[미국특허]
Quiet fan incorporating active noise control (ANC)
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G10K-011/16
F04D-029/66
B23P-011/00
G10K-011/178
G06F-001/20
F24F-013/24
출원번호
US-0449068
(2008-01-20)
등록번호
US-8855329
(2014-10-07)
국제출원번호
PCT/IL2008/000087
(2008-01-20)
§371/§102 date
20090722
(20090722)
국제공개번호
WO2008/090544
(2008-07-31)
발명자
/ 주소
Slapak, Alon
Fridman, Tzvika
Rubin, Ofira
출원인 / 주소
Silentium Ltd.
대리인 / 주소
Shichrur & Co.
인용정보
피인용 횟수 :
9인용 특허 :
57
초록▼
An active noise control (ANC) system may be implemented to both sides of a fan, such that both directions of the noise emitting are treated to reduce the overall noise. The impact on airflow is minimal, and the technique is very effective in a broad range of low frequencies. Passive sound-absorbing
An active noise control (ANC) system may be implemented to both sides of a fan, such that both directions of the noise emitting are treated to reduce the overall noise. The impact on airflow is minimal, and the technique is very effective in a broad range of low frequencies. Passive sound-absorbing materials may be included for attenuation of high frequencies. The resulting quiet fan produces a low level of noise compared to any other device based on fan, which produces the same capacity of airflow. The quiet fan may be incorporated in any mechanical system which requires airflow induction such as: computers, air conditioners, machines, and more.
대표청구항▼
1. A quiet fan comprising: an air-moving device having an inlet side and an outlet side;a first active noise control (ANC) sub-system disposed on the inlet side, the first active noise control sub-system including:a first acoustic transducer; anda first reference acoustic sensor to generate a first
1. A quiet fan comprising: an air-moving device having an inlet side and an outlet side;a first active noise control (ANC) sub-system disposed on the inlet side, the first active noise control sub-system including:a first acoustic transducer; anda first reference acoustic sensor to generate a first reference noise signal corresponding to a first sensed pattern sensed by said first reference acoustic sensor, the first sensed pattern including a first noise pattern from said air-moving device, the first reference acoustic sensor being between the air-moving device and the first acoustic transducer, the first reference acoustic sensor to sense said first sensed pattern prior to the first noise pattern arriving at a location of said first acoustic transducer;a second active noise control (ANC) sub-system disposed on the outlet side, the second active noise control sub-system including:a second acoustic transducer; anda second reference acoustic sensor to generate a second reference noise signal corresponding to a second sensed pattern sensed by said second reference acoustic sensor, the second sensed pattern including a second noise pattern from said air-moving device, the second reference acoustic sensor being between the air-moving device and the second acoustic transducer, the second reference acoustic sensor to sense said second sensed pattern prior to the second noise pattern arriving at a location of said second acoustic transducer;a controller to generate a first control signal to control said first acoustic transducer to generate a first noise destructive pattern, and to generate a second control signal to control said second acoustic transducer to generate a second noise destructive pattern,said controller to generate the first control signal based on a result of subtracting first and second feedback noise estimations from said first reference noise signal, the first and second feedback noise estimations corresponding to said first reference acoustic sensor, the first feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the first reference acoustic sensor, and the second feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the first reference acoustic sensor,and said controller to generate said second control signal based on a result of subtracting third and fourth feedback noise estimations from said second reference noise signal, said third and fourth feedback noise estimations corresponding to said second reference acoustic sensor, the third feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the second reference acoustic sensor, and the fourth feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the second reference acoustic sensor. 2. The quiet fan of claim 1 comprising: an inlet duct extending from the inlet side of the air-moving device; and an outlet duct extending from the outlet side of the air-moving device. 3. The quiet fan of claim 2, wherein: the first ANC sub-system is associated with the inlet duct; andthe second ANC sub-system is associated with the outlet duct. 4. The quiet fan of claim 1 comprising: a first digital filter to generate the first feedback noise estimation by applying to the first control signal a first function representing the path between the first acoustic transducer and the first reference acoustic sensor;a second digital filter to generate the second feedback noise estimation by applying to the second control signal a second function representing the path between the second acoustic transducer and the first reference acoustic sensor;a third digital filter to generate the third feedback noise estimation by applying to the second control signal a third function representing the path between the second acoustic transducer and the second reference acoustic sensor; anda fourth digital filter to generate the fourth feedback noise estimation by applying to the first control signal a fourth function representing the path between the first acoustic transducer and the second reference acoustic sensor. 