RU2114442C1 - Device for transmission of navigational and additional information - Google Patents

Abstract

FIELD: radio navigation. SUBSTANCE: device uses standard-frequency generator 1, two phase modulators 2, 14, navigational information transmitter 3, transmitting antenna 4, clock-frequency synthesizer 5, carrier-frequency synthesizer 6, pseudorandom-sequence generators 7,8, frequency divider 9, command-distributing unit 10, mode 2 multipliers 11,12, modulating signal generator 13, frequency multipliers 15, 16 with multiplication factors K₁ and K₂, additional information transmitter 17, band-elimination filter 18 and diplexer 19. The device features a high authenticity of transmitted information and has no limitations in body and type of transmitted information in specified frequency band of carrier waves. EFFECT: enhanced authenticity. 3 dwg

Description

 The invention relates to radio navigation and can be used to transmit navigation and additional information.

 A device for transmitting navigation information, which contains a generator, modulator, transmitter and antenna [1].

 However, the known device does not allow the simultaneous transmission of navigation and additional information and does not have sufficient reliability of the transmitted information.

 Closest to the proposed generality of the tasks and functional-structural implementation is a device for transmitting navigation and additional information, which contains a reference frequency generator, a phase modulator, the output of which is connected to the input of the navigation information transmitter, and a transmitting antenna [2].

 This device is characterized by insufficient reliability of the transmitted information, as well as a limitation in the volume and type of transmitted information in a given frequency range of the carrier waves.

 The technical result of the invention is the creation of a device for transmitting navigation and additional information with high reliability of the transmitted information, as well as having no restrictions on the volume and type of transmitted information in a given frequency range of carrier waves.

 The essence of the invention lies in the fact that in the known device for transmitting navigation and additional information containing a reference frequency generator, a phase modulator, the output of which is connected to the input of the navigation information transmitter, and a transmitting antenna, a clock frequency synthesizer, a carrier frequency synthesizer, two pseudo-random generators are introduced sequences (GPS), frequency divider, command and distribution block, two mod 2 multipliers, modulator, two frequency multipliers with multiplication factors K1 and K2, a second phase modulator, an additional information transmitter, a bandpass filter and a diplexer.

 The output of the reference frequency generator is connected to the clock input of the carrier frequency synthesizer and to the input of the clock frequency synthesizer, the output of which is connected to the clock inputs of the first and second phase modulators, with the clock input of the first GPS, whose input "initial phase of the PSP" is the code input from the on-board computer complex (BVK) and through a frequency divider with a clock input of the second GPS, the output of which is connected to the first input of the driver of modulating signals and to the first input of the first multiplier in mod 2, the second input of which This is the input of the information signal from the source of additional information, the output of the first multiplier in mod 2 is connected to the first input of the second phase modulator and with the first input of the second multiplier in mod 2, the output of which is connected to the second input of the second phase modulator.

 The first output of the command and distribution block, the inputs of which are the inputs of control commands from the ground command post, is connected to the GPS control input with a variable initial phase of the memory bandwidth, the output of which is connected to the second input of the second multiplier in mod 2 and to the second input of the modulating signal generator, the third and the fourth inputs of which are respectively the inputs of the first and second navigation signals from the IAC. The first and second outputs of the modulating signal generator are connected respectively to the first and second inputs of the first phase modulator.

 The first output of the command and distribution block, the inputs of which are the inputs of the control commands from the ground command post, is connected to the control input of the first GPS, the output of which is connected to the second input of the second multiplier in mod 2 and to the second input of the modulator, the third and fourth inputs of which are respectively, the inputs of the first and second navigation signals from the IAC, the first and second outputs of the driver of modulating signals are connected respectively with the first and second inputs of the first phase odulyatora.

 The second output of the command distribution block is connected to the control input of the carrier frequency synthesizer, the output of which is connected through a frequency multiplier with a multiplication factor K1 to the third input of the first phase modulator, and through a frequency multiplier with a multiplication factor K2, to the third input of the second phase modulator, the output of which is connected with the input of the additional information transmitter, the output of which is connected to the first input of the diplexer, the output of the navigation information transmitter is connected through a band-blocking fi liter with the second input of the diplexer, the output of which is connected to the transmitting antenna.

 Figure 1 shows the functional structural diagram of a device for transmitting navigation and additional information; figure 2 is a structural diagram of a shaper of modulating signals; figure 3 is a structural diagram of a phase modulator.

 A device for transmitting navigation and additional information (Fig. 1) contains a reference frequency generator 1, a phase modulator 2, a navigation information transmitter 3, a transmitting antenna 4, a clock synthesizer 5, a carrier frequency synthesizer 6, a first and second GPS 7 and 8, a divider 9 frequencies, command and distribution unit 10, the first and second modulators 11 and 12 of mod 2, the modulator 13, the second phase modulator 14, the frequency multiplier 15 with a multiplication factor K1, a frequency multiplier 16 with a multiplication factor K2, eredatchik 17 additional information, band-stop filter 18 and a diplexer 19.

