开关点预置最优SPWM变换器控制方案研究

开关点预置的正弦脉宽调制变速恒频电源,对开关点进行最优设定,使得输出电压性能优良。由于ＧＴＲ的开关频率限制,传统的开关点预置控制方案为９块波开关点预置最优ＳＰＷＭ控制方案。本文详细地讨论了开关点预置ＳＰＷＭ控制方案的理论,并针对以ＩＧＢＴ作为主功率模块的变换器,通过提高斩波频率,采用１７块波的开关点预置最优ＳＰＷＭ控制方案,进一步提高了输出电压质量和输出滤波器的谐振频率,减轻了输出滤波器体积重量,     

太阳空间探测进展与展望

摘要：为了探索太阳空间探测活动的发展方向,在广泛调研太阳空间探测任务的基础上,综合考虑任务实施年代、轨道设计、探测要素、技术特点和成果影响力,选取了10个典型空间太阳探测器,对其科学目标、有效载荷、卫星平台特性和科学发现进行了分析,提炼总结了太阳空间探测的进展和发展趋势。总体而言,太阳探测器运行轨道逐步多样化,有效载荷探测要素更加丰富,探测精度、时空分辨率等显著提升,但仍存在大量问题待解决。在分析现阶段成果和待解决问题的基础上,提出了太阳空间探测的发展展望,指出了全方位、多要素探测是破解太阳物理和空间天气预报发展瓶颈的可行途径。     

Stewart平台卫星动力学建模与姿态指向一体化控制

针对Stewart平台卫星大范围快速机动后的指向控制问题,提出了考虑翼板柔性的Stewart平台卫星动力学建模与姿态指向一体化控制方法。对考虑柔性翼板的Stewart平台卫星的动力学建模与主动控制进行了研究,采用力学基本原理和混合坐标法建立系统的刚柔耦合精确动力学模型,并提出一种同时考虑平台载荷指向与隔振的协同控制方案。数值仿真结果表明,所建立的动力学模型能够准确地描述系统的动力学行为,所提控制方案能够有效提高卫星平台的姿态指向精度。与未施加控制的情况相比,该方案能够将支撑杆的变形量减少到千分之一,从而保证了结构安全。此外,还分析了翼板柔性对Stewart平台卫星姿态控制的影响,结果表明翼板柔性对下平台姿态精度有较大影响,对上平台姿态精度影响较小。     

太阳帆航天器在绕地轨道中的热诱发振动

太阳帆航天器在绕地轨道中将会周期性地进出地球阴影,经历热环境的剧烈变化,在热辐射冲击作用下,太阳帆这种大柔性空间结构的热致响应值得研究。以方形有桅杆式太阳帆为研究对象,考虑热辐射等非线性因素,建立了太阳帆的热-结构耦合动力学模型,分析了太阳帆桅杆-薄膜结构热诱发振动的特点和影响因素。分析结果表明：太阳帆由地球阴影区进入光照区将会发生明显的热诱发振动;随着热流入射角的增大,太阳帆桅杆截面的摄动温度减小,热诱发振动减弱,频率不变;太阳帆桅杆刚度的增大有利于抑制结构热诱发振动的发生;帆膜预应力将会影响太阳帆的热诱发振动,随着桅杆轴力增大,热诱发振动的振幅增大,频率减小,当轴力增大至一定程度,太阳帆的热诱发振动将会发散。     

Galactic cosmic ray modulation for sunspot cycle 23

We present a study of the galactic cosmic ray modulation for sunspot cycle 23. We use the monthly and the annual mean hourly, pressure corrected, data from neutron monitors of the global network (monthly rate is calculated as the average of the hourly pressure corrected values). We draw attention to an asymmetry in the galactic cosmic ray (GCR) recovery during odd and even cycles for the monthly mean hourly rate data. For over half a century of observations, we find that the recovery for the odd cycles is to a higher level than for the even cycles. Qualitatively the effect is ascribed to charged particle drifts in inhomogeneous interplanetary magnetic field. Even so it has not been possible to arrive at a quantitative, self-consistent, explanation in terms of drifts at higher and lower GCR rigidities. We also study the rigidity dependence of the amplitude of 11-year modulation over a wide range (1–200 GV) of GCR spectrum; it is a power law in rigidity with an exponent −1.22. We discuss the implication of these findings on quasi-linear diffusion theories of modulation. We reflect on GCR recovery pattern for 2006–2009.     

利用数字伺服实现被动型氢钟单频锁定

介绍了一种用于被动型氢钟单频调制的数字伺服电路,实现了系统的锁定,测试了中短期稳定度。最后分析了D/A的位数对其稳定度的影响。     

Response of the mid-latitude D-region ionosphere to the total solar eclipse of 22 July 2009 studied using VLF signals in South Korean peninsula

In this paper, we analyze VLF signals received at Busan to study the the D-region changes linked with the solar eclipse event of 22 July 2009 for very short (∼390 km) transmitter–receiver great circle path (TRGCP) during local noon time 00:36–03:13 UT (09:36–12:13 KST). The eclipse crossed south of Busan with a maximum obscuration of ∼84%. Observations clearly show a reduction of ∼6.2 dB in the VLF signal strength at the time of maximum solar obscuration (84% at 01:53 UT) as compared to those observed on the control days. Estimated values of change in Wait ionospheric parameters: reflection height (h′) in km and inverse scale height parameter (β) in km⁻¹ from Long Wave Propagation Capability (LWPC) model during the maximum eclipse phase as compared to unperturbed ionosphere are 7 km and 0.055 km⁻¹, respectively. Moreover, the D-region electron density estimated from model computation shows 95% depletion in electron density at the height of ∼71 km. The reflection height is found to increase by ∼7 km in the D-region during the eclipse as compared to those on the control days, implying a depletion in the Lyman-α flux by a factor of ∼7. The present observations are discussed in the light of current understanding on the solar eclipse induced D-region dynamics.     

晴空环境下的地基面天线多场耦合分析及试验

大口径高频段的地基面天线在晴空环境下的热变形对电性能影响明显。针对这一问题,首先     

太阳能模型飞机的设计方法研究

从太阳能模型飞机的发展状况,分析了太阳能电池应用在航模飞机上的技术难点,针对机载平台、太阳能电池应用、推进系统三方面提出了合理的解决优化方案。实践表明了在光照充足的情况下,能达到只依靠太阳能电池作为动力,实现滑跑起飞的要求。     

In-Situ Solar Wind and Magnetic Field Signatures of Interplanetary Coronal Mass Ejections

The heliospheric counterparts of coronal mass ejections (CMEs) at the Sun, interplanetary coronal mass ejections (ICMEs), can be identified in situ based on a number of magnetic field, plasma, compositional and energetic particle signatures as well as combinations thereof. We summarize these signatures and their implications for understanding the nature of these structures and the physical properties of coronal mass ejections. We conclude that our understanding of ICMEs is far from complete and formulate several challenges that, if addressed, would substantially improve our knowledge of the relationship between CMEs at the Sun and in the heliosphere.