DD148131A5 - FREQUENCY SYNTHETIZER FOR GENERATING PILOT SIGNALS AND HELPERS - Google Patents

Abstract

The invention relates to a frequency synthesizer for generating pilot signals and Hilfsstraegern, which is characterized by a particularly simple structure, in particular the bandpass filter used. It contains an auxiliary synthesizer I and one or more signal synthesizers II, III, IV. The arrangement of the filters, amplifiers, frequency dividers, modulators 5, 12, 17, 22, 29, and the harmonic generator 1 used can be seen from the block diagram. The solution principle lies in the fact that the input signal used is a fundamental signal containing a frequency of 8 kHz and its integer, preferably odd-numbered multiples, and from which an auxiliary signal of 12.08 kHz is formed by pre-modulation, whereupon the corresponding auxiliary and fundamental signal is converted required pilot signals are generated. Expediently, each pilot signal is formed with the associated auxiliary carrier in a separate unit. The frequency divider preferably divide even. Preferably, intermediate frequencies are used whose disturbing modulation products do not fall in the vicinity of the useful signals.

Description

12656 57 4L -IV y.43 -f-

Frequency synthesizer for generating pilot signals and subcarrier *!

Field of application of the invention;

The invention relates to a suitable for the production of pilot signals and subcarriers "Frequenzsynthetisa- tor _f the output of an auxiliary signals producing auxiliary synthesizer and further includes at least one signal synthesizer, the latter at its first output pilot signals and at its second output an auxiliary carrier with 12 , 08 kHz low frequency than that

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Pilot signal outputs »Here, the two synthesizers are connected to each other at the basic signals emitting first inputs, further comprises the frequency synthesizer band filter, modulators, amplifiers and 2weckmäßig frequency divider, wherein the second input of the signal synthesizer is connected to the output of the auxiliary synthesizer _o The inventive device provides the common in the transmission technology pilot signals and subcarriers with parameters that meet the CCITT requirements.

C h arakteristik the known technical solutions:

Pilot signals and subcarriers of different frequencies are required for interference-free operation of technical equipment. These signals of different frequencies are generally generated by two different methods. In the first, each individual required frequency is generated by its own oscillator. In this method, the frequencies of the signals generated by the individual oscillators must be controlled frequently. In the second method, the required frequencies are generated from a fundamental frequency by synthesis. For this purpose, although more complicated circuits are required than in the first method, but here is only the control of a single frequency, the fundamental frequency required. The circuits generally include frequency dividing, multiplying and modulating elements, band filters and amplifiers. described in DE-PS 1 260 546. With this device, the required frequencies (40, 48, 60, 72, 100, 114, 300, 420 and 496 kHz) with the help of an auxiliary signal

of 12 kHz synthesized in different groupings and. thereby generating the desired pilot signals and subcarriers. The circuits used are complicated, the basic signal supplying unit even extremely complicated-This of course affects the manufacturing price of the frequency synthesizer, which is why such devices are generally used only in larger stations »

The aim of the invention is to provide a frequency synthesizer with which the pilot signals and the corresponding subcarriers of the desired frequency (84.08 kHz, 84.14-lcHz, 104.08 lhz) can be produced using as few basic units as possible,

de S _- W ith the inventions;

The invention is based on the finding that the structure of the frequency synthesizer can be significantly simplified if the input signal used is a frequency of 8 kHz and its integer, preferably odd multiples containing basic signal and from this by Vormodulation an auxiliary signal of 12.08 IcHz is formed , whereupon by appropriate conversion of the auxiliary signal and the basic signal, the required pilot signals are generated. A further simplification can be achieved by forming each pilot signal with the associated subcarrier in a separate unit. The even division ratios used in the frequency division simplify the construction of the bandpass filters. Intermediate frequencies are preferably used.

