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26-7702-130-TE

更新时间：2024-09-18 08:00:41

品牌：JDSU

描述：Up to 180 mW Fiber Bragg Grating Stabilized 980 nm Pump Modules with Tight Tracking

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26-7702-130-TE 概述

Up to 180 mW Fiber Bragg Grating Stabilized 980 nm Pump Modules with Tight Tracking 高达180 mW的光纤布拉格光栅稳定980nm泵浦模块紧密跟踪光纤发送器

26-7702-130-TE 规格参数

生命周期：	Obsolete	包装说明：	BUTTERFLY
Reach Compliance Code：	compliant	风险等级：	5.84
主体宽度：	12.7 mm	主体高度：	7.7 mm
主体长度或直径：	20.8 mm	内置特性：	AMPLIFIER, TEC, THERMISTOR
通信标准：	GR-468	发射极/检测器类型：	MONITOR PHOTODIODE
光纤设备类型：	TRANSMITTER	安装特点：	PANEL MOUNT
最高工作温度：	75 °C	最低工作温度：	-5 °C
最大工作波长：	978 nm	最小工作波长：	976 nm
标称工作波长：	977 nm	封装形式：	BUTTERFLY
子类别：	Fiber Optic Emitters	最大供电电压：	2.5 V
表面贴装：	NO	传输类型：	DIGITAL
Base Number Matches：	1

26-7702-130-TE 数据手册

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COMMUNICATIONS COMPONENTS

Up to 180 mW Fiber Bragg Grating Stabilized 980 nm Pump

Modules with Tight Tracking

2600-TE Series

Key Features

• High kink-free powers to 180 mW

• Low-profile, epoxy-free, and flux-free 14-PIN butterfly

planar package

• Fiber Bragg grating stabilization

• Wavelength selection available

• Tight tracking of fiber-coupled power

• Integrated thermoelectric cooler, thermistor, and

monitor diode

• High dynamic range

• Excellent low power stability

Applications

The JDSU 2600-TE Series 980 nm pump module utilizes a planar construction

with chip on subcarrier. The high power JDSU laser chip is hermetically sealed in

a low-profile, epoxy- and flux-free 14-pin butterfly package and fitted with a

thermistor, thermoelectric cooler, and monitor diode. The module meets the

stringent requirements of the telecommunications industry, including Telcordia™

GR-468-CORE for hermetic 980 nm pump modules.

• Erbium doped fiber amplifiers (EDFAs)

without a front-fiber tab for tracking

• Dense wavelength division

multiplexing (DWDM) EDFAs for

small package designs

The 2600-TE Series pump module uses fiber Bragg grating stabilization to “lock”

the emission wavelength. It provides a noise-free narrowband spectrum, even

under changes in temperature, drive current, and optical feedback. Wavelength

selection is available for applications that require the highest performance in

spectrum control with the highest available powers.

• High bit rate, high channel count EDFAs

• CATV distribution

Compliance

The 2600-TE Series design also offers tight tracking of fiber-coupled power via the

monitor diode signal.

• Telcordia GR-468-CORE

NORTH AMERICA: 800 498-JDSU (5378)

WORLDWIDE: +800 5378-JDSU

WEBSITE: www.jdsu.com

2600-TE SERIES

Dimensions Diagram

250 µm Bare Fiber Type A Wiring

(Note: Specifications in mm unless otherwise noted; tolerance = .x .ꢀ3 .xx .20

The module pigtail consists of 250 µm buffered3 Corning PureMode^TMHI-1060 Single-

mode fiber.)

45.04

30.0

1600 MIN (1900 NOM)

1000 NOM. TO CENTER OF GRATING

26.0

500 NOM. TO C/L OF SPLICE (OPTIONAL)

20.8

17.8

1.5

40.5 NOM.15.5 12.7 9.0

STRAIN RELIEF

FLEXIBLE <=400

MICRON RECOAT

4.6

4X 2.50 THRU

12X 2.5 LEAD SPACING

260 < RECOAT < 935 (MICRON)

TOLERANCE IS NON-ACCUMULATIVE

14X 0.51 LEAD WIDTH

RED NON-XYLENE MARK

FOR RECOAT WITH 295 35 μm

2.8

4.00

1.50

7.7 0.20

3.9

1.5

5.6 TO LEAD C/L

2X ~5

5.26

0.25 LEAD THICKNESS

Pinout

Description

Cooler (+)

Thermistor

Monitor PD Anode

Monitor PD Cathode

Thermistor

N/C

Laser Anode

Laser Cathode

N/C

Case Ground

Cooler (-)

2600-TE SERIES

ꢀ

Table 1: Absolute Maximum Ratings

Parameter

Symbol

Test Conditions

Minimum

Maximum

Operating case temperature

Storage temperature

LD submount temperature

LD reverse voltage

LD forward current

LD current transient

LD reverse current

PD reverse voltage

PD forward current

Electrostatic discharge (ESD)

TEC current

TEC voltage

Axial pull force

Side pull force

Fiber bend radius

Relative humidity

Lead soldering time

T^op

Tstg

T^LD

V^r

-5 °C

-40 °C

0 °C

75 °C

85 °C

50 °C

2 V

650 mA

950 mA

10 µA

20 V

10 mA

1000 V

2.5 A

4.0 V

5 N

2000 hours

1 µs maximum

V^PD

IPD

VESD

I^TEC

VTEC

C = 100 pF, R = 1.5 Ω, human body model

3 x 10 seconds

40 °C

260 °C

2.5 N

95%

16 mm

R^H

10 seconds

Note: 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

(BOL3T^case= 0 to 75 °C3TLD = 25 °C3 -50 dB reflection3 unless noted otherwise)

Product

Code¹

Maximum

Operating

Current

Minimum

Kink-Free

Power

Kink-Free

Current

Operating

Power

Imax (mA)³

Maximum⁴

Pop (mW)^2,3

Iop (mA)

Pmax (mW)⁴

Maximum²

26-xxxx-100-TE

26-xxxx-110-TE

26-xxxx-120-TE

26-xxxx-130-TE

26-xxxx-140-TE

26-xxxx-150-TE

26-xxxx-160-TE

26-xxxx-170-TE

26-xxxx-180-TE

240

260

270

280

300

320

340

100

110

120

130

140

150

160

170

180

260

270

290

310

330

350

370

380

100

110

120

125

135

145

155

160

1. The 27-xxxx-xxx-TE may be substituted for this part series. All 26-xxxx-xxx-TE end product specifications will remain as published; there is no change to part numbers, product testing, quality or

reliability. Traceability is accomplished through product serial number.

