CS204356B3 - Connection for ammeliorating the temperature stability of the high-tension source - Google Patents

Description

The invention relates to a circuit for improving the thermal stability of a high voltage source, in particular to compensate for temperature changes occurring in circuits not stabilized by the feedback loops.

The wiring of a stable DC high voltage source with wiring to affect the dynamic internal resistance of the power supply is described in AO No. 182 870. The main feedback loop includes a resistor at which a proportional drop occurs in the output current flow, thereby reducing the dynamic internal resistance of the power supply. However, by incorporating this resistor into the feedback loop, the thermal stability of the high voltage source cannot be affected.

In addition to reducing the dynamic internal resistance of the source, the circuit according to the invention also compensates for the temperature variation of the output voltage caused by the temperature influence, in particular of parts of the source not included in the feedback loops. SUMMARY OF THE INVENTION It is an object of the invention to provide feedback impedance to the main feedback loop, wherein the feedback impedance is a temperature-dependent resistor or a combination of fixed or adjustable resistors and temperature-dependent resistors.

The arrangement of the power supply, including the wiring to improve the thermal stability of the high voltage power supply, is shown in the attached figure. The output of the stable AC low voltage source 1 is connected via a divider to the input of an amplifier 2 to which the transformer TR is connected. The secondary winding of the transformer TR is connected to the input of the voltage multiplier and filter 3 and from there the output stabilized DC high voltage is output. The main feedback is realized by impedance 4, which is connected between amplifier 2 and branch L2 of transformer secondary winding TR. The correction feedback is realized by an impedance 5, which is also connected to the amplifier 2 and to the upper end of the secondary winding of the transformer TR. A combined feedback impedance 8 is formed between the lower end 6 of the secondary winding of the transformer TR and the common pole 7, consisting either of a temperature-dependent resistor (e.g. a thermistor) or a combination of fixed and / or adjustable resistors and temperature-dependent resistors. For example, the combination may be a series combination of a fixed resistance and a temperature-dependent resistance, or a parallel combination of a fixed resistance and a temperature-dependent resistance.

The temperature-dependent component of the combined feedback impedance 8 results in a temperature-dependent voltage increment or decrease, which is approximately equal to the voltage increment or decrement on the parts of the source not included in the feedback loops, but with the opposite204356. .

The wiring according to the invention has been verified at the high voltage source NBZ, 627 developed by TESLA VÚPJT.

The combined feedback impedance 8 was generated by a series combination of the TR 191 6R8 resistor and the NR D3 2 thermistor, and all the described characteristics and advantages of the present invention were verified.

Claims (1)

SUBJECT OF THE INVENTION Circuit for improving the thermal stability of a high voltage power supply according to Basic Authorization Certificate No. 182 870, characterized in that the feedback impedance (8) consists of a temperature-dependent resistance or a combination of fixed and / or adjustable resistors and temperature-dependent resistors.