CN203645637U

CN203645637U - Pulse signal generator

Info

Publication number: CN203645637U
Application number: CN201320839132.4U
Authority: CN
Inventors: 郭恩全; 王浩; 苗胜; 张海东
Original assignee: Shaanxi Hitech Electronic Co Ltd
Current assignee: Shaanxi Hitech Electronic Co Ltd
Priority date: 2013-12-18
Filing date: 2013-12-18
Publication date: 2014-06-11
Anticipated expiration: 2023-12-18

Abstract

The utility model relates to a pulse signal generator. The pulse signal generator comprises a direct-current high-voltage source, a voltage display unit, a coaxial current-limiting unit, a TLP circuit, a pulse control unit, a driving amplification unit and a frequency counting and display unit. The direct-current high-voltage source is used for converting alternating-current commercial power into continuous and adjustable direct-current power. The coaxial current-limiting unit is used for controlling the magnitude of the charging current of the TLP circuit. The TLP circuit is used for generating nanosecond large current pulse signals. Frequency signals output by the pulse control unit control the working mode of the TLP circuit after amplified by the driving amplification unit. The frequency counting and display unit is used for counting and displaying the frequency signals sent by the pulse control unit. The pulse signal generator solves the problem that an existing pulse signal generator fails to output the pulse signals which are short in rise time and action time. The pulse signal generator provided by the utility model is capable of generating the pulse signals which are short in rise time, short in action time and wide in amplitude dynamic range, so that the anti-interference performance assessment requirements of electronic equipment are met.

Description

Pulse signal generator

Technical field

The utility model relates to a kind of interference signal generating apparatus, relates in particular to a kind ofly can produce the rise time and fall time is fast, action time is short, amplitude dynamic range is large pulse signal device.

Background technology

Along with the development of electronic technology, various equipments have generally been realized electrification.The interference free performance of electronic equipment more and more causes people's attention.The electronic equipment manufacturing and designing, its interference free performance how, certainly can under the noise circumstance at various scenes, test to assert.But because the interference producing is at the scene accidental random mostly, test for a long time, does not probably repeat.Once and occur, then resort to every means and find any partial circuit generation misoperation actually, have little time often.So, need a kind of interference source device, it is the repeatedly interference of frequent simulated field not only, but also can be quantitatively adjusting strength size continuously, make people be disturbed the phenomenon producing according to circuit each several part, find by easy stages the reason of interference and the approach of interference, and the degree that interference free performance improves afterwards of taking measures is confirmed in contrast.

Pulse signal generator is an a kind of noise source of artificially manufacturing for analog electronic equipment is subject at the scene the actual conditions of noise jamming.The mode that the logical super-high-current of this pulse signal generator injects be exclusively used in assessment high power electromagnetic pulse to electronic equipment destruction (for example power signal of thunder and lightning, the output of nuclear electromagnetic pulse simulator).Existing pulse signal generator cannot be exported the pulse signal of rise time fast (nanosecond), action time short (nanosecond), amplitude dynamic range large (from zero volt spy to thousands of volts), and existing pulse signal generator also cannot be for assessment of the ability of the anti-high power electromagnetic pulse interference of electronic equipment.

Summary of the invention

Cannot export in order to solve existing pulse signal generator the pulse signal that the rise time is fast, action time is short, amplitude dynamic range is large, cannot be for assessment of the technical problem of electronic equipment electromagnetic pulse-resisting interference performance, the utility model provides a kind of pulse signal generator, it can produce the pulse signal generating apparatus that the rise time is fast, action time is short, amplitude dynamic range is large, meets the demand of electronic equipment anti-jamming performance evaluation.

