CN1293384C - Motor rotation rate detector and controlling method thereof - Google Patents
Motor rotation rate detector and controlling method thereof Download PDFInfo
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- CN1293384C CN1293384C CNB031548601A CN03154860A CN1293384C CN 1293384 C CN1293384 C CN 1293384C CN B031548601 A CNB031548601 A CN B031548601A CN 03154860 A CN03154860 A CN 03154860A CN 1293384 C CN1293384 C CN 1293384C
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Abstract
The present invention relates to a motor rotation rate detector and a method thereof. The device comprises: a first input end, a second input end, a third input end, a rotary speed output component and a rotary speed output end, wherein the rotary speed output component is electrically connected with a first connecting pin and a second connecting pin, and continuously outputs rotary speed signals corresponding to the rotary speed of the motor; the rotary speed output end is electrically connected between the rotary speed output component and a system, and is used for outputting rotary speed signals to the system. The control method comprises that a first preset rotation speed of the motor is set, and a first frequency opposite to a pulse width modulation signal of a first frequency rotation speed is set, and is frequency multiplication of the first preset rotation speed. A learning procedure is carried out to the motor, pulse width modulation signals which are fixed with a test frequency and have different duty cycles are orderly output to the motor by the system, and rotation speeds are orderly recorded, so a comparison table of a work periodic time relatively to the rotary speed is completed. A first work period corresponds according to the first preset rotary speed and the comparison table, and the pulse width modulation signal which is fixed with the first frequency and the first work period is output to the motor by the system, so the motor is operated with the first preset rotary speed.
Description
Technical field
The present invention relates to a kind of motor rotary speed pick-up unit and control method, particularly a kind of motor rotary speed pick-up unit and control method that is applied to portable computer.
Background technology
Because the element integrated level grows with each passing day, heat radiation is the key subjects of all electronic installations now, with the portable computer is example, the heat that integrated circuit (IC) chip produced of inner high speed operation, as fail effectively to be dispelled the heat, then can have a strong impact on the stability of system, wherein radiator fan is for using maximum and indispensable active heat removal element in the portable computer.See also Fig. 1, it is to be commonly used radiator fan function block diagram by what a pulse width modulation (PWM) signal was controlled, it mainly is made of fan motor 10 and rotating speed output precision 11, when system provides a pulse width modulation signal (shown in Fig. 2 (a)) between first end 101 (power end) of fan motor 10 and second end 102 (earth terminal), the rotating speed of this fan motor 10 just mutually should pulse width modulation signal institute's frequency and the work period (duty cycle) change its rotating speed, rotating speed output precision 11 rotating speed that then phase should fan motor 10 and export a square-wave signal (shown in Fig. 2 (b)), and the frequency of this square-wave signal is to be directly proportional with this rotating speed.And find out by knowing among the figure, because the configuration of circuit framework, the electric power of rotating speed output precision 11 is also provided by this pulse width modulation signal, therefore only can when being in high state, export this pulse width modulation signal this square-wave signal, therefore rotation speed change that can't the complete monitoring radiator fan, this is for the system that respective fans rotating speed and ambient stable change this pulse width modulation signal work period, to produce error because of monitoring period is unfixing, have a strong impact on the precision control of system for rotation speed of the fan, and then can't be in radiating efficiency and fan noise, reach balance between consumed energy.
Summary of the invention
The motor rotary speed pick-up unit and the control method of the rotation speed change of complete monitoring radiator fan but motor of the present invention provides the lasting output speed signal of a kind of energy.
