SU1053335A1 - X-ray unit - Google Patents

Abstract

1.RENTGENOV'S APPARATUS containing an X-ray tube connected via a rectifier to a high voltage stabilizer; comprising a broadband AC voltage regulator and circuit: a reverse link with a tube voltage sensor connected to the AC voltage regulator, and an anode current regulator containing a current regulator and a circuit. feedback with the anode current sensor connected to the glow wire controller, means of overloading the tube, which is different from the fact that, in order to increase the reliability of the device in operation while reducing overall dimensions and increasing efficiency, means of overloading the tube from overload contain a circuit a threshold device with an adjustable setpoint: and limiting values of the output voltage, an adder, with a voltage sensor on the tube and a current sensor connected to the inputs of the dividing circuit, the output of the dividing circuit is connected to the input A horn device, the output of which is connected to one input of the adder, through which the feedback circuit of a high voltage stabilizer is connected to a wideband AC voltage regulator. p. 2. The device according to claim 1, which means that the threshold device contains an operational amplifier, in parallel to the output of which is connected a chain of oppositely connected limiting zener diodes, means for adjusting the setpoint, the pair input of amplifier P through the first resistor is connected to the output of the dividing circuit , and through the second:: o: ate a resistor - to the means of regulation; the settings, the second input of the amplifier through the third resistor is grounded.

Description

The invention relates to X-ray technology, namely to X-ray parameters for the purpose of stabilizing or guiding high voltage and anode current. The X-ray unit is known for stabilizing high voltage on an X-ray tube containing a measuring voltage divider connected to an X-ray tube, a comparison circuit to which inputs a measuring divider and a source of reference voltage are connected, a low-voltage bridge rectifier connected to the network via a diagonal the primary winding of the high voltage transformer, and another diagonal to the means of obtaining voltage depending on the signal at the output of the comparison circuit 1. . The disadvantage of this apparatus is that, with possible gas discharge in the tube, the high voltage stabilization system does not allow sufficiently reliable conditions to be created to stop this discharge. Also known is an x-ray apparatus containing x-ray tube protection means for the magnitude of the anode current, containing the glow current sensor included in the primary circuit of the heating transformer, the glow voltage sensor, the dividing circuit to the inputs of which the harnescence voltage sensor and the glow current sensor are connected, the comparison circuit, the inputs of which are connected to the output of the dividing circuit and the source of the reference voltage, and the output of which is connected to the control unit for the voltage control, the threshold device, to the input of which the output is connected Hema dividing and relay interrupting high voltage connected to the output of the threshold of the device 2. In a known apparatus, a signal proportional to the resistance of the filament emerges at the output of the dividing circuit, which is uniquely related to its temperature, a, 3Ha4jiT, and its emissivity, which determines the magnitudes of the anode current at a given anode voltage value. A disadvantage of the known device is that in the case of a gas discharge in the tube, i.e. the process leading to a change in the anode current without changing the temperature of the filament, the system is energized tubes will not work. The closest in technical essence to the present invention is an X-ray apparatus, the contents of an X-ray tube connected via an expander to a high voltage stabilizer containing a broadband AC voltage regulator and a feedback circuit with a voltage sensor on the tube connected to the regulator AC voltage and to the anode current regulator containing the current regulator of the heat and the feedback circuit with the sensor of the anode current connected to the current regulator of the heat eregruzki as limiting resistance connected to the high voltage circuit unit W. A disadvantage of the known apparatus is the reduced efficiency of the power source and its increased dimensions due to the high value of the limiting resistance (1 kΩ per 1 kV), which leads to an increase in heat release in the high-voltage rectifier and the associated need for increasing the size of the high-voltage device and introducing a system forced cooling. The choice of a compromise value of limiting resistance reduces the reliability of the apparatus. The purpose of the invention is to increase the reliability of the apparatus in operation while reducing the size and increasing efficiency. The goal is achieved by the fact that in an x-ray apparatus containing an x-ray tube connected through a rectifier to a high voltage stabilizer containing a wideband AC voltage regulator and a feedback circuit with a voltage sensor on the tube connected to the AC voltage regulator , and to the anode current stabilizer containing the glow current regulator and feedback circuit with the anode current sensor connected to the glow current regulator, the tube overload protection means contain a circuit A threshold device with a regulated setpoint and an input voltage limiter, an adder with the tube voltage sensor and current sensor connected to the inputs of the dividing circuit, the output of the dividing circuit is connected to the input of the threshold device, the output of which is connected to the same input of the adder, through which the feedback circuit of the high voltage regulator is connected to the wideband variable voltage regulator. At the same time, the threshold device is enclosed by an operational divider, the output of which is connected by a chain of counter-connected zener diodes, setpoint adjustment means, the first input of the amplifier is connected to the output of the dividing circuit through the first resistor, and the second input of the amplifier through the third resistor the resistor is grounded.

