HU177519B - Frequency synthetiser for generating pilot signals and subcarriers - 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

FIELD OF THE INVENTION The present invention relates to a frequency synthesizer, a pilot signal and auxiliary carrier, comprising an auxiliary synthesizer unit connected to a base oscillator and a parallel synthesizer unit consisting of one or more signal synthesizer units connected in parallel to the output thereof.

In transmission equipment, different pilot signals and auxiliary carrier frequencies are required for their smooth operation. These signals with different frequencies are usually produced by two methods, one possible method being to generate each frequency with individual oscillators, or by synthesizing from a basic frequency. In synthesis, the desired frequency is obtained by sequentially applying frequency division, frequency filtering, modulation and frequency selection with a bandpass filter. The advantage of this frequency synthesizing method is that only one base frequency is to be checked at intervals and thus all the generated currents are set.

Such a frequency synthesizer is described in German Patent No. 1,260,546, which is owned by Siemens Company. The device uses 12 kHz as its assistant, synthesizing the desired group pilot using frequency dividers, filters and modulators using 25 kHz and 40 kHz, 48 kHz, 60 kHz, 72 kHz, 114 kHz, 100 kHz, 300 kHz and 420 kHz and 496 kHz signs and auxiliaries. These circuits are extremely complex, and the reference signal generator that produces the base frequencies needed for synthesis is complex. These sophisticated circuits make the synthesis of frequency synthesizers considerably more expensive, so these devices are generally used at larger stations.

The object of the present invention is to provide a frequency synthesizer with as few basic units as possible with greater variation.

The present invention has led to the discovery that the synthesizer apparatus can be greatly simplified by using a harmonic generator generating an odd multiple of 8 kHz as a base frequency, generating a 12.8 kHz auxiliary signal by pre-modulation, and generating by its auxiliaries and an — Pilot signals and auxiliary carriers in the 108 kHz band, such that when producing 1 to 1 associated pilot signals and auxiliary carriers with a single independent unit, these units are connected in parallel to its auxiliary and reference unit. The use of even pitch dividers used in each synthesizer unit simplifies the construction of the selection band filters. furthermore, when appropriate intermediate frequencies are used, interfering modulation products are far removed from useful signals, which also leads to simplification of filters.

Accordingly, it is an object of the present invention to provide a frequency synthesizer, pilot signals and auxiliary carriers having a base oscillator and an auxiliary synthesizer unit having a set point input, consisting of band filters, modulators and frequency dividers, and at least one signal synthesizer unit. The essence of the invention is that its base oscillator is a harmonic oscillator generating an odd multiple of 8 kHz. Its auxiliary synthesizer unit consists of a 168 kHz bandpass filter. 1/10 frequency divider, 16.8 kHz bandpass filter. a first circuit consisting of a modulator, a 120.8 kHz bandpass filter, an I / 10 frequency divider, a 12.08 kHz bandpass filter, and preferably an amplifier, and a second circuit of a 104kHz bandpass filter and preferably an amplifier having two inputs the synthesizer unit reference input and the first circuit output its output while the second circuit output is connected to the other input of the modulator in the first chain. The output of the auxiliary synthesizer unit is connected to the auxiliary input of the signal synthesizer unit (s). The first synthesizer unit is one. a first circuit consisting of a modulator connected to its auxiliary input, an 84.08 kHz bandpass filter and an amplifier, and a second circuit consisting of a 72kHz bandpass and preferably an amplifier connected to the setpoint input, wherein the output of the second circuit is on the other hand, it forms the auxiliary carrier output, while the output of the first chain forms the pilot signal output. The second signal synthesizer unit comprises a first circuit consisting of a modulator connected to the auxiliary input, an 84.14 kHz bandpass filter and preferably an amplifier and a 1/4 pitch divider, 9.06kHz bandpass filter, modulator, 72.06kHz bandpass filter and a second circuit consisting of an amplifier and connected to the setpoint input. It consists of a third circuit consisting of a 168 kHz bandpass filter, a 1/8 pitch frequency divider, a 63kHz bandpass filter, and preferably an amplifier, wherein the output of the third chain is connected to the second input of the second chain modulator and the output of the second on the other hand, it forms the auxiliary carrier output, while the output of the first chain is the pilot signal output. The third signal synthesizer unit comprises a first circuit consisting of a modulator connected to its auxiliary input, a 104.08 kHz bandpass filter and preferably an amplifier. and a second circuit consisting of an 184 kHz bandpass filter connected to the setpoint input, a 1/2 divider, a 92 kHz bandpass filter and preferably an amplifier, the output of the second chain being connected to the other input of the first chain modulator. on the other hand, it forms the auxiliary carrier output, while the output of the first chain is the pilot signal output.

