CN110112951A - A kind of high voltage pulse electric shock device - Google Patents

Abstract

A kind of high voltage pulse electric shock device includes power module, PWM drive module, PWM control module, the first boost module and the second boost module.PWM drive module generates driving signal according to the second operating voltage that power module provides.PWM control module works according to the third operating voltage that power module provides and generates pulse control signal according to driving signal.The first operating voltage that power module provides is boosted according to pulse control signal and exports the first boost voltage, the second boost voltage and third boost voltage respectively by the first boost module.When first boost voltage is greater than predetermined voltage, the first boost voltage is boosted again and exports the first medium voltage and the second medium voltage respectively by the second boost module.First medium voltage is supplied to the first discharge end after being superimposed with third boost voltage, the second medium voltage is supplied to the second discharge end after being superimposed with the second boost voltage, to generate high-voltage pulse between the first discharge end and the second discharge end.

Description

A kind of high voltage pulse electric shock device

Technical field

The present invention relates to a kind of high voltage pulse electric shock devices.

Background technique

In the prior art, electric shock device can be used to make stun-gun or electric stunning baton, self-defence self-defence as police affairs personnel, Arrest the utensil of convict.Most of electric shock device is all self-activated switch power supply, is worked by transformer boosting mode.Due to transformation The size of device and its output voltage size are proportional.In the electric shock device based on a transformer, in order to realize High voltage output, The size of transformer will be larger, not readily portable.In addition, the power of electric shock device is single, can not adjust according to different needs The intensity of discharge pulse.

Summary of the invention

In view of this, it is necessary to provide a kind of high voltage pulse of adjustable intensity electric shock devices.

A kind of high voltage pulse electric shock device, comprising:

Power module, for providing the first operating voltage, the second operating voltage and third operating voltage；

PWM drive module, for being worked on power according to second operating voltage and generating driving signal；

PWM control module, for being worked on power according to the third operating voltage and generating pulse control according to the driving signal Signal processed；

First boost module, for receiving first operating voltage, and according to the pulse control signal by first work Make voltage respectively to export the first boost voltage, second liter after the boosting of the first turn ratio, the second turn ratio and third turn ratio Piezoelectricity pressure and third boost voltage；

Second boost module has the first discharge end and the second discharge end；When first boost voltage is greater than predetermined voltage, First boost voltage is boosted to obtain the first medium voltage with the 4th turn ratio by second boost module, and by described One medium voltage is supplied to first discharge end after being superimposed with the third boost voltage, while being boosted with the 5th turn ratio Second electric discharge is supplied to the second medium voltage, and after second medium voltage is superimposed with second boost voltage End, to generate high-voltage pulse between first discharge end and second discharge end.

Above-mentioned high voltage pulse electric shock device, carries out secondary booster by the second boost module, to improve sparking voltage, and leads to Toning whole pulse controls the duty ratio of signal, realizes the sparking function of varying strength.

Detailed description of the invention

Fig. 1 is the module diagram of the high voltage pulse electric shock device of better embodiment of the present invention.

Fig. 2 is the partial circuit diagram of the electric shock device of high voltage pulse described in Fig. 1.

Main element symbol description

High voltage pulse electric shock device 1

Power module 10

PWM drive module 20

PWM control module 30

First boost module 40

Second boost module 50

First transformer T1

First primary coil N1

First secondary coil N2

Second subprime coil N3

Third secondary coil N4

Switching transistor Q1

Patch capacitor TC

First filter capacitor C1

Second filter capacitor C2

Third filter capacitor C3

4th filter capacitor C4

5th filter capacitor C5

6th filter capacitor C6

First resistor R1

Second resistance R2

3rd resistor R3

4th resistance R4

First isolating diode D1

First rectifier diode D2

Second isolating diode D3

Third isolating diode D4

Second rectifier diode D5

Third rectifier diode D6

4th isolating diode D7

Discharge tube U1

Second transformer T2

Second primary coil N5

4th secondary coil N6

5th secondary coil N7

First discharge end P1

Second discharge end P2

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only The embodiment of a part of the invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people The model that the present invention protects all should belong in member's every other embodiment obtained without making creative work It encloses.

