5G network antenna
What is a third-order intermodulation antenna?
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1、 Definition and Principle
1. Definition: Third Order Inter modulation refers to the interference signal of the third frequency caused by the nonlinear characteristics of the antenna or its related passive components (such as connectors, feeders, etc.) when the antenna receives signals of two different frequencies.
2. Principle: The generation of third-order intermodulation signals is due to the presence of nonlinear factors, which cause the second harmonic of one signal to produce a parasitic signal after beating (mixing) with the fundamental wave of another signal. This intermodulation phenomenon can cause two or more carrier frequencies outside the frequency band to mix and fall within the frequency band, generating new frequency components and resulting in a decrease in system performance.
2、 Indicators and Evaluation
1. Indicator: The third-order intermodulation indicator is usually represented by IP3 (third cut-off point). It refers to the interference signal power generated by the third intermodulation on the input-output curve, which is equal to three times the original signal power, when the nonlinear distortion of the output power is severe to a certain extent.
2. Evaluation method: Evaluating the third-order intermodulation index of the antenna requires a series of experiments and tests. Usually, a signal generator is used to input two signals of different frequencies, and then the non-linear distortion of the output signal is received and measured through an antenna to obtain the third-order intermodulation index of the antenna. In addition, the third-order intermodulation performance of the antenna can be evaluated through simulation and theoretical analysis.
3、 Influencing factors and optimization
1. Influencing factors: The third-order intermodulation performance of an antenna is influenced by various factors, including the design, materials, manufacturing processes, and the quality and performance of the passive components (such as connectors, feeders, etc.) connected to it. In addition, environmental factors such as temperature, humidity, etc. may also affect the third-order intermodulation performance of the antenna.
2. Optimization method: In order to optimize the third-order intermodulation performance of the antenna, the following measures can be taken:
Optimize antenna design by using materials and manufacturing processes with better linearity.
Improve the quality and performance of passive components, ensuring tight and smooth connections.
Regularly maintain and inspect the antenna system, promptly identify and address potential issues.
4、 Application and Prospect
1. Application areas: Large antennas for third-order systems have a wide range of applications in communication, radar, and other fields. In the field of communication, it can be applied to satellite communication, mobile communication, radio communication and other fields; In the field of radar, it can be applied to aviation, aerospace, ocean exploration and other fields.
2. Development prospects: With the continuous development of communication technology and the increasing demand for applications, higher requirements have been put forward for the third-order intermodulation performance of antennas. In the future, with the continuous emergence of new materials, processes, and technologies, the third-order intermodulation performance of antennas will be further improved, providing more powerful technical support for the development of communication, radar, and other fields.
What impact does a third-order intermodulation antenna have on the received signal?
1、 Signal distortion
The third-order intermodulation phenomenon can cause distortion in the signal received by the antenna. When two or more signals of different frequencies enter the antenna simultaneously, due to the nonlinear characteristics of the antenna, these signals will generate intermodulation interference, resulting in new frequency components. These new frequency components may interfere with the original signal, causing changes in the signal waveform and introducing distortion.
2、 Increased interference
The interference signal generated by third-order intermodulation may interfere with the normal operation of the receiver. These interference signals may fall within the passband of the receiver, competing with the original signal, resulting in the receiver being unable to accurately identify and demodulate the original signal. In communication systems, this interference may lead to a decrease in communication quality, and even cause communication interruptions.
3、 Decreased sensitivity
Third order intermodulation interference may also lead to a decrease in receiver sensitivity. Due to the presence of interference signals, the receiver requires higher signal strength to accurately identify and demodulate the original signal. This may result in a decrease in the performance of the receiver at the same signal strength, making it impossible to achieve the expected communication effect.
4、 Limited coverage
Third order intermodulation interference may also affect the coverage range of communication systems. Due to the presence of interference signals, signals may experience attenuation and interference during transmission, thereby reducing their coverage range. This may result in the inability to receive signals in certain areas, or poor signal quality when signals are received.
5、 Spectrum pollution
The interference signal generated by third-order intermodulation may also cause spectrum pollution. These interfering signals may occupy the frequency bands originally used for other communications, leading to a shortage of spectrum resources. In the case of limited spectrum resources, this pollution may further exacerbate the tension of spectrum resources.
How to prevent the influence of third-order intermodulation antennas?
1、 Optimize antenna design and layout
1. Choose a high-quality antenna:
Choose antennas with good linearity and low third-order intermodulation index to reduce the generation of nonlinear distortion and intermodulation interference.
2. Increase the antenna spacing:
In a multi antenna system, increasing the distance between the transmitter and the transmitter antenna can reduce coupling and intermodulation interference between signals.
3. Independent use of antenna:
Try to use independent antennas between each transmitter and increase the horizontal and vertical isolation distance between antennas to reduce the possibility of intermodulation interference.
2、 Improve the performance of passive components
1. Select high-quality passive components:
The quality and performance of passive components such as connectors and feeders have a significant impact on the third-order intermodulation performance of antennas. Therefore, high-quality passive components should be selected to ensure their good electrical and mechanical performance.
2. Regular inspection and maintenance:
Regularly inspect and maintain the antenna system, promptly identify and address potential issues such as loose connectors and aging feeders, in order to reduce the risk of intermodulation interference.
3、 Strengthen signal management
1. Reasonably allocate frequency resources:
In communication systems, frequency resources should be allocated reasonably to avoid frequencies that are too close between adjacent channels, in order to reduce the possibility of intermodulation interference.
2. Control signal power:
On the premise of ensuring communication quality, try to control the transmission power of the signal as much as possible to reduce the generation of nonlinear distortion and intermodulation interference.
4、 Adopting advanced filtering technology
1. Use a filter:
Adding filters to the antenna system can effectively filter out intermodulation interference signals and improve the system's anti-interference ability.
2. Optimize filter design:
Based on actual application requirements, optimize the design of the filter to achieve better filtering performance and lower insertion loss.
5、 Strengthen supervision and testing
1. Establish strict testing standards:
Develop strict testing standards and methods to regularly test the third-order intermodulation performance of antennas to ensure compliance with relevant requirements.
2. Strengthen regulatory efforts:
Strengthen the supervision of antenna systems to ensure that they always maintain good performance during use.