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whose disturbing modulation products do not fall in the vicinity of the Hutzsignale. The invention has for its object to provide an improved, for the production of pilot signals and subcarrier serving frequency synthesizer, which contains at its output an auxiliary signal generating auxiliary synthesizer and further at least one operating in the manner described signal synthesizer, wherein the two synthesizers at their basic signals are further connected to one another and further wherein band filter, modulators, amplifiers and expedient frequency divider are provided and the second input of the signal synthesizer is connected to the output of the auxiliary synthesizer

 According to the invention, this object is achieved in that at the input of the auxiliary synthesizer, the common circuit point of two from a basic signal consisting of a harmonic fundamental of 8 kHz and their odd-numbered multiples, signals of 104 kHz and 168 IcHz ausfilternden input band filters, the Ausgangsklemmender Input band filter to which the output signal of 12.08 kHz of the auxiliary synthesizer generating circuit are connected, that the signal synthesizer includes a subcarrier generating filter circuit and a pilot signals having a frequency of 84.08 kHz, 84.14 kHz or 1o4.08 kHz generating synthesizer circuit the filter circuit has a bandpass filter and its input is connected to the first input of the signal synthesizer, its output is connected to the output of the signal synthesizer formed from the basic signal, while the input of the synthesizer circuit is connected to the second egg the signal synthesizer is connected. The synthesizer circuit includes a modulator whose inputs have one with the second input:

and the other is connected to the output of the filter circuit, the synthesizer circuit being connected between the input of the modulator and the first output of the signal synthesizer »

In a preferred embodiment of the inventive frequency synthesizer, the input bandpass filter is the signal synthesizer producing the signal of 84.08 kHz

- suitable for the selection of a signal of 72 kHz, while the input band filter of the 84.14 kHz signal synthesizing the synthesizer zor Aassiebang a signal with the frequency of 168 kHz and the input bandpass filter of the signal of 104.08 kHz forming Signalynthetisatoi'S filtering a In a further preferred embodiment, the frequency divider has an even-numbered division ratio. The inventive device may consist of very few

  Elements are made in the form of larger units, the circuits used in them being simple »The construction of units simplifies the production and also the use,

Embodiment;,

In one embodiment, the invention will be explained in more detail below with reference to the drawing. The drawing shows the block diagram of the frequency synthesizer according to the invention.

To the input 43 of the auxiliary synthesizer I of the device according to the invention, a harmonic generator 1 is connected, which generates a fundamental signal containing the fundamental frequency of 8 IcHz and their odd multiples.

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The output 42 of the Kilfssynthetisators 1 is connected via an input 47 to the signal synthesizer II, an input 48 to the signal synthesizer III and an input 49 to the signal synthesizer IV. The basic signal of the generator 1 reaches the inputs 44, 45 and 46 of the signal synthesizers II, III and IV. The auxiliary synthesizer I generates at its output 42 an auxiliary signal produced from the basic signal with a frequency of 12.08 kHz. From the basic signal and the auxiliary signal, the synthesizer II generates at its output 36 a pilot signal of 84.08 IsHz, at its output 37 a subcarrier of 72 lcHz, the signal synthesizer III at its output 38 a pilot signal of 84.14 lcHz and its output 39th a subcarrier of 72.06 ItHz, while the signal synthesizer IV at its output. The base signal input 43 of the auxiliary synthesizer I is connected to two series-connected signal-generating series circuits. The input of the first series circuit is formed by an input filter 2 tuned to 168 MIz. the output of which is connected to the one input of a modulator 5 via a frequency divider 3 with a ratio of 1:10 and a 16.8 kHz tuned bandpass filter 4. The modulator 5 is connected to the output 42 via a band filter 6 tuned to 120.8 kHz, a frequency divider 7 having a division ratio of 1:10, a band filter 8 tuned to 12.8 kHz and an amplifier. The second series circuit, which contains only one 104 kHz tuned input bandpass filter 9 and a subsequent amplifier 11, is connected to the other input of the modulator 5 via the output of the amplifier 11.

