a coolerless design. It offers all of the well-known
benefits of 980 nm erbium doped fiber amplifier
(EDFA) pumping, including high efficiency and
low noise.
Compared to conventional thermoelectric cooled
pump modules, the 1100 Series significantly
reduces electrical power consumption and heat
dissipation - important advantages to systems
equipment providers.
The module is designed to work in amplifiers
located within Telcordia central office
environments. To allow for flexibility in EDFA
design, it operates at case temperatures of 0 to
75°C. High reliability is provided by the high
power JDS Uniphase laser chip, which is widely
used in terrestrial and undersea applications, and
also by the field proven 14-pin butterfly package.
Excellent wavelength stability, power in band, and
side-mode suppression ratio are achieved through
the use of fiber Bragg grating wavelength
stabilization.
The 1100 Series meets the requirements of
Telcordia
TM
GR-468-CORE.
Key Features
•
Uncooled design for reduced power
consumption and reduced heat dissipation
•
High power JDS Uniphase laser chip for high
reliability over 0 to 75 °C
•
High kink-free powers up to 200 mW
•
Low-profile, epoxy-free, and flux-free 14-PIN
butterfly planar package
•
Fiber Bragg grating stabilization
•
Wavelength selection available
•
High dynamic range
•
Excellent low power stability
Applications
•
All coolerless erbium doped fiber amplifiers
(EDFAs)
•
Micro-amps
•
Pre-amps
Compliance
•
Telcordia™ GR-468-CORE
1100 Series Pumps | 2
Dimensions Diagram
250 µm Bare Fiber Type A Wiring (Specifications in mm unless otherwise noted.)
50.9
30.0
26.0
20.8
POINT A
750 NOM. TO
CENTRE
OF GRATING
FLEXIBLE 900 µm RECOAT
7
1
12.7
9.0
8
14
STRAIN RELIEF
13.9 NOM.
4X Ø2.5 THRU
FIBRE LENGTH 1500 MEASURED
FROM POINT A
4.6
14X 0.51 LEAD WIDTH
12X 2.5 LEAD SPACING
TOLERANCE IS NON-CUMULATIVE
0.25 LEAD HEIGHT
7.7 ±0.2
1.5
5.6 TO C/L
Ø4.5
5.21
Ø1.8
Note: The module pigtail consists of 250 µm buffered, Corning PureMode
TM
HI-1060 Single-mode fiber.
Pinout
(package viewed from top)
Pinout
Pin
Description
No connector (NC)
NC
NC
NC
NC
NC
NC
NC
NC
Laser anode
Laser cathode
NC
Case ground
NC
1
2
3
4
5
7
6
5
4
3
2
1
8
9
10
11
12
13
14
6
7
8
9
10
11
12
13
14
1100 Series Pumps | 3
Table 1: Absolute Maximum Ratings
Parameter
Operating case temperature
Storage temperature
Storage temperature
LD reverse voltage
LD forward current
LD current transient
LD reverse current
Electrostatic discharge (ESD)
Axial pull force
Side pull force
Fiber bend radius
Relative humidity
Lead soldering time
Note:
Symbol
T
op
T
s t g
T
s t g
V
r
Test Condition
-
72 hours
2000 hours
-
-
1 µs maximum
-
C = 100 pF, R = 1.5
Ω,
human body model
3 x 10 seconds
3 x 10 seconds
-
40 °C
260 °C
Minimum
0 °C
-40 °C
-40 °C
-
-
-
-
-
-
-
16 mm
5%
-
Maximum
75 °C
85 °C
75 °C
2V
650 mA
950 mA
10 µA
1000 V
5N
2.5 N
-
95%
10 seconds
V
E S D
R
H
Absolute maximum ratings are the maximum stresses that may be applied to the pump module for short periods of time without causing damage. Stresses in excess of the
absolute maximum ratings can permanently damage the device. Exposure to absolute maximum ratings for extended periods, or exposure to more than one absolute
maximum rating simultaneously may adversely affect device reliability.
Table 2: Operating Parameters
(BOL, T
case
= 0 to 75 °C, unless noted otherwise)
Product
Code
Maximum
Operating
Power
P
op
(mW)
1,3
55
65
75
80
90
100
105
115
125
130
140
150
155
165
Maximum
Operating
Current
I
op
(mA)
Maximum
1
185
205
220
230
245
265
275
300
325
335
365
395
410
440
Minimum
Kink-Free
Power
P
max
(mW)
2
70
80
90
100
110
120
130
140
150
160
170
180
190
200
Kink-Free
Current
I
max
(mA)
3
Maximum
2
225
250
265
280
295
320
330
360
390
405
440
475
495
530
1.10
1.25
BOL
EOL
Module Power Module Power
Consumption Consumption
(W)
(W)
Maximum
Maximum
11-xxxx-070
11-xxxx-080
11-xxxx-090
11-xxxx-100
11-xxxx-110
11-xxxx-120
11-xxxx-130
11-xxxx-140
11-xxxx-150
11-xxxx-160
11-xxxx-170
11-xxxx-180
11-xxxx-190
11-xxxx-200
0.75
1.00
1: The
maximum operating power
P
op
will be achieved at a device-specific current, the
maximum operating current
I
op
. The individual value of I
op
is noted
on the hardcopy data sheet shipped with the device. All values of I
op
are limited by the maximum value listed in Table 2.
2: The module is kink-free (at least) up to a
minimum kink-free power
P
max
that the module will achieve at a device-specific current, the
kink-free current
I
max
.
The individual value of I
max
is noted on the hardcopy data sheet shipped with the device. All values of I
max
are limited by the maximum value listed in
Table 2.
