CN204259267U - A kind of X-ray generator that there is tube current and control - Google Patents

Abstract

The utility model relates to a kind of X-ray generator having tube current and control, comprise x ray generator, high-tension circuit, energize filaments inversion module, tube current self feedback control module and heater current control module, the signal input part of heater current control module is electrically connected with the former limit of filament transformer, and the signal output part of heater current control module is electrically connected with the control input end of filament inversion pulse width control integrated circuit.Due on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module, realize tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL simultaneously, the FEEDBACK CONTROL of filament heating current regulates the size of filament heating current, control filament heating current, just directly control electronics effusion speed, so the dynamic response that the FEEDBACK CONTROL of filament heating current controls tube current is faster, the two is in conjunction with co-controlling, the dynamic response time controlled tube current is shorter, and control precision is higher.

Description

A kind of X-ray generator that there is tube current and control

Technical field

The utility model relates to a kind of X-ray generator, particularly relates to a kind of X-ray generator having tube current and control.

Background technology

The quality weighing x ray generator performance mainly contains three important physical quantitys, they respectively: tube voltage, tube current and time for exposure.

Desirable tube voltage rise time little, ripple voltage trend be zero when exposing.And the size of tube voltage determines the matter of X ray.The size of tube current determines the amount of X ray; Time for exposure, tube voltage and tube current three determine the size of radiological dose jointly.Produce indispensable three conditions of X ray: 1. cathode filament heating produces electronics, and these electronics form space charge around filament, i.e. electron cloud; 2. high-speed electron flow is produced under the electric field produced at high kilovoltage (KV) and vacuum condition; 3. the metal target of high-velocity electrons is stoped.

From technical standpoint, the precise hard_drawn tuhes realizing tube current has certain difficulty, is mainly subject to the impact that cathode filament heats the space charge effect formed around it.

Tube current controlling method conventional is at present tube current self FEEDBACK CONTROL, and this control method, for common low capacity X-ray tube, can meet instructions for use substantially, can make tube current kept stable, but when tube voltage changes, tube current excursion is large.Therefore, there is the shortcoming that control precision is low, dynamic response time is long in this control method.When tube voltage changes, tube current change obviously.

Summary of the invention

The technical problems to be solved in the utility model is to provide a kind of X-ray generator having tube current and control, and the dynamic response time that this X-ray generator with tube current control controls tube current is shorter, and control precision is higher.The technical scheme adopted is as follows:

A kind of X-ray generator that there is tube current and control, comprise x ray generator, high-tension circuit, energize filaments inversion module and tube current self feedback control module, energize filaments inversion module comprises the filament inversion pulse width control integrated circuit be electrically connected successively, four tunnel pulse transformer, filament full bridge inverter and filament transformer, the two ends of high-tension circuit are electrically connected with x ray generator, filament transformer is electrically connected with x ray generator, the signal input part of tube current self feedback control module is connected electrically between x ray generator and high-tension circuit, the signal output part of tube current self feedback control module is electrically connected with the control input end of filament inversion pulse width control integrated circuit, it is characterized in that: also comprise heater current control module, the signal input part of heater current control module is electrically connected with the former limit of filament transformer, the signal output part of heater current control module is electrically connected with the control input end of filament inversion pulse width control integrated circuit.

Above-mentioned high-tension circuit provides kilovoltage for x ray generator, on the anode being carried in x ray generator and negative electrode, forms the high voltage electric field of Accelerating electron, belongs to prior art, no longer describe in detail here.

Above-mentioned energize filaments inversion module, generally comprise the filament inversion pulse width control integrated circuit, four tunnel pulse transformer, filament full bridge inverter and the filament transformer that are electrically connected successively, for the heating of x ray generator cathode filament provides electric current, filament temperature raises, when the energy that electronics obtains is equal to or greater than the work function of this electronics, just de-orbit formation free electron, filament temperature is higher, electronics effusion quantity is more, energize filaments inversion module belongs to prior art, here no longer describes in detail.

