1A192
器件描述:High-Performance LED(Sensors, Signal Transmission)
器件厂商:MITEL [Mitel Networks Corporation]
文件大小:196.99KB,共10页
Sponsor by e络盟器件资料摘要:
PRODUCT INFORMATION
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
0.6
14
Ø1.5
Ø4.7
3.7
0.4
5.4
2.5
CASE
ANODECATHODE
BOTTOM VIEW
The anode is in electrical contact with the case.
TO-46 Package With Lens
All dimensions in mm
Fiber:
50/125µm
Graded
Index
NA=0.20
Optical and Electrical Characteristics (25° C Case Temperature)
Thermal Characteristics
880nm
1A192
High-Performance LED
Sensors, Signal Transmission
Absolute Maximum Ratings
Note 1: Measured at the exit of 100 meters of fiber.
PARAMETER SYMBOL LIMIT
Storage Temperature T
stg
-55 to +125°C
Operating Temperature (derating: Fig.4) T
op
-55 to +125°C
Electrical Power Dissipation (derating: Fig.4) P
tot
250 mW
Continuous Forward Current (f<10 kHz) I
F
110 mA
Peak Forward Current (duty cycle<50%, f>1 MHz) I
FRM
180 mA
Reverse Voltage V
R
1.5 V
Soldering Temperature (2mm from the case for 10 sec) T
sld
260°C
PARAMETER SYMBOL MIN. TYP. MAX. UNIT
Thermal Resistance - Infinite Heat Sink R
thjc
100 °C/W
Thermal Resistance - No Heat Sink R
thja
400 °C/W
Temperature Coefficient - Optical Power dP/dT
j
-0.4 %/°C
Temperature Coefficient -Wavelength dl /dT
j
0.3 nm/°C
PARAMETER SYMBOL MIN. TYP. MAX. UNIT TEST CONDITION
Fiber-Coupled Power P
fiber
80 115 µW I
F
=100 mA
(Fig.1,2,&3) (Table1) (Note 1)
Rise and Fall Time t
r
,t
f
812nsI
F
=100 mA
(10-90%) (no bias)
Bandwidth f
c
45 MHz I
F
=100 mA
(3dB
el
)
Peak Wavelength l
p
860 880 900 nm I
F
=100 mA
Spectral Width (FWHM) Dl 50 nm I
F
=100 mA
Forward Voltage (Fig.5) V
F
1.8 2.2 V I
F
=100 mA
Reverse Current I
R
20 µA V
R
=1V
Capacitance C 250 pF V
R
= 0V, f=1 MHz
This device generates very high
power which makes it ideal for many
sensors and signal transmission
applications. It operates in a wide
range of temperatures, and can satis-
fy virtually any environmental speci-
fication. The double-lens optical sys-
tem results in optimum coupling of
power into the fiber.
11753.11 1992-09-01
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
0.6
14
Ø1.5
Ø4.7
3.7
0.4
5.4
2.5
CASE
ANODECATHODE
BOTTOM VIEW
The anode is in electrical contact with the case.
TO-46 Package With Lens
All dimensions in mm
Fiber:
50/125µm
Graded
Index
NA=0.20
Optical and Electrical Characteristics (25° C Case Temperature)
Thermal Characteristics
880nm
1A192
High-Performance LED
Sensors, Signal Transmission
Absolute Maximum Ratings
Note 1: Measured at the exit of 100 meters of fiber.
PARAMETER SYMBOL LIMIT
Storage Temperature T
stg
-55 to +125°C
Operating Temperature (derating: Fig.4) T
op
-55 to +125°C
Electrical Power Dissipation (derating: Fig.4) P
tot
250 mW
Continuous Forward Current (f<10 kHz) I
F
110 mA
Peak Forward Current (duty cycle<50%, f>1 MHz) I
FRM
180 mA
Reverse Voltage V
R
1.5 V
Soldering Temperature (2mm from the case for 10 sec) T
sld
260°C
PARAMETER SYMBOL MIN. TYP. MAX. UNIT
Thermal Resistance - Infinite Heat Sink R
thjc
100 °C/W
Thermal Resistance - No Heat Sink R
thja
400 °C/W
Temperature Coefficient - Optical Power dP/dT
j
-0.4 %/°C
Temperature Coefficient -Wavelength dl /dT
j
0.3 nm/°C
PARAMETER SYMBOL MIN. TYP. MAX. UNIT TEST CONDITION
Fiber-Coupled Power P
fiber
80 115 µW I
F
=100 mA
(Fig.1,2,&3) (Table1) (Note 1)
Rise and Fall Time t
r
,t
f
812nsI
F
=100 mA
(10-90%) (no bias)
Bandwidth f
c
45 MHz I
F
=100 mA
(3dB
el
)
Peak Wavelength l
p
860 880 900 nm I
F
=100 mA
Spectral Width (FWHM) Dl 50 nm I
F
=100 mA
Forward Voltage (Fig.5) V
F
1.8 2.2 V I
F
=100 mA
Reverse Current I
R
20 µA V
R
=1V
Capacitance C 250 pF V
R
= 0V, f=1 MHz
This device generates very high
power which makes it ideal for many
sensors and signal transmission
applications. It operates in a wide
range of temperatures, and can satis-
fy virtually any environmental speci-
fication. The double-lens optical sys-
tem results in optimum coupling of
power into the fiber.
11753.11 1992-09-01