Pump Laser Modules 1064 CHP

KeyFeatures

1999 MPP

Operating power up to 430mW Operating temperature range: -5 to 75°C Total Power Consumption: 6.5W max @430mW Pop Telcordia GR-468 CORE Qualified RoHs 6/6

Applications High output power Low noise Erbium-doped Fiber Amplifier CATV Sensors Wavelength Conversion

For moreInfo Please contact us at: North America: 514.748.4848 888.922.1044 Europe & Asia: +33 (0) 1 69 80 58 33 or via e-mail at [email protected]

475mW Kink-Free, FBG Stabilized 980nm Pump Laser Module The 1999 MPP is a new generation of 980nm terrestrial pump modules powered by in-house chip technology, ensuring an outstanding level of performance, power consumption and reliability. Low Profile, 14-pin butterfly modules are available with an operating power up to 430mW. The wavelength is “locked” utilizing a fiber bragg grating (FBG) located in a Single Mode HI1060 Fiber (SMF) pigtail. The module meets the TelcordiaTM GR-468-Core requirements for hermetic 980nm pump modules. These modules provide excellent stability and wide dynamic range due to their specific design.

Pump Laser Modules 1999 MPP 475mW Kink-Free, FBG Stabilized 980 nm Pump Laser Module

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ELECTRO-OPTICAL CHARACTERISTICS The following parameters are specified BOL for TLD= 25°C, Tcase= -5 to 75°C, Pop= Pnom, unless otherwise stated.

Parameters

Conditions

Symbol

Min

Typ

Max

Unit

Ith

-

45

60

mA

Nominal operating power

Pnom

200

-

430

mW

Kink free power Note 2

Pkink

1.1 x Pnom

-

-

mW

Vnom

-

1.8

2.1

V

-

330 400 470 525 600 645

365 440 515 590 670 700

mA

-

±0.5

nm

PUMP LASER Threshold current Note 1

Forward voltage

Forward current @ Pnom

@430mW

Note 3

Peak wavelength tolerance

Pnom= 200mW Pnom= 250mW Pnom= 300mW Pnom= 350mW Pnom= 400mW Pnom= 430mW @ Tcase= TFBG= 25°C 0.1x Pnom to Pnom

Inom

Δλp

Wavelength tuning vs temperature (Tgrating= -5 to 75°C)

0.1x Pnom

to

Pnom

Δλp / ΔT

-

0.01

0.02

nm/°C

Spectral width @-3dB

0.1x Pnom

to

Pnom

ΔλFWHM

-

0.6

1.0

nm

Optical power stability

Peak to peak 50kHz, 1mn 10mW Pop 20mW 20mW Pop 50mW Pop≥50mW

0.4 0.3 0.15

0.6 0.4 0.2

ΔPop

dB

MONITOR DIODE Responsivity Dark current

Vr= 5V

dIBFM / dP

0.5

-

10

mA

IBFM_dark

-

50

100

nA

ΔTTEC

50

-

-

°C

THERMO-ELECTRICAL COOLER Cooling capacity TEC voltage (EOL) TEC current

(EOL)

TEC Power consumption

Tcase= 75°C, 1.1 x Inom Tcase= 75°C, 1.1 x Inom

VTEC,

EOL

-

-

2.5

V

ITEC,

EOL

-

-

2.0

A

@430mW

PTEC

-

-

5.0

W

25°C

Rth

9.5

10

10.5

kΩ

B

3600

-

4200

K

THERMISTOR Resistance Constant

(1): (2):

(3):

Ith is the intersection point with the x-axis of a linear fit of the P(I) curve between 15 and 50mW A kink is detected when the local slope, dP/dI, is below Smin or above Smax. Smin is defined as 0.5 x Savg and Smax is defined as 1.5 x Savg Savg is the slope of a linear fit of the P(I) curve between 50 and 150mW. EOL forward current I(EOL)= 1.1x I(BOL)

Pump Laser Modules 1999 MPP 475mW Kink-Free, FBG Stabilized 980 nm Pump Laser Module

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ABSOLUTE MAXIMUM RATINGS Exposing this device to stresses and conditions above those listed in this section could cause permanent damage and affect reliability. The device is not meant to operate outside the operational limits described in previous section at any length of time.

