Method and control arrangement for controlling a controlled system with a repeating working cycle
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01M-017/04
G05B-013/04
출원번호
US-0061621
(2009-08-26)
등록번호
US-9134712
(2015-09-15)
우선권정보
AT-GM464/2008 (2008-09-01)
국제출원번호
PCT/EP2009/061009
(2009-08-26)
§371/§102 date
20110525
(20110525)
국제공개번호
WO2010/023228
(2010-03-04)
발명자
/ 주소
Kokal, Helmut
Mayrhofer, Josef
Denger, Dirk
Schmidt, Martin
del Re, Luigi
출원인 / 주소
AVL List GmbH
대리인 / 주소
Dykema Gossett PLLC
인용정보
피인용 횟수 :
2인용 특허 :
36
초록▼
When arrangements with a repeating working cycle such as, for example, in the case of engine test benches, are being controlled, resonances which have to be damped by the control system are often excited by the test specimen (for example an internal combustion engine) in the working range of the arr
When arrangements with a repeating working cycle such as, for example, in the case of engine test benches, are being controlled, resonances which have to be damped by the control system are often excited by the test specimen (for example an internal combustion engine) in the working range of the arrangement. The invention proposes for this purpose a control concept in which a modified actual value rist—mod is determined from a current actual value rist—akt of the control system and from a predicted imminent system-delay-free actual value on the basis of the actual value of a previous working cycle, and said modified actual value rist—mod is fed to the control system.
대표청구항▼
1. A method for controlling a test bench arrangement comprising a test specimen with a repeating working cycle, and a dynamometer connected by a connecting shaft to the test specimen, the method comprising: obtaining a current actual value of a control variable of the test bench arrangement; obtaini
1. A method for controlling a test bench arrangement comprising a test specimen with a repeating working cycle, and a dynamometer connected by a connecting shaft to the test specimen, the method comprising: obtaining a current actual value of a control variable of the test bench arrangement; obtaining a prediction of an imminent, system-delay-free actual value of the control variable;storing actual values of the control variable of a previous working cycle of the test-bench arrangement as stored, delay-afflicted, previous actual values of the control variable in a time- or angle-resolved manner in a storage unit;compensating for a system delay via determining a modified actual value of the control variable according to the current actual value and the prediction, wherein the prediction comprises a first value of the stored, delay-afflicted, actual values of the control variable and the first value corresponds to a time or angle of the previous working cycle that is ahead of a current time or angle by the system delay;providing the modified actual value of the control variable to a controller connected to the test bench arrangement; andreducing resonance problems in the test bench arrangement via the controller causing a change of at least one of a speed and a torque of the connection shaft according to the modified actual value of the control variable. 2. The method according to claim 1, comprising obtaining a system-delayed, transient portion representing a change of the current actual value of the control variable of a current working cycle with respect to the first value, wherein the prediction represents a repeating portion, and wherein the modified actual value of the control variable is also determined according to the system-delayed transient portion. 3. The method according to claim 2, wherein the system-delayed transient portion is pre-processed with a working cycle-synchronous average filter. 4. The method according to claim 2, comprising providing the current actual value of the control variable and the stored, delay-afflicted, previous actual values of the control variable to a calculation unit;wherein obtaining the transient portion includes calculating, by the calculation unit the difference between a second value of the stored, delay-afflicted previous actual values of the control variable and the current actual value of the control variable, the second value corresponding to a time or angle of the previous working cycle that is consistent with the current time or angle of the present working cycle; andwherein determining the modified actual value of the control variable includes adding the prediction and the transient portion. 5. The method according to claim 4, wherein the storage unit transmits the stored, delay-afflicted, previous actual values of the control variable to the calculation unit. 6. The method according to claim 1, wherein from the current actual value such frequency portions are filtered out which lie above the 1.4-fold, preferably above the √2-fold, of the natural frequency and the modified actual value is determined with this filtered current actual value. 