CN201142779Y - X ray high-frequency high-voltage generator for medical diagnosis - Google Patents

Abstract

The utility model discloses an X-ray high-frequency high-voltage generator for medicinal diagnosis, which comprises a power supply and a central control unit, as well as a high-frequency inversion circuit, a pulse-width modulation driving circuit, and a high-voltage transformation and high-voltage output circuit. The generator transforms an industrial power supply into two paths of high-frequency high voltages, which are subjected to rectification and filtering for obtaining a positive DC voltage and a negative DC voltage for the operation of an X-ray bulb tube. Owing to the high frequency, the rectified and filtered high voltage ripple is very small, so that the X-ray emitted from the X-ray tube has high quality, and the definition of perspective and photographic photos is high. The X-ray bulb tube of a photographic bed or an electric perspective bed can operate after being equipped with the high-voltage power supply, thereby facilitating disease diagnosis with X-ray for medical personnel. The generator can be used as a high-voltage power supply in safety inspection fields such as industrial fault detection, civil aviations, stations, customs, etc., and supplies a stable and high-quality high-voltage supply for the devices.

Description

X ray high frequency high voltage generator for medical use diagnose

Technical field

The utility model relates to a kind of medical diagnostic X-ray apparatus, especially the high-frequency and high-voltage generator of this X-ray production apparatus.

Background technology

After on November 8th, 1895, the roentgen found X ray, make the history in existing more than 100 year of medical diagnosis with X ray, wherein: the power frequency X-ray production apparatus has experienced about 80 years development course, and basic characteristics are that its high pressure generator operating frequency is 50 He Zhi (Hz), open loop control.Because operating frequency is low, the high direct voltage ripple behind rectifying and wave-filtering is still bigger, makes X ray of low quality, as: monochromaticjty is poor, soft ray is many etc.Owing to adopt open loop control, high direct voltage and electric current are not very stable, the control of exposure parameter and repeated stability are all poor, because operating automation degree is not high, protection level is low, and the factor that influences imaging is more, finally cause image quality not high, diagnostic level is subjected to bigger restriction, and the device structure complexity, and is bulky and heavy.

The high-frequency and high-voltage generator technical development of external X-ray production apparatus relatively early, released intermediate frequency X-ray production apparatus product the eighties, release high frequency X-ray production apparatus product the nineties again, the operating frequency of its high pressure generator is brought up to hundreds of He Zhi, thousands of He Zhi, tens of kilo hertzs of sesames by 50 hertz.The raising of operating frequency brought on the structure and performance on qualitative leap.Owing to adopted up-to-date high-speed semiconductor device, high-frequency convertor technology, Closed loop Control and computer management, solved the problem of traditional power frequency, the existence of intermediate frequency X-ray production apparatus, made its protection level and image quality and doctor's diagnostic level also all obtain large increase.

China still was in power frequency X-ray production apparatus developing stage basically before 1997, medium frequency equipment and High-frequency machine be dependence on import all.Although intermediate frequency and high frequency X-ray production apparatus classify as country " seven. five ", " eight. five ", " nine. five " plan brainstorm subject, the unit that more domestic economic strengths and technical force are stronger has all carried out this important function for of research, but does not all see the report of researching and developing successfully and putting into production.

The utility model content

The purpose of this utility model provides a kind of X ray high frequency high voltage generator for medical use diagnose, should be able to solve weak point of the prior art, improve the quality of X ray, and the definition of perspective and photography photo, and, the stability of electric current and voltage is high, has also reduced the volume and weight of equipment greatly.

The technical scheme that the utility model is dealt with problems is:

(1), high-frequency inversion technology, the utility model X ray high frequency high voltage generator for medical use diagnose has designed two high-frequency inverters, one is main power high frequency inverter, its function is to be that 50 He Zhi voltages are that 380 volts of industrial power supplys are behind rectifying and wave-filtering with frequency, deliver to main power high frequency inverter, output high frequency square wave when main power high frequency inverter is worked, frequency is 30 kilo hertzs of sesames (KHZ), voltage is 540 volts.This high frequency square wave is delivered to pressure-oil tank again and is boosted, and is generally more than 100 kilo hertzs of sesames 40 kilovolts (KV), obtains high-frequency and high-voltage and carries out confession X ray bulb work after rectification and the filtering again.With raising X ray quality, shorten the time for exposure, improve the definition of perspective and photography photo, improved the diagnosis level, the harm of the amount of radiation that minimizing patient and medical worker are subjected to.Another is an X ray bulb filament heating inverter, and the pulse-width modulation alternating voltage that its function provides 20kHz heats to filament, makes X ray bulb energy operate as normal.

(2) pulse wide voltage-regulation technology, the width of the high frequency square wave pulse of output is adjusted high frequency voltage when working by changing high-frequency inverter, promptly the signal feedback of sampling being returned by the voltage sampling circuit of pressure-oil tank is to pulse-width modulation (PWM) drive circuit, the reference voltage of pulse-width modulation drive circuit through sending here with central control circuit produces the pulse-width signal of control in real time after relatively the high pressure square wave pulse duration of pressure-oil tank output regulated, high frequency voltage is effectively adjusted, and after rectification, obtained stable high direct voltage.