The tube current of self feedback control module of above-mentioned tube current to x ray generator is sampled, voltage signal after sampling sends into the end of oppisite phase of filament inversion pulse width control IC interior error amplifier, compare with the tube current preset value (be generally the default voltage signal) in-phase end of difference amplifier representing tube current size, if the tube current of sampling is less than normal, then the output valve of error amplifier reduces, the duty ratio that filament inversion pulse width control integrated circuit exports square wave becomes large, the power output of such energize filaments inversion module increases, filament temperature raises, tube current is increased, if the tube current of sampling is bigger than normal, then filament inversion pulse width control integrated circuit exports pulsewidth reduction, and the power output of energize filaments inversion module reduces, and tube current is reduced.Tube current self feedback control module belongs to the technology of existing comparative maturity, has multiple implementation.

X-ray generator of the present utility model, on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module, heater current control module sampling filament primary side current of transformer signal, be converted to the heater current voltage signal representing heater current size, compare with the normal value of heater current voltage signal preset, maximum, minimum value again, control pulsewidth and the break-make of filament inversion pulse width control integrated circuit according to comparative result, thus reach the object controlling filament heating current.Due on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module, realize tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL simultaneously, the FEEDBACK CONTROL of filament heating current regulates the size of filament heating current, the process produced from tube current, filament heating current heated cathode filament, filament temperature raises and makes electronics overcome potential barrier to deviate from from negative electrode, the higher electronics of filament temperature is more easily overflowed, filament heating current is directly related with filament temperature, so control filament heating current, also electronics effusion speed is just directly controlled, so the dynamic response that the FEEDBACK CONTROL of filament heating current controls tube current is faster, both tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL combine, co-controlling, the dynamic response time controlled tube current is shorter, control precision is higher.

As preferred version of the present utility model, also comprise space charge compensation module, the signal input part of space charge compensation module is electrically connected with the signal output part of described heater current control module, and the signal output part of space charge compensation module is electrically connected with the control input end of filament inversion pulse width control integrated circuit.The principle that space charge effect compensates is: when changing when the tube voltage at x ray generator two ends occurs, the ability that x ray generator anode collects electronics changes, because there is a large amount of free electron around heat filament, when x ray generator electric field changes, tube current can change along with the change of Accelerating electron electric field, space charge effect that Here it is, and space charge effect compensate be tube current with tube voltage change occur fluctuation time, carried out the fluctuation of the appearance of compensating pipe electric current by the inversion pulsewidth adjusting rapidly energize filaments inversion module.Space charge compensation module receives from the tube voltage of tube current self feedback control module with from tube voltage preset value normal in heater current control module, then both compare in space charge compensation module, then by controlling the output Dead Time of filament inversion pulse width control integrated circuit, when variation appears in tube voltage, corresponding compensation is carried out to tube current, thus realizes the nonlinear compensation that tube voltage changes time space electric charge on a large scale.Concrete compensation method is as follows: when tube voltage is greater than normal tube voltage preset value, by regulating the resistance value of filament inversion pulse width control integrated circuit (such as, filament inversion pulse width control integrated circuit adopts SG2525 chip, the pin of Dischange on SG2525 chip is then regulated to carry out adjusting resistance value), increase filament inversion pulse width control integrated circuit and export Dead Time, thus the power output of energize filaments inversion module is reduced, filament temperature declines, and tube current is reduced; Otherwise, when tube voltage is less than normal tube voltage preset value, by regulating the resistance value of filament inversion pulse width control integrated circuit, reduces filament inversion pulse width control integrated circuit and exporting Dead Time, increase the power output of energize filaments inversion module, tube current is increased.

