RU2079972C1 - Device for transmitting and receiving additional information signal over frequency-modulated broadcasting channel - Google Patents

Abstract

FIELD: information transceiving facilities. SUBSTANCE: additional information of adjustable amplifier is introduced in signal transmission channel; amplifier gain control is effected with respect to total part A+B of complex stereo signal spectrum. Similar processing of complex stereo signal during reception of combined signal enables recovery of constant additional information signal level. EFFECT: provision for nondistorted transmission of both broadcasting signal and additional information when used in personal radio communication systems, etc. 2 cl, 4 dwg

Description

 The invention relates to means for transmitting and receiving additional information on conventional broadcast channels, for example, for transmitting code or symbolic messages together with a broadcast program. In particular, the invention can be used in personal radio call systems.

Currently known broadcasting systems using frequency modulation (FM) of the carrier, in which along with the broadcast signal, additional information is transmitted [1]
Closest to this invention is an FM broadcast system with additional information transmission described in the patent [2] The transmitting part of this system contains a broadcast signal conditioner, a device for transmitting an additional information signal on a frequency modulated broadcast channel, comprising a broadcast signal conditioner, a subcarrier generator, the output of which is connected to the reference input of the additional signal driver, the information input of which is the input of the device, delay unit, total OP, the output of which is connected to the input of the frequency modulation unit, the output of which is the output of the device. The receiving part of this system contains a frequency demodulation unit, a device for receiving an additional information signal on frequency-modulated broadcast channels, containing a frequency demodulation unit, the input of which is the input of the device, and the output is connected to the inputs of the band-pass filter and the broadcast signal extractor, the first and second filters low frequencies and a demodulator of the additional information signal, the output of which is the output of the device.

 In this system, additional information (recognition signal) is transmitted by modulating the subcarrier frequency and is located in the gap between the total and difference parts of the spectrum of a complex stereo signal (CCC). This system does not provide any gain controls.

 Such gain control in both the transmitting and receiving parts of the FM system is known (application PTC N 8902199, class H 04 H 5/00, publ. 1989) and provides encoding of the audio signal in accordance with a specific characteristic and its decoding. Other gain adjustments are known (US Pat. Nos. 4,466,119, class H 03 G 3/20, publ. 1984, N 5130665, class H 03 G 3/20, publ. 1992), which provide monitoring of the volume level of the transmitted signal. There are also systems in which the sound is turned off under certain conditions (UK patents N 2059702, CL H 03 G 3/28, publ. 1981 and N 2124842, CL H 03 G 3/28, publ. 1984).

 However, all of these amplification control systems, when used in the FM broadcasting system with the transmission of additional information, are not able to eliminate the disadvantage inherent in this system, which is as follows. Additional information and the broadcast signal are not connected in any way, but are transmitted together, forming a single FM signal with a common spectrum. As a result, when the broadcast signal changes in intensity (in volume), the frequency components of the additional information signal remain unchanged in amplitude. This leads to the fact that these constant components can either “sink” in a powerful broadcast signal, which causes loss in the transmission of additional information, or “bulge” out of it so that extraneous sounds that are unacceptable in high-quality stereo transmission are heard at the reception.

 The objective of this invention is to develop such devices for transmitting and receiving a signal of additional information on the FM broadcast channel, in which both transmitted signals would vary in amplitude equally depending on the power (volume) of the broadcast signal, i.e. so that the ratio of the amplitudes between the components of the additional information signal and the average level of the spectrum of the broadcast signal is maintained approximately the same.

 To achieve this technical result, a device for transmitting an additional information signal through a frequency-modulated broadcast channel, comprising a broadcast signal conditioner, a subcarrier generator, the output of which is connected to a reference input of the additional information signal conditioner, the information input of which is the device input, delay unit, adder, the output of which is connected to the input of the frequency modulation unit, the output of which is the output of the device into which the adjustable amplifier and the connected in series with a first low-pass filter, an amplitude detector and a second low-pass filter, the output of which is connected to the control input of an adjustable amplifier, the output of the broadcast signal conditioner is connected directly and through a delay unit, respectively, to the input of the first low-pass filter and to the first input of the adder, the output of the signal conditioner additional information is connected to the information input of an adjustable amplifier, the output of which is connected to the second input of the adder.

 To achieve the same technical result, in a device for receiving a signal of additional information on a broadcast channel with frequency modulation, containing a frequency demodulation unit, the input of which is the input of the device, and the output is connected to the inputs of the band-pass filter and the highlight of the broadcast signal, the first and second low-pass filters and the demodulator of the additional information signal, the output of which is the output of the device into which the adjustable amplifier and the amplitude detector are inserted, the output of the bandpass filter is connected to nformatsionnomu input of the adjustable amplifier, whose output is connected with an input of the demodulator signal additional information input of the first lowpass filter connected to the output of the frequency demodulation unit, an output of the first lowpass filter through series-connected amplitude detector and a second lowpass filter connected to a control input of the controlled amplifier.

