DE2932057C2 - - Google Patents

Description

The invention relates to a carrier frequency supply direction for relay stations in the microwave range in the Preamble of claim 1 specified type, which the US-PS 38 05 192 is known.

In the microwave range, information from a broadcast station via relay stations to a receiver station transmitted modulated with the aid of a carrier frequency signal. A number of technical are added to the carrier frequency signal Requirements, the most important of which are: accuracy and stability of the frequency value to avoid inter reference phenomena between the individual channels of the usual multi-channel systems, stable power output and low noise component. The carrier frequency signal must also can also be modulated so that switching and auxiliary signals for the relay stations in not for information transmission used transmission band areas are transmitted can.

The above-mentioned US-PS 38 05 192 describes a modu adjustable frequency generator with which such a carrier frequency signal can be generated. The frequency generator contains a feedback loop that is a programmable Frequency divider to stabilize the output frequency of the Has frequency generator. The modulation is done by Act on the control loop, whereby the analog mod lier signals to a rectangular pulse train with changing Duty cycle to be converted. This pulse train will then fed to the divider circuit, the resulting Partial ratio proportional to the pulse duty factor consequence is.  

This arrangement has the disadvantage that for each carrier fre quenz its own complete control loop with its own reference matched to the respective carrier frequency oscillator is required. In addition, the Modulation, since it intervenes in the control loop, in un desirable effect on frequency stabilization. Those in a multi-channel system are so individual Carrier frequencies generated carrier frequency series is inco inherent, so that annoying, difficult to suppress com bination effects occur.

The object underlying the invention is to create a carrier frequency supply device in the Oberbe handle of claim 1 mentioned type, in which a Modulation without affecting frequency stabilization is possible and which is particularly to build more channel stations is suitable.

This object is achieved according to the invention in the license plate of the features specified in patent claim 1, that the modulation stage is not connected to the feedback branch, but directly connected to the microwave generator is.

This prevents modulation and Fre influence the stabilization of each other. In a Multi-channel station can also use the individual channels uniformly constructed and with the same circuit components. It can be in Multi-channel stations a single, common reference oscillator can be used, creating coherent carriers frequencies can be obtained.  

The sub-claims 2 to 16 describe advantageous further developments of the carrier frequency supplier according to the invention supply device. The design according to claims 5 to 9 with several frequency divider stages in the programmable Frequency divider has the particular advantage that additionally also the frequency divider for modulation purposes can be used.

Embodiments of the carrier frequency supply device according to the invention are explained in more detail with reference to the drawing. Figs. 1 to 6 show various forms of execution of the device.

A first embodiment of the device is shown in FIG. 1. The high-frequency signal is generated in a carrier stage 1 using a microwave generator 3 with two control inputs and two separate outputs. The output 20 is coupled to the input 23 of a frequency divider 4 with a programmable partial ratio and the output 19 is connected to the high-frequency output 29 of the carrier stage 1 . The frequency of the input 23 of the frequency divider 4 occurring high-frequency signal is divided by the with a stellbarem division ratio and a multi-digit frequency divider 8 composed of a microwave frequency divider 7 with a programmable division ratio analog microwave frequency divider 6 the programmed division ratio accordingly, and the output 25 of the frequency fed to divider 4 . The output 25 is connected to the input 26 of a phase or frequency comparator 5 . An input 27 of the phase or frequency comparator 5 forms a reference input 31 of the carrier stage 1 , to which the output 33 of a reference oscillator 2 is connected. In the reference oscillator 2 , a signal of high stability is generated with the aid of a quartz oscillator 9 , the frequency of which is brought in a frequency divider 10 to the nominal value of the reference signal. The signal is fed to the output 33 . At the output 28 of the phase or frequency comparator 5 , a control signal proportional to the phase or frequency deviation of the feedback signal occurring at the input 26 from the reference signal at the input 27 is obtained. The output 28 is connected via an amplifier 11 and a filter 12 to a control input 21 of the microwave generator 3 . The control signal occurring at the control input 21 ensures the frequency stability of the microwave generator. The high-frequency output 29 of the carrier stage 1 is coupled via an amplifier 15 , a filter 16 , a frequency multiplier 17 and an isolator 18 to the output 34 of the carrier supply device, to which the carrier frequency signal that meets the requirements for the nominal frequency, stability, etc. can be decreased. The analog modulation input takes place via an analog modulation input 32 of the carrier stage 1 , the analog modulation input 32 being connected via a modulation stage 13 to a control input 22 of the microwave generator 3 . An input 30 of carrier level 1 is used to enter the digital modulation. The input 30 is connected via the digital modulation stage 14 to an input 24 of the frequency divider 4 , via which the programming part of the multi-digit frequency divider 8 is controlled with a programmable part ratio.

