DE202004010582U1 - Electronic drive system for computer cooling fan has continuously-operating electronic voltage control circuit connected between mains power source and motor turning fan - Google Patents

Abstract

The cooling fan (40) e.g. for a computer may run on electric current from a mains supply (10) at 110V or 220 V AC. A continuously-operating voltage reduction and control circuit (30) ins connected between the voltage source and the motor driving the fan. The mains supply is also connected to a data network current supply circuit (20).

Description

Field of the Invention

The present invention relates to a driver for a cooling fan and relates in particular to a device for electrical power supply or for power management for a power supply unit or for one or more cooling fans in a computer.

background the invention

A computer usually has a power supply to the output of an external electrical voltage source (voltage source with AC110V or 220V), to rectify their current and transform their voltage and then apply the electrical voltage various electronic devices (e.g. motherboard, hard disk, optical disk etc.) of the computer. Because the electrical voltage conversion Generate heat the power supply or computer is normally provided with a cooling or radiation fan, for the warmth derive and lower the temperature. The electrical supply voltage of the cooling fan also from the mains power supply system of the voltage supply device provided. So when the computer is turned off, that is electrical connection of the voltage supply device with the external power supply interrupted. The mains power supply system is also switched off and the cooling fan is in operation completed. However, if the power supply is within the Computers heat after operation accumulated or reached a high temperature, the temperature can don't fall off immediately. This will damage electronic components after a long one Run the operating interval. Moreover introduces constantly operational (non-stop) power supply system of the main board and the control switches or control circuits nevertheless one electrical voltage to the required operating condition itself then maintain after the AC power system is shut down. This operation also generates heat. Because the computer for usually is located in an almost closed environment and the Where the computer is located is often hidden and locked is, the thermal energy not dissipated become. This affects also other electronic components.

The applicant has in the German Utility model No. 29922234.9 a device for delaying the switched off operating state of a cooling fan proposed to the fix the aforementioned problems so that after shutdown or switching off the power supply of the computer (remote off), that constantly operational voltage supply system the cooling fan an electrical voltage will bring to continue operation and dissipate the heat of the computer.

Summary the invention

To the in conventional power supply devices to solve problems that arise the present invention seeks to provide another technique according to that constantly operational voltage supply system and the cooling fan are electrical are connected or switched in such a way that the voltage supply system is always ready for operation the cooling fan an electrical Provides tension so that it continues even then is operated when the voltage supply device and the external electrical voltage source connected and switched on are.

Another object of the invention consists of an insulating, protective component (diode) between that constantly working power supply system, the mains power supply system and to provide the cooling fan, so (remote-off) that constantly operated voltage supply system the cooling fan an electrical voltage supplies, so that it rotates at low speed. If the power supply is switched on (remote-on), gives the mains power supply system to the cooling fan electrical voltage, so that the cooling fan rotates at high speed can and heat accelerates.

Yet another object of the invention is to provide a control circuit that is essentially for the the following two functions:

• 1. When the power supply is switched off, the temperature setting for the voltage supply device or set higher for the computer than the original setting, that the closed environment is taken into account, so that the Control circuit the electrical voltage output of the constantly working Power supply system increased, so that the cooling fan with a higher speed can be operated to for an increased heat dissipation to care.
• 2. When the mains power supply system is switched off, because the internal temperature of the power supply device is still high, the power supply system outputs a voltage-off signal to the control circuit in order to increase the supply of electrical voltage to the continuously operating power supply system, so that the cooling fan with a higher speed can be operated to dissipate heat faster.

The above and others Objects, features and advantages of the invention will become apparent from the following detailed Description attached to the Drawings refer to, become more apparent:

LIST OF FIGURES

l is a block diagram of a first embodiment of the invention with a cooling fan and a continuously operating power supply system, which are electrically connected.

2 is a block diagram of a second embodiment of the invention with a cooling fan, a continuously operating power supply system and a control circuit which are electrically connected together.

3 is a block diagram of a third embodiment of the invention with a cooling fan, a mains power supply system, a continuously operating voltage supply system and with insulating, protective components which are electrically connected to one another.

4 and 5 are block diagrams of a fourth embodiment according to the invention with a cooling fan, a mains power supply system, a continuously operating voltage supply system, a control circuit and with insulating, protective components which are electrically connected to one another.

Full Description of the preferred embodiments

The 1 shows a first embodiment of the invention with a cooling fan 40 and a constantly working power supply system 30 that are electrically connected to each other. This is designed for a small voltage supply device. The voltage supply device comprises a mains power supply system 20 as well as the constantly working power supply system 30 that are electrically connected to an external electrical voltage or current source 10 are connected. The constantly working power supply system 30 is with the cooling fan 40 connected. Regardless of whether the AC power system 20 is switched on (remote on) or switched off (remote off) when the external electrical voltage source 10 is switched on, there is the constantly working voltage supply system 30 an electrical voltage to the radiator 40 so that it can continue to operate. As a result, it dissipates heat from the computer even when it is in an idle state.

