HP LSC4110-FP 1 mw 14 pin dil cooled laser module Datasheet

1 mW 14 Pin DIL Cooled Laser
Modules
Technical Data
LSCX110
Features
Description
• 1 Milliwatt Optical
Output at 25 mA
above Threshold, 25°C
• Center Wavelength between
1280 nm and 1330 nm
• Wide Modulation
Bandwidth:
LSC2110 - 800 MHz
LSC4110 - 1.2 GHz
• Wide Operating
Temperature Range: -40°C
to +85°C
• Alternative Package Styles:
LSC2110 - 14 Pin DIL
LSC4110 - 14 Pin“Butterfly”
LSCX110 laser modules are
highly reliable fiber optic light
sources operating in the 1300
nanometer band. The internal
semiconductor lasers are
based upon InGaAsP buried
heterostructure (BH) technology
and fabricated by the Metal
Organic Vapor Phase Epitaxy
(MOVPE) process, resulting
in long lifetimes and modest
threshold currents.
Applications
• Telecommunications
• Local Area and Metropolitan
Area Networks
• Point-to-Point Data
Communications
• Fiber Optic Sensors
• Cable Television
• Military Communications
and Control Systems
• Instrumentation
LSCX110 packages include a
photodiode for monitoring the
laser output, a thermistor for
monitoring laser heatsink
temperature and a Peltier effect
thermoelectric cooler (TEC).
A heatsink mounting flange is
incorporated into the base of the
14 pin “butterfly” package and a
“bullhorn” type flange is used
on the 14 pin DIL package.
Laser Safety Warning
This device is a Class IIIb (3b) Laser Product. It may emit invisible laser radiation if operated with the fiber pigtail disconnected. To avoid
possible eye damage do not look into an unconnected fiber pigtail during laser operation. Do not exceed specified operating limits.
460
5963-5308E (1/95)
Pin Connections
LSC2110
Top View
TEC ANODE (+ve SUPPLY TO COOL) 1
TEC
14 TEC CATHODE (-ve SUPPLY TO COOL)
NOT CONNECTED 2
13 NOT CONNECTED
NOT CONNECTED 3
12 THERMISTOR
RESERVED - DO NOT CONNECT 4
11 THERMISTOR
CASE GROUND 5
10 LASER ANODE (+ve SUPPLY) CASE GROUND
RESERVED - DO NOT CONNECT 6
9 LASER CATHODE (-ve SUPPLY)
MONITOR PHOTODIODE CATHODE (+ve SUPPLY) 7
8 MONITOR PHOTODIODE ANODE (-ve SUPPLY)
LSC4110
Top View
TEC ANODE (+ve SUPPLY TO COOL) 1
THERMISTOR 2
MONITOR PHOTODIODE ANODE (-ve SUPPLY) 3
MONITOR PHOTODIODE CATHODE (+ve SUPPLY) 4
CASE GROUND 5
TEC
14 TEC CATHODE (-ve SUPPLY TO COOL)
13 LASER ANODE (+ve SUPPLY) CASE GROUND
12 NOT CONNECTED
11 LASER CATHODE (-ve SUPPLY)
10 CASE GROUND
NOT CONNECTED 6
9 NOT CONNECTED
NOT CONNECTED 7
8 NOT CONNECTED
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LSCX110 Laser Diode Typical Operating Characteristics
LASER FORWARD VOLTAGE
vs. FORWARD CURRENT
SPECTRAL CONTENT
100
80
RELATIVE POWER
FORWARD VOLTAGE (V)
1.5
1.0
0.5
60
40
20
0
0
10
20
30
40
50
60
70
0
1290
80
FORWARD CURRENT (mA)
FIBER POWER (mW)
1.5
1.0
0.5
0
0
20
40
FORWARD CURRENT (mA)
462
60
MONITOR DIODE PHOTOCURRENT (µA)
OUTPUT POWER
vs. FORWARD CURRENT
2.0
1300
1310
1320
WAVELENGTH (nm)
MONITOR PHOTOCURRENT
vs. OUTPUT POWER
800
700
600
500
400
300
200
100
0
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0
OUTPUT POWER (mW)
Absolute Maximum Ratings
Absolute maximum limits mean that no catastrophic damage will occur if the product is subjected to these ratings for short periods, provided each
limiting parameter is in isolation and all other parameters have values within the performance specification. It should not be assumed that limiting
values of more than one parameter can be applied to the product at the same time.
Parameter
Symbol
Laser Forward Current
Laser Reverse Current
Laser Reverse Voltage
Photodiode Reverse Voltage
Photodiode Forward Current
Operating Temperature (Case)
Storage Temperature
Relative Humidity RH
Conditions
DC
DC
DC
DC
DC
Pf = 1 mW
If
Ir
VIr
Vr
Ipf
C
Ts
Fiber Pull Strength
Mechanical Shock
Limits
Min.
-40
-40
0-0
Max.
Units
150
mA
100
µA
2
V
10
V
1
mA
+85
°C
+85
°C
non%RH
condensing
-
10
N
Mil Std 883, Method 2002,
Test Condition A
Mil Std 883, Method 2007,
Test Condition A
Vibration
Performance Specifications
Parameter
Symbol
LASER
Threshold Current
Ith Change with Temperature
Peak Optical Output
Optical Output Power
Slope Efficiency
Forward Voltage
Differential Resistance
Center Wavelength
λc Change with Temperature
Linewidth
Rise Time
Fall Time
Small Signal Frequency Response
LSC2110
LSC4110
Test Conditions
Test Limits
Min.
Max.
