SU641638A1 - Linearly-varying voltage generator - Google Patents

Description

The invention relates to a pulse technique, can be used in devices for converting and coding information, voltage to voltage converters, sweep devices, etc.

A linear-varying positive-feedback generator is known, the charge circuit of which is supplied with sources of a constant bias voltage and voltage that compensates for a change in the charging current of a capacitor, for example, according to a voltage follower circuit whose input is connected to an ungrounded lined charge capacitor 1J.

This generator does not have a high linearity and relatively low stability of the voltage buildup.

Closest to the proposed generator is a charge capacitor, in parallel with which a switch is connected, the potential capacitor plate is connected to the device input, the voltage follower input and, via a resistor, to the output of the first current generator and the zener diode cathode, the anode of which is connected to the output of the second current generator and output repeater voltage 2 ..

At the output of this generator, it is not possible to obtain the voltage of both polarities with a constant rate of change of voltage for them.

The purpose of the invention is to obtain a two-pole linear-varying voltage at a constant rate of change for both polarities.

To achieve this goal, a linearly varying voltage generator containing a charge capacitor, parallel to which the first switch is connected, and the potential capacitor plate is connected to the input of the voltage follower, through the second switch to the device input and through the resistor to the output of the first current generator and the Zener cathode, the anode of which is connected to the output of the second current generator, introduced an additional resistor and keys, with an additional resistor connected between the Zener diode anode and the input voltage follower, the output of which is connected to the cathode via the first additional key, and through the BTopoii an additional switch with the anode of the zener diode.

The structural electrical circuit of the linear-varying voltage generator is shown in the drawing.

The generator contains a charging capacitor 1, (switches 2, 3, additional switches 4, 5, resistor 6, additional resistor 7, zener diode 8, current generators 9, 10, and voltage follower 11.

The generator works as follows. In the generator mode, the linearly varying voltage key 3 is open. In the initial state, the key 2 is closed, the voltage on the capacitor 1 is zero. In order to obtain a positive voltage, it is necessary to close the additional key 5 and unlock the additional key 4. In this case, the output of the repeater 11 and the anode of the Zener diode 8 maintains the same voltage as its capacitor I, and the voltage on the cathode of the Zener diode 8 exceeds voltage on the capacitor by the amount of voltage stabilization. After the key 2 is opened, the capacitor 1 starts charging with the current flowing through the resistor 6. The magnitude of this current is determined by the voltage stabilizing the Zener diode 8 and the resistance of the resistor 6.

When the voltage on capacitor 1 changes during charging, the voltage on the cathode of Zener diode 8 changes relative to the common point of the circuit according to the same law, but shifted by the amount of stabilization voltage of Zener diode 8. So that the voltage of stabilization does not depend on the mode current of the Zener diode, It must be powered by a current generator. The current generator 9 has a large dynamic resistance, therefore, when changing for example, and lowering the collector of the transistor, its current remains almost constant. The power of the Zener diode by this current significantly reduces the change in voltage I 1 connected to its internal resistance. The current flows through the circuit: current generator 9, zener diode 8, additional switch 5, and repeater P having a low output resistance. The current of the current generator 10 also flows through the additional switch 5 and repeater II, without affecting the operation of the circuit, since these two-last elements have low resistance.

Thus, regardless of the voltage across the capacitor, the potential difference at the ends of the resistor 6 is constant, which ensures that the capacitor is charged with a direct current through the resistor 6. The current through the additional resistor 7 does not flow, so the difference in voltage across its terminals is zero. The charge is maintained until the key 2 is closed, after which the capacitor discharges to zero and the cycle can be repeated.

In order to obtain a negative linearly varying voltage, it is enough to unlock key 5 and close key 4. In this case, the generator at the zener diode 8 is generated by generator 10, and the current of generator 9 flows through repeater II without affecting the circuit operation. Capacitor is charging. through the resistor 7, the current through reznstor 6 does not flow.

Claims (2)

Invention Formula A linear-varying voltage generator containing a charge capacitor, in parallel with which the first switch is connected, the potential plate of the charge capacitor is connected to the input of the voltage follower, through the second switch to the device input and through the resistor to the Zener diode whose anode is central to the output of the second current generator, in that, in order to obtain a two-pole linearly varying voltage, is constant for both polarities, the rate of its change, scheme introduced additional resistor and keys, with an additional rezstor connected between the anode of the Zener diode and the input of the voltage follower, the output of which through the first additional switch is connected to the cathode, and through the second additional switch to the anode of the Zener diode. Sources of information taken into account by the nrn examination i- USSR Copyright Certificate No. 414721, cl. H 03 K 4/50, 07.06.72. 2. USSR author's certificate number 420103, cl. H 03 K 4/50, 03.20.72.