As the further preferred version of the utility model, described heater current control module comprises filament transformer primary current sample circuit, power pack, half-wave rectifier, the first controlling brancher, the second controlling brancher and the 3rd controlling brancher, first controlling brancher comprise be electrically connected successively follow operational amplifier and analog switch, second controlling brancher comprises the first comparator/operational amplifier be electrically connected successively, and the 3rd controlling brancher comprises the second comparator/operational amplifier and single-chip microcomputer that are electrically connected successively; Filament transformer primary current sample circuit, power pack, half-wave rectifier are electrically connected successively, and the input of filament transformer primary current sample circuit is electrically connected with the former limit of described filament transformer; Follow operational amplifier, the first comparator/operational amplifier, the second comparator/operational amplifier input be electrically connected with the output of half-wave rectifier respectively, the control input end that the output of analog switch, single-chip microcomputer, the first comparator/operational amplifier is corresponding to filament inversion pulse width control integrated circuit is respectively electrically connected; One signal output part of single-chip microcomputer is electrically connected with the control input end of analog switch.Current sampling is carried out on the above-mentioned former limit of filament transformer primary current sample circuit to filament transformer, then sends primary current sampled signal to power pack.Above-mentioned power pack receives filament primary side current of transformer sample circuit and carries the primary current sampled signal of coming to be converted to the current signal of corresponding proportion, then flows to half-wave rectifier.Power pack is carried the scaled down current signal of coming to convert corresponding voltage signal to and is sent to and follow operational amplifier and analog switch by above-mentioned half-wave rectifier.Above-mentioned follow that half-wave rectifier carried the voltage signal equal proportion of coming by operational amplifier and analog switch send filament inversion pulse width control integrated circuit to.Above-mentioned first comparator/operational amplifier carries the reference voltage of voltage signal and the filament transformer former limit maximum current of coming to compare by following operational amplifier, and comparator/operational amplifier output signal sends filament inversion pulse width control integrated circuit to.Above-mentioned second comparator/operational amplifier carries the reference voltage of voltage signal and the filament transformer former limit minimum current of coming to compare by following operational amplifier, and comparator/operational amplifier output signal sends single-chip microcomputer and filament inversion pulse width control integrated circuit to.After second operational amplifier carries the signal of coming to judge by above-mentioned single-chip microcomputer, control opening or turning off of filament inversion pulse width control integrated circuit and analog switch.Simultaneously for space charge compensation module sends enable signal.Filament heating current control principle is: filament transformer primary current sample circuit adopts the vertical former limit of punching Miniature precision power pack to filament transformer to carry out current sample, curent change device is converted to current signal the voltage signal representing heater current size, obtains the heater current voltage signal needed after half-wave rectifier rectification.Heater current voltage signal is divided into three tunnels: first via heater current voltage signal carries out signal amplification through following operational amplifier, then analog switch is entered, finally enter the end of oppisite phase of filament inversion pulse width control IC interior error amplifier, compare with the normal value of the heater current voltage signal preset, suitably adjust the size of filament inversion pulsewidth according to the result compared; Second street lamp silk current and voltage signals enters the first comparator/operational amplifier and compares with the maximum of the heater current voltage signal preset, if heater current voltage signal is greater than the maximum of heater current voltage signal, then the pulse of filament inversion pulse width control integrated circuit exports and is forced shutdown, and filament inverter current reduces; Second street lamp silk current and voltage signals compares through the minimum value of the second comparator/operational amplifier with the heater current voltage signal preset, second comparator/operational amplifier output signal input single-chip microcomputer, judge whether filament inversion pulse width control integrated circuit is opened or turn off with this, single-chip microcomputer judges to other sampled signals the break-make determining analog switch simultaneously, and send enable signal to space charge compensation module, to control opening or turning off of charge compensating circuit, thus realize the precision controlling to tube current size.

