CN205507603U - Circuit breaker electric operating mechanism's energy -saving control circuit - Google Patents
Circuit breaker electric operating mechanism's energy -saving control circuit Download PDFInfo
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- CN205507603U CN205507603U CN201620253085.9U CN201620253085U CN205507603U CN 205507603 U CN205507603 U CN 205507603U CN 201620253085 U CN201620253085 U CN 201620253085U CN 205507603 U CN205507603 U CN 205507603U
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- mos pipe
- control circuit
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Abstract
The utility model relates to a circuit breaker circuit, circuit breaker electric operating mechanism's energy -saving control circuit specifically says so. It includes the ON -OFF control circuit of rectifier circuit, switching power supply module and control switching power supply module break -make. Rectifier circuit's input links to each other with the circuit breaker, and the input that rectifier circuit's output passes through ON -OFF control circuit and switching power supply module links to each other, and switching power supply module's output termination has output control circuit. ON -OFF control circuit includes a controlling element, the 2nd controlling element and the 3rd controlling element, and a controlling element and the 2nd controlling element are the MOS pipe. Its characteristics are the 3rd controlling element is logic chip, and the expense accuse end that logic chip is used for controlling with the circuit breaker links to each other, and logic chip links to each other with rectifier circuit's output through low -power consumption voltage stabilizing circuit. ON -OFF control circuit power connection control end. When using this circuit control circuit breaker break -make, the electric current that self consumes is less.
Description
Technical field
This utility model relates to a kind of breaker circuit, the specifically energy-saving control circuit of electric operating mechanism of circuit-breaker.
Background technology
Both knowing about in electric utility, the single-phase/three-phase expense control intelligent electric meter that market uses have employed external chopper in a large number to control power on/off.Adopting and control in this way, the power supply of external chopper is connected on electric energy meter rear end, and the body of external chopper also can be as a part for load, and its power consumption also can include electric energy metrical in.If the control circuit power consumption of designed external chopper is excessive, it may appear that electric energy during electric energy meter idle condition adds up, affects electricity and calculate, produce electricity consumption dispute.
In order to solve the problems referred to above, Chinese Patent Application No. is 2015202161597 power digital circuits disclosing a kind of electric operating mechanism of circuit-breaker, and this power digital circuit mainly includes rectification circuit, switch power module, the on-off circuit of control switch power module break-make and controls the control circuit that on-off circuit starts.One end of described rectification circuit is connected with chopper, and another is connected with switch power module by on-off circuit, and the outfan of switch power module is connected to output control circuit.Described on-off circuit includes two metal-oxide-semiconductors being used as to control element, and described control circuit is triode circuit, and triode circuit is connected with on-off circuit.This power digital circuit utilizes triode circuit to control two metal-oxide-semiconductors in on-off circuit as control circuit, realizing a metal-oxide-semiconductor conducting makes switch power module turn on, the conducting of another metal-oxide-semiconductor then makes switch power module be not turned on, thus reduces chopper standby consumption when not carrying out divide-shut brake.But, this power digital circuit is when chopper is made without divide-shut brake, and circuit is in holding state, still can produce higher current loss (about 0.16 ~ 0.20mA).
Utility model content
The technical problems to be solved in the utility model is to provide the energy-saving control circuit of a kind of electric operating mechanism of circuit-breaker, and when using this circuit to control chopper break-make, the electric current of autophage is less.
For solving the problems referred to above, raising techniques below scheme:
The energy-saving control circuit of a kind of electric operating mechanism of circuit-breaker of the present utility model includes rectification circuit, switch power module and the ON-OFF control circuit of control switch power module break-make.The input of described rectification circuit is connected with chopper, and the outfan of rectification circuit is connected with the input of switch power module by ON-OFF control circuit, and the outfan of switch power module is connected to output control circuit.Described ON-OFF control circuit includes that the first control element, the second control element and the 3rd control element, and the first control element and second controls element and is metal-oxide-semiconductor.Being characterized in that described 3rd control element is logic chip, logic chip is connected for the expense control end controlled with chopper, and logic chip is connected with the outfan of rectification circuit by low-power consumption mu balanced circuit.Described ON-OFF control circuit connects power control terminal.