In the description of embodiments of the present invention, it should be noted that unless otherwise clearly defined and limited, term " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to dismantling connection, or be integrally connected；It can be machine Tool connection is also possible to be electrically connected or can mutually communicate；It can be and be directly connected to, between can also not connect by centre in succession It connects, can be the connection inside two elements or the interaction relationship of two elements.For those of ordinary skill in the art For, it can the concrete meaning of above-mentioned term in the present invention immediately as the case may be.

Description and claims of this specification and term " first " in above-mentioned attached drawing, " second " and " third " etc. are For distinguishing different objects, not for description particular order.In addition, term " includes " and their any deformations, it is intended that Non-exclusive include in covering.

The specific embodiment of high voltage pulse of the present invention electric shock device is illustrated with reference to the accompanying drawing.

It is the module diagram of the high voltage pulse electric shock device 1 of one embodiment of the present invention also referring to Fig. 1. The high voltage pulse electric shock device 1 is used to generate the high-voltage pulse of adjustable intensity, to realize electric shock or ignition function.The arteries and veins Rushing high-voltage electric shock device 1 can be applied in a variety of devices, such as stun-gun or electric stunning baton etc., and but it is not limited to this.

The high voltage pulse electric shock device 1 includes power module 10, PWM drive module 20, PWM control module 30, first Boost module 40 and the second boost module 50.

The power module 10 is used to provide the operating voltage in predetermined voltage range.In the present embodiment, institute It states power module 10 and provides the first operating voltage to the first boost module 40, provide the second operating voltage to the PWM and drive mould Block 20, and third operating voltage is provided to PWM control module 30.In the present embodiment, first operating voltage, the second work Make voltage and third operating voltage can be the same or different.The power module 10 can by least one battery, The composition such as dry cell, lithium battery, or multiple, however, it is not limited to this.The power module 10 is two series connections Lithium battery.In the present embodiment, the predetermined voltage range is 7V-8.4V.In other embodiments, the predetermined electricity Pressure range can be adjusted according to the demand of user, such as 6V-10V or 7.2V-8.4V, but not limited to this.

The PWM drive module 20 is electrically connected with the power module 10 and the PWM control module 30.The PWM Drive module 20 works on power according to the second operating voltage and generates driving signal, to drive the PWM control module 30 to work. In the present embodiment, the PWM drive module 20 is microprocessor.

The PWM control module 30 and the power module 10, the PWM drive module 20 and the first boosting mould Block 40 is electrically connected.The PWM control module 30 receives the third operating voltage that the power module 10 provides and works on power, and Pulse control signal is generated according to the driving signal that the PWM drive module 20 provides.In the present embodiment, the arteries and veins Punching control signal is the alternate pulse signal of periodicity being made of the first level and second electrical level, and the arteries and veins of first level Rushing width is controlled by the driving signal.First level is higher than the second electrical level.First level is high electricity Flat, the second electrical level is low level.The high level can be 3.3V, and the low level can be 0V.

First boost module 40 and the power module 10, the PWM control module 30 and second boosting Module 50 is electrically connected.The pulse control signal that first boost module 40 is provided according to the PWM control module 30 With the first turn ratio, second the number of turns, when third turn ratio carries out the first operating voltage that the power module 10 is provided respectively The first boost voltage, the second boost voltage and third boost voltage are exported after boosting to second boost module 50.At this In embodiment, when the third turn ratio can be identical for first turn ratio, described second the number of turns, can also be different.

Referring to Figure 2 together, first boost module 40 includes switching transistor Q1, the first transformer T1, patch electricity Hold TC, the first filter capacitor C1, the second filter capacitor C2, third filter capacitor C3, the 4th filter capacitor C4, the 5th filter capacitor It is C5, the first isolating diode D1, the first rectifier diode D2, the second isolating diode D3, third isolating diode D4, second whole Flow diode D5, third rectifier diode D6, the 4th isolating diode D7, first resistor R1, second resistance R2,3rd resistor R3 And the 4th resistance R4.