Technical solution of the present utility model:

Pulse signal generator, its special character is: comprise DC high-voltage source, voltage display unit, coaxial current limliting unit, TLP circuit, pulse control unit, drive amplification unit, frequency counting and display unit;

Described DC high-voltage source is for being converted to continuously adjustable direct current by electric main, and DC high-voltage source provides operating voltage for TLP circuit;

Described coaxial current limliting unit is for controlling the charging current of TLP circuit;

TLP circuit is the extremely steep and fixing shot nanosecond pulse pulse signal of pulsewidth for generation of rising edge;

The frequency signal of described pulse control unit output is controlled the mode of operation of TLP circuit after drive amplification unit amplifies;

The frequency signal that described frequency counting and display unit paired pulses control unit send is added up and is shown.

Above-mentioned DC high-voltage source comprises the alternating current supply filter, variable-voltage transformer, power transformer and the voltage doubling rectifing circuit that connect successively, the input termination civil power of described alternating current supply filter, the output dc voltage of described voltage doubling rectifing circuit.

Above-mentioned alternating current supply filter comprises inductance L 1, inductance L 2, electric capacity (C1-C4), one end of power line L termination capacitor C2, capacitor C 3, inductance L 1; Power line N end is wanted to connect with the other end of capacitor C 2, one end of capacitor C 4, one end of inductance L 2; The other end ground connection of the other end of capacitor C 3 and capacitor C 4; One end of another termination capacitor C 1 of inductance L 1; The other end of another termination capacitor C 1 of inductance L 2; The voltage at capacitor C 1 two ends is the supply voltage of exporting after filtering.

Above-mentioned voltage doubling rectifing circuit comprises rectifier diode D1, rectifier diode D2, capacitor C 5, capacitor C 6, and the anode of rectifier diode D1 connects the negative electrode of rectifier diode D2; The negative electrode of rectifier diode D1 connects one end of capacitor C 5, the anode of rectifier diode D2 connects one end of capacitor C 6, the other end of capacitor C 5 is connected with the other end of capacitor C 6, and input AC electricity is introduced from the common port of common port, capacitor C 5 and the capacitor C 6 of rectifier diode D1 and rectifier diode D2 respectively.

Also comprise the voltage display unit of the output dc voltage size for showing DC high-voltage source;

Described voltage display unit comprises divider resistance R _div, DM digital panel meter, described divider resistance R _divdirect voltage to DC high-voltage source output carries out dividing potential drop, one end of described DM digital panel meter and divider resistance R _divstiff end connect, the other end of described DM digital panel meter and divider resistance R _divsliding end connect.

Above-mentioned coaxial current limliting unit comprises resistance, metal shell and two bnc connectors of multiple series connection, the resistance of described multiple series connection is placed in metal shell, described two bnc connectors are all fixed on metal shell, the two ends of the resistance of series connection connect respectively the inner wire of two bnc connectors, the outer conductor of described two bnc connectors all with metal shell conducting, the outer conductor of one of them bnc connector is connected with DC high-voltage source negative pole, and the outer conductor of another bnc connector is connected with TLP circuit.

Above-mentioned TLP circuit comprises the energy storage open circuited transmission line L connecting successively ₄, switch module and pulse daley transmission line L ₅, described energy storage open circuited transmission line L ₄length be L ₄, characteristic impedance is Z ₀, described pulse daley transmission line L ₅the other end be connected with load R ₀,

Energy storage open circuited transmission line L in described TLP circuit ₄be connected with coaxial current limliting unit; The resistance of described coaxial current limliting unit is far longer than Z ₀, described energy storage open circuited transmission line L ₄characteristic impedance Z ₀equal load,

Described pulse control unit is by the folding of drive amplification unit controls switch module.

Above-mentioned switch module comprises relay K 1, metal shell, is fixed on input bnc connector and output bnc connector on metal shell, described relay is placed in metal shell, the inner wire of described input bnc connector is connected with the signal input part of relay, the inner wire of described output bnc connector is connected with the signal output part of relay K 1, the outer conductor of input, output bnc connector all with metal shell conducting, input bnc connector and energy storage open circuited transmission line L ₄connect output bnc connector and pulse daley transmission line L ₅connect;

Described relay is mercury wetted contact relay, and the control end coil of described mercury wetted contact relay meets diode D3.

