SU145919A1 - Multichannel phase device - Google Patents

Description

Various telemetry systems with frequency division measurement channels are known, with static frequency multipliers at the transmitter, pulse type phase meters at the receiving half, with a common AC network for the transmitter and receiver, in which information is transmitted as a function of the phase difference between the two AC voltages. The disadvantage of these systems is the need to have, at the receiving point, transducers (generators) of the frequencies of the reference voltages according to the number of frequency measurement channels, which leads to a considerable complication of phase telemetry devices.

The proposed multi-channel phase telemetry device differs from the known ones by a simplified scheme and increased reliability. This is achieved by applying a common single-frequency source (oscillator) of the reference voltage in the receiving half-set of the device, the output of which is connected to pulse-type phase meters, the number of which is equal to the number of measuring frequency channels.

The drawing shows a block diagram of a device consisting of a transmitting half-set U and receiving half-set 2 connected by a communication channel 3.

The transmitting semi-device consists of static converters of 4 multiple frequencies, phase converters 5, linear amplifiers 6, and sensors 7. Static converters 4 make it possible to obtain a set of frequencies multiple to the fundamental frequency f of the supply voltage. In this case, the initial phases of the voltage of the multiple frequencies K.f are stable with respect to the initial phase of the supply voltage with the frequency /. Phase transducers, 5, allow to obtain a change in the phase of sinusoidal signals ranging from 0 to 360 ° in functional dependence on the measured value. Amplified frequency signals with corresponding initial phases arrive.

No. 145919 2 through link 3 to receive half set 2 devices. The AC power network is unsuitable for the transmitting and receiving hemispheres.

The receiving semi-collector 2 contains frequency filters 8, phase shifters 9, reference voltage block 10, and phase indicators. Phase indicators consist of markers // and 12, triggers 13 and from measuring devices / #. By using narrowband frequency filters 8, the linear signals coming from communication channel 3 are separated. The signals selected by the filters are fed to the corresponding phase indicators, allowing the phase angle to be measured within 360 °.

A radio channel can be used as a communication channel; In addition, phase systems can also be used in industrial telemetry.

The operation of the trigger circuit is determined by marker pulses extracted from the linear and reference signals. The marker pulses arrive at the individual inputs of the trigger circuit with two stable states. A measuring instrument that responds to the average current is installed in the cathode circuit of one of the trigger lamps.

The marker pulses of the reference channel unlock the lamp in the cathode of which the measuring device is located, and the marker pulses of the linear channel bring this lamp to the closed state. The duration of the current flow through the device 14 is directly proportional to the phase difference between the linear and reference signals. Instrument readings change from zero to maximum when the phase of the linear signal changes within 360 °.

Subject invention

A multichannel phase telemetering device with frequency division of measuring channels, with static frequency multipliers at the transmitter, pulse type phase meters at the receiving half, with a common AC network for the transmitter and receiver, in order to simplify the device and increase its reliability , in the receiving half-set of the device, a common single-frequency source (generator) of the reference voltage is applied, the output of which is switched on with pulse-type phase meters, the number of which is equal to the number of measurements Telnyh frequency channels.