DE1800337C - Circuit arrangement of a regulated and continuously adjustable amplifier - Google Patents

Description

2. Schaltungsano.dnung according to claim 1, that this task is performed using a the characterized in that a self-excitation actuator of the control loop controlling DC converter Feedback path (8) of a 20 size, derived from one of the output size proportionally Output of the branching device (3a) tional change variable, according to the invention thereby gezu a point in front of the actuator (1) of the control solves that the inverted cycle proportional to the output variable is closed (Fig. 5). sel size over a network with one of the setting

3. Circuit arrangement according to claim 1 or 2, the output variable serving, continuously adjustable characterized in that the output voltage 25 reactance from a signal to a first voltage is regulated and continuously adjustable. Output of a branching device is derived,

4. A circuit arrangement according to claim 3, whose second output decreases the output variable marked.; that the continuously adjustable is acceptable.

Reactance part of a changeable span By applying these measures result

voltage divider (F i g. 4). 30 the advantages that in every setting of the initial

5. Circuit arrangement according to one of the previous sizes of the internal resistance of the amplifier output ongoing claims, characterized in that it remains constant and also any downstream the continuously adjustable reactance of a capacitance filter cannot be detuned that the setting process ity is. even with high precision and reliability

6. Circuit arrangement according to claim 5, there can be performed 35 and that without additional effort characterized in that the continuously adjustable components of the variable reactance to the Impe capacitance by means of a glass tube trimmer with threaded holes in the adjacent circuit units is realized. can be fitted.

In a further embodiment of the invention, there is a feedback path that causes self-excitation

a third output of the branching device

closed to a point before the actuator of the control loop. This creates an oscillator that leads to the

The invention relates to a circuit arrangement of the advantages listed above the special Voi-

an amplifier in which the output variable is regulated 45 in part that the influence of the setting of the

and is continuously adjustable and in which the actuator output variable increases even more strongly on the frequency

the DC variable controlling the control loop can be reduced from a value than with known oscillators

alternating variable proportional to the output variable - with adjustable output variable,

is directed. In principle, the regulation can be based on the output

To control amplifiers, 50 is usually referred to as voltage or the output current. For most applications, which is proportional to the output voltage, it is preferable for the voltage to be regulated and continuously adjustable with a fixed reference voltage. and the differential DC voltage to an actuating In this case, the continuously adjustable reactance element is fed. The actuator can, for. B. a stand can be used as part of a changeable diode or a transistor that is in the signal path 55 voltage divider,
and its gain is controlled. When using a capacitance, in particular an i

For setting the output voltage of the glass tube trimmer with setting thread as an adjustable!

controlled amplifier there are several options. Reactance, results in a fine and reliable

One possibility is to set the height of the reference setting of the output variable, which is set with a further

voltage to change vci. If the reference voltage 60 adjustment range can be fitted.

z. ü. by a Zener diode with a parallel connected width the details of the invention are after

iclen voltage dividers made of ohmic resistors are explained in more detail on the basis of the drawing. Tue <

generated, one of the ohmic resistors can be shown in the drawing

be replaced by a potentiometer so that the F i g. 1 and 2 each have an arrangement for voltage

Reference voltage and thus the output voltage 65 division of the output voltage by means of a changer

of the amplifier is continuously adjustable. AC voltage divider,

However, potentiometers give because of their grinding F i g. 3 the block diagram of a regulated um

contacts often cause disturbances. This disadvantage of continuously adjustable amplifier according to the invention,

3 4

Fig. 4 replaces a detailed basic circuit diagram similar to through-connection. Parallel to the output voltage

dcm according to fig. 3, _{voltage Vout of the} amplifier is a network DAR

Fig. 5 shows the basic circuit diagram of a voltage divider acting as an oscillator, consisting of the fixed

trained amplifier according to the invention, Ungsimpedanz Zl and the variable transverse reactance

Fig. 6 shows the circuit diagram of an oscillator 5 Zl. The divided, the output voltage Ua proportio-

placing. Alisführungbeispieles according to the invention nale alternating voltage at the transverse reactance Zl

^untl . . rectified by the rectifier 5. The same-

Fig. 7 the diagram of the function of the output-directed voltage on the charging capacitor 7 is below

voltage of the oscillator according to FIG. 6 as a function of the counter circuit of the reference DC voltage U _H , f

km from setting a glass tube trimmer. to the insurance level 6 and controls this in