7. A control system for controlling a test bench arrangement, the control system comprising: a test specimen with a repeating working cycle, the test specimen connected by a connecting shaft to a dynamometer;a controller; andan actual value calculation unit,wherein the actual value calculating unit is arranged in a feedback branch,wherein the actual value calculation unit is configured to process a current actual value of a control variable of the control system and a prediction of an imminent, system-delay-free actual value of the control variable to form a modified actual value of the control variable;access stored, delay-afflicted, previous actual values of the control variable of a previous working cycle of the test bench arrangement that are stored in a time- or angle-resolved manner in a storage unit; and, compensate for a system delay via the prediction, wherein the prediction comprises a first value of the stored, delay-afflicted, actual values of the control variable and the first value corresponds to a time or angle of the previous working cycle that is ahead of a current time or angle by a system delay;wherein the controller is configured to reduce resonance problems in the test bench arrangement via causing at least one of a speed and a torque of the connection shaft to change according to the modified actual value. 8. The control system according to claim 7, wherein current actual value of the control variable of the control system can be divided into a system-delayed transient portion representing a change of a current working cycle with respect to the previous working cycle and into the prediction in which the system delay is compensated, and wherein the actual value calculation unit is configured to determine the modified actual value from the system-delayed transient portion and the predictive portion, and feed the modified actual value back to the controller. 9. The control system according to claim 8, wherein the actual value calculation unit includes the storage unit,wherein the actual value calculation unit is configured to receive the current actual value of the control variable and the storage unit is configured to store actual values of the control variable of the previous working cycle of the control system in a time- or angle-resolved manner in the storage unit as the stored, delay-afflicted, previous actual values of the control variable, andwherein the actual value calculation unit is configured for determining the transient portion according to a difference between the stored, delay-afflicted, previous actual values stored in the storage unit and the current actual values of the control variable. 10. The control system according to claim 9, wherein the storage unit includes a first output corresponding to the prediction and a second output corresponding to the stored, delay-afflicted, previous actual values which are delayed with respect to time or angle by the system delay. 11. The control system according to claim 7, comprising a low-pass filter configured to provide a filtered current actual value of the control variable by filtering frequency portions out of the current actual value of the control variable which lie above the 1.4-fold, preferably above the √2-fold, of the natural frequency and wherein the actual value calculation unit is configured to determine the modified actual value of the control variable according to the filtered current actual value of the control variable. 12. The method of claim 1, wherein the test specimen comprises an internal combustion engine; the repeating working cycle comprises a complete combustion cycle of all cylinders of the internal combustion engine; and the current actual value of the control variable is obtained from a present working cycle that is different than the previous working cycle. 13. A feedback control system comprising: a controlled system including a repeating working cycle, the controlled system including a shaft;a system controller configured to control the controlled system according to a modified feedback value; anda calculation unit configured to: obtain a present time or angle of a present working cycle;obtain a system delay of the feedback control system;obtain a measured feedback value of the controlled system;obtain a first feedback value of a previous working cycle of the controlled system, the first feedback value corresponding to the present time or angle;obtain a second feedback value of the previous working cycle of the controlled system, the second feedback value corresponding to a future time ahead of the present time or angle by the system delay;obtain a transient value according to a difference between the measured feedback value and the first feedback value; andobtain a predictive value according to the second feedback value;compensate for the system delay via: obtaining the modified feedback value according to the transient value and the predictive value; andproviding a difference between a set point and the modified feedback value to the system controller; andreduce resonance problems in the controlled system via changing at least one of a speed and a torque of the shaft according to the modified feedback value. 14. The system of claim 13, wherein the controlled system comprises an internal combustion engine; the present working cycle comprises a complete combustion cycle of all cylinders of the internal combustion engine; and the calculation unit is configured to obtain the measured feedback value from the present working cycle, the present working cycle being different from the previous working cycle. 15. The method of claim 1, wherein a connection between the test specimen and the dynamometer includes a natural frequency within a working range of the test specimen. 16. The method of claim 15, where said reducing resonance problems in the test bench arrangement includes in-phase damping of resonances in a high frequency range. 17. The method of claim 16, wherein the high frequency range includes frequencies of at least 60 Hz.
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