BOOKHAM LC96D74-20R High power 980nm pump laser module - grating stabilized, 600mw Datasheet

Data Sheet
High Power 980nm Pump Laser Module Grating Stabilized, 600mW
LC96
These lasers are designed as pump sources for erbium doped
fiber amplifier (EDFA) applications. Processes and techniques
of coupling the fiber to the laser allow high output powers that
are very stable with both time and temperature. The grating is
located in the pigtail to stabilize the wavelength.
Devices are available with kink free output powers to 600mW.
The LC96 series pump module utilises a double Fiber Bragg
Grating design for enhanced wavelength and power stability
performance. This product has been designed to ensure
superior wavelength locking over drive current, temperature
and optical feedback changes.
Features:
• Double Fiber Bragg Grating wavelength stabilization
• High output power, up to 600mW kink free
• Polarization maintaining fiber pigtail
• Internal thermoelectric heatpump and
monitor photodiode
• Hermetically sealed 14 pin butterfly package
• Telcordia GR-468-CORE compliant
• Field proven high reliability
• RoHS compliant
Applications:
• Low noise erbium doped fiber amplifiers (EDFAs)
• Dense wavelength division multiplexing
(DWDM) EDFAs
• CATV Applications
1
Data Sheet
Characteristics
Conditions unless otherwise stated:
Case temperature -20 to +75°C
Submount temperature 25°C
Monitor diode bias -5V
CW operation
Kink-free fiber-coupled output power
LC96*74-20R – 974nm
LC96*76-20R – 976nm
LC96A7*-20R 400mW
LC96B7*-20R 410mW
LC96C7*-20R 420mW
LC96D7*-20R 430mW
LC96E7*-20R 440mW
LC96F7*-20R 450mW
LC96G7*-20R 460mW
LC96H7*-20R 470mW
LC96J7*-20R 480mW
LC96K7*-20R 490mW
Parameter
LC96L7*-20R 500mW
LC96M7*-20R 510mW
LC96N7*-20R 520mW
LC96P7*-20R 530mW
LC96R7*-20R 540mW
LC96S7*-20R 550mW
LC96T7*-20R 560mW
LC96U7*-20R 570mW
LC96V7*-20R 580mW
LC96W7*-20R 590mW
LC96AA7*-20R 600mW
Min
Threshold current (Ith)
Typ
Max
Unit
40
55
mA
950
mA
2.5
V
Operating drive current (If )
Forward voltage
2.2
Centre wavelength (λc)
974
nm
976
nm
Spectrum stability (t = 60 secs)
±0.2
nm
Temperature dependence of peak wavelength
0.02
nm/°C
Wavelength tolerance
±1.0
nm
10
µA/mW
50
nA
10.5
kΩ
Power Stability
Peak-to-peak, T = 60s,
DC to 50kHz sampling, Tc = 25°C
>30mW
20 – 30mW
10 – 20mW
0.15
0.25
0.50
dB
dB
dB
Heatpump current (∆T = 50°C, If = If max)
1.8
A
Heatpump voltage (∆T = 50°C, If = If max)
3.0
V
Monitor detector responsivity
1.0
Monitor dark current
Thermistor resistance (at 25°C)
2
9.5
10
Data Sheet
Absolute Maximum Ratings
Parameter
Min
Max
Unit
Operating temperature
-20
75
°C
Storage temperature
-40
85
°C
Laser forward current
1200
mA
Centre wavelength λc
2
V
Heatpump current
2.2
A
Lead soldering temperature (10s max)
260
°C
Fibre bend radius
30
mm
Package Outline Drawing and Dimensions
Dimensions (mm)
Figure 1: Package Outline Drawing and Dimensions (mm)
3
Fiber Specification
Nufern PM980-HP or equivalent 250µm primary coated.
