The speed and stability of the network are making a great leap forward thanks to the high bandwidth and low attenuation brought by fiber optics. The optical transceiver module is the major building block in the fiber-optic network, which conveys the information across communication channels for your optical systems. This article offers some rudiments about optical transceiver module and suggestions of choosing fiber patch cable for your transceiver module.
Working Principle of Optical Transceiver Module
An optical transceiver module is a device that uses fiber optic technology to send and receive data. The transceiver module has electronic components to encode or decode data into light pulses and then send them to the other end as electrical signals. To send data as light, it makes use of a light source, which is controlled by the electronic parts, and to receive light pulses, it makes use of a photodiode semiconductor.
Types of Optical Transceiver Module
The emergence of GBIC (Gigabit Interface Converter) is a milestone of transceiver module development, and it’s of epoch-making significance. As time went on, the size of transceiver was becoming smaller, so SFP (Small Form-Factor Pluggable) transceiver module came into being. It is half the size of GBIC, and it increases the port density of the same line card by two times. But this is not enough to meet the growing need of higher speed network connectivity. So 10G SFP+ (Small Form-factor Pluggable Plus) and 40G QSFP+ (Quad Small Form-factor Pluggable Plus) becomes new market favorites, for they have distinctly higher data rate and the same mini size as SFP. Besides, 100G optical transceiver module is also popular at present, with the types of CXP, CFP, CFP2, CFP4, CPAK, and QSFP28. Various types of optical transceiver module can meet all kinds of customer’s requirements.
Optical Transceiver Module Parameters
Optical transceiver module has three main parameters which show it’s capacity of connectivity. They are wavelength, data rate, and cable distance.
Wavelength is the band of light used in the transmission of optical signals. The main wavelength of the optical transceiver module is typically around 850, 1300 and 1550 nm, for the attenuation of the fiber is much less at those wavelengths. Besides, multi-mode fiber is designed to operate at 850 nm and 1300 nm, while single-mode fiber is optimized for 1310 nm and 1550 nm.
Data rate refers to how many bits of data the optic fiber carries per second. The widely applied data rates are 155Mbps, 1.25Gbps, 2.5Gbps, and 10Gbps. The data rate of optical transceiver can provide backward compatibility. So 155M optical transceiver module is also called FE transceiver, and 1.25G optical transceiver module is called GE transceiver.
Transmission distance is the distance an optical signal can be transmitted directly without amplification. The optical transceiver with the transmission distance shorter than 2km is classified to multi-mode optical transceiver module, while the optical transceiver with the transmission distance over 2km is classified to the single-mode optical transceiver.
Except for the above three parameters, the optical transceiver module has other parameters, which are output power, receiving sensitivity, bias current, extinction ratio, saturated optical power, and working temperature.
How to Choose Fiber Patch Cable for Transceiver Module
We suppose that you need to choose a right patch cable used between fiber optic transceiver SFP-10G-SR and X2-10GB-SR. You know that SFP-10G-SR is 10GBASE-SR SFP+ transceiver module for MMF, 850-nm wavelength, LC duplex connector. And X2-10GB-SR is 10GBASE-SR X2 transceiver module for MMF, 850-nm wavelength, SC duplex connector. It’s easy to find that X2-10GB-SR needs SC connector, and SFP-10G-SR requires LC connector. So we should choose patch cable with SC-LC connector with MMF, 850-nm wavelength. In the same way, you can choose the proper fiber patch cable for your transceiver modules.
I believe that you get more familiar with the optical transceiver module after knowing its’ types, parameters and how to choose fiber patch cable for it. You also need to know that, the chief advantage of optical technology is its high data transfer rate, which can in practice be several thousand times as fast as a cable modem Internet connection. And fiber optic transceiver plays an important role in fiber optical transmission.