CN1321499C - Circuit system for heat adjustment in fan module - Google Patents

Abstract

The present invention discloses a heat adjusting circuit system in a fan module, which mainly comprises a soft start circuit module, wherein when an application system enters the fan module through hot insertion, the soft start circuit module is in charge of the power supply start of the fan module; the soft start circuit module is provided with a capacitor and field effect transistor, the capacitor releases electronic charge when the input voltage of the soft start circuit module switches to zero from a non-zero value, and the field effect transistor is switched off when the input voltage of the soft start circuit module switches to zero from a non-zero value.

Description

The heat transposing Circuits System of blower module

Technical field

The present invention is mainly the Circuits System about a kind of blower module, especially changes (hot swap) Circuits System about the heat of a kind of blower module (fan tray module).

Background technology

In the moment of a blower module hot plug (hot plugging) being gone into an application system (applicationsystem) and starting fan module, application system can be because its power supply side bears load suddenly and produces voltge surge (voltage spike) and inrush current (inrush current) and cause spark.These voltge surges and inrush current Chang Rongyi allow overvoltage protection (overvoltage protection) device and overcurrent protection (the over current protection) error action of device of system power supply feeder ear do, and then cause application system to shut down.

Take place for fear of the problems referred to above; usually can allow blower module carry a heat transposing circuit; the starting that makes the blower module hot plug go into after the application system is a soft start (soft start), to suppress voltge surge and the inrush current that blower module starting moment is produced in application system inside.

As shown in Figure 1, known heat commonly used transposing circuit 1 is to remove to drive a n channel metal-oxide field-effect transistor as transistor switch (Metal-OxideSemiconductor Field Effect Transistor with an analog controller IC 11; MOSFET) 12, carry out the soft start of blower module 16, wherein Zener diode (Zener Diode) 13 as an overvoltage protection and resistor group 14 as an overcurrent protective device.

Yet such way but has following shortcoming: the first, the design cost height of analog controller IC 11, cost an arm and a leg; The second, the power voltage supply scope of analog controller IC 11 is big inadequately, and its negative value maximum has only 0.3 volt, allows blower module 16 suffer instantaneous negative voltage (negative voltage) infringement in the moment of hot plug (hot-plugging) easily; Three, analog controller IC 11 is not good for the driving force of transistor switch 12; And the 4th, heat transposing circuit 1 on the circuit application of the big electric current of blower module and big voltage, very limited for the inhibition effect of voltge surge and inrush current.

In addition; heat transposing circuit 1 lacks suitable discharge path (discharge loop); make that partly inrush current can be accumulated in the heat transposing circuit 1; and then under the frequent situation of blower module 16 hot plugs, the inrush current amount of being accumulated can trigger the current protective device of application system (not shown) and cause the shutdown of whole application system (not shown).For example, application system causes tripping operation back, when restoring electricity rapidly, often because the electric charges in the capacitor group 15 of heat transposing circuit 1 do not discharge to finish, and causes inrush current excessive and make system-down at the Nature lightning that thunders.

Summary of the invention

Because the problem of the heat of above-mentioned conventional blower module transposing circuit, the present invention proposes a kind of heat transposing Circuits System of blower module, change the cost of manufacture of Circuits System with the heat that reduces blower module, and allow this system be able under the environment of big electric current and big voltage, operate.

In addition, the present invention proposes a kind of heat transposing Circuits System of blower module in addition, changes the stability of Circuits System and application system thereof with the heat that promotes blower module.

Implement the heat transposing Circuits System of the blower module of sample attitude according to the present invention one, mainly comprise a soft starting circuit module, when it goes into an application system in the blower module hot plug, be responsible for the power supply starting of blower module.This soft starting circuit module has a capacitor and a field-effect transistor, capacitor discharges electric charge when the input voltage of soft starting circuit module switches to zero by nonzero value, and field-effect transistor turn-offs when the input voltage of soft starting circuit module switches to zero by nonzero value.

In one preferred embodiment, the heat of blower module of the present invention transposing Circuits System also comprises a discharge circuit module except comprising above-mentioned soft starting circuit module.The discharge circuit module is in parallel with the capacitor of soft starting circuit module, and it has a n channel mosfet at least.When the input voltage of soft starting circuit module switches to zero by nonzero value; the n channel mosfet will be switched on; and allow the interior inrush current of capacitor that is accumulated in the soft starting circuit module be released to ground rapidly; avoiding under the frequent situation of blower module hot plug, unexpected large current load causes application system to shut down.

In addition, the heat of blower module of the present invention transposing Circuits System more can comprise an excess voltage protection module or a circuit overcurrent protection module or both again.

