JP2007185090A - Fan system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fan system which starts the system at a relatively low rotating speed when the fan system is started or restarted. <P>SOLUTION: The fan system includes at least one fan and a controller which controls the fan receiving a starting voltage and an alarm signal. The controller includes a starting control unit and a driving unit, and the driving unit is electrically connected to the starting control unit and the fan, respectively. When the starting control unit receives the starting voltage; a starting control signal is generated, and transmission is suspended after a lapse of predetermined time. When the starting voltage and the alarm signal are received; the starting control signal is generated, and the driving unit receives the starting control signal to control the rotating speed of the fan. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a fan system, and more particularly to a fan system that starts at a low rotational speed.

In general, an electronic equipment system is provided with a fan system, which dissipates heat.
Further, the fan system includes a control device and at least one fan, and the electronic equipment system cooperates with the actual operation status of the electronic equipment system by controlling the rotational speed of the fan by the control device. Adjust the fan system fan speed.
For example, when the fan system is used for an external system and the usage rate of the processor of the external system is high, the amount of heat generated is also high.
At this time, the external system performs necessary heat dissipation by increasing the rotational speed of the fan via the control device.
On the other hand, when the processor is not in use, the fan's rotational speed is reduced, and energy and power saving effects are exhibited.

This will be described with reference to FIG.
This is a diagram showing a state in which the control device 10 of the conventional fan system and the external system 1 work together.
The control device 10 includes a rotation speed control unit 11 and a drive unit 12.
The drive unit 12 is a drive chip. The rotation speed control unit 11 has a power supply terminal and a signal input terminal.
This power supply terminal is connected to an external voltage source V to be a power source. Further, at the signal input terminal, the external system 1 receives the target rotational speed control signal 101 and generates the rotational speed control signal 102 by the target rotational speed control signal 101.
The drive unit 12 controls the rotational speed of the fan 13 by a rotational speed control signal 102.

However, as soon as the control device 10 is activated, the rotational speed control signal 102 cannot be sent, so the fan 13 is operated at the highest rotational speed, and a situation occurs in which the starting current becomes too large.
Further, after the failure of the fan 13 (for example, when a foreign object is caught on the fan 13) is resolved, it is impossible to immediately send out the rotational speed control signal 102 when the control device is restarted.
Therefore, since the fan 13 recovers the start-up delay, the fan 13 is operated at the maximum rotation speed immediately after the start-up, and the start-up current becomes too large.
In the two types of situations described above, both of them are a waste of energy for the customer's system, and there is a problem that the temperature is further increased due to the fan operating at a high speed.

  Therefore, an object of the present invention is to provide a fan system that is activated at a relatively low rotational speed when the fan system is activated or restarted.

In order to solve the above problem, a fan system according to the present invention includes at least one fan and a control device that receives the start voltage and an alarm signal to control the fan.
The control device includes an activation control unit and a drive unit.
The drive unit is electrically connected to the start control unit and the fan, respectively.
When the start control unit receives the start voltage, the start control unit generates a start control signal, and after a predetermined time has elapsed, the transmission of the start control signal is stopped.
When receiving the start voltage and the alarm signal, the start control unit generates a start control signal, and the drive unit receives the start control signal and simultaneously controls the rotational speed of the fan by this signal.

The fan system of the present invention is characterized in that it is started at a relatively low rotational speed by controlling when the fan is started or restarted by the start control unit.
Therefore, when compared with the prior art, the fan system of the present invention solves the problem that the starting current becomes too large, damages the element of the fan, or the temperature increases due to too high a rotational speed. Can be avoided.

  The fan system of the present invention is controlled by the start control unit when the fan starts or restarts, thereby solving the problem that the start-up current becomes too large by starting at a relatively low rotational speed. It is possible to prevent the element from being damaged or the temperature from rising due to the excessively high rotational speed.

  Hereinafter, preferred embodiments of the fan system of the present invention will be described with reference to the drawings.