The invention will be explained in more detail by reference to the figure:

The apparatus according to the invention comprises an auxiliary synthesizer I of a harmonic oscillator 1 generating odd multiples of 8 kHz, output to which is output a setpoint input 43, 44, 45, 46, from a synthesizer unit, III. signal synthesizer unit and IV. consists of a signal synthesizer unit. The 42 outputs of the I auxiliary synthesizer unit 42 are connected to the 47,48,49 auxiliaries of the II, III, IV signal synthesizer units. The I auxiliary signal synthesizer unit provides 12.08 kHz auxiliary signals at its 42 outputs. II. the signal synthesizer unit 36 outputs an 84.08 kHz pilot signal and outputs 37 outputs a 72 kHz auxiliary carrier. In III. the signal synthesizer unit 38 outputs 84.14 kHz pilot signal and 39 outputs 72.06 kHz auxiliary fencer. The IV. the signal synthesizer unit 40 outputs a 104.08 kHz pilot signal and outputs a 92 kHz auxiliary carrier.

The setpoint input 43 of the auxiliary synthesizer unit 1 is connected to two signal generator circuits. The input of the first circuit is the input of the bandpass filter 2, 168 kHz, and its output to a frequency divider 3 of 1/10 pitch, its output to the bandpass filter 4, 16.8 kHz, its output to an input of modulator 5 and output of modulator 5. , Through a bandpass filter 6 of 8 kHz, to a frequency divider 7 of 1/10. The output of the frequency divider 7 is connected to the output 42 via a bandpass filter 8 and an amplifier 10 designed for 12.8 kHz. The other circuit is the input of the bandpass filter 9, which is sized to 104 kHz, the output of which is connected via amplifier 11 to the other input of modulator 5.

The bandwidth filters 2/9 in the first chain and the second chain are simple in construction, since there are only unmatched harmonics in the reference signal provided by the harmonic generator 1. The frequency divider 3 has an even pitch ratio and therefore provides a 1: 1 signal / pause square signal at its output. This means that the multiples of the 16.8 kHz even number are virtually non-existent, which also means simplifying the structure of the 4 band filters. The frequency of the two signals to the modulator 5 is such that a high level component of the modulation products does not fall near the useful signal, 120.8 kHz, so that the bandpass filter 6 is composed of few elements. The frequency divider 7 is also an even ratio and therefore the bandwidth filter 8 tuned to 12.8 kHz is a simple ifchet. It generates sine signals from rectangular signals on its bar filters 8 and is mounted on output 42 at amplifier 10.

II. the signal input 44 of the signal synthesizer unit is connected to the bandpass filter 14, which is tuned to 72 kHz and amplified on the amplifier 16 to the other input of the modulator 12 and to the output 37. Auxiliary input 47 is connected to an input of modulator 12. The output of the modulator 12 is coupled to the output 36 via a bandpass filter 13 and an amplifier 15 tuned to 84.08 kHz. The first chain of modulator 12 provides a pilot signal 13 and a amplifier 15 provides a pilot signal, and a second chain of band filter 14 and amplifier 16 provides the auxiliary carrier and the first modulator's carrier signal. Due to the appropriate choice of frequencies, the interfering components are far from the useful signal at 84.08 kHz, so that the bandpass filter 13 may be small in number.

In III. The signal synthesizer unit consists of a first, a second and a third chain. The first and second circuit inputs are connected to the auxiliary input 48, while the third chain input is connected to the setpoint input 45. The output of the first chain is connected to the output 38, the output of the second chain to the output 39, and to the other input of the modulator 17 in the first chain. The third chain provides a 63 kHz carrier to the other input of modulator 22 in the second chain. The first circuit consists of 17 modulators, 18 band tuners 18 tuned to its output and 19 amplifiers. The second circuit consists of a frequency divider 20 consisting of a 1/4 pitch bandpass filter 21 tuned to 9.06 kHz, a modulator 22, a bandpass filter 23 tuned to 72 ^ 06 kHz and 24 amplifiers. The third rack consists of ad68 kHz tuned 25 band filters, a 1/8 oscillation 26 feeder ponds, and 63 kHz tuned 27 band filters and 28 amplifiers. The 12.08 kHz input to the auxiliary input 48 is the input signal of modulator 17 and frequency divider 20. The frequency divider 20 divides the signal in a 1: 4 ratio, and the third harmonic of the 3.02 kHz square signal at the output 1: 1, 9.06 kHz, is selected by the bandpass filter 21. Given that the frequency divider 20 provides a signal that does not contain an even component, the bandpass filter 21 may be of simple construction. Of the interfering frequencies provided by the modulator 22, only the 81.12 kHz frequency is in the vicinity of the 72.06 kHz payload, so the bandpass filter is relatively simple in design. In the first chain, the signal generated by the modulator 17 can be used to generate a 84.14 kHz payload using a relatively simple bandpass filter 18, since it only needs to suppress the 72.06 kHz and 59.98 kHz lower sideband. The third circuit selects the required signal from the reference signal of the harmonic oscillator 1 by means of a bandpass filter 25 tuned to 168 kHz and divides it by the frequency divider 26 in a ratio of 1: 8. The third harmonic of the output 21 kHz square signal is selected by the bandpass filter 27 and its output 63 kHz amplified on amplifier 28 forms the carrier signal of modulator 22.

