SU482877A1 - Linear Variable Voltage Generator - Google Patents

Description

one

The invention relates to the field of pulsed technology.

A linearly controlled voltage controlled oscillator is known, which contains a charging switch, a discharge current regulator on a negative-sided transistor, an emitter follower on a transistor, and a dc correction amplifier on a transistor.

The purpose of the invention is to increase the linearity of the output voltage.

To do this, a variable resistor is introduced into the emitter circuit of the transistor of the discharge current regulator, which is connected to the base of the transistor of the correction current amplifier whose collector is connected to the base of the transistor emitter follower, the emitter of which is connected to the discharge current stabilizer.

The drawing shows the scheme of the proposed generator.

It contains a charged p-p- /; transistor 1 forming capacitor 2, bit pn transistor 3, resistor 4 emitter follower 5, phase inverter 6.

The charge switch on the ppp transistor 1 is connected in series with the capacitor 2 in the emitter circuit to unlike wires of the power supply. The discharge current regulator consists of a discharge pn transistor 3

and iodachi circuits for voltage following feedback.

The discharge transistor 3 collector is connected to one of the capacitor 2 plates connected to the emitter of transistor 1, the emitter of transistor 3 is connected via a variable resistor 4 to the positive power supply bus, and the base of the transistor 3 is connected to the repeater emitter 5, the collector of which is connected to the negative source bus power, and the base terminal of the transistor 5 is connected to the phase inverter collector b.

The emitter follower 5 and phase inverter 6 are made on pn transistors.

The phase inverter base 6 is connected to the emitter of the transistor 3, the collector is connected to the negative power supply bus, and the emitter is connected to the field bus power supply.

The generator is controlled by applying positive pulses to the base of the charging transistor 1.

In the absence of a positive pulse, the shaping capacitor 2 is quickly charged almost to the voltage of the power supply to through the transistor 1.

When a positive pulse arrives at the base of transistor I, the transistor closes for a time equal to the pulse duration, and condensates 2 begin to discharge through transistor 3 and resistor 4. The state of the discharge current is maintained by discharging through the high resistance of the collector-emitter junction of transistor 3 and introducing a trace direct current feedback. when capacitor 2 is discharged on resistor 4, a voltage drop is created, the magnitude of which is directly proportional to the size of the discharge current of capacitor 2. The value of the voltage drop created by the discharge current of the forming capacitor 2 determines the potential of the inverter of the phase inverter 6. Since the base of the discharge transistor 3 through the emitter follower 5 is connected to the collector of transistor 6, then the resistance of the collector-emitter junction through which the forming capacitor 2 is discharged will be determined by the potential of the collector of the transistor The resistor 6. In turn, the collector potential of the transistor 6 is determined by the magnitude of the voltage drop created by the discharge current on the resistor 4, since the voltage drop on the resistor 4 is the control voltage of the inverter 6. Thus, the decrease in the discharge current leads to a decrease in the voltage across the resistor 4, to a decrease in the collector potential of the phase inverter 6 and the base of the discharge transistor 3, therefore, to a decrease in the junction resistance of the collector-emitter of the discharge transistor 3, which leads to an increase in direct current. The use of constant feedback on direct current allows to obtain a nonlinearity coefficient, 01% with a utilization factor of the supply voltage of 0.9 s 1. The temperature stability of the controlled generator is provided by deep feedback on the direct current. The output voltage is removed from the plates of the forming capacitor 2 through a matching stage with a large (lg 300 com) input resistance. The subject of the invention is a linearly varying voltage controlled oscillator containing a charge switch, a discharge current regulator on a negative-sided transistor, an emitter follower on a transistor, a dc correction amplifier, in order to increase linearity an output voltage, a variable resistor is inserted into the emitter circuit of the transistor of the discharge current regulator, which is connected to the base of the transistor of the DC corrective amplifier, the collector of which connected to the base of the emitter follower transistor, the emitter of which is connected to the base of the transistor of the discharge current regulator.

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