CISCO CS-1000 光纤模块在光纤通讯领域应用十分广泛,(纤亿通科技)光纤模块在传输过程中起着重要的作用。光纤模块就是一个光电信号之间的转换模块,电信号需要转换成光信号才能在光纤中传播,到达目的地后转换成电信号,才能被接收设备应用。较远距离信号传输必须要光纤模块才能保证信息的良好传输。所以随着网络的不断发展,光模块的需求也变得越来越大。在现在高速网络时代的迅猛发展下,铜线传输变得越来越落后,成本高,传输慢,而且传输损耗大,已经逐步要被市场淘汰,取而代之的是光纤。
CS-1000
CISCO CS-1000 光纤模块的优点远超铜线,成本低,资源大,光传输效率高,损耗小等等,这些优点足以宣告铜线时代的落幕,光线时代的崛起 。传统的使用网线,或者同轴线所能提供的通讯带宽及信号质量已经不能满足客户日益增长的需求。而光纤的诞生恰恰填补了这一空缺。在光信号传输的过程中,需要使用CISCO CS-1000 光纤模块来将电信号通过激光驱动器及激光器转成光信号,再通过光纤进行远距离传输,光信号到达对端的时候,再通过光纤接收器(Pin-Tia或者APD等)将光信号转成电信号。
CS-1000
The CISCO CS-1000 fiber optic module is widely used in the field of fiber optic communication, and fiber optic modules play an important role in the transmission process. A fiber optic module is a conversion module between optical and electrical signals. Electrical signals need to be converted into optical signals in order to propagate through the fiber optic, and after reaching the destination, they can be converted into electrical signals before being applied by the receiving device. Long distance signal transmission requires fiber optic modules to ensure good information transmission. So with the continuous development of the network, the demand for optical modules is also increasing. With the rapid development of the high-speed network era, copper wire transmission has become increasingly outdated, costly, slow, and has high transmission losses. It has gradually been phased out of the market and replaced by optical fiber.
CS-1000
The advantages of CISCO CS-1000 fiber optic modules far exceed those of copper wires, such as low cost, large resources, high optical transmission efficiency, and low losses. These advantages are enough to declare the end of the copper wire era and the rise of the light age. The traditional use of Ethernet cables or coaxial lines can no longer meet the growing needs of customers in terms of communication bandwidth and signal quality. The birth of optical fibers has precisely filled this gap. In the process of optical signal transmission, it is necessary to use CISCO CS-1000 fiber modules to convert electrical signals into optical signals through laser drivers and lasers, and then transmit them over long distances through fibers. When the optical signals reach the opposite end, they are then converted into electrical signals through fiber receivers (such as Pin Tia or APD).
CS-1000
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