DE1297169B - Transmission system with single sideband modulation working in the range of short or even shorter waves - Google Patents

Description

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The invention relates to a part of the receiver located in the area of these two the short or the even shorter waves work oscillations a differential oscillation is formed tend transmission system with single sideband modulation, when they occur first the search soundation is switched on with a transmitter and one for receiving and also in one catch the same specific recipient. 5 narrow-band part of the receiver also the

In electrical transmission systems, the differential oscillation is formed when the signal is open for transmission, the search circuit is switched off and only on the transmission side Frequency position suitable for the transmission - the frequency readjustment device for precise offset, in order to then subsequently take effect on the reception mood.

side back to its original position to become. For the implementation, a special embodiment of a system with one and two on the transmit side as well as on the receive sideband modulation, one of the two becomes On the upstream side, oscillators are required whose frequency-transmitted vibrations, which have to make high demands on a constant reference, represent vibration, in addition to fading control sen, because a proper transmission is only used 15 and this at the output of the dem is guaranteed if a sufficient frequency first input of the phase discriminator upstream reliability removed between the send-side and the received filters. The low bandwidth conversion oscillators on the side. If the with- this filter affects the operational safety By means of quartz oscillators, the frequency constancy of the search circuit can be achieved precisely when the filter is involved not off, then the frequency control switch must follow a larger frequency rejection can be used. They consist in train oscillation locks.

essential from a receiving-side frequency The invention is based on the object at

discriminator which, on the one hand, is based on the oscillation of a system with single sideband modulation The oscillator on the receiving end to be readjusted and the main patent for shrinkage control on the other hand a difficulty that would also arise from the sending side would have to be faced by simple means Reference oscillation is supplied. The lift.

quenzdiskriminator compares the phases of both This task is according to the invention there-

Vibrations with each other and derives from this a solved by that the already mentioned filter Control voltage, which is arranged in parallel via a Nachstimmeinrich- a switch that controls the filter device acts on the oscillator frequency. 30 in the case of one that exceeds its passband

For such a frequency control device, the frequency rejection of the reference oscillation is generally used as small a control range as possible.

strived because with increasing control width a development The invention is based on the knowledge that

Speaking decrease in the control accuracy and the blocking of the reference oscillation by the dem Control speed must be accepted 35 an input of the phase discriminator must be in front. Often the only reference oscillation available is a dedicated filter to increase the receiver's level Vibration of a transmitting-side converting oscillator input-side signal amplifier and thus to tors on. The reference oscillation is then one of the clear evaluation that mostly arrives in the immediate vicinity of the actual signal. the signals preventing overload of the Suchin In such cases, the control range must lead to a smaller circuit (flying restart circuit), be kept as the distance of the reference oscillation using an exemplary embodiment that is shown in FIG

from the near cut-off frequency of the signal band, as the drawing is shown, the invention is intended to be otherwise the uniqueness of the regulation will no longer be explained in more detail, is ensured. The rule width for nor- The F i g. 1 shows the receiver block diagram

paint operation mostly within these limits 45 of a radio relay system with single sideband modulation, being held. The maximum possible frequency - the one with a frequency control device and the Rejection that only works with the main patent in the event of operational disruptions. For example, from a for example transmitter failure, it must be expected, multitude of voice channels is messages however, it is often much larger than the said signal on the transmission side, including the reference distance between the reference oscillation and the oscillation and the auxiliary oscillation in the RF position Limit of the signal band. transported up by 400 MHz and in this position

These relationships are particularly blatant when transferred to the recipient. As a reference oscillation Directional radio systems with single sideband modulation is the first implementation of the basic phenomenon on the transmission side. To overcome this difficult band, the carrier oscillation 2MHz used the receiver can use a search device which, for this purpose, uses the signal on the Austung to find the transmission frequency and with a gang of the converter in question as a so-called automatic "zero oscillation" is added by a phase discriminator. The auxiliary swine use making frequency adjustment device available, which is also added at this point, The frequency 2.06 MHz has a precise tuning when the transmission frequency is found and is used at the same time be provided. In this case, the input can also be used as a carrier wave for a service call information Containing frequency band of the channel.