(3) high pressure conversion and high pressure export technique, the frequency of output was 30KHZ when main power high frequency inverter was worked, voltage is 540 volts high frequency square wave, the high frequency transformer of delivering in the pressure-oil tank boosts, after obtaining high-frequency and high-voltage and passing through high voltage silicon stack rectification and capacitor filtering again, deliver to X ray bulb in the photography bed or the X ray bulb work on electronic fluoroscopic table by high-tension terminal, high-voltage plug and high-tension cable.

The utility model selects for use single-chip microcomputer to realize the pulse duration of microcomputer CPU closed-loop control high-frequency inversion, to reach the stable purpose of high frequency voltage.Single-chip microcomputer claims monolithic computer again, it is each functional part of microcomputer, be integrated on the chip piece as central processing unit (CPU), random-access memory (ram), read-only memory (ROM), I/O interface, timer/counter and serial communication interface etc., constitute a complete microcomputer.Voltage parameter as benchmark is preset in the monolithic computer, and via line is given the pulse wide voltage-regulation circuit, sampling feedback signal in the high direct voltage of pressure-oil tank output, be added to pulse-width modulation circuit, the two compares, produce the pulse-width signal (pulsewidth and the rectangular wave drive signal that is entered as linearity) of control in real time, deliver to the driver module circuit, the high pressure of output is regulated.

The utility model is by high-frequency inversion technology, pulse wide voltage-regulation and microcomputer CPU Closed loop Control, with industrial frequency be 50 He Zhi voltages be 220 volts or 380 volts of power conversions to become frequency be that 30 kilo hertzs of sesame voltages are the high-frequency and high-voltage more than 100 kilovolts, behind rectifying and wave-filtering for the work of X ray bulb.Because the frequency height, the high direct voltage ripple behind the rectifying and wave-filtering is minimum, and the X ray of X ray bulb emission is of high quality, and perspective, photography photo definition are also very high.And the adjustment of electric current and voltage and control precision height, also reduce the volume of equipment greatly and reduced the weight of equipment.By high pressure conversion and high pressure export technique, making this high-frequency and high-voltage generator can be separately the X ray bulb configuration high voltage source of the X ray bulb or an electronic fluoroscopic table of a photography bed.This generator is single sheet pipe X ray high frequency high voltage generator for medical use diagnose again.

Reverse frequency of the present utility model and inversion transformation technique, pulse wide voltage-regulation and microcomputer CPU Closed loop Control, and high pressure conversion and high pressure export technique, reached the technical merit of similar products at home and abroad, the X ray high frequency high voltage generator for medical use diagnose quality of China is reached a new high.The utility model is mainly medical diagnostic X-ray apparatus its needed high voltage source is provided.Also can be widely used in hospitals at different levels and R﹠D institution and make medical diagnosiss such as radioscopy, stomach and intestine photography, the photography of filter line device, rabat photography and layer radiography.The utility model also can promote the use of the industrial flaw detection field and be applied to safety inspection fields such as civil aviaton, station, customs, port and pier, criminal investigation.For these rays safety detection apparatus provide stable high-quality high voltage source.

Description of drawings

Fig. 1 is a structural principle block diagram of the present utility model.

Fig. 2 is a high frequency inverter circuit schematic diagram of the present utility model.

Fig. 3 is pulse-width modulation of the present utility model (PWM) drive circuit schematic diagram.

Fig. 4 is high pressure conversion of the present utility model and high-voltage output circuit schematic diagram.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Shown in Figure 1, be block diagram of the present utility model.By among the figure as can be known, the utility model mainly by three partly circuit form: the one, the power circuit that constitutes by filter, A.C. contactor delay switch, current rectifying and wave filtering circuit and accessory power supply; The 2nd, the high-frequency high-voltage circuit that constitutes by the high pressure conversion current rectifying and wave filtering circuit in high-frequency inverter, the pressure-oil tank, X ray bulb; The 3rd, by the CPU closed-loop control and the protective circuit of control desk, the central control circuit that comprises microcomputer CPU, pulse-width modulation (PWM) drive circuit, filament heating circuit, rotarting anode drive circuit formation.

Its basic functional principle is as follows: three-phase 380V power supply links to each other with medical diagnosis X radial high-frequency and high-voltage generator based on dual-bed and dual-tube of the present utility model by binding post, delivers to high-frequency inverter through fuse, filter, A.C. contactor, rectification filtering unit.Wherein, a phase power supply is delivered to accessory power supply, the direct current ± 12V of accessory power supply output and+the 48V power supply is for the accessory power supply usefulness of circuit such as control desk and each control, protection and filament heat driven circuit.After the energized, system is in off-mode, after pressing control desk start key (ON), control desk sends start-up command to X ray high frequency high voltage generator for medical use diagnose, X ray high frequency high voltage generator for medical use diagnose makes the A.C. contactor adhesive after receiving start-up command, three-phase 380V power supply carries out soft charging by the rectification module and the charging resistor of rectification filtering unit to rectification filtering unit electric capacity, charging voltage is monitored detection by interface unit, charging resistor is by short circuit when charging voltage surpasses 450Vdc, three-phase 380V power supply obtains about 540 volts direct voltage by A.C. contactor and behind the rectification filtering unit rectifying and wave-filtering and sends high-frequency inverter to, and it is ready to start shooting.Central control unit is sent out the start normal signal to control desk after receiving the start ready signal, and control desk shows default exposure parameter, and complete machine is in holding state.