Above-mentioned pulse control unit comprises pulse single circuits for triggering, pulse continuous trigger circuit and selector switch K4; Described pulse single circuits for triggering comprise K switch 3; Described pulse continuous trigger circuit comprises 555 timers, resistance R 6, resistance R 7, K switch 2 and electric capacity (C7-C9),

1 pin ground connection of described 555 timers, 2 pin of 555 timers, 6 pin, the sliding end of resistance R 7, a stiff end of resistance R 7 are connected in common point Uc, and common point Uc connects the common port of K switch 2; After one end of capacitor C 7, capacitor C 8, capacitor C 9 connects together, its common point ground connection, the other end of capacitor C 7, capacitor C 8, capacitor C 9 connects respectively three signal route origin ends of K switch 2, and 3 pin of 555 timers connect K switch 4, for exporting oscillator wave; 4 pin and 8 pin of 555 timers meet power supply Ucc, 7 pin of 555 timers meet power supply Ucc after by series resistance R6, another stiff end connecting resistance R6 of resistance R 7 and 7 pin of 555 timers, the public termination driver element of K switch 4, one end of another signal route origin termination K switch 3 of K switch 4, another termination positive supply of K switch 3.

Above-mentioned energy storage open circuited transmission line L ₄formed described pulse daley transmission line L by cable coiling on cylinder frame ₅comprise a coaxial cable and be fixed on negative electrode bnc connector and the anode bnc connector at coaxial cable two ends, described negative electrode bnc connector is fixed on pulse signal generator casing front panel, and described anode bnc connector docks with the output bnc connector in switch module.

The utility model has advantages of:

The utility model pulse signal generator output rectangular pulse signal, empirical tests, reaches following technical indicator:

1. the utility model pulse signal generator output rectangular pulse signal edge is precipitous.Output pulse signal rising edge is less than 2ns, and trailing edge is less than 2ns.

2. the utility model output rectangular pulse signal is short action time.The duration of output pulse signal, to be 30ns can match to the 40ns(pulse duration).

3. the amplitude dynamic range of the utility model output rectangular pulse signal.The amplitude of output pulse signal arrives within the scope of 2000V adjustable at 0V.

4. the mode of the utility model output rectangular pulse signal is flexible.Can single output pulse signal (clicking a pulse of trigger button output); Also can Automatic continuous output pulse signal, output frequency is adjustable continuously to 60Hz at 1Hz.

5. the output loading of the utility model pulse signal generator is standard termination-50 ohm load.

Brief description of the drawings

Fig. 1 is the theory diagram of pulse signal generator;

Fig. 2 is the structured flowchart of DC high-voltage source;

Fig. 3 is alternating current supply filter schematic diagram;

Fig. 4 is variable-voltage transformer schematic diagram;

Fig. 5 is voltage doubling rectifing circuit figure;

Fig. 6 is the structure chart of voltage display unit;

Fig. 7 is the structure chart of coaxial current limliting unit;

Fig. 8 is coaxial current limliting cellular installation schematic diagram;

Fig. 9 is TLP circuit theory diagrams;

Figure 10 is TLP circuit realization figure;

Figure 11 is the structure chart of energy storage open circuited transmission line;

Figure 12 is the structure chart of pulse daley transmission line;

Figure 13 is pulse control unit structure chart;

Figure 14 is oscillator wave figure.

Embodiment

Describe embodiment of the present utility model in detail below in conjunction with Figure of description, but execution mode of the present utility model is not limited to this.