Motor rotary speed pick-up unit according to an aspect of the present invention, be used for carrying out on the motor of rotating speed control and between a system with a pulse width modulation signal, it comprises: a first input end and one second input end, fixedly be electrically connected to a fixed voltage source and earth point respectively, be used for continuing input electric power; One the 3rd input end, be electrically connected between this motor and this system, by with reference to a predetermined table of comparisons, should the predetermined table of comparisons be that this motor is carried out a learning program wherein, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to this motor and write down its rotating speed in regular turn, and then finish a work period with respect to the predetermined table of comparisons of being somebody's turn to do of rotating speed, this system exports this pulse width modulation signal, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, the 3rd input end is used to receive this pulse width modulation signal that is sent by this system, and then controls the rotating speed of this motor; One rotating speed output precision is electrically connected on this first input end and this second input end, the rotational speed that it mutually should motor and continue output one tach signal; And a rotating speed output terminal, being electrically connected between this rotating speed output precision and this system, it exports this tach signal to this system.
According to above-mentioned conception of the present invention, applied this motor of this motor rotary speed pick-up unit and this system are respectively a radiator fan and use portable computer.
A kind of motor rotation speed control method according to a further aspect of the invention, be used on the motor and between a system, by with reference to a predetermined table of comparisons, this system export a frequency and all transformable pulse width modulation signal of work period to this motor to control its rotating speed, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, it comprises the following step: set one first preset rotation speed and a corresponding first frequency that goes out with respect to this pulse width modulation signal of this first preset rotation speed of this motor, this first frequency is the frequency multiplication of this first preset rotation speed; This motor is carried out a learning program, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to motor and write down its rotating speed in regular turn, and then finish a work period this table of comparisons with respect to rotating speed; And according to this first preset rotation speed and this table of comparisons and correspondence went out for one first work period, this system just exports a pulse width modulation signal that is fixed in this first frequency and first work period to this motor, and then this motor is turned round with this first preset rotation speed.
According to above-mentioned conception of the present invention, this test frequency is not equal to the frequency multiplication of this first frequency and this first frequency in this motor rotation speed control method.
According to above-mentioned conception of the present invention, this motor rotation speed control method also comprises the following steps: to set one second preset rotation speed and a corresponding second frequency that goes out with respect to this pulse width modulation signal of this second preset rotation speed of this motor, and this second frequency is the frequency multiplication of this second preset rotation speed; And went out for one second work period according to this second preset rotation speed is corresponding with this table of comparisons, this system just exports a pulse width modulation signal that is fixed in this second frequency and this second work period to this motor, and then this motor is turned round with this second preset rotation speed.
According to above-mentioned conception of the present invention, this test frequency is not equal to the frequency multiplication of this second frequency and this second frequency in this motor rotation speed control method.
According to above-mentioned conception of the present invention, this motor rotation speed control method is in this learning program, this system imports in regular turn and is fixed in a test frequency but the work period down successively decreases by 100% and changes 4% pulse width modulation signal to this motor and write down its rotating speed in regular turn, and then finishes the table of comparisons of this work period with respect to rotating speed.
According to above-mentioned conception of the present invention, applied this motor of this motor rotation speed control method and this system are respectively a radiator fan motor and a portable computer.
According to above-mentioned conception of the present invention, the rotating speed of this motor is to be exported by a motor rotary speed pick-up unit in this motor rotation speed control method, this device comprises: a first input end and one second input end, this input end is fixedly to be electrically connected to a fixed voltage source and earth point, is used for continuing input electric power; One the 3rd input end is electrically connected between this motor and this system, and this input end is to be used to receive this pulse width modulation signal that is sent by this system, advances the rotating speed of two these motors of control; One rotating speed output precision is electrically connected on this first input end and this second input end, the rotational speed that it mutually should motor and continue output one tach signal; And a rotating speed output terminal, being electrically connected between this rotating speed output precision and this system, it is to export this tach signal to this system.