Figs, 1 and 2 show the X-ray apparatus diagram and the characteristic of the threshold device.

The X-ray unit contains a high voltage stabilizer 1 which includes a broadband variable voltage regulator 2, connected to the input of a high-voltage rectifier 3, the output of which is connected to the output terminals 4, to which the load is connected - an X-ray tube 5. With a control the input of the regulator 2 is connected to the output of the adder b, to one of the inputs of which is connected the output of the voltage regulator 7, the in-stroke of which is connected to the output of the first circuit 8 of the comparison. The first input of the comparison circuit 8 is connected to the output of the voltage sensor 9, and its second input is connected to the output of the first source 10 of the reference voltage.

The output terminals 11 of the anode current stabilizer 12 is connected to the filament circuit of the cathode of the X-ray tube 5. The regulator 13 of the glow circuit is connected to the output terminals 11 by its output and to the output of the current regulator 14, the input of which is connected to the output of the second comparison circuit 15, the first the input of which is connected to the output of the current sensor 16 connected in series with the discharge gap of the X-ray tube of the QY tube 5. The second input of the comparison circuit 15 is connected to the output of the second source 17 of the reference voltage. The output of the current sensor 16 is also connected to the input of the divider 18 of the analog arithmetic division circuit 19, the input of the dividend 20 of which is connected to the output of the voltage sensor 9. The output of dividing circuit 19 is connected to the input of threshold device 21 with means for adjusting setpoint 22 and limiting zener diodes 23 and 24, which serve to limit the output voltage of threshold device 21. The output of threshold device 21 is connected to the second input of adder b. The limiting zener diode 23 is connected in series with the opposite included zener diode 24.

The zener diodes 23 and 24 are connected in parallel with the output of the threshold device 21. The electrical parameters of the zener diodes 23 and 24 are such that they determine what is needed for

normal system operation characteristic of the threshold device 21 (Fig. 2).

X-ray machine operates as follows.

The output signal from the sensor 9 voltage on the tube 5 is fed to the first input of the first comparison circuit 8, where it is compared with the voltage of the first source 10 of the reference voltage supplied to the second input. The differential signal is amplified by the voltage regulator 7 and is applied to the first input of the adder 6, providing a negative voltage connection.

five

The output signal from the anode current sensor 16 is applied to the first input of the second comparison circuit 15, where it is compared with the reference voltage supplied to the second input of the circuit

0 15 comparisons from the second source 17 of the reference voltage. The differential signal is amplified by the controller 14. current and is fed to the regulator 13 of the incandescent circuit, which provides the desired effect on the magnitude of the current in order to compensate for the initial change in the anode current. Thus, the negative feedback on the current is closed.

0

At the same time, the signal from the voltage sensor 9 is applied to the input of the dividend 20 of the dividing circuit 19, to the input of the divider 18 of which the signal is output from the output of the sensor 16 of the anode

5 current.

Dividing circuit 19 performs the operation of dividing a signal proportional to the magnitude of the high voltage UH on the X-ray tube 5 by a signal proportional to

0 the value of the anode current OS, i.e. At the output of dividing circuit 19, a signal appears that is proportional to the internal resistance I, tube 5. This signal contains information

5 on the presence of disturbances affecting the change in the internal resistance of the x-ray tube 5. Up to a certain value of resistance, it does not create a decrease in the processing voltage compared to the setpoint level of the threshold device 21 with adjustable setpoint 22 and limiters 23 and 24 of the output voltage

5, the device 21, the feedback and voltage circuits operate in a stabilization mode. By reducing the output signal of dividing circuit 19 to a lower setting value of threshold device 21,

0, the latter is triggered and enters the state when its output voltage exceeds the maximum signal from the output of the voltage regulator 7 (output characteristic1 5

threshold device 21, with / value of the input signal to the right of point A in FIG. 2). The wideband AC voltage regulator 2 is locked at this time, and the output voltage Uy, at the output terminals 4, decreases until

. until the gas discharge in the x-ray tube stops. Then the signal at the input of the threshold device 21 becomes larger than the setpoint level of its operation, and the system automatically enters the current stabilization mode 3q and high voltage Tsz. In more detail, the operation of the threshold device 21 is reduced to the following sequence.

