SU987841A1 - Device for detecting double frequency telegraphy signals - Google Patents

Description

The invention relates to telegraph communication and can be used to receive signals of frequency and double frequency telegraphy. A device is known for receiving signals of frequency and double frequency telegraphy, containing a limiter, the output of which is connected to the inputs of separation filters / outputs through the decoder is connected to the inputs of the corresponding low-pass filters. The outputs of which are connected to the inputs of the corresponding triggers 1. The disadvantage of this device is the complexity of the design. The closest in technical essence to the present invention is a device for detecting frequency telegraphy signals, comprising first and second mixers, the outputs of which are connected to the inputs of the phase shifter through the appropriate low-pass filters, the first, the first mixer input connected to the output of the phase shifter, the input which is connected to the first input of the second mixer, the second input of which is connected to the second input of the first mixer 2. However, the known device has low noise immunity. The purpose of the invention is to increase the noise immunity. To achieve the goal set, a series-connected additional low-pass filter, an odometer detector, is introduced into the device for detecting signals of double frequency telegraphy; pulse shaper and modulo two; the second input of which is connected to the output of the phase shift detection unit (the output of the second mixer is connected to the input of the additional low-pass filter). At that, the phase shift determination unit contains a comparator, an integrator, a trigger, limiters, differentiating elements and pulse shapers, the outputs of which are connected through successively connected differentiating elements and limiters to the trigger inputs, the output of which is connected to the comparator through the integrator, the output of which is the output a phase shift determination unit whose inputs are the inputs of pulse shapers. FIG. 1 shows the structural electrical circuit of the proposed device; in fig. 2 - structural electrical cxeNia of a phase shift determination unit. A device for detecting signals. double frequency telegraphy contains mixers 1 and 2, phase shifter 3, low-pass filters 4-6, detector 7 ogbakadey: definition / phase shift block 8, pulse shaper 9 modulo adder 10 modulo two Phase shift definition block contains pulse shapers 11 and 12 Sov, differentiating elements 13 and 14, limiters 15 and 16, trigger 17, integrator 18, comparator 19.. The device works as follows. The first inputs of mixers 1 and 2 are constantly energized; a heterodyne with a frequency equal to the half-sum of the characteristic frequencies, and to the input of the mixer 1 through the phase shifter 3 at 90 °, and to the input of the mixer 2 directly. Device operation when receiving signals on the first channel. Let the signal of frequency g be received at the input of the device. This signal goes to the second inputs of mixers 1 and 2, from the outputs of which the signal goes to the inputs of filters 4 and 5 of the lower frequencies. The output of the low-pass filter 4 will be a signal and the output of the low-pass filter 5 is a signal U2f, and the signal U is 90 lagging behind the signal Uj. and ASOZ (Shd tf N) B-COS (C0ot + 90 ° + 4; j) Csin (U) or.ui) t + 4 U2 Acos () (4jt + 42) CC05. (- U)) t + 4o The signal U is fed to the first input of the block 8 for determining the phase shift, and the signal Ug is fed to its second input. The phase shift determination unit 8 is set to the state O. The signal with frequency is fed to the second inputs of mixers 1 and 2, from the outputs of which the signals are sent to filters 4 and 5 of the lower frequencies; at the output of the low pass filter 4, there will be a signal and, at the output of the low pass filter, 5 - a signal U, and the signal y is 9Q ahead of the signal Uj. U / l-cos (u) in + Jb-cos (Shd-L-go ° + 4j,) r CS1n (5x) gu) o) i-b4Q and L-cos (u)) - B-cos () C-cos (iUB -%) t + 4o. The signal U is fed to the first input of the phase shift determination unit 8, and the signal Ug to its second input. The phase shift detection unit is set to the state. When a signal arrives at a frequency fg, the device operates in the same way as when a signal arrives at a frequency f. When a signal arrives at frequency f p, the device works in the same way as when a signal arrives at frequency fd. The phase shift determination unit 8 will be set to state 1. Thus, the device according to the proposed scheme provides for receiving DC signals, corresponding to pressing and pressing parcels in the Airst channel. For receiving (eni parcels on the second channel, the device is entered adder 10 modulo two, to the second input to the second the output of the phase shift determining unit 8 is connected, and to the first input is the output of the driver 9 of the pulses. The signal with frequency d goes to the first input of the mixer 2 From the output of mixer 2, the signal of the frequency difference and Op through the low-pass filter b to the input of the envelope detector 7 does not pass. The driver 9 of the pulses remains in the state O and information O is received from the output of the first input of the adder 10 modulo two. sum Matora 10 is modulo two from the output of the phase shift determination unit 8, information O. At the output of modulator 10 modulo two will be information O. The signal at frequency fg is fed to the second input of mixer 2. The signal of the frequency difference