Pulse signal generator adopts transmission line mode to realize.As shown in Figure 1, pulse signal generator is made up of DC high-voltage source, voltage display unit, coaxial current limliting unit, TLP circuit (TLP, transmission-line pulse), pulse control unit, drive amplification unit, frequency counting and display unit.Wherein:

Electric main is converted to direct current by DC high-voltage source, and output dc voltage is adjustable continuously, and DC high-voltage source provides operating voltage for TLP circuit.Voltage display unit is for showing the output dc voltage of DC high-voltage source, and coaxial current limliting unit is for controlling the charging current of TLP circuit.

TLP circuit produces rising edge extremely suddenly and the fixing shot nanosecond pulse pulse signal of pulsewidth.

Pulse control unit output frequency signal, after drive amplification unit amplifies, is controlled TLP circuit, makes TLP circuit produce continuously rising edge extremely suddenly and the fixing high-voltage pulse signal of pulsewidth according to specific frequency, and output pulse frequency is adjustable continuously; Or make TLP circuit single export rising edge extremely suddenly and the fixing heavy current pulse signal of pulsewidth.

The control signal that frequency counting and display unit paired pulses control unit send is added up and is shown.

As shown in Figure 2, DC high-voltage source is made up of alternating current supply filter, variable-voltage transformer, power transformer, voltage doubling rectifing circuit.DC high-voltage source is exported after 220V alternating current is converted to direct current, and output dc voltage size is adjustable, and adjustable range is 0～2000V.For convenience of test, output dc voltage size shows on display unit.

As shown in Figure 3, alternating current supply filter is by L1, L2, C1～C4 composition.One end (L end) of power line connects one end of capacitor C 2, C3, inductance L 1; The other end (N end) of power line connects one end of capacitor C 2, C4, inductance L 2; The common end grounding of capacitor C 3, C4; One end of another termination capacitor C 1 of inductance L 1; The other end of another termination capacitor C 1 of inductance L 2; The voltage at capacitor C 1 two ends is the supply voltage of exporting after filtering.Power-supply filter is a kind ofly to allow near frequency content supply frequency pass through, higher than this frequency content very large circuit of decaying.Power input part divides installation power-supply filter, has played key effect for the various noises that suppress in electrical network, has greatly improved the antijamming capability of pulse signal generator self.L1 and L2 are high impedances for noise source, and C1 is Low ESR.L1 and L2 are common mode chokes, can cut much ice to filtering common mode noise, and C1, C2 work to filtering differential mode noise, and C3, C4 work to filtering common mode noise.

As shown in Figure 4, variable-voltage transformer is exactly the continuously adjustable autotransformer of the turn ratio, and its core component is inductance coil L3, and wherein U1 represents input voltage, and U2 represents output voltage.When voltage regulator brush is under the effect of handwheel main shaft and brush holder, while slip along the polished surface of inductance coil L3, just change serially the turn ratio, thereby make output voltage be adjusted to maximum from zero smoothly.Variable-voltage transformer product is made up of inductance coil, brush, handwheel, dial and drain pan, outer cover etc.Select and there is the ripe variable-voltage transformer product that waveform is undistorted, volume is little, lightweight, efficiency is high, can operate reliably, realize high-quality voltage-regulation.Amplitude adjusted knob on the handwheel respective pulses signal generator panel of variable-voltage transformer.

The function of power transformer is to carry out voltage transformation.Power transformer is single-phase, step-up transformer.Pulse signal generator needs a 220V/2000V booster power transformer.

Voltage doubling rectifing circuit input ac voltage, output dc voltage.As Fig. 5, voltage doubling rectifing circuit is by one group of coil and two rectifier diodes, and the anode that two electric capacity forms rectifier diode D1 connects the negative electrode of rectifier diode D2; The negative electrode of D1 connects one end of capacitor C 5, and the anode of D2 connects one end of capacitor C 6, and the other end of C5 is connected with the other end of C6.Input AC electricity is introduced from the common port of common port, C5 and the C6 of D1 and D2 respectively; Output direct current is held output from A, C.When coil upper end is timing, the electric current D1 that flows through gets back to coil negative terminal, and at this moment, to C5 charging, C5 two ends reach the voltage of 1.414e2, and substantially remain unchanged; When coil upper end is when negative, the electric current D2 that flows through fills the voltage of 1.414e2 with to C6, thereby between AC and BC, obtain respectively the VD of positive and negative 1.414e2, between AB, obtain the VD of 2.828e2, the maximum direction voltage that each diode bears is 2.828e2, and the voltage bearing on capacitor C5, C6 is respectively 1.414e2.C5, C6 capacitor is high voltage energy-storage capacitor, D1, D2 is large-current high-voltage diode.(T1 in Fig. 5 is power transformer, the power transformer in corresponding diagram 2)