Wherein, described rectification circuit includes rectifier bridge, and the input of rectifier bridge includes zero line input port and live wire input port, and the outfan of rectifier bridge includes cathode output end mouth and cathode output end mouth, the cathode output end mouth ground connection of rectifier bridge.
Described low-power consumption mu balanced circuit includes the first stabilivolt, the first electric capacity and the first resistance.One end of described first resistance is connected with the output head anode of described rectifier bridge by the first varistor, and the other end of the first resistance passes through the first stabilivolt and the first capacity earth respectively, and this of the first resistance is terminated with the first power supply.
Described logic chip is same or gate logic device, and same or gate logic device has the first pin, the second pin, the 3rd pin, the 4th pin and the 5th pin.Described same or gate logic device the first pin passes through the second resistance and the second capacity earth respectively, and same or gate logic device the first pin is connected for the expense control end controlled with chopper after passing sequentially through the 3rd resistance and the first diode.Described same or gate logic device the second pin passes through the 4th resistance and the 3rd capacity earth respectively, and same or gate logic device the second pin is connected for the expense control end controlled with chopper after passing sequentially through the 5th resistance and the second diode;Described with or the 3rd pin ground connection of gate logic device.Described same or gate logic device the 4th pin controls element with described first and the second control element is connected;Described same or gate logic device the 5th pin is connected with described first power supply.
Described first control element is the first N-channel MOS pipe, and described second control element is the second N-channel MOS pipe, and the first N-channel MOS pipe and the second N-channel MOS pipe are three foot N-channel MOS pipes.The 6th resistance and the 7th resistance have been sequentially connected in series it between the grid of described first N-channel MOS pipe and drain electrode, the grid of the first N-channel MOS pipe is connected by the drain electrode of described 6th resistance and the second N-channel MOS pipe, the 8th resistance is had between the drain electrode of the first N-channel MOS pipe and the grid of the second N-channel MOS pipe, the drain electrode of the first N-channel MOS pipe is connected with the output head anode of rectifier bridge by described first varistor, the source electrode of the first N-channel MOS pipe is connected with the input anode of described switch power module, it is in series with the 3rd stabilivolt between the drain electrode of described first N-channel MOS pipe and source electrode.The grid of described second N-channel MOS pipe is respectively by the second stabilivolt and the first polarized capacity earth, and first polarized electric capacity positive pole and the second N-channel MOS pipe grid be connected, the grid of described second N-channel MOS pipe is connected by same with described or gate logic device the 4th pin of the 3rd diode, the grid of described second N-channel MOS pipe is connected with power control terminal by the 4th diode, the source ground of described second N-channel MOS pipe.
Described output control circuit includes voltage stabilizing IC, this voltage stabilizing IC contains input pin, output pin and grounding leg, the input pin of voltage stabilizing IC passes through the 4th capacity earth, the input pin of voltage stabilizing IC is connected with the positive pole of described switch power module outfan, the output pin of voltage stabilizing IC passes through the 5th capacity earth, and the output pin of voltage stabilizing IC is connected to second source, the grounding leg ground connection of voltage stabilizing IC.
The input cathode of described switch power module and the equal ground connection of negative pole of output end, the input anode of switch power module is by the second polarized capacity earth, and the positive pole of the second polarized electric capacity is connected with the input of switch power module.
In such scheme, between the zero line input port of described rectifier bridge and live wire input port, it is in series with the second varistor.
Take above scheme, have the advantage that
Owing to the 3rd control element of the energy-saving control circuit of electric operating mechanism of circuit-breaker of the present utility model is logic chip, logic chip is connected for the expense control end controlled with chopper, logic chip is connected with the outfan of rectification circuit by low-power consumption mu balanced circuit, and ON-OFF control circuit connects power control terminal.The expense control end that this energy-saving control circuit is controlled with chopper by logic chip is connected, thus is controlled the conducting situation of switch power module by the level change of expense control end.When the level of expense control end does not changes, logic chip and switch power module are all in Disconnected mode, so that the electric current of autophage greatly reduces (about 0.05 ~ 0.1mA).
Accompanying drawing explanation
Fig. 1 is the structure principle chart of the energy-saving control circuit of electric operating mechanism of circuit-breaker of the present utility model.
Detailed description of the invention
Below in conjunction with accompanying drawing, this utility model is described in further detail.
