X2 10G Fiber-Optic Transceiver

INDIUM PHOSPHIDE (InP) WAFERS are semiconductor materials made of indium phosphide, a compound semiconductor that is widely used in high-frequency and optoelectronic applications. Due to its efficient electron mobility and direct bandgap properties, InP is favored for devices such as:

High-speed electronics
Laser diodes
Photodetectors
Telecommunications applications, including optical fiber communication
We offer the following InP Wafers:
Undoped InP Wafers: These are pure InP with no intentional doping, used in various applications where intrinsic properties are required.
N-type InP Wafers: Doped with donor impurities (such as tellurium) to increase electron concentration, useful in transistors and high-speed electronics.
P-type InP Wafers: Doped with acceptor impurities (such as zinc) to create holes in the semiconductor, used in light-emitting devices and other optoelectronics.
InP Substrates: Used as a base for growing other semiconductor materials in heterostructures for various applications.
InP Membrane Wafers: Thin layers of InP used for specific applications, including applications in flexible electronics and advanced photonic devices.
InP-based Quantum Dot Wafers: Engineered to create quantum dots that can be used in photonic and optoelectronic devices for enhanced performance.

1) Package:SFP+;
2) Data Rate:10Gbps;
3) Distance:300m;
4) Wavelength:850nm;
5) Connector:Duplex LC;
6) Fiber Type:Multi-mode fiber(MMF);
7) Power Supply:3.3 single power supply;
8) Operating temperature:0 to 70;
9) DDM: With Digital Diagnostic Monitor;
10) Others:Compliant with 10GBASE-SR standards,SFP+ MSA specification and IEEE 802.3AE.
11) Application:10GBASE-SR/SW,10G Ethernet.

SFP-CWDM Fiber-optic Transceiver
SFP-CWDM-xx

SFP Fiber-optic Transceiver with Up to 155M/1.25Gbps Data Rate
1470/1490/1510/1530/1550/1570/1590/1610nm Wavelength(DFB laser)
Reach to 40km/80km.

(Digital Diagnostic Monitor compatible)
C-Light transceivers family includes SFP SFP+ XFP X2 CWDM. All products are compatible with MSA. They are suitable for Fast Ethernet, Gigabit Ethernet, SDH/STM and Fiber Channel network system. Data rate ranges from 155M to 10G. Distance reach from 80m to 80km in MMF and SMF. These products can be compatibly used in brands devices of 3COM, Alcatel, Cisco, Extreme, Foundry, HP and Juniper.



1) Weight:0.02KG/PIECE;
2) Dimensions:60*12*11mm.

Optical Transceiver
An optical transceiver, sometimes called a fiber optic transceiver, is an interconnecting component that can transmit and receive data. It consists of two main parts: a transmitter and a receiver. This key component uses fiber optic technology to convert electrical signals into optical signals and vice versa.

Optical transceivers are used in most industries and are critical in telecom applications due to their ability to transmit high levels of data over a network. This versatile component can be plugged into or embedded in network equipment. They come in various shapes and sizes. The different types of optical transceivers are defined by the form factor.

Optical Transceiver Design
The design of an optical transceiver must balance a number of factors. For example, engineers want to reduce the size and weight of the device while maximizing communication between networks. As engineers add more and more features to telecom applications, space becomes a valuable commodity. Their functionality also requires higher data bandwidth and power, which increases the high level of data being transmitted at any given time.

Raycom offers spacious solutions, faster transmission speeds and lower data loss. Our optical fibers are made of brushed glass, providing a flexible, lightweight design. Additionally, because optical fibers are non-metallic, they are unaffected by electromagnetic interference and electrical noise in the environment.

What is an optical transceiver?
An optical transceiver is a small but powerful device that transmits and receives data. In fiber optics, this data is sent as pulses of light through the fiber at very high speeds and over long distances. A transceiver is an important part of a fiber optic network and is used to convert electrical signals to optical signals and optical signals to electrical signals. It can be plugged into or embedded in another device in the data network that can send and receive signals.

Optical transceivers come in different shapes and sizes called form factors. Which form factor to use depends on the type of data, speed and distance required. Different rules (called protocols) determine how different types of data are transmitted.