SU932588A1 - Method of control of diode optron phase detector - Google Patents

Description

The method of controlling the phase detector on diode optocouplers relates to measuring and counting technology and can be used to regulate detectors for radio engineering devices, electroautomatics and tracking systems. There is a method of controlling a phase detector, which is based on balancing an annular phase detector with additional resistors 1. The disadvantage of this method is that with the introduction of additional resistors, the range of measurements is reduced. There is a method of controlling phase detectors, which consists in the fact that diodes are selected according to the reverse current (resistance) and direct resistance. Moreover, for the purpose of aligning the direct resistances, resistors 2 are installed in series with the diodes. The disadvantages of this method are the low dynamic range of the measured voltages and relatively lower sensitivity. The purpose of the invention is to increase the sensitivity and the expansion of the dynamic range. The goal is achieved by the fact that in the method of adjusting the phase detector on diode optocouplers by leveling the residual voltage of the shoulders of the bridge, the residual voltage is measured at the rated current of the LEDs, changing the polarity of the connection of one of the bridge arms to obtain a lower residual voltage LEDs, for example, by using resistors included in each of the series connections of the LEDs, achieve minimal residual voltage. The drawing shows an electrical circuit of a phase detector on diode optocouplers. The phase detector contains the first 1, second 2, third 3, fourth 4, fifth 5, sixth 6, seventh 7, and eighth 8 optocouplers (), first 9 and second 10 output pins, load resistor 11, switching voltage source 12, first 13 and second 14 milliammeters, resistor 15, first 16 and second 17 variable resistors,

the first 18 and second 19 output pins voltmeter 20 dc.

Before adjusting, a resistor 15, equivalent to the output impedance of the previous device element, such as an amplifier, is connected to the input pins 9 and 10 of the signal circuit of the phase detector. The output resistor 11 of the phase detector and the DC voltmeter 20 are connected to the output pins 18 and 19. Variable resistors 16 and 17 and milliammeters 13 and 14 are installed outside the detector circuits. Before switching on the source 12 of the switching voltage, the resistance of the resistors 16 and 17 is completely inserted into the LED circuit of the optocouplers.

After supplying the commutation, the dego voltage using resistors 16 and 17 by milliammeters 13 and 14 exposes the LED currents to 10 mA nominal value.

The residual voltage of the detector is measured. Then, the switching voltage is disconnected and the output connection of the optocouplers of one bridge arm, for example, the optocouplers 1 and 2 connected to the load terminal 9, is connected to pin 10, and the serial connection pin of the same optocouplers connected to pin 9 is connected to pin 18. The switching voltage source 12 is then switched on and the residual voltage of the detector is measured. If the residual voltage becomes less than the previous one, the same operation is carried out with the next leg of the signal circuit. If the residual voltage increases, the detector circuit is restored and the switching polarity of the other arm of the bridge is changed.

. The detector is controlled by changing the current flowing through the LEDs as follows.

Switching source is switched. go voltage and using resistor

16 or 17, the current in one of the series LED connections is reduced. In this case, if the residual voltage measured by the voltmeter 20 decreases, then by changing the resistor the current of the LEDs is established, at which the minimum residual voltage of the detector is reached, but the residual voltage of the detector increases, then the nominal value of the LEDs remains current and minimum residual voltage is achieved by reducing the current of another series connection of optocouplers 3-8.

The proposed method provides for the regulation of a phase detector built on diode optocouplers, at which a residual voltage at the output of the detector is no more than 10 µV. This is one and a half times less than in known devices built on optocouplers.

Claims (2)

1.Automatics and Remote Control, T.Х111, 1952, 6, p. 731. 2. Design of next low power systems. Ed. V.A. Besekersky, L., Shipbuilding, 1958, p.238.