SU572770A1 - Dc stabilizer - Google Patents

Description

I

The invention relates to the field of electrical engineering, in particular to high-voltage DC stabilizers, containing a vacuum-triode as a regulating element, and can be used to stabilize the discharge current of gas lasers.

DC stabilizers are known, which contain a regulating element on a lamp triode connected in series with the load, and a sensor-load resistor connected between the cathode and the triode grid through the bias source 1. However, such current stabilizers are not sufficiently reliable and have a low efficiency resistor.

The closest technical solution to the invention is a DC regulator containing a regulating element on a lamp triode, the control electrode of which through a resistor is connected to a bias source, a reference voltage source, a resistor load current sensor and a DC amplifier whose output is connected to the cathode of triode 2. This current regulator is also not reliable enough and has low efficiency, which is associated with the flow of large grid currents through the DC amplifier with the load disconnected .

The aim of the invention is to increase the reliability and efficiency of stabilizers. This is achieved by the fact that, in the proposed stabilizer, the common output of the DC amplifier is connected to a resistor current sensor through a diode, in parallel to which a base-emitter junction of the first additionally inserted transistor is connected, the collector of which is connected to the base of the second additionally introduced transistor, through the emitter-collector junction which is the reference the voltage is connected to the input of the dc amplifier.

A field effect transistor can be used as a DC amplifier.

In the drawing, a schematic diagram of the described stabilizer is given.

The stabilizer contains a regulating element on the lamp triode I, the control electrode of which through a resistor 2 is connected to a bias source 3, a DC amplifier 4, a reference voltage source 5 and a load current resistor sensor 6. A diode 7 is connected between the common output of the DC amplifier 4 and the resistor current sensor 6, in parallel with which is connected the base-emitter junction of the first additionally inserted transistor 8, the collector of which is connected to the base of the second additionally input transistor 9. The input

 3

dc amplifier 4 through resistor

10and transistor 9 with dynamic load

11cv is connected to the source 5 of the reference voltage. Zener diode 12 together with diode 13 stabilizes the voltage across the transistor 9. Zener diode 14 together with the source 5 of the reference voltage stabilizes the voltage of the bias source 3. The DC amplifier 4 is made on the field-effect transistor 15.

The stabilizer works as follows.

When the supply voltages are turned on and the load current is not present, diode 7 is flowing through the grid current of lamp triode 1, limited by resistance 2. The voltage drop across diode 7 is small. The transistor 8 is locked, therefore, the base current of the transistor 9 is missing. A voltage across Zener diode 12 is applied to the collector and the emitter of the transistor 9, which is less than the allowable collector-emitter voltage for this type of transistor.

Thus, with the load disconnected, both of the additionally inserted transistors are closed, and a small current flows through the DC amplifier. When a current occurs in the load, the voltage drop across the diode 7 increases to 0.7-0.8 V, opens the transistor 8 and saturates it. The base of the transistor 9 is connected through a small resistance of the saturated transistor 8 to the reference resistance (current sensor) 6. The transistor 9 opens, the voltage drop across the dynamic load 11 increases, and the diode 13 is closed.

A direct current amplifier 4 amplifies the signal on the dynamic load 11 of the transistor 9 and changes the potential of the grid of the lamp triode of the regulating element 1 relative to its cathode so that the load current is stabilized.

The use of a field-effect transistor as a dc amplifier makes it possible to obtain a high dynamic resistance of a dc stabilizer, and the introduction of an additional transistor between the voltage source and the input of the dc amplifier improves the reliability of the stabilizer due to the optimal operation of semiconductor elements.

Claims (2)

1. A DC stabilizer containing a regulating element on the lamp a triode whose control electrode is connected via a resistor to a bias source, a reference voltage source, a resistor load current sensor, and a dc amplifier, the output of which is connected to a triode cathode, characterized in that, to increase reliability, the common output of the dc amplifier current is connected to a resistor current sensor through a diode, in parallel with which a base-emitter junction of the first additionally inserted transistor is connected, the collector of which is connected to the base of the second additionally inputted trans a resistor, through the emitter-collector junction of which the voltage source is connected to the input of a DC amplifier. 2. A stabilizer according to claim 1, characterized in that as a constant amplifier current used field-effect transistor. Sources of information taken into account in the examination 1. Goldreer I. G. Voltage stabilizers. M.-L., Gosenergoizdat, 1952, p. 95, rice 69 2. Journal of Scientific Instruments, No. 2, 1972, p. 90-94.