When control desk after X ray high frequency high voltage generator for medical use diagnose sends exposure instruction, high-frequency inverter work, the high frequency square wave of output is added in and produces the two-way high direct voltage on the pressure-oil tank, pressure-oil tank mainly act on be with the high pressure square wave boost, rectifying and wave-filtering, and voltage and current sampled.With high-tension cable high pressure is connected to X ray bulb on the photography bed or the X ray bulb on the electronic fluoroscopic table, control desk can be controlled the X ray bulb of (operation) photography or perspective and work.The signal feedback that the voltage sampling circuit of pressure-oil tank is returned sampling is to the pulse-width modulation PWM drive circuit, and the pulse-width modulation PWM drive circuit produces the pulse-width signal of control in real time through back relatively the high pressure of exporting is regulated.Thereby obtain stable needed tube voltage---X ray bulb anode high direct voltage.

The utility model adopts the pulse-width modulation alternating voltage of 20kHz to heat to filament.When selecting different voltage kV, control program is exported control signal to corresponding filament data through D/A converting circuit when preparation, and this signal controlling filament heating inverter makes filament heating inverter produce the pulse-width modulation high frequency voltage.This high frequency voltage excitation filament heating, filament is to be in the state of preheating during holding state.

In the exposure process, the signal feedback that the current sampling circuit of pressure-oil tank is returned sampling is to central control unit, central control unit compares feedback signal and internal reference signal, deliver to the filament heating unit through providing suitable filament heating current fiducial value after the computing, the filament heating unit exchanges X-ray tube ball filament according to the pulse-width modulation of fiducial value output 20kHz, thereby obtains stable needed tube current---X ray bulb heater current.

Press the rim brake switch on the control desk, after X ray high frequency high voltage generator for medical use diagnose enters the preparation work state, the rotarting anode driver is sent the anode motor of 160V starting resistor to the X-ray bulb, through about 1 second (S) time-delay, 160V voltage will be reduced to 60V, the anode motor enters normal operating condition, and anode driver is delivered to central control unit with normal enabling signal simultaneously, and X ray high frequency high voltage generator for medical use diagnose enters exposure status immediately.Behind the end exposure, the rotarting anode driver send the 60V Rectified alternating current to the anode motor so that the anode motor speed descend fast until stopping operating.If the anode motor fails normally to start for a certain reason; central control unit does not receive the normal enabling signal of anode motor; medical diagnosis X radial high-frequency and high-voltage generator based on dual-bed and dual-tube just can not enter the exposure state, thereby has protected the anode of X ray bulb not injured by X ray.

Under microcomputer CPU control; capacity limit latch voltage (kilovolt kV), electric current (milliampere mA), long-pending (milliampere-second mAs) tri-consult volume of current time according to the X ray bulb select to carry out the capacity protection; in the exposure process, adopt load landing technology, effectively guaranteed the safety of X ray bulb.

Accessory power supply has two, in fact all is switching power supply, and one is output as ± 12V, and another is output as+48V.Can output ± 12V very common with the circuit of+48V, be prior art.When three-phase 380V power supply is sent medical diagnosis X radial high-frequency and high-voltage generator based on dual-bed and dual-tube to; have once sending this two accessory power supply inputs mutually to; their output ± 12V and+the 48V DC power supply, for the accessory power supply usefulness of circuit such as control desk and each control, protection and filament heat driven circuit.

The frequency that high frequency inverter circuit (actual have 2 high frequency inverter circuit) produces is the high frequency square wave of 540V for 30KHz voltage, through lead-out terminal (actual is 2 pairs of lead-out terminals) respectively with pressure-oil tank in the two ends of 2 high frequency transformer primary coils join, it is the high frequency voltage of 25kV for 30kHz voltage that 3 secondary winding of two high frequency transformers just induce frequency respectively, through the high voltage silicon stack rectification and after with their serial connections, obtain the 75kV high pressure of anode and the 75kV high pressure of negative terminal respectively, as long as the X ray bulb of anode high pressure and negative terminal high pressure and photography bed is coupled together with high-tension cable, perhaps the X ray bulb of anode high pressure and negative terminal high pressure and electronic fluoroscopic table is coupled together, the X ray bulb or the X ray bulb on the electronic fluoroscopic table of photography bed just can operate as normal.