5. The quiet fan of claim 2, wherein: the first acoustic transducer is disposed in a first chamber adjacent the inlet duct; andthe second acoustic transducer is disposed in a second chamber adjacent the outlet duct. 6. The quiet fan of claim 1, wherein the controller comprises a dual-channel controller to provide said first control signal on a first channel, and to provide said second control signal on a second channel. 7. The quiet fan of claim 1, wherein the air-moving device is a fan. 8. The quiet fan of claim 7, wherein the fan is selected from the group consisting of an axial fan, a tangential fan and centrifugal fan. 9. The quiet fan of claim 1 comprising: at least one duct selected from the group consisting of an inlet duct extending from the inlet side of the air-moving device and an outlet duct extending from the outlet side of the air-moving device,wherein at least one inside surface of the at least one duct at least one duct is covered with a sound absorption material. 10. A method of implementing noise control for a fan comprising: controlling an Active Noise Control (ANC) system including a first ANC sub-system on an inlet side of the fan, and a second active ANC sub-system system on an outlet side of the fan,the first ANC sub-system including a first acoustic transducer, and a first reference acoustic sensor to generate a first reference noise signal corresponding to a first sensed pattern sensed by said first reference acoustic sensor, the first sensed pattern including a first noise pattern from said fan, the first reference acoustic sensor being between the fan and the first acoustic transducer, the first reference acoustic sensor to sense said first sensed pattern prior to the first noise pattern arriving at a location of said first acoustic transducer,the second ANC sub-system including a second acoustic transducer, and a second reference acoustic sensor to generate a second reference noise signal corresponding to a second sensed noise pattern sensed by said second reference acoustic sensor, the second sensed pattern including a second noise pattern from said fan, the second reference acoustic sensor being between the fan and the second acoustic transducer, the second reference acoustic sensor to sense said second sensed pattern prior to the second noise pattern arriving at a location of said second acoustic transducer;wherein controlling the ANC system comprises:generating a first control signal to control said first acoustic transducer to generate a first noise destructive pattern; andgenerating a second control signal to control said second acoustic transducer to generate a second noise destructive pattern,said first control signal being based on a result of subtracting first and second feedback noise estimations from said first reference noise signal, the first and second feedback noise estimations corresponding to said first reference acoustic sensor, the first feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the first reference acoustic sensor, and the second feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the first reference acoustic sensor,and said second control signal being based on a result of subtracting third and fourth feedback noise estimations from said second reference noise signal, the third and fourth feedback noise estimations corresponding to said second reference acoustic sensor, the third feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the second reference acoustic sensor, and the fourth feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the second reference acoustic sensor. 11. The method of claim 10 comprising: generating the first feedback noise estimation by applying to the first control signal a first function representing the path between the first acoustic transducer and the first reference acoustic sensor;generating the second feedback noise estimation by applying to the second control signal a second function representing the path between the second acoustic transducer and the first reference acoustic sensor;generating the third feedback noise estimation by applying to the second control signal a third function representing the path between the second acoustic transducer and the second reference acoustic sensor; andgenerating the fourth feedback noise estimation by applying to the first control signal a fourth function representing the path between the first acoustic transducer and the second reference acoustic sensor. 12. The method of claim 10, wherein controlling said ANC system comprises: using an interlaced algorithm to reduce cross-echo between said first and second ANC sub-systems. 13. The method of claim 10, wherein generating said first and second control signals comprises: generating the first and second control signals via two channels of a dual-channel controller. 