DE1541673C3 - Method for eliminating the different influences on the phase in the receiving channels of a multi-channel direction finder - Google Patents

Description

To solve this problem, a multi-channel receiver is assumed, in which on about constant output voltage is regulated. The method according to the invention is characterized in that that to generate the auxiliary AC voltage, the voltage of the first oscillator of the Multi-channel receiver with a voltage of an oscillator, the frequency of which is equal to the intermediate frequency of the channels, it is superimposed that the superimposition product corresponding to the set reception frequency is amplified in a broadband amplifier and the inputs of the receiving channels is supplied, and that the amplitude of the auxiliary AC voltage thereby the amplitude of the bearing to be tracked Signal is adjusted that the gain of the broadband amplifier is opposite to that is changed by the gain change of the receiving channels caused by the signal to be tracked.

It should also be mentioned that to eliminate different phase influences in the receiving channels a two-channel direction finder has already been proposed to measure the channel voltages during the Feed the direction finding process via frequency doubler to a phase rectifier, its output voltage can be used to eliminate the phase differences. This proposed method can only then used to eliminate the different influences on the phase by the receiving channels if the direction finder has switching devices in front of and behind the receiving channels, which periodically swap the receiving channels (Patent 1,268,695).

The method according to the invention can be used with two-channel direction finders, but also with direction finders based on the Watson-Watt principle with three receiving channels. The invention can also be easily applied to multi-channel direction finders. When using two reception channels, phase shifting elements which can be influenced in opposite directions can be switched on, which are simultaneously acted upon by the control voltage. With more than two receiving channels, however, it is necessary to use the phase position of the output signal of a receiving channel as the reference phase and to adapt the phase influence of the other channels to the phase influence given by this "reference channel". In this case a phase shifter is only switched on in n-1 channels if a total of η receive channels are available.

It is irrelevant for the invention whether the gain control of the receiving channels is done manually or done automatically. With manual control, by setting the gain of the channels, the The gain of the broadband amplifier can also be set. It just has to be ensured that if the gain of the receiving channels is high, i.e. if the signal to be tracked is small, the gain of the broadband amplifier is correspondingly low, or that with a large input signal and thus small gain in the receiving channels the gain of the broadband amplifier is so large, that the output signal of the broadband amplifier has the same amplitude as the amplitude of the signal to be tracked roughly corresponds to. With an automatic control of the gain of the receiving channels can the control voltage of these channels does not directly change the gain of the broadband amplifier to be used. Rather, the course of the control voltage must be prior to being fed to the broadband amplifier nor be reversed. A gain change that is equal in amount, but in opposite directions can be achieved using an inverting member known per se. The course of the gain change can be influenced or adapted by a diode network.

An embodiment of an arrangement for performing the method according to the invention is

ίο shown in the drawing, namely the inventive Method explained on the basis of a direction finder based on the double-channel principle. The The crossed antenna system of this direction finder consists of the two frames 1 and 2. Via the switching elements 3 and 4, these loop antennas 1 and 2 are connected to high-frequency amplifier stages 5 and 6. In the Mixing stages 7 and 8, to which the voltage of the tunable oscillator 13 is fed, takes place Implementation in the intermediate frequency. Behind this

ao modulators are electronically controllable phase shift elements 9 and 10 switched on, to which the intermediate frequency amplifiers 11 and 12 are connected. The direction of incidence determined is displayed on the display tube 16. The regulation of the gain in such a way that the output voltage of the direction finder, i.e. the length of the recorded line, is always is the same, is effected in a manner known per se by the control amplifier 14. ·

Instead of a luminous line, the display tube shows 16 then shows an ellipse when between the two output voltages of the intermediate frequency amplifier 11 and 12 a phase difference different from 0 or 180 ° occurs. For elimination this phase difference 'is, as already mentioned, known in the direction finding channels to couple the same auxiliary AC voltage. To this end, the changeover switches 3 and 4 are shown in dashed lines Position brought. The phase discriminator 15 determines how large the phase difference is between the output voltages of the intermediate frequency amplifiers resulting from the auxiliary AC voltage 11 and 12 is. The output voltage of the phase discriminator 15, which depends on this phase difference, is a Amplifier 26 is fed to a motor 21 which controls the potentiometer 20 and thus the phase rotators 9 and 10, which change in opposite directions, adjusted until the phase difference of the output voltages is zero.