Shown in Figure 2, be high frequency inverter circuit schematic diagram of the present utility model.In the drawings, high-frequency inverter is made up of three part circuit: the one, and be two high voltage switch device isolation grid bipolar transistor module circuit of BSM150GB120DN2 or BSM100GB60DLC by model, claim the full-bridge electronic switching circuit that IGBT module VI1, VI2 constitute again; The 2nd, by four models be EXB841 trigger actuation module N5, N6, N7, N8 and corresponding peripheral component resistance R 1～R4 and R9～R12, capacitor C 1～C8, diode VD5～VD8, constitute 4 insulated gate bipolar transistor module circuits for triggering respectively; The 3rd, by four models optocoupler module N1 that is TLP521, N2, N3, N4 and corresponding peripheral component thereof: four resistance R 5～R8 and four diode VD1～VD4 constitute circuit overcurrent protection.Wherein, the collector electrode C1 of two IGBT module VI1 and VI2 is connected with the anodal VDD of power supply, emitter E 2 all is connected with the negative pole VSS of power supply, transistor emitter E1 in every IGBT module and the friendship node of collector electrode C2 are drawn output C2E1, the grid G 1 of each triode, G2 is respectively by resistance R 9, R10, R11, R12 and corresponding driver module N5 separately, N6, N7, the signal output pin 3 of N8 connects, the emitter E 1 of first pipe among two IGBT module VI1 and the VI2 also is connected with the pin 1 of corresponding driver module, and by each corresponding diode VD7, the driver module N6 that VD8 is adjacent with next, the pin 6 of N8 connects driver module N5, N7 pin 6 is respectively by diode VD5, VD6 is connected with positive source VDD; The pin 2 of optocoupler N1 modular circuit is connected with the pin 5 of driver module N5, pin 1 is connected with the pin 2 of driver module N5 by resistance R 5, pin 3 connects common port, pin 4 is connected by the pin 2 of the integrated operational amplifier N10 among diode VD1 and Fig. 3, the transmission over-current signal, remaining optocoupler modular circuit N2, N3, N4 with each corresponding driving module N6, N7, N8 are corresponding is connected, the pin 4 of each optocoupler module is that the pin 2 of LM393 integrated operational amplifier N10 is connected the transmission over-current signal by model among diode VD2, VD3, VD4 and Fig. 3 all; The pin 15 of driver module N5, N8 is imported the drive signal A from Fig. 3 by resistance R 1, R4 respectively, the pin 15 of driver module N6, N7 is imported the drive signal B from Fig. 3 by resistance R 2, R3 respectively, and the pin 2 of each driver module N5, N6, N7, N8 connects 20 volts of DC power supply.These 20 volts of DC power supply design and are installed on the high frequency inverter circuit plate separately, with+the 12V power supply, be to be drive integrated circult and the peripheral related resistors electric capacity formation RC oscillator of SG3525A with model, produce the 20kHz oscillator signal through amplifying the elementary winding of a high frequency transformer of rear drive, its 4 secondary winding just induce the high frequency voltage that frequency is 20kHz respectively, through being carried out rectifying and wave-filtering, the high frequency electric source of its 4 secondary winding obtains 4 groups of 20 volts of DC power supply, the trigger actuation module N5 that to supply with 4 models among Fig. 2 respectively be EXB841, N6, N7, N8 uses.For simplicity, do not draw this 20 volts of DC power supply circuit in the high-frequency inversion appliance circuit.

The high-frequency inverter circuit operation principle is as follows: after inverter connects line related, as the high level drive signal A that exports from pulse-width modulation (PWM) drive circuit integrated package N12 the 11st pin of Fig. 3, when delivering to the 15th pin of Fig. 2 driver module N5 and N8, the 3rd pin output high level of driver module N5 and N8 drives the following pipe conducting of going up pipe and module VI2 of high-power insulated gate bipolar transistor module VI1 respectively by resistance R 9, R12; As the high level drive signal B from the output of pulse-width modulation (PWM) drive circuit integrated package N12 the 14th pin of Fig. 3, when delivering to the 15th pin of the driver module N6 of Fig. 2 and N7, the following pipe of high-power insulated gate bipolar transistor module VI1 and VI2 go up the pipe conducting.Drive signal A and drive signal B are during with the frequency checkers of 30 kilo hertzs of sesames, and also obtaining frequency between two lead-out terminal C2E1 of high-power insulated gate bipolar transistor module V11 and V12 is 30 kilo hertzs of sesames, and voltage is 540 volts alternating voltage.Two terminal HT1 of primary coil of the high frequency transformer T1 of two lead-out terminal C2E1 and Fig. 4, be after two terminals of primary coil 7,8 connect, three secondary coils of transformer T1 boost, and frequency is just arranged is that 30 kilo hertzs of sesame voltages are 25 kilovolts high-frequency and high-voltage output.This high-frequency inverter circuit has two, and because of circuit is identical, the components and parts of use are also identical, and the numbering of components and parts is also identical, and operation principle is also identical, for simplifying length, only provides the circuit diagram of a high-frequency inversion electrical equipment among Fig. 2 here.The signal input of this 2nd high-frequency inverter is also the same with the signal input of the 1st high-frequency inverter, workflow after the signal input too, here just no longer statement is joined but two terminal C2E1 of its output are two terminal HT2 of primary coil with another high-tension transformer T2 of Fig. 4.As the VI1 of high-power insulated gate bipolar transistor module, when overcurrent appears in VI2; each electric current of managing emitter E 1, E1A increases; be reflected on the pin 6 of each driver module N5～N8; make the circuit overcurrent protection output send guard signal; circuit overcurrent protection and central controller by Fig. 3; turn-off drive signal, thereby play the effect of protection high-power insulated gate bipolar transistor module VI1, VI2 and X ray bulb.