The first transformer T1 include the first primary coil N1, the first secondary coil N2, second subprime coil N3 and Third secondary coil N4.The first end of the first primary coil N1 receives first operating voltage, the described first primary line The drain electrode of the second end and the switching transistor Q1 of enclosing N1 is electrically connected.The first end of the first secondary coil N2 with it is described The anode of first rectifier diode D2 is electrically connected, the second end of the first secondary coil N2 and second isolating diode The cathode of D3 is electrically connected.The cathode and second boost module 50 of the first rectifier diode D2 is electrically connected.Wherein, The first rectifier diode D2 is for rectifying first boost voltage.The anode of the second isolating diode D3 Ground connection.The anode of the first end of the second subprime coil N3 and the third isolating diode D4 are electrically connected, and described second The cathode of the second end of secondary coil N3 and the second rectifier diode D5 are electrically connected.The third isolating diode D4's Minus earth.Wherein, the second isolating diode D3 and third isolating diode D4 is for being isolated first grade The coil N2 and second subprime coil N3 generates crosstalk to avoid between the two.The anode of the second rectifier diode D5 It is electrically connected with second boost module 50.Wherein, the second rectifier diode D5 is used for second boost voltage It is rectified.The anode of the first end of the third secondary coil N4 and the third rectifier diode D6 are electrically connected, described The cathode of the second end of third secondary coil N4 and the 4th isolating diode D7 are electrically connected.The third rectifier diode The cathode of D6 and second boost module 50 are electrically connected.Wherein, the third rectifier diode D6 is used for the third Boost voltage is rectified.The anode and second boost module 50 of the 4th isolating diode D7 is electrically connected.Wherein, The 4th isolating diode D7 avoids the two for the third secondary coil N4 and the 6th filter capacitor C6 to be isolated Between generate interference.The grid of the switching transistor Q1 receives the pulse control signal, the source electrode of the switching transistor Q1 Ground connection.The first end of the patch capacitor TC and the first end of the primary coil N1 are electrically connected, the patch capacitor TC's Second end ground connection.In the present embodiment, the of the second end of the first primary coil N1 and the first secondary coil N2 The first end of one end, the first end of the second subprime coil N3 and the third secondary coil N4 is to hold in the same direction.Described The turn ratio of one primary coil N1 and the first secondary coil N2 are 1:A, the first primary coil N1 and second described The turn ratio of grade coil N3 is that the turn ratio of 1:B, the first primary coil N1 and the third secondary coil N4 are 1:C.Its In, A, B, C are positive integer.Wherein, the first secondary coil N2, the second subprime coil N3 and the third secondary wire The turn ratio of circle N4 and the first primary coil N1 may be the same or different, and can adjust according to demand.The switch crystal Pipe Q1 is N-type metal-oxide-semiconductor.

The first end of the first end of the first filter capacitor C1 and the first primary coil N1 are electrically connected, and described the The second end of one filter capacitor C1 is grounded.Wherein, the first filter capacitor C1 is for filtering first operating voltage Wave.So the first end of first resistor R1 and the first end of the first primary coil N1 are electrically connected, the first resistor R1 Second end and the first isolating diode D1 cathode be electrically connected.The anode of the first isolating diode D1 with it is described The second end of first primary coil N1 is electrically connected.The first isolation diode D1 is for being isolated the first primary coil N1 First end and the first primary coil N1 second end.The first end of the second filter capacitor C2 and first primary The first end of coil N1 is electrically connected, the cathode of the second end of the second filter capacitor C2 and the first isolating diode D1 It is electrically connected.The first end of the third filter capacitor C3 and the second end of the first primary coil N1 are electrically connected, described The second end of third filter capacitor C3 is grounded.

The anode of the first end of the second resistance R2 and the second rectifier diode D5 are electrically connected, second electricity Hinder the second end ground connection of R2.The cathode of the first end of the 3rd resistor R3 and the third rectifier diode D6 are electrically connected, The second end of the 3rd resistor R3 is grounded.The first end of the 4th resistance R4 and the anode of the 4th isolating diode D7 It is electrically connected, the second end ground connection of the 4th resistance R4.

The anode of the first end of the 4th filter capacitor C4 and the second rectifier diode D5 are electrically connected, and described the The second end of four filter capacitor C4 and second boost module 50 are electrically connected.Wherein, the 4th filter capacitor C4 is used for Second boost voltage is filtered.The first end of the 6th filter capacitor C6 and second boost module 50 are electrically Connection, the second end ground connection of the 6th filter capacitor C6.The 6th filter capacitor C6 is used for first boost voltage It is filtered.The cathode of the first end of the 5th filter capacitor C5 and the third rectifier diode D6 are electrically connected, described The second end of 5th filter capacitor C5 is grounded.Wherein, the 5th filter capacitor C5 is used to carry out the third boost voltage Filtering.

