DE2932057A1 - Standardised carrier-wave supply for microwave relay station - has programmable frequency divider and comparator but no mixer (HU 28.7.80) - Google Patents

Abstract

The carrier wave supply has its microwave oscillator (3), its programmable frequency divider (4)(coupled to the oscillator) and its phase or frequency comparator (5) forming a carrier wave stage (1) that forms the supply with a comparator unit (2). The microwave oscillator's first output (19) is connected to the carrier stage's output (29) and its second output (20) is connected to the input of the divider. The frequency comparator (5) compares the output of the divider with a reference received at the reference input (31) of the carrier stage and produces a control signal for applying to the control input (21) of the microwave oscillator.

Description

description

The invention relates to a carrier supply device for relay stations in the microwave range that are available in both individual and in Common carrier supply systems can be used.

In transmission channels of multi-channel microwave relay systems will be the information from the transmitter station via relay stations to the receiving station with the help of high-frequency electromagnetic waves $ (carrier or carrier frequency signal) modulated and transmitted. From this basic function of the Carrier frequency signal follows; that in the transmitter and receiver devices a extremely important task is to match the carrier frequency signal with the appropriate to generate technical parameters. The most important technical parameters The requirements of the carrier frequency signal are as follows: - Accuracy and Stability of the Prequsnæ value; in the case of multi-channel systems, the carrier frequency and the other frequencies (e.g. 3. the thrust frequency value, center frequency, etc.) like this planned that between the individual channels, due to the mirror frequencies, oscillator frequencies, Overshoots etc. no interference phenomena occur. These values are Relative deviations prescribed for the transmission system in the frequency plan the carrier frequency values from the nominal value are between z. B. ~ 2.10-5 and ~ 5.10-6.

- performance and its stability; the power of the carrier frequency signal depends on the different information transfer tasks, the one used Modulation method away. In postal telecommunications systems, the power of the carrier frequency signal is between a few mW and a few W, the deviation from the nominal value in the order of magnitude of + 1 dB.

- noise content of the carrier frequency signal; for the noises that can be traced back to the circuits generating the carrier signal, are the quality specifications of a postal standard. With regard to a source, the noise component may in the case of multi-channel TF transmission in the lower area of the transmission band approx. 10 pWOp, but the visometric noise with a TV transmission max. - 82 dB up to max. -86 dB.

- the possibility of modulation; the economy high transmission possibility of the senice and auxiliary signals in microwave relay systems means the transmission of these signals in the unused parts of the transmission range of the broadband channel.

In the case of relay stations, the signals can e.g. 3. by modulating the Carrier frequency signal can be entered. Accordingly, in the case of timely binary directions an essential requirement, the possibility of modulating the carrier frequency signal fail.

The carrier frequency signals can nowadays be generated in many ways will. In: the case of some carrier supply methods, the individual carrier frequency signals individually generated for the multi-channel connection. This is the "individual carrier care method". In one such solution, the carrier frequency signal is generated by a microwave oscillator generated. A special feed unit is used to ensure frequency stability and the AFC circuit applied. In the sun of another solution, the carrier becomes durart made that the signal of a low frequency crystal oscillator with the help of Frequency multipliers with transistor and semiconductor diode design to the setpoint the carrier frequency is multiplied and these signals are - as required - with a High frequency amplifier amplified. According to another solution of the same type as the one described above becomes the carrier frequency signal by multiplying the output signal generated by a synchronized high frequency oscillator. This oscillator is using of the upper parts of a quartz oscillator oscillating in the range of 100 Es. According to another method, the carrier frequency signal is increased by the multiplication of the output signal one high frequency - through voltage regulation stabilized - oscillator won, that in the control loop in front of the oscillator The decoupled signal is converted into a by the signal of the high-frequency crystal oscillator controlled mixer mixed, and with the signal of a second crystal oscillator Compared.

According to another known solution of generating carrier frequency signals these signals are not generated separately from each other. his method is the so-called "common carrier supply". According to a widely used method for the common carrier supply is attached to the carrier frequency signal, which according to a known solution for individual carrier production is produced, and des Signal of a thrust oscillator - with the application of a thrust mixer stage - a new one Carrier frequency signal generated. Another solution for common carrier supply accordingly, the carrier frequency signal is the center of the band of one half band in Link frequency plan from the signal of a low-frequency crystal oscillator Multiplication generated, and this signal and the signal of the crystal oscillator with one corresponding to the constant frequency spacing of the carrier frequencies frequency are fed to a running wave amplifier.