As the further preferred version of the utility model, described space charge compensation module comprises logic integrated chip and resistance regulating circuit, the input of logic integrated chip is electrically connected with a signal output part of described single-chip microcomputer, the output of logic integrated chip is electrically connected with the control input end of resistance regulating circuit, and the output of resistance regulating circuit is electrically connected to the corresponding control input end of described filament inversion pulse width control integrated circuit.Logic integrated chip is CD40107, comprises two-way NAND gate logical circuit, and maximum mains voltage is 20V, maximum outputting drive voltage 15V, and maximum output driving current is 68mA.By single-chip microcomputer, the input of two-way NAND gate is controlled, open or turn off the break-make of two place's metal-oxide-semiconductors in resistance regulating circuit.Resistance regulating circuit is after multiple resistance is connected with metal-oxide-semiconductor by connection in series-parallel combination and resistance, turning on and off by metal-oxide-semiconductor, the circuit that the total resistance value of formation is adjustable.Resistance regulating circuit makes the dead band of the driving pulse of filament inversion drived control chip change along with the change of resistance, thus realize regulating the width of filament inversion driving pulse, reach the adjustment to tube current when X ray space charge occurs to fluctuate.

As the further preferred version of the utility model, self feedback module of described tube current comprises tube current sample circuit, clamp circuit and follower, tube current sample circuit, clamp circuit, follower are electrically connected successively, the input of tube current sample circuit is connected electrically between described x ray generator and high-tension circuit, and the signal output part of follower is electrically connected with the control input end of filament inversion pulse width control integrated circuit.The tube current of tube current sample circuit to x ray generator is sampled, and the voltage signal after sampling is clamped down on the current potential of 5V by clamp circuit, is then sent into the control input end of filament inversion pulse width control integrated circuit by follower.

Compared with prior art, tool has the following advantages the utility model:

Due on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module, realize tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL simultaneously, the FEEDBACK CONTROL of filament heating current regulates the size of filament heating current, the process produced from tube current, filament heating current heated cathode filament, filament temperature raises and makes electronics overcome potential barrier to deviate from from negative electrode, the higher electronics of filament temperature is more easily overflowed, filament heating current is directly related with filament temperature, so control filament heating current, also electronics effusion speed is just directly controlled, so the dynamic response that the FEEDBACK CONTROL of filament heating current controls tube current is faster, both tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL combine, co-controlling, the dynamic response time controlled tube current is shorter, control precision is higher.

Accompanying drawing explanation

Fig. 1 is the circuitry block schematic diagram of the utility model preferred implementation.

Embodiment

Be described further below in conjunction with accompanying drawing and preferred implementation of the present utility model.

As shown in Figure 1, this X-ray generator having tube current and control, comprises x ray generator 1, high-tension circuit 2, energize filaments inversion module 3, tube current self feedback control module 4, heater current control module 5 and space charge compensation module 6; Energize filaments inversion module 3 comprises filament inversion pulse width control integrated circuit 301, the four tunnel pulse transformer 302, filament full bridge inverter 303 and the filament transformer 304 that are electrically connected successively; The two ends of high-tension circuit 2 are electrically connected with x ray generator 1; Filament transformer 304 is electrically connected with x ray generator 1; The signal input part of tube current self feedback control module 4 is connected electrically between x ray generator 1 and high-tension circuit 2, and the signal output part of tube current self feedback control module 4 is electrically connected with the control input end of filament inversion pulse width control integrated circuit 301; The signal input part of heater current control module 5 is electrically connected with the former limit of filament transformer 304, and the signal output part of heater current control module 5 is electrically connected with the control input end of filament inversion pulse width control integrated circuit 301; The signal input part of space charge compensation module 6 is electrically connected with the signal output part of heater current control module 5, and the signal output part of space charge compensation module 6 is electrically connected with the control input end of filament inversion pulse width control integrated circuit 301.

