. The fading compensation is now carried out by a control grid auxiliary tube 9, the grid of which is connected to the cathode of the audio tube 5 and the cathode of which is connected to a tap zo which is adjustable along a resistor belonging to the voltage potentiometer 8. The grid bias of the fading compensation tube 9 and thus its anode direct current are set by this Abgrili io. The anode of the fading compensation tube 9 is connected to the grid of the tube i, and the anode circuit of the fading compensation tube is closed via the resistor 12 and the part of the potentiometer 8 lying between the points io and ii. The voltage drop occurring at the resistor 12 forms the grid bias for the pre-tubes i, the gain of which is dependent on the grid bias.

Such a circuit has the following disadvantages.

If one assumes that a transmitter with particularly high field strength will initially be z. B. the local station received. In this case, the fading compensation the bias of the tube i shifted far into the negative range, so that the Gain level is decreased. However, this automatic regulation is sufficient for strong stations are not off. As a result, the volume is not too loud is, the tap i o on the potentiometer 8 is moved so far to the right that the Anode current at the auxiliary tube 9 is further increased, so that the bias for the grid of the tube i at the resistor 12 is even more negative. If you ask now the tuning means of the receiver to another transmitter with low field strength one, you will initially have no more reception because the grid of the tube i as a result of the position of the tap i o is still so strongly negatively biased, that the gain of this tube is far too low for the incoming currents.

The circuit described therefore has the error that it has the grid bias of the tube to be controlled, which occurs at the resistor 12, not only on the transmitter field strength depends, but also on the currently existing stationary setting of the manually operated volume control resistor. So it can be a blockage the tube to be controlled i also occur if only the operable resistance has a certain setting, but if otherwise via the fading compensation tube no reception vibrations are effective.

The present invention relates to a device for wireless Reception with automatic fading compensation and manually operated Volume control that eliminates the disadvantages mentioned. The one to be solved The task is to prevent that the grid of the tube to be regulated is already only through a certain setting of the resistance to be operated by hand can be blocked. It is therefore necessary that the manually operated Energy control means is arranged so that it does not directly affect the grid bias of the tube to be controlled acts, but that it is only the gear ratio of the Control element of the loss compensation circuit (e.g. a tube, a potentiometer o. The like.) influenced. An influence on the grid bias of the tube to be regulated should now only be caused by the receiving alternating currents flowing in the receiving part of the device be brought about, which is known per se, with the hand zü operating Energy control means only influences the degree of this fading compensation effect, without being able to do the grid bias in the absence of receiving currents to influence the tube to be controlled.

Expressed in formulas, the influencing of the grid prestress is now supposed to be of the tube to be regulated proceed in such a way that Vg = k # ew. Thereby means V "is the bias voltage on the tube to be controlled, k is a constant and e" is the amplitude of the received currents. By the control means to be operated by hand, according to the Invention of these sizes only the size k can be changed, so that the voltage drop Vg, which occurs at resistor 12, also becomes o for the case e "= o. At The previous arrangement shown in Fig. i had the equation Vg = (eW + eg) #k. In this case, e means the DC voltage across the resistor 12 which is applied to the Position of the rheostat between the taps i o and o in the grid circle of the Fading compensation tube is due. This equation shows that even with Disappearance of e "the voltage drop at V, cannot become o, if eg, that is, the externally adjustable control voltage still has a certain value.

Accordingly, the circuit of the device according to the invention consists in that i. a special amplifying fading compensation tube with a control grid is provided, the input circuit of which 2. is fed with the pure, not yet rectified received voltage which, after amplification and subsequent rectification, is used as control voltage in one of the high-frequency tubes, and 3. the control grid circuit of the fading compensation tube has vain tolerable resistance, which influences the gain of the fading compensation tube for the purpose of volume control. The anode circuit of the fading compensation tube is expediently ohmically closed directly via a resistor. The subsequent rectifier circuit contains a contact or oxide rectifier, the output of which supplies the grid bias voltage for the receiving tube to be influenced.

Fig.2 shows the basic circuit according to the invention. The main differences between the circuit according to Fig. 2 and that according to Fig. I consist in the fact that the grid circle of the fading compensation tube 9 is not of influenced by a rectified voltage to be taken from an audio circuit but from the pure, non-rectified AC received voltage itself. This alternating voltage is amplified by the tube 9, the gain achieved depends on the grid bias of the tube 9 between the adjustable Tap i o the cathode of the tube 9 and the point o is located. The rectification of the AC voltage used to compensate for fading occurs only in the anode circuit of the Tube 9. This is closed by a resistor 13, at the ends of which below Interposition of a capacitor 14 or 15, a rectifier circuit is connected which essentially consists of a rectifier 16 and a resistor 17.- This resistor 17, to which a large smoothing capacitor 18 is connected in parallel is, lies in the grid circle of the tube to be controlled i. The voltage drop that occurs across it regulates the grid tension on this tube. If with this circuit now reception takes place, the received currents act through the fading compensation tube 9 and the rectifier 16 or 17 on the gain of the tube to be controlled i back. The degree of this reaction depends on the one to be operated by hand Tap ok changeable. Do not receive alternating currents in the receiving part of the Circuit, the control voltage is immediately applied to the grid of the tube i, i. H. those at the resistance 17 occurring voltage, to o, d. H. if there is no reception or if the reception energy is low the device is automatically set to the highest sensitivity, regardless of the respective position of the tap i o.

Claims (2)

PATENT CLAIMS: i. Device for wireless reception with automatic Fading compensation (fading compensation) and manually operated volume control, thereby characterized in that i. the device has a special amplifying fading compensation tube with control grid and that 2. the input circuit of the fading tube with the pure, 'not yet rectified received voltage is fed and the through the Fading size amplified and then rectified voltage as control voltage for the fading compensation is used on one of the high-frequency tubes and that 3. in the grid circle of the fading tube, its grid voltage and thus its gain influencing volume control resistor is switched on. 2. Device according to claim i, characterized in that the anode circuit of the fading compensation tube is ohmic is closed and the subsequent rectifier circuit is a contact or oxide rectifier contains.