CN201138876Y - Power-supply apparatus for electronic optical path system of electron beam bombardment furnace - Google Patents

Abstract

The utility model relates to a power supply device of an electronic light path system of an electron beam bombarding furnace. In the power supply device, an accelerating voltage sampling signals are connected with an extraction device, and then are respectively connected in a focusing power supply control circuit and a deflection scanning power supply control circuit; a controller of current hysteresis tracking pulse modulation is used as a controller of two power supplies; and the working current oscillates slightly around the expected value. The signals of extracted value of the accelerating voltage sampling signals are used for controlling the focusing current; the arithmetic product of the extracted values of the deflection scanning comprehensive signals and the accelerating voltage sampling signals is adopted as the deflection scanning current of the comprehensive signal control; the focus of the electron beam and the deflection scanning area are not influenced by the change of the accelerating voltage; when a failure happens, the changes of the focus of the electron beam and the deflection scanning area are limited within the allowable range.

Description

Beam bombardment stove electronics light path system power supply device

(1) technical field

The utility model relates to the electron beam electroheat equipment, is specially beam bombardment stove electronics light path system power supply device.

(2) background technology

The beam bombardment stove is a kind of electroheat equipment that the heat energy that produced when utilizing high-velocity electrons bombardments furnace charge carries out melting and heating, it is a kind of physical vacuum that combines, material science, electronic technology, electron optics, high voltage technique, the high-tech product of multiple technologies such as computer and control technology, compare with other vacuum melting furnace, the power density height, can be used for valuable, rare, the melting of refractory metal and refining, vacuum degree height in the stove, easily preparation various high-purity materials or specific alloy and be used for melting high-quality special steel and titanium scrap recovery etc. has the advantage of no refractory material to the furnace charge pollution in addition.

The key technology of beam bombardment stove is electron beam generator (electron gun) and power supply thereof.The beam bombardment stove adopts the axial electron gun of cathodes heated indirectly by an el more, and wherein the task of electronics light path system is that the line parameter transformation that will form in the electron gun is the needed electronic beam current parameter of application point.The electronics light path system is made up of two-stage magnetic lens and deflection scanner, and its working power comprises two cover focusing power supply and two-way deflection scanning power supplys, and they work in low-pressure end.

At present beam bombardment stove electronics light path system power supply control method and supply unit thereof are based on and work under the prerequisite that beam voltage is a stationary value, and focusing power supply and deflection scanning power supply respectively be the independent power-supply system of controlling, with the accelerating voltage onrelevant.At running, if certain reason causes the accelerating voltage fluctuation, the zone of the position of electron beam focus, the angle of deflection and scanning will change.

Beam bombardment stove main power source (accelerating power source) adopts open loop control and the power supply of three-phase mains all-wave can realize green power supply and energy-conservation operational effect, but the running accelerating voltage can produce random fluctuation, in this case, the electronics light path power-supply system of independent control can not satisfy the smelting technology requirement.

When accelerating voltage changes significantly, the variation in electron beam focal position and deflection scanning zone might exceed allowed band, the adverse consequences that causes electron beam to miss the target (as producing the electrion phenomenon) if the beam bombardment stove breaks down.

Therefore need to analyze the mechanism that influences of accelerating voltage to the electronics light path, in conjunction with of the actual requirement of beam bombardment stove smelting technology to the electronics light path, when designing a kind of accelerating voltage fluctuation at the beam bombardment stove, can automatic stabilisation electron beam focal position and new the electronics light path system power supply control method and the supply unit in deflection scanning zone.

(3) utility model content

The purpose of this utility model is the supply unit of a kind of beam bombardment stove electronics light path system of design, with the accelerating voltage sampled signal of electron beam generation systems power supply control signal as focusing power supply and deflection scanning power supply, the focus of electron beam and deflection scanning zone are not subjected to the accelerating voltage variable effect, for the reliable and stable work of beam bombardment stove lays the foundation.

The task of electronics light path system is that the line parameter transformation that will form in the electron gun is the needed line parameter of application point.Its working power comprises focusing power supply and deflection scanning power supply.

Because electron beam makes misconvergence of beams because of repulsion and space charge effect have radial component speed, institute is so that electron beam focuses on is to lead and keep a kind of measure of electron beam profile.Beam bombardment stove electronics light path system adopts the magnetic focusing method.

The effect of deflection and scanning is to guarantee that the position of electron beam on target is reasonable, and distribute power is even, adopts the magnetic deflection method in beam bombardment stove electron-optical system.