According to above-mentioned technology contents, the heat of blower module of the present invention transposing Circuits System can also be applied on the line construction of high and low input voltage except the line construction with low design cost simultaneously.Moreover the present invention can effectively suppress spark, voltge surge and the inrush current that blower module was produced in hot plug moment, and against adding overcurrent protection and overvoltage protection, can make not reason supply voltage or electric current unusual and burning of blower module.

Description of drawings

Fig. 1 is a schematic diagram, represents the configuration of the heat transposing circuit of a conventional blower module.

Fig. 2 is a schematic diagram, represents the basic circuit configuration of the heat transposing Circuits System of blower module of the present invention.

Fig. 3 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of expression a preferred embodiment of the present invention.

Fig. 4 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of expression one embodiment of the invention.

Fig. 5 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of expression one embodiment of the invention.

Fig. 6 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of another preferred embodiment of expression the present invention.

Fig. 7 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of another preferred embodiment of expression the present invention.

Fig. 8 is a schematic diagram, the circuit arrangement of the heat transposing Circuits System of the blower module of expression most preferred embodiment of the present invention.

The element numbers explanation

1: heat transposing circuit

11: analog controller IC

12:n channel metal-oxide field-effect transistor

13: Zener diode

14: the resistor group

15: the capacitor group

16: blower module

20: the soft starting circuit module

201-205: resistor

206-208: diode

209: Zener diode

210: bipolar transistor

The 211:p channel mosfet

212-213: capacitor

214: voltage input end

215: voltage output end

200: blower module

30: the discharge circuit module

301-304: resistor

305: Zener diode

306: bipolar transistor

The 307:n channel mosfet

40: overvoltage circuit protection module

401-404: resistor

405: Zener diode

406-407: capacitor

408: operational amplifier

409: silicon controlled rectifier

410: voltage input end

50: overcurrent protective device

501-503: resistor

504: detect resistor

505: Zener diode

506-507: bipolar transistor

508: resistor

Embodiment

See also Fig. 2, the present invention proposes a kind of heat transposing Circuits System of blower module 200, for example is the soft starting circuit module 20 that p channel hole type MOSFET 211, capacitor 212-213 etc. are active, passive block constituted by comprising one by resistor 201-205, diode 206-209, bipolar transistor 210, field-effect transistor.

When this soft starting circuit module 20 is gone into an application system (not shown) in the blower module hot plug, by the input voltage V of a voltage input end 214 receptions from a voltage source _In, and voltage is provided to blower module 200 and soft start (soft start) blower module by voltage output end 215.In addition, diode 206-209 is responsible for unidirectional guide current, and resistor 201 and 202 constitutes a bleeder circuit, the end emitter that the base stage of bipolar transistor 210 is electrically connected to resistor 202 then with the other end common ground of resistor 202.In addition, diode 209 is a Zener diode (Zener Diode), and it is in parallel with capacitor 212.

As input voltage V _InWhen switching to zero by nonzero value, field-effect transistor 211 can switch to off state (OFF) from conducting state (ON), and capacitor 212 and capacitor 213 can discharge stored electric charge.In other words, the charge-discharge characteristic of the RC circuit active by utilizing, that passive block constituted can be at input voltage V _InWhen switching to zero, voltge surge and inrush current are suppressed to minimum by nonzero value, and avoided effectively blower module 200 moment of starting because of spark that load effect caused.Especially, in this heat transposing Circuits System, because of having exempted the use of analog controller IC, and reduced design cost and solved the use controller IC of heat transposing circuit 1 commonly used and the problem brought.

In addition, because the present invention also can be applicable on the circuit of big voltage and big electric current, therefore on the inhibition effect of voltge surge and inrush current, good performance is arranged.

Again; as shown in Figure 4; in another embodiment of the present invention, the soft starting circuit module 20 of heat transposing Circuits System also can be connected in parallel with an excess voltage protection module 40 and form, and causes whole heat transposing Circuits System and blower module 200 to burn with the overvoltage of avoiding application system.

At this, excess voltage protection module 40 is in parallel with the capacitor 213 of soft starting circuit module 20, and it has resistor 401-404, Zener diode 405, capacitor 406 and 407, operational amplifier 408, silicon controlled rectifier (Silicon Control Rectifier; SCR) 409.The positive power source terminal of operational amplifier 408 is by a voltage input end 410 and a voltage source V _CCBe electrically connected, the negative power end ground connection of operational amplifier 408, the output of operational amplifier 408 is electrically connected to the control utmost point of resistor 404 and silicon controlled rectifier 409, the in-phase input end of operational amplifier 408 is electrically connected to an end of capacitor 406, and the reverse input end of operational amplifier 408 is electrically connected to an end of capacitor 407.In addition, the other end of capacitor 406 and 407 other end common ground.

