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A Method of Calculating the Partition Analytical Model of Internal Field Distribution of Open Rectangular Shield

A shielding body and field distribution technology, applied in the field of electromagnetic shielding, can solve the problems of slow calculation speed, unsuitable electromagnetic shielding effectiveness, long time, etc., and achieve the effect of fast calculation speed, clear physical meaning and high calculation efficiency

Active Publication Date: 2019-09-20
NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

At present, the calculation methods of the shielding effectiveness of perforated shields mainly include analytical theory and numerical calculation. The analytical theory has been proposed, such as Bethe's small hole coupling theory and the equivalent circuit method, but these methods are only calculated in a certain part of the cavity. The result is more accurate and not suitable for the calculation of electromagnetic shielding effectiveness inside the entire cavity
Although the numerical method has a wide range of applications, high calculation accuracy, and accurate results, the calculation speed is slow and takes a long time, and professional software is required. Therefore, it is of practical significance to develop an analytical model with high calculation efficiency, accurate results, and clear physical meaning.

Method used

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  • A Method of Calculating the Partition Analytical Model of Internal Field Distribution of Open Rectangular Shield
  • A Method of Calculating the Partition Analytical Model of Internal Field Distribution of Open Rectangular Shield
  • A Method of Calculating the Partition Analytical Model of Internal Field Distribution of Open Rectangular Shield

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Experimental program
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Effect test

Embodiment 1

[0056] Embodiment 1, specific implementation steps

[0057] Step 1: According to the distance from the inside of the rectangular shield with holes to the surface of the hole, the rectangular shield with holes can be divided into three areas: the space within 1 times the diameter of the small hole is the small hole area; The space within 1 times the diameter of the small hole is the dipole region; the part outside 4 times the diameter of the small hole is the waveguide region.

[0058] Step 2: the model used in this preferred embodiment is as figure 1 As shown, it is a height = 120mm, width = 300mm, depth = 300mm; the opening radius is r = 10mm, and the diameter is d c =20mm, the material is a metal cavity of an ideal conductor. The applied incident plane wave is vertically incident and polarized along the x-axis, and the electric field strength of the polarized incident plane wave along the x-axis direction is E 0 =1V / m. The observation point is located on the central axi...

Embodiment 2

[0066] At 1GHz and 500MHz, the shielding effectiveness of the magnetic field inside the shield with openings varies with the position of the observation point as follows figure 2 , 3 Shown:

Embodiment 3

[0068] At 1GHz and 500MHz, the shielding effectiveness of the electric field inside the shield with openings varies with the position of the observation point as follows Figure 4 , 5 Shown:

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Abstract

The invention, which belongs to the technical field of electromagnetic shielding, discloses a region-division analytical model for calculating internal field distribution of a bored rectangular shielding body. A region inside a bored rectangular shielding body is divided into a small hole region, a dipole region and a waveguide region; and nalytical models are established in different regions, wherein the analytical models are as follows: a bored infinitely-great metal plate equivalent way used by the small hole region, a dipole radiation model approximating way is employed by the dipole region, and a waveguide mode is employed by the waveguide region for equivalence. On the basis of the analytical models, the internal field distribution of the bored rectangular shielding body is calculated and thus an electromagnetic shielding efficiency is obtained; and on the basis of comparison with a full-wave simulation result, correctness of the analytical models is verified. According to the invention, the physical meaning becomes clear; the calculation speed is fast; and the efficiency is high. Moreover, a field distribution rule of all sub regions inside the bored cavity can be described accurately; and the region-division analytical model has the guidance significance in studying internal field distribution of the bored shielding body.

Description

technical field [0001] The invention belongs to the technical field of electromagnetic shielding, in particular to a method for calculating a partitioned analytical model of the internal field distribution of a rectangular shielding body with openings. Background technique [0002] Electromagnetic shielding is one of the main technical measures to suppress electromagnetic interference. It has a wide range of applications. A common method is to apply a metal cavity to the outer shell of the equipment to isolate the source of disturbance and sensitive equipment to achieve the purpose of electromagnetic shielding. A completely enclosed metal cavity has good electromagnetic shielding effectiveness, but in practical applications, due to considerations of heat dissipation, ventilation, etc., and technical limitations, there are inevitably openings and gaps in the cavity, which makes the shielding effectiveness Therefore, the electromagnetic field shielding effectiveness of the ope...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R29/08G06F17/50
CPCG01R29/0835G06F30/20
Inventor 焦重庆何日胡逸帆
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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