The beam bombardment stove electronics light path system power supply device of the utility model design comprises two groups of focusing power supplies that are connected to first, second magnetic lens coil respectively and two groups of deflection scanning power supplys that are connected to X, Y direction deflection scanning coil respectively.

Draw the linear sampled signal of accelerating voltage from the supply unit of electron beam generation systems and insert square root extractor, the output of square root extractor inserts the control circuit of two groups of focusing power supplies and two groups of deflection scanning power supplys respectively.

The structure of two groups of focusing power supplies is identical, includes the focusing current rectifying and wave filtering circuit, the focus current sample resistance, and fly-wheel diode, the speed-sensitive switch power tube, focus current is set potentiometer, focus current controller.Focusing on current rectifying and wave filtering circuit is bipolarity rectification circuit structure, and two opposite AC power of amplitude equal phase insert with the three-wire system form and focus on current rectifying and wave filtering circuit, and alternating current converts straight bipolarity direct current to; The anode that focuses on current rectifying and wave filtering circuit output inserts the input of speed-sensitive switch power tube, and the anode of negative terminal and fly-wheel diode joins, and reference edge links to each other with an end of focusing coil; The output of speed-sensitive switch power tube and the negative electrode of fly-wheel diode join, and the line focus current sampling resistor inserts the other end of focusing coil; The voltage signal that the output of focus current sample resistance two ends is proportional to the focus current size inserts the focus current controller as the focus current negative-feedback signal; The input that focus current is set potentiometer links to each other with the output of square root extractor, and its output inserts the focus current controller, sends into the duty setting signal of focus current.The output of focus current controller inserts the control end of speed-sensitive switch power tube.The focus current controller is a current hysteresis ring trace pulse modulation controller, when focus current feedback signal during less than a certain numerical value of duty setting signal, the conducting of focus current controller control speed-sensitive switch power tube, the positive supply that focuses on current rectifying and wave filtering circuit output makes focus current raise to the focusing coil charging, when focus current feedback signal during greater than a certain numerical value of duty setting signal, focus current controller control speed-sensitive switch power tube turn-offs, focusing coil makes focus current reduce through fly-wheel diode to the negative supply discharge that focuses on current rectifying and wave filtering circuit output, this process is carried out repeatedly, control focus current with the desired value be center line up and down among a small circle in the higher-order of oscillation.Focusing power supply adopts bipolarity direct current supply and current hysteresis ring trace pulse modulation control mode, variation can be satisfied the requirement of smelting technology to electron beam focal position stability in the relative desired value of focus current was limited in very among a small circle, and the focus current desired value is followed variation when accelerating voltage changes, and compole is short during the focus current servo response.Regulate focus current and set potentiometer, the electron beam focal position will change thereupon.Under certain accelerating voltage value, regulate the electron beam focus to correct position, fix this setting potentiometer, when course of work accelerating voltage changes, the focusing power supply control circuit is regulated focus current automatically, and focus current changes with accelerating voltage regularly, and the electron beam focal position is constant substantially.