The variable resistor 22 in the output circuit of the threshold device allows to provide the initial state of the threshold device 21 in the gas discharge mode.

If under high potential. minus the high voltage rectifier 3, and the transistor wideband regulator 2 is unlocked by the negative voltage from the output of the adder b, then in the stabilization mode (at the operating value of the internal resistance of the peHTrienovskaya tube 5) the threshold device 21 has an output voltage determined by the limiting zener diode 23, at the voltage threshold level at the input of the threshold device 21, corresponding to point a in fig. 2, is set by setting the trigger threshold using a variable resistor 22. The polarity of the trigger threshold voltage and its value is completely determined as the output Hoif by the characteristic of dividing circuit 19, and the acceptable level of internal resistance of the X-ray tube 5. The negative voltage from the output of the threshold device 21 can to be compensated by the switching bias voltage and the adder b counter, so it will not have an additional unlocking effect on the broadband controller when operating in the stabilization of the automatic control system (or can be compensated for by an unbalanced output voltage with an input zero signal from the output of the voltage regulator 7, with a signal opposite to polarity relative to the output signal of the threshold device 21).

When the signal level from the input of dividing circuit 19 (gas breakdown mode) decreases, the signal at the input of the threshold device 21 is less than the threshold level specified by the set value (Fig. 2), and the threshold device changes to another stable state output voltage and in, 15V, determined by the voltage of the power sources and characteristic 24, which, according to the previously chosen value, maximally raised the foot voltage when regulating the voltage regulator 7 in the stabilization mode of the output voltage, exceeds, at least haau. vbu 9 OX 5 This signal reliably ensures the locking of the wideband regulator 2 of the alternating voltage, thus reducing the high voltage level on the tube 5 and stopping the gas

0 bit in it.

For normal operation of the automatic control system, it is not necessary that the elements: voltage sensor 9 and current 16, circuit 19

5 divisions, the threshold device 21 and the regulator 2 of an alternating voltage; nor with a high voltage rectifier. 3 - were broadband enough-,. mi This requirement is met.

-. if as a regulator 2 trans. Use a sufficiently wideband circuit, such as a transistor controller, for alternating voltage. The remaining elements are fast enough, since

5, a compensated voltage divider on the resistances is used as sensor 9, and a high-voltage resistance is used as sensor 16, respectively

0 current sensor.

Threshold device 21 with means of adjusting setpoint 22 and limiting zener diodes

5 23 and 24, the output voltage values of the threshold device in accordance with FIG. 2 and a dividing circuit 19 performed on high-voltage operational amplifiers have i

0 also good dynamic performance. As a threshold device 21, any other device that implements functions and has input-output5 and the characteristics of threshold device 21 can be used. Thus, the introduction of the scheme of operation and threshold device with

0 by means of adjusting the setpoint and limiting the magnitude of the output voltage with their respective description of the connection provides the ability to refuse the need

5 power ups

apparatus consistent with the x-ray tube limiting resistance. This provides

the possibility of increasing the efficiency of the device, reducing its size with high reliability.

Claims (2)

1. X-ray apparatus containing an x-ray tube connected through a rectifier to a high voltage stabilizer containing a broadband AC voltage regulator and a feedback circuit with a voltage sensor on the tube connected to an AC voltage regulator, th to an anode current stabilizer containing a filament current regulator, and feedback circuit with the anode current sensor connected to the glow current regulator, means of protecting the tube against overloads, characterized in that, in order to increase the reliability of the apparatus at work while reducing size and increasing efficiency, means of protecting the tube from overload contain a division circuit, a threshold device with an adjustable set point. and limiters of the output voltage, an adder, and a voltage sensor on the tube and a current sensor connected to the inputs of the division circuit, the output of the division circuit connected to the input of the threshold device, the output of which is connected to one input of the adder, through which the feedback circuit of the high voltage stabilizer is connected to the broadband AC voltage regulator. 2. The apparatus by π. 1, distinguished by the fact that the threshold device contains an operational amplifier, in parallel with the output of which is connected a chain of counterclockwise limiting zener diodes, a means for regulating the setpoint, the pair input of the amplifier through the first resistor is connected to the output of the division circuit, and through the second resistor - to the setting control means, the second input of the amplifier through the third resistor is grounded. > apreso