KR101837983B1 - Method for controlling brushless direct current fan motor - Google Patents

Abstract

In the present invention, when an abnormality of the BLDC fan motor is detected through the discrimination of the feedback signal outputted when the BLDC fan motor is driven in the intercooled system using the BLDC (Brushless Direct Current) fan motor, once the abnormality of the BLDC fan motor is detected, The method comprising the steps of: applying an initial set voltage value to a BLDC fan motor; Adjusting a voltage value applied to the BLDC fan motor according to a feedback signal fed back when driving the BLDC fan motor, and storing the adjusted voltage value; Determining whether the BLDC fan motor is abnormal through the feedback signal; Detecting a change in internal temperature when it is determined that the BLDC fan motor is abnormal; And controlling abnormality of the BLDC fan motor or controlling the BLDC fan motor with the stored voltage value according to the detection result of the internal temperature change.

Description

TECHNICAL FIELD [0001] The present invention relates to a BLDC fan motor control method,

The present invention relates to a BLDC fan motor control method, and more particularly, to a BLDC fan motor control method in which, when an abnormality of a BLDC fan motor is detected through discrimination of a feedback signal outputted when a BLDC fan motor is driven in an indirect cooling system using a brushless direct current The present invention relates to a BLDC fan motor control method capable of optimally controlling a BLDC fan motor by judging a failure of the BLDC fan motor through a change in internal temperature.

In general, a brushless direct current (BLDC) motor is a motor that removes mechanical contacts such as brushes and commutators from a DC motor and electrically changes them.

Since there is no mechanical contact, the BLDC fan motor can prevent high speed, suppressed noise generation, and brush wear.

Since the BLDC fan motor control device is commutated through the inverter circuit using the switching device, the position information of the rotor is required during rectification.

The three-phase BLDC fan motor controller utilizes the back-EMF voltage of one phase, ie, the induction motor voltage, to obtain position information. That is, the three-phase BLDC fan motor control apparatus can calculate the rotation speed of the rotor according to the magnitude of the induction voltage of any phase, and can determine the position of the rotor with respect to time based on the calculated rotation speed have.

When the position of the rotor is determined, the phase change point can be calculated and the rotor of the three-phase BLDC fan motor can be rotated by switching the phase to the calculated phase change point.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 1999-0081167 (published on November 15, 1999, entitled " Overheat Judgment and Operation Method of Brethresh DC Motor ").

In the present invention, when an abnormality of the BLDC fan motor is detected through the discrimination of the feedback signal outputted when the BLDC fan motor is driven in the intercooled system using the BLDC (Brushless Direct Current) fan motor, once the abnormality of the BLDC fan motor is detected, The present invention provides a BLDC fan motor control method capable of optimally controlling a BLDC fan motor.

A method of controlling a BLDC fan motor according to the present invention includes: applying an initial set voltage value to a BLDC (Brushless Direct Current) fan motor; Adjusting a voltage value applied to the BLDC fan motor according to a feedback signal fed back when driving the BLDC fan motor, and storing the adjusted voltage value; Determining whether the BLDC fan motor is abnormal through the feedback signal; Detecting a change in internal temperature when it is determined that the BLDC fan motor is abnormal; And controlling abnormality of the BLDC fan motor or controlling the BLDC fan motor with the stored voltage value according to the detection result of the internal temperature change.

In the present invention, the step of controlling the BLDC fan motor determines that the BLDC fan motor has failed when the internal temperature rises as a result of the detection of the internal temperature change, and performs the abnormality generation control of the BLDC fan motor do.

In the present invention, the step of controlling the BLDC fan motor determines that the BLDC fan motor is normal when the internal temperature falls, and controls the BLDC fan motor with the stored voltage value. do.

As described above, according to the present invention, when the BLDC fan motor abnormality is detected through the discrimination of the feedback signal outputted at the time of driving the BLDC fan motor in the indirect cooling system using the BLDC fan motor, The BLDC fan motor can be controlled optimally by judging the failure.

FIG. 1 is a diagram for explaining a configuration of a BLDC fan motor control apparatus according to an embodiment of the present invention. Referring to FIG.
2 is a flowchart illustrating a method of controlling a BLDC fan motor according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to Examples. These embodiments are only for illustrating the present invention, and the scope of rights of the present invention is not limited by these embodiments.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a view for explaining a configuration of a BLDC fan motor control apparatus according to an embodiment of the present invention, and FIG. 2 is a flowchart for explaining a BLDC fan motor control method according to an embodiment of the present invention.

1 and 2, the BLDC fan motor control apparatus includes a controller 1, a BLDC fan motor 2, and the like.