The structure of two groups of deflection scanning power supplys is identical, comprises the deflection scanning current rectifying and wave filtering circuit, the deflection scanning current sampling resistor, and the speed-sensitive switch push-pull circuit, sweep generator, deflection current is set potentiometer, multiplier, deflection scanning current controller.The deflection scanning current rectifying and wave filtering circuit is a bipolarity rectification circuit structure, and two opposite AC power of amplitude equal phase insert the deflection scanning current rectifying and wave filtering circuit with the three-wire system form, and alternating current converts straight bipolarity direct current to; The positive and negative end of deflection scanning current rectifying and wave filtering circuit output inserts the positive and negative input of speed-sensitive switch push-pull circuit respectively, and reference edge links to each other with an end of deflection scanning coil; The output of speed-sensitive switch push-pull circuit inserts the other end of deflection scanning coil through the deflection scanning current sampling resistor; The voltage signal that the output of deflection scanning current sampling resistor two ends is proportional to the deflection scanning size of current inserts the deflection scanning current controller as deflection scanning Current Negative Three-Point Capacitance signal; Deflection current is set the duty setting signal of potentiometer output deflection current, sweep generator output scanning current waveform and amplitude setting signal, an input of multiplier is inserted in this comprehensive back of two signals stack, the accelerating voltage sampled signal inserts another input of multiplier behind square root extractor, the input of deflection scanning current controller is received in multiplier output as total duty setting signal of deflection scanning electric current; The output of deflection scanning current controller inserts the control end of speed-sensitive switch push-pull circuit.The deflection scanning current controller is a current hysteresis ring trace pulse modulation controller, when the deflection scanning coil need feed forward current, if feedback signal is less than a certain numerical value of duty setting signal, the last brachium pontis power switch pipe that joins with deflection scanning current rectifying and wave filtering circuit output plus terminal in the deflection scanning current controller control speed-sensitive switch push-pull circuit is open-minded, the following brachium pontis power switch pipe that joins with deflection scanning current rectifying and wave filtering circuit output negative terminal turn-offs, the positive supply of deflection scanning current rectifying and wave filtering circuit output makes the deflection scanning electric current raise to the deflection scanning coil charges, up to the deflection scanning current feedback signal greater than a certain numerical value of duty setting signal, last brachium pontis power switch pipe in the deflection scanning current controller control push-pull circuit turn-offs, following brachium pontis power switch pipe is open-minded, because the electric current in the deflection scanning coil can not suddenly change, following brachium pontis power switch pipe bears back-pressure and no current passes through, electric current in the deflection scanning coil needs to make the deflection scanning electric current reduce through following brachium pontis fly-wheel diode to the negative supply discharge of deflection scanning current rectifying and wave filtering circuit output, this process is carried out repeatedly, control deflection scanning electric current with the desired value be center line up and down among a small circle in the higher-order of oscillation; When the deflection scanning coil need feed reverse current, working condition was with above-mentioned opposite, and it is the interior among a small circle up and down higher-order of oscillation of center line that the deflection scanning electric current still is controlled in the desired value; When the electric current in the deflection scanning coil need turn to, the upper and lower brachium pontis power switch pipe change of current is earlier through fly-wheel diode afterflow buffer stage, electric current in this stage deflection scanning coil decays to zero to the reverse electrical source discharge, is charged in the other direction by reverse electrical source then and just finishes the change of current.The deflection scanning power supply adopts bipolarity direct current supply and current hysteresis ring trace pulse modulation control mode, variation can be satisfied the requirement of smelting technology to electron beam deflecting angle and scanning area stability in the relative desired value of deflection scanning electric current was limited in very among a small circle, and deflection scanning electric current desired value is followed variation when accelerating voltage changes, and the deflection scanning electric current servo response time is minimum.Under certain accelerating voltage value, regulate deflection and set potentiometer, allow electron beam by technological requirement to the suitable angle of certain orientation deflection, selected sweep waveform and amplitude in sweep generator simultaneously.When course of work accelerating voltage changes, the total duty setting signal of deflection scanning electric current is followed accelerating voltage regularly and is changed, and the variation in the angle of the electron beam deflecting and the zone of scanning is suppressed in the very little scope.

The advantage of the utility model beam bombardment stove electronics light path system power supply device is: focus current and deflection scanning electric current change from the motion tracking accelerating voltage, and during the accelerating voltage normal fluctuation, the zone of electron beam focal position and deflection scanning remains unchanged substantially; (as producing the electrion phenomenon) when accelerating voltage changed significantly, the variation in electron beam focal position and deflection scanning zone in time was suppressed within the allowed band, avoids electron beam to miss the target, and gets on crucible or the body of heater and causes damage if break down.Supply unit adopts bipolarity direct current supply and current hysteresis ring trace pulse modulation control mode, and the power work electric current has dynamic following performance index faster under the prerequisite that satisfies the steady state deviation performance index.

(4) description of drawings

Fig. 1 is the utility model beam bombardment stove electronics light path system power supply device example structure schematic diagram,

1-electron beam generation systems, 2-first focusing coil, 3-second focusing coil, 4-deflection scanning coil, 5-electron beam, 6-target (molten bath), 7-electron beam generation systems power supply, 8-focusing power supply, 9-deflection scanning power supply, 10-square root extractor.

Fig. 2 is focusing power supply 8 structural representations among Fig. 1, and 8-1-focuses on current rectifying and wave filtering circuit, 8-2-focusing coil, 8-3-focus current sample resistance, 8-4-fly-wheel diode, 8-5-speed-sensitive switch power tube, the 8-6-focus current is set potentiometer, 8-7-focus current controller.