In the present embodiment, the second end of the patch capacitor TC, the source electrode of the switching transistor Q1 and described Ground connection and the second end of the second resistance R2, the second end of the 3rd resistor R3, the institute of the second end of three filter capacitor C3 State the second end of the 4th resistance R4, the anode of the second isolating diode D3, the cathode of the third isolating diode D4, The ground connection of the second end of five filter capacitor C5 and the second end of the 6th filter capacitor C6 is mutually indepedent.

Second boost module 50 is electrically connected with first boost module 40.Second boost module 50 has First discharge end P1 and the second discharge end P2.When first boost voltage is greater than the predetermined voltage, second boosting Module 50 by first boost voltage with the 4th turn ratio boost to obtain the first medium voltage and with the third boost voltage It is supplied to the first discharge end P1 after superposition, while with the 5th turn ratio boosting to obtain the second medium voltage and with described second It is supplied to the second discharge end P2 after boost voltage superposition, so that the first discharge end P1 and the second discharge end P2 Between generate high-voltage pulse.Wherein, the strong of the high-voltage arc can be adjusted by adjusting the duty ratio of the pulse control signal Degree.When the maximum intensity of the high-voltage pulse is greater than nominal strength, second boost module 50 realizes electric shock operation；Institute When stating the maximum intensity of high-voltage pulse less than or equal to the nominal strength, second boost module 50 realizes ignition function.? In present embodiment, the predetermined voltage and the nominal strength can be adjusted according to demand.In the present embodiment, described When the 5th turn ratio can be identical for 4th the number of turns, can also be different.

Second boost module 50 includes discharge tube U1 and the second transformer T2.The second transformer T2 includes second Primary coil N5, the 4th secondary coil N6 and the 5th secondary coil N7.The first end of the second primary coil N5 passes through institute The cathode for stating discharge tube U1 and first rectifier diode is electrically connected, the second end ground connection of the second primary coil N5. The first end of the 4th secondary coil N6 and the first discharge end P1 are electrically connected, and the second of the 4th secondary coil N6 End and the cathode of the third rectifier diode D6 are electrically connected.The first end of the 5th secondary coil N7 and described second whole The anode for flowing diode D5 is electrically connected, and the second end of the 5th secondary coil N7 electrically connects with the second discharge end P2 It connects.In the present embodiment, the first end of the second primary coil N5 and the second end of the 4th secondary coil N6 and institute The second end for stating the 5th secondary coil N7 is to hold in the same direction.The number of turns of the second primary coil N5 and the 4th secondary coil N6 It is 1:E than the turn ratio for 1:D, the second primary coil N5 and the 5th secondary coil N7.Wherein, D and E is positive whole Number.Wherein, the turn ratio of the 4th secondary coil N6 and the 5th secondary coil N7 and the second primary coil N5 It may be the same or different, and can adjust according to demand.

Specifically, the working principle of the high voltage pulse electric shock device 1 is as follows:

The PWM drive module 20 controls the PWM control module according to the second operating voltage that the power module 10 provides The pulse signal of 30 output predetermined duty ratios is as the pulse control signal.The switching transistor Q1 is in the pulse signal Switch between on state and off state under control.When the switching transistor Q1 is in the conductive state, described first Electric current, the first secondary coil N2 are generated between the first end of primary coil N1 and the second end of the first primary coil N1 First boost voltage generated according to electromagnetic induction principle is through the first rectifier diode D2 and second isolation two The rectification of pole pipe D3 is simultaneously supplied to the discharge tube U1 after the filtering of the 6th filter capacitor C6.In first boosting When voltage reaches the predetermined voltage, the 4th secondary coil N6 according to electromagnetic induction principle by first boost voltage with 4th turn ratio, which is boosted to obtain first medium voltage, is supplied to the first discharge end P1.5th secondary coil N7 obtains electricity among described second after first boost voltage is boosted with the 5th turn ratio according to electromagnetic induction principle The second discharge end P2 is supplied to after pressure.Generated according to electromagnetic induction principle described second liter of the second subprime coil N3 Rectification of the piezoelectricity pressure through the third isolating diode D4 and the second rectifier diode D5 simultaneously passes through the 5th filtered electrical The 4th secondary coil N6 is supplied to after holding the filtering of C5.What the third secondary coil N4 was generated according to electromagnetic induction principle Rectification of the third boost voltage through the third rectifier diode D6 and the 4th isolating diode D7 simultaneously passes through the described 4th The 5th secondary coil N7 is supplied to after the filtering of filter capacitor C4.Therefore, the voltage of the first discharge end P1 is described The sum of 4th secondary coil N6 output voltage and the third secondary coil N4 output voltage, the voltage of the second discharge end P2 For the output voltage of the 5th secondary coil N7 and the sum of the output voltage of the second subprime coil N3.It is put described first The high-voltage arc is generated between electric end P1 and the second discharge end P2, realizes electric shock function or sparking function.