Shown in Figure 3, be the utility model pulse-width modulation PWM drive circuit schematic diagram.As we know from the figure, the pulse-width modulation PWM drive circuit is made up of following a few part circuit, the one, be that partial circuit and peripheral resistance R 21, R22 and capacitor C 15, the C16 that the pulse-width modulation of SG3525A drives integrated package N12 forms the RC oscillator by model, the generation frequency is the rectangle high-frequency pulse signal of 30 kilo hertzs of sesames, as the inversion operating frequency of high-frequency inverter; The 2nd, form the voltage reference signal input circuit by a part of circuit of integrated package N12 and peripheral resistance R 18, R19 and capacitor C 12, the feedback signal of the high pressure of reference voltage and output is compared, rectangle high-frequency impulse width to oscillator is adjusted, to reach the high pressure that outputs to the X ray bulb is adjusted, stable to guarantee high pressure; The 3rd, the operational amplification circuit integrated package N9 and peripheral resistance R 13～R17, the R20 that are LM358 by part circuit and the model of integrated package N12, capacitor C 9～C11, C13, C14, the high pressure feedback signal input circuit that diode VD9, VD10 form, wherein, resistance R 15 is an adjustable potentiometer; The 4th, be 4013 d type flip flop integrated package N11 and peripheral resistance R 27～R29 by model, capacitor C 20 and model are that diode VD13～VD15 of IN4148 constitutes the d type flip flop circuit, wherein, VD13 is a light-emitting diode; By model is LM393 operational amplification circuit integrated package N10 and peripheral resistance R 23～R26, the comparator circuit overcurrent protection that capacitor C 17～C19 and IN4148 diode VD11, VD12 constitute.

In Fig. 3, the positive high voltage feedback signal that the signal input part 3 of integrated package N9 is sent by the 4th pin from the aviation socket X1 of Fig. 4 of resistance R 13 input, signal input part 2 all is connected with an end of resistance R 14, R15 and capacitor C 10 with output 1, the other end of resistance R 14 is the voltage detecting end, the other end of capacitor C 10 is connected with the moved end of potentiometer resistance R14 and an end of resistance R 16, and the other end of resistance R 16 is connected with the pin 1 of integrated package N12 by resistance R 17.The voltage reference that comes from central controller is connected with the pin 2 of integrated package N12 by forming the voltage reference signal input circuit by resistance R 18, R19 and capacitor C 12.Be made up of in the RC oscillator resistance R 21, R22 and capacitor C 15, C16, the interface point of resistance R 21 and capacitor C 15 is connected with the pin 5 of integrated package N12, and the other end of resistance R 21 is connected with the pin 7 of integrated package N12; One end of resistance R 22 and capacitor C 16 be connected publicly, the other end divides and to be connected with pin 6, the pin 8 of integrated package N12.The pin 11,14 of integrated package N12 is output drive signal A and B respectively, delivers to Fig. 2 and drives inverter work, and pin 10 is connected with the negative pole of diode VD14 and VD15.The over-current signal that transmits from Fig. 2 is transported to the signal input pin 2 of integrated package N10.The signal input pin 3 of integrated package N10 is connected with resistance R 24, R25 and the interface point of capacitor C 17, and signal output pin 1 is connected with the pin 3 of integrated package N11.Pin 4 input of integrated package N11 is from the signal that automatically resets of central controller, and the guard signal of central controller is removed in pin 2 outputs, and pin 1 passed through the diode VD14 of two reversal connections and the VD15 input enable signal from central controller.Light-emitting diode VD13 is connected between the pin 1 and public ground of integrated package N11 with after resistance R 28 is connected in series, as the work indication.

Integrated package N11 the 4th pin among Fig. 3 is a resetting pin, as long as high level signal of input promptly resets.A resistance of serial connection and an electric capacity automatically reset purpose of N11 that can realize at every turn starting shooting between+12V power supply and integrated package N11 the 4th pin.The guard signal that integrated package N11 the 2nd pin is sent is a low level signal, delivers to the central controller circuit, for the display circuit work of central controller, shows the overcurrent protection code.Deliver to the enable signal of the diode VD15 negative pole Fig. 3 from central controller, it is the control signal of a high level, according to circumstances manually send by the staff, deliver to the 10th pin that pulse-width modulation drives integrated package N12 through diode VD15, close the output of drive signal A, B, stop inverter work.

Pulse-width modulation PWM drive circuit works principle is as follows: reference voltage is sent the 2nd pin of integrated package N12 to through resistance R 18, R19 and the capacitor C 12 of Fig. 3 from the central control circuit of Fig. 1, the 3rd pin that the sampling feedback signal of the high direct voltage of high-voltage conversion circuit among Fig. 4 output (the positive high voltage sampled signal of sending from aviation socket X1 the 4th pin) is sent integrated package N9 to through resistance R 13 and the capacitor C 9 of Fig. 3, after integrated package N9 paraphase,, deliver to the 1st pin of pulse-width modulation integrated package N12 through capacitor C 10, potentiometer R15, resistance R 16, R17 from pin output pin 1.Reference voltage and feedback signal are compared, produce the pulse-width signal of control in real time, rectangle high-frequency impulse width to integrated package N12 and the RC oscillator generation of peripheral cell formation is accordingly adjusted, from pin 11 and pin 14 difference output drive signal A and B, this drive signal is delivered to 4 driver module N5 of Fig. 2 respectively, N6, N7,15 pin of N8, deliver to high-power switch device insulated gate bipolar transistor module VI1 from their the 3rd pin output triggering signal, grid G 1 and the G2 of VI2, make V11, the pipe up and down of V12 takes turns conducting, because the width of the start pulse signal of its input has been adjusted to suitable width, so the high-frequency impulse width of its output also is adjusted to suitable width.Certainly, the high-frequency impulse width after boosting also is adjusted to suitable width, and this just reaches the purpose of the high pressure of the rectifying and wave-filtering that boosts through the pressure-oil tank step-up transformer being adjusted to set point.