Transmitter side transmit at least two oscillations. The signals arriving at antenna 1 are transmitted which have a constant thread to each other in a first converter 2 from the RF position have frequency spacing and outside in terms of frequency converted into the 35 MHz position, in the amplifier 3 verdes with the information occupied frequency band 65 strengthens and in a subsequent second Umiegen. setzer4 converted to the 2 MHz position. After out-

In the main patent, such a transmission-reaching amplification in the amplifier 5 will be the system specified in which in a broadband signal of the message band through the filter 6

3 4

two switching devices A service call separated from the NuUschwetzung and the signals of the flying restart circuit and after implementation in and B on. Via the switching device A , in a third converter 7, the output of the reception of the signals is supplied, provided that the frequency rejection catcher. The zero oscillation and which exceeds the control range of the fine control, the signals of the service call are in turn put into operation in the 5 coarse tuning in that filter 8 is separated from the other message signals at the output of the amplifier 5 through them a DC voltage of alternating polarity and then connected to the control input of the Servomotor 16 amplified after the ßend in amplifier 9. The amplifier 9 has F i g. 1 is placed. The switching device B , like the amplifier 5, also serves two outputs, in turn the disconnection of the coarse tuning, which the lower output with the input of the io as soon as the received zero oscillation is connected to the quartz filter 10 through which the zero has approached its setpoint that the fine control oscillation sifted out and after reinforcement can come into action.

Amplifier 11 of the device for frequency fine To control the switching device ^ is the

control is supplied. The frequency fine control capture circuit via the input power to the sum of a frequency discriminator 15 Dr overall voltage from the NuUschwingung and the service usage. This has a phase discriminator 12 supplied to the conversation carrier, and in a strong not, at the first input of which amplifies the zero oscillation linearly controlled amplifier 21. This directly and at its second input the zero amplifier supplies the differential oscillation at its output via a phase correction element 13, an oscillation from the basic oscillation and the service-wide quartz filter 14 and an amplifier 15 is present. 20 interviewees. This differential oscillation, which in the phase corrector 13 is the phase present case is 60 kHz, is sifted out via one of the voltage at an input of the phase discriminator bandpass filter 22 with a bandwidth of about 500 Hz against the phase at the other input and then in Amplifier 23 also shifted so that the phase discriminator amplifies when reaching. The amplifier 23 feeds a setpoint frequency (= center frequency of the quartz filter 10) 45 switching device 24, which has a rectifier circuit at its control output, the DC voltage zero, which is followed by a flip-flop. That gives. The quartz filter 10 is designed for a flip-flop range has the task of ensuring a safe pass range of the switching device A , which defines the other fine-tuning, through the equally negligible phase rotation, directed differential oscillation also for the case during the further quartz filter 14 the phase at 30 that the The deviation from the setpoint frequency received at the antenna turns sharply. Input signal is very noisy.

For frequency adjustment, a motor 16 is sawn for the switching device B, the difference uses the vibration of the drawing trimmer of the quartz oscillator 17 is obtained by means of a converter 25, adjusts the one hand, b via the input of the trap circuit of the first converter 2 in the sense of control. The servomotor, a sensitive measuring mechanism 35 and the amplifier 26 for the basic oscillation and the motor are operated via the output of the phase discriminator via the filter 27 and the amplifier 28. This measures the angle at which the service call carrier is fed. The difference of the second quartz filter 14 occurring at the phase of the basic oscillation when passing through the output of the converter 25 is rotated if its oscillation with the frequency 60 kHz is then not with the center frequency of this quartz 40 ßend in a filter filter 22 corresponding to the filter 22 matches. 29 sieved out, amplified in the amplifier 30 and

With a view to the highest possible frequency closing a device 31, which is constant, the conversion oscillator 18 for the second is constructed in the same way as the device 24 and via converter 4 also a quartz oscillator. The switching device B controls to avoid its output. Since setting the message signal in the starting position 45, the auxiliary oscillation in the present case simultaneously uses the third converter 7, on the other hand, at the output of the quartz filter 10 and 14 sifted out via the carrier oscillation for the service call channel, the output of the filter 27 has an amplifier 15 occurring NuU oscillation . branch 32 over which the service call is his

A part which is supplied to the output of the quartz filter 10 for determination.

occurring zero oscillation is transmitted via line 19 50. For a better understanding, FIG. 2 which is fed to a control part of the receiver attenuation characteristic 10 'of the quartz filter 10, which is shown in FIG. 1 with regard to after F i g. 1 and the damping characteristics are not shown in more detail for a good overview. According to the invention, a signal band S propagating at a frequency of 2 MHz is connected in parallel to the crystal filter 10 via switch 20. Controlling the 55's frequency is shown. The distance between the zero switch 20 is here, as already stated, so that the oscillation N of the upper limit frequency is dimensioned such that it is closed when the message band on the off is only 6 kHz. The output of the quartz filter 10 as a result of its through bandwidth of the quartz filter 10 is set to a frequency distortion exceeding 3 kHz, so that the uniqueness is guaranteed for the zero oscillation in this area for the shrinkage control no longer 60 mene fine control. is. Between the zero oscillation N and the self

