DE1201426B - Device for tuning a stage which can be tuned continuously over a wide frequency range - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

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GERMAN WTV ^ PATENT OFFICE

Int. α .:

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EDITORIAL

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German KL: 21 a4- 29/01

Number: 1201426.

File number: N13832IX d / 21 a4

Filing date: June 29, 1957

Opening day: September 23, 1965

The invention relates to a device for tuning a continuously in a wide Frequency range tunable stage by means of a discriminator that automatically tracks adjusting motor controlled according to the frequency of a pilot signal, the pilot signal the input circuit of the formed by a series connection of a resistor and a reactance Discriminator is supplied and the discriminator output voltage controls the adjusting motor, the the resistance changes continuously until the voltage equals the partial impedances the series connection, the motor is stopped.

The aim of the invention is to provide a simple, operationally reliable and particularly favorable design to create such a tuning device.

There are already facilities for automatic sharpening of a receiver with two separate ones Known control voltage generators, one of which is used in a large frequency range Coarse control works, while the other works over such a small frequency range with a larger one Control steepness for fine control works that eliminates the inaccuracy remaining in the coarse control will. Furthermore, a device for the automatic tuning of a transmitter circuit is known at which uses a motor to adjust an impedance of a series circuit consisting of two impedances will.

Here the load adjustment, i.e. H. the power transmission, unfavorable, because just im Resonance case the impedance is particularly unfavorable because it is then very low.

In the case of manually adjustable capacitance measuring bridges, it is known to adjust the capacitor in stages and continuously adjust the resistance, but this capacitance measurement is essentially independent of frequency, because here the voltages on a resistor and on a capacitor cannot be compared with one another, but only with the tensions of another of the same kind Connection of a resistor and a capacitor.

The new tuning device is characterized in that the shaft driven by the motor, with which the resistance is continuously changed, is also coupled to the adjustment means of the reactance and, by rotating the shaft, the reactance in successive frequency ranges and the resistance in the device for tuning a
continuously in a wide frequency range
tunable level

Applicant:

N. V. Philips' Gloeilampenf abrieken,

Eindhoven (Netherlands)

Representative:

Dr. rer. nat. P. Roßbach, patent attorney,

Hamburg 1, Mönckebergstr. 7th

Named as inventor:
Gaston Salmet, Courbevoie, Seine;
Marcel Soufflet, a'Anthony,
Seine (France)

Claimed priority:

France of 4 July 1956 (718 012),

of September 28, 1956 (57 721)

Frequency range is continuously changed between two successive stages.

A particular advantage of the new tuning device is that it covers the entire tuning range the device an equal sensitivity is achieved. Although the control range is essential is greater than in the known devices, the sensitivity of the frequency discriminator remains obtain.

By applying the measures according to the invention, with a minimum number of switching elements realizes a tuning device that is directionally sensitive, among other things, and thus enables quick adjustment.

In a preferred embodiment of the device according to the invention, this consists in stages adjustable reactance of the discriminator output circuit from one of the number of wavebands to be tuned Level corresponding number of fixed capacitors that can be switched on by means of a switch adjustable value is such that the

509 688/164

3 4

other capacitors due to the adjustable usable angle change, d. H. if the

areas of the discriminator overlap somewhat. Switching arm 19 with the tooth of the Maltese cross in

The invention and its advantages are engaged in hand and the secondary shaft 20 for setting

the figures explained in more detail, of which development on a next control range in motion

1 schematically shows an embodiment of a 5 offset.