According to a kind of chip heat radiator of another aspect of the invention, be used for a chip of a system, this device comprises: a heat radiator, be contacted with this chip surface, be used to strengthen the radiating efficiency of this chip; One radiator fan, it is subjected to the driving of a pulse width modulation signal and turns round, and is used to quicken flowing of this heat radiator surrounding air; One first input end and one second input end, this input end is fixedly to be electrically connected to a fixed voltage source and earth point, is used for continuing input electric power; One the 3rd input end, be electrically connected between this radiator fan and this system, by with reference to a predetermined table of comparisons, should the predetermined table of comparisons be that this motor is carried out a learning program wherein, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to this motor and write down its rotating speed in regular turn, and then finish a work period and export this pulse width modulation signal with respect to predetermined this system of the table of comparisons of being somebody's turn to do of rotating speed, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, the 3rd input end is used to receive this pulse width modulation signal that is sent by this system, and then controls the rotating speed of this radiator fan; One rotating speed output precision is electrically connected on this first input end and this second input end, the rotational speed that it mutually should radiator fan and continue output one tach signal; And a rotating speed output terminal, being electrically connected between this rotating speed output precision and this system, it is to export this tach signal to this system.
According to above-mentioned conception of the present invention, applied this system of this chip heat radiator is a portable computer.
According to above-mentioned conception of the present invention, its radiating fan rotation speed control method may further comprise the steps in this chip heat radiator: set one first preset rotation speed and a corresponding first frequency that goes out with respect to this pulse width modulation signal of this first preset rotation speed of this radiator fan, this first frequency is the frequency multiplication of this first preset rotation speed; This radiator fan is carried out a learning program, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to this radiator fan and write down its rotating speed in regular turn, and then finish the table of comparisons of a work period with respect to rotating speed; And according to this first preset rotation speed and this table of comparisons and correspondence went out for one first work period, this system just exports a pulse width modulation signal that is fixed in this first frequency and this first work period to this radiator fan, and then this radiator fan is turned round with this first preset rotation speed.
According to above-mentioned conception of the present invention, this test frequency is not equal to the frequency multiplication of this first frequency and this first frequency.
According to above-mentioned conception of the present invention, wherein this radiating fan rotation speed control method also comprises the following steps: to set one second preset rotation speed and a corresponding second frequency that goes out with respect to this pulse width modulation signal of this second preset rotation speed of this radiator fan, and this second frequency is the frequency multiplication of this second preset rotation speed; And went out for one second work period according to this second preset rotation speed is corresponding with this table of comparisons, this system just exports one and is fixed in the pulse width modulation signal of this first frequency and this second work period to this radiator fan, and then this radiator fan is turned round with this second preset rotation speed, and wherein this test frequency is not equal to the frequency multiplication of this second frequency and this second frequency.
According to above-mentioned conception of the present invention, in this learning program of chip heat radiator of the present invention, this system imports in regular turn and is fixed in a test frequency but the work period down successively decreases by 100% and changes 4% pulse width modulation signal to this radiator fan and write down its rotating speed in regular turn, and then finishes the table of comparisons of this work period with respect to rotating speed.
Adopt such scheme of the present invention, system can be to the control of the precision of rotation speed of the fan, and then can improve radiating efficiency, reduce noise and energy consumption.
Be clearer understanding purpose of the present invention, characteristics and advantage, below in conjunction with accompanying drawing to of the present invention preferable
Embodiment is elaborated.
Description of drawings
Fig. 1 can be commonly used radiator fan function block diagram by what a pulse width modulation signal was controlled;
Fig. 2 (a) is pulse width modulation signal and the synoptic diagram of commonly using rotating speed square-wave signal that output precision is exported (b);
Fig. 3 is the synoptic diagram for the radiator fan square-wave signal that assembly is exported that can be controlled by a pulse width modulation signal of the present invention;
Fig. 4 (a) is the synoptic diagram of pulse width modulation signal and rotating speed square-wave signal that output precision is exported of the present invention (b);
Fig. 5 is the preferred embodiment of a method for controlling number of revolution that of steps flow chart synoptic diagram the present invention develops to(for) radiator fan;
Fig. 6 is the work period number percent that obtained in the method for controlling number of revolution of the present invention table of comparisons with respect to rotating speed;
Fig. 7 be the preset rotation speed that obtained in the method for controlling number of revolution of the present invention the corresponding operating frequency that goes out this pulse width modulation signal tabulate with the work period percentage result;
Fig. 8 is the organigram that the construction of embodiment of the invention device is gone out a chip heat radiator;
Fig. 9 is the block diagram that chip heat radiator is arranged at the application example in the portable computer.