It is above-mentioned that there is high voltage pulse electric shock device 1, secondary booster is carried out by the second boost module 50, to improve sparking electricity Pressure can reduce the size of high voltage pulse electric shock device 1.Meanwhile by adjusting the duty ratio of pulse control signal, realize different strong The sparking function of degree.In addition, the PWM drive module 20, the PWM control module 30 and the first boost module 40 are adopted respectively With independently-powered, avoid between disparate modules since the different brings of load influence.

Those skilled in the art it should be appreciated that more than embodiment be intended merely to illustrate the present invention, And be not used as limitation of the invention, as long as within spirit of the invention, it is to the above embodiments Appropriate change and variation are all fallen within the scope of protection of present invention.

Claims (10)

1. The device 1. a kind of high voltage pulse shocks by electricity, it is characterised in that: the high voltage pulse electric shock device includes: power module, is used for First operating voltage, the second operating voltage and third operating voltage are provided；PWM drive module, for according to second work It works on power as voltage and generates driving signal；PWM control module, for being worked on power simultaneously according to the third operating voltage Pulse control signal is generated according to the driving signal；First boost module, for receiving first operating voltage, and root According to the pulse control signal by first operating voltage respectively with the first turn ratio, the second turn ratio and third turn ratio The first boost voltage, the second boost voltage and third boost voltage are exported after boosting；Second boost module has the first electric discharge End and the second discharge end；When first boost voltage is greater than predetermined voltage, second boost module is by described first liter Piezoelectricity pressure boosts to obtain the first medium voltage with the 4th turn ratio, and by first medium voltage and the third boost voltage It is supplied to first discharge end after superposition, while boosting to obtain the second medium voltage with the 5th turn ratio, and by described second Medium voltage is supplied to second discharge end after being superimposed with second boost voltage, in first discharge end and described High-voltage pulse is generated between second discharge end.
2. The device 2. high voltage pulse as described in claim 1 shocks by electricity, it is characterised in that: second boost module further comprises Nominal strength, when the maximum intensity of the high-voltage pulse is greater than the nominal strength, second boost module realizes electric shock Function.
3. The device 3. high voltage pulse as claimed in claim 2 shocks by electricity, it is characterised in that: small in the maximum intensity of the high-voltage pulse When being equal to the nominal strength, second boost module realizes ignition function.
4. The device 4. high voltage pulse as described in claim 1 shocks by electricity, it is characterised in that: first boost module includes that switch is brilliant Body pipe, the first transformer, first resistor and the first isolating diode；First transformer includes the first primary coil, the One secondary coil, second subprime coil and third secondary coil；So the first end of first resistor and the first primary line The first end of circle is electrically connected, and the second end of the first resistor passes through first isolating diode and the first primary line The second end of circle is electrically connected；First isolating diode is used to be isolated the first end and described the of first primary coil The second end of one primary coil；The first end of first primary coil receives first operating voltage；The switch crystal The grid of pipe receives the pulse control signal, the source electrode ground connection of the switching transistor, the drain electrode of the switching transistor with The second end of first primary coil is electrically connected；The first end of first secondary coil and second boost module electricity Property connection, first secondary coil second end ground connection；The first end of the second subprime coil is grounded, the second subprime The second end of coil and second boost module are electrically connected；The first end of the third secondary coil and second boosting Module is electrically connected, and the second end of the third secondary coil and second boost module are electrically connected.