uTg-igr from the output of mixer 2 through the low-pass filter 6 is fed to the input of the envelope detector 7, the demodulated signal from the output of the envelope detector 7 is fed to the input of the pulse former 9, which is set to state i, and from its output to the first input of modulator 10 modulo two Laci Ch. On the second adder 10 modulo two from the output of block 8 for determining the phase shift, informational O arrives. At B1Lkhod of adder 10 modulo two there will be information I 11 t I. at frequency f C enters the second input of the mixer 2, the difference frequency signal uTe-vu-Q through the low-pass filter 6 passes to the input of the envelope detector 7, from the output of which the demodulated signal is fed to the input of the pulse former 9. The pulse shaper 9 is set to the state and, from its output, the information i is fed to the first input of the modulator 10 modulo two. Modulo two from the output of block 8 for determining the phase shift is sent to the second input of the information to the second input. At the output of the 10 rio, module two will be information) The signal at frequency fp is fed to the input of mixer 2, from which the difference signal uop- iUp through the low-pass filter b to the envelope detector 7 is not received. The pulse shaper 9 is set to the state and from its output the informational is received at the first input of the adder 10. To the second input of the adder 10 modulo two from the output of the block 8 for determining the phase shift arrives informative. At the output of the Sua Mator 10 modulo two there will be an information O. The phase shift determination unit 8 operates as follows. The signal arrives at the first run, and the signal and, at the second, enter the block 8 for determining the phase shift. These signals pass through pulse formers 11 and 12, differentiating elements 13 and 14, limiter 15 and iS, and are supplied to the trigger inputs 17. When receiving signals of frequencies d and f, the duty cycle of pulses at the output of trigger 17 is greater than when receiving s. f. and f, g. Therefore, when receiving signals of the frequencies d and f5 at the output of the integrator 18, the voltage level is small and the comparator is 19 A, and when the signals of the frequencies fp g remain in the state of the signals at the output of the integrator 18, the comparator 19 sets this way. Taking into account the introduction of new units makes it possible to increase the noise immunity of receiving signals of dual frequency telegraphy. Formula of the invention 1. A device for detecting dual frequency telegraph signals, containing first and second mixers, the outputs of which through the corresponding low-pass filters are connected to the inputs of the phase- and-phase shifter, and the first input of the first mixer is connected to the output a phase shifter, the input of which is connected to the first input of the second mixer, the second input of which is connected to the second input of the first mixer, characterized in that, in order to reverse the noise immunity, it is introduced in series with unity additional lowpass filter ,, envelope detector, a pulse shaper and summador modulo two, the second input of which is connected to the output of the phase shift detecting unit, wherein the vvsod second mixer connected to the input of additional lowpass filter. 2. Device pop. 1, characterized in that the phase shift determination unit comprises a comparator, an integrator, a trigger, limiters, differentiating elements and pulse shapers, the outputs of which through sequentially connected sootvedeniyu differentiating elements and limiters are connected to the trigger inputs, the output of which is through the integrator connected to the input of a comparator, the output of which is the output of a phase shift determination unit, whose inputs are the inputs of pulse shapers. Sources of information, taken in the examination 1.Sartasov I.A. and others. Shortwave mainline radio receivers. M., St. Don, 1971, p.152. 2. Malyutin V.A. and others. Possible methods of receiving signals of frequency telegraphy. - Radio electronic issues. ki, general engineering. Ser., issue. 13, 1968, p. 120-121 (prototype). ABOUT-

Figure 1 tskanal

Claims (2)

Claim 1. A device for detecting signals of double frequency telegraphy, containing the first and second mixers, the outputs of which are connected through the corresponding low-pass filters to the inputs of the phase detection unit. phase shift, and the first input of the first mixer is connected to the output * of the phase shifter, the input of which is connected to the first input of the second mixer, the second input of which is connected to the second input of the first mixer, characterized in that, in order to increase noise immunity, series-connected an additional low-pass filter, an envelope detector, a pulse shaper and a modulo-two sum sumor, the second input of which is connected to the output of the phase shift determination unit, while the output of the second mixer is connected to input of an additional low-pass filter. 2. Device pop. 1, cast - _. _- characterized in that the phase shift determination unit contains a comparator, integrator, trigger, limiters, differentiating elements and a pulse generator, the outputs of which are connected through series-connected differentiating elements and limiters to the inputs of the trigger, the output of which through the integrator is connected to the input of the comparator , the output of which is the output of the phase shift determination unit, the inputs of which are the inputs of the pulse shapers.