14. An active noise control (ANC) system comprising: a controller to control a first ANC sub-system on an inlet side of an air moving device, and a second ANC sub-system on an outlet side of the air moving device,the first ANC sub-system including a first acoustic transducer, and a first reference acoustic sensor to generate a first reference noise signal corresponding to a first sensed pattern sensed by said first reference acoustic sensor, the first sensed pattern including a first noise pattern from said air-moving device, the first reference acoustic sensor being between the air-moving device and the first acoustic transducer, the first reference acoustic sensor to sense said first sensed pattern prior to the first noise pattern arriving at a location of said first acoustic transducer,the second ANC sub-system including a second acoustic transducer, and a second reference acoustic sensor to generate a second reference noise signal corresponding to a second sensed noise pattern sensed by said second reference acoustic sensor, the second sensed pattern including a second noise pattern from said air-moving device, the second reference acoustic sensor being between the air-moving device and the second acoustic transducer, the second reference acoustic sensor to sense said second sensed pattern prior to the second noise pattern arriving at a location of said second acoustic transducer,the controller to control the first acoustic transducer of said first ANC sub-system based on the first reference noise signal, and to control the second acoustic transducer of said second ANC sub-system based on the second reference noise signal,wherein said controller is to generate a first control signal to control said first acoustic transducer to generate a first noise destructive pattern, and to generate a second control signal to control said second acoustic transducer to generate a second noise destructive pattern,said first control signal being based on a result of subtracting first and second feedback noise estimations from said first reference noise signal, the first and second feedback noise estimations corresponding to said first acoustic sensor, the first feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the first acoustic sensor, and the second feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the first acoustic sensor,and said second control signal being based on a result of subtracting third and fourth feedback noise estimations from said second reference noise signal, the third and fourth feedback noise estimations corresponding to said second acoustic sensor, the third feedback noise estimation being based on the second control signal and a path between the second acoustic transducer and the second acoustic sensor, and the fourth feedback noise estimation being based on the first control signal and a path between the first acoustic transducer and the second acoustic sensor. 15. The system of claim 14, wherein the first feedback noise estimation represents a first function applied to the first control signal, the first function representing the path between the first acoustic transducer and the first acoustic sensor; wherein the second feedback noise estimation represents a second function applied to the second control signal, the second function representing the path between the second acoustic transducer and the first acoustic sensor;wherein the third feedback noise estimation represents a third function applied to the second control signal, the third function representing the path between the second acoustic transducer and the second acoustic sensor; andand wherein the fourth feedback noise estimation represents a fourth function applied to the first control signal, the fourth function representing the path between the first acoustic transducer and the second acoustic sensor. 16. The system of claim 14, wherein the controller comprises a first controller to generate said first control signal and a second controller to generate said second control signal. 17. The system of claim 14, wherein the controller comprises a dual channel controller to generate said first control signal on a first channel, and to generate said second control signal on a second channel. 18. The system of claim 14, wherein the controller is to generate said first and second control signals to reduce cross echo between said first acoustic transducer and said second acoustic sensor. 19. The system of claim 14, wherein the controller is to generate said first and second control signals to reduce cross echo between said second acoustic transducer and said first acoustic sensor. 20. The system of claim 14 comprising: a first digital filter to generate the first feedback noise estimation by applying to the first control signal a first function representing the path between the first acoustic transducer and the first acoustic sensor; anda second digital filter to generate the second feedback noise estimation by applying to the second control signal a second function representing the path between the second acoustic transducer and the first acoustic sensor;a third digital filter to generate the third feedback noise estimation by applying to the second control signal a third function representing the path between the second acoustic transducer and the second acoustic sensor; anda fourth digital filter to generate the fourth feedback noise estimation by applying to the first control signal a fourth function representing the path between the first acoustic transducer and the second acoustic sensor. 21. The system of claim 14 comprising: a first subtractor to generate a first input signal by subtracting the first and second feedback noise estimations from said first reference noise signal; anda second subtractor to generate a second input signal by subtracting the third and fourth feedback noise estimations from said second reference noise signal,wherein said controller is to generate said first control signal based on said first input signal and to generate said second control signal based on said second input signal. 22. The system of claim 14, wherein said air moving device comprises a fan.
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