SU902285A1 - Multichannel modulator - Google Patents

Description

The invention relates to radio engineering and can be used in discrete information transmission systems, in particular, using phase-shift keyed signals, to form phase-shift keyed signals.

Known multi-channel modulator containing an output matching unit and a frequency grid generator, the outputs of which are connected to one input of the phase manipulator unit, the other inputs of which are connected to the outputs of the distributor [1].

However, the known multi-channel modulator has a low noise immunity.

The purpose of the invention is to increase noise immunity.

This goal is achieved by the fact that in a multichannel modulator containing an output matching unit and a frequency grid generator, the outputs of which are connected to one of the inputs of the phase manipulator unit, the others, whose inputs are connected to the distributor outputs, a signal conditioner is introduced, and between each output of the phase manipulator unit and the corresponding input of the output matching unit are two keys, an inverter and a series-connected amplifier and adder, the second input and output of which are connected respectively to the output the first key and the input of the output matching block, and the corresponding output of the signal shaper * · signal is connected to the inverter input and the first input of the first key, the second input of which is connected to the corresponding output of the phase manipulator block and the first input of the second key, the second input and output of which are connected respectively to the output of the inverter and the input of the amplifier, and the outputs of the distributor are connected to the inputs of the signal conditioner.

The drawing shows a structural electrical diagram of the proposed modulator.

The multi-channel modulator contains a frequency grid generator 1, a block of 2 phase manipulators, a distributor 3, N channels (4-1) - (4-N), each of which consists of the first and second keys 5 and 6, respectively, an inverter 7, an adder 8 and amplifier output matching unit 10, the driver 11 of the signal.

The multi-channel modulator operates as follows.

We consider the work of the proposed multichannel modulator using an example of a channel, for example, the first 4-1. The input pulse stream from the source of discrete messages (not shown) enters through the distributor 3 to block 2 phase manipulators9, to

IS value of the input signal after the moment of manipulation. The envelope of the increasing component grows much faster than the envelope without correction, since during the correction an amplified signal is input to the adder input. The resulting envelope of the corrected signal grows faster than the envelope of the signal without correction and, therefore, the transient distortion is reduced.

Thus, the use of a signal shaper, as well as the introduction of electronic switches, an inverter, an amplifier, and an adder in each channel, allows one to reduce the transient distortions due to the limited bandwidth and the imperfect frequency characteristics of the output matching unit and the communication line.

ditch, to the other inputs of which harmonic oscillations are applied. The phase-manipulated signal received in the phase manipulator block is fed to the inputs of electronic keys 5 and 6, to the control inputs of which a correction signal is received: directly to the input of the first electronic key 5, and to the input of the second electronic key 6 through the inverter 7 · C of the first electronic key 5 to the input of the adder 8 receives a signal, and from the output of the second electronic key 6 through the amplifier 9 to the input of the adder 8 also receives a signal. Next, from the output of the adder 8, the signal is supplied to the output matching unit 10.

Without correction (there is no correction signal, the first electronic key 5 is open, the second electronic key 6 is closed) the envelope of the signal at the output of the communication line, equal to the modulus of the difference between the envelope of the decaying component and the envelope of the growing component. The decaying component due to the initial values of the current and voltage components of the output of the matching block and the link when the manipulation phase signal and does not depend on the signal values after ⁵⁰ Ma- nipulyatsii. The increasing component, on the contrary, is determined by the value of the signal at the output of the communication line after phase manipulation.