First, a fan system according to a preferred embodiment of the present invention will be described with reference to FIG.
The fan system control device 20 of the present invention can be used in combination with the external system 2.
Furthermore, the fan system has at least one fan 3.
The control device 20 receives a start voltage 91 and an alarm signal 92.
Among these, the start voltage 91 is provided by an external voltage source V, and operates immediately when the control device 20 receives the start voltage 91.
The control device 20 includes a start control unit 21, a drive unit 22, and a rotation speed control unit 23.

Upon receiving the start voltage 91, the start control unit 21 generates a start control signal 93.
The activation control signal 93 in this embodiment is a high potential signal.
Then, after a predetermined time has elapsed, the activation control unit 21 stops transmitting the activation control signal 93.
When receiving the start voltage 91 and the alarm signal 92, the start control unit 21 generates a start control signal 93 and sends it to the drive unit 22.

The drive unit 22 is electrically connected to the activation control unit 21 and the fan 3, respectively, and controls the rotational speed of the fan 3 by the activation control signal 93.
In this embodiment, the drive unit 22 has a signal input terminal _Vth and a half-speed signal input terminal RMI.
This signal terminal V _th is electrically connected to the activation control unit 21 to receive the activation control signal 93, and further controls the rotational speed of the fan 3 by the activation control signal 93.

The rotational speed control unit 23 receives the start voltage 91, further generates a rotational speed control signal 95 and / or a half speed control signal 96 based on the start voltage 91 and the target rotational speed control signal 94, and sends them to the drive unit 22. .
Among these, the target rotation speed control signal 94 is a pulse width modulation (PWM) signal provided from the external system 2.
Further, the rotation speed control unit 23 sends a half speed control signal 96 to the half speed signal input terminal RMI of the drive unit 22 so that the drive unit 22 controls the rotation speed of the fan 3 by this half speed control signal 96 ( For example, a half-speed control signal 96 that determines the minimum rotation speed of the fan 3 is sent.)

The drive unit 22 in this embodiment is a drive chip.
In general, the voltage levels of the start control signal 93 and the rotation speed control signal 95 are inversely proportional to the rotation speed of the fan 3.
That is, the lower the voltage of the start control signal 93 and the rotation speed control signal 95, the higher the rotation speed of the fan 3.
Conversely, the higher the voltage of the start control signal 93 and the rotation speed control signal 95, the slower the rotation speed of the fan 3 becomes. That is, it means that the starting current of the fan 3 is small.
Further, when the voltage received by the signal input terminal _Vth is larger than the minimum rotational speed voltage according to the standard of the driving chip, the driving chip controls so that the fan 3 is operated at the minimum rotational speed.

When the external system 2 and the control device 20 are activated according to the necessity of heat dissipation when the control device 20 controls the rotation speed of the fan 3, the external system 2 is initialized first and the target The rotation speed control signal 94 may not be sent.
At this time, the start control unit 21 generates a start control signal 93 to control the rotation speed of the fan 3, thereby operating the fan 3 at a low speed or a minimum speed, thereby increasing the start current of the fan 3. Avoid becoming too much.
Furthermore, when a predetermined time has elapsed, the activation control unit 21 stops transmitting the activation control signal 93.
When the initialization of the external system 2 is completed, the target rotational speed control signal 94 is generated to control the rotational speed of the fan 3.
When the rotation of the fan 3 is abnormal, the control device 20 receives an alarm signal 92.
For example, when a foreign object is caught on the fan 3 and cannot be operated, the activation control unit 21 generates an activation control signal 93 to control the fan 3 and operate at a relatively low speed.
When the abnormality is resolved and the fan 3 is restarted, the control device 20 generates the start control signal 93 to prevent the start-up current of the fan 3 from becoming too large and damaging the elements of the fan 3.

With reference to FIG. 3, the circuit of the control device of the fan system according to the preferred embodiment of the present invention will be described.
The activation control unit 21 has a plurality of switches Q ₁ and Q ₂ , a plurality of resistors R _{1 to} R _4, and a capacitor C ₁ .
Among these, the switches Q ₁ and Q ₂ in this embodiment are transistors or other electronic elements having a switching function.

