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Negative-high-voltage direct-current integrated power supply for X-ray tube and control method thereof

A technology of X-ray tube and integrated power supply, which is applied in the field of negative high-voltage DC integrated power supply and its control, and can solve problems such as poor robustness and the inability of PID algorithm to continue to play a control role.

Active Publication Date: 2013-11-27
NORTHEASTERN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The PID algorithm is not suitable for such control conditions. Its performance is that when the parameters of the system change, the PID algorithm cannot continue to play a control role and has poor robustness.

Method used

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  • Negative-high-voltage direct-current integrated power supply for X-ray tube and control method thereof
  • Negative-high-voltage direct-current integrated power supply for X-ray tube and control method thereof
  • Negative-high-voltage direct-current integrated power supply for X-ray tube and control method thereof

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Embodiment Construction

[0071] An embodiment of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0072] The negative high-voltage DC integrated power supply for X-ray tubes in this embodiment leads to 4 wires, such as figure 2 As shown, terminal 5 of the negative high-voltage DC integrated power supply leads to two high-voltage wires connected to terminal 3 of the X-ray tube and cathode terminal 4 of the X-ray tube, and terminal 6 of the negative high-voltage DC integrated power supply leads to a high-voltage wire to connect to the terminal of the X-ray tube 2. Terminal 7 of the negative high-voltage DC integrated power supply leads a wire to ground. The terminal 2 of the X-ray tube and the terminal 3 of the X-ray tube have an AC potential difference of 0-5 volts as the filament power supply, and the anode terminal 1 of the X-ray tube is grounded. When the X-ray tube is working, the electron flow generated by the filament hits the tungsten tar...

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Abstract

The invention provides a negative-high-voltage direct-current integrated power supply for an X-ray tube and a control method thereof. The device comprises a negative high voltage generation module, a control module and a filament alternating voltage generation module. The negative high voltage generation module comprises a first PWM generation circuit, a first inverter circuit, a first resonance circuit, a high-frequency boosting transformer and a dual voltage rectifying circuit. The filament alternating voltage generation module comprises a second PWM generation circuit, a second inverter circuit, a second resonance circuit and a high-frequency step-down transformer. The control module comprises a sampling feedback circuit, a control circuit and an input and output control circuit. The method achieves double-loop control of negative-high-voltage direct-current voltage of the X-ray tube and tube currents of the X-ray tube, and a sliding mode variable structure is applied to a negative-high-voltage control loop with high frequency variable structure characteristics, so that a negative-high-voltage voltage stabilizing loop has good robustness. A water cooling device is generally not needed when the negative-high-voltage direct-current integrated power supply is adopted in the X-ray tube with low power, the size is small, and heat dissipation of the X-ray tube is facilitated.

Description

technical field [0001] The invention belongs to the technical field of power supplies, and in particular relates to a negative high-voltage DC integrated power supply for X-ray tubes and a control method thereof. Background technique [0002] If the X-ray tube can generate X-rays, it needs a high-voltage DC power supply for the tube and a low-voltage filament power supply. At present, the existing high-voltage DC power supply for X-ray tubes is a positive voltage integrated power supply, which integrates the high-voltage power supply for the tube and the low-voltage power supply for the filament. Both the high-voltage tube power supply and the low-voltage filament power supply are DC positive voltage power supplies, such as figure 1 As shown, the high-voltage DC power supply leads to three wires: Terminal 5 of the high-voltage DC power supply leads to a high-voltage wire connected to the anode terminal 1 of the X-ray tube and terminal 3 of the X-ray tube, and terminal 6 of t...

Claims

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Application Information

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IPC IPC(8): H02M3/28H02M7/48H05G1/12
Inventor 关守平刘征李志华
Owner NORTHEASTERN UNIV
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