The IV. the signal synthesizer unit is made up of a first and a second chain. The auxiliary 49 of the first circuit is connected to its input, while its output is connected to the output 40 which provides the 104.08 kHz pilot signal. The input of the second circuit is connected to the setpoint input 46, and its output is connected to the other input of the modulator 29 of the first chain and to the output 41 of the 92 kHz auxiliary carrier. The first circuit consists of a modulator 29, a bandpass filter 30 designed to 104.08 kHz, and an amplifier 31. The second circuit consists of a bandpass filter 32 scaled to 184 kHz, a frequency divider 33 having a 1/2 ratio, a bandwidth filter 34 scaled to 92 kHz and an amplifier 35.

The 184 kHz selected by the bandpass filter 32 is digitally divided by the frequency divider 33 so that its output displays a 1: 1 rectangular signal that contains virtually only unmatched harmonics. Therefore, the bandpass filter 34 is extremely simple in construction. The output 92 kHz signal is sinusoidal, since it contains only the basic harmonic and is used as an auxiliary carrier on the one hand and on the other input of the first circuit modulator 29 which produces a pilot frequency of 104.08 kHz. The bandpass filter 30, which is connected to the output of modulator 29, must have greater attenuation at only the carrier frequency of 92 kHz and the lower side frequency of 79.92 kHz, so that the required attenuation is automatically provided.

The frequency synthesizer constructed in this way has a minimal number of elements and the circuits used therein are relatively extremely simple in construction, since e.g. the use of an even numbering ratio in the construction of frequency dividers means that the quadrature signal at the output contains practically only an odd number of harmonics, which allows for a very simple filter construction: e.g. when used in harmonic mode, the filter consists of a single oscillating circuit. The choice of intermediate modulation and auxiliary frequencies is such that interfering modulation products do not fall close to the useful signals, which also leads to simplification of the filters. The reference signal is provided by a single harmonic oscillator, and as a result, the frequency accuracy and stability of all output signals is the same as the accuracy and stability of the reference signal. Another advantage of the design is that, contrary to conventional solutions, channel carriers are not used for synthesis, so that in the event of channel carrier outage, pilot signals are not lost and this increases the reliability of the system.

The assembly of the units also simplifies manufacture and use, since each of the synthesizer units can be replaced, removed, but their removal or removal does not affect the operation of the other synthesizer units.

Claims (1)

Claim: Frequency synthesizer for producing pilot signals and sub-carriers having a base oscillator and auxiliary signal synthesizer auxiliary synthesizer unit having at least one harmonic oscillator and a base oscillator having at least one harmonic oscillator, and having at least one signal oscillator auxiliary synthesizer unit (I), on the one hand, a - 168 kHz bandpass filter (2), a 1/10 frequency divider (3), a 16.8 kHz bandpass filter (4), a modulator (5), A first circuit consisting of a 120.8 kHz bandpass filter (6), a 1/10 frequency divider (7), a 12.08 kHz bandpass filter (8) and preferably an amplifier (10) and a 104 kHz bandpass filter ( 9) and preferably comprises an amplifier (11), a second chain, wherein the inputs of the two strands form the reference signal input (43) of the auxiliary synthesizer unit (I), the output of the first chain and its output (42). is connected to the other input of the modulator (5) in the chain and the output (42) of the auxiliary synthesizer unit (42) is connected to the auxiliary input (s) (47, 48, 49) of the signal synthesizer unit (s) and unit (II) of a first circuit connected to its auxiliary input (47) consisting of a modulator (12), an 84.08 kHz bandpass filter (13) and preferably an amplifier (15) and connected to the reference signal input (44). kHz band filter (14) and el preferably consisting of an amplifier (16) - a second circuit in which the output of the second chain is connected to the other input of the first chain modulator (12) and forms an auxiliary carrier output (37) while the output of the first chain is the pilot signal output (36) make up; the second signal synthesizer unit (III), a first circuit consisting of a modulator (17), an 84.14 kHz bandpass filter (18) and preferably an amplifier (19) connected to its auxiliary input (48) and a frequency divider (I / 4) 208), a second circuit consisting of a 9.06 kHz bandpass filter (21), a modulator (22), a 72.06 kHz bandpass filter (23) and preferably an amplifier (24) connected to the reference signal input (45), a third circuit consisting of a bandpass filter (25), a 1/8 frequency divider (26), a 63kHz bandpass filter (27) and preferably an amplifier (28), wherein the output of the third chain is the second connected to its input, the output of the second chain is connected to the other input of the first chain modulator (17) and forms the auxiliary carrier output (39) while the output of the first chain is the pilot signal output (38); the third signal synthesizer unit is preferably constructed from an amplifier (35) to a second circuit, wherein the output of the second chain is connected to the other input of the first chain modulator (29) and forms the auxiliary carrier output (41); (40). (IV) a first circuit consisting of a modulator (29), a 104.08 kHz bandpass filter (30) connected to its auxiliary input (49), and an 184 kHz bandpass filter (46) connected to the setpoint input (46) ( 32), 1/2 frequency divider (33), 92 kHz bandpass filter (34), and 5