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Preliminary Data Sheet
April 1999
980-Type Ultrahigh-
Reliability Pump Laser Module
Applications
s Undersea optical transmission systems
s Ultrahigh reliability optical communications for mili-
tary systems
The 980-Type Ultrahigh-Reliability Pump Laser Module is ide-
ally suited for fiber amplifier-based optical transmission sys-
tems that require a long-term life expectancy.
Features
s Extremely high reliability
— Laser-welded packaging technology used to
attain ultrastable long-term operation
— 29-year life
s Planar InGaAs PIN photodiode monitor for laser
back-facet output
s Wide range of stable CW optical output power
s Individually certified for ultrahigh reliability
s InGaAs ridge waveguide 980 nm single-mode
laser diode
s Standard low-profile, laser-welded, metal, her-
metic, 14-pin butterfly package
s Single-mode fiber with Bragg Grating (FBG) for
stable operation
s Stable single spatial mode kink-free operation over
a wide range of temperatures and currents
Description
The 980-Type Pump Laser Module is a precision,
high-performance, ultrahigh-reliability lightwave com-
ponent that provides high output power light, in the
980 nm range. The 980-Type Pump Laser Module is
comprised of a single-mode laser diode, PIN back-
facet monitor, microlensed single-mode fiber, and a
Fiber Bragg Grating (FBG) for improved stability, all
encased in a specially designed 14-pin, oxygen free,
butterfly package.
The 980-Type Pump Laser Module is capable of
providing a wide range of output power in the
974 nm to 984 nm wavelength range for erbium-
doped amplifier (EDFA) system application. The
pump laser module is designed and individually certi-
fied for high-reliability operation and long-term life
expectancy. The 980 nm InGaAs laser chip utilizes a
ridge guide design for high performance and reliabil-
ity. Chip and facet parameters are optimized for stabi-
lized optical coupling and efficient pumping of the
EDFA. The laser package design also includes a
microlensed single-mode fiber and a planar InGaAs
PIN back-facet photomonitor assembled in a modular
organic-free hermetic package. Laser welding tech-
nology is used for critical joints to achieve long-term
stability. Data is archived for at least ten years. Each
module is fully characterized and traceable. Long-life
performance and reliability are ensured through
extensive steps of burn-in, overstress, and power
aging. The 980-Type Pump Laser Module is available
with a typical power output range of 20 mW to
70 mW.

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980-Type Ultrahigh
Reliability Pump Laser Module
Preliminary Data Sheet
April 1999
Description (continued)
The 980-Type Pump Laser Module has been specifi-
cally designed for undersea optical amplified very high
capacity transmission systems that require long-term
life expectancy. The extremely stringent reliability
requirements imposed on the 980-Type (necessary to
achieve long-term system life) are accomplished
through careful design, exacting manufacture, and thor-
ough testing. The 980-Type qualification plan consists
of a basic set of electro-optic and mechanical tests
designed to confirm the performance and reliability of
the module over its projected service life under
assumed operating conditions. Custom designed,
extended qualification test programs can be developed
to focus on customer system requirements.
Based on the results of qualification testing, a certifica-
tion program has been developed to ensure the high-
reliability performance of the devices. Each 980-Type
device undergoes this certification process where the
performance parameters are measured before, during,
and after environmental stresses. The certification
results for each 980-Type Pump Laser Module are then
examined to ensure that only the pump laser modules
that exhibit performance consistent with long-term sys-
tem operation are selected for product.
Each 980-Type is individually serialized for full trace-
ability and is shipped with the appropriate test data.
The 980-Type assembly, test, and certification facilities
have all passed the rigorous qualification process
required for all facilities that manufacture devices
employed in undersea applications. Also, on an ongo-
ing basis, small quantities of product from each manu-
facturing lot are retained and tested as part of a
surveillance program for undersea devices. Each sur-
veillance group is subjected to the complete spectrum
of environmental/mechanical stresses required during
the qualification process. The surveillance results are
reviewed and compiled so that long-term trends can be
studied. The reliability performance of the 980-Type
Pump Laser Module is a result of a rigorous qualifica-
tion process combined with an extensive and ongoing
surveillance program.
Pinout Information
Top View.
7 65 43 21
8 9 10 11 12 13 14
Figure 1. Pinout Schematic
1-675(F).e
2 Lucent Technologies Inc.