 Objects with the above sets of essential features are unknown from the existing level of technology, which allows us to consider the present invention to satisfy the condition of patentability "novelty."

 As for the sets of distinctive features of both devices under consideration, objects with similar sets of essential features are known from the prior art (for example, UK patent N 2110489, CL H 03 G 3/20, publ. 1983). However, firstly, these known sets of features are exactly similar, but not identical to those declared, and secondly, in known objects these sets serve other purposes than in the devices of this invention. In addition, when supplementing the set of features known from the selected prototype with the indicated distinguishing features, the devices under consideration provide approximately the same change in the components of the overall frequency spectrum with changes in the power (volume) of the broadcast signal, i.e., a new result is achieved, which is absent both in the prototype and in other famous sites. Therefore, the invention in question can be considered consistent with the patentability condition "inventive step".

 The invention is illustrated by drawings, where in FIG. 1 and 2 are functional diagrams, respectively, of a device for transmitting an additional information signal on an FM broadcast channel and a device for receiving this signal; FIG. 3 shows a spectrum view of a transmitted signal, and FIG. 4 illustrates changes in this spectrum with changes in broadcast signal strength.

 A device for transmitting an additional information signal through an FM broadcast channel contains (Fig. 1) an additional information signal shaper 1, the information input of which is an input of the device 21, and the output of a subcarrier generator 2 is connected to the reference input of the shaper 1. The output of the additional information signal generator 1 is connected to the information input of the adjustable amplifier 3, the output of which is connected to the first input of the adder 4. The device also includes a broadcast signal generator 6, the output of which is connected to the inputs of the delay unit 7 and the first low-pass filter (LPF). The output of the low-pass filter 8 through a series-connected amplitude detector 9 and the second low-pass filter 10 is connected to the control input of the adjustable amplifier 3. The output of the delay unit 7 is connected to the second input of the adder 4, the output of which is connected to the input of the frequency modulation block 5, the output of which is the output 22 of the transmission device .

 A device for receiving a signal of additional information on the FM broadcast channel contains (Fig. 2) a frequency demodulation unit 11, the input of which is an input of the device 23, and the output is connected to the inputs of the isolator 12 of the broadcast signal of the band-pass filter 13 and the first low-pass filter 16. The output of the band-pass filter 13 is connected with the information input of the adjustable amplifier 14, the output of which is connected to the input of the demodulator 15 of the additional information signal, the output of which is the output 24 of the device for receiving. The output of the low-pass filter 16 through a series-connected amplitude detector 17 and the second low-pass filter 18 is connected to the control input of the adjustable amplifier 14.

 Shaper 1 signal of additional information can be performed in the same way as in the prototype, and is used to obtain frequency components located in the gap between the total and difference parts of the spectrum of a complex stereo signal (KSS). When choosing the frequency of the generator 2 subcarrier equal to 31.25 kHz, a signal with a frequency of 15.625 kHz is generated at the output of the former 1, other harmonics of the frequencies 31.25 kHz and 15.625 kHz, for example, 52.5 kHz or 46.875 kHz, can also be used.

 Shaper 6 of the broadcast signal can have any execution, including as in the prototype, and serves to obtain the frequency spectrum of the signal transmitted as basic information on the broadcast channel. This can be, for example, a complex stereo signal (KSS), the spectrum of which contains the total part A + B and the differential part A B (see Fig. 3).

 The frequency modulation unit 5 includes, for example, a carrier generator and a frequency modulator and serves to generate an FM signal transmitted over a broadcast channel (for example, a radio channel). Block 5 may include other parts of the frequency multiplier, power amplifier, etc. necessary to receive a given signal. The specific form of block 5, as well as formers 1 and 6, is not the subject of this invention.

 The first low-pass filter 8 serves to extract from the KSS its total spectral part A + B (see Fig. 3), because it contains information about the power (volume) of the broadcast signal. The second low-pass filter 10 is designed to smooth out the detected bending to eliminate sudden jumps.

 The delay unit 7 is necessary for time alignment of the KSS passage circuits from the former 6 to different inputs of the adder 4, i.e. so that the adjustment of the amplifier 3 was carried out at the same time when the change in the CCC that causes this adjustment comes to the other input of the adder 4.

 The frequency demodulation unit 11 (Fig. 2) includes at least a reference oscillator and a frequency demodulator, but may also contain other elements of the receiving path (high and intermediate frequency amplifiers, mixer, etc.). It can be performed, in particular, as in the prototype or otherwise, which does not apply to the subject of this invention.

 Similarly, it is not the subject of the invention and the implementation of the separator 12 broadcast signal. This implementation depends on the type of such a signal and may be, in particular, the same as in the prototype.

