DE1047844B - Low frequency amplifier with dynamic control, especially with dynamic expansion - Google Patents

Description

Low frequency amplifier with dynamic control, especially with dynamic expansion The invention is concerned with the object in a low frequency amplifier known Execution to enable a dynamic expansion, which in addition to the advantage of a good effect requires particularly little effort and also while maintaining it the given, optimal circuit dimensioning of the low-frequency amplifier can be designed as an additional circuit unit.

In the case of radio broadcasts, it is well known that it is not possible to reduce the dynamics especially of orchestral performances in full, otherwise a poor signal-to-noise ratio for pianissimo passages or a for fortissimo passages Overdriving the modulator stage of the transmitter would be the result. So is the transmitter side a dynamic compression required, which in the best case with AM transmission a Dynamics of less than 10 db, with VHF transmission between 10 and 20 db can exist between fortissimo and pianissimo. The performance then loses significant in liveliness and is falsified to a great extent.

With modern records, a higher dynamic range can be obtained than with radio transmission, however, there is also one with modern records considerable dynamic pressure is unavoidable.

A number of circuits are known which allow the restricted dynamics on the playback side, i.e. in the low-frequency amplifier of the Receiver or the playback amplifier to expand again to a certain extent or to rectify.

Except for a not very high quality arrangement that comes with a in front of the loudspeaker arranged power-dependent bridge circuit made of carbon fiber and tungsten filament light bulbs work, all known arrangements are very complex and not easy to use. Therefore, these circuits have hitherto been used only in special amplifiers, but not in radio receivers and playback amplifiers for home use.

The basic principle of these circuits is generally that of the low frequency amplifier is equipped with an amplifier tube which has a control characteristic and which is downregulated in the basic state and therefore with reduced gain is working.

With the help of a second separate Niederfrequenzver amplifier and a rectifier, a control voltage dependent on the volume is generated, which increases with increasing volume in a positive direction. This control voltage is fed to the control tube of the playback low-frequency amplifier and effected a gain that increases with the volume, which increases the dynamics of the Performance is expanded or equalized.

Because when using this principle, on the one hand, the gain control takes place uniformly for all frequencies of the transmission range and on the other hand transmission of the low frequencies cannot be dispensed with in the case of the low time constant that is desired for the operation of the regulation the DC voltage pulses from the anode of the control tube caused by the control process transmitted to the subsequent amplifier, which the mode of operation of the arrangement disturb and cause distortion.

A push-pull circuit with two control tubes was recommended as a remedy. in which the DC impulses of the regulating tubes compensate each other, so there, ß none DC voltage pulses occur in the output and the control time constant is reduced can be. The disadvantages of the latter arrangement are as follows: 1. The positive control voltage for the control tubes must be limited.

2. Adjusting the gain of the control voltage amplifier the mean volume level of the signal, which is usually generated by a separate Controller is made, requires a high level of operating skill.

3. The control of a provided for ease of use Display tube for dynamics display requires further effort. Of the The total expense is so considerable that application to home appliances is practically impossible comes into question because it is not in a healthy relationship to the usefulness.

5. The classification of the circuit in the low frequency amplifier can not take place in the form of an additional circuit unit, but the: \? i-eder frequency amplifier together with the dynamic control arrangement forms a special amplifier.

There are also circuits for dynamic control in which the dynamic range is influenced indirectly by changing the negative feedback of the amplifier and a push-pull control arrangement is dispensed with. A controllable impedance tube is inserted as an amplifier into the negative feedback channel leading from the output to the input of the low-frequency amplifier. When the impedance tube is downregulated, the negative feedback is reduced and thus the gain of the low-frequency amplifier is increased. If the control voltage is taken from the low-frequency signal voltage, a dynamic control results in a known manner. These known circuits work independently of frequency. They also have the disadvantage that if the control time constant is small, the DC voltage pulses of low repetition frequency occurring at the anode of the impedance tube can reach the input of the low-frequency amplifier. A very long time constant must therefore be allowed for the upward regulation in order to avoid disturbances. In addition, the disadvantages listed in the previous paragraph under 2, 3, 4-and 5 also apply to this circuit.

The circuit according to the invention comes with avoidance of the above Disadvantages without a push-pull control arrangement and is also particularly suitable for execution as a separate circuit unit, which corresponds to an existing low frequency = four more can be added without substantial change of the same. the a more detailed explanation is given on the basis of Fig. 1.