DC high-voltage source can produce the direct voltage of 0V to 2000V, in order to facilitate instrument to use, has designed function displaying voltage.As shown in Figure 6, carry out direct voltage demonstration by voltage display unit.By divider resistance Rdiv, the direct voltage of DC high-voltage source output is carried out to dividing potential drop, the direct voltage after adopting 3 ripe half DM digital panel meters to dividing potential drop shows.Adjust direct voltage 0～1999V that DM digital panel meter indication range is the corresponding DC high-voltage source output of 0～1999(), Designing Digital Voltmeters use+5V Power supply, simplifies distribution design.Charging voltage display screen on the corresponding panel of DM digital panel meter.

As shown in Figure 7, coaxial current limliting unit is in series by the resistance of 5 240k Ω, 1W.As shown in Figure 8,5 resistance are connected by welding manner, and the resistance after series connection is put into metal shell, and after series connection, the two ends of resistance connect respectively the inner wire of two bnc connectors.Bnc connector is directly fixed on metal shell, the outer conductor of bnc connector and metal shell conducting.The bnc connector of input connects DC high-voltage source, and the inner wire of the bnc connector of input connects DC high-voltage source positive pole, and the outer conductor of the bnc connector of input connects DC high-voltage source negative pole.The bnc connector of output connects the energy storage transmission line of TLP circuit, and energy storage transmission line is also bnc interface, and both directly can realize interconnection to inserting.

As shown in Figure 9, TLP circuit is by energy storage open circuited transmission line L ₄, pulse daley transmission line L ₅form with switch module.Switch module inside comprises a relay K 1.In the time that relay K 1 is not closed, high direct voltage is by coaxial current limliting unit R _eq(R _eqthe series equivalent resistance of resistance R 1～R5) be L to length ₄, characteristic impedance Z ₀transmission line L ₄charging, until be charged to E on transmission line.If transmission line L ₅right-hand member is connected to and specified impedance Z ₀equal load R ₀, in the time that relay K 1 is closed, due to R _eqbe far longer than Z ₀, can be transmission line L ₄left end regard open circuit as, pulse is through transmission line L ₅after time delay, (delay time is L ₅/ v, v is voltage velocity of wave propagation), at load R ₀on can obtain and hold time as 2L ₄the square-wave voltage that/v, amplitude are E/2.

As shown in figure 10, the switch module of TLP circuit is realized by mercury wetted contact relay K1.Mercury wetted contact relay K1 is arranged in metal shell, and the two ends (signal input part and signal output part) of relay K 1 connect respectively the inner wire of two bnc connectors.Bnc connector is directly fixed on metal shell, the outer conductor of bnc connector and metal shell conducting.The bnc connector of input connects energy storage open circuited transmission line, the bnc connector of output connect transmission time-delay line.The control end coils from parallel connection of coils diode D3 of mercury wetted contact relay K1 protects.The control end coil of mercury wetted contact relay K1 connects drive amplification unit.Drive amplification unit is a triode, for the output signal of pulse control unit being carried out to the after-applied control end coil to mercury wetted contact relay of voltage amplification.Triode Q1 base stage connects pulse control unit (common port of K switch 4, is shown in Figure 13), triode Q1 grounded emitter (low pressure ground), and triode Q1 collector electrode connects the anode of diode D3, and the negative electrode of diode D3 connects 24V DC power supply.