The controller 1 applies the Vdc voltage to the BLDC fan motor 2 to drive the BLDC fan motor 2. [

When the BLDC fan motor 2 is driven, the RPM currently operating is output as a pulse signal to the FG terminal. The controller 1 receives the signal and receives the RPM of the BLDC fan motor 2 currently operating, And controls the RPM of the BLDC fan motor 2 by adjusting the Vdc voltage.

In this way, the controller 1 receives the signal output from the FG terminal of the BLDC fan motor 2 and controls the BLDC fan motor 2 by adjusting the voltage Vdc through the feedback signal, , It is determined that the BLDC fan motor is abnormal and the BLDC fan motor 2 abnormality occurrence such as the system stop is controlled.

The BLDC fan motor 2 normally operates but if the signal output from the FG stage is not input due to disconnection of the FG connection line between the controller 1 and the BLDC fan motor 2, the BLDC fan motor 2 is determined to be abnormal The BLDC fan motor 2 abnormality occurrence control is directly performed irrespective of the driving state of the BLDC fan motor 2.

Accordingly, when the signal output from the FG stage is not inputted and the BLDC fan motor 2 is determined, the present invention can detect the change in the internal temperature of the internally-cooled storage and determine whether the operation is again performed.

The BLDC fan motor control method according to an embodiment of the present invention will now be described in more detail.

Referring to FIGS. 1 and 2, first, the controller 1 applies the initial set voltage value Vdc to the BLDC fan motor 2 (S1) when the BLDC fan motor 2 is driven (S1) (S2).

Next, the controller 1 receives the feedback signal output from the FG terminal of the BLDC fan motor 2 and adjusts the voltage value applied to the BLDC fan motor 2 according to the feedback signal (S3).

At this time, the adjusted voltage value is stored in the controller 1 (S4).

Then, it is determined whether the BLDC fan motor 2 is abnormal through the feedback signal output from the FG stage (S5).

At this time, if the abnormality of the BLDC fan motor 2 is determined, a change in the internal temperature is sensed (S6).

After a predetermined time has elapsed, whether the internal temperature rises or falls is detected (S7).

Then, abnormality generation control of the BLDC fan motor 2 is performed or the BLDC fan motor 2 is controlled based on the stored voltage value (S8, S9). That is, it is determined whether the BLDC fan motor 2 is abnormal according to the feedback signal output from the FG stage and the result of the detection of the change in the internal temperature, and the BLDC fan motor 2 is controlled accordingly.

Specifically, when the internal temperature rises continuously as a result of the internal temperature change detection, it is determined that the BLDC fan motor 2 is not normally driven and the feedback signal output from the FG terminal is not output. The fan motor 2 abnormality occurrence control is performed (S8).

As a result, the BLDC fan motor 2 normally operates. However, only the signal output from the FG stage is determined to be abnormal. Finally, the voltage value stored in the controller 1 And controls the BLDC fan motor 2 (S9).

Accordingly, when the BLDC fan motor 2 normally operates but the signal output from the FG stage is not input due to disconnection of the FG connection line between the controller 1 and the BLDC fan motor 2, the BLDC fan motor 2 ), It is possible to solve the problem of the related art that the BLDC fan motor 2 abnormality generation control is performed directly regardless of the driving state of the BLDC fan motor 2. [

In the present invention, when the BLDC fan motor abnormality is detected through the discrimination of the feedback signal outputted at the time of driving the BLDC fan motor in the intercooled system using the BLDC fan motor, the BLDC fan motor is failed again By judging, the BLDC fan motor can be controlled optimally.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is understandable. Accordingly, the true scope of the present invention should be determined by the following claims.

1: Controller 2: BLDC fan motor

Claims (3)

Applying an initial set voltage value to a BLDC (Brushless Direct Current) fan motor;
Adjusting a voltage value applied to the BLDC fan motor according to a feedback signal fed back when driving the BLDC fan motor, and storing the adjusted voltage value;
Determining whether the BLDC fan motor is abnormal through the feedback signal;
Detecting a change in internal temperature when it is determined that the BLDC fan motor is abnormal; And
Performing an abnormality generation control of the BLDC fan motor or controlling the BLDC fan motor with the stored voltage value according to the detection result of the internal temperature change,
The step of controlling the BLDC fan motor
The controller determines that the BLDC fan motor has failed when the internal temperature rises as a result of the detection of the internal temperature change,
Wherein the controller determines that the BLDC fan motor is normal when the internal temperature falls, and controls the BLDC fan motor with the stored voltage value as a result of the detection of the internal temperature change. delete delete

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