Heater current control module 5 comprises filament transformer primary current sample circuit 501, power pack 502, half-wave rectifier 503, first controlling brancher 504, second controlling brancher 505 and the 3rd controlling brancher 506, first controlling brancher 504 comprise be electrically connected successively follow operational amplifier 5041 and analog switch 5042, second controlling brancher 505 comprises the first comparator/operational amplifier the 5051, three controlling brancher 506 and comprises the second comparator/operational amplifier 5061 and single-chip microcomputer 5062 that are electrically connected successively; Filament transformer primary current sample circuit 501, power pack 502, half-wave rectifier 503 are electrically connected successively, and the input of filament transformer primary current sample circuit 501 is electrically connected with the former limit of filament transformer 304; The input of following operational amplifier 5041, first comparator/operational amplifier 5051, second comparator/operational amplifier 5061 is electrically connected with the output of half-wave rectifier 503 respectively, and the control input end that the output of analog switch 5042, single-chip microcomputer 5062, first comparator/operational amplifier 5051 is corresponding to filament inversion pulse width control integrated circuit 301 is respectively electrically connected; One signal output part of single-chip microcomputer 5062 is electrically connected with the control input end of analog switch 5042.

Space charge compensation module 6 comprises logic integrated chip 601 and resistance regulating circuit 602, the input of logic integrated chip 601 is electrically connected with a signal output part of single-chip microcomputer 5062, the output of logic integrated chip 601 is electrically connected with the control input end of resistance regulating circuit 602, and the output of resistance regulating circuit 602 is electrically connected to the corresponding control input end of filament inversion pulse width control integrated circuit 301.

Tube current self feedback module 4 comprises tube current sample circuit 401, clamp circuit 402 and follower 403, tube current sample circuit 401, clamp circuit 402, follower 403 are electrically connected successively, the input of tube current sample circuit 401 is connected electrically between x ray generator 1 and high-tension circuit 2, and the signal output part of follower 403 is electrically connected with the control input end of filament inversion pulse width control integrated circuit 301.

X-ray generator of the present utility model, on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module 5, heater current control module 5 is sampled filament transformer 304 primary current signal, be converted to the heater current voltage signal representing heater current size, compare with the normal value of heater current voltage signal preset, maximum, minimum value again, control pulsewidth and the break-make of filament inversion pulse width control integrated circuit 301 according to comparative result, thus reach the object controlling filament heating current.Due on the basis of self FEEDBACK CONTROL of primary tube electric current, add heater current control module 5, realize tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL simultaneously, the FEEDBACK CONTROL of filament heating current regulates the size of filament heating current, the process produced from tube current, filament heating current heated cathode filament, filament temperature raises and makes electronics overcome potential barrier to deviate from from negative electrode, the higher electronics of filament temperature is more easily overflowed, filament heating current is directly related with filament temperature, so control filament heating current, also electronics effusion speed is just directly controlled, so the dynamic response that the FEEDBACK CONTROL of filament heating current controls tube current is faster, both tube current self FEEDBACK CONTROL and filament heating current FEEDBACK CONTROL combine, co-controlling, the dynamic response time controlled tube current is shorter, control precision is higher.

The principle that space charge effect compensates is: when changing when the tube voltage at x ray generator 1 two ends occurs, the ability that x ray generator 1 anode collects electronics changes, because there is a large amount of free electron around heat filament, when x ray generator 1 electric field changes, tube current can change along with the change of Accelerating electron electric field, space charge effect that Here it is, and space charge effect compensate be tube current with tube voltage change occur fluctuation time, carried out the fluctuation of the appearance of compensating pipe electric current by the inversion pulsewidth adjusting rapidly energize filaments inversion module.Space charge compensation module 6 receives from the tube voltage of tube current self feedback control module 4 with from tube voltage preset value normal in heater current control module 5, then both compare in space charge compensation module, then by controlling the output Dead Time of filament inversion pulse width control integrated circuit 301, when variation appears in tube voltage, corresponding compensation is carried out to tube current, thus realizes the nonlinear compensation that tube voltage changes time space electric charge on a large scale.Concrete compensation method is as follows: when tube voltage is greater than normal tube voltage preset value, by regulating the resistance value of filament inversion pulse width control integrated circuit 301 (such as, filament inversion pulse width control integrated circuit adopts SG2525 chip, the pin of Dischange on SG2525 chip is then regulated to carry out adjusting resistance value), increase filament inversion pulse width control integrated circuit 301 and export Dead Time, thus the power output of energize filaments inversion module 3 is reduced, filament temperature declines, and tube current is reduced; Otherwise, when tube voltage is less than normal tube voltage preset value, by regulating the resistance value of filament inversion pulse width control integrated circuit 301, reduces filament inversion pulse width control integrated circuit 301 and exporting Dead Time, increase the power output of energize filaments inversion module 3, tube current is increased.