In a low frequency amplifier with the tubes 2. 3, in which to achieve a preferential; Frequency-dependent negative feedback from the output to the input of the amplifier a corresponding voltage divider 5, 6, 7, 8, 9, 10, 11 is connected, whose Ouerharz 5 in the cathode line of the first tube 2 or at the foot of the volume control 1 on the input side, the real Proportion of the voltage divider series resistance or part of it, 6, through the dynamic internal resistance of an impedance tube provided for dynamic control 12 occupied. The circuit is such that the cathode of the impedance tube 12 is across the transverse resistor 5 of the negative feedback voltage divider is connected to ground and the from The negative feedback voltage derived from the output of the '' hardener '' is fed to its anode will. The impedance tube is thus practically controlled backwards. As essential The advantage of this measure results. that the at the anode of the impedance tube at the regulation occurring high DC voltage pulses with low repetition frequency are not to the input, but to the output of the amplifier, where they are, because of the low load resistance (loudspeaker) cause practically no interference can.

It is also advantageous that the dynamic control is automatically physiological is approximately correct if the negative feedback of the low frequency amplification is frequency-dependent dimensioned with a decreasing effect 8, 10 according to high and low tone frequencies will. When the dynamic range is expanded, the middle one is then preferably increased Sound frequencies in the fortress passages and a preferred weakening of the middle ones Sound frequencies in the piano passages. If the dynamic range is narrowed, the result is a corresponding The polarity of the control voltage is also a physiologically correct regulation.

In a further development of the invention, the impedance tube 12 receives itself a negative voltage feedback in order to reduce the dynamic internal resistance. in the In the practical case, the part of the series resistance to be replaced by the internal resistance has 6 of the negative feedback voltage divider has a fairly low value (e.g. 1 kOhm). With the additional negative voltage feedback of the impedance tube, such a value even with a low anode current (e.g. 1 mA) good thanks to the dynamic internal resistance will be realized. The mentioned negative voltage feedback of the impedance tube is advantageous 12 carried out in such a way that a capacitor 14 is connected from the anode to the grid will. By dimensioning this capacitor (e.g. 0.015 [, F) and the grid leakage resistance 15 of the impedance tube (z. B. 0.5 MOhm), one can also achieve that the intrinsic negative feedback the impedance tube is lower at low frequencies, its effective dynamic internal resistance so it gets bigger. This, however, eliminates the negative feedback of the low-frequency amplifier. reduced at low frequencies, which on the one hand the usually desired frequency dependence and on the other hand keeping away the by regulating the impedance tube induced DC voltage pulses from the amplifier input despite the intrinsic negative feedback ensures.

According to the invention, the one provided in the negative feedback branch is also used Impedance tube designed as an Alizeigeröhre (magic eye) to be at the same time with the Dynamic control to achieve a dynamic display.

Another subject matter of the invention when using dynamic expansion lies in the fact that the taken from the output of the low frequency amplifier and your Control voltage rectifier 17 low-frequency voltage supplied is dimensioned in such a way that that on the one hand, if the volume is set to a very low level (e.g. 1 mW) there is still none Dynamics expansion takes place and that on the other hand that between the grid and the Cathode of the impedance tube occurring low-frequency voltage, which with increasing The set volume increases sharply, only then does the output limit of the impedance tube rise exceed; if this is already blocked by the control voltage, which is also high is. The process of expanding the dynamic range is therefore based on this dimensioning limits the range of medium volume and distortions due to clipping the impedance tube are avoided.

It should be mentioned in this context that in the inventive Circuit also decreases the control voltage from the output of the regulated amplifier is possible with dynamic expansion because it is usually with positive control Occurring feedback of the control process due to the reduction of the negative feedback of the amplifier also decreasing control slope, is approximately compensated.

According to the invention, the dynamics control arrangement is switched off in such a way that by a preferably actuated with a push button counter 22 instead of the dynamic internal resistance of the impedance tube 12 without the Dynamic control arrangement in the longitudinal branch of the Ge@genkopplungs.kanals existing, the same large fixed resistor 6 is turned on again. This has the advantage that even when the dynamic control is switched off in connection with a very large at the same time set volume no distortion due to overloading of the impedance tube can take effect.

It is also useful to switch off the dynamic control at the same time to short-circuit the dynamic control voltage by means of a second switch 23 in order to to suppress the dynamics display at the same time. This type of switch-off has besides the analogous effect has the advantage that no switching click is audible and yet an inertia-free switchover takes place.