The operation principle of current foldback circuit is: 4 optocoupler N1, N2 among Fig. 2, N4, N5 are to be high level state at the 4th pin just often, so the negative pole of diode VD1～VD4 is to be high level state.VI1 when the high-power insulated gate bipolar transistor module; when overcurrent appears in VI2; each manages emitter E 1; the electric current of E1A increases overcurrent; this overcurrent protection signal is delivered to 4 driver module N5 respectively through the positive pole of 4 of Fig. 2 sampling diode VD5～VD8 respectively; N6; N7; the 6th pin of N8; deliver to photoelectric coupled circuit module N1 from the 5th pin again; N2; N4; the 2nd pin of N5; optocoupler work; the 4th pin becomes low level; the negative pole of diode VD1～VD4 also becomes low level; this low level signal is delivered to the 2nd pin of Fig. 3 comparator circuit overcurrent protection integrated package N10; amplify d type flip flop integrated package N11 is delivered in the back from the output of integrated package N10 the 1st pin pin 3; make the state counter-rotating of integrated package N11; at high level guard signal of pin 1 output; deliver to the shutoff control pin 10 of pulse-width modulation integrated package N12 through diode VD14; closed output drive signal A; B, thus the high-tension circuit of back protected.

This pulse-width modulation drive circuit has two, because of the circuit formed identical, the components and parts that use are also identical, the numbering of components and parts is also identical, operation principle is also identical, for simplifying length, the circuit diagram that only provides a pulse-width modulation drive circuit in Fig. 3 is corresponding with the high-frequency inverter circuit of Fig. 2, this the 2nd pulse-width modulation drive circuit is to drive the 2nd high-frequency inverter circuit work and corresponding the setting, so, the drive signal of its output is that 4 models delivering to the 2nd high-frequency inverter are EXB841 driver module the 15th pin, and the workflow after its signal input just no longer repeats here also with above-mentioned the same.

Shown in Figure 4, be high pressure conversion of the present utility model and high-voltage output circuit schematic diagram.By among the figure as can be known, high pressure conversion and high-voltage output circuit by four partly circuit forms, all install and be immersed in the fuel tank that insulating oil is housed, the abbreviation pressure-oil tank:

The one, form by 2 high frequency transformer T1, T2, six silicon stack D1～D6 that high frequency boosts and high-voltage rectifier; The structure of these two high frequency transformer T1 and T2 is identical, form by an O type silicon steel thin belt cores pile in layers, a primary coil winding, three secondary coil windings, its effect is that the high frequency square-wave voltage of 540 volts of alternations of 30 kilo hertzs of sesames that high-frequency inverter is sent here boosts, the structure of six silicon stack D1～D6 is identical, form a full-bridge rectifier by four groups of diodes, we are called silicon stack at custom, its effect is the high frequency square-wave voltage rectification of the alternation that boosts through high frequency transformer, makes it become direct voltage.Wherein, the output of silicon stack D1 connects an end of the bleeder circuit of being made up of resistance R 30, R31 and capacitor C 21, C22 and three binding posts of anode high-tension terminal JP1; The output of silicon stack D6 connects an end of another bleeder circuit of being made up of resistance R 32, R33 and capacitor C 23, C24 and the binding post 1 of negative terminal high-tension terminal JP2, also connect the line tail end of filament transformer T3 secondary coil and the end of a thread end of filament transformer T4 secondary coil simultaneously, the binding post that meets negative terminal high-tension terminal JP2 end to end respectively 2,3 of filament transformer T3, T4 constitutes the filament current supply circuit.

In Fig. 4, it is that 30 kilo hertzs of sesame voltages are 25 kilovolts high-frequency and high-voltage output that frequency is just arranged after three secondary coils of transformer T1 boost, carrying out that full-wave rectification is connected in series again and voltage is just arranged after filtering through high voltage silicon stack D1, D2, D3 respectively is 75 kilovolts high direct voltage output, and the high-voltage positive electrode of its high voltage silicon stack D1 connects three binding posts of anode high-voltage plug JP1, the high voltage negative of high voltage silicon stack D3 connects 8 hole aviation sockets the 5th pin hole.It is that 30 kilo hertzs of sesame voltages are 25 kilovolts high-frequency and high-voltage output that frequency is just arranged after 3 secondary coils of high-tension transformer T2 boost, carrying out that full-wave rectification is connected in series again and voltage is just arranged after filtering through high voltage silicon stack D4, D5, D6 respectively is 75 kilovolts high direct voltage output, the high-voltage positive electrode of its high voltage silicon stack D4 switch S after testing connects the 6th pin hole of 8 hole aviation sockets, and the high voltage negative of high voltage silicon stack D6 is received negative terminal high-tension terminal JP2.High-tension terminal JP1 and high-tension terminal JP2 connect its work that makes by high-voltage plug and high-tension cable realization with the X ray bulb.

The 2nd, by resistance R 30 and capacitor C 21 and connect, resistance R 31 and capacitor C 22 also connect, and then compose in series anode high pressure partial pressure unit circuit, resistance R 32 and capacitor C 23 also connect, resistance R 33 and capacitor C 24 also connect, and then serial connection, form negative terminal high pressure partial pressure unit circuit.The input voltage of this bleeder circuit is taken from the output of silicon stack D1, D6 respectively, and dividing potential drop is taken from resistance R 30 and resistance R 31, resistance R 32 and R33 interface point respectively, and is connected with aviation seat X1 pin 4,7 respectively.

