980 nm Laser Module
Fiber Bragg Grating Stabilized
Features:
Fiber Bragg Grating wavelength stabilization
Unique patent-pending Epitaxial Mirror On Facet (EMOF) technology eliminates
Catastrophic Optical Mirror Damage (COMD) at the facet
Vertically integrated laser diode and module manufacturing facility ensures reproducible
and consistent laser process
Molecular Beam Epitaxy (MBE) grown laser structure optimizes spectral performance
High-power operation
Robust optical train
Fully Bellcore GR-468-CORE and GR-1312-CORE compliant
High-power 14-lead ”butterfly“ laser module designed to exceed the reliability demands
of EDFA applications in telecommunications
5/01 100366PR 980 nm Laser Module BGS
2
980 nm Laser Module
Fiber Bragg Grating Stabilized
www.adc.com • +1-952-938-8080 • 1-800-366-3891
Translucent
Strain Relief
32.00 TYP
Outer Black
Heat Shrink
20.83
PIN 1
00651
0.50
980S150GAAF1
12.00
PIN 14
1.50
22.00
TYP
2.00
5.45
8.10
12X
2.54
30.00
26.00
4X
Ø2.70
8.90
12.70
06/00 Minimum Fiber Length 1 Meter
Including SC Connector
28.7
TYP
Made In The USA
00651
980S150FAAF1
06/00
Translucent
Strain Relief
32.00 TYP
Outer Black
Heat Shrink
20.83
PIN 1
0.50
12.00
PIN 14
1.50
22.00
TYP
2.00
4.95
7.60
12X
2.54
30.00
26.00
4X
Ø2.70
8.90
12.70
Minimum Fiber Length 1 Meter
Including SC Connector
28.7
TYP
Made In The USA
Standard 980 nm Laser Module
Fully Floating 980 nm Laser Module
Lead Number and Function
1) Thermoelectric Cooler (+)
2) Thermistor
3) Photo Diode Anode
4) Photo Diode Cathode
5) Thermistor
6) NC
7) NC
8) NC
9) NC
10) Laser Anode, ESD Protection
11) Laser Cathode, ESD Protection
12) NC
13) Case Ground
14) Thermoelectric Cooler (-)
Lead Number and Function
1) Thermoelectric Cooler (+)
2) Thermistor
3) Photo Diode Anode
4) Photo Diode Cathode
5) Thermistor, Case Ground
6) NC
7) NC
8) NC
9) NC
10) Laser Anode, Case Ground, ESD Protection
11) Laser Cathode, ESD Protection
12) NC
13) Case Ground
14) Thermoelectric Cooler (-)
Minimum Fiber Length 1 Meter
Including SC Ferule
900 ±50
To Point A
Point A
www.adc.com +1-952-938-8080 1-800-366-3891
5/01 100366PR 980 nm Laser Module BGS
3
980 nm Laser Module
Fiber Bragg Grating Stabilized
ENVIRONMENTAL
Storage Temperature:
Operating Temperature:
Lead Solder Temperature:
Laser Operating Temperature:
Lead Solder Time:
LASER MODULE
Fiber Output Power:
Forward Current:
Reverse Voltage:
Reverse Current:
MONITOR PHOTODIODE
Current:
Reverse Voltage:
FIBER TAIL ASSEMBLY
Fiber Temperature:
Fiber Pull Force:
Bend Radius:
-40°C to 85°C
-20°C to 85°C
260°C
20°C to 30°C
10 Sec
250 mW
460 mA
2 V
2.5 mA
4 mA
150 V
-40°C to 85°C
5 N
16 mm
Absolute Maximum Rating Specifications
Operating Specifications
LASER MODULE
Threshold Current:
Forward Voltage at (L(Kink)):
Kink Current
L(Kink) = 110 mW:
L(Kink) = 120 mW:
L(Kink) = 130 mW:
L(Kink) = 140 mW:
L(Kink) = 150 mW:
L(Kink) = 160 mW:
L(Kink) = 170 mW:
L(Kink) = 180 mW:
L(Kink) = 190 mW:
L(Kink) = 200 mW:
Center Wavelength (Peak at L(Kink)):
Laser Diode Operating Temperature:
Total Power Consumption:
Hermeticity:
Internal Moisture:
FWHM (λ@L(Kink))
MONITOR PHOTODIODE
Photocurrent:
Dark Current:
Responsivity:
15 mA typical, 25 mA maximum
1.8 V typical, 2.5 V maximum
185 mA typical, 225 mA maximum
200 mA typical, 245 mA maximum
215 mA typical, 260 mA maximum
230 mA typical, 280 mA maximum
250 mA typical, 300 mA maximum
265 mA typical, 320 mA maximum
280 mA typical, 335 mA maximum
295 mA typical, 355 mA maximum
310 mA typical, 375 mA maximum
322 mA typical, 390 mA maximum
λ ±1 nm
20°C to 30°C
6 W
5 x 10-7 Atm cc/s minimum
5000 ppm maximum
1 nm maximum
200 µA to 2500 µA
100 nA maximum
1 µA/mW to 25 µA/mW
980 nm Laser Module
Fiber Bragg Grating Stabilized
ADC Telecommunications, Inc., P.O. Box 1101, Minneapolis, Minnesota USA 55440-1101
Specifications published here are current as of the date of publication of this document. Because we are continuously impr oving our pr oducts, ADC
reserves the right to change specifications without prior notice. At any time, you may verify product specifications by contacting our headquarters
office in Minneapolis. ADC Telecommunications, Inc. views its patent portfolio as an important corporate asset and vigorously enforces its patents.
Products or features contained herein may be covered by one or more U.S. or foreign patents. An Equal Opportunity Employer
100366PR 5/01 Original © 2001 ADC Telecommunications, Inc. All Rights Reserved
Web Site: www.adc.com
From North America, Call Toll Free: 1-800-366-3891, Ext. 63475 Outside of North America: +1-952-938-8080 Fax: +1-952-946-3292
For a complete listing of ADC's global sales office locations, please refer to our web site.
Notes:
1) Kink power is defined as the power corresponding to a current where the kink signal is greater than 0.20 mW.
Kink signal is defined as the difference between the binomial coefficient weighted global and local average of a LI
curve measured from the fiber.
2) All figures are based on start of life (S.O.L.) unless otherwise stated.
3) Temperature of submount 25°C, temperature of case 70°C unless otherwise stated.
4) L(Kink) Kink free rated power of laser module.
Catalog Number
LM __ __ __ B __ __ __ __ AAF1CS041
Package
GGrounded
FFully Floating
Kink Free Power
110 110 mW
120 120 mW
130 130 mW
140 140 mW
150 150 mW
160 160 mW
170 170 mW
180 180 mW
190 190 mW
200 200 mW
Note:
Product comes standard with Flexcore 1060;
250 µm fiber with angled ferrule. Other
wavelengths and a variety of connector
options are available. Contact customer
service for more information.
THERMOELECTRIC COOLER
Current:
Voltage:
Power Consumption:
THERMISTOR
Current:
Voltage:
Resistance (L(Kink)) 25°C Submount:
1.5 A
3.5 V
4.8 W
2 mA
5 V
9.5 kto 10.2 k, 10 ktypical
Absolute Maximum Rating Specifications (Continued)
Wavelength
975 λ= 975 nm
976 λ= 976 nm
978 λ= 978 nm
980 λ= 980 nm
985 λ= 985 nm