比特交换和功率调整算法可以作为带宽优化算法的重要组成部分,应用于电力线高速数据通信之中。
The bit swap and power reallocation algorithm can be an important part of dynamic spectrum optimizations of high speed power-line communications.
OFDM技术以其抗干扰性强,传输速率高成为低压电力线高速通信的主流技术。 信道估计算法是OFDM系统接收端的关键技术之一。
OFDM technique has been the mainstream in low-voltage power line communication because of its good capability against interference and high transmission rate.
电力线通信存在随机高斯噪声干扰、多径效应和信道衰减,严重制约了高速数据的传输。
There are stochastic Gaussian noise, multi-path effect and attenuation in the power line communication. It is difficult to transmit high-speed streams.
与传统的宽带接入技术相比,高速电力线通信(PLC)具有更强的市场竞争力。
Compared with traditional access technologies, high speed power line communication (PLC) has greater competing power.
为了设计基于电力线通信( PLC)的高速可靠通信系统,必须了解衰耗、阻抗、噪声等电力线信道特性。
The design of reliable high speed communication systems for power line communication (PLC) requires an accurate knowledge of such channel specific characteristics as attenuation, impedance and noise.
主要探讨了高速电力线通信(PLC)与无线业务,以及不同plc系统间的电磁兼容问题。
The EMC problem between PLC and wireless service, and different PLC systems are discussed.
PL3105是为智能控制设计的电力线通信专用芯片,具有8051指令兼容的高速微处理器、直序扩频的载波通信等强大功能。
PL3105 is an intelligent control ASIC chip of powerline communication. It has 8051 compatible MCU instructions and direct sequence spectrum carrier communication.
PL3105是为智能控制设计的电力线通信专用芯片,具有8051指令兼容的高速微处理器、直序扩频的载波通信等强大功能。
PL3105 is an intelligent control ASIC chip of powerline communication. It has 8051 compatible MCU instructions and direct sequence spectrum carrier communication.
应用推荐