SU282447A1 - SYNCHRONOUS DEMODULATOR AM-SIGNALS, SENSITIVE TO PHASE - Google Patents

Description

The invention relates to phase sensitive demodulators which are used in various automation systems using primary information sensors with alternating current with amplitude modulation.

Phase-sensitive demodulators are known in which, in order to reduce the influence of the carrier wave form on the parameters of the demodulator and to improve the noise filtering conditions, when the useful signal is extracted, the input signal is fed to the memory (Sch11 element via a key controlled by the control device.

In such a scheme, the transfer coefficient of the demodulator strongly depends on the instability of the phase of the input signal carrier at the time of the key closure.

The purpose of the invention is to determine the dependence of the output voltage of the demodulator on the phase instability of the carrier of the demodulated signal at the time of the key closure.

This is achieved by introducing a controlled maximum converter into the demodulator circuit, the input of which is connected to the input source of an amplitude-modulated signal, the output is connected to the key, and the control input is connected to the output of the control device.

FIG. 1 is a block diagram of the described demodulator; in fig. 2 is an example of circuit execution of a controlled maximum converter.

The synchronous demodulator of AM signals consists of a source / signal connected to a controlled maximum converter 2, the output of which is connected via key 3 to the input of memory element 4. The maximum converter and the key are controlled by control device 5.

The controlled maximum transducer can be performed according to the two-pole peak detector with a reset. The circuit consists of a diode 6, a capacitor 7 and a switch 8, which form a memory circuit of maximum positive values of the input voltage, and a diode 9, a capacitor 10, and a switch //, which form a memory circuit of negative

input values. Summing element 12 combines the converted signals into one 1 OUTPUT. Resistance 13 serves to limit the current in the indicated circuits. The demodulator works as follows.

The amplitude-modulated voltage from the source is fed to Converter 2, which stores the maximum carrier values for a time approximately equal to a quarter of the period of that carrier. For example, suppose that it does not reach its positive maximum value. The output voltage of Converter 2 is equal to this maximum value with some Coefficient. When the input signal decreases, the output will remain unchanged until the moment when the input voltage is equal to zero or close to zero. At this time, the device 5 is supplied with a control voltage to the control input of Converter 2. The voltage stored in converter 2 is reset with a constant time, less than 5 to 10 times the carrier period. At the output of Converter 2, the negative voltage begins to increase in accordance with the input voltage up to a maximum value, which is again stored until the next zero carrier, and so on.

The voltage thus transformed from the source by key 3 is fed to the memory element for a short time sufficient to establish the total value of the memorized voltage. The closing time of the switch 5 corresponds to the middle of the time interval during which the maximum value is remembered in converter 2.

The moment of closing of the switch 3 and the time of the closed state are set by voltage (current) pulses from the control unit.

If the closing time of the switch 3 corresponds to positive values of the source voltage, then the output voltage of the storage element will be a positive voltage. If the phase of the carrier oscillation of the source changes to the opposite, the sign of the demodulator output voltage also changes.

The instability of the moment when the key 5 is closed within the interval and the time when the maximum value in converter 2 is memorized does not cause a change in the voltage at the output of the demodulator.

Pre-invented

An AM-phase synchronous demodulator containing a key that connects a signal source to the storage element and a key control device, characterized in that, in order to eliminate the detriment of the output array of the demodulator from the instability of the carrier phase of the demodulated IB signal, the key closure moment , between the source of input signals and the key, a controlled maximum transducer is switched on, made, for example, according to the two-pole Peak detector scheme with reset keys controlled by the above device oystvom control.

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