SDLO-1700-160 - JDS Uniphase

The JDS Uniphase 1700 Series embraces an

elegant solution to one of the biggest concerns of

EDFA designers,“heat dissipation”. These highly

efficient pump modules consume less than one

half of the electr ical power than other 980 nm

pump modules at the same optical power levels.

The 1700 Series are used in a variety of applica-

tions where heat dissipation is a concern. These

applications include: wideband er bium doped fiber

amplifiers (EDFA) in dense wavelength division

multiplexed (DWDM) fiber optic networks a nd

narrow band erbium doped fiber amplets.

Incor porated into these pump modules is our

cutting-edge 6540 laser diodes, which possess

superior reliability and thermal perfor mance.

These laser modules are stabilized with fiber Bragg

grating to enhance the performance of EDFA.

Key Features

•Up to 220 mW kinkfree optical power

•Typical total module power consumption

(Case temperature at 45 °C): < 1.5 W

•Maximal total module power consumption

(Case temperature at 75 °C): 3.2 W

•Fiber Bragg grating stabilized

•Wavelength selection available

•Standard planar package

•Integrated TEC and thermistor

Applications

•Next generation DWDM EDFAs requiring

low heat dissipation,high efficiency, simple

electronic design and low operating cost

•CATV distribution

Compliance

•Telcordia™ GR-468-CORE

1700 Series Pumps

980 nm,Low Power

Consumption Pump

Modules for Next

Generation EDFA Designs

Product Bulletin

1700 Series Pumps 2

Absolute Maximum Ratings

Parameter Condition Min Max Units

Laser Diode

Forward Current 650 mA

Current Transient 1µs max 1 A

Reverse Voltage 2 V

Reverse Current 2 mA

Monitor Photodiode

Reverse Voltage 16 V

Forward Current 20 mA

Thermoelectric Cooler

Voltage 3.4 V

Current 2.5 A

Package

Storage Temperatur e -40 +75 °C

Operating Temperature -20 +75 °C

Fiber Pigtail

Fiber Temperature -40 +85 °C

Axial Pull Force 5 N

Bend Radius 16 mm

Electro-Optical Performance

Parameter Symbol Test Condition Min. Max. Units

Wavelength1λmTambient = 22±3°C 974 985 nm

Power in Band Ppump 974 nm < λm< 985 nm 90 - %

Spectral Width ∆λRMS - - 2.0 nm

W av elength Tuning vs.Tambient ∆λ/T 0 0.02 nm/°C

Optical Power Stability ∆Pf_t If= Iop,t = 60 seconds - 0.5 %

Laser Diode

Threshold Current Ith --33mA

Forward Voltage VfIf= Iop - 2.5 volts

Monitor Photodiode

Responsivity 0.77 21.5 µA/mW

Thermoelectric Cooler Operation

TEC Current ITEC Tcase = –5 to 75 °C at If= Iop_EOL –1.2 1.2 A

TEC V oltage VTEC Tcase = –5 to 75 °C at If= Iop_EOL –1.7 1.7 V

TEC Power Consumption PTEC Tcase = –5 to 75 °C at If= Iop_EOL -2 W

Total Module Power Consumption Pmod_tot Tcase = –5 to 75 °C at If= Iop_EOL - 3.2 W

T ypical TEC Current ITEC Tcase = 45 °C at If= Iop_EOL - 0.5 A

T ypical TEC Voltage VTEC Tcase = 45 °C at If= Iop_EOL - 0.6 V

T ypical TEC Power Consumption PTEC Tcase = 45 °C at If= Iop_EOL - 0.3 W

Typical Module Power Consumption Pmod_tot Tcase = 45 °C at If= Iop_EOL - 1.5 W

Thermistor Resistance Rth Tset = 45°C 4.1 4.6 KΩ

Thermistor Constant B 45 °C 3700 4300 K

Parameter Specification Units

Fiber Pigtail Specifications

Type SM -

Mode-field Diameter 6.5 ±1 µm

Cladding Diameter 125 ±2 µm

Jacket Diameter 250 µm

1. Wavelength selection available

2. All specifications are at BOL for an operating temperature range for Tcase = 0 to 75 °C and back reflection < –50 dB.

Operating Powers

Product Operating Maximum Maximum Maximum

Number Power Operating Kink-Free Kink-Free

Current Power Current

Pop (mW) Iop (mA) Pmax (mW) Imax (mA)

