CN101064429A - Burst current suppressing circuit and power supply equipment using the same - Google Patents
Burst current suppressing circuit and power supply equipment using the same Download PDFInfo
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- CN101064429A CN101064429A CN 200610060516 CN200610060516A CN101064429A CN 101064429 A CN101064429 A CN 101064429A CN 200610060516 CN200610060516 CN 200610060516 CN 200610060516 A CN200610060516 A CN 200610060516A CN 101064429 A CN101064429 A CN 101064429A
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Abstract
A sudden wave current restraining circuit includes transistor, switch and short protection circuit. Thereinto, emitter of the transistor is the input end of the sudden wave current restraining circuit. The switch possesses input terminal, the first output terminal and the second output terminal. Thereinto, the input terminal is connected with the collector of the transistor, and the output terminal is the output terminal of the sudden wave current restraining circuit. The short protection circuit possesses the first terminal, the second terminal and the third terminal, thereinto, the first terminal of the short protection circuit is connected with the first output terminal of the switch, the second terminal is connected with the base pole of the transistor, and the third terminal is connected with the second terminal is connected with the second output terminal. The sudden wave current restraining circuit in the invention possesses function of short protection, at the same time with restraining the sudden wave current, it can protect load to make it work normally.
Description
Technical field
The present invention relates to a kind of burst current suppressing circuit, relate in particular to a kind of burst current suppressing circuit, and use its power supply device with short-circuit protection.
Background technology
Along with development of science and technology, various network device, for example box (Set-top Box) is used more and more widely on ADSL (Asymmetric Digital Subscriber Line) modulator-demodulator (ADSLModem), cable modem (Cable Modem), the teaching machine.These network equipments all need power supply device, are used for that (for example: CONTINENTAL AREA OF CHINA is 220V, and north America region is 110V with the mains supply alternating voltage.) be converted to the direct voltage that is suitable for network equipment work.So, when the initial conducting of power supply device, the capacity effect in the circuit can produce the immediate current that can not expect, i.e. burst current (inrush current).Burst current moment maximum can cause the damage of elements such as fuse, switch, and then reduces the useful life of element, also reduces the stability of network equipment power supply.
Summary of the invention
In view of this, need provide a kind of burst current suppressing circuit, it has short-circuit protection function, also can provide short-circuit protection to load when suppressing burst current, keeps the load operate as normal.
In addition, also need provide a kind of power supply device, it adopts the burst current suppressing circuit with short-circuit protection, and the burst current that not only suppresses in the power supply device to be produced also can provide short-circuit protection to load, improves the stability of network equipment power supply.
A kind of burst current suppressing circuit comprises transistor, switch element and short-circuit protection circuit.Wherein, transistorized emitter is as the input of burst current suppressing circuit.Switch element has input, first output and second output, and wherein, input is connected in transistorized collector electrode, and second output is as the output of burst current suppressing circuit.Short-circuit protection circuit has first end, second end and the 3rd end, and wherein, first end of short-circuit protection circuit is connected in first output of switch element, and its second end is connected in transistorized base stage, and its 3rd end is connected in second output of switch element.
A kind of power supply device, the conversion of signals that is used for receiving is the direct current signal that is suitable for loaded work piece, power supply device comprises transforming circuit, current rectifying and wave filtering circuit and burst current suppressing circuit.Wherein, the transforming circuit conversion of signals that is used for receiving is an AC signal.Current rectifying and wave filtering circuit is connected in transforming circuit, is used for AC signal is converted to direct current signal.Burst current suppressing circuit is connected in current rectifying and wave filtering circuit, is used for suppressing the burst current that power supply device produces, and provides short-circuit protection to load, and burst current suppressing circuit comprises transistor, switch element and short-circuit protection circuit.Wherein, transistorized emitter is as the input of burst current suppressing circuit.Switch element has input, first output and second output, and wherein, input is connected in transistorized collector electrode, and second output is as the output of burst current suppressing circuit.Short-circuit protection circuit has first end, second end and the 3rd end, and wherein, first end of short-circuit protection circuit is connected in first output of switch element, and its second end is connected in transistorized base stage, and its 3rd end is connected in second output of switch element.