3: The pump laser shall never be operated at a power higher than the
maximum operating power
P
op
throughout its lifetime. At
Begin of Life
(BOL), the
operating current shall never be higher than the device-specific
maximum operating current
I
op
that is noted on the hardcopy data sheet shipped with
the device. At
End of Life
(EOL), the operating current shall never be higher than the device-specific
kink-free current
I
max
that is noted on the hardcopy
data sheet shipped with the device.
1100 Series Pumps | 4
Table 3: Available Peak Wavelength Selection
Product Code
11-8000-xxx
11-7203-xxx
11-7403-xxx
11-7603-xxx
Minimum Peak
Wavelength
970.0 nm
970.5 nm
972.5 nm
974.5 nm
(T
amb
= 25 ±3 °C, 50 mW < P < P
op
)
Maximum Peak
Wavelength
985.0 nm
973.5 nm
975.5 nm
977.5 nm
Table 4: Electro-Optical Performance
Parameter
Threshold current
Forward voltage
Peak wavelength tuning
Side-mode suppression ratio
Symbol
I
th
(BOL, T
case
= 0 to 75 °C, -50 dB reflection, unless noted otherwise)
Test Condition
-
I
f
= I
o p
30 mW < P < P
op
30 mW < P < P
op
Minimum
-
-
-
15 dB
Maximum
40 mA
2.35 V
0.02 nm/°C
-
V
f
∆λ
P
/∆T
amb
SMSR
1. The Tracking Error is defined as the normalized change of output power relative to the operating power over case temperature range 0°C to 75°C, at constant back face monitor
current corresponding to the operating power at 25°C.
2. The Tracking Ratio is a measure of the front-to-back tracking when the output power is varied. On a plot of optical power versus back-face photocurrent, a straight line is drawn
between the minimum power (20 mW) and the operating power Pop points. The tracking ratio is defined as the ratio between measured optical power (shown as data points on
the plot) to the value derived from the straight line.
1100 Series Pumps | 5
User Safety
Safety and Operating Considerations
The laser light emitted from this laser diode is
invisible and may be harmful to the human eye.
Avoid looking directly into the fiber when the
device is in operation.
CAUTION: THE USE OF OPTICAL
INSTRUMENTS WITH THIS PRODUCT
INCREASES EYE HAZARD.
Operating the laser diode outside of its
maximum ratings may cause device failure or a
safety hazard. Power supplies used with this
component cannot exceed maximum peak
optical power.
CW laser diodes may be damaged by excessive
drive current or switching transients. When us-
ing power supplies, the laser diode should be
connected with the main power on and the out-
put voltage at zero. The current should be in-
creased slowly while monitoring the laser diode
output power and the drive current. Careful at-
tention to heatsinking and proper mounting of
this device is required to ensure specified per-
formance over its operating life. To maximize
thermal transfer to the heatsink, the heatsink
mounting surface must be flat to within .001”
and the mounting screws must be torqued down
to 1.5 in.-lb.
ESD PROTECTION — Electrostatic discharge
(ESD) is the primary cause of unexpected laser
diode failure. Take extreme precaution to
prevent ESD. Use wrist straps, grounded work
surfaces, and rigorous antistatic techniques
when handling laser diodes.
Labeling
21 CFR 1040.10 Compliance
Because of the small size of these devices, the output power and laser emission indicator
label shown below is attached to the individual shipping container. All labels are illustrated
here to comply with 21 CFR 1040.10 as applicable under the Radiations Control for Health
and Safety Act of 1968.
14-PIN MODULE LABEL
01/01/02 11-ABC123
11-xxxx-xxx
SHIPPING BOX LABEL
Serial:
11-ABC123
Model:
11-xxxx-xxx
JDS Uniphase
3530 Bassett St
Santa Clara, CA 95054
OUTPUT POWER AND LASER EMISSION INDICATOR LABEL
DANGER
INVISIBLE LASER RADIATION -
AVOID DIRECT EXPOSURE TO BEAM
PEAK POWER 500 mW
WAVELENGTH 630 - 1,550 nm
CAUTION -
Handle with care. Easily damaged
by electrostatic discharge
INVISIBLE
LASER DIODE
AVOID EXPOSURE
This product complies with 21 CFR Chapter 1, Subchapter J
CLASS 3B LASER PRODUCT
Visible/invisible
radiation emitted
from fiber end or
fiber receptacle
Ordering Information
For more information on this or other products and their availability, please contact your local JDS Uniphase account manager
or JDS Uniphase directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide or via e-mail at
sales@jdsu.com.
11-xxxx-xxx
Minimum Kink Free Power (see Table 2)
Peak Wavelength (see Table 3)
Telcordia is a registered trademark of Telcordia Technologies Incorporated.
PureMode is a registered trademark of Corning Incorporated.
North America toll-free: 1-800-498-JDSU (5378)
Worldwide toll-free: +800-5378-JDSU
www.jdsu.com
All statements, technical information and recommendations related to the products herein are based upon information
believed to be reliable or accurate. However, the accuracy or completeness thereof is not guaranteed, and no responsibility is
assumed for any inaccuracies. The user assumes all risks and liability whatsoever in connection with the use of a product or its
application. JDS Uniphase reserves the right to change at any time without notice the design, specifications, function, fit or
form of its products described herein, including withdrawal at any time of a product offered for sale herein. JDS Uniphase
makes no representations that the products herein are free from any intellectual property claims of others. Please contact JDS
Uniphase for more information. JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation. Other
trademarks are the property of their respective holders. Copyright JDS Uniphase Corporation. All rights reserved.
京公网安备 11010802033920号
Copyright © 2005-2026 EEWORLD.com.cn, Inc. All rights reserved
电子工程世界
