Features: • Designed for application in passive-optical networks• Integrated Wavelength Division Multiplexer (WDM)• Bi-Directional Transmission in 2nd and 3rd optical window• Single fiber solution• FP-Laser Diode with Multi-Quantum Well structure• Class 3B Laser...
SBM52414x: Features: • Designed for application in passive-optical networks• Integrated Wavelength Division Multiplexer (WDM)• Bi-Directional Transmission in 2nd and 3rd optical window•...
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Parameter |
Symbol |
Limit Values |
Uint | |
min. |
max. | |||
Module | ||||
Operating temperature range at case |
TC |
-40 |
85 |
°C |
Storage temperature range |
Tstg |
-40 |
85 |
°C |
Soldering temperature (tmax = 10 s, 2 mm distance from bottom edge of case) |
TS |
260 |
°C | |
Laser Diode | ||||
Direct forward current |
IFmax |
120 |
mA | |
Radiant power CW |
PF,rad |
2 |
mW | |
Reverse Voltage |
VR |
2 |
V | |
Monitor Diode | ||||
Reverse Voltage |
VR |
10 |
V | |
Forward Current |
IF |
2 |
mA | |
Receiver Diode | ||||
Reverse Voltage |
VR |
10 |
V | |
Forward Current |
IF |
2 |
mA | |
Optical power into the optical port |
Pport |
1.5 |
mW |
The Infineon module SBM52414x for bidirectional optical transmission has been designed for different optical networks structures.
In the last few years the structure has changed from point to point planned for Broad band ISDN to a point to multipoint passive optical network (PON) architecture for the optical network in the subscriber loop.
A transceiver SBM52414x can be realized with discrete elements (Figure 3). Transmitter and receiver with pigtails are connected with a fiber-coupler (2:1 or 2:2, wavelength independent or WDM).
Infineon SBM52414x has realized this transceiver configuration in a compact module called a BIDI®(Figure 4).
This module SBM52414x is especially suitable for separating the opposing signals at the ends of a link. It replaces a discrete solution with a transmitter, receiver and coupler.
The basic devices are a laser diode and a photodiode, each in a TO package, plus the filter in the beam path. A lens in the TO laser concentrates the light and enables it to be launched into the single-mode fiber of the module. In the same way the light from the fiber is focused onto the small, light-sensitive area of the photodiode to produce a high photo current. The mirror for coupling out the received signal is arranged in the beam so that the transmitter and receiver are at right angles to each other. This means the greatest possible degree of freedom in the layout of the electric circuit.