SU1124455A1 - Polyfrequency signal receiver - Google Patents

Abstract

1. A MULTIPLE SIGNAL RECEIVER, containing an input amplifier, N parallel frequency channels, each of which contains a serially connected band-pass filter, a detector and a gate, with the inputs of the band filters of the N frequency channels connected to the output of the input amplifier, offended for all N frequency channels by a multiple input element OR and serially connected analyzer of the duration of the output signals of the detection and differentiation unit, with the outputs of the detectors of the N frequency channels connected to the corresponding inputs of the multi-input element OR, the output of which is connected to the analyzer input of the output detector output signals, characterized in that, in order to increase the noise immunity when receiving signals transmitted by the multi-frequency code, the series-connected control unit, the numbers of received frequencies and the AND element are inputted, and the start input the control unit of the number of received frequencies is connected to the output of the multi-input element OR, and the information inputs of the control unit of the number of received frequencies are connected to the output The N frequency kag detectors (L in, the installation input of the control unit for the number of received frequencies is connected to the output of the OR multi-input element, the output of the differentiating unit is connected to the second input of the AND element, the output of which is connected to the second inputs of the N frequency channel gates.

Description

2. The receiver according to claim 1, that is, that the receiving frequency control unit contains a generator of polling frequency channels, N additional gates, connected in series, in addition, OR, pulse counter and decoder, and the outputs polling pulse generator N frequency channels are connected to the first inputs of N additional gates, the outputs of which are connected to the corresponding inputs of the additional

multiple input element OR, where the input of a polling pulse generator of frequency channels is the start input of the control unit for the number of received frequencies, and the input for setting the pulse counter to zero is the installation input of the control unit for the number of received frequencies, the second inputs of the N additional gates are the information inputs of the number control unit received frequencies, the output of which is the output of the decoder.

The invention relates to telecommunications and can be used in telephone communication systems for receiving multi-frequency dialing. The known receiver of multi-frequency signals contains an input amplifier, N parallel frequency channels, each of which contains a series-connected filter, detector and valve, as well as a common analyzer for all N frequency channels analyzer of the duration of the output pulses of the detectors 1. 1 The disadvantage of the known receiver is weak noise immunity when there are signals at the receiver input that contain two or more components in its spectrum at the frequencies of the signal numbers. Closest to the invention is a multifrequency sitel receiver containing an input amplifier, N parallel frequency Canada, each of which contains a series-connected band-pass filter, a detector and a gate, with the inputs of the band-pass filters N frequency channels connected to the output of the input amplifier common to all N frequency channels multi input element OR or serially connected analyzer Duration of the output signals of detection and differentiation unit, moreover, the outputs of the detectors N frequency channels The cables are connected to the corresponding inputs of the OR multi-input element, the output of which is connected to the analyzer's input of the duration of the detection output signals 2. The disadvantage of this receiver is the weak noise immunity when there are voice signals and signals transmitted by the multi-frequency code at its input. The purpose of the invention is to improve the noise immunity when receiving signals transmitted by a multi-frequency code. To achieve this goal, a multi-frequency receiver contains an input amplifier, N parallel frequency channels, each of which contains a series-connected band-pass filter, a detector and a gate, with the inputs of the band filters of the N frequency channels connected to the output of the input amplifier common to all N frequency channels multi-input element OR and serially connected analyzer of the duration of the output signals of detection and differentiating unit, with the outputs of the detectors N frequency channels connected to the corresponding inputs of the OR multi-input element, the output of which is connected to the analyzer input of the duration of the detection output signals, serially connected units for controlling the number of received frequencies and the AND element are inputted, and the trigger input of the control unit for the number of received frequencies is connected to the output of the multi-input element OR control of the number of received frequencies connected to the outputs of the detectors N frequency channels, the installation input of the control unit of the number of received frequencies It is connected to the output of an OR-input element OR, the output of the differentiating unit is connected to the second input of the AND element, the output of which is connected to the second inputs of the N frequency channel gates. 3 The control unit for the number of received frequencies contains a polling pulse generator of frequency channels, N additional 1X fans, an OR multiple pulse input unit connected in series, an impulse counter and a decoder, and the outputs of the polling pulse generator N frequency channels are connected to the first inputs of N additional gates, whose outputs connected to the corresponding inputs of the additional multi-input element OR, and the input of the polling generator of the frequency channels is the start input of the monitoring unit The number of received frequencies, the input to the zero setting of the pulse counter is the installation input of the control unit for the number of received frequencies, the second inputs of the N additional gates are the information inputs of the control unit of the received frequencies, the output of which is the decoder output. Figure 1 shows the structural electrical circuit of the proposed receiver; in fig. 2 - timing diagrams explaining the operation of the control unit of the number of received frequencies. The receiver contains an input amplifier 1, N of bandpass filters 2 (-2, N detector 3j-3, N valves 4, -4, multiple input element OR 5, analyzer 6 for the duration of detection output signals, differentiating unit 7, block 8 for receiving frequency The control unit 8 contains a generator of 9 polling pulses of frequency channels, N additional gates 10 4-10m, an additional multi-input element OR 11, a pulse counter 12 pulses, a decoder 13. The device also contains an element AND The receiver operates as follows. of the frequency signal of the digit number at the outputs of the detectors 3 of two corresponding frequency channels, pulses of positive polarity and duration Tjj (Fig. 2a) are generated, which are fed to the inputs of the multi-input element OR 5, to the inputs of additional gates 10 and to the inputs of the gates 4. From the output of the multi-input element OR 5 a pulse of any frequency channel is fed to the input of the generator 9, to the input of the zero setting of the counter 12 and to the input of the analyzer 6. The leading edge of the pulse from the multi-input element OR 5 starts the generator 9 and to its output x is generated by a sequence of pulses (FIGS. 26) arriving at the second inputs of additional gates 10. 554 The generator frequency 9 is chosen such that the total time spent on the formation of a series of polling pulses does not exceed the analysis time T ((Fig. 2e), which in turn does not exceed the time the existence of the input signal TC .. When the output pulses of the detectors 3 coincide with the polling pulses at the outputs of the respective additional gates 10, pulses are generated, which through an additional multi-input element OR 11 arrive at the counting input Aether 12 (Fig. 2c). The number of pulses at the output of an additional multi-input element OR 11 corresponds to the number of frequencies in the received signal. The counter 12 counts the number of pulses. At the output of the decoder 13, a high level signal appears only if the input of the counter 12 Only two pulses come in (Fig. 2d). Upon expiration of the analysis time: and, according to the duration Td, the analyzer 6 also generates a high signal, which through the differentiating unit 7 is in the form of a short pulse (Fig. 2e) enters the first input of the element 14, the second input of which receives a high level signal from the output of the decoder 13 of the block 8. Due to this, the output of the element 14 forms a strobe pulse (Fig. 2e), which enters the inputs of the valves 4 and, with The presence of signals at the second inputs of the gates 4 to the inputs of the frequency channels of the receiver. With the falling edge of the input signal (Fig. 2a) the counter 12 is set to the initial (zero) state, the low level signal is set at the output of the decoder 13 (Fig. 2d), the device is ready reception. following her numbers numbers. If the receiver input is affected by an interference signal (for example, a speech signal) containing a number of frequencies other than two, then a high level signal at the output of the decoder 13 is not generated and a gate pulse at the output of the And 14 element is not generated. Even in the case of the analyzer 6 triggered by an interfering signal, block 8 prohibits the generation of spurious pulses at the receiver outputs. The proposed receiver has a high noise immunity when receiving signals transmitted by a multi-frequency code.