Excess voltage protection module 40 triggers silicon controlled rectifier 409 with the output end voltage of computing operational amplifier 408; and the characteristic of utilizing silicon controlled rectifier 409 provides the mechanism of overvoltage protection, thereby can effectively avoid blower module 200 to burn because of the electric voltage exception of voltage input end 214.

Perhaps; as shown in Figure 5; in another embodiment of the present invention, the soft starting circuit module 20 of heat transposing Circuits System also can be electrically connected with a circuit overcurrent protection module 50 and form, and causes heat transposing Circuits System and blower module 200 to burn with the overcurrent of avoiding application system.

At this; circuit overcurrent protection module 50 is in parallel with the capacitor 213 of soft starting circuit module 20; it has resistor 501-503, detect resistor (Rsense, least unit is mOHm) 504, Zener diode 505, bipolar transistor 506 and 507 and capacitor 508.The two ends of detecting resistor 504 are electrically connected to the emitter of voltage output end 215 and bipolar transistor 507 respectively, and capacitor 508 is in parallel with Zener diode 505, and the grounded emitter of bipolar transistor 506.

In circuit overcurrent protection module 50; transistor 507 is driven by the magnitude of voltage that detects resistor 504; and the magnitude of current that detects resistor 504 of flowing through is used to as a reference value, and transistor 507 will be turn-offed (OFF) rapidly when this reference value is excessive, continue to pass through to prevent big electric current.

On the other hand, as shown in Figure 3, in a preferred embodiment of the present invention,, added a discharge circuit module 30 that is electrically connected with soft starting circuit module 20 in the heat transposing Circuits System of the present invention in order to solve the problem that heat transposing circuit 1 commonly used lacks suitable discharge path.In detail, discharge circuit module 30 is in parallel with capacitor 213, and it has resistor 301-304, Zener diode 305, bipolar transistor 306, field-effect transistor for example is n channel mosfet 307.

Input voltage V when voltage input end 214 _InWhen nonzero value switches to zero; n channel mosfet 307 will be switched on; and allow the capacitor 213 interior inrush currents that are accumulated in the soft starting circuit module 20 be released to ground rapidly; avoiding under the frequent situation of blower module 200 hot plugs, unexpected large current load causes application system to shut down.

As shown in Figure 6, can be electrically connected with excess voltage protection module 40 based on the soft starting circuit module 20 of the preferred embodiment of Fig. 3 and discharge circuit module 30 and become another preferred embodiment of the present invention again.Perhaps, as shown in Figure 7, soft starting circuit module 20 and discharge circuit module 30 can be electrically connected with circuit overcurrent protection module 50 and become another preferred embodiment of the present invention.

In addition, as shown in Figure 8, can be electrically connected with circuit overcurrent protection module 50 based on soft starting circuit module 20, discharge circuit module 30 and the excess voltage protection module 40 of the preferred embodiment of Fig. 6 and become most preferred embodiment of the present invention.

In other words, the heat of blower module of the present invention transposing Circuits System comprises a soft starting circuit module 20 at least, and the preferable discharge circuit module 30 that comprises.Further; the heat of blower module of the present invention transposing Circuits System can comprise excess voltage protection module 40 or circuit overcurrent protection module 50 again or comprise voltage protection circuit module 40 simultaneously and circuit overcurrent protection module 50 both, make the heat transposing Circuits System of whole blower module 200 also not suffer the overvoltage of application system or overcurrent and damage.

The invention has the advantages that: the first, simply to reach design cost low for circuit basic structure; The second, can be applied in the line construction of high voltage and low-voltage input simultaneously; Three, can effectively suppress spark, voltge surge and the inrush current that blower module was produced in hot plug moment; Four, can add overcurrent protection and overvoltage protection, in order to do fan reason supply voltage or electric current unusual and burning not.

To sum up, the present invention encyclopaedizes according to the above embodiments.Yet, those skilled in the art will appreciate that, all embodiment of the present invention only are exemplary at this but not are restricted, that is, under the situation that does not break away from connotation of the present invention and scope, other variation example of the heat of above-described blower module transposing Circuits System and correction example are the present invention and contain.Therefore, the present invention is limited by the claim that is proposed.

Claims (15)

1. the heat of a blower module is changed Circuits System, comprises:

One soft starting circuit module, it has a voltage input end, receives an input voltage, and this soft start module comprises:

At least one diode is in order to unidirectional guide current;

One first bipolar transistor, its grounded emitter;

One first field-effect transistor turn-offs when this input voltage switches to zero by nonzero value; And

One first capacitor, the one end is electrically connected with the drain electrode of this first field-effect transistor, its other end ground connection, discharge when this input voltage switches to zero by nonzero value;

One second capacitor is electrically connected with this first field-effect transistor, discharge when this input voltage switches to zero by nonzero value;

One first Zener diode, in parallel with this second capacitor;

One discharge circuit module, it is in parallel with this first capacitor, the discharge charge of this first capacitor this discharge circuit module of flowing through;

One excess voltage protection module, it is in parallel with this first capacitor; And

One circuit overcurrent protection module, it is in parallel with this first capacitor, and has a voltage output end that is electrically connected to this blower module.