The 2 shows a second embodiment of the invention, in which the cooling fan 40 , the constantly working power supply system 30 and a control circuit 50 are electrically connected to each other. This differs from the first embodiment in that the control circuit 50 between the constantly working power supply system 30 and the cooling fan 40 is provided. The control circuit 50 includes: a temperature detection circuit 51 to detect the ambient temperature within the voltage supply device and to measure the ambient temperature with

• to compare a temperature setting value. If the ambient temperature is higher as the temperature set value, an overheating signal is output. If the ambient temperature is lower than the temperature setting, a low temperature signal is output;
• a controller 52 to the overheating signal or the temperature low signal from the temperature detection circuit 51 to receive and output a driver signal; and
• a fan driver circuit 53 to get the driver signal from the controller 52 to receive and determine whether the electrical voltage from the constantly operating power supply system 30 to the cooling fan 40 to be spent on its operation.

This embodiment aims from the continuously operating power supply system 30 to continuously provide an electrical voltage when the power supply to the computer is switched off (remote off). In the event that the temperature of the computer or the voltage supply device rises and is higher than the temperature setting value, for example because of the closed environment or because of peripheral devices, the temperature detection circuit gives 51 the control circuit 50 an overheating signal to the controller 52 so that it emits a driver signal to the voltage of the fan driver circuit 53 to amplify or increase and the voltage output to the cooling fan 40 increase so that the cooling fan 40 rotates at a higher speed to dissipate heat.

The 3 shows a third embodiment according to the invention, in which the cooling fan 40 , the mains power supply system 20 , the constantly working power supply system 30 and insulating, protective components D1 and D2 are electrically connected to one another. In addition to the electrical connection between the external electrical voltage source 10 and the AC power system 20 and the constantly working power supply system 30 In this embodiment, there is a first insulating, protective component D1 between the mains power supply system 20 and the cooling fan 40 and there is a second insulating protective component D2 between the continuously operating voltage supply system 30 and the cooling fan 40 , If the external electrical voltage source 10 is switched off and the mains power supply system is also switched off (remote off), the isolating, protective components D1 and D2, which in this example are formed by diodes, enable the mains power supply system 20 supplies an operating voltage to the cooling fan. If the AC power system 20 is switched off, there is the constantly working voltage supply system 30 to the cooling fan 40 immediately remove an electrical voltage in order to maintain its continuous operation.

The 4 and 5 show a fourth embodiment according to the invention, in which the cooling fan 40 , the mains power supply system 20 , the constantly working power supply system 30 , the control circuit 50 and insulating, protective components D1, D2 and D3 are electrically connected to one another. This embodiment combines the functions of the previous three embodiments. The cooling fan driver 40 includes:

• the mains power supply system 20 that electrically with the external electrical voltage source 10 is connected to output a first driver signal. This is also connected to a control switch (not shown in the drawings) to turn the mains power system on or off to output the first driver signal;
• the constantly working power supply system 30 that electrically with the external electrical voltage source 10 connected to output a second drive signal;
• the control circuit 50 which the first and the second driver signal from the mains power supply system 20 and the constantly working power supply system 30 receives to output an operation signal.

The control circuit 50 includes:

• a timer circuit 54 to a voltage-off signal from the mains power supply system 20 to receive and output a timing signal; a temperature detection circuit 51 to detect the ambient temperature within the voltage supply device and to measure the ambient temperature with
• to compare a temperature setting value. If the ambient temperature is higher as the temperature set value, an overheating signal is output. If the ambient temperature is lower than the temperature setting, a low temperature signal is output;
• a controller 52 to the timing signal from the timer circuit 54 and the overheating signal and / or the temperature low signal from the temperature detection circuit 51 to receive and output a driver signal; and
• a fan driver circuit 53 order from the controller 52 receive the driver signal and determine the electrical voltage generated by the continuously operating supply system 30 to the cooling fan 40 to be spent on its operation.

If the AC power system 20 is switched off (remote off), then transmits this to the control circuit 50 a voltage-off signal to convert the actuation signal into the second drive signal and causes the external electrical voltage source 10 via the constantly operating voltage supply system 30 to the cooling fan 40 supplies an electrical voltage for its operation. At the same time there is the constantly working voltage supply system 30 , depending on the determination process performed by the temperature detection circuit 51 is executed and at which the ambient temperature is detected, a desired voltage to the speed of the cooling fan 40 to change.

