用于空对空导弹引信应用的MMIC雷达芯片

IEEE 1996 Microwave and Millimeter-Wave Monolithic Circuits Symposium. Digest of Papers Pub Date : 1996-06-17 DOI:10.1109/MCS.1996.506332

M. Pollman, P. Katzin, B. Bedard, V. Aparin, W. Grammer, R. Orgusaar

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引用次数: 6

摘要

下一代空对空导弹将需要目标探测装置(TDD)，该装置必须利用定向目标传感来优化武器效能。传统上，集中式雷达接近传感器在固定定向天线元件之间顺序切换，以提供所需的方向性。这种实现涉及昂贵且庞大的射频电缆和开关电路，以将TDD连接到每个天线元件。通过利用微波单片集成电路(MMIC)技术，一种单一的雷达芯片已经被开发出来，它允许同时运行超小型、低成本的引信传感器，这些传感器安装在每个天线元件的背面，避免了对射频开关和电缆的需要。所描述的MMIC包括将每个雷达传感器同步(锁相)到公共低频时钟信号所需的所有RF电路。这使得所有定向引信传感器可以同时工作，而不会相互干扰，从而形成一个有吸引力的、低成本的、小型化的TDD电子封装。

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A MMIC radar chip for use in air-to-air missile fuzing applications

The next generation of air-to-air missiles will require Target Detecting Devices (TDD) that must utilize directional target sensing to optimize weapon effectiveness. Conventionally, a centralized radar proximity sensor is switched sequentially between fixed directional antennas elements to provide the required directionality. This implementation involves expensive and bulky RF cabling and switching circuits to connect the TDD to each antenna element. By utilizing Microwave Monolithic Integrated Circuit (MMIC) technology, a single radar chip has been developed which allows for the simultaneous operation of ultra-miniature, low-cost fuze sensors which are mounted onto the backside of each antenna element, obviating the need for RF switches and cabling. The MMIC described includes all the RF circuitry required to operate each radar sensor synchronously (phased-locked) to a common low frequency clock signal. This allows all directional fuze sensors to be operated simultaneously without mutual interference, and results in an attractive, low-cost, miniaturized TDD electronic package.

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IEEE 1996 Microwave and Millimeter-Wave Monolithic Circuits Symposium. Digest of Papers

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