Power supply device of the present invention adopts burst current suppressing circuit, suppresses the burst current that produces in the circuit, and provides short-circuit protection to load.
Description of drawings
Fig. 1 is the circuit diagram of power supply device of the present invention.
Fig. 2 is the physical circuit figure of burst current suppressing circuit among Fig. 1 of the present invention.
Embodiment
Figure 1 shows that the circuit diagram of power supply device 1 of the present invention.Power supply device 1 comprises transforming circuit 10, current rectifying and wave filtering circuit 11 and burst current suppressing circuit 12.
Transforming circuit 10 is used for receiving inputted signal V
In, and with input signal V
InBe converted to AC signal V
1In the present embodiment, input signal V
InIt is city's power supply signal.Current rectifying and wave filtering circuit 11 is connected in transforming circuit 10, is used for the AC signal of transforming circuit 10 outputs is converted to direct current signal.Burst current suppressing circuit 12 is connected in current rectifying and wave filtering circuit 11, is used for suppressing the burst current that power supply device 1 is produced, and exports another kind of direct current signal V
OutTo load (not providing among the figure).In the present embodiment, burst current suppressing circuit 12 also has short-circuit protection function, and it also can provide short-circuit protection to load when suppressing burst current, keep the load operate as normal.Wherein, load can be box or the like on non-symmetrical figure local loop modulator-demodulator, cable modem, the teaching machine.
Transforming circuit 10 mainly comprises transformer T, and it comprises first side winding and secondary side winding.First side winding is used to receive the string ripple signal of mains supply as the input of power supply device 1.Secondary side winding is connected in current rectifying and wave filtering circuit 11.In the present embodiment, the coil turn of the secondary side winding of transformer T is less than the coil turn of first side winding.Receive the string ripple signal V of mains supply when first side winding
InThe time, secondary side winding also can be flow through in the magnetic field that circulating current produced, and produces low-voltage ac signal V
1, and export current rectifying and wave filtering circuit 11 to.
Current rectifying and wave filtering circuit 11 comprises filter capacitor C1 and diode D1, D2, D3 and D4.Wherein, the anode of the negative electrode of diode D1 and diode D2 is connected to the high-pressure side of the secondary side winding of transformer T jointly.The negative electrode of the anode of diode D3 and diode D4 is connected to the low-pressure end of the secondary side winding of transformer T jointly.And the negative electrode of diode D2 links to each other with the negative electrode of diode D3, and the anode of diode D1 links to each other with the anode of diode D4.Filter capacitor C1 is connected between the negative electrode of the anode of diode D1 and diode D2.Like this, filter capacitor C1, diode D1, D2, D3 and D4 constitute the bridge full-wave rectifier filter circuit.In the present embodiment, current rectifying and wave filtering circuit 11 is with the low-voltage ac signal V of transforming circuit 10 outputs
1Export burst current suppressing circuit 12 behind the rectifying and wave-filtering to.In other execution mode of the present invention, current rectifying and wave filtering circuit 11 also can be the halfwave rectifier filter circuit.
Figure 2 shows that the physical circuit figure of burst current suppressing circuit 12 of the present invention.Burst current suppressing circuit 12 comprises bias resistance R1, adjustable resistance R, PNP transistor Q and switch element M.Wherein, the emitter of PNP transistor Q is as the input of burst current suppressing circuit 12.Switch element M is that (Metal-Oxide-Semiconductor Field Effect Transistor, MOSFET), it has input, first output and second output to mos field effect transistor.In the present embodiment, the input of MOSFET M is a grid, and its first output is a source electrode, and its second output is drain electrode.
