D2525P Datasheet, PDF(2/10 Page) Agere Systems – Wavelength-Selected D2525P Isolated DFB Laser Module with PMF

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D2525P Datasheet, PDF (2/10 Pages) Agere Systems – Wavelength-Selected D2525P Isolated DFB Laser Module with PMF

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Wavelength-Selected D2525P

Isolated DFB Laser Module with PMF

Data Sheet

March 2000

Description (continued)

Controlled Feedback

The module contains an internal optical isolator that sup-

presses optical feedback in laser-based, ï¬ber-optic sys-

tems. Light reï¬ected back to the laser is attenuated a

minimum of 30 dB.

Controlled Temperature

An integral thermoelectric cooler (TEC) provides stable

thermal characteristics. The TEC allows for heating and

cooling of the laser chip to maintain a temperature of 25 Â°C

for case temperatures from â40 Â°C to +70 Â°C. The laser

temperature is monitored by the internal thermistor, which

can be used with external circuitry to control the laser chip

temperature.

Controlled Power

An internal, InGaAs, PIN photodiode functions as the back-

facet monitor. The photodiode monitors emission from the

rear facet of the laser and, when used in conjunction with

control circuitry, can control optical power launched into the

ï¬ber. Normally, this conï¬guration is used in a feedback

arrangement to maintain consistent laser output power.

Standard Package

The laser module is fabricated in a 14-pin, hermetic, metal/

ceramic butterï¬y package that incorporates a bias tee that

separates the dc-bias path from the RF input. The RF input

has a nominal 25 â¦ impedance.

The laser module is equipped with Fujikura* polarization-

maintaining ï¬ber (PMF). The ï¬ber is PANDA type and is the

same ï¬ber that is used on Lucent Technologies Microelec-

tronics Groupâs lithium niobate modulators. It has a mode

ï¬eld diameter of 10.5 Âµm, a cladding diameter of 123 Âµmâ

128 Âµm, and a loose tube jacketed ï¬ber 900 Âµm in diame-

ter. The pigtail is terminated with an ST Â® ferruleâ . Figure 1

shows the orientation of polarization in the ï¬ber.

Lucentâs optoelectronic components are being qualiï¬ed to

rigorous internal standards that are consistent with Telcor-

dia Technologies â¡ TR-NWT-000468. All design and manu-

facturing operations are ISOÂ§ 9001 certiï¬ed. The module is

being fully qualiï¬ed for central ofï¬ce applications.

* Fujikura is a registered trademark of Fujikura Ltd.

â The ST ferrule key is not aligned to slow axis of ï¬ber. Connector is

intended for testing purposes only.

â¡ Telcordia Technologies is a trademark of Bell Communications

Research, Inc.

Â§ ISO is a registered trademark of The International Organization for

Standardization.

CORE

STRESS ROD

PRINCIPAL POLARIZATION

AXIS

CLADDING

INNER COATING

(SILICON & ACRYLATE)

OUTER COATING

(ACRYLATE OR NYLON)

1-771(C).a

Figure 1. Polarization-Maintaining Fiber

Pin Information

Table 1. Pin Descriptions

Name

Thermistor

Laser dc Bias (Cathode) (â)

Back-facet Monitor Anode (â)

Back-facet Monitor Cathode (+)

Thermoelectric Cooler (+)1

Thermoelectric Cooler (â)1

Case Ground

Laser Anode (+) 2

RF Laser Input Cathode (â)

Laser Anode (+) 2

Case Ground

1. A positive current through the thermoelectric heat pump cools the

laser.

2. Both leads should be grounded for optimum performance.

TEC

160 nH

10 kâ¦

PACKAGE

GROUNDS

10 11

Top view.

R1 ISOLATOR

20 â¦

â+

12 13

1-567

Figure 2. Circuit Schematic

Lucent Technologies Inc.

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