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Design method for self-adaptation optimal phase angle notch filter

A technology of notch filter and design method, applied in the direction of adaptive network, impedance network, electrical components, etc., can solve the problems of long adaptive time, reduced system real-time performance, and high dimension of filtering parameters

Inactive Publication Date: 2014-07-16
BEIHANG UNIV
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Problems solved by technology

Although these filter or controller designs have a good ability to suppress narrow-band interference, they can only effectively suppress narrow-band interference in a limited frequency range
The emergence of the adaptive filter has greatly promoted the development of the field of unknown frequency interference, but the main problems in the general adaptive filter method are: the algorithm is complex, the dimension of the filtering parameters is too high, the adaptive time is too long, and the real-time performance of the system Greatly reduced

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  • Design method for self-adaptation optimal phase angle notch filter
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Embodiment Construction

[0104] The present invention will be further described in detail in conjunction with the accompanying drawings and specific embodiments.

[0105] An adaptive optimal phase angle notch filter design method proposed by the present invention can be applied to the simultaneous existence of multiple interference source signals such as broadband random interference signals and multiple unknown frequency single-frequency interference signals to achieve optimal inhibition.

[0106] The system loop applied by the adaptive optimal phase angle notch filter design method, such as figure 1 As shown, the applied system loop modules include: object model module, robust controller module and adaptive optimal phase angle notch filter module. The robust controller module and the object model module are connected in series between the input end and the output end of the system loop. The adaptive optimal phase angle notch filter module is connected in parallel between the input terminal and the...

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Abstract

The invention particularly discloses a design method for a self-adaptation optimal phase angle notch filter. The design method is used for restraining narrow-band signal interference on unknown frequency bands so that a system can have the characteristic of offsetting wide-band random interference signals on a low-frequency band. According to the design method, a system loop module comprises an object model module, a robust controller module and a self-adaptation optimal phase angle notch filter module. The design method comprises the specific steps that (1) object model discretization is established; (2) a robust controller is designed; (3) an optimal phase angle notch filter is designed and is connected to part of a system loop; (4) according to a P(s) C(s) transfer function, an improved minimum mean square value self-adaptation algorithm is adopted, H8 mixing sensitivity control is introduced to design the robust controller, so that a notch center frequency tracks an unknown single-frequency interference frequency, and optimal restraint of the random interference signals and unknown single-frequency interference signals is achieved; meanwhile, multi-source interference signals including the wideband random interference signals, the unknown single-frequency interference signals with a plurality of frequencies and the like can be restrained at the same time.

Description

technical field [0001] The invention belongs to the technical field of control engineering and science, and in particular relates to a design method of an adaptive optimal phase angle notch filter. Background technique [0002] In the servo mechanism used in practice, there are often some interference signals concentrated in narrow frequency bands. Many experts and scholars at home and abroad have also proposed many filtering or control methods. For example, in the low frequency band (100–600Hz), peak filters are often used to effectively suppress low-frequency narrow-band interference. An IF disturbance around the ring crossover frequency, because of its inherent phase loss of phase margin, distorts the system loop sensitivity gain near the disturbance frequency. In the mid-frequency band (about 1.6kHz), the existing technology often uses a phase-leading peak filter to suppress the mid-band narrow-band interference that appears in the system. In order to ensure the phase m...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03H21/00
Inventor 闫鹏吕泽杉张震
Owner BEIHANG UNIV
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