- During correction (a correction signal is applied to the inverter ** input), the behavior of the damped component does not change, since it does not depend on

Claims (1)

The invention relates to radio engineering and can be used in discrete information transmission systems, in particular, using signals with phase shift, to form phase shift keyed signals. A multichannel modulator is known that contains an output matching unit and a frequency grid generator, the outputs of which are connected to one input of a phase-manipulator unit, the other inputs of which are connected to the outputs of the distributor l. However, the known multichannel modulator has a low noise immunity. The purpose of the invention is to increase the number. hardiness. This goal is achieved in that a multichannel modulator containing an output matching unit and a frequency grid generator, the outputs of which are connected to one input of the phase shift key block, others whose inputs are connected to the outputs of the distributor, is inserted into the signal conditioner the manipulators and the corresponding input of the output matching unit are entered two keys, an inverter and a series-connected amplifier and adder, the second input and output of which are connected respectively to the output the first key and the input of the output matching unit, the corresponding output of the signal generator is connected to the input of the inverter and the first input of the first key, the second input of which is connected to the corresponding output of the phase manipulator and the first input of the second key, the second input and output of which are connected respectively to the output of the inverter and the input of the amplifier, and the outputs of the distributor are connected to the inputs of the signal conditioner. 39 Ha the drawing shows a structural electrical circuit of the proposed modulator. The multichannel modulator contains a frequency grid generator 1, a phase manipulator block 2, a distributor 3, N channels (4-1) - (4-N), each of which consists of a first and second switch 5 and 6, respectively, inverter 7, adder 8 and the amplifier 9 output matching unit 10, the driver 11 of the signal. Multichannel modulator works as follows. The work of the proposed multi-channel modulator will be considered on the example of a channel, for example, the first 4-1. The input stream of pulses from the source of discrete messages (not shown) is fed through the distributor 3 to the block 2 of phase manipulators, to the other inputs of which harmonic oscillations are applied. The phase-manipulated signal received in the phase shift keying unit enters the inputs of electronic switches 5 and 6, the control inputs of which receive a correction signal: directly to the input of the first electronic switch 5, and through the inverter 7 from the output of the second electronic switch 6 -electronic key 5 to the input of the adder 8 receives a signal and from the output of the second electronic key 6 through the amplifier 9 to the input of the adder 8 also receives a signal. Next, from the output of the adder 8, the signal is fed to the output matching unit 10. Without correction {no correction signal, the first electronic key 5 is open, the second electronic key 6 is closed) the envelope of the signal at the output of the communication line is equal to the module of the difference between the envelope of the decaying component and the envelope of the increasing component. The decay component is due to the initial values of currents and voltages of the elements of the output matching unit and the communication line at the time of manipulation of the signal phase and does not depend on the values of the signal after manipulation. The increasing component, on the contrary, is determined by the value of the signal at the output of the communication line after the manipulation of the phase. . During correction (the correction signal is fed to the inverter input), the behavior of the decaying component does not change, since it does not depend on the 5th value of the input signal after the moment of manipulation. The envelope, on the other hand, the marastae component grows much faster than the envelope without correction, because during the correction L the amplified signal arrives at the input of the adder. The resultant envelope of the corrected signal grows faster than the envelope of the signal without correction and, therefore, the crosstalk is reduced. Thus, the use of a signal conditioner, as well as the introduction of electronic switches, an inverter, an amplifier, and a torus sum in each channel, allows to reduce transient distortions due to the limitation of the bandwidth and the non-ideal frequency characteristics of the output matching unit and the communication line. Claims of the Invention A multichannel modulator comprising an output matching unit and a frequency grid generator, the outputs of which are connected to one input of a phase shift key block, the other inputs of which are connected to the outputs of a distributor, characterized in that, in order to improve noise immunity, a signal conditioner is inserted, and between each output of the phase-manipulator unit and the corresponding input of the output matching sequentially connected amplifier and adder, the second input and output of which are connected with the output of the first key and the input of the output matching unit, and the corresponding output of the signal conditioner is connected to the input of the inverter and the first input of the first key, the second input of which is connected to the corresponding output of the phase shift key and the first input of the second key, the second input and output of which are connected respectively with the output of the inverter and the input of the amplifier, and the outputs of the distributor are connected to the inputs of the signal conditioner. Sources of information taken into account in the examination 1. Frequent A.M. and others. The equipment for the transmission of discrete information MS-5. I., Sv z, 1970, p. 16-17 (prototype).