Aurt the spectrum obtained at the output of the running wave amplifier are the carrier frequency signals of the Ralb band with the help of a filter switch system distributed. The carrier frequency signals of the other half-band are boosted by the frequency of the carrier frequency signal of the middle of the band of the first half-band (using a Thrust oscillator of a thrust mixer.) And the spectrum generation described above and signal distribution gained.

The disadvantages of these known solutions are: with individual carrier care Depending on the carrier frequencies, output and synchronizing quartz oscillators are more different Frequencies required the carrier signals generated in this way for the multi-channel connection series is incoherent; in the case of a common carrier supply arise during the mixing interfering combination frequencies that only - especially because of the harmonics of the interference frequencies - It is difficult to separate these solutions. Two crystal oscillators each have to be used can be used.

With the solution according to the invention, these disadvantages are eliminated: the uniform design also enables uniform manufacturing and Warehousing; a common frequency oscillator can be used, making coherent Carrier signals are to be obtained; a mixer stage is superfluous, and so the interfering combination frequencies do not occur; the application of the oscillator the higher frequency value has a lower thermal background noise and the lower one Result in temperature dependence of the power; several modulation options are screwed; only a single reference oscillator is required.

The invention relates to a carrier supply device for relay stations in the microwave range, which consists of a microwave generator, a frequency divider programmable division ratio, a phase or frequency comparator and a Comparison unit is composed. The microwave generator forms with the one on it connected micro wave frequency iler programmable dividing ratio and the phase or frequency comparator tor a carrier stage. This carrier level and the The comparison unit forms the carrier supply device.

The essence of the device according to the invention is that in the components generating different carrier frequency signals the frequency stability the Microwave generators are guaranteed with the help of a phase control loop, wherein the microwave frequency divider is programmable dividing ratio the modulation input and a phase or frequency comparison which is independent of the deviations in the carrier frequencies each ills with the same or some common divisor of the carrier frequencies corresponding - frequency value enabled In each control loop, one Input, (comparison input) of the comparator the comparison signal from a crystal oscillator, at the other input ("regulated value") of the comparator but after such decoupling from the microwave generator and division at the microwave frequency divider programmable - programmed - dividing ratio supplied.

One possible embodiment of the device according to the invention is shown in Fig. 1. The high frequency signal is in the carrier stage 1 with the help of the microwave generator 3 with two control inputs and two separate outputs generated.

The loosely coupled output 2c is at the input 23 of the microwave frequency divider 4 programmable partial ratio S the closely coupled output 19 to the high-frequency output 29 of the carrier stage 1 connected. The frequency of the input 23 of the microwave frequency divider 4 programmable division ratios occurring The high-frequency signal is adjustable by the microwave frequency divider 7 Division ratio and the multi-digit frequency divider 8 programmable division ratio composite analog microwave frequency divider 6 of the programmed division ratio divided accordingly and the output 25 of the microwave frequency divider 4 programmable Partial ratio fed. DBT output 25 is connected to input 25 of the phase or Frequency comparator 5 connected. The input 27 of the phase or frequency comparator 5 forms the comparison input 31 of the carrier stage 1, at which input the output 33 of comparison stage 2 is connected. A signal is generated in comparison stage 2 high stability generated with the help of the quartz oscillator 9, the frequency of which in the frequency divider 10 is divided to the nominal value of the reference signal. The signal is the output 33 supplied.

At the output 28 of the phase or frequency comparator v that is the Praenw or frequency deviation dos at the input 26 occurring feedback signals from Comparison signal at input 27 proportional To receive controller signal. The output 28 is via the amplifier 11 and the filter 12 to the control input 21 of the microwave generator 3 connected, the one occurring at the control input 21 The control signal ensures the frequency stability of the microwave generator.

