The left and right channels are combined to one digital data string via a multiplexor 通过多路转换器将左右声道合成一个声道。
4.
In chapter 4 we also describe some details of the packet scheduling algorithm . finally , we will introduce the hardware scheme of multiplexor 最后我们将在第五章中讨论复用设备中复接器部分的硬件结构。
5.
Type of multiplexor that combines multiple channels onto a single transmission medium in such a way that all the individual channels can be simultaneously active 一种多路(复用)器,可合成多个线路到一个传输介质上去,这样所有的单一的线路都可同时工作。
6.
In this paper , we mainly focus on the software design of multiplexor , the design and simulation of packet scheduling algorithm and the implement of synchronic communication chip 本论文的主体是语音?数据复接设备中多路复用器的软件设计、调度算法彷真和硬件设计中同步串行芯片的的实现。
7.
In order to satisfy the special requirement of synchronic serial communication protocol between multiplexor and synchronic data terminal , we design the special communication chip with cpld . in chapter one we introduce some multiplexing technology , in chapter two , we describe the key technology and system design . the introduction of the multiplexor communication protocol , including the link establishment , communication synchronic , and frame definition , will be described in chapter 3 本文的第一章介绍目前比较常用的复用技术;第二章介绍了语音?数据复用设备的系统组成,关键技术和方案设计;第三章详细介绍了复用设备中所使用的一种简单通信协议mcp ( multiplexorcommunicationprotocol ) ,包括通信链路的建立、通信双方同步、帧结构的定义等;在第四章中,我们介绍语音?数据复用设备中所使用的复用(调度)算法及彷真结果。