The grid of MOSFET M is connected in the collector electrode of PNP transistor Q, and its drain electrode is as the output of burst current suppressing circuit 12.Adjustable resistance R is connected between the source electrode of transistorized emitter of PNP and MOSFET M, and being used for provides bias voltage to base stage and the emitter of PNP transistor Q.Bias resistance R1 is connected between the grid and ground of MOSFET M, is used for providing bias voltage to MOSFET M.
In the present embodiment, burst current suppressing circuit 12 also comprises short-circuit protection circuit 121, and it comprises delay capacitor C2, the first divider resistance R2 and the second divider resistance R3.And short-circuit protection circuit 121 has first end, second end and the 3rd end.Wherein, first end of short-circuit protection circuit 121 is connected in the source electrode of MOSFET M, and its second end is connected in the transistorized base stage of PNP, and its 3rd end is connected in the drain electrode of MOSFET M.The first divider resistance R2 is connected between first end and second end of short-circuit protection circuit 121, and delay capacitor C2 is connected with the first divider resistance R2 is parallel.The second divider resistance R3 is connected between second end and the 3rd end of short-circuit protection circuit 121, and itself and the first divider resistance R2 constitute bleeder circuit, are used to quicken the conducting of PNP transistor Q.Simultaneously, the second divider resistance R3 and delay capacitor C2 constitute delay circuit, are used for stoping when load is just connected PNP transistor Q conducting, keep the operate as normal of load.
In the present embodiment, filter capacitor C1 is according to formula i (t)=V/R ' * e
-t/R ' C(wherein, R ' is the equivalent resistance of current rectifying and wave filtering circuit 11) is to load discharge.When t=0, promptly filter capacitor C1 carries out the moment of power supply just, i (0)=V/R ' to burst current suppressing circuit 12.At this moment, resistance R ' be the equiva lent impedance of filter capacitor C1, because equiva lent impedance is very little, can ignore.So, current value i (0) infinity that power supply device produces, this transient current i (0) is burst current.
When burst current was flowed through burst current suppressing circuit 12, delay capacitor C2 can regard short circuit as.Simultaneously, adjustable resistance R provides the base stage of bias voltage to PNP transistor Q, for example: during 0.7V, make PNP transistor Q conducting.After PNP transistor Q conducting, the voltage that is carried on the adjustable resistance R continues to increase, and is operated in saturation condition after the PNP transistor Q conducting, makes MOSFET M end, and then avoid the burst current of power supply device 1 to flow into load by adjustable resistance R, MOSFET M, load is caused damage.
When transient current is converted into steady-state current, and the steady-state current voltage that loads on adjustable resistance R is during less than the conducting voltage of PNP transistor Q, and during promptly less than 0.7V, PNP transistor Q ends, MOSFET M conducting.At this moment, steady-state current is powered to load via adjustable resistance R and MOSFET M, keeps the load operate as normal.
In addition, when load inside really was short-circuited, the electric current of the burst current suppressing circuit 12 of flowing through in the power supply device 1 increased, and the dividing potential drop that makes electric current form on the first divider resistance R2 also increases, thereby increase the base bias voltage of PNP transistor Q, quicken the conducting of PNP transistor Q.Therefore, can be operated in the saturation region rapidly after the PNP transistor Q conducting and impel MOSFET M to end, the restriction electric current flows into load.In the present embodiment, the first divider resistance R2 also can be used for protecting PNP transistor Q, avoids super-high-current to flow into PNP transistor Q.