The high frequency output 29 of the carrier stage 1 is via the amplifier 15, the filter 16, the frequency multiplier 17 and the isolator 18 to the output 34 coupled to the carrier supply device, where the carrier frequency signal, the the technical requirements for the nominal frequency, stability, etc. are met is. The analog modulation input takes place via the analog modulation input 32 of the carrier stage 1, the analog modulation input 32 via the modulation stage 13 is connected to the control input 22 of the microwave generator 3. The entrance 30 of the carrier stage 1 is used to input the dis gitalen modulation. The entrance 30 Huber is the digital modulation stage 14 with the input 24 of the microwave frequency divider programmable division ratio 4 in connection with which input the programming part of the multi-digit frequency divider 8 programmieroaren part varation controlled will.

Another embodiment of the invention is shown in fig. In this embodiment, the microwave generator has 3 a control input 22. Inside the microwave generator 3, the high-frequency oscillator 36 has an output which is formed with the input of the directional coupler. The main branch of the directional coupler forms the output 19, but the loosely coupled secondary branch the output 20 of the microwave generator 3. The output is at the control input 22 39 of the filter switch 35 is connected to the input 40 of the filter switch 35 fever the amplifier 11 and the filter 12 of the comparison output 28 of the phase or frequency comparator 5, to the input 41 of the filter filter 35 via the modulation stage 13 the analog modulation input 32 of the carrier stage is connected. Between High-frequency output 29 of the carrier stage 1 and the output 34 of the carrier supply device the phase modulator 39 is connected, the input 42 of which is the phase modulation input is.

In the embodiment of the invention according to Pig. 3 is the exit 33 of the comparison stage 2 to the comparison inputs 311; 312; 313; 314 of several Carrier steps; 12; 13; 14 e connected.

According to the technical requirements instructs the Frequency (f @; f2; 'f3; fq ....) of the high-frequency signal generated by the carrier stage different values. The division ratios of the microwave frequency dividers are also accordingly programmable dividing ratio different (l / a; 1 / b; 1 / c; 1 / d ...), where the microwave frequency divider in the individual carrier stages the feedback Divide signals to the nominal value of the phase or frequency comparison. The comparison level 2 has two circuits generating comparison signals with the same frequencies (Operating circuit 43 and reserve circuit 44), the outputs of which via the changeover switch 45 are connected to the output 33 of the comparison stage 2. The entrances to the With the help of the switch (K; K2; K3; K4 ....) from The output of the common comparison unit is switched off and to the comparison output (331; 332; 33; 334, ..). Of the comparison units assigned to them (2; 22j 2; 24 ...) can be connected.

4, 5 and 6 are examples of the application of the invention shown in krowellenrelais'stations, the stabilization of the frequencies of the Carrier stages always take place with the same comparison signal, d. H. the common comparison unit, used will. The nominal frequencies and the inputs and, Designated outputs of the sub-units or the carrier stages.

In the embodiment of the invention shown in FIG the reference inputs 311 and 312 of the carrier stages in the transmitter 11 and receiver 12 of the same canal of the 'Re'laisstation (e.g. 3. No. 1) have been accommodated, connected to the output 33 of the comparison unit 2.

In the embodiment of the invention according to FIG. 5, the reference inputs are 311, 312 ...... 3112 of carrier levels 11, 12, 13 0.0. 112 of all transmitters and receivers of the transmission belt of a relay station to the output of the common comparison unit 2 connected.

In the embodiment of the invention shown in FIG the reference inputs .31 ~ 3112 and 311 - 3116 of the carrier stages 11 - 112 and 11 - 116 all senders and receivers of working in two different bands (4th GHz and 6 GHz) relay stations to output 33 of the common comparison unit 2 connected.

The multiple advantages of the inventive device can easily established with the aid of the exemplary embodiments of FIGS. 1 to 6 will. According to the invention, carrier frequency signals with the necessary technical Characteristic values for simple (with single or multi-channel individual carrier supply), complicated (multi-channel transmitter / receiver in partial or full design with pairs common carrier supply) and very complicated (multi-channel partial or full execution with common carrier supply for one or more systems) - in any embodiment - economical and practical with the same circuit components generated, so that those system-technical advantages are guaranteed, which are the regulation can be achieved according to a constant reference signal. the Structural units shown in block form in the figures can of course also be combined with further Circuit units are added, which are required for the operation of the device are (e.g. display, disconnect, alarm or

Adapter circuits, feed units, etc.).