If the power supply system 20 is switched on (remote on), this gives it to the control circuit 50 a voltage on signal to convert the actuation signal into the first drive signal and causes the external electrical voltage source 10 the cooling fan 40 for its operation via the mains power supply system 20 supplies an electrical voltage.

If the AC power system 20 changes from the switched-on operating state to the switched-off operating state (remote off), this is given to the time control circuit 54 a voltage-off signal or this converts the actuation signal into the second driver signal, which is directly referenced to the ambient temperature by the temperature detection circuit 51 is detected, and this causes the external electrical voltage source 10 via the constantly working voltage supply system 30 to the cooling fan 40 outputs an electrical voltage so that it is operated during a time interval by the timing control circuit 54 is specified, or so that it is operated in correspondence with the reaction that results from the detected temperature.

In the fourth embodiment, the insulating, protective components D1, D2 and D3, which are formed by the diodes, are each between the cooling fan 40 and the AC power system 20 , the constantly working power supply system 30 and the control circuit 50 switched or arranged to the input voltage and the speed of the cooling fan 40 to determine.

In summary, the invention relates to a driver for a cooling or radiation fan, which aims to ensure that a constantly operating voltage supply system 30 can output an electrical voltage to a cooling fan 40 to drive, so that it rotates continuously at a low speed in order to dissipate heat even when the voltage supply device is electrically connected to an external electrical voltage source 10 connected is. A control circuit 50 and insulating, protective components D1, D2 and D3 are provided such that when the mains power source of a computer is switched on, the voltage supply device supplies an electrical voltage via the mains power supply system 20 or the control circuit 50 to the cooling fan 40 outputs so that it rotates at a high speed to ensure optimum heat dissipation.

Claims (7)

Driver for a cooling fan with an AC power system ( 20 ) and a constantly working power supply system ( 30 ), which are electrically connected to an external electrical voltage source, and a cooling fan ( 40 ), which with the constantly working power supply system ( 30 ) is connected, whereby the constantly operating voltage supply system ( 30 ) to the cooling fan ( 40 ) emits an electrical voltage so that it is operated continuously when the external electrical voltage source ( 10 ) is switched off. The driver of claim 1, wherein the AC power system ( 20 ) and the constantly working power supply system ( 30 ) each with insulating, protective components (D1, D2) with the cooling fan ( 40 } are connected. Driver according to Claim 1 or 2, in which the continuously operating voltage supply system ( 30 ) and the cooling fan ( 40 ) electrically via a control circuit ( 50 ) are connected. The driver of claim 3, wherein the control circuit ( 50 ) includes: a temperature detection circuit ( 51 ) to detect the ambient temperature within a voltage supply device and to compare the ambient temperature with a temperature setting value, and to output an overheating signal when the ambient temperature is higher than the temperature setting value, and to output a temperature low signal if the temperature is lower than the temperature set value; a controller ( 52 ) to the overheating signal and / or a temperature low signal from the temperature detection circuit ( 51 ) receive and output a driver signal; and a fan driver circuit ( 53 ) from the controller ( 52 ) receive the driver signal and determine an electrical voltage generated by the continuously operating voltage supply system ( 30 ) to the cooling fan ( 40 ) to be spent on its operation Driver according to one of the preceding claims, in which the mains power supply system ( 20 ) and the constantly working power supply system ( 30 ) are electrically connected to each other and each with the cooling fan ( 40 ) via a control circuit ( 50 ) are connected. A driver according to claim 5, wherein the control circuit ( 50 ) includes: a timer circuit ( 54 ) from the mains power supply system ( 20 ) receive a voltage-off signal and output a timing signal; a temperature detection circuit ( 51 ) to detect the ambient temperature within a voltage supply device and to compare the ambient temperature with a temperature setting value, and to output an overheating signal if the ambient temperature is higher than the temperature setting value, and to output a temperature low signal if the Ambient temperature is lower than the temperature setting value; a controller ( 52 ) from the timer circuit ( 54 ) the timing signal to receive and from the temperature detection circuit ( 51 ) receive the overheating signal and / or the temperature low signal and to output a drive signal; and a fan driver circuit ( 53 ) from the controller ( 52 ) receive the driver signal and to determine an electrical voltage generated by the continuously operating voltage supply system ( 30 ) to the cooling fan ( 40 ) to be spent on its operation. Driver according to claim 5 or 6, wherein the mains power supply system ( 20 ), the constantly working power supply system ( 30 ) and the control circuit ( 50 ) each with the cooling fan ( 40 ) are connected via an insulating, protective component (D1, D2, D3).