The input band-pass filter 2 and 9 of the first and second series circuits are simple in structure, because in the current supplied by the harnionischen generator 1 base signal only odd harmonics are contained ₀ The division ratio of the Frequenzteilars 3 is an even number, and consequently the ratio between signal and break is of at its Output appearing square wave signal 1s1. This means that the even multiples of the frequency of 16.8 kHz practically do not appear, which also simplifies the structure of the bandpass filter 4. The frequency of the two signals reaching the modulator 5 is such that no high-level component of the Fiodulationsprodukten falls in the vicinity of the desired useful signal of 120.8 kHZ, so that the band filter 6 can be composed of a few elements, "also even division ratio of the frequency divider 7 möglich.einen a simple structure of tuned to 12.8 kHZ band filter 8. The band filter 8 generates from the rectangular signals sinusoidal signals that get amplified via the amplifier 10 to the output 4-2. In the Signalynthetisator.il the auxiliary signal from the input 47 reaches the one input of a modulator 12, while the basic signal from the input 44 to an EingangsbandfiLter 14- passes. From the tuned to 72 kHZ input bandpass filter 14, the received signal, amplified by an amplifier 16, on the one hand to the other input of the modulator 12 and the other as an auxiliary carrier to the output 37 of the Signalyrithetisat.ors II. The output of the modulator 12 is above a band filter 13 tuned to 84.08 kHz and an amplifier 15 on the output of the signal synthesizer II forwarding the pilot signal of 84.08 MIZ. By a suitable choice of the frequencies, the interfering components are sufficiently removed from the

Wanted useful signal frequency of 84.08 KHz away, so that the .Bandfilter 13 can be constructed of a few elements. The signal synthesizer III includes three signal generating series circuits. At the input of the first and second series connection passes via the input 48, the auxiliary signal to the input 45 of the third series circuit, the basic signal. The output of a modulator 17, a bandpass filter 18 tuned to 84.14 kHz and a first series circuit including an amplifier 19 is connected to the output 38 of the signal synthesizer III supplying the pilot signal of 84.14 kHz. The output of a frequency divider 20 with a division ratio of 1 s4, a bandpass filter tuned to 9.06 kHz, a modulator '22, a bandpass filter tuned to 72.06 kHz and a second series circuit comprising amplifier 24 is connected to the output supplying the subcarrier 39 and connected to the modulator 17. The third series connection provides for the modulator 22 of the second series connection a carrier with the frequency of 63 kHz. The third series circuit consists of an input bandpass filter 25 tuned to 168 kHz, a frequency divider 26 with a division ratio of 1: 8, a bandpass filter 27 tuned to 63 kHz and an amplifier. The auxiliary signal of 12.08 kHz appearing at the input provides the input signal to the modulator 17 The frequency divider 20 divides the signal in the ratio of 1: 4, and from the appearing at the output, a signal-to-pau ratio of 1: 1 having square wave of 3.02 kHz is the third harmonic through the bandpass filter 21 ie a signal with the frequency of 9.06 kHz, selected. Since the signal supplied from the frequency divider 20 does not contain even-numbered components, the bandpass filter 21 can be easily constructed. From the modular

With the noise coming from the gate 22, only that with the frequency of 81.12 kHz falls in the vicinity of the useful signal of 72.06 kHz, so that the band filter can be constructed relatively simply. In the first series circuit from the signal generated by the modulator 17, the useful signal of 84.14 · ItHz can be produced with the relatively simple filter 18, because only the signals of the frequencies .72.06 kHz and 59.98 kHz have to be filtered out the third series circuit, the required signal is screened out of the basic signal by means of the tuned to 168 kHz input bandpass filter 25 and then divided by the frequency divider 26 in the ratio 1: 8. , From the appearing at the output square wave signal with the frequency of 21 kHz is selected by the band filter 27, the third harmonic. The signal of 63 kHz appearing at the output of the band filter 27 forms the carrier signal of the modulator 22 after amplification by the amplifier 28. The signal synthesizer IV is made up of two series circuits. The first series circuit contains an input 4-9 which outputs the auxiliary signal Modulator 29, a bandpass filter tuned to 104.08 kHz, and an amplifier 31 * its output is connected to output 104, which provides the pilot signal of 104.08 kHz. The second series connection is supplied via the input 46, the basic signal * Your output is on the one hand to the modulator 29 of the first series circuit and the other with the subcarrier of. 92 IcHz delivering output 41 connected. This series circuit consists of an input band filter 32 tuned to 184 kHz, a frequency divider 33 with a division ratio of 1: 2, a bandpass filter tuned to 92 kHz and an amplifier 35. The signal selected by the input bandpass filter