In addition; it should be noted that, the specific embodiment described in this specification, its each several part title etc. can be different; all equivalences of doing according to structure, feature and the principle described in the utility model inventional idea or simple change, be included in the protection range of the utility model patent.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, protection range of the present utility model all should be belonged to.

Claims (5)

1. the X-ray generator that there is tube current and control, comprise x ray generator, high-tension circuit, energize filaments inversion module and tube current self feedback control module, energize filaments inversion module comprises the filament inversion pulse width control integrated circuit be electrically connected successively, four tunnel pulse transformer, filament full bridge inverter and filament transformer, the two ends of high-tension circuit are electrically connected with x ray generator, filament transformer is electrically connected with x ray generator, the signal input part of tube current self feedback control module is connected electrically between x ray generator and high-tension circuit, the signal output part of tube current self feedback control module is electrically connected with the control input end of filament inversion pulse width control integrated circuit, it is characterized in that: also comprise heater current control module, the signal input part of heater current control module is electrically connected with the former limit of filament transformer, the signal output part of heater current control module is electrically connected with the control input end of filament inversion pulse width control integrated circuit.

2. there is X-ray generator that tube current controls as claimed in claim 1, it is characterized in that: also comprise space charge compensation module, the signal input part of space charge compensation module is electrically connected with the signal output part of described heater current control module, and the signal output part of space charge compensation module is electrically connected with the control input end of filament inversion pulse width control integrated circuit.

3. there is X-ray generator that tube current controls as claimed in claim 2, it is characterized in that: described heater current control module comprises filament transformer primary current sample circuit, power pack, half-wave rectifier, the first controlling brancher, the second controlling brancher and the 3rd controlling brancher, first controlling brancher comprise be electrically connected successively follow operational amplifier and analog switch, second controlling brancher comprises the first comparator/operational amplifier be electrically connected successively, and the 3rd controlling brancher comprises the second comparator/operational amplifier and single-chip microcomputer that are electrically connected successively; Filament transformer primary current sample circuit, power pack, half-wave rectifier are electrically connected successively, and the input of filament transformer primary current sample circuit is electrically connected with the former limit of described filament transformer; Follow operational amplifier, the first comparator/operational amplifier, the second comparator/operational amplifier input be electrically connected with the output of half-wave rectifier respectively, the control input end that the output of analog switch, single-chip microcomputer, the first comparator/operational amplifier is corresponding to filament inversion pulse width control integrated circuit is respectively electrically connected; One signal output part of single-chip microcomputer is electrically connected with the control input end of analog switch.

4. there is X-ray generator that tube current controls as claimed in claim 3, it is characterized in that: described space charge compensation module comprises logic integrated chip and resistance regulating circuit, the input of logic integrated chip is electrically connected with a signal output part of described single-chip microcomputer, the output of logic integrated chip is electrically connected with the control input end of resistance regulating circuit, and the output of resistance regulating circuit is electrically connected to the corresponding control input end of described filament inversion pulse width control integrated circuit.

5. there is X-ray generator that tube current controls as claimed in claim 2, it is characterized in that: self feedback module of described tube current comprises tube current sample circuit, clamp circuit and follower, tube current sample circuit, clamp circuit, follower are electrically connected successively, the input of tube current sample circuit is connected electrically between described x ray generator and high-tension circuit, and the signal output part of follower is electrically connected with the control input end of filament inversion pulse width control integrated circuit.