The catching scarf used for coarse tuning at a distance of 60 kHz upwards to it F of the frequency control device stands with its ßenden service channel carrier D - apart from the input α with the upper output of the amplifier 9 non-disturbing lower, 3 kHz wide sideband and with its input b with the upper output 65 of the service channel - no further Schwindes amplifier 15 is connected. Your structure should work on. The possible frequency rejection is now based on the in FIG. 3 see the transmitter oscillator of the transmitter and the block diagram are described in more detail. The crystal oscillator 17 of the first receiving converter 2

according to FIG. 1, which is essential in the present case, can, as relevant studies have shown, be 40 kHz in the worst case. Thus, the distance between the zero oscillation N and the service channel carrier D of 60 kHz is selected to be sufficiently large to prevent a response condition from being simulated by a differential oscillation which is not derived from the zero oscillation N and the service call carrier D.

If, for example, it is assumed that the frequencies of the transmitter oscillator in the transmitter and of the crystal oscillator 17 according to FIG. 1 differ by 20 kHz, then the zero oscillation is blocked by the crystal filter 10 so that they are not effective either at the phase discriminator or at the input b of the capture circuit can. The differential oscillation obtained via the converter 25 of the interception circuit is therefore also not present, so that the switching device B cannot respond. The situation is different with the switching device A. The filter 8 is dimensioned so wide that it lets through the zero oscillation and the signals for the business call even with the frequency rejection mentioned. These signals are thus effective at the input α of the flying restart circuit. The differential oscillation of 60 kHz derived therefrom is rectified in the switching device 24 and causes the switching arrangement ^ to respond via the flip-flop. As a result, the aforementioned direct voltage with alternating polarity is applied to the servomotor 16 according to FIG. 1, by means of which the quartz oscillator 17 is controlled in terms of frequency over its maximum possible pull range. As soon as the reception frequency has approached the transmission frequency so far that the zero oscillation falls within the pass band of the quartz filter 10, this is also transmitted via the output of the amplifier 15 according to FIG. 1 effective at input b of the interception system. Since the service channel carrier is always present at the second input of the converter 25, the differential oscillation of 60 kHz now occurs at its output and causes the switching arrangement B to respond via the switching device 31. The switching arrangement B , in turn, switches off the direct voltage of alternating polarity on the servomotor and thus enables the fine control to take action.

As soon as the frequency distortion is so great that the fine control as a result of the blocking of the zero oscillation through the quartz filter 10 according to FIG. 1 fails, the amplitude control also falls off, since their control voltage is also taken from the output of the quartz filter 10 via the line 19 will. This has the effect that the gain of the control amplifier is regulated up to maximum gain will. The consequence of this is an overload of the amplifier 9 according to FIG. 1, so that the Output voltage at the filter 22 according to FIG. 3 goes back and a clear evaluation of the on Input «present signal endangered. The one already mentioned serves to remedy this deficiency Switch 20, which represents a kind of overload protection. As soon as the zero oscillation at the output of the Quartz filter 10 fails and thereby the gain of the control amplifier is raised, is through Closing the switch 20 a part of the output voltage of the amplifier 9 of the fading control directly supplied, through which the reception gain is set so that an inadmissible overload of the amplifier 9 is avoided.

Claims (1)

Claim: Transmission systems with single sideband modulation working in the area of short or even shorter waves with a transmitter and a receiver intended to receive the same, the one with a search device for finding the transmission frequency and with an automatic use of a phase discriminator making frequency readjustment device for precise tuning when the transmission frequency is found is provided, in addition to the frequency band containing the information of the Transmission side still at least two vibrations are transmitted, which are constant to each other Have frequency spacing and frequency outside the occupied with the information Frequency band lie in the further in a broadband designed part of the receiver a differential oscillation is formed from these two oscillations, in the case of which Occurrence first the search circuit is turned on and also in a narrow band Part of the receiver also forms the differential oscillation when it occurs the search circuit is switched off and only the frequency adjustment device for precise tuning is effective, and in which one of the two transmitted vibrations is involved represents a reference oscillation, used for shrinkage control and for this purpose at the output of the filter connected upstream of the first input of the phase discriminator is removed, according to Patent 1271786, characterized in that a switch is arranged in parallel with the filter is that the filter in the event of a frequency rejection exceeding its passband the reference oscillation bridged. 1 sheet of drawings