If you only want to remove the different phase influences, the two switches 3 and 4 bring into the position shown in dashed lines and no tuning of the receiving channels to the Carry out the auxiliary AC voltage, but also the auxiliary AC voltage for operational reasons not derived from the antennas, according to the invention, the auxiliary alternating voltage can be generated by that the output voltage of the local oscillator 13 in the mixer 29 with the output voltage of the stabilized oscillator 30, the frequency of which is equal to the intermediate frequency of the receiver is, mixes. At the output of the mixer 29 is then obtained a voltage, the frequencies of which the set receiving frequency and the image frequency of the two-channel divider. For reinforcement this voltage is required because its frequency changes with the setting of the oscillator 13, a broadband amplifier 28. Its output

5 6

The output voltage is correct, as already mentioned, during the calibration process, the cathode ray tube

Frequency with the sensitivity set on the receiver. In addition, the output pulse

initial voltage match; the monostable multivibrator can therefore use the pulse generator 25 for this voltage

tilted into the receiving box without adjustment at the receiver, which opens the door for a few hundred ms

channels are coupled. The image frequency is 5 19 opens. The control voltage of the control

Stored in the memory 17 by the selective high-frequency amplifier stages 5 amplifier 14. At the

and 6 sufficiently damped. This gives you the output of the broadband amplifier

To get the output voltage of the broadband amplifier the desired voltage. After the core 28 has dropped back, i.e. the auxiliary alternating voltage in the ammonostable multivibrator 32 has to be adjusted to the signal to be tracked in the output position, the gate 19 is locked again, while the bistable amplifier 28 is additionally dependent on the broadband amplifier 28. bile multivibrator 31 reversed. This reversibility of the received field strength in the amplification has the effect that the electronically designed action is regulated. For this purpose, the control voltage switches 3 and 4 can be brought into the position of the control amplifier 14, shown in dashed lines, after reversal, in which the reversing stage 18 is fed to the memory element 17 in the receiving channels. The 15 the auxiliary AC voltage is coupled. This means that storage takes place in order to regulate the circuit of the receiver inputs 3 and 4 at the different phase influencing via the discriminator 15 during the expiry, but to avoid control oscillations only because the broadband amplifier 28 in the element 24 has meanwhile been used. Then you can namely during this delayed output pulse of the pulse generator 25 of the period of time the memory 17 was reversed by the control span 20 bistable multivibrator 23, result generation 14 separated. By the saved through the gate 22 was opened. If the state is voltage, the degree of amplification of broadband is reached, in which the phase influence in the two amplifiers 28 is reduced, if the amplification channels is the same, then the output expander channels 11 and 12 is increased and vice versa. The voltage of the phase discriminator and thus the construction and the mode of operation of the inverter 18 25 output voltage of the control amplifier 26 zero. This is known per se. One embodiment is in this stress state speaks the monostable Muldeutsche Auslegeschrift 1147 636 in FIG. 2 tivibrator 27 on. It causes the resetting of the displayed. The multivibrator 23 shown there and is more stable in the initial position 'written' also causes its element to be lowered. Increased and vice versa. As a result of the described influence, the voltage flow of the amplification factor of the broadband signal of antennas 1 and 2 is again applied to the receiving channels, and the electron amplifier 28 is thus again controlled to light the amplitude of the auxiliary beam tube.
AC voltage is adapted to the amplitude of the signal to be tracked by the pulse generator 25. 35 called phase adjustment process from the phase discriminator

In the exemplary embodiment of the drawing, the minator immediately becomes phase equality of the two automatically If a post-excitation voltage is detected in the sounding channels at short intervals, then it runs ment of the phase shift members 9 and 11 made. the motor 21 does not start at all, and because of the so-off Basically, this embodiment contains continuously occurring criterion at the output of the rule one Periodic pulse generator 25, for example 40 amplifier 26 "voltage 0", emits a pulse every minute by flipping. This pulse flop 27 immediately switches back to the level control effected via the bistable multivibrator 33 for the gear position.

