1550nm External Catv Fiber Optic Transmitter
Direct-modulated CATV Optical Transmitter is designed according to CATV standard. It modulates CATV RF amplitude signal into 1310nm/1550nm optical signal, and then transmits it to optical node in HFC network through single-mode optical fiber. It is mainly used for TV signal medium-sized network transmission and can be used for many purposes. The high-power optical amplifiers are used for the laying of fiber-to-the-home (FTTH) networks.
The 1550nm external Catv fiber optic transmitter is a critical component of any fiber optic communication system. This device is designed to take the electrical signal from the client's equipment and convert it into a high-quality light signal that is then transmitted over the fiber optic cable. The transmitter works by using a laser diode to create a precise wavelength of light (1550nm) that is specifically designed to travel over the fiber optic cable. This wavelength is an optimal range because it is resistant to attenuation (signal loss) in the fiber optic cable.

01
Product Features
*The advanced multi-frequency RF predistortion technology uses RF power automatic processing technology to automatically optimize the drive level so that the C/CTB, C/CSO, and C/N specifications are always at optimal values.
*The 32-bit ARM processor can efficiently coordinate the working status of each module and accurately monitor and control each operating parameter.Support USB flash disk file(MP4,TS,FLV) forwarding function 47-862MHz (1000Mhz can be customized) operating bandwidth.
* Modular structure, easy to expand the function of equipment and maintenance.
* Laser temperature stabilization circuit (ATC) and optical power output stabilization circuit (APC) ensure optimal laser performance.
Details
|
Parameter |
Specification |
|
Product Name |
Catv 1550nm External Optical Transmitter |
|
Working Wavelength |
1550±10 |
|
SBS adjustable |
13 ~ 19dbm or 13,16,18,19dbm adjustable |
|
Output Optical Power |
1x5,1x7,1x9,1x10,2x5,2x7,2x8,2x9,2x10,2x11 |
























