CN204696679U - Overvoltage protection - Google Patents

Abstract

The utility model discloses a kind of overvoltage protection, comprise: switching type voltage protection device and clamper type voltage protection device, switching type voltage protection device is used for when the on-load voltage of overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage; The residual voltage that clamper type voltage protection device is used for after bleed off first carries out secondary bleed off.The utility model is merged by connection switching type voltage protection device and clamper type voltage protection device being carried out physical structure; solve lock streaming circuit brake in prior art and cannot maintain the technical problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively, reach the technique effect of the low clamp voltage of overvoltage protection, low-leakage current.

Description

Overvoltage protection

Technical field

The utility model relates to electric elements field, in particular to a kind of overvoltage protection.

Background technology

At present, on market, the circuit brake of main flow is divided into lock streaming and clamping type two kinds, and lock streaming circuit brake can carry out bleed off effectively to the overvoltage loaded in circuit, but cannot maintain certain clamp voltage; And independently clamping type circuit brake, its clamp voltage is too high, generally; clamp voltage is at least the twice of operating voltage; and protected equipment needs lower clamp voltage, general clamp voltage is preferably 1.5 or 1.3 times of operating voltage, not even higher than operating voltage.Too high clamp voltage causes clamping type circuit brake can not effectively protect rear class equipment, and the equipment that circuit brake is also not activated rear class has damaged.Existing overvoltage surge protector is all the technology based on piezo-resistance, therefore, cannot reach protection equipment below or the effect of circuit under many circumstances.

Cannot maintain for lock streaming circuit brake of the prior art the technical problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively, not yet propose effective solution at present.

Utility model content

Main purpose of the present utility model is to provide a kind of overvoltage protection, cannot maintain to solve lock streaming circuit brake problem the problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively.

To achieve these goals, according to an aspect of the utility model embodiment, provide a kind of overvoltage protection, comprise: switching type voltage protection device, when the on-load voltage on described overvoltage protection is greater than or equal to the first predeterminated voltage, bleed off is first carried out to described on-load voltage; Clamper type voltage protection device, is connected with described switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of described on-load voltage after bleed off first.

Optionally, also comprise: breaking device, be connected with described clamper type voltage protection device, for described on-load voltage is carried out first bleed off time or secondary bleed off is carried out to described residual voltage time, surge voltage is greater than the second predeterminated voltage or surge current when being greater than the first predetermined current, automatically disconnects; Wherein, described surge voltage is the crest voltage that described switching type voltage protection device or described clamper type voltage protection device open moment; Described surge current is the peak current that described switching type voltage protection device or described clamper type voltage protection device open moment.

Alternatively, described switching type voltage protection device comprises: solid discharging tube; Described clamper type voltage protection device comprises: piezo-resistance, and wherein, described piezo-resistance is connected with described solid discharging tube; Described breaking device comprises: fuse, and wherein, described fuse is connected with described piezo-resistance.

Alternatively, described solid discharging tube comprises: semiconductor transistor elements, and wherein, described semiconductor transistor elements comprises two NPN type PN junctions; First electrode, wherein, described first electrode comprises a L pole and a N pole, and a described L pole and a described N pole are separately positioned on described semiconductor transistor elements two ends.

Alternatively, a described L pole and a described N extremely on be respectively arranged with Copper Foil.

Alternatively, described piezo-resistance comprises: basic material, and wherein, described basic material comprises zinc oxide ceramics; Second electrode, wherein, described second electrode comprises the 2nd L pole and the 2nd N pole, and described 2nd L pole and described 2nd N pole are separately positioned on described basic material two ends.

Alternatively, described 2nd L pole and described 2nd N extremely go up respectively and are provided with silver coating or tin coating.

Alternatively; one N pole of described solid discharging tube is connected with the 2nd L pole of described piezo-resistance; 2nd N pole of described piezo-resistance is connected with wherein one end of described fuse, and a L pole of described solid discharging tube is connected with circuit to be protected respectively with the other end of described fuse.

Alternatively, also comprising: supervisory circuit, be connected with described breaking device, whether disconnecting for monitoring described breaking device, and send information when described breaking device disconnects to control centre.

Alternatively, described supervisory circuit comprises: over-voltage monitoring unit, is greater than or equal to number of times and the numerical value of described first predeterminated voltage for monitoring the voltage be loaded on described overvoltage protection.