Units
Units
CW, Rt = 10 kΩ, Tc = ~25°C
unless otherwise specified
Ith
∆Ith/∆T
Pf
Pth
η
Vf
Rd
λc
∆λc/∆T
∆λ
τr
τf
Bw
Bw
Tc = 65°C to 85°C
Pf = Pf @ Ith + 25 mA
Pth = Pf @ Ith - 2 mA
dV/dl
Note 1
Tc = 65°C to 85°C, ∆T = -40°C
FWHM (2.35 σ), Note 1
10% to 90%: Ith to Pf = 1 mW
90% to 10%: Pf = 1 mW to Ith
m = 0.8
m = 0.8
5
1
0.04
1280
-
25
2.5
2.5
50
0.1
1.8
10
1330
0.4
5
0.5
0.5
800
1.2
-
mA
%/°C
mW
µW
mW/mA
V
Ω
nm
nm/°C
nm
ns
ns
MHz
GHz
Note:
1. Modulated measurements also available.
463
Performance Specifications (cont'd.)
Parameter
Symbol
Units
Rt = 10 kΩ, Tc = ~25°C, CW,
Pf = 1 mW, Vr = 5 V (Note 2)
unless otherwise specified
MONITOR PHOTODIODE
Photocurrent
Responsivity
Dark Current
Tracking Error
Test Limits
Min.
Max.
Test Conditions
Im
R
Id
∆R
Pf = 0 mW
Im = Im @ (Pf = 1 mW, Tc = 25°C)
∆T = -40°C, Tc = 85°C
∆T = +65°C, Tc = -40°C
80
0.08
-
800
0.8
20
µA
A/W
nA
-
± 0.5
± 0.5
dB
dB
Note:
2. Monitor Photodiode will also operate under zero bias conditions.
Parameter
Symbol
THERMISTOR
Test Conditions
Test Limits
Min.
Max.
Units
Tc = 25°C, Pf = 0 mW
unless otherwise specified
Resistance
Temperature Coefficient of Rt
ß Constant
Parameter
Rt
∆Rt/∆T
ß
Symbol
TEC
TEC Cooling Current
TEC Heating Current
Voltage
Ic
Ih
Vc
10.5
Typ -4.4
Typ 3900
9.5
0°C to 50°C
Test Conditions
Tc = 25°C, Pf = 1 mW
unless otherwise specified
∆T = -40°C, Tc = 85°C
∆T = 65°C, Tc = -40°C
∆T = -40°C to +65°C
Test Limits
Min.
Max.
-
kΩ
%dR/K
°K
Units
A
A
V
1.0
1.0
2.0
Fiber Pigtail: Tight jacketed, self-mode stripping, single mode fiber
Parameter
Length
Spot Size (mode radius)
Cladding Diameter
Core/Cladding Concentricity
Secondary Jacket Diameter
Effective Cut-off Wavelength
Minimum
1.0
4.5
122
0.8
1150
Maximum
5.5
128
1.0
1.0
1240
Units
m
µm
µm
µm
mm
nm
Hewlett-Packard can offer a ruggedized fiber pigtail for this product range if extreme mechanical strength is required. The pigtail
length can be customized to your specific length, with a connector, to a tolerance of ±25 mm.
464
LSC2110 Mechanical Outline
S
∅U
B
A
FIBER PIGTAIL
∅N
F
C
K L
T
M
J
P
D
R
E
G
∅H
DIM.
A
B
C
D
E
F
G
∅H
J
MIN.
MAX.
20.98
20.68
1.10
0.90
13.00
12.55
9.60
8.51
6.60
6.10
7.62 NOM.
2.54 NOM.
0.457 NOM.
7.21
7.01
DIM.
K
L
M
∅N
P
R
S
T
∅U
MIN.
MAX.
19.05 NOM.
25.70
25.10
30.00 NOM.
4.20
–
–
1000
6.20
5.80
6.00 NOM.
–
6.00
3.17 NOM.
ALL DIMENSIONS IN MILLIMETERS
465
LSC4110 Mechanical Outline
A
S
B
∅T
FIBER PIGTAIL
R
C
F
I
J
H
M
L
K
N
D
P
G
E
DIM.
A
B
C
D
E
F
G
H
I
MIN.
MAX.
30.15
29.85
20.95
20.65
12.75
12.45
9.35
9.05
1.60
1.40
6.10
4.90
5.75
5.45
2.54 NOM.
0.38 NOM.
ALL DIMENSIONS IN MILLIMETERS
466
DIM.
J
K
L
M
N
P
R
S
∅T
MIN.
MAX.
0.25 NOM.
19.05 NOM.
30.00 NOM.
–
1000
4.35
4.05
5.55
5.25
9.15
8.85
26.15
25.85
2.10
1.90
Ordering Information
LSCX110 - XX
Connector Type:
FP = FC/PC
ST = ST®
SC = SC
DN = DIN
BI = Biconic
D4 = D4
SF = Super Polish FC/PC
Package Style:
2 = 14 PIN DIL
4 = 14 PIN “Butterfly”
Handling Precautions
1. The LSCX110 can be damaged by current surges or overvoltage.
2. Power supply transient precautions should be taken.
3. Normal handling precautions for electrostatic sensitive devices
should be taken.
CDRH Certification
Laser Warning
Hewlett-Packard Ltd
Whitehouse Road
Ipswich, Suffolk IP1 5PB
England
Manufactured: ____ Serial No. ____
Model No. ____________
This product conforms to the applicable
requirements of 21 CFR 1040 at the date of
manufacture.
ST® is a Registered Trademark of AT&T.
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