SBL52414G

SBL52414G Datasheet

Fiber Optics SBL52414x

Part	Datasheet
SBL52414G	SBL52414G (pdf)

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Low Power Optical Standard Module 1310 nm Emitting, 1550 nm Receiving Fiber Optics SBL52414x • 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 Product • Suitable for bit rates up to Gbit/s • Ternary Photodiode at rear mirror for monitoring and control of radiant power • Low noise / high bandwidth PIN diode • Hermetically sealed subcomponents, similar to 46 • With singlemode fiber pigtail is a registered trademark of Infineon Technologies Data Sheet 2002-05-01 Pin Configuration Transmitter bottom view Figure 1 Transmitter SBL52414x Pin Configuration Pinning 1 on request Pinning 2 Standard Receiver bottom view Pinning 1 3 Pinning 2 Pinning 1 Standard Pinning 2 on request Figure 2 Receiver Available Pinnings Type SBL52414x SBL51414x Transmitter 2 Standard 1 on request Receiver 1 Standard 1 on request Other Pinnings on request / different drawing set required for non standard pinning Data Sheet 2002-05-01 SBL52414x Description The Infineon module 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 can be realized with discrete elements Figure Transmitter and receiver with pigtails are connected with a fiber-coupler 2:1 or 2:2, wavelength independent or WDM . Transmitter Receiver Coupler 2:1 or 2:2 3 dB wavelength independent or wavelength division multiplexing Figure 3 Realization with Discrete Elements Infineon has realized this transceiver configuration in a compact module called a Figure This module 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. Data Sheet 2002-05-01

PDF Datasheet Preview

Low Power Optical Standard Module 1310 nm Emitting, 1550 nm Receiving

Fiber Optics SBL52414x
• 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 Product
• Suitable for bit rates up to Gbit/s
• Ternary Photodiode at rear mirror for monitoring and control of radiant power
• Low noise / high bandwidth PIN diode
• Hermetically sealed subcomponents, similar to 46
• With singlemode fiber pigtail
is a registered trademark of Infineon Technologies

Data Sheet
2002-05-01

Pin Configuration

Transmitter bottom view

Figure 1 Transmitter

SBL52414x

Pin Configuration

Pinning 1 on request

Pinning 2 Standard

Receiver bottom view

Pinning 1 3

Pinning 2

Pinning 1

Standard

Pinning 2
on request

Figure 2 Receiver

Available Pinnings Type SBL52414x SBL51414x

Transmitter 2 Standard 1 on request

Receiver 1 Standard 1 on request

Other Pinnings on request / different drawing set required for non standard pinning

Data Sheet
2002-05-01

SBL52414x

Description The Infineon module 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 can be realized with discrete elements Figure Transmitter and receiver with pigtails are connected with a fiber-coupler 2:1 or 2:2, wavelength independent or WDM .

Transmitter Receiver

Coupler
2:1 or 2:2 3 dB wavelength independent or wavelength division multiplexing

Figure 3 Realization with Discrete Elements

Infineon has realized this transceiver configuration in a compact module called a Figure

This module 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.

Data Sheet
2002-05-01

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Datasheet ID: SBL52414G 638532