Embodiment
See also Fig. 3, it is that the present invention is for the function block diagram that can be developed a preferred embodiment that by the radiator fan that a pulse width modulation signal is controlled, it mainly is made of fan motor 31 and rotating speed output precision 32, and be can eliminate to commonly use the disappearance that device can't continue the output speed signal, present embodiment fixedly is electrically connected to a fixed voltage source Vcc and an earth point with the first input end 331 and second input end 332 especially, be used for rotating speed output precision 32 is continued to improve electric power, and receive the pulse width modulation signal (shown in Fig. 4 (a)) that is sent by this system 30 by one the 3rd input end 333 in addition, and then control the rotating speed of this fan motor 31.Like this, but rotating speed output precision 32 just respective motors rotational speed and utilize rotating speed output terminal 334 to continue output one tach signals (shown in Fig. 4 (b)) to system 30, and then the rotation speed change of realization complete monitoring radiator fan, so that system 30 is for the precision control of rotation speed of the fan.
Please again referring to Fig. 5, it is the preferred embodiment of a method for controlling number of revolution that of steps flow chart synoptic diagram the present invention develops to(for) above-mentioned radiator fan, it can be applicable in the boot program of a portable computer, set up comparison list so as to state that mutually should radiator fan, and then reach the purpose of accurate control rotation speed of the fan.At first, choice according to the actual requirements is (when the rotating speed of fan is high, its heat-sinking capability is good but noise is big, otherwise then the radiated energy difference but noise is little), can determine the rotating speed preset and the corresponding frequency that goes out with respect to this pulse width modulation signal of this preset rotation speed earlier, with this example, the speed setting of fan is changeed in per minute 5500, per minute 5000 changes, four kinds of states runnings down such as per minute 4500 commentaries on classics and per minute 4000 change, it is converted into frequency and then is (5500/60) hertz, (5000/60) hertz, (4500/60) hertz and (4000/60) hertz, therefore then is respectively (5500/60) hertz with respect to each frequency of this pulse width modulation signal of this preset rotation speed, (5000/60) hertz, (4500/60) frequency multiplication of hertz and (4000/60) hertz.
Carry out a learning program subsequently, before the beginning of learning program, need to set earlier a test frequency, and the selection of this test frequency requirement is for avoid the frequency multiplication value of above-mentioned four preset rotation speed frequency values and this frequency as far as possible.With this example, test frequency is made as 233 hertz, so it is that 233 hertz pulse width modulation signal carries out learning program that system 30 just sends a frequency to fan motor 31, and the pulse width modulation signal of fixed frequency just successively decreases downwards in regular turn since 100% work period, and then write down out as shown in Figure 6 a work period number percent in regular turn with respect to the table of comparisons of rotating speed, because the performance of each fan is all variant, so the table of comparisons of each fan all may different (this example be respectively six fans to be tested).After drawing this table of comparisons, again according to the table of comparisons and respectively with regard to (5500 commentaries on classics of this preset rotation speed, 5000 change, 4500 change and 4000 commentaries on classics) come correspondence to set up out (as utilizing interpolation method) required work period number percent, this routine result is (numerical value has changed into 16 carries) as shown in Figure 7, but also must note this moment, promptly respectively from (5500/60) hertz, (5000/60) hertz, (4500/60) selects suitable pulse width modulation signal frequency in the frequency multiplication of hertz and (4000/60) hertz, can know as shown in Figure 7 and find out, (5500 change four rotation speeds of the fan, 5000 change, 4500 change and 4000 commentaries on classics) be to correspond to 366 hertz respectively, 333 hertz, 300 hertz and 266 hertz, like this, suitably the operating frequency of gating pulse width modulation signal and work period number percent can move the fan rotating speed locking to accurate rotating speed.For example, as the rotating speed of the fan motor of desire control numbering one during with per minute 5000 commentaries on classics, can know according to Fig. 6 and the table of comparisons shown in Figure 7 and to calculate, system is that output one operating frequency is the pulse width modulation signal of the work period number percent between 333 hertz (333=4 * 5000/6) and 80% to 76% (optimum value can be released with interpolation method), just can be easily the rotating speed locking of the fan motor of numbering one be changeed in per minute 5000, and then reach the effect of accurate control rotating speed.
