基于ANSYS的大功率半导体光放大器的热分析  

Thermal Analysis of High-power Semiconductor Optical Amplifiers Based on ANSYS

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作  者:阳英[1] 柴广跃[1] 段子刚[1] 高敏[1] 张浩希[1] 

机构地区:[1]深圳大学光电工程学院,深圳518060

出  处:《电子与封装》2008年第9期4-7,共4页Electronics & Packaging

摘  要:功率型半导体光放大器(High-Power Semiconductor Optical Amplifier,以下简称HP-SOA)在长距离自由空间光通信等领域有着诱人的应用前景,1550nm波段高速、大功率光源的需求日益增加,促进了HP-SOA技术的发展。随着输出功率的提高,HP-SOA热耗散功率也随之增加,其热特性对器件性能影响日趋明显,需及时散热。因此散热问题的解决是一个很关键的技术,高效率的器件散热结构设计十分必要。文章利用ANSYS有限元分析软件对输出光功率26dBm的大功率SOA器件的温度场分布进行了模拟和优化设计,为SOA封装材料、工艺方案的选择提供了依据,并据此进行了封装实验。The HP-SOA has a promising future in long-distance free-space optical communications. With the growing demand of high-speed and high power light source of 1550nm wavelength, the development of HP-SOA technology is accelerated. Heat increases going with the higher the output power, need to be dissipated in time. Because thermal characteristic has a tremendous impact on the performance, it's a key technology to dissipate the thermal. And it' s necessary to design the heat dissipation devices with good efficiency. ANSYS is applied for the temperature distribution simulation and optimization of HP-SOA with 26dBm out-put power, it provides a guidance to choose appropriate packaging materials and process, and the experience has been done against the results.

关 键 词:大功率 半导体光放大器 温度分布 热特性 

分 类 号:TN305.94[电子电信—物理电子学]

 

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