The source S of the switch Q ₁ is electrically connected to a voltage source V, it receives a start voltage 91.
One end of the resistor R ₁ is electrically connected to the source S of the switch Q _1, one end of the capacitor C ₁ is electrically connected to the other end of the resistor R _1, The other end of the capacitor C ₁ is grounded Has been.

One end of the resistor R ₂ is electrically connected to the drain D of the switch Q ₁ , and the other end of the resistor R ₂ is electrically connected to the signal input terminal V _th of the drive unit 22.
One end of the resistor R ₃ is electrically connected to the end of the capacitor C _1, The other end of the resistor R ₃ is grounded.
Base B of the switch Q ₂ is received an alarm signal 92, further collector C of the switch Q ₂ is electrically connected to the gate G of the switch Q _1, the emitter E of the switch Q ₂ is grounded.
Further, in this embodiment, one end of the resistor R ₄ is electrically connected to the end of the capacitor C _1, The other end of the resistor R ₄ is electrically connected to the collector C of the switch Q ₂ it is, the collector C and the gate G of the switch to Q ₁ switch Q ₂ via the resistor R ₄ are electrically connected.

The rotational speed control unit 23 includes a switch Q ₃ , a plurality of resistors R _{5 to} R _9, and a capacitor C ₂ .
Among them, switch Q ₃ in this embodiment is an electronic device having a transistor or other switch functions.

One end of the resistor R ₅ is electrically connected to a voltage source V, it receives a start voltage 91.
Collector C of the switch Q ₃ are electrically connected to the other end of the resistor R _5, the base B of the switch Q ₃ receives the target rotation speed control signal 94, the emitter E of the switch Q ₃ are grounded.
One end of the resistor R ₆ is electrically connected to the base B of the switch Q ₃ , and the other end of the resistor R ₆ is electrically connected to this end of the resistor R ₅ .

One end of the resistor R ₇ is electrically connected to the collector C of the switch Q ₃ , and one end of the capacitor C ₂ is electrically connected to the other end of the resistor R ₇ .
The end of the capacitor C ₂ is electrically connected to the drive unit 22 and sends out a rotational speed control signal 95.

The operation method of the control device 20 is as follows.
When the external system 2 and the control device 20 are activated at the same time, the external system 2 is initialized, the target rotational speed control signal 94 cannot be sent, and the control device 20 cannot receive the alarm signal 92.
At this time, the gate G and the source S of the switch Q ₁ is, by receiving the input of the start voltage 91, thereby energizing the switch Q _1.
Furthermore, since the switches Q ₂ and Q ₃ are not energized at the same time, the activation control signal 93 is sent to the drive unit 22.
At this time, the voltage value of the start control signal 93 is substantially the voltage value of the start voltage 91. If the voltage value of the start voltage 91 is the minimum rotation speed voltage, the fan 3 is operated at the minimum rotation speed. It will be.

Further, when the control device 20 is activated, charging of the capacitor C ₁ is started, and when a predetermined time elapses and the voltage difference between the capacitor C ₁ and the voltage source V reaches a specific voltage difference, the switch Q ₁ Is not energized, the transmission of the activation control signal 93 is stopped.
Among them, when a predetermined time is the charging time of the capacitor C _1, by selecting the capacity of the capacitor C ₁ in accordance with the actual need to determine the length of the predetermined time.

At this time, if the external system 2 has completed initialization, the target rotational speed control signal 94 can be provided.
At this time, the switch _{Q 3} are energized, the switch _Q 1, _{Q 2} is not energized.
For this reason, the rotational speed control unit 23 generates a rotational speed control signal 95 in response to the target rotational speed control signal 94 and sends it to the drive unit 22, so that the drive unit 22 rotates the fan 3 in accordance with the rotational speed control signal 95. Control the speed.