Voting device according to the invention represents, The operation of the circuit is as follows:

F i g. 2 a detailed diagram of a preferably in the When the contact 10 of the polarized relay 9 the

Device according to FIG. 1 used frequency is in the position shown in the figure

discriminator represents and the device is in the rest position. As soon as now

F i g. 3 a high-frequency pilot effect under certain conditions, which is advantageous for the input terminals 5, 5 ' Variation of one in the device according to FIG. 1 signal is supplied, at the frequency of which the values represents used control device. of the two impe-

In Fig. 1, 1 denotes a stepwise variable impedances are not equal, then the occurring at Konkapazitive reactance with a switch 2 and sev- capacitor C ₃ and the resistor 3.4 reren variable capacitors C _1, C _2, ... C. ₆ Different at 15 voltages. The voltage er the capacitive reactance 1 appearing at the output of the position of the switch 2 shown in FIG. 1 has a value which corresponds to the polarized relay 9, so that the motor 16 corresponds to _{capacitor C 5.} The capacitor C ₅ begins to rotate with such a sense of rotation, series with a controllable resistor 3 and a fixed resistor 4 that the mentioned voltage difference decreases and thus forms the input 20 The primary shaft 17 is driven, the secondary circuit of a discriminator Input terminals 5.5 '. Kundärwelle 20 remains at rest for the time being. The Dre-

The switching arm of the switch 2 and the setting of the primary shaft 17 cause a change in the mechanism of the controllable resistor 3 are resistor 3, ie an increase or decrease mechanically with the wave ranges causing its value depending on the higher voltage or the frequencies causing tuning - 25 capacitor C ₅ or the resistor 3, 4 occurs, th of the not shown in the figure to be matched when the adjustment mechanism of the resistor 3 menden stage is coupled. Each position of the switch, the end of its usable angle change, corresponds to a certain wave range. is enough, the cam 18 closes the contacts 22,

The discriminator input circuit is connected to the input 22 ', which has the consequence that the motor 16 remains energized output terminals 6, 7 of a demodulator circuit 8 30, since the contact 10 is connected in its occupied position, from which an advantageous embodiment is held by excitation the form of this situation in Fig. 2 is explained in more detail. A polarized relay 9 is connected to the corresponding auxiliary winding 23 or 24 of the pola output of the modulator circuit 8 by means of the relay 9 at the resistor 25 or the relay 9 with a contact 10, the 26 occurring voltage. The switching arm 19 holds depending on the main windings 11 or 35, the Maltese cross 21 no longer locked, but -12 of the relay 9 supplied demodulator output which comes with the tooth of the Maltese cross 21 voltages either the illustrated rest position engages, so that the Secondary shaft 20 in motion, or connected to the contact 13 or 14 and causes the switching arm to be the one and thus, by energizing one or the other switch 2, causes a part of the winding 15 of the motor 16 to be removed from the next wave range, 40 speaking position. In this case, the motor leaves the tooth of the Maltese cross 21 in one direction of rotation or the switching arm 19, and the other rotates. The motor 16 preferably drives locking automatically occurring. The intermediary of an adjusting mechanism of the resistor 3, not shown in the figure, begins to change its usable angle to a primary shaft 17 on the set transmission system, which, in addition to the adjustment mechanism 45 already mentioned, and the cam 18 allows the conchanism of the resistor 3, with a cam 18 clocks 22 and 22 'back into the position shown and a switching arm 19 is provided. return so that the auxiliary winding 23, 24 of the relay 9

The switching arm 19 acts with a Se- are no longer energized. Only the demodulator The output voltages taken from the Maltese cross 21 attached to the secondary shaft 20 are at the relay 9 together, in such a way that at continuous 50 effective. This cycle repeats itself until the am Licher rotation of the primary shaft 17, the secondary switched-on capacitor of the controllable reac wave 20 and the switching arm of dance 1 coupled to it on the one hand and on the resistor 3, 4 on the other switch 2 is driven in stages, the voltages occurring on the other hand are the same. The ErMaltese Cross 21 between the switching stages auto-excitation of the two main windings 11, 12 of the polamatic is locked by the switching arm 19. 55 ringed relay 9 is then the same, and the contact

The control resistor 3 is preferably as a rotary 10 of the relay 9 assumes the rest position shown,

formed potentiometer without a stop. the auxiliary windings 23,24 of the mentioned

Between two switching stages of the Maltese cross 21 relays are de-energized. The motor supply source U