When power supply device 1 was just connected load, the storage capacitor in parallel with load (not being shown among the figure) can be considered short circuit, and the electric current of the burst current suppressing circuit 12 of flowing through in the power supply device 1 also can increase.At this moment, there is pressure drop between the source electrode of MOSFET M and the drain electrode, makes burst current suppressing circuit 12 input currents charge to delay capacitor C2 and storage capacitor simultaneously by adjustable resistance R.In the present embodiment, the charging interval of delay capacitor C2, promptly when the storage capacitor charging was finished, delay capacitor C2 also was in charged state greater than the charging interval of storage capacitor.Because between delay capacitor C2 charge period, the electric current first divider resistance R2 that can not flow through makes that PNP transistor Q can't conducting.Therefore, when power supply device 1 is just connected load to the storage capacitor charging process in, PNP transistor Q ends, the operate as normal of load is still kept in MOSFET M conducting.
Burst current suppressing circuit of the present invention 12 utilizes the resistance value of regulating adjustable resistance R, the conducting of control PNP transistor Q and MOSFET M with end, thereby suppress the burst current of inflow load; Secondly, the bleeder circuit that burst current suppressing circuit 12 of the present invention utilizes the first divider resistance R2 and the second divider resistance R3 to form, when load short circuits, the conducting by acceleration PNP transistor Q is to reach ending rapidly of MOSFET M; Once more, the delay circuit that utilizes the second divider resistance R3 and delay capacitor C2 to constitute is used for stoping PNP transistor Q conducting when load is just connected, keep the operate as normal of load.
Claims (10)
1. burst current suppressing circuit is characterized in that comprising:
Transistor, its emitter is as the input of burst current suppressing circuit;
Switch element has input, first output and second output, and wherein, input is connected in transistorized collector electrode, and second output is as the output of burst current suppressing circuit; And
Short-circuit protection circuit has first end, second end and the 3rd end, and wherein, first end of short-circuit protection circuit is connected in first output of switch element, and its second end is connected in transistorized base stage, and its 3rd end is connected in second output of switch element.
2. burst current suppressing circuit as claimed in claim 1 is characterized in that, described short-circuit protection circuit comprises:
First divider resistance is connected between first end and second end of short-circuit protection circuit; And
Second divider resistance is connected between second end and the 3rd end of short-circuit protection circuit, and itself and first divider resistance constitute bleeder circuit, are used to quicken transistorized conducting.
3. burst current suppressing circuit as claimed in claim 2 is characterized in that described short-circuit protection circuit also comprises delay capacitor, and it is connected with first divider resistance is parallel, and constitutes delay circuit with second divider resistance.
4. burst current suppressing circuit as claimed in claim 1 is characterized in that, also comprises adjustable resistance, is connected between first output of transistorized emitter and switch element, is used for providing bias voltage to transistorized base stage and emitter.
5. burst current suppressing circuit as claimed in claim 1 is characterized in that, also comprises bias resistance, is connected between the input and ground of switch element, is used for providing bias voltage to switch element.
6. power supply device, the conversion of signals that is used for receiving is the direct current signal that is suitable for loaded work piece, it is characterized in that, described power supply device comprises:
Transforming circuit, the conversion of signals that is used for receiving is an AC signal;
Current rectifying and wave filtering circuit is connected in transforming circuit, is used for AC signal is converted to direct current signal; And
As claim 1 to 5 each described burst current suppressing circuit, be connected in current rectifying and wave filtering circuit, be used for suppressing the burst current that power supply device produces, and provide short-circuit protection load.
7. power supply device as claimed in claim 6 is characterized in that described transforming circuit comprises transformer, and it comprises first side winding and secondary side winding.
8. power supply device as claimed in claim 7 is characterized in that, described current rectifying and wave filtering circuit comprises:
First diode;
Second diode, its anode links to each other with the negative electrode of first diode, and is connected to the high-pressure side of Circuit Fault on Secondary Transformer winding jointly;
The 3rd diode, its negative electrode links to each other with the negative electrode of second diode; And
The 4th diode, its negative electrode links to each other with the anode of the 3rd diode, and is connected to the low-pressure end of Circuit Fault on Secondary Transformer winding jointly, and its anode links to each other with the anode of first diode.
9. power supply device as claimed in claim 8 is characterized in that, described filter capacitor is connected between the negative electrode of the anode of first diode and second diode.