Another embodiment of the carrier frequency supply device is shown in FIG. 2. In this embodiment, the microwave generator 3 has only one control input 22 . Within the microwave generator 3 , a high-frequency oscillator 36 has an output which is connected to the input of a directional coupler. The main branch of the directional coupler forms an output 19 , the secondary branch an output 20 of the microwave generator 3 . At the control input 22 , the output 39 of a filter switch 35 is connected. At one input 40 of the filter switch 35 is connected via the amplifier 11 and the filter 12 of the reference output 28 of the phase or frequency comparator 5 , to the other input 41 of the filter switch 35 via the modulation stage 13 of the analog modulation input 32 of the carrier stage. A phase modulator 39 , whose input 42 is a phase modulation input, is connected between the high-frequency output 29 of the carrier stage 1 and the output 34 of the carrier supply device.

In one embodiment of the invention according to FIG. 3, the output 33 of the reference oscillator 2 is connected to the reference inputs 31 ₁ ; 31 ₂ ; 31 ₃ ; 31 ₄ . . . several girder steps 1 ₁ ; 1 ₂ ; 1 ₃ ; 1 ₄ . . . closed on.

The frequencies (f ₁ ; f ₂ ; f ₃ ; f ₄ ...) Of the high-frequency signals generated by the carrier stages have different values for technical reasons. Accordingly, the sub-ratios of the frequency divider with programmable sub-ratio are different ( 1 / a ; 1 / b ; 1 / c ; 1 / d ...), The frequency divider in the individual carrier stages the feedback signals to the respective nominal value share. The reference oscillator 2 has two circuits (operating circuit 43 and reserve circuit 44 ) which generate reference signals with the same frequencies and whose outputs are connected to the output 33 of the reference oscillator 2 via a changeover switch 45 . The inputs of the carrier stages can be switched off from the output of the common reference oscillator with the help of further changeover switches (K ₁ ; K ₂ ; K ₃ ; K ₄ ...) And to the reference outputs ( 33 ₁ ; 33 ₂ ; 33 ₃ ; 33 ₄ . .) Reference units assigned to them ( 2 ₁ ; 2 ₂ ; 2 ₃ ; 2 ₄ ...) are connected to them.

In Figs. 4, 5 and 6 are examples of the invention An application shown in microwave relay stations, wherein the stabilization of the frequencies of the carrier levels is performed with a same reference signal, that a common reference oscillator is used.

Play in the example shown in FIG. 4 Ausführungsbei the reference inputs 31 ₁ and 31 ₂ of the support steps that of the same in the transmitter 1 ₁ and receiver 1 ₇ channel, the relay station are (z. B. NO. 1) are housed, to the output 33 of the reference oscillator 2 connected.

In the exemplary embodiment according to FIG. 5, the reference inputs 31 ₁ , 31 ₂ . . . 31 _{12 of} the carrier levels 1 ₁ , 1 ₂ , 1 ₃ . . . 1 ₁₂ all transmitters and receivers of a transmission band of a relay station connected to the output of the common reference oscillator 2 .

In the embodiment of the invention shown in FIG. 6, the reference inputs 31 ₁ - 31 ₁₂ and 31 ₁ - 31 _{16 of} the carrier stages 1 ₁ - 1 ₁₂ and 1 ₁ - 1 _{16 of} all transmitters and receivers of working in two different bands (4 GHz and 6 GHz) relay stations connected to the output 33 of the common reference oscillator 2 .