The 3rd, the main high-voltage output circuit of forming by 1 anode high-tension terminal (JP1) and 1 negative terminal high-tension terminal (JP2);

The 4th, by the X ray bulb heater chain that comprises that two filament transformer T3, T4 form.Socket X1 is 8 hole aviation sockets, wherein the 1st, 2,3 hole pin connect two filament transformer T3, T4 primary coil, and wherein, the line tail of filament transformer T3 is connected with the end of a thread of filament transformer T4, the 4th hole pin connects the anode high-voltage divider of being made up of resistance R 30, R31 capacitor C 21, C22; The 7th hole pin connects the negative terminal high-voltage divider of being made up of resistance R 32, R33 capacitor C 23, C24, the 5th hole pin connects silicon stack D3 negative terminal, i.e. anode high pressure output negative pole, and the 6th hole pin connects the positive pole of silicon stack D4 by Test Switchboard S, be negative terminal high pressure output cathode, the 8th hole pin ground connection.Also connect by aviation plug X1 and line: comprise that the resistance R 13 on pin 4 and Fig. 3, the common end of capacitor C 9 join, and send 3rd pin of positive high voltage sampled signal to integrated package N9 with interlock circuit; Pin 5 and pin 6 are in the fuel tank external ground; Resistance R 13 on pin 7 another pulse-width modulation drive circuit (not drawing) identical with Fig. 3, the common end of capacitor C 9 join, and send the negative high voltage sampled signal; Pin 8 joins with complete machine ground connection; The corresponding position of pulse-width modulation filament heating circuit in pin 1,2,3 map interlinkings 1, the filament heat driven signal of the pulse-width modulation that to accept its frequency of sending here be 20 kilo hertzs of sesames.

The operation principle of this X ray high frequency high voltage generator for medical use diagnose is:

From the explanation of above-mentioned pulse-width modulation (PWM) drive circuit as can be known to Fig. 3, resistance R 21, R22, capacitor C 15, the C16 external by integrated package N12 and the 5th～8 pin form the RC oscillator, producing frequency is the rectangle high-frequency pulse signal of 30 kilo hertzs of sesames, the drive signal that conduct drives high-frequency inverter work, the frequency of this drive signal also is the operating frequency of high-frequency inverter, and the resistance that changes resistance R 21 or R22 can change its frequency of oscillation.When the resistance of adjusting resistance R 21 and R22 makes frequency of oscillation be 30 kilo hertzs of sesames, change resistance R 21 and R22 into fixed resistance, because the closed-loop control effect in the integrated package N12, the high-frequency impulse frequency of 30 kilo hertzs of sesames is that what to be fixed also is stable.The rectangle high-frequency impulse is from the 11st pin of integrated package N12 and the output of 12 pin, wherein, from the drive signal A of pin 11 outputs, sends the high frequency inverter circuit driver module N5 that delivers to Fig. 2 and the 15th pin of N8 respectively to through the resistance R 1 of Fig. 2 and R4; From the drive signal B of pin 12 output, send the high frequency inverter circuit driver module N6 that delivers to Fig. 2 and 15 pin of N7 respectively to through Fig. 2 resistance R 2 and R3.

From the block diagram of Fig. 1 as can be known, three-phase 380V power supply is sent the vdd terminal and the VSS end of the high-frequency inverter of Fig. 2 to by filter, A.C. contactor and the direct voltage that obtains about 540V behind the rectification filtering unit rectifying and wave-filtering, certainly, other relevant power supplys also will connect, when the high level drive signal A from integrated package N12 the 11st pin output of the pulse-width modulation drive circuit of Fig. 3 delivers to the 15th pin of the driver module N5 of Fig. 2 and N8, the following pipe conducting of going up pipe and VI2 of high-power insulated gate bipolar transistor module VI1; When the high level drive signal B from integrated package N12 the 14th pin output of the pulse-width modulation drive circuit of Fig. 3 delivered to the 15th pin of the driver module N6 of Fig. 2 and N7, the following pipe of high-power insulated gate bipolar transistor module VI1 and VI2 went up the pipe conducting; Drive signal A and drive signal B are during with the frequency checker of 30kHz, also obtain the alternating voltage of 540 volts of 30 kilo hertzs of sesames between two lead-out terminal C2E1 of high-power insulated gate bipolar transistor module V11 and V12, this has just finished AC-DC, becomes the inversion process of interchange again again from direct current.Note that original a-c cycle is 50 He Zhi sine waves, the a-c cycle that now obtains from two lead-out terminal C2E1 of high-frequency inverter is the square wave of 540 volts of 30 kilo hertzs of sesames.The utility model has 2 high frequency inverter circuit, and similarly, another high-frequency inverter also has two lead-out terminal C2E1, and during inverter work, these two lead-out terminals also obtain the square-wave voltage that a-c cycle is 540 volts of 30 kilo hertzs of sesames.