 The band-pass filter 13 serves to isolate components from the spectrum of the received signal near, for example, the frequency of 15.625 kHz, where the components of the signal of additional information are concentrated. Alternatively, components can also be distinguished at a frequency of 15.625 kHz, as well as at frequencies of 62.5 kHz or 46.875 kHz, if the transmitted signal at these frequencies also contains components of the additional information signal. The band-pass filter 13 also includes a delay circuit, similar in function to block 7.

 The demodulator 15 of the additional information signal provides the selection of the signal corresponding to the signal at the input 21 of the device for transmission, and may have any suitable implementation, including such as in the selected prototype. This embodiment is also not the subject of the present invention.

 Filters 16, 18 and amplitude detector 17 are similar to blocks 8, 10 and 9 of the transmission device.

 The adjustable amplifiers 3 and 14 differ from each other in that the amplifier 3 in the transmission device provides an increase in gain with increasing signal at the control input, and the amplifier 14 in the device for receiving provides the same decrease in gain with the same increase in signal at the control input .

 The considered devices work as follows.

 In the transmission device (Fig. 1), additional information to be transmitted is input to the input 21 in the form, for example, of a conventional binary code without returning to zero. In the driver 1 of the additional information signal, the subcarrier frequency is modulated by this input signal from the generator 2. As a result, a signal is generated that is located on the frequency axis near the frequency of 15.625 kHz, which is fed to the information input of the adjustable amplifier 3. At the same time, a complex stereo signal is generated in the driver 5 of the broadcast signal in the form of total (A + B) and difference (AB) components of the spectrum. This signal, delayed in delay unit 7, is fed to one of the inputs of adder 4. At the same time, this signal is fed to the low-pass filter 8, which selects only the total part (A + B) of the KSS spectrum, which is then detected by amplitude by detector 9, is smoothed into The low-pass filter 10 and is fed to the control input of the adjustable amplifier 3. In this case, the amplitude of the additional information signal changes in accordance with changes in the volume of the stereo signal. Thus, at the inputs of the adder 4 KSS and changing in accordance with the volume of the latter signal of additional information (see Fig. 4). The total signal (Fig. 3) is fed to block 5, where an FM signal is generated for transmission by the broadcast signal and fed to input 22 of the transmission device. The input 23 of the device for receiving (Fig. 2) receives the signal transmitted from the output of the 22 device for transmitting, which is amplified, converted and demodulated in frequency in block 11. The output of block 11 receives a signal (Fig. 3), which represents the sum of the broadcast signal and signal additional information. The broadcast signal is allocated by block 12, for example, to listen to a stereo transmission. The components of the additional information signal (near at least a frequency of 15.625 kHz) are selected by a band-pass filter 13 and fed to the information input of the adjustable amplifier 14. At the same time, the low-pass filter 16 extracts the total part (A + B) from the signal from the output of block 11, which is detected by the amplitude of the detector 17, is smoothed in the low-pass filter 18 and is fed to the control input of the adjustable amplifier 14. At the input of this amplifier 14, a signal of additional information of a constant level is allocated, which is fed to the demodulator 15. As a result, 24 oystva for receiving the supplied binary signal similar to the signal at the input 21 the device for transfer.

 Thus, due to the above described embodiment of the transmission device and the reception device, it is possible to adjust the magnitude of the additional information signal in the combined spectrum of the transmitted signal depending on the volume of the broadcast signal. As a result, the additional information signal, on the one hand, is not lost when large volumes appear, and on the other hand, it does not interfere with the reception of a low-volume broadcast signal.

Claims (2)

 1. A device for transmitting a signal of additional information on a frequency-modulated broadcast channel, comprising a broadcast signal conditioner, a subcarrier generator, the output of which is connected to a reference input of the additional information signal conditioner, the information input of which is the device input, delay unit, adder, the output of which is connected to the input of the frequency modulation unit, the output of which is the output of the device, characterized in that an adjustable amplifier and connected in series a low-pass filter, an amplitude detector and a second low-pass filter, the output of which is connected to the control input of the adjustable amplifier, while the output of the broadcast signal conditioner is connected directly and through the delay unit to the input of the first low-pass filter and to the first input of the adder, the output of the signal conditioner additional information is connected to the information input of an adjustable amplifier, the output of which is connected to the second input of the adder.  2. A device for receiving a signal of additional information on a broadcast channel with frequency modulation, comprising a frequency demodulation unit, the input of which is the input of the device, and the output is connected to the inputs of a band-pass filter and a separator of the broadcast signal, the first and second low-pass filters and a demodulator of the additional information signal, the output of which is the output of the device, characterized in that an adjustable amplifier and an amplitude detector are introduced into it, the output of the bandpass filter is connected to the information input uemogo amplifier whose output is connected to the input signal of the demodulator of additional information of the first low pass filter input is connected to the output of the frequency demodulation unit, and an output serially connected through an amplitude detector and a second lowpass filter connected to a control input of the controlled amplifier.

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