As it is shown in figure 1, the energy-saving control circuit of a kind of electric operating mechanism of circuit-breaker of the present utility model includes rectification circuit, switch power module and the ON-OFF control circuit of control switch power module break-make.The input of described rectification circuit is connected with chopper, and the outfan of rectification circuit is connected with the input of switch power module by ON-OFF control circuit, and the outfan of switch power module is connected to output control circuit.Described ON-OFF control circuit includes that the first control element, the second control element and the 3rd control element, and the first control element and second controls element and is metal-oxide-semiconductor.Being characterized in that described 3rd control element is logic chip, logic chip is connected for the expense control end controlled with chopper, and logic chip is connected with the outfan of rectification circuit by low-power consumption mu balanced circuit.Described ON-OFF control circuit connects power control terminal.
Described rectification circuit includes that rectifier bridge B1, the input of rectifier bridge B1 include zero line input port N and live wire input port L, and the outfan of rectifier bridge B1 includes cathode output end mouth and cathode output end mouth, the cathode output end mouth ground connection of rectifier bridge B1.
Described low-power consumption mu balanced circuit includes the first stabilivolt D11, the first electric capacity C1 and the first resistance R1.One end of described first resistance R1 is connected by the output head anode of the first varistor RV1 and described rectifier bridge B1, the other end of the first resistance R1 is respectively by the first stabilivolt D11 and the first electric capacity C1 ground connection, and this of the first resistance R1 is terminated with the first power supply VCC1.
Described logic chip is same or gate logic device U5, and same or gate logic device U5 has the first pin the 1, second pin the 2, the 3rd pin the 3, the 4th pin 4 and the 5th pin 5.Described same or gate logic device U5 the first pin 1 passes through the second resistance R2 and the second electric capacity C2 ground connection respectively, and same or gate logic device U5 the first pin 1 is connected for the expense control end controlled with chopper after passing sequentially through the 3rd resistance R3 and the first diode D1.Described same or gate logic device U5 the second pin 2 passes through the 4th resistance R4 and the 3rd electric capacity C3 ground connection respectively, and same or gate logic device U5 the second pin 2 is connected for the expense control end controlled with chopper after passing sequentially through the 5th resistance R5 and the second diode D2;Described with or the 3rd pin 3 ground connection of gate logic device U5.Described same or gate logic device U5 the 4th pin 4 controls element with described first and the second control element is connected;Described same or gate logic device U5 the 5th pin 5 is connected with described first power supply VCC1.
Described first control element is the first N-channel MOS pipe Q1, and described second control element is the second N-channel MOS pipe Q2, and the first N-channel MOS pipe Q1 and the second N-channel MOS pipe Q2 is three foot N-channel MOS pipes.It has been sequentially connected in series the 6th resistance R6 and the 7th resistance R7 between the grid g1 and drain electrode d1 of described first N-channel MOS pipe Q1, the grid g1 of the first N-channel MOS pipe Q1 is connected by the drain electrode d2 of described 6th resistance R6 and the second N-channel MOS pipe Q2, the 8th resistance R8 is had between the grid g2 of the drain electrode d1 and the second N-channel MOS pipe Q2 of the first N-channel MOS pipe Q1, the drain electrode d1 of the first N-channel MOS pipe Q1 is connected by the output head anode of described first varistor RV1 and rectifier bridge B1, the source electrode s1 of the first N-channel MOS pipe Q1 is connected with the input anode of described switch power module, it is in series with the 3rd stabilivolt D13 between the drain electrode d1 and source electrode s1 of described first N-channel MOS pipe Q1.The grid g2 of described second N-channel MOS pipe Q2 is respectively by the second stabilivolt D12 and the first polarized electric capacity C11 ground connection, and first polarized electric capacity C11 positive pole and the second N-channel MOS pipe Q2 grid g2 be connected, the grid g2 of described second N-channel MOS pipe Q2 is connected by same with described or gate logic device U5 the 4th pin 4 of the 3rd diode D3, the grid g2 of described second N-channel MOS pipe Q2 is connected with power control terminal by the 4th diode D4, the source electrode s2 ground connection of described second N-channel MOS pipe Q2.