When the control device 20 activates the fan 3 by the activation control unit 21, it is avoided that the activation current becomes too large by operating at the minimum rotational speed.
The rotational speed control unit 23 has two resistors R ₈ and R ₉ , and one end of the resistor R ₈ is electrically connected to the end of the resistor R ₅ .
Resistor and the other end of the R ₈ are electrically connected to one end of the resistor R _9, by forming a voltage divider circuit, half speed signal input terminal RMI of the drive unit 22 provides half speed control signal 96 Sent to.

When the fan 3 has an abnormality, the control device 20 receives the alarm signal 9.
At this time, the switch _{Q 2} is energized, energizing the switch _{Q 1.}
For this reason, the start control signal 93 is sent to the drive unit 22 and the fan 3 is operated at the minimum rotational speed, thereby avoiding the start current of the fan 3 from becoming too large.
After the abnormality is eliminated, transmission of the alarm signal 92 to the control device 20 is stopped and restarted.
At this time, the switch Q ₁ is energized and the switches Q ₂ and Q ₃ are not energized, so that the activation control signal 93 is sent to the drive unit 22 and the fan 3 is operated at the minimum rotational speed. It avoids becoming too large.
Further, when the control device 20 is separated from an external voltage source V, the charge remaining in the capacitor C ₁ is discharged through the resistor R ₃ is reset (reset), the error when it is started next time Avoid it.

  Further, another circuit diagram of the control device for the fan system according to the preferred embodiment of the present invention will be described with reference to FIG.

Different points of control device and the control device 20 in FIG. 3 of this embodiment is that the start control unit 21 has a resistor R _10.
One end of which is electrically connected to the other end of the resistor R _1, further the other end is electrically connected to the capacitor C _1.

である。
このうち、Ｖは電圧源の電圧値であり、本実施例においては、抵抗器Ｒ_１及び抵抗器Ｒ_１０の比率を調整できるため、Ｖ_ｇｓは例えば−３Ｖのような比較的大きな電圧差となる。 When the control device 20 is activated, the voltage difference V _gs between the gate G and the source S of the switch Q ₁ is approximately

It is.
Among, V is the voltage value of the voltage source, in the present embodiment, it is possible to adjust the ratio of resistors R ₁ and a resistor R _10, V _gs is a relatively large voltage difference, such as, for example, -3V Become.

With reference to FIG. 5, the characteristic diagram of the switch Q _1.
When capacitor C ₁ is charged, V _gs gradually increases (shown in the figure as an example from -6V to -1V), allowing the current I _d (shown in FIG. 4) of switch Q ₁ to pass. By descending at a slow speed (as shown in the figure, -5I to 0I are taken as an example), the current of the drive unit 22 is passed and controlled.
Then, since the voltage of the signal input terminal _Vth of the drive unit 22 slowly decreases, the drive unit 22 slowly increases the rotational speed of the fan 3 by the voltage of the signal input terminal _Vth and performs soft start (soft- start) effect (shown in FIG. 6).

The fan system according to the present invention includes at least one fan and one control device.
Since the fan system and the control device have the same configuration and functions as the fan 3 and the control device 20 described above, description thereof is omitted here.

  As described above, the fan system of the present invention has a problem that the starting current becomes too large by starting at a relatively low rotational speed by controlling when the fan is started or restarted by the start control unit. It is characterized by avoiding damage to a fan element or an increase in temperature due to an excessively high rotational speed.

  As described above, the embodiments of the present invention have been described in detail with reference to the drawings. However, the specific configuration is not limited to these embodiments, and there are design changes and the like without departing from the gist of the present invention. However, it is included in the present invention.

It is the figure which showed a mode that the control apparatus of the conventional fan system and an external system work in cooperation. It is a figure which shows the control apparatus in the fan system of the preferable Example of this invention. FIG. 3 is a circuit diagram of a control device in a fan system according to a preferred embodiment of the present invention. It is another circuit diagram of the control apparatus in the fan system of a preferred embodiment of the present invention. It is a characteristic curve figure of a switch of a control device in a fan system of a preferred example of the present invention. It is a figure which shows the rotational speed of the fan of FIG.

