光时分复用器是光时分复用技术中很关键的一环。
Optical time division multiplexer is a key component in high-speed optical time division multiplexing communication system.
统计时分复用技术应用于SDH设备可实现带宽的按需分配。
The bandwidth allocation on demands will become reality when the technology of statistics & time multiplexing is applied to SDH equipment.
本文综述了光时分复用技术的特点、关键技术、研究现状、发展趋势和应用前景。
This article gives a comprehensive review of the enabling technologies, characteristics, the state -of - the - art of the development and the prospect of OTDM system.
新型遥传仪器仍采用时分复用技术传输数据,但其仪器总线的格式与传统遥传仪器截然不同。
The new kind of telemetry tools uplink the data using TDM technology, but the data format of the tool bus is very different from traditional telemetry tools.
因为它是一种异步的机制,ATM与同步传输模式理论(比如时分复用技术,它为每个用户预定义了时间片)并不相同。
Because it is an asynchronous mechanism, ATM differs from synchronous transfer mode methods, where time-division multiplexing techniques are employed to preassign users to time slots.
光时分复用(OTDM)技术是实现超大容量传输的最有希望的途径之一。
Optical time division multiplexing (OTDM) technology is one of the most promising way to achieve ultrahigh bit rate transmission.
本文提出了时分多机复用的概念,并对其技术和应用加以具体说明,展现了该技术良好的应用前景。
This article proposed the time division multiplexing concept, and explained the technique and the application specifically, described the good application prospect of this technique.
数字复接就是依据时分复用原理完成数码合并的一种技术。
Digital multiplexing is a technology for digital combination which is based on the principle of time-division multiplexing.
时分多路复用(TDM)技术作为最简单有效的复用方案,广泛应用于光纤传感器阵列设计中。
As one of the simplest and most efficient schemes, time-division multiplexing (TDM) is applied to the design of fiber-optic sensor arrays widely.
该合成器采用程控时分复用小数分频锁相技术,解决了快速跳频频率合成中的诸多固难。
Some technique problems in fast frequency hopping synthesis are solved by making use of a programmable time division-fractional division PLL.
本文先后介绍伪卫星应用中的远近效应问题和常用的解决方案,重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。
In the paper, firstly introduce the near-far effect of the pseudolites and traditional solutions, then mainly analysis the TDMA technology and redesign the signal of the pseudolites.
有理数谐波锁模技术是产生高速超短脉冲的重要技术之一,其光时分复用通信技术等领域中有重要的应用价值。
The rational harmonic mode-locking has become a research subject of intense interest due to its application on the generation of ultra- high repetition frequency optical pulse train.
本文提出了一种定时脉冲间隔调制(TPIM)技术实现时分多路复用。
A new type of timed pulse-interval modulation (TPIM) technique in time-division multiplexing communications is proposed.
本文先后介绍伪卫星应用中的远近效应问题和常用的解决方案,重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。
In the paper, firstly introduce the near-far effect of the pseudolites and traditional solutions, then mainly analyse the TDMA technology and redesign the signal of the pseudolites.
为此提出了基于D触发器环路的相控阵信号发生技术和基于时分复用数模转换器(DAC)的相控阵信号发生技术。
Two approaches are developed:one based on a D flip-flop loop and the other based on a time-division multiplexing digital-to-analog converter (DAC).
为此提出了基于D触发器环路的相控阵信号发生技术和基于时分复用数模转换器(DAC)的相控阵信号发生技术。
Two approaches are developed:one based on a D flip-flop loop and the other based on a time-division multiplexing digital-to-analog converter (DAC).
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