SU1056482A1 - X-ray generator - Google Patents

Abstract

X-RAY GENERATOR, containing 11 (and two X-ray tubes with I Ea8S pen anodes; glow transformers, anode current stabilizers {tubes connected with heat transformers, sensor of total anode current, connected to the anode grounding of X-ray tubes, means for measuring and converting, for example non-linear, currents (voltages) of a jacal, variable resistors, each: connected to the input of a stabilizer, a sensor of the total anodic current and one output of means for measuring and converting ka (voltages) of the heat of one of the tubes, a, and so on, so that, in order to increase the accuracy of stabilization and simplify the design. Other outputs of the means for measuring and converting currents (voltages) are connected between each other |, and the variable | resistors and the total anodg nbgo current sensor are connected by a star.

Description

The invention relates to x-ray technology and can be used in ren generators containing two tubes with grounded anodes. The known method of separate stabilization of anode currents in an X-ray generator with two tubes, andes of which are grounded, by varying the voltage (current) of the heat of each of these tubes by signals proportional to their anode currents, which are obtained by subtracting from the voltage proportional to the mm anodic value current of both pipes, voltages proportional to the currents of the primary windings of the heat transformers of the remaining tubes C1 J. The voltages and currents of the primary windings of the transformers of the heat of the x-ray tubes contain The mask of which is determined by the losses in the X-ray tube and the glow transformer. The presence of this component reduces the sensitivity of the stabilization system by a known method to changes in the anode current under the action of external disturbances, for example, fluctuations in the supply voltage. In addition, due to the nonlinearity of the anodic-x-ray characteristics of x-ray tubes, the changes in their anodic currents are not proportional to the variations, voltage, or filament current of these same tubes, which introduces significant error in the conversion of the control signal and reduces the stabilization accuracy. It is known that an increase in the accuracy of anodic current stabilization by adjusting the voltage (current) of a filament can be achieved due to nonlinear conversion of the signal taken in the 2 X X-ray generator filament circuit. The technical solution closest to the invention is an X-ray generator containing two X-ray tubes with grounded anodes, glow transformers, stable anodic current isolators of tubes, connected to glow transformers, sensor of total anodic current, connected to the ground circuit X-ray tube x-ray anodes, means for measuring and converting currents (voltages) of the X-ray tube helix to receive signals proportional to the anode currents of the tubes, variable resistors, each of which is connected to one stabilizer input, total anode current sensor and the output of measuring and transforming means current (voltage) of the heat of one of the tubes in such a way that signals proportional to its G32 anode current are fed to the input of the corresponding stabilizer. In fact, this device implements a well-known method of separate tabulation and is characterized by means of obtaining signals proportional to the anode currents of the tubes, which include the instrument transformer, attenuator, transmitter, reference voltage, zero-equalizer and variable resistor included in the input circuit . This stabilizer increases the accuracy of stabilization, but makes the device much more complex and does not completely eliminate the effects of external disturbances, such as supply voltage fluctuations. The purpose of the invention is to simplify the design and improve the accuracy of stabilization. The goal is achieved by the fact that the other outputs of the means for measuring and converting currents (voltages) are interconnected, and the variable resistors and sensor of the total anodic current are connected by a star, 1 X drawing shows an X-ray generator. The generator contains a regulating element 1 of the stabilization system of the anode current, included in the primary circuit of the heat transformers 2 x-ray tubes (PT) 3, the voltage sensors 4 on the primary windings; these transformers, nonlinear converters 5, variable resistors b, sensor 7 total anode current. Moreover, the control contacts of the resistors 6 are connected to the inputs of the anode current stabilizers 8, According to one of the outputs of the nonlinear transformers 5 are interconnected, and the variable resistors 6 and the total anode current sensor are connected to the star, and the nonlinear resistors 6 are connected to the inverters 5, In this generator The currents (voltages) of the heating of the tubes 3 are measured by the sensors and are matched in magnitude and sign of the converter 5 with the corresponding values of the anode current. The difference of the output signals of the converters 5 It is supplied from the resistors b and fed to the input of the anode current stabilizers 8. The same input is given to the stabilizers (CA1), which is proportional to the total current of the x-ray tubes, taken from the sensor of the total anode current 7, With equal values of the anode currents of x-ray tubes 3 output the signals of the transducers 5 are mutually compensated and are only fed to the input of the stabilizers 8 proportional to the total anode current of the X-ray tubes. When changing, for example, by decreasing the anode current of one of the tubes, This signal, which is added and subtracted, with the signals supplied to the inputs of the stabilizers 8, from sensor 7, prevents it from changing as the total anodic current changes. i

The use of the difference between the signals depending on the stresses of the heating layer considerably weakens the effect of losses in the incandescent transformers and X-ray tubes, minimizing it at equal values of the anode currents, since in the latter case the input to the stabilizers is directly proportional to the total anode Toky x-ray tube side. .

The accuracy of the stabilization can be estimated from the influence of the deviations of the L values of the signal if (Uf), depending on where the voltage of the X-ray tube is 6t,: from the corresponding an- dbd; current

In this generator, the control I signal is defined by the following expression

Claims (1)

‘54) X-RAY GENERATOR, 'containing two X-ray tubes with ‘Grounded anodes, Filament transformers, anode current stabilizers {tubes connected with transformer. frame, a sensor for the total anode current included in the ground circuit of the anodes of X-ray tubes, means for measuring and converting, for example, non-linear, currents (voltages) of the filament, variable resistors, each of which is connected to the input of the stabilizer, a sensor for the total anode current and. one output of means for measuring and converting the current (voltage) of the glow of one of the tubes, so that with the aim of increasing the stabilization accuracy and simplifying the design, other outputs of means for measuring and converting currents (voltages) of the filament are connected ^{Λ of the} resistor current to each other, and the variables and the sensor of the total anode are connected by a star.