Explanation of symbols

1, 2 External system 10, 20 Control device 11, 23 Rotational speed control unit 12, 22 Drive unit 101, 94 Target rotational speed control signal 102, 95 Rotational speed control signal 13, 3 Fan 21 Start control unit 91 Start voltage 92 Alarm signal 93 activation control signal 96 half speed control signal _Q 1 to Q ₃ switches _R 1 _{to R 10} resistors _C 1, _{C 2} capacitors B base C collector E emitter G gate S source D drain V voltage source _{V th} signal input terminal I _d Current RMI Half-speed signal input terminal

Claims (14)

With at least one fan,
A control device for controlling the fan in response to a start voltage and an alarm signal;
The control device has an activation control unit and a drive unit,
The drive unit is electrically connected to the activation control unit and the fan, respectively.
When the activation control unit receives a start voltage, the activation control unit generates an activation control signal, and after a predetermined time has elapsed, transmission of the activation control signal is stopped,
When receiving the start voltage and the alarm signal, the start control unit generates the start control signal, and the drive unit controls the rotation speed of the fan according to the start control signal. The activation control unit includes a first switch and a second switch,
When receiving the start voltage, the first switch is energized, the second switch is not energized,
The fan system according to claim 1, wherein the first switch and the second switch are energized when receiving the start voltage and the alarm signal. The activation control unit is
A first switch for receiving the start voltage;
A first resistor having one end electrically connected to the first switch;
A first capacitor having one end electrically connected to the other end of the first resistor and the other end grounded;
A second resistor having one end electrically connected to the first switch and the other end electrically connected to the drive unit;
A third resistor having one end electrically connected to the end of the first capacitor and the other end grounded;
The fan system according to claim 1, further comprising a second switch that receives the alarm signal and is electrically connected to the first switch. 4. The fan system according to claim 3, wherein each of the first switch and the second switch is a transistor. The source of the first switch receives the start voltage,
The gate of the first switch is electrically connected to the other end of the first resistor;
The fan system according to claim 4, wherein the drain of the first switch is electrically connected to the end of the second resistor. The base of the second switch receives the alarm signal;
The collector of the second switch is electrically connected to the gate of the first switch;
5. The fan system according to claim 4, wherein the emitter of the second switch is grounded. The activation control unit comprises a fourth resistor;
One end of which is electrically connected to the end of the first capacitor;
The fan system according to claim 3, wherein the other end is electrically connected to the second switch. The activation control unit comprises a tenth resistor;
One end thereof is electrically connected to the first resistor,
The fan system according to claim 3, wherein the other end is electrically connected to the first capacitor. The control device includes a rotation speed control unit,
2. The fan system according to claim 1, wherein the fan system receives the start voltage and further sends a rotational speed control signal and a half-speed control signal generated by the start voltage to the drive unit. The fan system according to claim 9, wherein the rotational speed control unit sends the generated rotational speed control signal to the driving unit according to the start voltage and a target rotational speed control signal. The rotational speed control unit is
A fifth resistor whose one end receives the start voltage;
A third switch electrically connected to the other end of the fifth resistor;
A sixth resistor whose one end is electrically connected to the third switch;
A seventh resistor whose one end is electrically connected to the third switch;
10. The fan system according to claim 9, further comprising: a second capacitor that has one end electrically connected to the other end of the seventh resistor and further sends the rotation speed control signal. The rotational speed control unit comprises an eighth resistor and a ninth resistor;
One end of the eighth resistor is electrically connected to the end of the fifth resistor;
The other end of the eighth resistor is electrically connected to one end of the ninth resistor;
The fan system according to claim 11, further comprising the half-speed control signal. The fan system according to claim 1, wherein a value of the start voltage is larger than a minimum rotation speed voltage of the drive unit. The fan system according to claim 1, wherein the driving unit is a driving chip, and the driving chip further provides the alarm signal.

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