Data Sheet
Connections
Pin #
Description
Pin #
Description
1
Peltier cooler (+)
8
Not connected
2
Thermistor
9
Not connected
3
Monitor anode (-)
10
Laser anode (+)
4
Monitor cathode (+)
11
Laser cathode (-)
5
Thermistor
12
Not connected
6
Not connected
13
Case ground
7
Not connected
14
Peltier cooler (-)
Figure 2: Connections
4
7
6
5
4
3
2
1
8
9 10 11 12 13 14
Data Sheet
RoHS Compliance
Bookham is fully committed to environment
protection and sustainable development and has
set in place a comprehensive program for
removing polluting and hazardous substances from
all of its products. The relevant evidence of RoHS
compliance is held as part of our controlled
documentation for each of our compliant products.
RoHS compliance parts are available to order,
please refer to the ordering information section for
further details.
Ordering Information:
LC96L74-20R 500mW
LC96M74-20R 510mW
LC96N74-20R 520mW
LC96P74-20R 530mW
LC96R74-20R 540mW
LC96S74-20R 550mW
LC96T74-20R 560mW
LC96U74-20R 570mW
LC96V74-20R 580mW
LC96W74-20R 590mW
LC96AA74-20R 600mW
LC96A74-20R 400mW
LC96B74-20R 410mW
LC96C74-20R 420mW
LC96D74-20R 430mW
LC96E74-20R 440mW
LC96F74-20R 450mW
LC96G74-20R 460mW
LC96H74-20R 470mW
LC96J74-20R 480mW
LC96K74-20R 490mW
LC96A76-20R 400mW
LC96B76-20R 410mW
LC96C76-20R 420mW
LC96D76-20R 430mW
LC96E76-20R 440mW
LC96F76-20R 450mW
LC96G76-20R 460mW
LC96H76-20R 470mW
LC96J76-20R 480mW
LC96K76-20R 490mW
LC96L76-20R 500mW
LC96M76-20R 510mW
LC96N76-20R 520mW
LC96P76-20R 530mW
LC96R76-20R 540mW
LC96S76-20R 550mW
LC96T76-20R 560mW
LC96U76-20R 570mW
LC96V76-20R 580mW
LC96W76-20R 590mW
LC96AA76-20R 600mW
Contact Information
North America
Bookham Worldwide
Headquarters
Europe
Paignton Office
Asia
Shenzhen Office
2584 Junction Ave.
San Jose
CA 95134
USA
Brixham Road
Paignton
Devon
TQ4 7BE
United Kingdom
2 Phoenix Road
Futian Free Trade Zone
Shenzhen 518038
China
• Tel: +1 408 919 1500
• Tel: +44 (0) 1803 66 2000
• Fax: +1 408 919 6083
• Fax: +44 (0) 1803 66 2801
• Fax: +86 755 33305805
+86 755 33305807
• Tel: +86 755 33305888
Important Notice
Performance figures, data and any illustrative material
provided in this data sheet are typical and must be
specifically confirmed in writing by Bookham before
they become applicable to any particular order or
contract. In accordance with the Bookham policy of
continuous improvement specifications may change
without notice. The publication of information in this
data sheet does not imply freedom from patent or other
protective rights of Bookham or others. Further details
are available from any Bookham sales representative.
www.bookham.com
[email protected]
5
INVISIBLE LASER RADIATION
AVOID EYE OR SKIN
EXPOSURE TO DIRECT OR
SCATTERED RADIATION
CLASS 4 LASER PRODUCT
Maximum Power >500mW
Wavelength >970nm
REFERENCE IEC 60825-1
Edition 1.2
LASER RADIATION - AVOID EYE OR
SKIN EXPOSURE TO DIRECT OR
SCATTERED RADIATION
MAX POWER > 500mW
WAVELENGTH > 970nm
CLASS IV LASER PRODUCT
THIS PRODUCT COMPLIES WITH 21CFR 1040.10
ISO14001:1996
EMS 504193
TL9000 Rev 3.0 (ISO9001:2000)
FM15040
Caution - use of controls or
adjustments or performance
of procedures other than those
specified herein may result in
hazardous radiation exposure.
BH12843 Rev 2.0 March 2007.
©Bookham 2006. Bookham is a registered trademark of Bookham Inc.
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