2. The maximum operating power P^opwill be achieved at a device-specific current, the maximum operating current Iop. The individual value of Iop is noted on the hardcopy data sheet shipped with the device.

All values of I^opare 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^opthroughout its lifetime. At Begin of Life (BOL), the operating current shall never be higher than the

device-specific maximum operating current I^opthat 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^maxthat is noted on the hardcopy data sheet shipped with the device.

4. The module is kink-free (at least) up to a minimum kink-free power P^maxthat the module will achieve at a device-specific current, the kink-free current Imax. The individual value of Imax is noted on the

hardcopy data sheet shipped with the device. All values of I^maxare limited by the maximum value listed in Table 2.

2600-TE SERIES

Table 3: Available Peak Wavelength Selection

(Tamb = 25 ꢀ °C3 50 mW < P < Pop)

Product Code

Minimum Peak Wavelength

Maximum Peak Wavelength

26-8000-xxx-TE

26-7402-xxx-TE

26-7552-xxx-TE

26-7602-xxx-TE

26-7702-xxx-TE

26-8052-xxx-TE

970.0 nm

973.0 nm

974.5 nm

975.0 nm

976.0 nm

979.5 nm

985.0 nm

975.0 nm

976.5 nm

977.0 nm

978.0 nm

981.5 nm

Table 4: Electro-Optical Performance

(BOL3Tcase = 0 to 75 °C3TLD = 25 °C3 -50 dB reflection3 unless noted otherwise)

Parameter

Symbol

Test Condition

Minimum

Maximum

Threshold current

Forward voltage

Ith

V^f

25 mA

2.5 V

If = Iop

Spectral width

ΔλRMS

50 mW < P < Pop

2.0 nm

0.02 nm/°C

Peak wavelength tuning

Side-mode suppression ratio

Relative optical power stability

Δλ^P/ΔΤ^amb50 mW < P < Pop

SMSR

50 mW < P < P^op

Peak-to-peak, T = 10 min,

50 kHz sampling, T^case= 25 °C

20 mW < P < P^op

12 mW < P < 20 mW

3.5 mW < P < 12 mW

20 mW < P < Pop¹

20 mW < P < Pop²

20 mW < P < P^op

Tcase = 75 °C

T^case= 75 °C

Tcase = 75 °C, EOL

15 dB

10%

25%

Tracking error

Tracking ratio

Monitor diode responsivity

TEC current

TEC voltage

Thermistor resistance

Thermistor constant

Module power consumption

Resp_BF

ITEC

V^TEC

Rth

-8%

0.90

2 µA/mW

1.10

10 µA/mW

1.5 A

2.5 V

10.5 kΩ

4200 K

4.5 W

5.0 W

9.5 kΩ

3600 K

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 P^oppoints. 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.

2600-TE SERIES

Ordering Information

For more information on this or other products and their availability, please contact your local JDSU account manager or

JDSU directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide or via e-mail at

customer.service@jdsu.com.

Sample: 26-7402-100-TE

26-

-TE

Code

7402

7552

7602

7702

8000

8052

Peak Wavelength

97ꢀ.0 to 975.0 nm

974.5 to 976.5 nm

975.0 to 977.0 nm

976.0 to 978.0 nm

970.0 to 985.0 nm

979.5 to 981.5 nm

Code

100

110

120

1ꢀ0

140

150

160

170

180

Minimum Kink-Free Power

100 mW

110 mW

120 mW

1ꢀ0 mW

140 mW

150 mW

160 mW

170 mW

180 mW

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 using power supplies, the laser

diode should be connected with the main power on and the output 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 ensure 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 — 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.

2600-TE SERIES

Labeling

21 CFR 1040.10 Compliance

14-Pin Module Label

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.

02/09/07 26-ABC123

26-xxxx-xxx-TE

Made in China

Shipping Box Label

Serial:

26-ABC123

JDS Uniphase (Shenzhen) Ltd

3 Hongmian Road

Futian Free Trade Zone

Shenzhen, China 518038

Made in China

Model:

26-xxxx-xxx-TE

Output Power and Laser Emission Indicator Label

DANGER

INVISIBLE

LASER DIODE

INVISIBLE LASER RADIATION -

AVOID DIRECT EXPOSURE TO BEAM

PEAK POWER 500 mW

WAVELENGTH 630 - 1,550 nm

AVOID EXPOSURE

CAUTION -

Handle with care. Easily damaged

by electrostatic discharge

Visible/invisible

radiation emitted

from fiber end or

fiber receptacle

This product complies with 21 CFR Chapter 1, Subchapter J

CLASS 3B LASER PRODUCT

NORTH AMERICA: 800 498-JDSU (5378)

WORLDWIDE: +800 5378-JDSU

WEBSITE: www.jdsu.com

PureMode is a registered trademark of Corning Incorporated. Telcordia is a registered trademark of Telcordia Technologies Incorporated.

April 2008

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