With the arrangements according to FIG. 1 and 2 will be their reinforcement. The amplifier thus contains a variant for the continuous setting of output stage 6, the functional units of the actuator! and voltage U _{A of} a regulated amplifier or oscilloscope of the active part 2 according to FIG. 3. I: tors shown. To a transmitter on which a con-F i g. 5 shows the principle diagram of an oscillator

«ΊΤ.ΐη | £. ff ^ ffiSelte SnfinniinO hArrc ^ ht kl mn CrMnnnnge. * e FItACAe- # "le7all <ltrhr ic * ähfllis» H ailfeAKailt U / if » Af> T VCF-

u ·! he with a continuously adjustable series resistance stronger according to FIG. 3 with the difference that the

/ 3 and a fixed transverse resistance Zl connected- branching device 3, called 3a, a third output

Mi The series resistance Zl has a steadily changing resistance, from which a feedback

·· rer reactance the transverse resistance Zl can be four pole 8 in the signal input of the actuator

t: n reactance or an ohmic resistor 20 is fed back.

> o.n. Since at relatively low frequencies, for example after the oscillator has started to oscillate, it arises

1 "OkHz, there are difficulties, on the one hand the actuator 1 in the control loop variable automatically in such a way that

Capacitive resistances low enough, other- that the gain in the feedback path the value

^ .its variable inductive resistances high enough adopts one. The output voltage U _{A of} the oscilloscope

üiiszufuhren must, as in FIG. 2, by means of a 25 lator the continuously adjustable blind

Eiteren transformer between the voltage divider resistance in the network 4 adjustable in the same way

and the load R ₁ the necessary adjustment of the impedance as in the case of the amplifier according to FIG. 3.

(! .inzen can be achieved. FIG. 6 shows an embodiment according to the invention

In Fig. 3 is the basic circuit diagram of a regulated example of a quartz-controlled pilot generator of the

and continuously adjustable amplifier according to the invention 30 frequency 4.287 MHz for the carrier frequency system

shown. The input voltage Ue is via a V 10800.

In principle, this pilot generator is routed to the block whose output voltage U _A corresponds to this active circuit diagram of FIG. 5 built. The transistor 10 part 2 taken from a branching device 3 fulfills the task of the actuator of the kegelschleife men is. E ^: NEN further output of the branching device 35 and at the same time represents the active part of the amplifier device 3 is one of the output voltage U _A. The function of the branching device takes disproportionate AC voltage and takes over a transformer with the in the collector circuit of the CM network 4 with the steady variable dummy transistor 10 lying and fed to the rectifier by means of a capacitance resistor. The matched primary winding 11 and the secondary output voltage of the rectifier 5 are _{supplied to} the actuator 1 via a winding 12, the tertiary winding 13 and the quaternary reference equal voltage U Rtf.

supplied that depending on the difference of the self-excitation of the oscillator is about the

Output voltage of the rectifier 5 and the reference secondary winding 12 causes one terminal of which

DC voltage Un, t the continuous signal with the emitter of the transistor 10 and the others

influenced and to a constant output voltage 45 connection via the frequency-determining oscillation

Among other things is regulated. quartz 24 and the parallel connection of two drawing condenser

By adjusting the continuously adjustable reactive resistors 25 and 26 with the grounded positive pole (♦) of the stand, the relationship between the output voltage (24 V) is connected. output voltage υ _Λ proportional alternating voltage. The dis network is shown on the tertiary winding 13 and the voltage divider, which adjusts with the reference direct voltage Ur ,, and consisting of the ohmßlichen direct voltage, is changed. Due to the series resistance 17 and the continuously adjustable, simultaneously effective control, the effect of transverse reactance 18 is created. The transverse reactance 18 that when the output voltage is reduced is the same as: the adjustable draw capacitor 25 of the network 4 in relation to the output voltage through a glass tube trimmer with single thread Ua proportional alternating voltage 55 is realized. In both cases, the rotatable part of the output voltage U ,. \ Is increased and in the ungc-trimmer with the grounded positive potential (·) is decreased in the wrong case. The internal resistance of the blind. The divided AC voltage at the Quei amplifier output at the branching device 3 reactance 18 is at a voltage doubler circuit remains unchanged. The branching device, which consists of the diodes 20 and 21 and the device 3, can consist of an output transformer of the 60 capacitors 19 and 22 and their output amplifier, in which the first and second DC input voltage is applied to the charging capacitor 22 and the output of the branching device from one parallel resistor 23 each is tapped and the transformer winding bes'.'.- ht, which allows the ent- base of the transistor 10 is fed. At the emitter-speaking adaptation to choose freely and the potential-base path of the transistor is then to be separated from each other reduced tiale. 65 by the voltage drop across the emitter resistor 9.

