SU822326A1 - Device for control of triangular-shape voltage phase - Google Patents

Description

The invention relates to a pulse technique and can be used in analog pulse computing devices, measurement, recording and data transmission devices, control systems for controlling the time shift of regular pulse sequences.

A device is known for controlling the phase of the voltage of the pulse sequence, comprising coupled triangular voltage generators and a meander phase-shifted by 90 °, an external source of control voltage, a two-sided limiter of the meander amplitude to the value of the control voltage, an analog adder of a limited meander with the initial triangular voltage, two comparators pulse shaper, control inverter, invert. modulating the output voltage of the said adder with respect to levels lower than the modulus of their amplitudes, to the control voltage module at times when the output voltage of the adder modulo exceeds this level [1).

The advantages of the device are linearity, independence of the pulse repetition rate, and a wide control range of 360 °.

with the main disadvantages of this mouth. The properties are a decrease in the accuracy of regulation and reproduction of the output waveform as a result of the accumulation of errors when performing pain. _{Q of the} total number of sig. The significant complexity of the device, the need for two coupled pulse generators of pulses of different shapes, with a precisely defined phase shift between them.

Closest to the technical solution to this invention is a device for controlling the voltage phase of a triangular shape, containing an input operational amplifier, an output operational amplifier with a feedback circuit, resistors, a diode limiter (2).

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A disadvantage of the known device is the lack of accuracy in setting the phase of the output signal.

The aim of the invention is to increase the accuracy of setting the phase of the output signal.

82,1326

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This goal is achieved in that in a device containing an input operational amplifier, one input of which is connected to the control bus, and the second input is a triangular-shaped signal bus, the output operational amplifier for feedback, one input of which is connected through the first resistor to the control bus voltage and a (second input through a second resistor soe- _1P of the connections with the cathode of the diode limiter diode and resistors, introduced an additional transistor whose base via a third resistor connected to the output of the first of the operational amplifier, and the collector is connected to the anode of the diode of the diode limiter, and the second input of the output operational amplifier through the fourth resistor is connected to the signal bus of a triangular shape.

On fit. 1 circuit diagram of the device; figure 2 diagrams of stresses at various points of the device.

The device comprises an input operational amplifier 1, one input of which is connected to a control voltage bus 2, and a second input - to a triangular waveform bus 3, an output operational amplifier 4, one input of which is connected through a resistor 5 to bus 2, and a second input - through a resistor 6 with a bus 3 and through a resistor 7 with a diode limiter 8, which through an additional transistor 9, a shunt diode limiter, and a resistor 10 by the output of the amplifier 1 and 11,12.

The device works in a manner.

At the input of the operational amplifier 1, which performs the function of a comparator, a control voltage U ₂ (Fig. 2a) is supplied through a bus 2, and a triangular voltage (Fig. 2a) _{45 of} an external source is supplied through a bus 3.

At the output of amplifier 1, a rectangular voltage is formed with fronts fixed in time by the moments of equal voltage of the sources mentioned.

The output voltage of the operational amplifier 1 is subjected to two-sided limitation to the amplitude values of the source of triangular voltage using a diode limiter 8, resulting in a voltage according to Fig.26. Summing up with equal weights this voltage with voltages and ϋ £ (Fig. 2a), the latter with a negative sign, is obtained by connecting to the resistors the next output of the output operational amplifier 4, which performs the function of the adder, a triangular voltage, phase-shifted, by an angle determined by control voltage (Fig.2'v). For definiteness, all the stresses on the diagrams are shown unipolar, which is not a prerequisite. The only requirement is the presence of control voltage within the limits determined by the amplitude values of the triangular voltage C, an external source. With equal values of the amplitudes of the triangular voltage of the external source and the limited rectangular voltage (Fig. 2b), all the resistors of the amplifier circuit 4, which performs the function of an adder, are equal. With an appropriate choice of their values, ensuring equality of amplitudes at the inputs of the operational amplifier 4 and. the magnitude of the control voltage U ₂ at the inverting input within these limits, the device can. · work with the voltages of external sources lying in a wide range.

Claims (2)

The goal is achieved by the fact that a device containing an input operational amplifier, one input of which is connected to a control bus (April, and the second input to a triangular signal bus, output operation amplifier for feedback, one input of which is connected through the first resistor with the control voltage bus, and the second input through the second resistor is connected to the cathode of the diode diode, and the resistors, an additional transistor is inserted, the base of which is connected via the third resistor About the operational amplifier, and the collector is connected to the anode diode of the diode limiter, the second input of the output operational amplifier is connected via a fourth resistor to the triangular signal bus. FIG. 1 shows the electrical circuit of the device; FIG. 2 plots of voltages at various points of the device. The device contains an input operational amplifier 1, one input of which is connected to the bus 2 of the control voltage, and the second input to the bus 3 triangular signals, an output operational amplifier 4, one input which connected through a resistor 5 to bus 2, and the second input through a resistor 6 to bus 3 and through a resistor 7 with a diode limiter 8 which through an additional transistor 9, a bypass diode limiter, and the resistor 10 connected to the output of amplifier 1 and resistors 11,12 . The device operates as follows. The input voltage of the operational amplifier 1, which performs the function of a comparator, receives a control voltage Uj via bus 2 (fig 2), and a triangular voltage U via bus 3 (external source 2). 1, a rectangular voltage is generated with fronts fixed by time equal moments of the voltage of said sources. The output voltage of the operational amplifier 1 is subjected to a two-sided limitation to the amplitudes of the source of a triangular voltage limiter 8, with the result that the voltage is obtained according to Fig. 26. The sum with equal weights is the voltage with voltages C and 2, (Fig. 2a), the latter with a negative sign, is obtained at the output of the output operational amplifier 4 acting as an adder, the triangular voltage shifted in phase by an angle determined by the control voltage (Fig. 2c). For definiteness, all the voltages on the plots are shown to be unipolar, which is not a prerequisite. It is only necessary to have a control voltage within the limits defined by the amplitude values of the triangular voltage U of the external source. With equal values of the amplitudes of the triangular voltage IL of the external source and the limited rectangular voltage (Fig. 26), all the resistors of the circuit of the amplifier 4 that performs the function of the summator are equal. With an appropriate choice of their values, ensuring the equality of the amplitudes at the inputs of the operational amplifier 4 and. control voltage Uj At the inverting input within these limits, the device can. work with voltages of external sources that lie within wide limits. Apparatus of the Invention A device for controlling a voltage phase of a triangular shape, comprising an input operational amplifier, one input of which is connected to a control voltage bus, and the second input is connected to a triangular signal bus, in: an input operational amplifier with a feedback circuit, one input which is connected via a first resistor to the control voltage bus, and the second input through the second resistor is connected to the cathode of the diode diode, and resistors, characterized in that, in order to determine the accuracy of the installation s output signal, it introduced an additional transistor whose base is connected via a third resistor with the output of the first operational amplifier and whose collector is connected to the anode of the diode limiter diode, wherein a second input the output of the operational amplifier via a fourth resistor connected to the bus of the triangular waveform. Sources of information taken into account in the examination 1. Accepted for the UK, 1271383, cl. And 3 T, 08.07.72. 2. For Japan Japan 49-19930, cl. 98 (5) C 12, 05.21.74. . one but  Figg