Parameter Conditions Storage temperature (2000h)

Symbol

Min

Max

Unit

T T

-40 -20 -

85 75 280 800 2

°C °C °C mA V

-

15 10 3.3 2.4 1000 150

V mA V A V mN. m

25 -

5

mm N

Typ

Max

Unit

stg

Operating temperature (Tsubmount = 25°C) Lead soldering temperature (10s maximum) LD forward drive current LD reverse voltage PD reverse voltage PD forward current TEC voltage TEC current ESD* damage Mounting torque

I V

op

f_max

r_max

V I V I V

PD_max

PD_max

TEC_C_max

TEC_C_max

ESD

Fiber bend radius Axial pull force (1x 1min)

.

* Human Body model, C= 100pF, R= 1.5Ω

FIBER PIGTAIL CHARACTERISTICS Parameter

Note

Min

Fiber type Coating diameter FBG recoat diameter FBG position Loose tube buffer diameter Fiber prove test level Grating proof test level Pigtail termination

HI1060 (except along grating) Module to center of FBG

Bare fiber

TM

or equivalent

230 -

250 2.0

270 400 -

µm µm m

885

-

915

µm

200

-

-

kpsi

150

-

-

kpsi

Pump Laser Modules 1999 MPP 475mW Kink-Free, FBG Stabilized 980 nm Pump Laser Module

4

MECHANICAL DETAILS Dimensions are in mm.

PIN ASSIGNEMENT N° 1 2 3 4 5 6 7 8 9 10 11 12 13 14

Description Cooler anode Thermistor Monitor PD Anode Monitor PD Cathode Thermistor No connect No connect No connect No connect Laser Anode (+) Laser Cathode (-) No connect Case Cooler cathode

1999 HPPLaser Pump 825mW Kink-Free, FBG Stabilized Modules 980 nm Pump Laser Module 1999 MPP 475mW Kink-Free, FBG Stabilized 980 nm Pump Laser Module

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55

Handling LASER SAFETY INFORMATION LASER SAFETY INFORMATION

recautions prevent Thisinvisible product sensitive electrostatic discharge and should not be handled This laser module light. Take appropriate precautions to undue exposure Thisto laser moduleemits emits invisibleis light. Taketo appropriate precautions toprevent prevent undue exposureto tonaked nakedeye eyewhen when module is in operation. This product is classified Class 4 Laser Product according to IEC-60825-1. n. except a static is freeclassified workstation. module is in operation. Thisatproduct Class 4 Laser Product according to IEC-60825-1.

o IEC-60825-1.

Take precautions to prevent ESD ; use wrist straps, grounded work surfaces and recognized anti-static techniques when handling the product. Handle the never hold it by its pigtail. HANDLING module by its package only, HANDLING

Caretoshould be taken to avoid supply transient currentsonly, andnever voltages. This product is sensitive modules. Handle the module by its package holdDrive it by its pigtail. This product is sensitive to modules. Handle the module by its package only; never hold it by its pigtail. Care should be takenvoltage to avoid supply transient currents and voltages.maximum Drive voltage above the maximum specified in above the maximum specified in absolute rating section Care should be taken to avoid supply transient currents and voltages. Drive voltage above the maximum specified in absolute maximum rating section electrostatic discharge and should not be handled except at a static free may cause permanent damage to the device. absolute maximum rating section electrostatic discharge and should not be handled except at a static free workstation. Take precautions to prevent ESD ; use wrist straps, grounded work surfaces and recognized anti-static workstation. Take precautions to prevent ESD; use wrist straps, grounded work surfaces and recognized anti-static available upon request. techniques when handling the product may cause permanent damage to the device. techniques when handling the product may cause permanent damage to the device.

med

λ p = 976.0nm T = 25 °C ATTENTION OBSERVE Part Number PRECAUTIONS FOR HANDLING 3CN 01351 DL ELECTROSTATIC DISCHARGE 3CN 01351 EA SENSITIVE DEVICES 3CN 01351 EL 3CN 01351 FA 3CN 01351 FS INFORMATION 3CNORDERING 01351 GL ORDERING INFORMATION 1999HPP pump product family – other wavelengths are available upon request.