Fig. 3 is deflection scanning power supply 9 structural representations among Fig. 1,9-1-deflection scanning current rectifying and wave filtering circuit, 9-2-deflection scanning coil, 9-3-deflection scanning current sampling resistor, 9-4-speed-sensitive switch push-pull circuit, the 9-5-sweep generator, the 9-6-deflection current is set potentiometer, the 9-7-multiplier, 9-8-deflection scanning current controller.

(5) embodiment

The utility model beam bombardment stove electronics light path system power supply device embodiment as shown in Figure 1, after the electron beam that electron beam generation systems 1 produces was adjusted to its focusing with to its deflection scanning through the electron-optical system of beam bombardment stove, electron beam rationally was distributed on the target 6 and heats melting.The electron beam optical system has as first focusing coil 2 and second focusing coil 3 that focus on magnetic lens, also has deflection scanning coil 4.The structure of the focusing power supply 8 of two focal line circles 2,3 is identical with the control law of focus current.Deflection scanning coil 4 has the coil of two pairs of magnetic poles, and symmetry is installed in electron gun, and a pair of magnetic pole and magnetic field makes electron beam along X-axis deflection, and another makes electron beam along Y-axis deflection to magnetic pole and magnetic field.The acting in conjunction of two pairs of magnetic pole and magnetic fields makes the radially any deflection in plane of electron beam.Magnetic field intensity is controlled by the exciting current of deflection scanning coil, and the field power supply 9 of two pairs of magnetic poles is identical with excitation current control scheme.Draw the linear sampled signal U of accelerating voltage from the supply unit 7 of electron beam generation systems _aInsert square root extractor 10, square root extractor 10 outputs

Signal inserts the control circuit of two groups of focusing power supplies 8 and two groups of deflection scanning power supplys 9 respectively.

Figure 2 shows that the electrical block diagram of focusing power supply 8 among Fig. 1.Comprise focusing on current rectifying and wave filtering circuit 8-1, focus current sample resistance 8-3, fly-wheel diode 8-4, speed-sensitive switch power tube 8-5, focus current is set potentiometer 8-6, focus current controller 8-7.Focusing on current rectifying and wave filtering circuit 8-1 is bipolarity rectification circuit structure, two AC power U that the amplitude equal phase is opposite _AC1, U _AC2Insert focusing current rectifying and wave filtering circuit 8-1 with the three-wire system form, constitute the bipolarity DC power supply apparatus; The anode that focuses on current rectifying and wave filtering circuit 8-1 output inserts the input of speed-sensitive switch power tube 8-5, and the anode of the negative terminal of its output and fly-wheel diode 8-4 joins, and the reference edge of its output links to each other with the end of focusing coil 8-2; The output of speed-sensitive switch power tube 8-5 and the negative electrode of fly-wheel diode 8-4 join, and line focus current sampling resistor 8-3 inserts the other end of focusing coil 8-2; The output of focus current sample resistance 8-3 two ends is proportional to focus current I _FThe voltage signal I of size _fInsert focus current controller 8-7 as the focus current negative-feedback signal; The input that focus current is set potentiometer 8-6 links to each other with the output of square root extractor 10, and the output that focus current is set potentiometer 8-6 inserts focus current controller 8-7, sends into the duty setting signal I of focus current _f ^*The output of focus current controller 8-7 inserts the control end of speed-sensitive switch power tube 8-5.Focus current controller 8-7 is a current hysteresis ring trace pulse modulation controller, focus current duty setting signal I _f ^*With feedback signal I _fRelatively produce deviation signal Δ I _f, promptly

As Δ I _fFor negative and amplitude during greater than a certain set point, focus current controller 8-7 control speed-sensitive switch power tube 8-5 conducting, the positive supply that focuses on current rectifying and wave filtering circuit 8-1 output makes focus current I to focusing coil 8-2 charging _FRaise, up to Δ I _fFor just and amplitude during greater than a certain set point, focus current controller 8-7 control speed-sensitive switch power tube 8-5 turn-offs electric current I among the focusing coil 8-2 _FMake focus current I through fly-wheel diode 8-4 to the negative supply discharge that focuses on current rectifying and wave filtering circuit 8-1 output _FReduce, this process is carried out repeatedly, control focus current I _FWith the desired value be center line up and down among a small circle in the higher-order of oscillation.