5. The device 5. high voltage pulse as claimed in claim 4 shocks by electricity, it is characterised in that: first boost module further includes first Filter capacitor, the second filter capacitor, third filter capacitor, the 4th filter capacitor, the 5th filter capacitor and the 6th filter capacitor； The first end of first filter capacitor and the first end of first primary coil are electrically connected, first filter capacitor Second end ground connection；First filter capacitor is for being filtered first operating voltage；Second filter capacitor The first end of first end and first primary coil is electrically connected, the second end of second filter capacitor with described first every Cathode from diode is electrically connected；The first end of the third filter capacitor and the second end of first primary coil are electrical Connection, the second end ground connection of the third filter capacitor；The first end of 4th filter capacitor and the second subprime coil Second end be electrically connected, the second end of the 4th filter capacitor and it is described second boosting be electrically connected；4th filtering Capacitor is for being filtered second boost voltage；The first end of 6th filter capacitor and second boost module It is electrically connected, the second end ground connection of the 6th filter capacitor；6th filter capacitor is used for first boost voltage It is filtered；The first end of 5th filter capacitor and the first end of the third secondary coil are electrically connected, and the described 5th The second end of filter capacitor is grounded；5th filter capacitor is for being filtered the third boost voltage.
6. The device 6. high voltage pulse as claimed in claim 4 shocks by electricity, it is characterised in that: first boost module further includes second Resistance, 3rd resistor, the first rectifier diode, the second rectifier diode and third rectifier diode；First rectification two The first end of the anode of pole pipe and first secondary coil is electrically connected, the cathode of first rectifier diode and described the Two boost modules are electrically connected；The cathode of second rectifier diode and the second end of the second subprime coil electrically connect It connects, the anode of second rectifier diode and second boost module are electrically connected；The sun of the third rectifier diode The first end of pole and the third secondary coil is electrically connected, the cathode of the third rectifier diode and the second boosting mould Block is electrically connected；The anode of the first end of the second resistance and second rectifier diode is electrically connected, second electricity The second end of resistance is grounded；The cathode of the first end of the 3rd resistor and the third rectifier diode is electrically connected, and described the The second end of three resistance is grounded.
7. The device 7. high voltage pulse as claimed in claim 4 shocks by electricity, it is characterised in that: first boost module further includes second Isolating diode and third isolating diode；Second isolating diode and the third isolating diode are for being isolated First secondary coil and the second subprime coil；The cathode of second isolating diode and first secondary coil Second end be electrically connected, the plus earth of second isolating diode；The anode of the third isolating diode with it is described The first end of second subprime coil is electrically connected, the minus earth of the third isolating diode.
8. The device 8. high voltage pulse as claimed in claim 5 shocks by electricity, it is characterised in that: first boost module further includes the 4th Resistance and the 4th isolating diode；The cathode of 4th isolating diode and the second end of the third secondary coil are electrical Connection, the cathode and second boost module of the 4th isolating diode are electrically connected；4th isolating diode is used In the isolation third secondary coil and the 6th filter capacitor；The first end of 4th resistance is isolated two with the described 4th The anode of pole pipe is electrically connected, the second end ground connection of the 4th resistance.
9. The device 9. high voltage pulse as claimed in claim 6 shocks by electricity, it is characterised in that: second boost module includes discharge tube And second transformer；Second transformer includes the second primary coil, the 4th secondary coil and the 5th secondary coil；Institute It states the first end of the second primary coil to be electrically connected by the cathode of the discharge tube and first rectifier diode, described the The second end of two primary coils is grounded；The first end of 4th secondary coil and first discharge end are electrically connected, described The cathode of the second end of 4th secondary coil and the third rectifier diode is electrically connected；The first of 5th secondary coil End and the anode of second rectifier diode are electrically connected, the second end of the 5th secondary coil and second discharge end It is electrically connected.
10. The device 10. high voltage pulse as described in claim 1 shocks by electricity, it is characterised in that: the PWM drive module is micro process Device；The pulse control signal is the alternate pulse signal of periodicity being made of the first level and second electrical level；The PWM drives Dynamic model block can adjust the pulse width of the first level described in the pulse control signal.