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In addition, in the proposed receiver encoder 13 possible restructuring on

multi-frequency signals by simply receiving multi-frequency signals transmitted

switching communications between the counter 12 and in the codes m from M, where m any number is less than N,

Claims (2)

1. RECEIVER OF MULTI-FREQUENCY SIGNALS, comprising an input amplifier, N parallel frequency channels, each of which contains a series-connected bandpass filter, detector and valve, and the inputs of bandpass filters N frequency channels are connected to the output of the input amplifier, common for all N frequency channels is a multi-input OR element and series-connected analyzer of the duration of the detection output signals and a differentiating unit, and the outputs of the detectors are N frequency channels (connected to the corresponding inputs of the multi-input OR element, the output of which is connected to the input analyzer of the duration of the detection output signals, characterized in that in order to increase the noise immunity when receiving signals transmitted with a random code, the control unit, the number of received frequencies and the And element are connected in series, and the start input of the control unit of the number of received frequencies is connected to the output of the multi-input OR element, and the information inputs of the control unit of the number of received frequencies are connected to the outputs of the detectors N frequency channels, installation the input of the control unit for the number of received frequencies is connected to the output of the multi-input element OR, the output of the differentiating block is connected to the second input of the element And, the output of which is connected to the second the gate inputs of the N frequency channels. and _n „1124455 2. The receiver by π. 1, the fact is that the control unit for the number of received frequencies contains a pulse generator for polling frequency channels, N additional gates, sequentially connected an additional multi-input OR element, a pulse counter and a decoder, and the outputs of the pulse generator for polling N frequency channels connected to the first inputs of N additional gates, the outputs of which are connected to the corresponding inputs of the additional multi-input element OR, and the input of the pulse generator of the interrogation of frequency channels is an input ohm trigger unit, control the number of received frequencies and the input pulse counter zero setting input of a control installation of received frequencies, the second inputs of the additional rectifiers are N data inputs of the control unit of the received frequencies, the output of which is the output of the decoder.