OPV300 Optek Technology (TT electronics), OPV300 Datasheet

OPV300

Manufacturer Part Number

OPV300

Description

Manufacturer

Optek Technology (TT electronics)

Type

VCSELs-LDr

Datasheet

1.OPV300.pdf (4 pages)

Specifications of OPV300

Peak Wavelength

860nm

Operating Temperature Classification

Commercial

Optical Output Power

1.5mW

Threshold Current (max)

3mA

Power Supply Requirement

Single

Operating Supply Voltage (min)

1.6V

Operating Supply Voltage (max)

2.2V

Mounting

Through Hole

Pin Count

Lead Free Status / RoHS Status

Compliant

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Vertical Cavity Surface Emitting Laser

OPV300, OPV310, OPV310Y,

OPV314, OPV314Y

OPTEK Technology Inc.— 1645 Wallace Drive, Carrollton, Texas 75006

Phone: (800) 341-4747 FAX: (972) 323– 2396 sensors@optekinc.com www.optekinc.com

Applications:

Features:

•

Description:

RoHS

•

850nm VCSEL Technology

Data rates up to 2.5 Gbps

High thermal stability

Low drive current / high output density

Narrow and concentric beam angle

Recommended for multimode fiber applications

Burned in for communication level reliability

The OPV300 / OPV310 / OPV314 series are high performance 850nm Vertical Cavity Surface Emitting Laser

(VCSEL). The OPV300 and OPV310 are designed to be utilized for sensing applications as well as air

transmission of data. The OPV314 is designed for high speed communication links. The OPV310 / OPV314

combine all the performance advantages of a VCSEL with the addition of a power monitor diode for precise

control of optical power. The OPV310 and OPV314 have a back monitor photodiode used for optical power

management or optical reception for data communication applications.

The OPV300 / OPV310 have a flat lens while the OPV314 has a microbead lens. Refer to mechanical

drawings for details.

The high performance 850nm VCSEL is designed for applications where low current is required with high on-

axis optical power. These product’s combine features including high speed, high output optical power and

concentric beam making it an ideal transmitter for integration into all types of data communications equipment

as well as for reflective and transmissive switches.

Fiber Channel

Gigabit Ethernet

ATM

VSR

Intra-System links

Optical backplane

interconnects

Reflective sensing

Interruptive sensing

Long distance spot

illumination

Absolute Maximum Ratings

Notes:

Operating Temperature Range

Storage Temperature Range

Maximum Forward Peak Current, continuous

Maximum Reverse Voltage

Max. Continuous Optical Power at 70° C

Lead Soldering Temperature

Maximum Forward Current, pulsed (1 µs P.W., 10% D.C.)

(1) Threshold Current is based on the two line intersection method specified in Telcordia

(2) Series Resistance is the slope of the Voltage-Current line from 5 to 8 mA.

(3) Slope efficiency is the slope of the best fit LI line from 5 mA to 8 mA using no larger

(4) Using data points taken for slope efficiency above, delta L/delta I shall be calculated for

GR-468-Core. Line 1 from 4 mA to 6 mA. Line 2 from 0 mA to 0.5 mA.

than .25 mA test interval points.

each adjacent pair of points.

=25°C unless otherwise noted)

Additional laser safety information can be found on

the Optek website. See application bulletin #221.

Classification is not marked on the device due to

space limitations. See package outline for center-

line of optical radiance. Operating devices beyond

maximum rating may result in hazardous radiation

exposure.

260°C for 10 sec.

-40°C to +100°C

0°C to +70°C

Issue A.2

1.1 mW

12 mA

48 mA

Page 1 of 4

5 V

09 / 09

Related parts for OPV300

OPV300 Summary of contents

Page 1

... The OPV310 and OPV314 have a back monitor photodiode used for optical power management or optical reception for data communication applications. The OPV300 / OPV310 have a flat lens while the OPV314 has a microbead lens. Refer to mechanical drawings for details. The high performance 850nm VCSEL is designed for applications where low current is required with high on- axis optical power. These product’ ...

Page 2

... F I Reverse Current R R Series Resistance S ŋ Slope Efficiency Linearity Wavelength λ ∆λ Optical Bandwidth θ Beam Divergence (OPV300 / OPV310 only Rise and Fall Time Relative Intensity Noise RI Temp Variance of Threshold Current ∆I TH Temp Coefficient of Wavelength ∆λ/∆T ∆V ∆ ...

Page 3

... Vertical Cavity Surface Emitting Laser OPV300, OPV310, OPV310Y, OPV314, OPV314Y Normalized Output Power vs. Forward Current VCSEL 1 2 OPV300 Pin Connection VCSEL Anode 1 VCSEL Cathode 2 No Connection 3 OPTEK Technology Inc.— 1645 Wallace Drive, Carrollton, Texas 75006 Phone: (800) 341-4747 FAX: (972) 323– 2396 sensors@optekinc.com www.optekinc.com Forward Current (mA) OPV300 & ...

Page 4

... Vertical Cavity Surface Emitting Laser OPV300, OPV310, OPV310Y, OPV314, OPV314Y VCSEL 1 2 OPV314 Pin Connection VCSEL Anode 1 VCSEL Cathode/PD Anode 2 PD Cathode 3 Issue A Page OPV314 PD 3 OPTEK Technology Inc.— 1645 Wallace Drive, Carrollton, Texas 75006 Phone: (800) 341-4747 FAX: (972) 323– 2396 sensors@optekinc.com www.optekinc.com 1) Tolerances are ± ...

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