According to utility model embodiment, adopt and switching type voltage protection device and clamper type voltage protection device are combined, wherein, switching type voltage protection device, when the on-load voltage on described overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to described on-load voltage; Clamper type voltage protection device is connected with described switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of described on-load voltage after bleed off first.Merged by connection switching type voltage protection device and clamper type voltage protection device being carried out physical structure; solve lock streaming circuit brake in prior art and cannot maintain the technical problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively, reach the technique effect of the low clamp voltage of overvoltage protection, low-leakage current.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation according to the optional a kind of overvoltage protection of the utility model embodiment;

Fig. 2 is the structural representation according to the optional another kind of overvoltage protection of the utility model embodiment;

Fig. 3 is the structural representation according to the optional solid discharging tube of the utility model embodiment;

Fig. 4 is the structural representation according to the optional piezo-resistance of the utility model embodiment;

Fig. 5 is the syndeton schematic diagram according to the optional solid discharging tube of the utility model embodiment and piezo-resistance;

Fig. 6 is the structural representation according to the optional another kind of overvoltage protection of the utility model embodiment;

Fig. 7 is the flow chart according to the optional a kind of over-voltage protection method of the utility model embodiment;

Fig. 8 is the flow chart according to the optional another kind of over-voltage protection method of the utility model embodiment;

Fig. 9 is the V/I curve chart according to the optional overvoltage protection course of work of the utility model embodiment.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

The utility model scheme is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the embodiment of the utility model part, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the utility model protection.

It should be noted that, term " first ", " second " etc. in specification of the present utility model and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged, in the appropriate case so that embodiment of the present utility model described herein.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

The utility model embodiment provides a kind of overvoltage protection.

Fig. 1 is the structural representation according to the optional a kind of overvoltage protection of the utility model embodiment.

As shown in Figure 1, according to the overvoltage protection of the utility model embodiment, comprise: switching type voltage protection device 1 and clamper type voltage protection device 2, switching type voltage protection device 1, when the on-load voltage on overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage; Clamper type voltage protection device is connected with switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of on-load voltage after bleed off first.

The overvoltage protection of the utility model embodiment can be applied to interchange, the protection of DC power supply or the protection of signal circuit; if need the absorptive capacity expanding voltage, electric current; alternatively, the overvoltage protection of multiple the utility model embodiment can be connected in parallel in circuit to be protected thus to increase absorptive capacity.

According to utility model embodiment, adopt and switching type voltage protection device and clamper type voltage protection device are combined, wherein, switching type voltage protection device, when the on-load voltage on overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage; Clamper type voltage protection device is connected with switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of on-load voltage after bleed off first.Merged by connection switching type voltage protection device and clamper type voltage protection device being carried out physical structure; solve lock streaming circuit brake in prior art and cannot maintain the technical problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively, reach the technique effect of the low clamp voltage of overvoltage protection, low-leakage current.Meanwhile, switching type voltage protection device, as switching device, is in open-circuit condition under normal circumstances, and the Leakage Current of itself is very little, thus reaches low clamp voltage, the low-leakage current technique effect of voltage protector.

Fig. 2 is the structural representation according to the optional another kind of overvoltage protection of the utility model embodiment.

Fig. 3 is the structural representation according to the optional solid discharging tube of the utility model embodiment.

Fig. 4 is the structural representation according to the optional piezo-resistance of the utility model embodiment.

Fig. 5 is the syndeton schematic diagram according to the optional solid discharging tube of the utility model embodiment and piezo-resistance.

