ETC 1A302

PRODUCT INFORMATION
1320nm
1A302
High-Performance LED
The low harmonic distortion makes
this device ideal for subcarrier FM
video applications. Video transmission can be accomplished with minimum distortion. The double-lens optical system provides for optimum coupling of power into the fiber.
FM Video
Optical and Electrical Characteristics
PARAMETER
SYMBOL
MIN.
TYP.
Pfiber
40
50
Fiber-Coupled Power
(Fig.1, 2,& 3) (Table 1)
Rise and Fall Time
MAX.
(25° C Case Temperature)
UNIT
TEST CONDITION
mW
IF =80 mA
(Note 1)
Fiber:
IF =80 mA
62.5/125mm
tr,tf
3
fc
100
MHz
IF =80 mA
-H2
26
dB
-H3
38
dB
IF =60 mA
m=0.8
f=10 MHz
Peak Wavelength
lp
1280 1320 1350
nm
IF =80 mA
Spectral Width (FWHM)
Dl
120
155
nm
IF =80 mA
Forward Voltage
VF
1.5
2
V
IF =80 mA
100
mA
VR=1V
pF
VR= 0V, f=1 MHz
(10-90%)
ns
(no bias)
Graded
Bandwidth
(3dBel )
Harmonic Distortion
(nonlinearity)
(Fig.5)
Reverse Current
IR
Capacitance
C
200
Index
NA=0.275
Note 1: Measured at the exit of 100 meters of fiber.
Ø4.7
Ø1.5
0.6
Absolute Maximum Ratings
3.7
PARAMETER
SYMBOL
LIMIT
Tstg
Top
-55 to +1258C
230 mW
Continuous Forward Current (f<10 kHz)
Ptot
IF
Peak Forward Current (duty cycle<50%, f>1 MHz)
IFRM
170 mA
Reverse Voltage
VR
1.5 V
Soldering Temperature (2mm from the case for 10 sec)
Tsld
2608C
Storage Temperature
Operating Temperature (derating: Fig.4)
14
Electrical Power Dissipation
0.4
(derating: Fig.4)
-55 to +1258C
110 mA
ANODE
CATHODE
2.5
5.4
BOTTOM VIEW
All dimensions in mm
CASE
The anode is in electrical contact with the case.
TO-46 Package With Lens
Thermal Characteristics
PARAMETER
MAX.
UNIT
Rthjc
100
8C/W
Rthja
Temperature Coefficient - Optical Power dP/dTj
400
8C/W
-0.8
%/8C
dl /dTj
0.55
nm/8C
Thermal Resistance - Infinite Heat Sink
SYMBOL
MIN.
TYP.
Thermal Resistance - No Heat Sink
Temperature Coefficient -Wavelength
12368.11 1997-01-23
Europe: Tel (46) 8 58 02 45 00 Fax (46) 8 58 02 01 10
Tel (44) 1291 436180 Fax (44) 1291 436771
America: Tel 1-800-96MITEL Fax (613) 592-6909
Asia:
Tel (65) 293 5312
Fax (65) 293 8527
1A302
High-Performance
Typical Fiber-Coupled Power
RELATIVE FIBER-COUPLED POWER
80
60
40
r
r = opt.
Øc = 62.5ʵm
20
z = opt.
Øc = 62.5ʵm
80
z
60
40
20
z
0
0
0.5
1.0
2.0
1.5
2.5
0
3.0 mm
z - AXIAL DISPLACEMENT OF FIBER
FIGURE 3
%
20
40
60
80
100 µm
r - RADIAL DISPLACEMENT OF FIBER
FIGURE 4
mW
100
300
MAX. ELECTRICAL POWER DISSIPATION
90 mW
RELATIVE FIBER-COUPLED POWER
50 mW
100/140 mm
0.29
r
RELATIVE FIBER-COUPLED POWER
12 mW
Table 1
62.5/125 mm
0.275
FIGURE 2
%
100
100
80
60
50% DUTY CYCLE
DC
40
20
HEAT SINKED
200
INFINITE
HEAT SINK
NO HEAT SINK
100
0
0
0
40
80
120
160
200 mA
FORWARD CURRENT
FIGURE 5
200
100
0
0
1
2
FORWARD VOLTAGE
0
50
100
OPERATING TEMPERATURE
mA
FORWARD CURRENT
50/125 mm
0.20
FIGURE 1
%
Core Diameter/Cladding Diameter
Numerical Aperture
1320nm
3V
150¡C