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Claims (22)

TRGERY SUPPLY DEVICE FOR RELAY STATIONF, N IN THE MICROWAVE AREA Claims 1. Carrier supply device for relay stations in the microwave range, the dividing ratio programmable from a microwave generator, a frequency divider, composed of a phase or frequency comparator and a comparison unit is that the microwave generator (3) with the connected microwave frequency divider (4) programmable dividing ratio and the phase or frequency comparator (5) forms a carrier stage (1), which with the comparison unit (2) form a carrier supply device. 2. Carrier supply device according to claim 1, d a -d u r c h g e k e n n n n e i n e t that the carrier stage one - at least with two separate outputs and one control input - microwave generator (3), a microwave frequency divider (4) and programmable division ratio has a phase or frequency comparator (5), one of the outputs of the Microwave generator (19) to the output of the carrier stage (29) and the other output (20) to the input (23) of the microwave frequency divider programmable dividing ratio is connected, the output (29) of the carrier stage with the (one) output (34) the Nikrowellenträgerversorgungsvorrichtung one of the 'inputs (26) of the - with two separate inputs and one output - phase or frequency comparator with the output of the microwave frequency divider (25) programmable dividing ratio, its other input (27) is connected to the reference input (31) of the carrier stage, the latter being electrically connected to the (one) output (33) of the comparison unit (s) is connected, and that the output (28) of the phase or frequency comparator on the (one) control input (21) of the microwave generator is connected. 3. microwave carrier supply device according to claim 2, d a d u r c h g e k e n n n z e i c h n e t that between the output (29) of the carrier stage (1) and the output (34) of the carrier supply unit an amplifier (15), a filter (16), a frequency multiplier (17), an isolator (18) and / or a phase modulator is (are) switched. 4. Nikrowellenträgerversorgungsvorrichtung according to claim 2 or 3, d a d u r c h e k e n n n z e i c h n e t that the microwave frequency divider (4) programmable dividing ratio several frequency divider stages connected in chain and analog microwave frequency dividers (6) provided therebetween, and that at least part of the dividing chain consists of a multi-digit frequency divider (8) programmable dividing ratio is built. 5. Microwave carrier supply device according to one of the claims 2 to 4, d a d u r c h e k e n n n z e i c h -n e t that in the microwave frequency divider programmable division ratio (4) analog frequency divider stage (s) (7) adjustable Partial ratio is (are) provided. 6. microwave carrier supply device according to claim 4 or 5, d a d u r c h g e k e n n n z e i c h n e t that the analog microwave frequency divider stage (s) owns an oscillator that oscillates with the specified frequency value, which oscillator has an input (s) that multiples (the multiples) of the oscillation frequency is (are) tuned. 7. Microwave carrier supply device according to one of the claims 4 to 6, d a d u r c h e k e n n n z e i c h -n e t that the partial ratio of the multi-digit frequency divider (8) programmable division ratio with a (or multiple) short circuit (or short circuits) and / or one (or more) interruptions (or interruptions) is set. 8. Microwave carrier supply device according to one of the claims 4 to 7, it is indicated that one (some) of the gates the programming part of the multi-digit frequency divider (8) programmable division ratio connected to the output (24) (the outputs) of a digital modulation stage (14) is (are). 9. Microwave carrier supply device according to one of the claims 1 to 8, that is, that between the output (28) of the phase or frequency comparator and the (one) control input (21) of the microwave generator one (or some) amplifier (11) and / or filter stage (12) is (are) connected. 10. Nikrowellenträgerversorgungsvorrichtung according to any one of claims 1 bit 9, d u r c h e k e n n z e i c h -n e t that the microwave generator (3) a microwave oscillator with a tightly coupled output (almost with Maximum power) and a loosely coupled output compared to it, the closely coupled output being the - to the (one) output of the microwave carrier supply device connected - output (19) of the microwave generator and the loosely coupled Output the - connected to the microwave frequency divider programmable division ratio - Forms output (20) of the microwave generator. 