1) frequency standard
频标
1.
This paper introduces briefly the theory and experimental design of atomic fountain tech-nipue,and the prolpects of application in frequency standard.
实验设计以及在频标方面的应用前景。
2) RFID
射频标签
1.
Identification of Surface Acoustic Wave RFID Based on Frequency Stepped Continuous Wave;
基于频率步进原理的声表面波射频标签的辨识
2.
An RF Interface for Ultra High Frequency Passive RFID Tag;
超高频无源射频标签的射频接口设计
3.
The RFID can enhance the medicine management to a more convenient and safer level.
药房大型机械自动化设备的引入可极大地节省人力并能减少医疗事故的发生,而射频标签(RFID)的应用可提高药品的管理水平,使药品管理更加方便、安全。
4) frequency standard
频率标准
1.
The design projects of the GPS frequency standard,phase comparing unit and time difference comparing unit are described in detail,and the software design scheme of the system is also given in this paper.
本文详细描述了系统中GPS频率标准源以及比相法、时差法频标比对单元的设计方案和软件设计思路,并给出了设计方案中关键技术解决的途径。
2.
This paper introduces and analyzes the GPS controlled frequency standard work principle,technical characteristics and the system function.
介绍和分析了GPS监控铷原子频率标准的工作原理、技术性能和系统功能,阐述了GPS技术在时频计量测试中的应用和优势。
3.
On measuring the functions of frequency standards,high comparison accuracy is needed in the testing system.
频率标准源可以提供精确的标准频率,在测定频率标准源的各项性能指标时,要求测试系统必须具有很高的比对精度。
5) atomic frequency standard
原子频标
1.
Application study on opto-electronic component based on photoelectric detecting circuit of the atomic frequency standard;
光电器件在原子频标光电检测环路中的应用研究
2.
Practice of DDS based on CORDIC algorithm in rubidium atomic frequency standard;
基于CORDIC算法的DDS在铷原子频标中的实践
3.
The Modulation circuit is the bridge of changing the error signal of physics system to servo signal of circuit in the passive atomic frequency standard.
在被动型原子频标中,调制电路在物理系统与光电检测环节起到非常重要的作用,通过对微波探询信号加一小调频,完成物理系统的原子纠偏信号转换成伺服检测电路用信号过程。
6) frequency standard comparison
频标比对
1.
High resolution frequency standard comparison method;
一种高精度频标比对方法
2.
Based on the recognition of periodic law of phase variance between two periodic frequencies, on the reference of previous frequency standard comparison methods and the basis of phase-coincidence theory, this paper represents a new double phase-detecting freque.
随着科技的高速发展,对原子频标和频标比对精度的要求也愈来愈高,设计出能实现高精度频标比对的仪器设备,在当今的时频测量领域有着十分重大的意义。
3.
A frequency standard comparison platform based on beat-frequency technique has been designed to evaluate the difference of performance between the periodic frequency measurement with counter and the digital beat-frequency signals processing with computer, the fundamental of measurement and realization of the two sets of systems are analyzed.
针对差拍计数器测量系统和差拍数字频标比对系统各自的频率测量特性、精度表现等方面的差异,建立了基于差拍技术的频标比对平台以便进行测试比较。
补充资料:氢原子频标
氢原子频标
hydrogen atomicfrequency standard
qing yUanzi Pinbico氮原子频标(hy枷罗n ato而c份呵uencystan-d田心)利用氢原子自发跃迁制成的频标。所选择的能级为氢原子基态的(1,0)和(0,0)两个超精细能级,对应跃迁频率为1 420405752HZ。原子谐振器的工作原理为磁选态,并采用六极磁铁。与饱原子频标不同的是,氢原子频标是主动型,即不用人工产生感应跃迁所需的激励信号,而可以自激振荡,故氢原子频标又称为氢脉泽。处在(1,0)能级上的氢原子进人一个高p值的谐振腔,腔内存在着各种频率的噪声。在频率为14加如5752HZ的噪声信号的感应下原子向(0,0)能级跃迁,辐射出一部分能量,加强原来的噪声信号,然后又进一步感应跃迁辐射,依此循环下去,很快就在谐振腔内建立起较强的振荡信号,通过藕合环摘出后进一步放大即可使用。电子路线装置的作用是把晶振抽出的5xl护MHZ信号综合到14为xl护M旧压,与原子跃迁后建立起来的信号进行鉴相,最后锁定晶振的sxl护MHZ信号,使两者具有相同的准确度。氢原子跃迁频率受外界的影响较大,且影响量难于准确测定和修正,故其频率准确度只能做到10一’2量级,若要进一步提高其准确度,需用艳原子时频基准进行校准。但氮原子频标的稳定度,无论长期还是短期,都比艳频标好,秒级可到10一’3,1天以上稳定度可达10一’5,特别适合于作优良的守时钟。由于价格贵,体积大,其应用没有艳原子频标广泛。(马风鸣)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条