Another subject of the invention is then of particular interest when the dynamic control circuit is applied and exists in a radio receiver in that the impedance tube 12 designed as a display tube when switched off Dynamic control is used as a tuning indicator tube (Fig. 2). To this end when the dynamic control is switched off with a further switch 24, the grid is opened the display tube is separated from the dynamic control voltage and to the fading control voltage of the recipient. When the dynamic control is switched on, the switch causes 24, that the dynamics are automatically displayed again. It is also possible, to superimpose both control voltages, so that in addition to the dynamic control at the same time a Dynamic display and a tuning display are provided, but such an arrangement provides results that are not always useful.

Fig. 1 shows the circuit diagram of the arrangement according to the invention for the Case that the impedance tube 12 is only used for dynamic control and dynamic display will. The transverse resistance 5 of the negative feedback voltage divider is for example at the foot of the volume control 1.

Fig.2 shows the deviation from Fig. 1, in which the impedance tube 12 is also used to display the tuning when the dynamic control is switched off. Of the The transverse resistance 5 of the negative feedback voltage divider is here, for example the cathode lead of the first tube 2 of the amplifier.

In both figures, those identified further and not yet have mentioned switching parts have the following function: output transformer 4, load resistance the impedance tube 13., separating capacitor 16, regulating voltage filter chain 19, 20, diode working resistance 18, coupling capacitor 21.

In both figures, the one below includes the dashed cross line Drawn circuit part each the complete dynamic control circuit, which as separate circuit unit can be performed. One recognizes that from the existing Low-frequency amplifiers only have to lead out a few prevention lines.

Claims (8)

PATENT CLAIMS: 1. Low-frequency amplifier with dynamic control, preferably with dynamic expansion, with a separate control voltage rectifier (17) and with an impedance tube (12) influenced by the dynamic control voltage, which is inserted in the voltage divider connected to achieve negative feedback from the output to the input of the amplifier and at which the transverse resistance (5) of the negative feedback voltage divider is in the cathode line of the first tube (2) or in the base of the input-side volume control (1) of the amplifier, characterized in that the dynamic internal resistance of the impedance tube (12) instead of the real component of the voltage divider Series resistor (6, 7) or part of it (6) is switched into the negative feedback branch in such a way that the cathode of the impedance tube (12) is connected to ground via the cross resistor (5) of the negative feedback voltage divider and the negative feedback circuit derived from the output of the amplifier is connected to its anode input is supplied. 2. Low frequency amplifier according to claim 1, characterized in that that the dynamic internal resistance of the impedance tube arranged in the negative feedback branch (12) in the unregulated state by means of a correspondingly dimensioned separate voltage negative feedback this tube usually has the low value without the dynamic control arrangement existing tension parts @ r-series resistance is adjusted. 3. Low frequency amplifier according to claim 2, characterized in that the separate voltage negative feedback the impedance tube by a connected between the grid and anode, accordingly sized capacitor (14) is dimensioned as a function of frequency. 4. Low frequency amplifier according to claim 1, characterized in that the counter-coupling branch provided in the adjustable impedance tube (12) is designed as a display tube and in addition to the dynamic control the dynamics display takes over. 5. --l \ 'iedei-frequei: amplifier according to claim 1 with dynamic expansion, characterized in that the output of the amplifier removed and the control voltage rectifier (17) fed low-frequency voltage is dimensioned so high that on the one hand with a very low volume set no dynamic expansion has yet taken place and that, on the other hand, that between the grid and the cathode of the impedance tube (12) lying low-frequency alternating voltage, the increases sharply with increasing set volume, only then does the control limit exceeds the impedance tube (12) when this is caused by the dynamic control voltage, which is also high is already blocked after dynamic expansion, so that distortions through Overdriving the impedance tube can be avoided. 6. Low frequency amplifier after Claim 1, characterized in that for the purpose of switching off the dynamic control by a switch (22), preferably operated with a push button, in place the dynamic internal resistance of the impedance tube is an equally large fixed resistance (6) is switched on in the series branch of the negative feedback channel of the amplifier, so that even when the control is switched off and the volume is set high no distortion by overdriving the impedance tube can take effect. 7. Low frequency amplifier according to claim -1 and 6, characterized in that at the same time as switching off the dynamic control with a second Switch (23) also shorts the control voltage to the dynamic display also to prevent. 8. Low frequency amplifier according to claim 4 and 6, the is used in a radio receiver, characterized in that at the same time with the deactivation of the dynamic control the grid of the impedance tube with one another switch (24) placed on the automatic fading control voltage of the receiver is so that the impedance tube (12) then works as a tuning indicator tube.