Described output control circuit includes voltage stabilizing ICU1, this voltage stabilizing ICU1 contains input pin, output pin and grounding leg, the input pin of voltage stabilizing ICU1 passes through the 4th electric capacity C4 ground connection, the input pin of voltage stabilizing ICU1 is connected with the positive pole of described switch power module outfan, the output pin of voltage stabilizing ICU1 passes through the 5th electric capacity C5 ground connection, and the output pin of voltage stabilizing ICU1 is connected to the grounding leg ground connection of second source VCC2, voltage stabilizing ICU1.
The input cathode of described switch power module and the equal ground connection of negative pole of output end, the input anode of switch power module is by the second polarized electric capacity C12 ground connection, and the positive pole of the second polarized electric capacity C12 is connected with the input of switch power module.
It is in series with the second varistor RV2 between the zero line input port N and live wire input port L of described rectifier bridge B1.
During use, by with or first pin 1 of gate logic device U5 pass sequentially through the 3rd resistance R3 and the first diode D1 after the expense control end that controlled with chopper be connected, by together or second pin 2 of gate logic device U5 pass sequentially through the 5th resistance R5 and the second diode D2 after the expense control end that controlled with chopper be connected.When taking the level change of control end, realize the second N-channel MOS pipe Q2 be not turned on by same or gate logic device U5, the first N-channel MOS pipe Q1 conducting, so that switch power module conducting.When the level of expense control end does not changes, realize the second N-channel MOS pipe Q2 by power control terminal to turn on, first N-channel MOS pipe Q1 is not turned on, make being not turned on of switch power module, now, same or gate logic device U5 is also at off-state, thus decreases the current drain of circuit self, has reached energy-conservation purpose.
Claims (8)
1. an energy-saving control circuit for electric operating mechanism of circuit-breaker, including rectification circuit, switch power module and the ON-OFF control circuit of control switch power module break-make;The input of described rectification circuit is connected with chopper, and the outfan of rectification circuit is connected with the input of switch power module by ON-OFF control circuit, and the outfan of switch power module is connected to output control circuit;Described ON-OFF control circuit includes that the first control element, the second control element and the 3rd control element, and the first control element and second controls element and is metal-oxide-semiconductor;It is characterized in that described 3rd control element is logic chip, logic chip is connected for the expense control end controlled with chopper, and logic chip is connected with the outfan of rectification circuit by low-power consumption mu balanced circuit;Described ON-OFF control circuit connects power control terminal.
2. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 1, it is characterized in that described rectification circuit includes rectifier bridge (B1), the input of rectifier bridge (B1) includes zero line input port (N) and live wire input port (L), the outfan of rectifier bridge (B1) includes cathode output end mouth and cathode output end mouth, the cathode output end mouth ground connection of rectifier bridge (B1).
3. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 2, it is characterised in that described low-power consumption mu balanced circuit includes the first stabilivolt (D11), the first electric capacity (C1) and the first resistance (R1);One end of described first resistance (R1) is connected with the output head anode of described rectifier bridge (B1) by the first varistor (RV1), the other end of the first resistance (R1) is respectively by the first stabilivolt (D11) and the first electric capacity (C1) ground connection, and this of the first resistance (R1) is terminated with the first power supply (VCC1).
4. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 3, it is characterized in that described logic chip is same or gate logic device (U5), same or gate logic device (U5) has the first pin (1), the second pin (2), the 3rd pin (3), the 4th pin (4) and the 5th pin (5);Described same or gate logic device (U5) the first pin (1) passes through the second resistance (R2) and the second electric capacity (C2) ground connection respectively, and same or gate logic device (U5) the first pin (1) passes sequentially through the 3rd resistance (R3) and is connected for the expense control end controlled with chopper with (D1) after the first diode;Described with or second pin (2) of gate logic device (U5) respectively by the 4th resistance (R4) and the 3rd electric capacity (C3) ground connection, with or second pin (2) of gate logic device (U5) pass sequentially through the 5th resistance (R5) with the second diode (D2) afterwards expense control end for being controlled with chopper be connected;Described with or the 3rd pin (3) ground connection of gate logic device (U5);Described same or gate logic device (U5) the 4th pin (4) controls element with described first and the second control element is connected;Described same or gate logic device (U5) the 5th pin (5) is connected with described first power supply (VCC1).
5. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 4, it is characterized in that described first control element is the first N-channel MOS pipe (Q1), described second control element is the second N-channel MOS pipe (Q2), and the first N-channel MOS pipe (Q1) and the second N-channel MOS pipe (Q2) are three foot N-channel MOS pipes;nullThe 6th resistance (R6) and the 7th resistance (R7) have been sequentially connected in series it between the grid (g1) of described first N-channel MOS pipe (Q1) and drain electrode (d1),The grid (g1) of the first N-channel MOS pipe (Q1) is connected with the drain electrode (d2) of the second N-channel MOS pipe (Q2) by described 6th resistance (R6),The 8th resistance (R8) is had between the drain electrode (d1) of the first N-channel MOS pipe (Q1) and the grid (g2) of the second N-channel MOS pipe (Q2),The drain electrode (d1) of the first N-channel MOS pipe (Q1) is connected with the output head anode of rectifier bridge (B1) by described first varistor (RV1),The source electrode (s1) of the first N-channel MOS pipe (Q1) is connected with the input anode of described switch power module,It is in series with the 3rd stabilivolt (D13) between the drain electrode (d1) of described first N-channel MOS pipe (Q1) and source electrode (s1);The grid (g2) of described second N-channel MOS pipe (Q2) is respectively by the second stabilivolt (D12) and the first polarized electric capacity (C11) ground connection, and first polarized electric capacity (C11) positive pole and the second N-channel MOS pipe (Q2) grid (g2) be connected, the grid (g2) of described second N-channel MOS pipe (Q2) is connected by same with described or gate logic device (U5) the 4th pin (4) of the 3rd diode (D3), the grid (g2) of described second N-channel MOS pipe (Q2) is connected with power control terminal by the 4th diode (D4), source electrode (s2) ground connection of described second N-channel MOS pipe (Q2).
6. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 5, it is characterized in that described output control circuit includes voltage stabilizing IC(U1), this voltage stabilizing IC(U1) containing input pin, output pin and grounding leg, voltage stabilizing IC(U1) input pin by the 4th electric capacity (C4) ground connection, voltage stabilizing IC(U1) input pin be connected with the positive pole of described switch power module outfan, voltage stabilizing IC(U1) output pin by the 5th electric capacity (C5) ground connection, voltage stabilizing IC(U1) output pin be connected to second source (VCC2), voltage stabilizing IC(U1) grounding leg ground connection.
7. the energy-saving control circuit of electric operating mechanism of circuit-breaker as claimed in claim 6, it is characterized in that input cathode and the equal ground connection of negative pole of output end of described switch power module, the input anode of switch power module passes through the second polarized electric capacity (C12) ground connection, and the positive pole of the second polarized electric capacity (C12) is connected with the input of switch power module.
8. the energy-saving control circuit of the electric operating mechanism of circuit-breaker as according to any one of claim 2 ~ 7, it is characterised in that be in series with the second varistor (RV2) between the zero line input port (N) of described rectifier bridge (B1) and live wire input port (L).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620253085.9U CN205507603U (en) | 2016-03-30 | 2016-03-30 | Circuit breaker electric operating mechanism's energy -saving control circuit |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620253085.9U CN205507603U (en) | 2016-03-30 | 2016-03-30 | Circuit breaker electric operating mechanism's energy -saving control circuit |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205507603U true CN205507603U (en) | 2016-08-24 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201620253085.9U Withdrawn - After Issue CN205507603U (en) | 2016-03-30 | 2016-03-30 | Circuit breaker electric operating mechanism's energy -saving control circuit |
Country Status (1)
| Country | Link |
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| CN (1) | CN205507603U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105652947A (en) * | 2016-03-30 | 2016-06-08 | 无锡智卓电气有限公司 | Energy-saving control circuit of electric operating mechanism of circuit breaker |
| CN107680843A (en) * | 2017-11-01 | 2018-02-09 | 江阴力源电子有限公司 | A kind of external breaker of electric energy meter |
-
2016
- 2016-03-30 CN CN201620253085.9U patent/CN205507603U/en not_active Withdrawn - After Issue
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105652947A (en) * | 2016-03-30 | 2016-06-08 | 无锡智卓电气有限公司 | Energy-saving control circuit of electric operating mechanism of circuit breaker |
| CN107680843A (en) * | 2017-11-01 | 2018-02-09 | 江阴力源电子有限公司 | A kind of external breaker of electric energy meter |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20160824 Effective date of abandoning: 20180213 |
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| AV01 | Patent right actively abandoned |