If the rheostat 3 turns over a certain current drawn it then runs through the winding

fixed angle (e.g. about 360 °). This angle, the 60 28 of a motor locking device 28 ', so that the mo-

in the following always as the usable angular gate 16 or the primary shaft 17 coupled to it

change is referred to, corresponds to the rotation is blocked in the then assumed position,

angle of the primary shaft 17 at which the Maltese- This blocking can only take place if the

cross 21 is locked. Secondary shaft 20 is locked or, with others

The cam 18 forms part of a rule 65 when the contacts 22, 22 'are open and

direction with contacts 22, 22 ', which from the cam thus the adjustment mechanism of the resistor 3

18 are closed when the adjustment bar is within the usable angle change of the

mechanism of resistance 3 is outside of its out-of-resistance. While the engine is running,

5 6

the blocking by a capacitor 1 'flowing in the reverse direction via a grain resistor 3 and the voltage on the compensation winding are the same or, in other words, current is prevented. _I _{= % wobd R based on the value d R μ}

Under certain circumstances it is desirable to use ω CR ^b *
that when switching to the different capacitors 5 resistor 3 is equal to the value of the controllable

Sators C ₁ , C ₂ ... C _β in the discriminator input circuit capacitor 1 and ω is equal to the angular frequency

there is some overlap of the successive ones of the pilot signal.

Areas of the discriminator occurs. The described demodulator circuit offers the ser overlap but must be smaller than the advantage that the high frequency voltages fully rectified the overlap of the wave ranges of the tuned and at the same time a tensioning circle with which the tuning elements of the voltage doubling is effected, so that an essential discriminator are coupled. A partial decrease in errors caused by distortion of the Pilotsi overlap of the successive areas and a doubling causes the sensitivity to be brought about when Freung occurs,
sequences of the pilot signal in which the resistance is constant, so that switching back and forth in the Malte range is constant, so that a very fast Regeserkreuzes 21 is prevented. development is possible without instabilities. (If the tuning assigned to the various levels is over a control range in which the ranges are not all the same, then an adaptation between the maximum frequency and the resolution can be achieved by making the minimum frequency equal to 10 when passing through the successive ranges of the resistance 4 including control time in practice equal to about 2 seconds), by a suitably chosen for each of the ranges for each of the consecutive 23 17 is nominally 120 °. This can be bridged by the resistance selected in rich appropriately F i g. 3 of the switch controlled by the cam 18, which is realized with the aid of a control device controlled by the Maltese cross 21, in a manner similar to that shown in FIG. of 65 ° provided, and the contacts 22, 22 'of Here it should be noted that the action of the cam 30 F i g. 1 are replaced by two separate contacts 29, 29 '18 with respect to the change in angle of the resistor and 30, 30', which are connected in parallel. Standes 3 can be adjusted by adjusting the position of the contacts 29 and 30 are each adjusted by 55 ° with respect to the cam 18 on the primary shaft 17, so the contacts 29 'and 30' are shifted,
that a precise setting of the different loading The mode of action is as follows: In the rest position, rich can be achieved. 35 that is, if the cam 18 has a single contact. In FIG. 2, those corresponding to FIG. 1 are touched, the circles for the auxiliary winding 23, 24 elements are indicated with the same reference numerals. The relay 9 is open. As soon as the cam comes into contact with the input terminals 6, 7 of the demodulator switching contacts 29 '30', voltages supplied to 8 are closed as in these circles. The cam reaches the figure. 1 taken from the discriminator input circuit, 40 contacts 29, 30 before the contacts 29 ', 30' are released from the series connection of a variable resistor, and these circuits remain closed, and contains a capacitor. even if the contacts 29 ', 30' are assumed to be rotated further that the values of the impulse cam 18 are triggered. If the camdances in the discriminator input circuit 1, 3 at the ken 18 leaves the contacts 29, 30, the circuits open to the input terminals 5, 5 'of the discriminator. It can be seen that the total angular rotation, guided pilot frequency differ. The on the control over which the cam 18 on the contacts effective resistance 3 and on the capacitor 1 'occurring is equal to 65 ° + 55 ° = 120 °, which is the desired voltages are not the same in this case. The th angle corresponds. To set the rotary voltage on the capacitor 1 'is then in an angle of the shaft 17, in which the contacts ge-voltage doubling circuit with rectifiers 50 are closed, the contacts 29, 30 and 29', 37,31 are rectified to achieve a first 30 'displaceable relative to their central position. The DC voltage while the voltage at the control - the outer limits of this control are for the resistor 3 in a corresponding manner in a span maximum value equal to twice the angular value of the cam doubling circuit with rectifiers 32, kens (i.e. 130 ° in the example given) and rectified for the 33 To achieve a second minimum value, the angular value of the cam DC voltage is used, which is opposite and in series (ie 65 °), the latter regulation being the case with the first DC voltage speaking to the control grid one where the two contacts are fed by the same triode 34. The triode 34 is controlled including the point on the cam,
another triode 35, the control grid of which is connected to earth. In practice, it has been placed in a double triode 36. The anode circuits of the triodes 34 and 35 will be able to adjust the contacts with an accuracy of up to about 10% via the main windings 11 and 12 of the relay 9, respectively. The previously fed, with the anode current through the main control option described still has the supply winding 11 almost constant, while the additional advantage that the simultaneous different currents through the main winding 12 with the 65 exercise of the contacts 29, 29 'or 30, 30 'in the same span direction fed to the control grid of the triode 34, a shift is achieved which changes similarly voltage. The contact 10 of the relay 9 is an angular displacement of the cam on its in the position shown when the voltage is wave.