SDLO-1700-110 100 255 110 265

SDLO-1700-120 110 265 120 275

SDLO-1700-130 120 275 130 290

SDLO-1700-140 125 285 140 310

SDLO-1700-150 135 300 150 330

SDLO-1700-160 145 320 160 350

SDLO-1700-170 155 330 170 370

SDLO-1700-180 160 340 180 380

SDLO-1700-190 170 360 190 400

SDLO-1700-200 180 380 200 420

SDLO-1700-210 190 400 210 440

SDLO-1700-220 200 420 220 460

1700 Series Pumps 3

Package Dimensions

Dimensions in millimeters except where indicated

Lead Connection

148

20.8

26.0

30.0

9.012.7

13.9 NOM

4.6

2.54 (12x) LEAD SPACING

TOLERANCE IS NON-CUMULATIVE

0.51 (14x) LEAD WIDTH

∅ 2.5 (4x) THRU

STRAIN RELIEF

∅ 4.5 ∅ 1.8

5.21

52 NOM

POINT

“A”

FIBER LENGTH

1.5 METERS MEASURED

FROM POINT “A”

0.25

1.5

7.7 ±0.2

750 NOM. TO

CENTER OF GRATING

FLEXIBLE ∅ 900

MICRON RECOAT

5.59 TO C/L

Lead Connections

1 Cooler (+)

2 Thermistor

3 Monitor PD Anode

4 Monitor PD Cathode

5 Thermistor

6 N/C

7 N/C

8 N/C

9 N/C

10 Laser Anode

11 Laser Cathode

12 N/C

13 Case Ground

14 Cooler (–)

Electrical Schematic

(Package Viewed From Top)

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JDS Uniphase Corporation

80 Rose Orchard Way

San Jose,California

95134 USA

All information contained herein is believed to be accurate and is subject to change without notice. No

responsibility is assumed for its use. JDS Uniphase Corporation, its subsidiaries and affiliates, or

manufacturer, reserve the right to make changes,without notice, to product design,product components,

and product manufacturing methods. Some specific combinations of options may not be available. Please

1700 Rev.A 03/01 Printed in USA

1700 Series Pumps 4

Tel 408 943-4200

Fax 408 954-4252

sales.ca@us.jdsuniphase.com

www.jdsuniphase.com

Ordering information

For more information on this or other products and their availability,please contact your local JDS Uniphase sales representative

or JDS Uniphase directly at 408 943-4200,or by fax 408 943-4252, or via email at sales.ca@us.jdsuniphase.com.Visit our Web

site at www.jdsuniphase.com.

INVISIBLE LASER RADIATION—

AVOID DIRECT EXPOSURE TO BEAM

PEAK POWER 500 mW

WAVELENGTH 710 — 1,550 nm

INVISIBLE

LASER DIODE

Invisible

radiation emitted

from fiber end or

fiber receptacle

AVOID EXPOSURE

CLASS 3B LASER PRODUCT

CAUTION —Handle with care. Easily damaged

by electrostatic discharge

This product complies with 21 CFR Chapter 1,

Subchapter J

DANGER

Model Number Serial #

Date:

SDLO-1700 81592

JDS Uniphase Corporation

2261A Keating Cross Rd.

Saanichton, BC, Canada V8M 2A5

TEL: 250-544-2244 FAX: 250-544-2225

Safety and Operating Considerations

The laser light emitted from this laser diode is

invisible and may be harmful to the h uman ey e.

Avoid looking directly into the fiber when the

device is in operation.

CAUTION: THE USE OF OPTICAL INSTRU-

MENTS WITH THIS PRODUCT WILL

INCREASE EYE HAZARD.

Operating the laser diode outside of its maxi-

mum ratings may cause device failure or a safe-

ty hazard.Po w er supplies used with the compo-

nent must be employ ed such that the maximum

peak optical power cannot be exceeded.

CW laser diodes may be damaged by excessive

drive current or switching transients. When

using power supplies, the laser diode should be

connected with the main pow er on and the out-

put voltage at zero. The current should be

increased slowly while monitoring the laser

diode output power and the drive current.

Careful attention to heatsinking and proper

mounting of this device is required to insure

specified performance 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 — Electro-static discharge

is the primary cause of unexpected laser diode

failure. Take extreme precaution to prevent

ESD. Use wrist st raps, grounded work surfaces,

and rigorous anti-static techniques when han-

dling laser diodes.

User Safety

21 CFR 1040.10 Compliance

Because of the small size of these devices, each of the labels shown is attached to the individual

shipping container.They are illustrated here to comply with 21 CFR 1040.10 as applicable under

the radiations control for health and safety act of 1968.

SERIAL NUMBER IDENTIFICATION LABEL

OUTPUT POWER AND LASER EMISSION INDICATOR LABEL