Two lead-out terminal C2E1 of two high-frequency inverters are respectively that the square-wave voltage of 540 volts of 30 kilo hertzs of sesames is delivered to two the binding post HT1 of primary coil of the high frequency transformer T1 in Fig. 4 pressure-oil tank and 2 binding post HT2 of primary coil of high frequency transformer T2 with a-c cycle, 3 high frequency voltages that secondary winding just induces respectively of two high frequency transformer T1 and T2, after high voltage silicon stack D1～D3 and D4～D6 rectification and series connection, obtain 75 kilovolts of high direct voltages of anode and 75 kilovolts of high direct voltages of negative terminal respectively.The high direct voltage that 75 kilovolts of high direct voltages of anode and 75 kilovolts of high direct voltages of negative terminal are delivered to photography X ray bulb or the work of perspective X ray bulb by high-tension terminal and high-tension cable is exactly 150 kilovolts.

We are preset at the voltage parameter as benchmark in the central controller monolithic computer, send the 2nd pin of the pulse-width modulation integrated package N12 of pulse wide voltage-regulation circuit shown in Figure 3 to through resistance R 18, R19 and the capacitor C 12 of Fig. 3; And deliver to the resistance R 13 of Fig. 3 through 8 hole aviation socket X1 the 4th pin in the anode high direct voltage sampling feedback signal of Fig. 4 mesohigh translation circuit output, the common contact of capacitor C 9 is delivered to the pin 3 of integrated circuit N9, after the amplification again through potentiometer R15, resistance R 16, R17 is added to the 1st pin of pulsewidth modulated intergrated circuit N12, the two compares, at the 11st of integrated circuit N12,14 pin produce the pulse-width signal A of control in real time, B (pulsewidth and the rectangular wave drive signal that is entered as linearity), deliver to driver module N5 shown in Figure 2～N8 input 15 pin, the high pressure of output is regulated.And 8 hole aviation socket X1 the 7th pin is sent is that the sampling feedback signal of negative terminal high direct voltage is to deliver to another pulse-width modulation drive circuit (do not draw) identical with Fig. 3 equally, no longer statement.

The frequency that produces from the high frequency inverter circuit of Fig. 2 (actual have 2 high frequency inverter circuit) be 30 kilo hertzs of sesame voltages be 540 volts the high frequency square wave through C2E1 lead-out terminal (actual is 2 pairs of lead-out terminals) respectively with pressure-oil tank shown in Figure 4 in 2 high frequency transformer primary coil HT1 and the two ends of HT2 join, it is that 30 kilo hertzs of sesame voltages are 25 kilovolts high frequency voltage that 3 secondary winding of high frequency transformer T1 and T2 just induce frequency respectively, through high voltage silicon stack D1～D3 and D4～D6 rectification and after with their serial connections, obtain the 75kV high pressure of anode and the 75kV high pressure of negative terminal respectively, the 75kV height of anode is crimped onto 3 binding posts of high-tension terminal JP1, and join with 1 end of resistance R 30 and capacitor C 21, the 75kV height of negative terminal is crimped onto 1 of high-tension terminal JP2 and connects and draw post, and join with 1 end of resistance R 33 and capacitor C 24, as long as anode high-tension terminal JP1 and negative terminal high-tension terminal JP2 are coupled together with the X ray bulb of photography bed or the X ray bulb of electronic fluoroscopic table, just can allow an X ray bulb of photographing bed or the X ray bulb work on the electronic fluoroscopic table with high-tension cable.

Claims (1)

1, a kind of X ray high frequency high voltage generator for medical use diagnose, it comprises power supply and central control unit, it is characterized in that also comprising:

High-frequency inverter circuit, this high-frequency inverter circuit is made up of three part circuit: the one, by the full-bridge electronic switching circuit that comprises that high voltage switch device isolation grid bipolar transistor module VI1, VI2 constitute, output high-frequency and high-voltage square-wave voltage; The 2nd, constitute the triggering drive circuit of four high voltage switch device isolation grid bipolar transistor module VI1, VI2 respectively by four driver module N5, N6, N7, N8 and corresponding peripheral component, be subjected to the control of drive signal; The 3rd, comprise the circuit overcurrent protection that constitutes insulated gate bipolar transistor module VI1, VI2 by four optocoupler N1, N2, N3, N4 and corresponding peripheral component thereof;

The pulse-width modulation drive circuit, this pulse-width modulation drive circuit comprise by four partly circuit forms: the one, the RC oscillator of forming by pulse-width modulation driving integrated package N12 and peripheral resistance R 21, R22, capacitor C 15, C16, the 2nd, form the voltage reference signal input circuit by integrated package N12 and peripheral resistance R 18, R19, capacitor C 12, the 3rd, the high pressure feedback signal input circuit of forming by integrated package N12, integrated package N9 and peripheral resistance, electric capacity and diode; These three circuit claim the pulse-width modulation drive circuit again; The 4th, by d type flip flop integrated package N11 and the comparator formula circuit overcurrent protection that constitutes of integrated package N10 and peripheral cell relatively;

High pressure conversion and high-voltage output circuit, the high pressure conversion of this list sheet pipe and high-voltage output circuit comprise by four part circuit and forming, all install and be immersed in the pressure-oil tank that insulating oil is housed, the one, comprise and form by high frequency transformer T1, T2, high voltage silicon stack D1～D6 that high frequency boosts and high-voltage rectifier; The 2nd, two voltage divider element circuits forming respectively by resistance R 1, R2, R3, R4 and capacitor C 1, C2, C3, C4; The 3rd, main by 1 anode high-tension terminal JP1 and 1 high-voltage output circuit that negative terminal high-tension terminal JP2 forms; The 4th, the X ray bulb heater chain of forming by filament transformer T3, T4.

Images