As shown in figure 11, energy storage open circuited transmission line is formed by cable coiling on cylinder frame.Cable is coaxial cable, characteristic impedance 50 Ω, and cylinder frame is made up of epoxy glass fabric pipe, and coaxial cable is coiling one deck on hollow backbone, coiling 10 circles.Between coil, arrange compactly, do not stay gap, stick with glue and connect coaxial cable, make that whole coil is firm to be fixed on hollow backbone.Bnc connector is installed at the two ends of coaxial cable, is connected with external circuit.The cylinder frame of energy storage open circuited transmission line is fixed on box bottom.

As shown in figure 12, transmission time-delay line is a coaxial cable, Characteristic Impedance of Coaxial Cables is 50 Ω, bnc connector is installed at the two ends of coaxial cable, wherein one end is BNC(negative electrode), the other end is BNC(anode), BNC(negative electrode) end be arranged on panel by screw, the signal output port on corresponding panel.BNC(anode) inner wire of end connects the relay (relay K 1 in corresponding Figure 10) of TLP circuit, BNC(anode) outer conductor of end connects the metal shell that TLP contactor assembly is installed.

As shown in figure 13, pulse control unit is made up of pulse single circuits for triggering and pulse continuous trigger circuit.Under continuous trigger mode, the trigger rate that pulse control unit can control impuls.Single triggers and triggers by button, often presses the button once, and pulse signal generator is just exported a pulse signal.Continuous trigger triggers by oscillator, and pulse signal generator output pulse signal number is identical with the frequency of oscillator.Oscillator is made up of 555 timers.The 1 pin ground connection (low pressure ground) of 555 timers, after the sliding end of 2 pin, 6 pin and the resistance R 7 of 555 timers, a stiff end of R7 connect together, its common point Uc connects the common port of K switch 2; After one end of capacitor C 7, C8, C9 connects together, its common point ground connection (low pressure ground), the other end of capacitor C 7, C8, C9 connects respectively three signal route origin ends of K switch 2, and 3 pin of 555 timers connect K switch 4, for exporting oscillator wave; 4 pin and 8 pin of 555 timers meet power supply Ucc, 7 pin series resistance R6 of 555 timers and meet power supply Ucc, the common port of the other end connecting resistance R6 of resistance R 7 and 7 pin of 555 timers.The public termination driver element of K switch 4, one end of another signal route origin termination K switch 3 of K4, another termination+5V power supply of K switch 3.

Oscillator wave as shown in figure 14.Be T=t cycle of oscillation _ph+ t _pl=0.7(R ₆+ R ₇) C.By adjusting resistance R ₇with capacitor C size, can change cycle of oscillation.Resistance R ₇for adjustable resistance, by changing R ₇value can accurate adjustment cycle of oscillation, the value of capacitor C is switched in capacitor C 7, C8, C9 by switch, by changing capacitor C coarse adjustment cycle of oscillation.Resistance R ₇the corresponding panel in adjustable side on frequency adjustment knob, three buttons on the corresponding panel of capacitance selection K switch 2 under PPS scope.Single trigger button on the corresponding panel of K switch 3 of single circuits for triggering.The corresponding panel upper frequency of selector switch K4 regulates button (frequency adjustment button is the potentiometer knob of belt switch function).

Frequency counting and display unit, for measuring and show the frequency of output pulse signal, facilitate the use of pulse signal generator.Design adopts ripe commercialization frequency meter paired pulses triggering signal to carry out frequency measurement, adopts ripe commercialization digitizing tablet instrument to carry out frequency demonstration.Pulse frequency display screen on the corresponding panel of display of frequency meter.

