风云二号
- 网络FY-;fy-2
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风云二号卫星用水汽/热红外双波段探测器
Water-vapor / infrared dual band detector in FY-2 satellite
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风云二号卫星噪声试验高频段控制问题研究
High frequency control of acoustic test of FY-2 satellite
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风云二号B星星载扫描辐射计水汽通道定标方法
Calibration method for water vapor channel of scanning-radiometer carried by FY-2B satellite
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风云二号B星原始云图中频模拟器
Original nephogram if simulator for FY-2B satellite
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风云二号B星原始云图解调器
Original nephogram demodulator of fy-b satellite
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根据卫星发射窗口的一般性和风云二号(FY-2)C气象卫星特定限制条件,计算了2004年10月19日符合要求的发射窗口。
The launch window on Oct.19,2004 was calculated under the general limited conditions and specific limited conditions of FY-2C meteorology satellite in this paper .
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介绍了风云二号(FY-2)C气象卫星地面应用系统应用服务中心(ASC)的功能。
The function of the application service center ( ASC ) was described as a part of FY-2C ground application system in this paper .
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介绍了风云二号(FY2)地球静止轨道自旋气象卫星工程测控的关键技术。
The key technologies used to control FY-2 geostationary meteorological self-spin stabilized satellites were introduced in this paper .
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本文详细论述了FY-2(风云二号)卫星空间环境监测器测试系统的研制目的、意义、组成结构、各部分方案原理和具体实现。
This thesis describes the test system of FY-2 ( Fengyun - ⅱ) satellite space environment monitor for purpose , meaning , structure , principles and implementation of the hardware and software parts .
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介绍了风云二号(FY-2)C星地面应用分系统数据与指令接收站(CDAS)的主要技术指标、工作流程,以及与C星的星地接口与地面应用分系统其他部分的接口。
The main performances and operation flowchart of the commands and data acquisition station ( CDAS ) of the ground application subsystem for FY-2C meteorological satellite were introduced in this paper , and so were the interfaces with the C satellite and other parts of the ground application system .
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针对风云二号(FY-2)气象卫星微波旋转关节地面试验中发生的低气压放电,通过理论计算和模拟试验验证,确定其产生原因为多余物诱发放电。
To the low-pressure discharge in the ground test of microwave rotation joint for FY-2 meteorological satellite , the discharge induced by redundant substance was the reason , which was determined through theoretical computation and simulation approval .
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以风云二号(FY2)气象卫星为例,分析了设计中卫星次承力结构类型、连接、梁形式、功能单机结构和材料等对结构动态性能的影响,并提出了针对性设计改进。
As the example of FY-2 meteorology satellite , the effect of various structure types , joints , beams , structures of individual functional equipment and materials on the dynamic performance of the whole structure was analyzed in this paper . The related recommendation for design was also put forward .
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风云二号静止气象卫星的地面应用系统
The ground application system of the FY-2 geostationary meteorological satellite
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风云二号星上转发器功率放大器的非线性分析与模拟
Analysis and Simulation of nonlinearity of transponder on board geostationary meteorological satellite
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风云二号气象卫星系统及其应用前景
FY-2 geostationary meteorological satellite system and its application prospects
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风云二号气象卫星姿态和沿步进角方向失配角参数对图像影响的模拟研究
Impact Study of Attitude and Misalignment Parameters at FY-2 Image Navigation with Simulation Method
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风云二号02批气象卫星数据处理中心软件工程方法
The engineering method for software of meteorological satellite fy-2c / fy-2d data processing center
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风云二号卫星应答机设计
The Design of FY-2 Satellite Transponder
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针对风云二号气象卫星星上转发器放大器的非线性特性及其带来的交调问题进行了分析。
This paper presents analysis of nonlinearity and its resulitedintermodulation ( IM ) effect of the amplifier of the satellite transponder .
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数据处理中心是风云二号02批静止气象卫星地面应用系统的核心业务处理系统之一。
The data processing center of geostationary meteorological satellite FY-2C / FY-2D ground applied system is one of the kernel operational systems .
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风云二号自旋稳定地球同步气象卫星,以地球脉冲作为姿态控制基准,以太阳脉冲作为图像扫描基准,太阳、地球、卫星三者之间的相对关系在连续不断地运动变化。
The FY-2 spin stabilized geosynchronous meteorological satellite uses the earth pulse for attitude control reference mark and uses the sun pulse for image scan reference mark .
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随后在风云二号气象卫星中频全数字解调器总体结构方案的基础上,对数字下变频和定时同步部分进行了重点研究。
Then , based on the overall structure of the IF all-digital demodulator for FY-2 meteorological satellite , the digital down conversion and the timing synchronization are deeply researched .
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阐述了我国对气象卫星的需求,以及我国已发射的风云一号(FY1)极轨气象卫星和风云二号(FY2)静止气象卫星的概况、主要载荷、性能和某些应用情况。
The requirements for meteorology satellite in China are also discussed . And then the general information , including main load , performance and some application of the developed FY 1 polar meteorology satellite and FY 2 stationary meteorology satellite in China is described .