2. the heat of a blower module is changed Circuits System, comprises:

One soft starting circuit module, have one first capacitor and one first field-effect transistor, this first capacitor discharges electric charge when an input voltage of this soft starting circuit module switches to zero by nonzero value, this first field-effect transistor turn-offs when this input voltage of this soft starting circuit module switches to zero by nonzero value;

Wherein, when this soft starting circuit module is gone into an application system in this blower module hot plug, be responsible for the power supply starting of this blower module.

3. the heat of blower module as claimed in claim 2 is changed Circuits System, and wherein this soft starting circuit module also comprises:

At least one diode is in order to unidirectional guide current;

At least one resistor is in order to form a bleeder circuit, an end ground connection of this resistor;

One bipolar transistor, its base stage is electrically connected to the other end of this resistor, its grounded emitter; And

One second capacitor is electrically connected with this first field-effect transistor, discharges electric charge when this input voltage of this soft starting circuit module switches to zero by nonzero value.

4. the heat of blower module as claimed in claim 2 is changed Circuits System, and wherein this soft starting circuit module also comprises:

At least one diode is in order to unidirectional guide current;

One bipolar transistor, its grounded emitter; And

One second capacitor is electrically connected with this first field-effect transistor, discharges electric charge when this input voltage of this soft starting circuit module switches to zero by nonzero value.

5. the heat of blower module as claimed in claim 2 is changed Circuits System, also comprises:

One discharge circuit module, in parallel with this first capacitor, the release electric charge of this first capacitor arrives ground rapidly via this discharge circuit module, and this discharge circuit module comprises one second field-effect transistor, conducting when this second field-effect transistor switches to zero at this input voltage of this soft starting circuit module by nonzero value, wherein this second field-effect transistor is in parallel with this first capacitor.

6. the heat of blower module as claimed in claim 5 is changed Circuits System, and wherein this first field-effect transistor is a p channel hole type metal oxide semiconductor field-effect transistor, and this second field-effect transistor is a n channel hole type MOSFET.

7. the heat of blower module as claimed in claim 5 is changed Circuits System, also comprises:

One excess voltage protection module, in parallel with this first capacitor, have an operational amplifier and a silicon controlled rectifier at least, this silicon controlled rectifier is driven by the output end voltage of this operational amplifier.

8. the heat of blower module as claimed in claim 5 is changed Circuits System, also comprises:

One circuit overcurrent protection module, in parallel with this first capacitor, have one at least and detect resistor.

9. the heat of blower module as claimed in claim 2 is changed Circuits System, also comprises:

One excess voltage protection module, in parallel with this first capacitor, have an operational amplifier and a silicon controlled rectifier at least, this silicon controlled rectifier is driven by the output end voltage of this operational amplifier.

10. the heat of blower module as claimed in claim 2 is changed Circuits System, also comprises:

One circuit overcurrent protection module, in parallel with this first capacitor, have one at least and detect resistor.

11. the heat of blower module transposing Circuits System comprises:

One voltage input end receives an input voltage from a voltage source;

At least one diode is in order to unidirectional guide current;

One bipolar transistor, its grounded emitter;

One first field-effect transistor turn-offs when this input voltage switches to zero by nonzero value;

One second field-effect transistor, conducting when this input voltage switches to zero by nonzero value;

One first capacitor, the one end is electrically connected with the drain electrode of this first field-effect transistor, its other end ground connection, discharge when this input voltage switches to zero by nonzero value, wherein this second field-effect transistor is in parallel with this first capacitor;

One second capacitor is electrically connected with this first field-effect transistor, discharge when this input voltage switches to zero by nonzero value; And

One voltage output end is electrically connected to this blower module.

12. the heat of blower module as claimed in claim 11 transposing Circuits System also comprises an excess voltage protection module, it is in parallel with this first capacitor.

13. the heat of blower module as claimed in claim 12 transposing Circuits System, wherein this excess voltage protection module comprises an operational amplifier and a silicon controlled rectifier at least, and this silicon controlled rectifier is driven by the output end voltage of this operational amplifier.

14. the heat transposing Circuits System as claim 11 or 12 described blower modules also comprises a circuit overcurrent protection module, it is in parallel with this first capacitor.

15. the heat of blower module as claimed in claim 14 transposing Circuits System, wherein this circuit overcurrent protection module comprises a detection resistor at least.

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