HP LSC3300-SA 14 pin dil uncooled laser module Datasheet

14 Pin DIL Uncooled Laser
Modules
Technical Data
LSC3X00
Features
Description
• Low Cost Plastic Package
(14 Pin DIL)
• LSC3300: 100 µW (-10 dBm)
Min. Power Output
LSC3100: 1 mW (0 dBm)
Min. Power Output
• 1280 - 1330 nm Wavelength
• Hermetic Laser Module
• -40°C to +85°C Operation
LSC3X00 laser modules are high
reliability fiber optic light sources
operating in the 1300 nanometer
band. They are particularly well
suited for applications where low
power dissipation is required.
Applications
• Telecommunications
• Local Area and Metropolitan
Area Networks
• Point to Point
Datacommunications
• Fiber Optic Sensors
• Cable Television
• Military Communications
and Control Systems
• Instrumentation
The internal semiconductor lasers
are based upon InGaAsP buried
heterostructure (BH) technology
and fabricated by the MetalOrganic Vapor Phase Epitaxy
(MOVPE) process, resulting in
long lifetimes and modest
threshold currents.
The LSC3X00 package includes a
photodiode for monitoring the
laser output. A longhorn type
heatsink mounting flange is
incorporated in the industry
standard 14 pin DIL package.
Two basic varieties are offered
for alternative power ranges. The
“low power” LSC3300 covers the
power range between 100 µW
and 625 µW. The “high power”
LSC3100 uses the same laser
chip, but with tighter fiber
coupling to achieve output
powers from 1 mW to 2.5 mW.
The low cost outer package is
made feasible by our unique
design of hermetic miniature
laser submodule which houses
the electro-optic devices. The
submodule concept is used as a
building block in many other
Hewlett-Packard products
including cooled 1 mW 14 pin
lasers and DFB modules.
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.
480
5963-1125E (7/94)
LSC3X00 Pin Connections and Block Diagram
Top View
FIBER PIGTAIL
NOT CONNECTED 1
14 NOT CONNECTED
NOT CONNECTED 2
13 NOT CONNECTED
NOT CONNECTED 3
12 NOT CONNECTED
NOT CONNECTED 4
11 NOT CONNECTED
CASE GROUND 5
10 LASER ANODE (+), GROUND
NOT CONNECTED 6
9 LASER CATHODE (-)
MONITOR PHOTODIODE CATHODE (+ve SUPPLY) 7
8 MONITOR PHOTODIODE ANODE (-ve SUPPLY)
LSC3X00 Mechanical Outline - Dimensions in mm
F
Q
N
L
E
R
A
B C
M
H G
J
D
P
K
DIM.
A
B
C
D
E
F
G
H
MIN.
MAX.
12.8
12.6
19.05 NOM.
25.5
25.3
6.8
6.4
6.0
–
21.53
21.33
7.21
7.01
9.60
9.40
DIM.
J
K
L
M
N
P
Q
R
MIN.
MAX.