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Preliminary Data Sheet
April 1999
980-Type Ultrahigh
Reliability Pump Laser Module
Pinout Information (continued)
Table 1. Pinout Descriptions
Pin Connection
1 Chassis Ground
2 Chassis Ground
3 Photodetector Anode
4 Photodetector Cathode
5 Chassis Ground
6 Chassis Ground
7 Chassis Ground
8 Chassis Ground
9 Chassis Ground
10 Pump Laser Anode
11 Pump Laser Cathode
12 Chassis Ground
13 Chassis Ground
14 Chassis Ground
Handling Precautions
0.062 (1.58)
0.031 (0.79)
0.140
(3.56)
0.118
(3.00)
0.086
(2.18)
0.129 (3.28)
0.041 (1.04)
Note: Dimensions are inches and (millimeters).
Figure 2. Fillister Head Screw
1-532(F)
Power Sequencing
Adopt the following sequence for turn-on as a matter of
good practice to avoid the possibility of damage to the
pump laser module from power supply switching tran-
sients:
1. All ground connections
2. Most negative supply
3. Most positive supply
4. All remaining connections
Reverse the order for the proper turn-off sequence.
Lucent Technologies Inc.
Mounting Instructions
The minimum fiber-bend radius is 25 mm.
To avoid degradation in performance, mount the mod-
ule on the board as follows (see Figure 2):
1. Place the bottom flange of the module on a flat heat
sink at least 0.5 in. x 1.180 in. (12.7 mm x 30 mm) in
size. The surface finish of the heat sink should be
better than 32 µin. (0.8 µm), and the surface flatness
must be better than 0.001 in. (25.4 µm).
Mount four #2-56 screws with Fillister heads (M2-
3 mm) at the four screw hole locations (see Outline
Diagram). The Fillister head diameter must not exceed
0.140 in. (3.55 mm). Do not apply more than 2 in./lb. of
torque to the screws. To minimize package distortion, it
is recommended that a washer is used above and
beneath each mounting foot.
Electrostatic Discharge
Caution: This is a Class 0 ESD device which is
susceptible to damage as a result of
electrostatic discharge (ESD). Take
proper precautions during both handling
and testing. Follow JEDEC Publication
No. 108-A (Dec. 1998).
Lucent employs a human-body model (HBM) and the
field-induced charged-device model (CDM) for ESD-
susceptibility testing and protection design evaluation.
ESD voltage thresholds are dependent on the critical
parameters used to define the model. A standard HBM
(resistance = 1.5 k, capacitance = 100 pF) is widely
used and, therefore, can be used for comparison pur-
poses. The HBM ESD threshhold presented here was
obtained using these circuit parameters:
Parameter
Charged-device Model
Human-body Model
Value
200
400
Unit
V
V
3

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980-Type Ultrahigh
Reliability Pump Laser Module
Preliminary Data Sheet
April 1999
Absolute Maximum Ratings
The LPM will stay certified if it is operated at the maximum rating, for brief periods. Exposure to maximum ratings
for extended periods can adversely affect device reliability.
Parameter
Storage Temperature Range
Operating Temperature Range
Laser Reverse Voltage
Laser Forward Current
Laser Reverse Current
Fiber Output Power
PIN Monitor Reverse Voltage
PIN Monitor Forward Current
Pigtail Pull Force (Axial)
Pigtail Bend Radius
Shock
Vibration (10 Hz to 2000 Hz)
Symbol
Tstg
TOP
VR
IF
IREV
PF
VPIN
IFPIN
F
RP
G
VIB
Min
Max
Unit
–20 60 °C
0 40 °C
—2V
— 400 mA
— 50 µA
— 150 mW
— 40 V
— 2 mA
— 9N
25 — mm
— 100 G
— 5G
Characteristics
Table 2. Electrical Characteristics
Parameter
Operating Voltage
(CW, 70 mW fiber output)
Operating Current
(CW, 70 mW fiber output)
Monitor Reverse-Bias Voltage
Monitor Current I = IOP
Monitor Dark Current (VDET = –5 V)
Symbol
VOP
IOP
VRMON
IRMON
ID
Min
100
0.3
Max EOL
2.2 2.2
200 250
40 —
2.0 2.0
25 —
Table 3. Optical Characteristics
Parameter
Optical Output Power Adjustment*
Kink Power
Center Wavelength
Power Tracking (over 25 °C interval)
Weighted RMS Spectral Width
Output Spectrum Side-mode Suppression
Optical Return Loss at Pigtail (1525 nm—1570 nm)
Reliability. Over 29 Years at the Max Operating
Conditions of Figure 2.
Symbol
PO
PK
λc
POT
∆λRMS
∆λSUPP
RL
Min Max
15 70
85 —
974 984
— 0.6
— 0.7
— 20
13
5% failures at 25 °C
* Depending on the exact requirements, there may be two codes (deep and shallow water) necessary.
Unit
V
mA
V
mA
mA
Unit
mW
mW
nm
dB
nm
dB
dB
4 Lucent Technologies Inc.

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Preliminary Data Sheet
April 1999
980-Type Ultrahigh
Reliability Pump Laser Module
Characteristics (continued)
Table 4. Physical Characteristics
Parameter
Pigtail Fiber Type
Jacket Type
Fiber Length Between FBG and LPM
Fiber Length Beyond FBG
Minimum Radius of Curvature
Connector Type
Description
Single-mode Lucent Technologies Optical Fiber Lightguide
Lucent Technologies Minicord, 1.55 mm O.D.
1.1 m
1.5 m—2.0 m
25 mm
FC/APC
Ordering Information
Device
Ultrahigh-Reliability Pump Laser Module
Part Number
980X
Comcode
TBD
Lucent Technologies Inc.
5