Optek Technology, Inc.
Carrollton, Texas 75006
(972) 323-2200
sensor@optekinc.com
www.optekinc.com
Page 1 of 4
September 2003
Issue 3.2
Vertical Cavity Surface
Emitting Laser in TO-46
Package
Storage Temperature
-40 C to +125 C
Operating Temperature
-40 C to +85 C
Soldering Lead Temperature
260 C for 10 Seconds
Maximum Forward Peak Current
30 mA
Maximum Reverse Voltage
5 V
Max. Continuous Optical Power at 70C
1.1 mW
Absolute Maximum Ratings
(T
A
= 25 C unless otherwise noted)
Features
850 nm VCSEL technology
High thermal stability
Up to 1.25 Gbps
Recommended for multimode fiber applications
Microbead lens
Pin out and attenuation options available on
request
Burned in for communication level reliability
High optical coupling to MM fiber
Description
The OPV214 is a high performance 850nm VCSEL pack-
aged for high speed communication links. OPV214 com-
bines all the performance advantages of a VCSEL with
the addition of a power monitor diode for precise control
of optical power.
The OPV214Y is identical electrically and optically and
differs only in pin out. Refer to mechanical drawings for
details.
This product's combination of features including high
speed, high output power and concentric beam makes it
an ideal transmitter for integration into all types of data
communications equipment.
Applications include:
Fibre Channel
Gigabit Ethernet
ATM
VSR (Very Short Reach)
Intra-system links
Optical backplane interconnects
.
Additional laser safety information can be found
on the Optek website. See application #221.
Classification is not marked on the device due to
space limitations. See package outline for
centerline of optical radiance. Operating devices
beyond maximum rating may cause devices to
exceed rated classification
Optek Technology, Inc.
Carrollton, Texas 75006
(972) 323-2200
sensor@optekinc.com
www.optekinc.com
Page 2 of 4
September 2003
Issue 3.2
OPV214, OPV214Y Technical Data
SYMBOL
PARAMETER
MIN TYP MAX UNITS
TEST CONDITION
P
ot
Power Out Total
1.4
4.5
mW
I
F
= 12 mA
I
TH
Threshold Current
2.0
5.5
mA
Note 1
V
F
Forward Voltage
2.15
V
I
F
= 12 mA
I
R
Reverse Current
30
nA
V
R
= 5 V
R
S
Series Resistance
14
40
ohms Note 2
Slope Efficiency
0.17
mW/mA Note 3
I
RPD
Reverse Current, photo diode
30
nA
V
R
= 5 V
I
M
Monitor Current
20
I
F
= 12 mA
Wavelength
830
860
nm
Optical Bandwidth
0.85
nm
t
r
,t
f
Rise and Fall Time
200
ps
20% to 80%
N
RI
Relative Intensity Noise
-123
dB/Hz
/
T
Temp Coefficient of Slope Efficiency
-40
%/C (0 - 70 C)
l
TH
/
T
Temp Coefficient of Threshold Current
1.5
mA
0 - 70 C
/
T
Temp Coefficient of Wavelength
0.06
nm/C 0 - 70 C
V
F
/
T
Temperature Coefficient for VF
-2.5
mV/C
NOTES:
(1) Threshold Current is based on the two line intersection method specified in Telcordia GR-468-Core. Line 1 from 6 mA to 8 mA.
Line 2 from 0 mA to 2 mA.
(2) Series Resistance is the slope of the Voltage-Current line from 8 to 12mA.
(3) Slope efficiency, is the slope of the best fit LI line from 8 mA above threshold to 12mA using no larger than .5 mA test interval points.
Electrical/Optical Characteristics
(at 25 C unless otherwise specified)
Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible.
Optek Technology, Inc.
Carrollton, Texas 75006
(972) 323-2200
sensor@optekinc.com
www.optekinc.com
Page 4 of 4
September 2003
Issue 3.2
Pin
Connection
1
VCSEL Anode
2
VCSEL Cathode/PD Anode
3
PD Cathode
OPV214
Pin
Connection
1
VCSEL Cathode
2
VCSEL Anode/PD Cathode
3
PD Anode
OPV214Y
Optek reserves the right to make changes at any time in order to improve design and to supply the best product possible.
OPV214, OPV214Y
Technical Data
[3.62 .32]
.143 .012
0.020 [0.51]
.185.002 [4.700.05]
3X [12.70]
.50 Min
3X .018 [0.45]
.050 [1.27]
.100 [2.54]
1) Tolerances are 0.005 unless
otherwise specified
2) Dimensions in inches [mm]
Invisible Light emits from this surface
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