SU775835A1 - Device for obtaining pulse-phase modulated signal - Google Patents

Description

. The invention relates to electrical engineering and can be used for constructing phase control devices for two-phase asynchronous motors, pulse-width and phase pulse modulators, control devices for electrical energy converters and other power supply systems for increased speed and linearity. wide range of regulation. Devices for obtaining phase-pulse modulated signals are known that are intended for use in various fields of converter technology using time setting devices for delaying the start of a pulse shaper (as a time setting device use a controlled discharge or capacitor discharge), scaling circuits (using a distributor pulses), which form a sequence of pulses, fixing certain phase shifts, depending on the required phase shift, choose with one of the pulse sequence and supplied ia shaping device. The disadvantages of these devices are low speed and discrete regulation. Ij LT Of the known devices for obtaining a phase-pulse modulated signal, the closest to the technical essence is a device for obtaining a phase-pulse modulated signal made on the basis of a phase-shifting device J. the inoperability of operation of the rectangular voltage from the generator output is inverted, and then the direct and inverse voltages are integrated. The resulting two triangular voltages are applied to the comparison circuits, to the other inputs of which the control voltage is applied. From the output of the comparison circuits, the pulse-pulse type enters the differentiating chains, the signals from the outputs of which are fed to a two-input trigger, on you 77 during the course of KOioporo are formed a rectangular 1-1 1, shifted by phase to an adjustable angle relative to the generator voltage. However, despite the good performance, the device has a number of drawbacks. To obtain a phase shift equal to 0 or 18of, the input voltage of the comparison circuits is equal to the power of the sawtooth, and the voltage at the output of the CJKM will equal some initial value, because the factor has been applied, because the factor has been applied to the same value as the power factor, because the factor has been applied to the same value as the power factor, because the factor will be equal to the initial value, because the factor will be applied to the same value as the power factor, because the factor will be equal to the initial value, since the factor will be applied, equal to the value of the source value, because the factor will be applied to the same value as the power factor, because the factor will be equal to the same magnitude, because the factor will be applied. at the output of the comparison circuits, it will be O or 1, while the signal at the output of the differential cascade will disappear. In this case, the switching impulse disappears at the trigger input, and therefore the information disappears at the device output: the magnitude of the phase shift. Apply; This device, it is impossible to get fs-. Also, the range of adjustment of the phase shift, and the extreme points of the range 0 and 18U. Moreover, when the frequency of the rejitopaTopa changes, the phase shift of the device at the output of the device at a constant control voltage is constant, the image is obscured, maintaining the same pattern when the frequency changes and the expansion of the Dnipro zone adjustment. This goal is achieved by TQM., A device d, 1x receiving (}) azo-pulsed modulated signal, containing, a square-wave generator, performed on an operational amplifier with positive and negative feedback circuits, including a resistor and condator and A comparator with two inputs, the first of which is connected to a source of a control signal, provides a dividing switch, includes a resistor to the field-effect transistor, a rectangular generator is a resistor, with {resistor negative Connecter feedback between the common power point of the operational amplifier and the inverting input, the negative feedback capacitor is connected in series with an additional resistor between the generator output, an inverting input, the inverting input is connected to the second comparator input, and the divider's splitter is connected between the generator output and the comparator input, the source of the yt signal is connected to the gate of the field-effect transistor, the drain of which is connected to the second input of the comparator, and the STOCK is connected to Come to the point of your turbo amplifiers. Fig. 1 is a schematic diagram of a device for obtaining a phase-impulse derived signal; Fig. 2 - voltage diagrams illustrating the operation of the device. A device for obtaining a phase-pulse modulated signal contains a generator consisting of an operational amplifier 1, resistors 2-5 and a capacitor 6, a voltage divider comprising a field-effect transistor 7, resistors 8-11, two capacitors 12, 13, a two-input comparator 14. In The MOMeirr of equal voltage across the inputs of the operational amplifier 1 is switched on {{the connection of the circuit), while the capacitor is charged until, for example,. During the discharge of the capacitor, the line-voltage across the resistor 4 is formed, which is fed to the non-inverting input. d op amp 1. At the inverting input of op amp 1, a constant H / r is maintained, the same JKe is the same as that on the output of op amp 1. The magnitude of the constant voltage is determined by the ratio of resistors 2, 3 At the moment of equality of the settings on the inverting and non-icing inputs of the operational amplifier, the circuit is switched, during which the current through the capacitor 6 changes direction to the opposite. At the same time, the polarity of the dc voltage is reversed to the opposite at the inverting input of the otgoration amplifier, the pulse shaping process is repeated in the next half period. The rectangular pulse generated by the generator, through the separation capacitor 12, is fed to a controlled voltage divider, consisting of} to. resistor 8 m, causing the drain-source of the field-effect transistor 7 to increase. To increase the linearity range of the output voltage of the divider, the reverse is entered connection resistors 9,10. In the absence of a transistor-x-ora 7 control gate voltage, the resistance of the drain - source is 100 hundreds ohms and the output, the divider (tfi corresponding choice of resistor 8) is practically no voltage. With increasing control voltage, the drain-source transition resistance increases, i.e. in practice, all the voltage that goes to the divider is wired to its output. From the output of the divider through the separator chain 13,11, the signal being tuned is fed to one of the inputs of the comparator 14. The voltage U is applied to the other input of the comparator

(see FIG. 2) to the resistor 4. As a result, a rectangular voltage Y is formed at the output of the comparator 14, shifted in phase by an adjustable angle with respect to the voltage. The linearity of the adjustment characteristic of the magnitude of the phase shift from the input voltage depends on the ratio of the values of the elements 4, 5, 6.

The phase shift remains constant at the frequency of the generator because the value of the linearly-falling section of voltage is determined by the ratio of resistors 2 and 3, and does not depend on the frequency of the generator,

The control range is expanded by comparing the linearly varying voltage Uj with the rectangular voltage Y, whose amplitude is changed according to the control voltage.

These advantages make it possible to significantly improve the quality characteristics of various phase control devices, simplify their implementation and expand the range of application of these devices in the process of using them for post-production applications. lag device.

Claims (2)

1. Author's certificate of the USSR N9 455444, cl. H O2 M 1/08, 1968. 2. USSR author's certificate K 498726, cl. H 03 K 5/20, 1972. 3.3u-t. T.Eee chronics, 1973 VOC 35 N9 & pp 745-749. H V-f -iJ .-, 1J Srig. g