See also Fig. 8 again, it is the organigram that the construction of embodiment of the invention device is gone out a chip heat radiator, wherein heat radiator 80 is to be contacted with chip (not shown) surface, be used to strengthen the radiating efficiency of this chip, and radiator fan 81, then be subjected to the driving of a pulse width modulation signal and turn round, be used to quicken flowing and sending of this heat radiator surrounding air by air outlet 82, and this chip heat radiator is to have four output terminals (first input end 831, second input end 832, the 3rd input end 833 and rotating speed output terminal 834), and the rotating speed output precision with fixed power source is (not shown, but as shown in Figure 3) just sustainable and accurately provide tach signal to system, be used to carry out method for controlling number of revolution as above-mentioned.
Please again referring to Fig. 9, it is that chip heat radiator is arranged at application example block diagram in the portable computer, the controller 90 of wherein numbering NS591 can be finished the function of said system 30, bring in the tach signal of output that reception rotating speed output terminal 834 is continued by the input of its numbering 176, numbering 84 input end then is used for relevant temperature and rotating speed and comes to send a pulse width modulation signal to the input end of numbering 32, operating frequency and work period number percent as for this pulse width modulation signal just can be set as the data of Fig. 7 according in the controller 90 or Basic Input or Output System (BIOS) (BIOS) 91 that are stored in numbering NS591.As for learning method step shown in Figure 5 also can be respectively can by controller 90 or the Basic Input or Output System (BIOS) 91 of numbering NS591 or both finish jointly, do not repeat them here.
Claims (12)
1. motor rotary speed pick-up unit is used for carrying out on the motor of rotating speed control and between a system, it comprises with a pulse width modulation signal:
One first input end and one second input end fixedly are electrically connected to a fixed voltage source and earth point respectively, are used for continuing input electric power;
One the 3rd input end, be electrically connected between this motor and this system, by with reference to a predetermined table of comparisons, should the predetermined table of comparisons be that this motor is carried out a learning program wherein, this system import in regular turn be fixed in test frequency but different pulse width modulation signal of work period to this motor and write down its rotating speed in regular turn, and then finish a work period with respect to the predetermined table of comparisons of being somebody's turn to do of rotating speed, this system exports this pulse width modulation signal, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, the 3rd input end is used to receive this pulse width modulation signal that is sent by this system, and then controls the rotating speed of this motor;
One rotating speed output precision is electrically connected on described first input end and described second input end, the rotational speed that it mutually should motor and continue output one tach signal; And
One rotating speed output terminal is electrically connected between this rotating speed output precision and this system, and it exports this tach signal to this system.
2. motor rotary speed pick-up unit as claimed in claim 1 is characterized in that, its applied this motor and this system are respectively a radiator fan motor and a portable computer.
3. motor rotation speed control method, be used on the motor and between a system, by with reference to a predetermined table of comparisons, this system export a frequency and all transformable pulse width modulation signal of work period to this motor to control its rotating speed, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, it comprises the following step:
Set one first preset rotation speed and a corresponding first frequency that goes out with respect to this pulse width modulation signal of this first preset rotation speed of this motor, this first frequency is the frequency multiplication of this first preset rotation speed;
This motor is carried out a learning program, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to motor and write down its rotating speed in regular turn, and then finish a work period this table of comparisons with respect to rotating speed; And
According to this first preset rotation speed and this table of comparisons and correspondence went out for one first work period, this system just exports a pulse width modulation signal that is fixed in this first frequency and first work period to this motor, and then this motor is turned round with this first preset rotation speed.