As shown in Figure 2, the overvoltage protection of the present embodiment also comprises: breaking device 3, breaking device 3 is connected with clamper type voltage protection device 2, for on-load voltage is carried out first bleed off time or secondary bleed off is carried out to residual voltage time, surge voltage is greater than when the second predeterminated voltage or surge current are greater than the first predetermined current and automatically disconnects; Wherein, surge voltage is the crest voltage that switching type voltage protection device or clamper type voltage protection device open moment; Surge current is the peak current that switching type voltage protection device or clamper type voltage protection device open moment.The size of bearing surge current depends on the power designs of the entirety of overvoltage protection.Particularly, as shown in Figure 5, switching type voltage protection device 1 comprises solid discharging tube 11; Clamper type voltage protection device 2 comprises piezo-resistance 21; Piezo-resistance 21 is connected with solid discharging tube 11; Breaking device 3 comprises: fuse 31, and fuse 31 is connected with piezo-resistance 21.Solid discharging tube 11 is used for starting overvoltage protection as switching device, must bear very large 12T index.Can not damage when big current, high voltage, according to the design of certain through-current capacity, the surge absoption ability of such as 10KA.Piezo-resistance 21 can bear very large inrush current shock repeatedly, is used for absorbing high-tension surge current.Adopt fuse 31 when overvoltage protection lost efficacy, open-circuit condition can be formed, guarantee that whole overvoltage protection shifts out from major loop, bright cigarette naked light phenomenon can not be produced, guarantee the safety of product and whole system.Preferably, fuse 31 adopts the fuse of lightning protection special designs, can not fuse under normal circumstances, and the moment surge current born in scope of design can not damage, when solid discharging tube 11 and piezo-resistance 21 lost efficacy, such as burn observations, fuse 31 can disconnect at once, can not breaking out of fire accident.

As shown in Figure 3, solid discharging tube 11 comprises: semiconductor transistor elements 1102 and the first electrode, and wherein, semiconductor transistor elements 1102 comprises two NPN type PN junctions; First electrode comprises a L pole 1104 and a L pole 1104, N pole the 1106, one and a N pole 1106 and is separately positioned on semiconductor transistor elements 1102 two ends.Alternatively, in order to strengthen the conductivity of solid discharging tube 11, a L pole 1104 and a N pole 1106 are respectively arranged with Copper Foil, two electrodes by Copper Foil transition by the extraction that goes between.

As shown in Figure 4, piezo-resistance 21 comprises basic material 2102 and the second electrode, and basic material 2102 comprises zinc oxide ceramics; Second electrode comprises the 2nd L pole 2104 and the 2nd L pole 2104, N pole the 2106, two and the 2nd N pole 2106 and is separately positioned on basic material 2102 two ends.Zinc oxide ceramics is folded between the 2nd L pole 2104 and the 2nd N pole 2106.In order to strengthen conductive effect, the 2nd L pole 2104 and the 2nd N pole 2106 outer surface are also coated with silver coating or tin coating.

As shown in Figure 5; one N pole 1106 of solid discharging tube 11 is connected by welding manner with the 2nd L pole 2104 of piezo-resistance 21; 2nd N pole 2106 of piezo-resistance 21 is connected with breaking device 3 i.e. wherein one end of fuse 31, and a L pole 1104 of solid discharging tube 11 and the other end of fuse 31 are connected respectively in circuit to be protected by lead-in wire.

Fig. 6 is the structural representation according to the optional another kind of overvoltage protection of the utility model embodiment.

As shown in Figure 6; the overvoltage protection of the present embodiment also comprises: supervisory circuit 4; supervisory circuit 4 is connected with breaking device 3; whether disconnect for monitoring breaking device 3; and send information when breaking device 3 disconnects to control centre; administrative staff change breaking device 3 in time after receiving information, ensure the normal work of overvoltage protecting device.Supervisory circuit 3 comprises: over-voltage monitoring unit 41, and over-voltage monitoring unit 41 is greater than or equal to number of times and the numerical value of the first predeterminated voltage for monitoring the voltage be loaded on overvoltage protection.By to monitoring and the statistics of protecting overvoltage number of times and numerical value, reach the more intelligentized monitoring of overvoltage protection.

Fig. 7 is the flow chart according to the optional a kind of over-voltage protection method of the utility model embodiment.As shown in Figure 7, this over-voltage protection method comprises step S102 to S104:

Step S102, when the on-load voltage on overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage;

Step S104, carries out secondary bleed off to the residual voltage of on-load voltage after bleed off first.

According to utility model embodiment, adopt and switching type voltage protection device and clamper type voltage protection device are combined, wherein, switching type voltage protection device, when the on-load voltage on overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage; Clamper type voltage protection device is connected with switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of on-load voltage after bleed off first.Merged by connection switching type voltage protection device and clamper type voltage protection device being carried out physical structure; solve lock streaming circuit brake in prior art and cannot maintain the technical problem that certain clamp voltage and clamping type circuit brake can not protect rear class equipment effectively, reach the technique effect of the low clamp voltage of overvoltage protection, low-leakage current.Meanwhile, switching type voltage protection device, as switching device, is in open-circuit condition under normal circumstances, and the Leakage Current of itself is very little, thus reaches low clamp voltage, the low-leakage current technique effect of voltage protector.