MPP pump product family – other wavelengths are available upon request. λ p =1999 976.0nm λ p = 977.6nm λ p = 979.5nm λ p = 980.0nm λ p = 981.0nm T = 25 °C T = 25 °C T = 25 °C T PMF = 25 pigtail °C Tλ==974.5nm 25 °C λ =976.0nm SMF pigtail λ =974.5nm λ =976.0nm λ =974.5nm, TPart =25°C λ =976.0nm, T Number =25°C Part Number Part Number Nominal Power PartNominal NumberPower PartPart Number Part Number Number Part Number Part Number Power Part Number 3CN01491DL 3CN01492DL 450mW 3CN01489DL 3CN01490DL 3CN 01344 CL - Nominal - Part Number 450mW 200mW 3CN01487BA 3CN01488BA 500mW 3CN01491EA 3CN01492EA 500mW 3CN01489EA 3CN01490EA 3CN 01344 DA 250mW 3CN01487BL 3CN01488BL 550mW 3CN01491EL 3CN01492EL 550mW 3CN01489EL 3CN01490EL 3CN 01344 DL 300mW 3CN01487CA 3CN01488CA 600mW 3CN01491FA 3CN01492FA 600mW 3CN01489FA 3CN01490FA 3CN 01344 EA 350mW 3CN01487CL 3CN01488CL 680mW 3CN01491FS 3CN01492FS 680mW 3CN01489FS 3CN01490FS 3CN 01344 EL 400mW 3CN01487DA 3CN01488DA 720mW 3CN01491GE 3CN01492GE 720mW 3CN01490GE 3CN 01344 FA 3CN3CN01489GE 01180 FA 430mW3CN 01382 FA 3CN 01458 FA 3CN 01423 FA 3CN01487DG 3CN01488DG 750mW 3CN01491GL 3CN01492GL 750mW 3CN01489GL 3CN01490GL 3CN 01344 FL 3CN 01180 FL 3CN 01382 FL 3CN 01458 FL 3CN 01423 FL 3CN 01344 FS 3CN 01180 FS 3CN 01382 FS 3CN 01458 FS 3CN 01423 FS 3CN 01344 GA 3CN 01180GA 3CN 01382 GA 3CN 01458 GA 3CN 01423 GA 3SPGroup 3SPGroup 3CNRevised 01344 GE 3CN 01180GE 3CN 01382 GE 3CN 01458 GE 3CN 01423 GENorth NorthAmerica: America:514.748.4848 514.748.4848 March 2013 3CN 01344 GL 3CN 01180 GL 3CN 01382 GL 3CN 01458 GL 3CN 01423 GL 888.922.1044 888.922.1044 p

p

p

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chip

Pleasenote: note:information informationininthis thisdocument documentisistypical typicaland andmust mustbe bespecifically specificallyconfirmed confirmed Please inwriting writingby byyour yoursupplier supplier beforeititbecomes becomesapplicable applicabletotoany anyorder orderororcontract. contract. Revised March 2013 before in Informationisissubject subjecttotochange changewithout withoutnotice. notice. Information ©20113S 3SPHOTONICS PHOTONICSS.A.S S.A.S ©2011

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Europeand andAsia: Asia:+33 +33(0)1 (0)169 6980 8058 5833 33 Europe www.3spgroup.com••[email protected] [email protected] www.3spgroup.com

ORDERING INFO INFO ORDERING

Pleasecontact contactyour yourSales SalesManager. Manager.3SPGroup 3SPGroupcan canalso alsodevelop develop Please customproducts productstotomeet meetaawide widerange rangeofoftechnical technicalrequirements. requirements. custom

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3SPGroup North America: 514.748.4848 888.922.1044