This paper applies two schemes to realize the burst-mode receiver module.
本文采用了两种方案来实现该突发式接收模块。
The technology of multithread is used in both sender and receiver module.
发送和接收模块均采用多线程技术实现。
DBF receiver module, the key component of future digital beamforming (DBF) radar, is introduced in this paper.
本文介绍下一代数字波束形成(DBF)雷达的关键部件—DBF接收机组件。
And based on fully utilizing high-speed-board design methods, a high sensitivity miniature SDH optical receiver module has been developed.
并在充分运用高速板设计方法的基础上研制出高灵敏度小型化sdh光接收模块。
Therefore in the paper high-speed-board design techniques have been minutely analyzed in many sided, combining with optical receiver module making.
为此,本文结合光接收模块的制作,从多个方面对高速板设计技术进行了详细的分析。
Now an entire radar, the transmitter, receiver and antenna, could be shrunk into a single "transmitter-receiver module" about the size of a carton of milk.
现在整个雷达的发射器、接收器和天线可以缩小到一个单个的“发射接收模块”象一个牛奶盒一样大小。
The receiver module of the device could receive signals from several inductive probes. The inductive probes should be installed on the protruding points of the hoisting machinery.
该装置的接收模块能接收多个感应探头的信号,应用时将感应探头安装在起重机各凸出部位。
Chapter 5 particularly introduces basic principle of the circuit of the burst mode signal generator used for the testing of the burst mode optical transmitter and receiver module.
第5章详细介绍了为实现对突发式光收发模块的测试而设计的突发信号模拟产生器的基本原理与各部分功能电路的实现。
Circuit section is composed of the ADC module, DAC module, rotation speed signal receiver module, relay module, power module, RS232 communication module and CAN communication module.
电路部分包含ADC模块、DAC模块、转速脉冲信号接收模块、继电器模块、电源模块、RS232通信模块和CAN通信模块。
Chapter four narrated the design detail in NIM module and USB interface of satellite receiver in detail.
第四章详细叙述了卫星接收机NIM模块和USB接口的设计细节。
Methods an ARM embedded system was used to achieve data transmission by implementing serial communication with GPS module, Beidou receiver and wireless digital broadcasting station.
方法:采用ARM嵌入式系统,并与G PS模块、北斗接收机和数传电台进行串口通信,实现数据的传输。
Transmission structure and function of Fast Information Channel FICDAB is described. A module of FIC decoder for DAB receiver is proposed.
介绍了DAB快速信息通道的传输结构及其作用,提出了一种应用于DAB接收机的快速信息通道解码模块设计方案。
The paper analysis basic theorem of DLL in GPS receiver, simulate DLL using SPW software on SUN workstation, the model of each module and simulation result is presented.
该文分析了GPS接收机中dll的基本原理,利用交互式仿真平台SPW在SUN工作站上实现了DLL仿真,给出了各模块模型和仿真结果。
Waveform forming device, receiver, receiving module, remote control receiver.
波形整形装置,接收机,接收模块和遥控接收机。
The hardware includes GPS receiver, pulse peak acquisition card, GPS clock module and industrial computer.
系统硬件部分包括GPS接收机、GPS时钟模块、脉冲峰值采集卡及工控机。
As an additional functional module, this correction circuit requires no changes to the original structure of the receiver.
整个校正电路为一附加的功能模块,对原接收机结构无要求。
The receiver unit mainly consisted of the digital down converter, matched filter, integration and dump module, power detector, symbol tracking processor, differential demodulator and so on.
接收部分主要是扩频系统的数字下变频、积分清洗、匹配滤波器解扩、功率检测、符号跟踪、差分译码等技术。
This function is used to forward link IS-95 system simulation, including the spread spectrum modulation, matched filter, RAKE receiver, and other related communication module.
此函数用于IS-95前向链路系统的仿真,包括扩频调制,匹配滤波,RAKE接收等相关通信模块。
This function is used to forward link IS-95 system simulation, including the expansion of frequency modulation, matched filter, RAKE receiver, and other related communication module.
此函数用于IS- 95前向链路系统的仿真,包括扩频调制,匹配滤波,RAKE接收等相关通信模块。
At last, the paper designs the module structure and the feedback method between modules, implements the DRM receiver in the computer.
论文最后根据DRM系统数据处理过程设计了各功能模块的结构和信息反馈方式,在计算机中实现了整个接收机系统。
The performance of a digital receiver will be changed significantly when the equivalent noise temperature of the A/D module rises to hundred thousands degrees.
等效噪声温度高达数十万度的A/D模块,引起了数字接收机性能的深刻变化。
And we carry on carefully the theoretical research and systematic analysis of channelized receiver with poly - phase filters. in addition, we carry on simulations for channelization processing module.
针对基于多相滤波的数字通道化接收机,进行了仔细的理论研究和系统分析,并在此基础上,对通道化处理部分进行了模拟实现。
Finally, bias circuits are designed for the S-band radar receiver LTCC module, the layout and simulated validation are carried out with the LTCC technics requirement.
最后针对S波段接收机前端设计了偏置电路,并按LTCC工艺要求对该接收机前端进行了布局布线和最后的仿真验证。
Finally, bias circuits are designed for the S-band radar receiver LTCC module, the layout and simulated validation are carried out with the LTCC technics requirement.
最后针对S波段接收机前端设计了偏置电路,并按LTCC工艺要求对该接收机前端进行了布局布线和最后的仿真验证。
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