1 sheet of drawings

Claims (3)

1 2 .. two-channel receiver, the phase difference is patent claims. measured between the two output voltages, 1. A method for eliminating the different and from the phase difference a criterion influencing the phase of receiving for readjustment of the signals switched into the channels in the receiving channels of one of the phase rotators is derived. The readjustment of the boost to approximately the same output amplitude can be done, for example, via a motor,
controlled multichannel direction finder, according to the alignment of the phase influencing the reception known as auxiliary alternating voltage, the voltage receiving channels from the antennas temporarily disconnected from an oscillator with a fixed frequency and connected to an auxiliary alternating voltage - Use ίο, or else the receiving channels with the chip impact are applied to an auxiliary antenna from the difference in phasing. These sensor deviations between each two Kanalspan auxiliary antenna can also be formed by the two different phase influences obtained in a control voltage to compensate for the correct way interconnected DF antennas. The use of the output is characterized in that the voltage of an auxiliary antenna is used as auxiliary alternating voltage to generate the auxiliary alternating voltage an oscillation influence in the frequency of the gate to be tracked, the frequency of which corresponds to the intermediate frequency signal. A detuning of the direction finding channels is the frequency of the channels, it is superimposed that the 20 is not necessary. Since, in addition, the same transmitter is received via the auxiliary antenna set corresponding to the set reception frequency, the corresponding superimposition product is also broadly the amplitude of the signal injected into the band amplifier via the auxiliary antenna and fed to the inputs of the channels approximately equal to the reception channels, and that the amplitudes of the signals coupled into the Emp amplitude of the auxiliary AC voltage via the DF antennas through 25 interception channels. Both the equality of the frequency, which is adjusted to the amplitude of the signal to be determined, and the approximate, that the amplification of the broadband amplifier equality of the amplitudes bring the advantage with kers opposite to that of the signal to be determined, that in the transistors or tubes of the direction finding Signal-related gain change of the channels no dynamic impedance variations, receiving channels is changed. 30 the different phase influences 2. The method according to claim 1, thereby being able to draw, come about. The usage indicates that the control voltage with which the receiving voltage of an auxiliary antenna as Gain of the receiving channels is regulated, but the auxiliary AC voltage has the other hand out of a known reversing stage disadvantage that with very short-term received signals in which from this voltage a regulation of the different phase distortions the broadband amplifier used such flow does not come about. Control voltage is generated that at different In the above patent was also Larger control voltage for the channels already proposed, an auxiliary oscillator with con control voltage for the broadband amplifier of the constant oscillation frequency for the readjustment of the smaller and vice versa. 40 different phase influences are to be provided. 3. The method according to claim 2, characterized in that the use of such an auxiliary oscillator indicates that the voltage for the regulation has the disadvantage that during the Nachstimmvordes Broadband amplifier is saved and the access channels to the frequency of the auxiliary oscilloscope guide line must be matched to the memory for the duration of the lator. The DF channels phase alignment is interrupted. 45 a voltage of a different frequency is used as the test voltage, but also not adapted to the circumstances ter amplitude fed. This allows how already mentioned above, dynamic impedance changes The invention relates to a method for eliminating the gain elements when switching the different influences on phase 50 from the »Check« state to the »Bearing« state. of received signals in the receiving channels, which, as also mentioned above, admit again one in the gain to approximately the same output - different phase influences in the two amplitude controlled multichannel direction finder. Guide according to these receiving channels during the direction finding process This procedure can be used for aligning the pha-. influence the receiving channels from the receiver 55 The object on which the invention is based is tennen is temporarily switched off and with an auxiliary stands in it, the advantages of the two discussed above AC voltage applied; from the difference between the possibilities of generating the auxiliary alternating to combine the phase deviation between two channel voltages, i.e. an auxiliary AC voltage voltages will then offer a control voltage to the sounding channels, which is necessary for the obtained equal to the phase influence. 60 success of the different phase influences Such a procedure for eliminating which takes too long, but which is still the same different influencing of the phase of the receiving frequency as the signals to be tracked and Receiving signals in the receiving channels of a two-channel which finally correspond in their amplitude to the amplitudes nalpeilers is from the German patent of the signals to be tracked is approximately adapted. In order to 019 720 known. This known arrangement also ensures that after the un- are driven in order to eliminate the different influencing of the phase that is to be determined Chen influencing the receiving channels with the same signals practically in the same way by the Chen auxiliary voltage applied. The phase can be influenced at the output of the channel.