In Fig. 4 is a detailed schematic diagram of a DC voltage controlling the gain, the

an amplifier similar to that of FIG. 3 shown from the difference in the DC voltage at the charging capacitor

represents. The branching device is here by a capacitor 22 and the reverse voltage Uiui ge

s i t «ed R d

5 6

forms is. During the oscillation, the stand at the anode of a Zener diode, its voltage

Base direct current through the parallel resistor 23 is denoted by Untt. The cathode of the zener diode

correct and in normal operation by the direct current is to the positive pole (+) of the supply voltage, which

the voltage doubler circuit to a value anode via the emitter resistor 9 to the emitter

reduced, that of the necessary steepness of the tran- 5 of the transistor 10 is connected. That way, poses

sistors in normal operation. the Zener voltage of the Zener diode at the same time

The quaternary winding 14 is the output winding of the reference voltage Untf of the control circuit and that of the transformer. It is a matching resistor 15 filtered supply voltage of the transistor 10 and a filter 16 connected downstream, which the upper F i g. 7 shows the diagram of the function of suppressing the ripples of the generated vibration. In the process voltage Ua of the oscillator according to FIG. 6 in the horizontal embodiment, a distortion distance of over 8 Neper ble reactance 18 is achieved with a dependent on the setting of the continuously adjustable low-pass filter. The ohmic reactance is achieved. This value is based only in part on the series resistance 17 a size of 4.7 kii and the effect of the filter 16; because it is essential that the reactance implemented as a glass tube trimmer can be varied by the constant regulation of the transistor 10 and the 15 18 in a capacitance range of 0.8 to 8 pF symmetrical and very small load. Starting from a mean value which the rectifier circuit 19 to 23 already largely avoids the development of the output voltage Ua at / 1 = 8 revolutions of the harmonics. Trimmers allow deviations AUa of the output voltage of a good ± 0.2 Np upstream of the rectifier circuit at 0 or tete ohmic series resistance 17 to achieve an additional ao 14 revolutions. An increase in the Ka · linearizing effect. capacity of the trimmer causes a reduction

The transistor 10 is of the npn conductivity type. the DC voltage on the charging capacitor 22 unc

The positive potential (+) of the supply voltage is thus an increase in the output voltage Ua- in <

fed to the collector via the primary winding 11. A reduction in capacity, on the other hand, is a reduction

The negative potential (-) comes through a series resistance of the output voltage.

1 sheet of drawings

Claims (1)

1 2 is avoided by another variant in which the claims: output voltage of the amplifier at a voltage divider, consisting of two apparent resistors, 1. Circuit arrangement of an amplifier, which is tapped, one of which is designed as a continuously variable variable output variable and continuously adjustable reactance; because it is bar and in which the control element of the control steplessly variable reactances, whether it is a circuit controlling direct current value from one of the inductances or capacitances, have a very high reliability in the general output variable proportional alternating variable. This is directed, characterized, but has the disadvantage that with the voltage setting proportional to the output variable (Ua) also the internal resistance of the alternating variable via a network (4) with an amplifier output and the properties possibly serving to set the output variable , downstream filter change. continuously adjustable reactance from one embodiment of the invention is to specify a circuit arrangement signal at a first output of a branching of an amplifier, in which the output device (3 or 3a) is derived, regulated and continuously adjustable at 15 input values is and the j., .., ".._ :," _ A- ^ ₀ M _-0 Ai ~ α ■■ coonecgtnR « 111 λ Ki9 <-ht «» ili »known switching arrangements · η is removable (Fig. 3). fan manner are avoided.