双混频时差测量系统设计中的理论和技术问题

从分析双混频时差(DMTD)测量系统的测量误差着手,对系统设计和使用中常磁到的一些理论和技术问题进行了探讨,这涉及到公共源的影响、移相器的作用、自校和测量中的其它问题。     

移相谐振PWM技术的研究

本文着重讨论在高频应用场合下的移相零电压谐振ＰＷＭ 技术，分析移相型谐振变换器、谐振腔电路及定频ＰＷＭ（脉宽调制）技术中的设计规范。     

船载遥测设备海上跟踪同步星标校的方法

结合船载遥测设备和测量船的特点,提出船载遥测设备海上跟踪同步星标校的方法,并通过试验数据进行验证。该方法克服了传统近场标校方法中存在的不足,实现了船载遥测设备海上精确标校。     

Multi-h CPM遥测信号的定时频率联合估计技术

针对Multi-h CPM（Multi-h Continue Phase Modulation,多指数连续相位调制）遥测接收机的符号定时和载波频率同步问题,在分析MLSD（Maximum-likelihood Sequence Detection,最大似然序列检测）度量值是符号定时偏差和频率偏差的凸函数的基础上,提出一种基于迟/早门和升/降频门的符号定时和频率同步联合估计算法,通过似然值比较,对符号定时偏差和频率偏差进行迭代估计;并对该算法进行仿真,得到不同参数下的同步性能,给出同步参数选择建议.仿真结果表明：将该算法应用到Multi-h CPM遥测系统中,可实现低信噪比信号的快捕和高精度同步.     

GPS phase difference variation statistics: A comparison between phase scintillation index and proxy indices

Scintillated GPS phase observations are traditionally characterized by the phase scintillation index, derived from specialized GPS receivers usually tracking at 50 Hz. Geodetic quality GPS receivers, on the other hand, are normally tracking at frequencies up to 1 Hz. However, availability of continuously operating geodetic receivers both in time and geographical location are superior to scintillation receiver’s coverage in many parts of the world. This motivates scintillation studies using regional and global geodetic GPS networks. Previous studies have shown the usefulness of GPS estimated total electron content variations for detecting ionospheric irregularities. In this paper, collocated geodetic and scintillation receivers are employed to compare proxy indices derived from geodetic receivers with the phase scintillation index during quiet and moderately disturbed ionospheric conditions. Sensitivity of the phase scintillation indices at high latitude stations to geomagnetic activity is discussed. Global mapping of ionospheric disturbances using proxy indices from real-time 1 Hz GPS stations are also presented.     

波形记录仪触发延迟线性的实验研究

提出了使用正弦波激励评价触发延迟线性度和触发抖动的新方法，通过一个波形在有触发延迟和无触发延迟时，采集序列间的相位差对应的时间差来最终判定触发延迟结果。用该方法实现的触发延迟线性度测量方法，将触发延迟直接溯源到激励信号的频率量上，无需额外的精密延时器等装置，减少了测量环节，并且可以实现任意延迟的精确测量。以不同频率、不同触发延迟、不同采集速率下的实验结果的对比给出了触发延迟线性校准的结论性意见，同时验证了所述方法的有效性和切实可行性。     

WIOBSS: The Chinese low-power digital ionosonde for ionospheric backscattering detection

The ionospheric laboratory of Wuhan University has developed an ionosonde over about seven years. The prototype is designed as a portable, low-power digital MF (medium frequency) and HF (high frequency) radio system with high range and Doppler resolution. The first system is used for ionospheric oblique backscattering detection and called WIOBSS (Wuhan Ionospheric Oblique Backscattering Sounding System). WIOBSS is a portable monostatic ionosonde for both ionospheric research and HF channel management, adopting alternate transmitting and receiving patterns to transmit long coded pulse trains for high pulse compression gain. The almost perfect sequences are applied to modulate the pulse train for sounding without range sidelobes and the echo phase is used to estimate the Doppler velocity and velocity fluctuation. This paper introduces the new techniques adopted by WIOBSS and presents some observations.     

8802超低频标准相位产生器

８８０２超低频标准相位产生器采用数字技术，用Ｄ／Ａ变换方法产生正弦信号，由单片机控制频率和相位，频率由晶振综合产生，相位可数字预置，频率准确度高至±５×１０￣（－６），相位准确度高至±０．０００２°。介绍了主要技术指标、工作原理、技术特点和误差分析等。     

一种新型恒温—温补晶体振荡器

提出了一种ＯＣＸＯ的恒温控制方法。该方法是利用乙醇的沸点制成换态式恒温箱。这种温度控制方法既可以用作中准确度的ＯＣＸＯ，又可以作为精密双层控温ＯＣＸＯ的外层恒温装置，还可以与简单的温补线路结合，构成高准确度的ＯＴＣＸＯ。     

太阳同步卫星双星组网维持策略

某准共面星座由两颗相位差为 180°的太阳同步卫星组成。在对其进行轨道维持时 ,需综合考虑相位差和地面轨迹范围两方面的限制。然而 ,由于这两颗卫星的轨道倾角存在差异 ,使得在轨道维持过程中不能同时满足相位差和地面轨迹的要求。为解决上述问题 ,本文提出了调整地面参考轨迹的方法 ,实践证明有效。