Adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system

A single-chip system and microwave detection technology, which is applied in radio wave measurement systems, electric vehicles, electrical devices, etc., can solve problems such as low integration, high power consumption, and narrow frequency band, so as to reduce power consumption and cost, and avoid The effect of volume and complexity, the effect of accuracy improvement

Inactive Publication Date: 2018-10-09
SOUTHEAST UNIV
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Problems solved by technology

However, in the existing technology, the detection of microwave signals is measured by some large devices, which have the disadvantages of large volume, high power consumption, narrow frequency band, and low integration.

Method used

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  • Adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system
  • Adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system
  • Adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system

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Embodiment Construction

[0020] The adaptive radar that the present invention faces is made up of antenna 33, transceiver conversion circuit 34, adaptive radar receiving system 31 and adaptive radar transmitting system 32, and adaptive radar receiving system 31 is made up of MEMS microwave detection and demodulation monolithic integrated system 25, The signal memory 26 and the signal analyzer 27 are cascade-connected to realize the detection and analysis of the unknown radar signal; the adaptive radar transmitting system 32 is composed of a microwave signal reconstruction 28, a microwave signal modulator 29 and a microwave signal power amplifier 30 to realize the detection and analysis of the unknown radar signal. Modulation and retransmission of unknown radar signals.

[0021] The self-adaptive radar phase comparison cantilever micro-electromechanical microwave detection and demodulation monolithic system of the present invention consists of a six-port cantilever coupler 1, a microwave frequency detec...

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Abstract

The invention discloses an adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system. The system is mainly formed by a six-port cantilever beam coupler, a microwave frequency detection module, a microwave phase detection module, and a microwave power detection and demodulation module. An adaptive radar is formed by an antenna, a transmit-receive conversion circuit, a MEMS microwave detection and demodulation single chip integration system, a signal memory, a signal analyzer, microwave signal reconstruction, a microwavesignal modulator, and a microwave signal power amplifier. Through the above structure, the three detection modules of the power, frequency and phase of a microwave signal can be integrated, and the simultaneous synchronous detection of the power, frequency and phase of the microwave signal at the same time and the demodulation of a modulated signal can be completed, and the adaptive radar phase comparison method cantilever beam microcomputer electric microwave detection and demodulation single chip system is realized.

Description

technical field [0001] The invention proposes an adaptive radar phase comparison cantilever beam micro-electromechanical microwave detection and demodulation monolithic system, which belongs to the technical field of micro-electromechanical systems. Background technique [0002] Although the electronic countermeasure system of the existing radar can quickly and accurately identify the enemy radar system working in the common band, but this kind of matching, jamming and deception of the enemy radar signal based on the known threat, once the enemy If the radar signal is not obvious enough or is an unknown signal, the countermeasure effect will be seriously reduced. To improve the countermeasure effect, it is necessary to reproduce the countermeasure signal with high precision. Therefore, microwave communication signal detection and demodulation play a very important role in adaptive radar equipment. At present, most microwave devices work in the GHz frequency band. The wavele...

Claims

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Application Information

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IPC IPC(8): G01R21/00G01R23/02G01R25/00G01S7/36
CPCG01R21/00G01R23/02G01R25/00G01S7/36
Inventor 廖小平吉思超
Owner SOUTHEAST UNIV
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