4. motor rotation speed control method as claimed in claim 3 is characterized in that this test frequency is not equal to the frequency multiplication of this first frequency and this first frequency.
5. motor rotation speed control method as claimed in claim 3 is characterized in that, and is further comprising the steps of:
Set one second preset rotation speed and a corresponding second frequency that goes out with respect to this pulse width modulation signal of this second preset rotation speed of this motor, this second frequency is the frequency multiplication of this second preset rotation speed; And
Went out for one second work period according to this second preset rotation speed is corresponding with this table of comparisons, this system just exports one and is fixed in the pulse width modulation signal of this second frequency and this second work period to this motor, and then this motor is turned round with this second preset rotation speed, wherein this test frequency is not equal to the frequency multiplication of this second frequency and this second frequency.
6. motor rotation speed control method as claimed in claim 3, it is characterized in that, in this learning program, this system imports in regular turn and is fixed in a test frequency but the work period down successively decreases by 100% and changes 4% pulse width modulation signal to this motor and write down its rotating speed in regular turn, and then finishes the table of comparisons of this work period with respect to rotating speed.
7. motor rotation speed control method as claimed in claim 3 is characterized in that, applied this motor and this system are respectively a radiator fan motor and a portable computer.
8. motor rotation speed control method as claimed in claim 3 is characterized in that, the rotating speed of this motor is that this device comprises by motor rotary speed pick-up unit output:
One first input end and one second input end, this first input end and second input end fixedly are electrically connected to a fixed voltage source and earth point respectively, are used for continuing input electric power;
One the 3rd input end is electrically connected between this motor and this system, and the 3rd input end is to be used to receive this pulse width modulation signal that is sent by this system, and then controls the rotating speed of this motor;
One rotating speed output precision is electrically connected on this first input end and this second input end, the rotational speed that it mutually should motor and continue output one tach signal; And
One rotating speed output terminal is electrically connected between this rotating speed output precision and this system, and it is to export this tach signal to this system.
9. chip heat radiator is used for a chip of a system, and this device comprises:
One heat radiator is contacted with this chip surface, is used to strengthen the radiating efficiency of this chip;
One radiator fan, it is subjected to the driving of a pulse width modulation signal and turns round, and is used to quicken flowing of this heat radiator surrounding air;
One first input end and one second input end are respectively fixedly to be electrically connected to a fixed voltage source and earth point, are used for continuing input electric power;
One the 3rd input end, be electrically connected between this radiator fan and this system, by with reference to a predetermined table of comparisons, should the predetermined table of comparisons be that this motor is carried out a learning program wherein, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to this motor and write down its rotating speed in regular turn, and then finish a work period with respect to the predetermined table of comparisons of being somebody's turn to do of rotating speed, this system exports this pulse width modulation signal, should predetermined table of comparisons write down the relation between the rotating speed of a work period and this motor, the 3rd input end is used to receive this pulse width modulation signal that is sent by this system, and then controls the rotating speed of this radiator fan;
One rotating speed output precision is electrically connected on described first input end and described second input end, the rotational speed that it mutually should radiator fan and continue output one tach signal; And
One rotating speed output terminal is electrically connected between this rotating speed output precision and this system, and it is to export this tach signal to this system.
10. chip heat radiator as claimed in claim 9 is characterized in that, its applied this system is a portable computer.