11. Microwave carrier supply device according to one of the claims 1 to 10, d u r c h e k e n n n z e i c h -n e t that the microwave generator (3) a microwave oscillator (36) with an output which is connected to a Directional coupler (37) is connected, and that the closely coupled main branch of the directional coupler - to the (one) output of the microwave carrier supply device connected output (19) of the microwave generator and the loosely coupled The other branch of the directional coupler - to the microwave frequency divider programmable division ratio connected - output (20) of the microwave generator forms. 12. Microwave carrier supply device according to one of the claims 1 to 11, that is, that the control input (the Control inputs) (21) of the microwave generator (3) from the terminal pair (s) the varactor diode (s) provided and / or coupled in the microwave oscillator is (are) built. 13. Microwave carrier supply device according to claims 1 up to 12, d a d u r c h g e k e n n n z e i c h -n e t that the comparison unit (2) has a crystal oscillator (9), the output of which is connected to the input of the frequency divider stage (s) (10) is connected, and the output (s) of the frequency divider stage (s) is (are) connected to the output (s) (33) of the comparison unit. 14. Microwave carrier supply device according to one of the claims 1 to 13, d a d u r c h g e k e n n n z e i c h -n e t that the output (s) the comparison unit (s) (2) to the comparison input (to comparison inputs) 1 31; 313; 314 ...) of several carrier stages (11; 12; 15; 14 ...) is (are) connected. 15. Nikrowellentrräger supply device according to one of the claims 1 to 14, d u r c h e k e n n n z e i c h -n e t that they have one or more Operational (43) and reserve comparison unit (s) (44), the output (s) of which via a changeover switch (45) to the comparison input (the comparison inputs) (31) the carrier stage (s) is (are) coupled. 16. Microwave carrier supply device according to one of the claims 1 to 15, d a d u r c h e k e n n n z e i c h -n e t that to the comparison input (to the comparison inputs) (31) of the carrier stage (s) of one of the outputs (33) of the built-in (21) or the external (2) comparison unit via one or more Changeover switch (K1) is connected. 17. Nikrowellenträgerversupvorrichtung according to any one of the claims 1 to 16, d a d u r c h e k e n n n z e i c h -n e t that the output (s) (33) of the comparison stage (s) to the comparison input (comparison inputs) (311; 312 ...) of carrier stages (11;; 12 ...) is (are) connected, with the division ratio of the microwave frequency divider (4) programmable dividing ratio is different (1 / a; 1 / b ...). 18. Microwave carrier supply device according to one of the claims 14 to 17, d u r c h e k e n n -z e i c h n e t that to the comparison input (to the comparison inputs) (311 and 317) of the carrier stage (s) of (the) for the same Transmission channel of the relay station belonging transmitter (sender) and receiver (receiver) (e.g. F11 and 21) the output (s) (33) of the same comparison unit (s) is (are) connected. 19. Microwave carrier supply device according to one of the claims 14 to 18, d u r c h e k e n n -z e i c h n e t that in every transmitter and receivers (e.g. 11 to £ 16 and f21 to 26) of the transmission (half) band of the Relay system to the comparison input t to the comparison inputs) (311 - 3112) of the carrier stage (s) (11-112) the outputs (the output) (33) of the same operating and / or Reserve unit (s) (2) are (is) connected. 20. Microwave carrier supply device according to one of the claims 14 to 19, that is to be sent to the comparison input (the comparison inputs) (311 - 3112 of 4 GHz and 311 - 3116 of 6 GHz) of the carrier stage (s) (11 - 112 of 4GHz and 1 I 16 of 6 GHz) all to in several different Bands (e.g. 4 GHz and 6 GHz) operating relay stations Channel and receiver of the output (s) (33) of the same operating and / or reserve comparison unit (s) (2) is (are) connected. 21. to. Microwave carrier supply device according to one of the claims 1 to 20, d u r c h e k e n n n z e i c h -n e t that the microwave generator (3) has two control inputs, the first (21) input to the output (28) the phase or frequency comparator (5) and the other (22) input to the output the modulation stage (13) is connected. 22. Microwave carrier supply device according to one of the claims 1 to 21, d a d u r c h e k e n n n z e i c h -n e t that the microwave generator (3) has a control input (22) which is connected to both via a filter willow (35) the output (28) of the phase or frequency comparator (5) as well as to the output the modulation stage (13) is connected.