Claims (17)

1. Carrier frequency supply device for relay stations in the microwave range, with
a microwave generator ( 3 ),
a frequency divider ( 4 ) with programmable part ratio,
a phase or frequency comparator ( 5 ),
a reference oscillator ( 2 ), and with
a modulation level ( 13 ), wherein

• Frequency divider (4), frequency comparator (5) and the reference oscillator (2) form a feedback loop for controlling the frequency of the microwave generator (3),

characterized in that the modulation stage ( 13 ) is connected to a control input ( 22 ) of the microwave generator ( 3 ). 2. Device according to claim 1, characterized in that the microwave generator ( 3 ) has two control inputs, the first control input ( 21 ) to the output ( 28 ) of the phase or frequency comparator ( 5 ) and the second control input ( 22 ) is connected to the output of the modulation stage ( 13 ). 3. Apparatus according to claim 1, characterized in that the control input ( 22 ) of the microwave generator ( 3 ) via a filter switch ( 35 ) both to the output of the phase or frequency Kompara gate ( 5 ) and to the output of the modulation stage ( 13th ) connected. 4. The device according to claim 1, characterized in that between the output ( 29 ) of the carrier stage ( 1 ), which is formed from the microwave generator ( 3 ), modulation stage ( 13 ) and feedback loop ( 2, 4, 5 ), and the output ( 34 ) the carrier frequency supply device, an amplifier ( 15 ), a filter ( 16 ), a frequency multiplier ( 17 ), an isolator ( 18 ) and / or a phase modulator is (are) connected. 5. The device according to claim 1, characterized in that the frequency divider ( 4 ) has a plurality of frequency divider stages connected in series and between them provided analog microwave frequency divider ( 6 ), the divider chain containing at least one multi-digit frequency divider ( 8 ) with programmable part ratio. 6. The device according to claim 1, characterized in that in the frequency divider ( 4 ) at least one analog frequency divider stage ( 7 ) is provided with an adjustable part ratio. 7. Apparatus according to claim 5 or 6, characterized in that the analog frequency divider stage ( 6; 7 ) has an oscillating oscillator with a predetermined frequency value with an input which is tuned to a multiple of the oscillator oscillation frequency. 8. The device according to claim 5, characterized in that the part ratio of the multi-digit frequency divider ( 8 ) is fixed. 9. The device according to claim 5, characterized in that the programmable part of the multi-digit frequency divider ( 8 ) is connected to a digital modulation stage ( 14 ). 10. The device according to claim 1, characterized in that the output ( 28 ) of the phase or frequency comparator ( 5 ) is followed by at least one amplifier ( 11 ) and / or filter ( 12 ). 11. The device according to claim 2 or 3, characterized in that the or the control inputs ( 21; 22 ) of the microwave generator ( 3 ) lead to varactor diodes provided in the microwave generator. 12. The apparatus according to claim 1, characterized in that the output ( 37 ) of the reference oscillator ( 2 ) at reference inputs ( 31 ₁ ; 31 ₂ ; 31 ₃ ; 31 ₄ ...) of several carrier stages ( 1 ₁ ; 1 ₂ ; 1 ₃ ; 1 ₄ ...) Is connected. 13. Device according to one of claims 1 to 12, characterized in that the reference oscillator ( 2 ) each has at least one operating ( 43 ) and reserve oscillator ( 44 ), the outputs of which via switches ( 45 ; K ₁ , K ₂ ..) are connected to the reference input (s) ( 31; 31 ₁ , 31 ₂ ...) of the carrier stage (s). 14. The apparatus according to claim 12, characterized in that the reference inputs ( 31 ₁ , 31 ₇ ) of the carrier stages ( 1 ₁ , 1 ₇ ) of the transmitter and receiver belonging to the same transmission channel to the output ( 33 ) of a common reference oscillator ( 2nd ) are connected. 15. The apparatus according to claim 12, characterized in that the reference inputs ( 31 ₁ to 31 ₁₂ ) of the carrier stages ( 1 ₁ to 1 ₁₂ ) of each transmitter and receiver of a transmission (half) band of the relay station to the output ( 33 ) a common reference oscillator ( 2 ) are connected. 16. The apparatus according to claim 12, characterized in that the reference inputs ( 31 ₁ to 31 ₁₆ ) of the carrier stages ( 1 ₁ to 1 ₁₆ ) of all transmitters and receivers of the relay station working in several different bands (4 GHz, 6 GHz) to the Output ( 33 ) of a common reference oscillator ( 2 ) are connected.