Claims

1. pulse signal generator, is characterized in that: comprise DC high-voltage source, coaxial current limliting unit, TLP circuit, pulse control unit, drive amplification unit, frequency counting and display unit;

2. pulse signal generator according to claim 1, it is characterized in that: described DC high-voltage source comprises the alternating current supply filter, variable-voltage transformer, power transformer and the voltage doubling rectifing circuit that connect successively, the input termination civil power of described alternating current supply filter, the output dc voltage of described voltage doubling rectifing circuit.

3. pulse signal generator according to claim 1, is characterized in that: described alternating current supply filter comprises inductance L 1, inductance L 2, electric capacity (C1-C4), one end of power line L termination capacitor C2, capacitor C 3, inductance L 1; Power line N end is wanted to connect with the other end of capacitor C 2, one end of capacitor C 4, one end of inductance L 2; The other end ground connection of the other end of capacitor C 3 and capacitor C 4; One end of another termination capacitor C 1 of inductance L 1; The other end of another termination capacitor C 1 of inductance L 2; The voltage at capacitor C 1 two ends is the supply voltage of exporting after filtering.

4. pulse signal generator according to claim 2, is characterized in that: described voltage doubling rectifing circuit comprises rectifier diode D1, rectifier diode D2, capacitor C 5, capacitor C 6, and the anode of rectifier diode D1 connects the negative electrode of rectifier diode D2; The negative electrode of rectifier diode D1 connects one end of capacitor C 5, the anode of rectifier diode D2 connects one end of capacitor C 6, the other end of capacitor C 5 is connected with the other end of capacitor C 6, and input AC electricity is introduced from the common port of common port, capacitor C 5 and the capacitor C 6 of rectifier diode D1 and rectifier diode D2 respectively.

5. pulse signal generator according to claim 1, is characterized in that: the voltage display unit that also comprises the output dc voltage size for showing DC high-voltage source;

6. pulse signal generator according to claim 1, it is characterized in that: described coaxial current limliting unit comprises the resistance of multiple series connection, metal shell and two bnc connectors, the resistance of described multiple series connection is placed in metal shell, described two bnc connectors are all fixed on metal shell, the two ends of the resistance of series connection connect respectively the inner wire of two bnc connectors, the outer conductor of described two bnc connectors all with metal shell conducting, the outer conductor of one of them bnc connector is connected with DC high-voltage source negative pole, the outer conductor of another bnc connector is connected with TLP circuit.

7. pulse signal generator according to claim 1, is characterized in that: described TLP circuit comprises the energy storage open circuited transmission line L connecting successively ₄, switch module and pulse daley transmission line L ₅, described energy storage open circuited transmission line L ₄length be L ₄, characteristic impedance is Z ₀, described pulse daley transmission line L ₅the other end be connected with load R ₀,

8. pulse signal generator according to claim 7, it is characterized in that: described switch module comprises relay K 1, metal shell, be fixed on input bnc connector and output bnc connector on metal shell, described relay is placed in metal shell, the inner wire of described input bnc connector is connected with the signal input part of relay, the inner wire of described output bnc connector is connected with the signal output part of relay K 1, input, the outer conductor of output bnc connector all with metal shell conducting, input bnc connector and energy storage open circuited transmission line L ₄connect output bnc connector and pulse daley transmission line L ₅connect,

9. according to the arbitrary described pulse signal generator of claim 1-8, it is characterized in that:

Described pulse control unit comprises pulse single circuits for triggering, pulse continuous trigger circuit and selector switch K4; Described pulse single circuits for triggering comprise K switch 3; Described pulse continuous trigger circuit comprises 555 timers, resistance R 6, resistance R 7, K switch 2 and electric capacity (C7-C9),

10. pulse signal generator according to claim 7, is characterized in that: described energy storage open circuited transmission line L ₄formed described pulse daley transmission line L by cable coiling on cylinder frame ₅comprise a coaxial cable and be fixed on negative electrode bnc connector and the anode bnc connector at coaxial cable two ends, described negative electrode bnc connector is fixed on pulse signal generator casing front panel, and described anode bnc connector docks with the output bnc connector in switch module.