5.9
5.5
2.52 NOM.
25.0 NOM.
4.2
–
–
800
1.8
1.5
1.05
0.99
7.62 NOM.
ALL DIMENSIONS IN MILLIMETERS
481
LSC3X00 Laser Diode Typical Operating Characteristics
LASER FORWARD VOLTAGE
vs. FORWARD CURRENT
DIFFERENTIAL RESISTANCE
vs. FORWARD CURRENT
30
1.0
dV/dl (Ω)
0.5
0
NORMALIZED THRESHOLD CURRENT
20
10
0
101
10
20
30
40
50
60
0
80
0
10
20
30
40
50
FORWARD CURRENT (mA)
FORWARD CURRENT (mA)
THRESHOLD CURRENT
vs. TEMPERATURE
PEAK WAVELENGTH
vs. TEMPERATURE
60
1320
1310
100
10-1
-30
-10
10
30
50
TEMPERATURE (°C)
482
70
WAVELENGTH (nm)
FORWARD VOLTAGE (V)
1.2
70
1300
1290
1285
-20
0
20
40
60
TEMPERATURE (°C)
80
LSC3X00 Laser Diode Typical Operating Characteristics
CONTINUOUS WAVE POWER
vs. FORWARD CURRENT (25 °C)
700
LSC3300 FIBER POWER (µW)
600
500
400
300
200
100
0
100
200
2 mW
300
200
1 mW
100
0
400
300
LSC3300 FIBER POWER (µW)
1 mW
0
10
20
30
40
50
60
LSC3100 FIBER POWER (mW)
400
70
FORWARD CURRENT (mA)
2 mW
LSC3100 FIBER POWER (mW)
100
SPECTRAL CONTENT
80
RELATIVE POWER
MONITOR DIODE PHOTOCURRENT (µA)
MONITOR PHOTOCURRENT
vs. OUTPUT POWER
60
40
20
0
1290
1300
1310
1320
WAVELENGTH (nm)
483
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
Laser Forward Current
Laser Reverse Current
Laser Reverse Voltage
Photodiode Reverse Voltage
Photodiode Forward Current
Operating Temperature
Storage Temperature
Relative Humidity
Symbol
If
Ir
Vlr
Vr
Ipf
Tc
Ts
RH
Fiber Pull Strength
Mechanical Shock
Conditions
Min.
-40
-40
0.0
DC
DC
DC
DC
DC
Pf min.
-
Limits
Max.
150
100
2
10
1
+85
+85
noncondensing
10
Units
mA
µA
V
V
mA
°C
°C
%RH
N
Mil Std 883D, Method 2002,
Condition B
Mil Std 883D, Method 2007,
Condition A
Vibration
Performance Specifications
Parameter
LASER
Threshold Current
Peak Optical
Output Power
Optical Output
Power
Slope Efficiency
Forward Voltage
Differential
Resistance
Centre Wavelength
Ic Change with
Temperature
Linewidth
Rise Time
Fall Time
Small Signal
Freq. Response
Symbol
LSC3300
Min. Max.
LSC3100
Min. Max.
5
100
35
-
5
1000
35
-
mA
µW
Pth = Pf @ Ith -2 mA
-
10
-
50
µW
dV/dI
4
-
16
1.8
10
40
-
100
1.8
10
µW/mA
V
Ω
1280
-
1330
0.5
1280
-
1330
0.5
nm
nm/°C
1.0
5
0.5
0.5
-
1.0
5
0.5
0.5
-
nm
ns
ns
GHz
Conditions
CW, Tc = 25°C, Pf = Pf min.
unless otherwise stated
Ith
Pf
Pth
η
Vf
Rd
λc
∆λ/∆T
∆λ
τr
τf
Bw
Note 1
Tc = -40°C to 85°C
FWHM (2.35s)
10% to 90%: Ith to Pf = Pf min.
90% to 10%: Pf = Pf min. to Ith
Pf = Pf min., ± 3 dB
Units
Note:
1. Modulated measurement available.
If the specific performance you require is not met by the above parameters, please contact Hewlett-Packard as the submodule
designs allows customization of performance to meet your needs.
484
Performance Specifications (cont’d.)
Parameter
MONITOR
PHOTODIODE
Symbol
Photocurrent
Responsivity
Dark Current
Tracking Error
Im
R
Id
∆R
Test Conditions
Tc = 25°C, Vr = -5 V, (Note 2),
CW, Pf = Pf min.
unless otherwise stated
If = 0 mA
Im = Im @ (Pf = Pf min.,
Tc = 25°C)
Tc = -40°C to +85°C
LSC3300
Min. Max.
LSC3100
Min. Max.
25
0.25
-
800
8.0
20
50
0.05
-
800
0.8
20
µA
A/W
nA
-1.5
+1.5
-2.0
+1.5
dB
Units
Note:
2. Photodiode will also operate under zero bias conditions.
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 Cutoff 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.
485
Ordering Information
LSC3X00 - XX
Connectors:
FP = FC/PC Polish
ST = ST®
BI = Biconic
SA = SMA
SC = SC
DN = DIN
SF = Super Polish FC/PC
Power Range:
1 = 1 mW minimum
3 = 100 µW minimum
CDRH Certification
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.
486
Laser Warning
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