Fig. 8 is the flow chart according to the optional another kind of over-voltage protection method of the utility model embodiment.The over-voltage protection method of this embodiment can be a kind of preferred implementation of the over-voltage protection method of above-described embodiment.As Fig. 8 shows, this over-voltage protection method comprises step S102 to S106:

Step S102, when the on-load voltage on overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to on-load voltage;

Step S104, carries out secondary bleed off to the residual voltage of on-load voltage after bleed off first;

Step S106, when on-load voltage carries out that bleed off or residual voltage carry out secondary bleed off first, surge voltage is greater than the second predeterminated voltage or surge current when being greater than the first predetermined current, is opened by overvoltage protection from Circuit Interrupt to be protected.

Wherein, surge voltage is the crest voltage that switching type voltage protection device or clamper type voltage protection device open moment; Surge current is the peak current that switching type voltage protection device or clamper type voltage protection device open moment.

Be in embodiment at the utility model, adopt fuse 31 when overvoltage protection lost efficacy, whole overvoltage protection is shifted out from major loop, formation open-circuit condition, thus bright cigarette naked light phenomenon can not be produced, guarantee the safety of product and whole system.Fuse 31 adopts the fuse of lightning protection special designs, can not fuse under normal circumstances, and the moment surge current born in scope of design can not damage; when overvoltage protection lost efficacy; such as burn observations, fuse 31 can disconnect at once, can not breaking out of fire accident.

It should be noted that; the overvoltage protection of the utility model embodiment may be used for performing the over-voltage protection method that the utility model embodiment provides, and the overvoltage protection that the over-voltage protection method of the utility model embodiment also can be provided by the utility model embodiment performs.

The overvoltage protection of the utility model embodiment may be used for surge protection and lightning strike protection; during specific works; when circuit to be protected is subject to induced lightening or other forms of voltage transient attacks; as shown in Figure 5; holding at L end and N of overvoltage protection has voltage generation; when voltage reaches trigger gate in limited time, trigger voltage at this moment approximates greatly solid discharging tube 11 and the total setting trigger voltage of piezo-resistance 21, and solid discharging tube 11 can will begin in a minute conducting.The scope of voltage and precision depend on the range values of solid discharging tube 11 and piezo-resistance 21, are generally less than 5%.The response time of solid discharging tube 11 is us level, can be faster than piezo-resistance 21 a lot, is generally greater than 1000 times.On-load voltage after solid discharging tube 11 conducting on overvoltage protection can fall at once, thus makes surge voltage complete first step bleed off; Surge voltage remaining afterwards is all loaded in piezo-resistance 21; now piezo-resistance 21 starts at once; form voltage being become electric current is released ground; and maintain the clamp voltage of setting; the body self-heating cooking of piezo-resistance 21; ensure that voltage is not less than the operating voltage of circuit to be protected, prevent treating protective circuit and cause damage.Now, solid discharging tube 11, piezo-resistance 21 and fuse 31 bear very large surge current simultaneously, and the size of bearing surge current depends on the power designs of overvoltage protection entirety.The voltage of L end and N end is suppressed in the scope volume of design, and the size of clamp voltage depends on the numerical value of the clamp voltage of piezo-resistance 21, at random can set according to the voltage of piezo-resistance 21.If the now too large or too high setting numerical value exceeding overvoltage protection of surge current of surge voltage, at this moment breaking device 3 i.e. fuse will fuse, and is opened by overvoltage protection from Circuit Interrupt to be protected, prevents that pyrotechnics produces, guarantees safety.Now L holds the resistance between N end or becomes infinitely great.

Fig. 9 is the V/I curve chart according to the optional overvoltage protection course of work of the utility model embodiment.