184 kHz is divided by the frequency divider 33 digitally in the ratio of 1: 2, ie appears at its output. a 1: 1 signal-to-noise ratio square wave signal containing practically only odd harmonics. Therefore, the band filter 34 can be extremely simple. The appearing at the output signal of 92 kHz is a sine wave signal, so contains only the harmonic fundamental »It passes on the one hand as an auxiliary carrier to the output 21 and the other to the second input of the modulator 29 of the first series circuit. The attenuation of the lying at the output of the modulator 29 band filter 30 must be greater only at the (Trägerfrequenz'von 92 kHz and the frequency of 79 _f 92 kHz, since the other harmonics are already so far away that the necessary attenuation of itself is present The frequency synthesizer according to the invention can be made up of few elements, and the circuits used in it are relatively simple since, because of the even division ratio, the rectangular signal appearing at the outputs of the frequency dividers contains practically only odd harmonics. and so simple that, for example, when using the fundamental harmonic oscillation, the filter consists of only one resonant circuit The intermediate modulation and auxiliary frequencies are chosen so that the disturbing modulation products do not fall in the vicinity of the useful signals, which is also the Ver simplification of the filter contributes. The fundamental signal is generated by a single harmonic generator, with the result that the accuracy and stability of the frequency of all output signals are identical to the accuracy and stability of the fundamental signal.

The · Irequenzsynthetisator invention also brings with it the advantage that are not used, the channel carrier of the telecommunications with him in contrast to the known solutions for synthesis "Accordingly, the pilot signals even if a failure of the channel support not listen to, d * h _e the reliability of the System is raised

 The construction of units simplifies the 'resting and the operation', the use, since the individual signal synthesizers can be replaced or taken out, without affecting the punctuation of the other Signalynthetisatoren.

Claims (3)

Inquiry: 1 Frequnzsynthetisator for generating pilot signals and subcarriers, which contains at its output an auxiliary signal generating auxiliary synthesizer and further at least one signal synthesizer which outputs at its first output pilot signals and at its second output a subcarrier with 12.08 kHz lower frequency than the pilot signal in which the two synthesizers are connected to each other at their first inputs passing the basic signals and having band filters, modulators, amplifiers and expediently frequency dividers and further wherein the second input of the signal synthesizer is connected to the output of the auxiliary synthesizer, characterized in that Input (43) of the auxiliary synthesizer (I). the common circuit point of two consists of a fundamental signal consisting of a harmonic fundamental of 8 kHz frequency and its odd multiples, signals of 104 · IcHz and 168 kHz filtering input band filters (9 »2), the output terminals of the input bandpass filters (9» 2) to which the output signal of .12.08 kHz of the auxiliary synthesizer (I) is connected, in that each signal synthesizer (II, III or IV) comprises a subcarrier generating filter circuit and pilot signals having a frequency of 84.08 kHz, 84.14 kHz or 104.08 kHz generating synthesizer circuit, the filter circuit having a bandpass filter (14, 25 or 32) and its input connected to the first input (44, 45 or 46) of the signal synthesizer (II, III or IV) during its output at the output formed by the basic signal subcarrier (37, 39 »4-1) of the signal synthesizer (II, III or IV) that the Einga ng the synthesizer circuit to the second input (47, 48 or 49) of the Signal synthesizer (II, III or IV) is connected, that the synthesizer attitude contains a modulator (12,17 or 29), is connected from the inputs of the one with the second input and the other with the Aasgang the Filterschältung that the synthesizer circuit between the Input of the modulator (12, 17 or 29) and the first output (36, 38 or 40) of the signal synthesizer (II, III or IV) is switched on «, 2 frequency synthesizer according to item Ige-H et, characterized in that the signal of 84 ₅ 08 IcHz generating signal synthesizer (II) with a 72 MIz tuned input bandpass filter (14), the signal of 84.14 kHz generating signal synthesizer (III ) with an input band pass filter (25) tuned to 168 kHz and the signal synthesizer (IV) generating the signal of 104.08 kHz with an input band pass filter (32) tuned to 184 lcHz, 3. frequency synthesizer according to item 1 or 2, characterized in that the (division ratio of the frequency synthesizer used in the auxiliary synthesizer (I) and the signal synthesizer (III or IV) (3, 7, 20, 26, 33) is even. For this 1 page drawings