Claims (5)

Patent claims: 1. Device for tuning a continuously tunable in a wide frequency range Step by means of an automatically tracking discriminator the frequency of a pilot signal controlled adjusting motor, the pilot signal the input circuit formed by a series connection of a resistor and a reactance of the discriminator is supplied and the discriminator output voltage the adjustment motor controls, which changes the resistance continuously until the voltage equals the motor is stopped at the partial impedances of the series circuit, characterized in that that the motor-driven shaft (17), with which the resistance (3) is continuously changed, also with the Adjustment means (20,2) the reactance is coupled and by rotating the shaft the reactance so in successive frequency ranges gradually and the resistance in the frequency range is continuously changed between two successive stages. _{2. Apparatus according to claim 1, characterized in that the stepwise controllable reactance consists of a number of fixed capacitors (C 1} ... C ₅ ) which can be switched on with the aid of a switch (2) corresponding to the number of frequency ranges of the stage to be tuned, the values of which are dimensioned so that the tuning ranges of the discriminator caused by the successive capacitors overlap somewhat. 3. Apparatus according to claim 1, characterized in that the partial impedances of the discriminator input circuit occurring pilot frequency voltages each of a voltage doubling circuit (30, 31; 32, 33) and that the rectified output voltages taken from this circuit with opposite signs and fed in series to a control grid of a double tube (36) whose other control grid has such a fixed potential that one in the output circuit of the double tube lying polarized motor control relay (9) when the equality of voltages occurring at the partial impedances are in the rest position. 4. Apparatus according to claim 1, characterized in that the driven by the engine Shaft with which the continuously variable resistor (3) is coupled with a switching arm (19) is provided, which is a Maltese cross coupled to the reactance adjustment means (2) (21) switches in stages and locked between two switching stages. 5. Apparatus according to claim 4, characterized in that the driven by the engine Shaft with which the continuously variable resistor is coupled with a cam (18) is provided, the motor excitation via a during a switching stage of the Maltese cross Holding circle maintained. Considered publications:
German Patent Nos. 714 732, 836 052, 147, 739 068; British Patent Nos. 517 636, 737 613;
"Measuring device for telecommunications technology", July 1936, especially p. 52 and 53. 1 sheet of drawings 509 688/164 9.65 © Bundesdruckerei Berlin