As shown in Figure 9, curve V _rfor the rated operational voltage of product, V _bRfor starting resistor, voltage when definition electric current is 1mA is usually starting resistor, and has certain scope.V _cfor clamp voltage, the voltage that normally given through-current capacity is corresponding, such as 8KA.Vmax is maximum voltage, numerical value when through-current capacity is now limit damage.Because V _bRjointly determined by solid discharging tube 11 and piezo-resistance 21.Clamp voltage V _cscope can define arbitrarily, even can be less than V _bR, the overvoltage protection of the utility model embodiment can ensure that the residual voltage of rear stage circuit can not be too high.And under the effect of solid discharging tube 11, the reaction time very fast.AC power, DC power supply, holding wire can be widely used in and have interior lines radio TV signals receiving etc.

The overvoltage protection of the utility model embodiment is according to different rated operational voltages and clamp voltage; as shown in table 1; the solid discharging tube 11 of different rated operational voltage and piezo-resistance 21 can be adopted to combine, and the overvoltage protection after combination can meet larger through-current capacity needs and minimum clamp voltage needs.

Table 1:

It should be noted that, for aforesaid each embodiment of the method, in order to simple description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the utility model is not by the restriction of described sequence of movement, because according to the utility model, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in specification all belongs to preferred embodiment, and involved action and module might not be that the utility model is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiments.

In several embodiments that the application provides, should be understood that, disclosed device, the mode by other realizes.Such as, device embodiment described above is only schematic, the such as division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical or other form.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Claims (9)

1. an overvoltage protection, is characterized in that, comprising:

Switching type voltage protection device, when the on-load voltage on described overvoltage protection is greater than or equal to the first predeterminated voltage, carries out bleed off first to described on-load voltage;

Clamper type voltage protection device, is connected with described switching type voltage protection device, for carrying out secondary bleed off to the residual voltage of described on-load voltage after bleed off first;

Breaking device, be connected with described clamper type voltage protection device, for described on-load voltage is carried out first bleed off time or secondary bleed off is carried out to described residual voltage time, surge voltage is greater than the second predeterminated voltage or surge current when being greater than the first predetermined current, automatically disconnects;

Wherein, described surge voltage is the crest voltage that described switching type voltage protection device or described clamper type voltage protection device open moment;

Described surge current is the peak current that described switching type voltage protection device or described clamper type voltage protection device open moment.

2. overvoltage protection according to claim 1, is characterized in that,

Described switching type voltage protection device comprises: solid discharging tube;

Described clamper type voltage protection device comprises: piezo-resistance, and wherein, described piezo-resistance is connected with described solid discharging tube;

Described breaking device comprises: fuse, and wherein, described fuse is connected with described piezo-resistance.

3. overvoltage protection according to claim 2, is characterized in that, described solid discharging tube comprises:

Semiconductor transistor elements, wherein, described semiconductor transistor elements comprises two NPN type PN junctions;

First electrode, wherein, described first electrode comprises a L pole and a N pole, and a described L pole and a described N pole are separately positioned on described semiconductor transistor elements two ends.

4. overvoltage protection according to claim 3, is characterized in that,

A described L pole and a described N extremely on be respectively arranged with Copper Foil.

5. overvoltage protection according to claim 4, is characterized in that, described piezo-resistance comprises:

Basic material, wherein, described basic material comprises zinc oxide ceramics;

Second electrode, wherein, described second electrode comprises the 2nd L pole and the 2nd N pole, and described 2nd L pole and described 2nd N pole are separately positioned on described basic material two ends.

6. overvoltage protection according to claim 5, is characterized in that,

Described 2nd L pole and described 2nd N extremely go up respectively and are provided with silver coating or tin coating.

7. overvoltage protection according to claim 6, is characterized in that,

One N pole of described solid discharging tube is connected with the 2nd L pole of described piezo-resistance; 2nd N pole of described piezo-resistance is connected with wherein one end of described fuse, and a L pole of described solid discharging tube is connected with circuit to be protected respectively with the other end of described fuse.

8. overvoltage protection according to claim 1, is characterized in that, also comprises:

Whether supervisory circuit, is connected with described breaking device, disconnect for monitoring described breaking device, and sends information when described breaking device disconnects to control centre.

9. overvoltage protection according to claim 8, is characterized in that, described supervisory circuit comprises:

Over-voltage monitoring unit, is greater than or equal to number of times and the numerical value of described first predeterminated voltage for monitoring the voltage be loaded on described overvoltage protection.