10. power supply device as claimed in claim 6 is characterized in that, described current rectifying and wave filtering circuit is full-wave rectifier filter circuit or halfwave rectifier filter circuit.
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CNB2006100605160A CN100561816C (en) | 2006-04-28 | 2006-04-28 | Burst current suppressing circuit and use its power supply device |
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CNB2006100605160A CN100561816C (en) | 2006-04-28 | 2006-04-28 | Burst current suppressing circuit and use its power supply device |
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CN101064429A true CN101064429A (en) | 2007-10-31 |
CN100561816C CN100561816C (en) | 2009-11-18 |
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Cited By (6)
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CN104199360A (en) * | 2014-09-02 | 2014-12-10 | 东莞立德精密工业有限公司 | Transmission circuit used for Ethernet |
CN104218559A (en) * | 2013-11-11 | 2014-12-17 | 深圳市安信技术有限公司 | Linear variable-resistance closure module and protector with linear variable-resistance closure function |
CN104518775A (en) * | 2013-09-26 | 2015-04-15 | 原景科技股份有限公司 | Output Stage with Short-Circuit Protection |
CN107765576A (en) * | 2016-08-19 | 2018-03-06 | 智瑞佳(苏州)半导体科技有限公司 | A kind of power conversion chip |
CN108336900A (en) * | 2017-12-21 | 2018-07-27 | 四川莱福德科技有限公司 | A kind of short-circuit protection circuit and power supply circuit |
CN112865051A (en) * | 2019-11-27 | 2021-05-28 | 创发科技通讯(香港)有限公司 | On-chip surge protection circuit |
Family Cites Families (4)
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TW265482B (en) * | 1994-06-01 | 1995-12-11 | Siemens Akitengesellschaft | |
US5539820A (en) * | 1994-10-06 | 1996-07-23 | Northern Telecom Limited | Protection of active telephone line interface circuits |
US6226162B1 (en) * | 1999-06-02 | 2001-05-01 | Eaton Corporation | Surge suppression network responsive to the rate of change of power disturbances |
CN100372202C (en) * | 2002-01-08 | 2008-02-27 | 台达电子工业股份有限公司 | Circuit for restraining surge current |
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2006
- 2006-04-28 CN CNB2006100605160A patent/CN100561816C/en not_active Expired - Fee Related
Cited By (9)
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CN104518775A (en) * | 2013-09-26 | 2015-04-15 | 原景科技股份有限公司 | Output Stage with Short-Circuit Protection |
CN104518775B (en) * | 2013-09-26 | 2018-01-02 | 原景科技股份有限公司 | Output stage with anti-short-circuit function |
CN104218559A (en) * | 2013-11-11 | 2014-12-17 | 深圳市安信技术有限公司 | Linear variable-resistance closure module and protector with linear variable-resistance closure function |
CN104218559B (en) * | 2013-11-11 | 2017-03-22 | 深圳市安信技术有限公司 | Linear variable-resistance closure module and protector with linear variable-resistance closure function |
CN104199360A (en) * | 2014-09-02 | 2014-12-10 | 东莞立德精密工业有限公司 | Transmission circuit used for Ethernet |
CN107765576A (en) * | 2016-08-19 | 2018-03-06 | 智瑞佳(苏州)半导体科技有限公司 | A kind of power conversion chip |
CN108336900A (en) * | 2017-12-21 | 2018-07-27 | 四川莱福德科技有限公司 | A kind of short-circuit protection circuit and power supply circuit |
CN112865051A (en) * | 2019-11-27 | 2021-05-28 | 创发科技通讯(香港)有限公司 | On-chip surge protection circuit |
CN112865051B (en) * | 2019-11-27 | 2024-02-06 | 达发科技(香港)有限公司 | On-chip surge protection circuit |
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Granted publication date: 20091118 Termination date: 20100428 |