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Method for testing azimuthal angle of base station antenna

A technology for base station antennas and testing methods, which is applied to antennas, antenna parts, antenna supports/installation devices, etc., which can solve problems such as unfavorable pointer sensitivity, large mutual deviation, and inability to ensure stability of handheld instruments, so as to avoid subjective factors , the effect of accurate test results

Inactive Publication Date: 2017-01-11
FUZHOU FUGUANG ELECTRONICS
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Problems solved by technology

Limited by being far away from the antenna under test, the tester can only make judgments on the basis of experience when aligning, and the stability of the hand-held instrument cannot be guaranteed, and the sensitivity of the pointer itself is very unfavorable for accurate measurement of the azimuth value; therefore, in The industry believes that the test deviation of the compass is above ±15°, while the mutual deviation of the test results of the same test object and different testers is even greater
The method of testing the azimuth with the compass is limited by the interference of the magnetic field and cannot be tested within the close range of the antenna

Method used

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  • Method for testing azimuthal angle of base station antenna

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Embodiment Construction

[0019] Such as figure 1 As shown, the test method of the base station antenna azimuth angle of the present invention comprises the following steps:

[0020] Step 10. Find a good magnetic field position A with a magnetic field value ranging from 35 to 55 on the side or rear of the base station antenna; the good magnetic field position A is at least 0.6 meters away from the side of the base station antenna. If the magnetic field value of the good magnetic field position A exceeds the range of 35 to 55, degaussing calibration should be performed first; the calibration method is: hold the test equipment, stretch the arm slightly, and shake it for 3 to 5 seconds Degaussing, in order to optimize the acquisition environment of the orientation value.

[0021] Step 20. Lift the test equipment vertically and stay at position A for 2-3 seconds. If the magnetic field value judged by the test equipment is 35-55, the vertical deviation of the pitch angle is ±7°, and the azimuth value jump ...

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Abstract

The invention provides a method for testing an azimuthal angle of a base station antenna. The method comprises steps as follows: a good magnetic field position A with a magnetic field value in an interval of 35-55 is searched from the side edge or the back of the base station antenna; test equipment is vertically lifted and stays in the position A for 2-3 s, and when vertical deviation of a pitch angle and step amplitude of an azimuthal value are both in a reasonable range, the azimuthal value a is locked by the test equipment, and a tester is prompted; after the tester acquires the prompt, a meter is slowly translated and attached to the back position B of the base station antenna at a constant speed; the condition that the test equipment is in a non-moving or micro-moving state for 3-5 s is acquired through comprehensive monitoring for a gyroscope, a three-axis acceleration sensor and a magnetic sensor, then a specific rotating angle is locked automatically, a translation angle value b is obtained, and an accurate azimuthal value c of the base station antenna is obtained according to a calculation formula shown in the specification. Therefore, the optimal test is realized through optimization of various sensors and filtering of data.

Description

technical field [0001] The invention relates to a method for testing the azimuth angle of a base station antenna. Background technique [0002] Traditionally, a compass is used to measure the azimuth angle of the base station antenna. At a position with a relatively large vertical / horizontal distance from the measured antenna, (human) single-eye aim the compass aiming at the direction of the base station antenna, and then read the azimuth value from the scale facing the N pole of the magnetic needle. Limited by being far away from the antenna under test, the tester can only make judgments on the basis of experience when aligning, and the stability of the hand-held instrument cannot be guaranteed, and the sensitivity of the pointer itself is very unfavorable for accurate measurement of the azimuth value; therefore, in The industry believes that the test deviation of the compass is above ±15°, while the mutual deviation of the test results of the same test object and differen...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C1/00H01Q1/24
CPCH01Q1/246G01C1/00
Inventor 孙毅林永生夏文祥陈鑫
Owner FUZHOU FUGUANG ELECTRONICS
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