SU68562A1 - Method of multiple transmission of instrument readings by radio - Google Patents

Description

There is a known method of transmitting instrument readings over the radio by sequential modulation of a transmitter with tonal frequencies different for different channels, with the amplitudes of modulated voltages being determined by the values of the transmitted readings of instruments using a filter at the receiving end of a channel to separate the channels.

The proposed method is characterized in that the frequency modulated by the generator is changed synchronously and in phase with the sensor switching frequency of the instrument module of the radio transmitter. This allows for increased transmission stability.

The drawing shows a diagram of the device, explaining the proposed method.

The capacitor / generator circuit 2 is located on the axis of the electric motor. The generator frequency for each revolution of the electric motor runs through a rather wide sequence of values. The output voltage of the generator through modulator 3 modulates the transmitter 4 in frequency or amplitude (frequency modulation of the transmitter is more desirable, since this sharply reduces the error introduced into measurements by over-the-air sources of interference).

Modulator 3 is an amplifier equipped with an automatic AGC gain control circuit. It has a jet lamp at the output during frequency modulation, bypassing the transmitter circuit during amplitude modulation.

A switch 5 sits on the same axis as the capacitor, sequentially supplying voltage from the sensors to the AGC circuit of the modulator (directly or through a common amplifier 6, if needed). Due to this voltage from the sensors, the gain is sequentially controlled.

No. 68562

modulator, and hence the amplitude of the voltage of the generator, modulating the transmitter. Capacitor / and switch 5 are located on the same axis; each sensor always acts on the amplitude of the voltage of the generator, nrn, a well-defined value of its frequency.

At the receiving end, the receiver 7 receives and detects the signals of the transmitter, accurately reproducing the form of voltage at the detector output, which is at the modulator output. This oscillation is applied to a series of parallel-connected resonant filters, Fo, whose number is equal to the number of sensors at the transmitting end. At each turn of the engine, at the transmitting end, the frequency of the detecting signal at the receiving end sequentially passes through the resonant frequencies of all filters, with the amplitude of the short-term oscillation that occurs at the output of each filter being proportional to the voltage from the corresponding sensor. Thus, at the output of each filter, groups of oscillations appear, following one another with the frequency of engine rotation, and changes in the amplitude of them continuously reproduce changes in the voltages of the respective sensors at the transmitting end.

At the output of the filters, detectors are included, the currents of which can be used to power any switch or ping devices that react to the average value of the detected current. It is clear that these devices at some scale will show the voltages coming from the respective sensors. In order for the pulsed form of the current readings of the instruments to be stable and continuous, it is necessary to smooth out the ripple currents, and for this purpose it is sufficient to make the time of the detectors longer than the period of the engine turn.

In this system, using the frequency modulation of the transmitter and the limiter in reception, the oscillation of the receiving loudness and various airborne interferences can hardly distort the form of the modulating voltage. However, the gain of the entire path, from the generator to the filters, can change quite noticeably due to the instability of the power supply, changing the lamps, etc. So that these changes do not affect the accuracy of instrument readings, one "scale channel" is added to one of the switch contacts instead of the sensor voltage, a strictly constant voltage is applied. A device 8 is connected to the corresponding filter Fg, on the receiving end, in which the position of the arrow at which all the indicators were initially graduated is marked with a red line. Before each launch of the system. It is sufficient to manually adjust the receiver volume control to set the device 8 to the red line to ensure the accuracy of the scale on all other devices. The output voltage Fo through any balanced voltage can be applied to the automatic gain control circuit of the receiver, and then the scale will be set automatically.

Subject invention

The method of multiple transmission of instrument readings by radio, carried out by sequential modulation of the transmitter by tonal frequencies, different for different channels, and the amplitudes of the modulating voltages are determined by the values of the transmitted readings of the instruments, using at the receiving end a number of filters for channel separation, differing from that, in order to increase the transmission stability, the modulated frequency of the generator changes synchronously and in phase with the switching frequency of the sensor devices on the modulator of the radio transmission ika.

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