Figure 3 shows that deflection scanning circuit construction of electric power among the utility model embodiment.Comprise deflection scanning current rectifying and wave filtering circuit 9-1, deflection scanning current sampling resistor 9-3, speed-sensitive switch push-pull circuit 9-4, sweep generator 9-5, deflection current is set potentiometer 9-6, multiplier 9-7, deflection scanning current controller 9-8.Deflection scanning current rectifying and wave filtering circuit 9-1 is a bipolarity rectification circuit structure, two AC power U that the amplitude equal phase is opposite _AC3, U _AC4Insert deflection scanning current rectifying and wave filtering circuit 9-1 with the three-wire system form; The positive and negative end of deflection scanning current rectifying and wave filtering circuit 9-1 output inserts the positive and negative input of speed-sensitive switch push-pull circuit 9-4 respectively, and the reference edge of its output links to each other with the end of deflection scanning coil 9-2; The output of speed-sensitive switch push-pull circuit 9-4 inserts the other end of deflection scanning coil 9-2 through deflection scanning current sampling resistor 9-3; The output of deflection scanning current sampling resistor 9-3 two ends is proportional to the deflection scanning electric current I _DSThe voltage signal I of size _DsInsert deflection scanning current controller 9-8 as deflection scanning Current Negative Three-Point Capacitance signal; Deflection current is set the duty setting signal I of potentiometer 9-6 output deflection current _d ^*, sweep generator 9-5 output scanning current waveform and amplitude setting signal I _s ^*, the input of multiplier 9-7, accelerating voltage sampled signal U are inserted in this comprehensive back of two signals stack _aSignal behind square root extractor 10

Insert another input of multiplier 9-7, multiplier 9-7 output signal is as the deflection scanning electric current I _DSTotal setting signal I _Ds ^*Receive the input of deflection scanning current controller 9-8; The output of deflection scanning current controller 9-8 inserts the control end of speed-sensitive switch push-pull circuit 9-4.Deflection scanning current controller 9-8 is a current hysteresis ring trace pulse modulation controller, the deflection scanning electric current I _DSTotal setting signal I _Ds ^*With feedback signal I _DsRelatively produce the deflection scanning electric current I _DSDeviation signal Δ I _Ds, promptly $\mathrm{\Δ}{I}_{\mathrm{ds}}=I_{\mathrm{ds}}^{*}-I_{\mathrm{ds}},$ If deflection scanning coil 9-2 need feed forward current, as Δ I _DsFor negative and amplitude during greater than certain set point, last brachium pontis power switch pipe among the deflection scanning current controller 9-8 control speed-sensitive switch push-pull circuit 9-4 is open-minded, following brachium pontis power switch pipe turn-offs, and the positive supply of deflection scanning current rectifying and wave filtering circuit 9-1 output makes the deflection scanning electric current I to deflection scanning coil 9-2 charging _DSRaise, up to Δ I _DsFor just and amplitude during greater than certain set point, last brachium pontis power switch pipe in the deflection scanning current controller 9-8 control push-pull circuit turn-offs, following brachium pontis power switch pipe is open-minded, because the electric current in the deflection scanning coil can not suddenly change, following brachium pontis power switch pipe bears back-pressure and no current passes through, the electric current I among the deflection scanning coil 9-2 _DSNeed to make the deflection scanning electric current I to the negative supply discharge of deflection scanning current rectifying and wave filtering circuit 9-1 output through brachium pontis fly-wheel diode down _DSReduce, this process is carried out repeatedly, control deflection scanning electric current I _DSWith the desired value be center line up and down among a small circle in the higher-order of oscillation; When deflection scanning coil 9-2 need feed reverse current, working condition was with above-mentioned opposite, the deflection scanning electric current I _DSAlso being controlled in the desired value is the interior among a small circle up and down higher-order of oscillation of center line; When the electric current among the deflection scanning coil 9-2 need turn to, the upper and lower brachium pontis power switch pipe change of current was first through fly-wheel diode afterflow buffer stage, the electric current I among this stage deflection scanning coil 9-2 _DSDecay to zero to the reverse electrical source discharge, charge in the other direction by reverse electrical source then and just finish the change of current.

The utility model embodiment supply unit focus current and deflection scanning electric current change from the motion tracking accelerating voltage, the field power supply of focusing coil and deflection scanning coil adopts bipolarity direct current supply and current hysteresis ring trace pulse modulation technique, both operating currents have dynamic following performance index faster under the prerequisite that satisfies the steady state deviation performance index.