11. chip heat radiator as claimed in claim 9 is characterized in that, its radiating fan rotation speed control method may further comprise the steps:
Set one first preset rotation speed and a corresponding first frequency that goes out with respect to this pulse width modulation signal of this first preset rotation speed of this radiator fan, this first frequency is the frequency multiplication of this first preset rotation speed;
This radiator fan is carried out a learning program, this system import in regular turn be fixed in a test frequency but different pulse width modulation signal of work period to this radiator fan and write down its rotating speed in regular turn, and then finish the table of comparisons of a work period with respect to rotating speed;
According to this first preset rotation speed and this table of comparisons and correspondence went out for one first work period, this system just exports a pulse width modulation signal that is fixed in this first frequency and this first work period to this radiator fan, and then this radiator fan is turned round with this first preset rotation speed;
Set one second preset rotation speed and a corresponding second frequency that goes out with respect to this pulse width modulation signal of this second preset rotation speed of this radiator fan, this second frequency is the frequency multiplication of this second preset rotation speed; Went out for one second work period according to this second preset rotation speed is corresponding with this table of comparisons, this system just exports one and is fixed in the pulse width modulation signal of this second frequency and this second work period to this radiator fan, and then this radiator fan is turned round with this second preset rotation speed, wherein: this test frequency is not equal to the frequency multiplication of this second frequency and this second frequency; And in this learning program, this system imports in regular turn and is fixed in a test frequency but the work period down successively decreases by 100% and changes 4% pulse width modulation signal to this radiator fan and write down its rotating speed in regular turn, and then finishes the table of comparisons of this work period with respect to rotating speed.
12. chip heat radiator as claimed in claim 11 is characterized in that, this test frequency is not equal to the frequency multiplication of this first frequency and this first frequency.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031548601A CN1293384C (en) | 2003-08-21 | 2003-08-21 | Motor rotation rate detector and controlling method thereof |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031548601A CN1293384C (en) | 2003-08-21 | 2003-08-21 | Motor rotation rate detector and controlling method thereof |
Publications (2)
| Publication Number | Publication Date |
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| CN1584604A CN1584604A (en) | 2005-02-23 |
| CN1293384C true CN1293384C (en) | 2007-01-03 |
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| Application Number | Title | Priority Date | Filing Date |
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| CNB031548601A Expired - Lifetime CN1293384C (en) | 2003-08-21 | 2003-08-21 | Motor rotation rate detector and controlling method thereof |
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Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
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| US8751710B2 (en) | 2012-05-08 | 2014-06-10 | Entegra Technologies, Inc. | Reconfigurable modular computing device |
| CN108627670B (en) * | 2017-03-20 | 2024-04-16 | 天津钕领节能科技有限公司 | Method and device for detecting motor rotation speed |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3942114A (en) * | 1974-10-15 | 1976-03-02 | Keeling William E | Speed detector and indicator for DC motors |
| JP2001037276A (en) * | 1999-07-26 | 2001-02-09 | Izumi Cr Box Kk | Driving circuit for direct current motor |
| JP2001119977A (en) * | 1999-10-20 | 2001-04-27 | Matsushita Electric Ind Co Ltd | Motor-driving device |
| JP2001275379A (en) * | 2000-03-28 | 2001-10-05 | Kitashiba Electric Co Ltd | Controller for brushless motor |
| DE20206855U1 (en) * | 2002-04-17 | 2002-08-08 | Sunonwealth Electric Machine Industry Co., Ltd., Kaohsiung | Drive circuit for speed control for a brushless DC fan motor |
-
2003
- 2003-08-21 CN CNB031548601A patent/CN1293384C/en not_active Expired - Lifetime
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3942114A (en) * | 1974-10-15 | 1976-03-02 | Keeling William E | Speed detector and indicator for DC motors |
| JP2001037276A (en) * | 1999-07-26 | 2001-02-09 | Izumi Cr Box Kk | Driving circuit for direct current motor |
| JP2001119977A (en) * | 1999-10-20 | 2001-04-27 | Matsushita Electric Ind Co Ltd | Motor-driving device |
| JP2001275379A (en) * | 2000-03-28 | 2001-10-05 | Kitashiba Electric Co Ltd | Controller for brushless motor |
| DE20206855U1 (en) * | 2002-04-17 | 2002-08-08 | Sunonwealth Electric Machine Industry Co., Ltd., Kaohsiung | Drive circuit for speed control for a brushless DC fan motor |
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| CN1584604A (en) | 2005-02-23 |
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