 Shaper 13 modulating signals (figure 2) contains three multipliers 29, 30 and 31 of mod 2, and the outputs of the multipliers 29 and 30 are connected to the first and second inputs of the multiplier 31.

The first and second phase modulators 2 and 14 (figure 3) contain a linear phase modulator 20 with a phase rotation of 0 - 90 ^o two linear phase modulators 21 and 22 with a phase rotation of 0 - 180 ^o five D-flip-flops 23 - 27 and a logic element NOT 28, and the linear phase modulators 20, 21 and 22 are connected in series, their second inputs are connected to the outputs of the corresponding D-flip-flops 23, 24 and 25, to the C-inputs of which a signal with a frequency Fm from the synthesizer 5 clock frequency. The inverse output of the D-flip-flop 26 is connected to its D-input, and the direct output to the D-inputs of the D-flip-flops 24 and 27, the output of which is connected to the D-input of the D-flip-flop 25.

 In the device for transmitting navigation and additional information (Fig. 1), the output of the reference frequency generator 1 is connected to the clock input of the carrier frequency synthesizer 6 and to the input of the clock frequency synthesizer 5, the output of which is connected through the frequency divider 9 to the clock input of the second GPS 8, with the inputs of the first and second phase modulators 2 and 14 and with a clock input of the first GPSP 7, the input of the "initial phase of the SRP" which is the input of the code from the IAC.

 The output of the second GPSP 8 is connected to the first input of the shaper 13 of the modulating signals and to the first input of the first multiplier 11 of mod 2, the second input of which is the input of the signal from the source of additional information. The output of the first multiplier 11 in mod 2 is connected to the first input of the second phase modulator 14 and with the first input of the second multiplier 12 in mod 2, the output of which is connected to the second input of the phase modulator 14.

 The first output of the command and distribution block 10, the inputs of which are the inputs of control commands from the ground command post, is connected to the control input of the first GPS 7, the output of which is connected to the second input of the second multiplier 12 in mod 2 and to the second input of the modulator 13, the third and the fourth inputs of which are respectively the inputs of the first and second navigation signals from the IAC. The first and second outputs of the modulating signal generator 13 are connected respectively to the first and second inputs of the first phase modulator 2, the output of which is connected to the input of the navigation information transmitter 3.

 The second output of the command distribution block 10 is connected to the control input of the carrier frequency synthesizer 6, the output of which is connected through a frequency multiplier 15 with a multiplication factor K1 to the third input of the phase modulator 2, and through a frequency multiplier 16 with a multiplication factor K2, with the third input of the phase modulator 14 the output of which is connected to the input of the transmitter 17 of additional information, the output of which is connected to the first input of the diplexer 19. The output of the transmitter 3 of the navigation information is connected via a band-stop filter p 18 with the second input of the diplexer 19, the output of which is connected to the transmitting antenna 4.

 A device for transmitting navigation and additional information works as follows.

 The signal from the generator 1 of the reference frequency is synthesized in a clock synthesizer 5 into a signal with a clock frequency of the first GPSP 7 and by dividing 10 times in the frequency divider 9 into a clock signal of the second GPSP 8.

 In the synthesizer 6 carrier frequencies, the signal from the generator 1 of the reference frequency is converted into one of N carrier frequencies, while the choice of the nominal value of the output signal of the synthesizer 6 carrier frequencies is set by a one-time command issued by a command from a ground command post through the command and distribution unit 10.

 The first GPSP 7 operates in two modes: with a constant and variable initial phase of a pseudo-random sequence (PSP), while the choice of the GPSP 7 operating mode is set by a command from a ground command post through a command and distribution unit 10. The initial phase of the PSP is set by the code received with BVK.

 The SRP signals from the output of the first and second GPSP 7 and 8 are fed to the first and second inputs of the modulator 13 of the modulating signals. In the former 13 (Fig. 2), the SRP signal from the GPSSP 7 is multiplied by the modulator 29 according to mod 2 with the first navigation signal (H1) coming from the IAC, and the SRP signal from the GPSP 8 is multiplied by the modulator 30 by mod 2 with the second navigation signal ( H2) coming from IOO. The signals from the outputs of the multipliers 29 and 30 by mod 2 are multiplied among themselves in the multiplier 31 by mod 2. The signals from the outputs of the multipliers 30 and 31 by mod 2 form two modulating signals that are used for the operation of the first phase modulator 2.

 The SRP signal from the GPSP 8 is fed to the input of the first multiplier 11 by mod 2, where it is multiplied with the signal from the source of additional information, and fed to the first input of the second multiplier 12 by mod 2, where it is multiplied with the signal from the GPSP 7.

 The signals from the outputs of the multipliers 11 and 12 of mod 2 form two modulating signals that are used to operate the second phase modulator 14.

 The first and second phase modulators 2 and 14, designed for quadrature modulation of the carrier frequency signal, are constructed according to the same structural scheme, but different signals are received at its inputs.