Claims (2)

1, a kind of beam bombardment stove electronics light path system power supply device, after the electron beam that electron beam generation systems (1) produces was adjusted to its focusing with to its deflection scanning through the electron-optical system of beam bombardment stove, electron beam rationally was distributed on the target (6) and heats melting; The electron beam optical system has as first focusing coil (2) and second focusing coil (3) that focus on magnetic lens, also has deflection scanning coil (4); The structure of the focusing power supply (8) of two focal line circles (2,3) is identical with the control law of focus current, deflection scanning coil (4) has the coil of two pairs of magnetic poles, symmetry is installed in electron gun, a pair of magnetic pole and magnetic field makes the radially X-axis deflection on plane of electron beam, another makes the radially Y-axis deflection on plane of electron beam to magnetic pole and magnetic field, and the deflection scanning power supply (9) of two pairs of magnetic poles is identical with excitation current control scheme; It is characterized in that:

Draw the linear sampled signal of accelerating voltage from the supply unit (7) of electron beam generation systems (1) and insert square root extractor (10), the output of square root extractor (10) inserts the control circuit of two groups of focusing power supplies (8) and two groups of deflection scanning power supplys (9) respectively;

Focusing power supply (8) comprises focusing current rectifying and wave filtering circuit (8-1), focus current sample resistance (8-3), and fly-wheel diode (8-4), speed-sensitive switch power tube (8-5), focus current is set potentiometer (8-6), focus current controller (8-7); Focusing on current rectifying and wave filtering circuit (8-1) is bipolarity rectification circuit structure, two AC power (U that the amplitude equal phase is opposite _AC1, U _AC2) insert focusing current rectifying and wave filtering circuit (8-1) with the three-wire system form; The anode that focuses on current rectifying and wave filtering circuit (8-1) output inserts the input of speed-sensitive switch power tube (8-5), and the anode of the negative terminal of its output and fly-wheel diode (8-4) joins, and the reference edge of its output links to each other with an end of focusing coil (8-2); The negative electrode of the output of speed-sensitive switch power tube (8-5) and fly-wheel diode (8-4) joins, and line focus current sampling resistor (8-3) inserts the other end of focusing coil (8-2); The voltage signal of focus current sample resistance (8-3) two ends output inserts focus current controller (8-7) as the focus current negative-feedback signal; The input that focus current is set potentiometer (8-6) links to each other with the output of square root extractor (10), the output that focus current is set potentiometer (8-6) inserts focus current controller (8-7), and the output of focus current controller (8-7) inserts the control end of speed-sensitive switch power tube (8-5);

Deflection scanning power supply (9) comprises deflection scanning current rectifying and wave filtering circuit (9-1), deflection scanning current sampling resistor (9-3), speed-sensitive switch push-pull circuit (9-4), sweep generator (9-5), deflection current is set potentiometer (9-6), multiplier (9-7), deflection scanning current controller (9-8); Deflection scanning current rectifying and wave filtering circuit (9-1) is a bipolarity rectification circuit structure, two AC power (U that the amplitude equal phase is opposite _AC3, U _AC4) insert deflection scanning current rectifying and wave filtering circuit (9-1) with the three-wire system form; The positive and negative end of deflection scanning current rectifying and wave filtering circuit (9-1) output inserts the positive and negative input of speed-sensitive switch push-pull circuit (9-4) respectively, and the reference edge of its output links to each other with an end of deflection scanning coil (9-2); The output of speed-sensitive switch push-pull circuit (9-4) inserts the other end of deflection scanning coil (9-2) through deflection scanning current sampling resistor (9-3); The voltage signal of deflection scanning current sampling resistor (9-3) two ends output inserts deflection scanning current controller (9-8) as deflection scanning Current Negative Three-Point Capacitance signal; The duty setting signal of deflection current setting potentiometer (9-6) output deflection current and an input of sweep generator (9-5) output scanning current waveform and the amplitude setting signal comprehensive back access multiplier of stack (9-7), the accelerating voltage sampled signal inserts another input of multiplier (9-7) behind square root extractor (10), the input of deflection scanning current controller (9-8) is received in multiplier (9-7) output; The output of deflection scanning current controller (9-8) inserts the control end of speed-sensitive switch push-pull circuit (9-4).

2, beam bombardment stove electronics light path system power supply device according to claim 1 is characterized in that:

Described focus current controller (8-7) is a current hysteresis ring trace pulse modulation controller; Described deflection scanning current controller (9-8) is a current hysteresis ring trace pulse modulation controller.

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