The signal from the first output of the modulator 13 is supplied to the D-input of the D-trigger 23 to the phase modulator 2, and the signal comes from the second output to the C-input of the D-trigger 26 directly and through the element NOT 28 to the C-input of the D-trigger 27 shaper 13 of the modulating signal. The first input of the linear phase modulator 20 receives a signal with a carrier frequency F _n from the synthesizer 6 of the carrier frequencies after it is multiplied by a factor K1 in the frequency multiplier 15.

The phase modulator 14 receives the signal from the output of the multiplier 11 by mod 2 to the D-input of the D-flip-flop 23, and to the C-input of the D-flip-flop 26 directly and through the element 28 to the C-input of the D-flip-flop 27 12 by mod 2. At the first input of the linear phase modulator 20, a carrier frequency signal F _n is received from the synthesizer 6 of the carrier frequencies after it is multiplied by a coefficient K2 in the frequency multiplier 16.

Phase modulators 2 and 14 provide a 25 dB attenuation of the striking discrete component that occurs when the phase of the carrier frequency signal switches from 0 ^o to 90 ^o and 180 ^o, and phase shifts of the modulating signals are eliminated by D-triggers 23 - 25, which are switched over the clock signal F _t supplied to the C-inputs of the D-flip-flops 23-25 from the synthesizer 5 clock frequency.

 From the outputs of the phase modulators 2 and 14, the signals are fed to power amplifiers of the transmitter 3 of navigation information and the transmitter 17 of additional information, and through the diplexer 19 are fed to the transmitting antenna 4.

 To ensure electromagnetic compatibility, the signal from the output of the navigation information transmitter 3 is fed to the input of the band-stop filter 18, where a number of spectral components are suppressed in the signal spectrum, after which the signal is fed to the second input of the diplexer 19.

 The reliability of the device for transmitting navigation and additional information is ensured by duplication of the device’s equipment and its cross-connection, while switching to serviceable equipment is carried out by a command from a ground command post through a command and distribution unit 10.

 The industrial applicability of the invention is ensured by the relevance of the task and high technical characteristics of the device, due to the high reliability of the transmitted information, as well as the absence of restrictions on the volume and type of transmitted information in a given frequency range of carrier waves.

Claims (1)

A device for transmitting navigation and additional information containing a reference frequency generator, a first phase modulator, the output of which is connected to the input of the navigation information transmitter, and a transmitting antenna, characterized in that a clock synthesizer, a carrier frequency synthesizer, two pseudo-random sequence generators are introduced into it ( GPSSP), frequency divider, command and distribution block, two mod2 multipliers, modulating signal generator, two frequency multipliers with multiplied coefficients K ₁ and K ₂ , a second phase modulator, additional information transmitter, a band-stop filter and a diplexer, the output of the reference frequency generator is connected to the clock input of the carrier frequency synthesizer and to the input of the clock synthesizer, the output of which is connected to the clock inputs of the first and second phase modulators, with a clock input of the first GPSS, the input "Initial phase of the SRP" of which is the code input from the on-board computer complex and through a frequency divider with a clock input of the second GPSS, the output of which is connected to the by the input of the modulating signal generator and with the first input of the first multiplier in mod2, the second input of which is the input of the information signal from the source of additional information, the output of the first multiplier in mod2 is connected to the first input of the second phase modulator and with the first input of the first multiplier in mod2, the output of which is connected with the second input of the second phase modulator, the first output of the command distribution block, the inputs of which are inputs of control commands from a ground command post, is connected to the control input of the first GPSSP, the output of which is connected to the second input of the second multiplier in mod2 and to the second input of the modulator, the third and fourth inputs of which are respectively the inputs of the first and second navigation signals from the onboard computer complex, the first and second outputs of the modulator are connected with the first and second inputs of the first phase modulator, the second output of the command distribution block is connected to the control input of the synthesizer frequency, the output of which is coupled through a frequency multiplier with a multiplication factor K ₁ to the third input of the first phase modulator, and by frequency multiplier with coefficient multiplying K ₂ to the third input of the second phase modulator, whose output is connected to the input of the transmitter the additional information whose output is connected to the first diplexer input, the output of the navigation information transmitter is connected through a band-stop filter to the second input of the diplexer, the output of which is connected to the transmitting antenna, and each phase modulator comprises a phase modulator with a linear phase rotation 0-90 ^o, two linear phase modulator to phase rotation 0-180 ^o, five D-flip-flops and a NAND gate, the linear phase modulators connected in series, and their second inputs connected to outputs of corresponding D- flip-flops, the C-inputs of the first, second and third D-flip-flops receive a signal with a frequency F _m from the clock synthesizer, the inverse output of the fourth D-flip-flop is connected to its D-input, and the direct output is connected to the D-inputs of the second and fifth D -triggers whose output with one with the D-input of the third D-latch, while on the C-input of a fourth L-trigger signal is supplied directly, and C-input of the fifth D-flip-flop - via NAND gate.

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