SFH757_11 [AVAGO]
Transmitter for Polymer Optical Fiber Applications; 变送器聚合物光纤的应用型号: | SFH757_11 |
厂家: | AVAGO TECHNOLOGIES LIMITED |
描述: | Transmitter for Polymer Optical Fiber Applications |
文件: | 总4页 (文件大小:629K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
SFH757 and SFH757V
Transmitter for Polymer Optical Fiber Applications
Data Sheet
Description
Features
The SFH757 is a low-cost transmitter diode for optical • High speed transmitter for up to 100MBd applications
data transmission with polymer optical fiber. Its InGaAlP
LED chip provides enhanced resistance to humidity and
is designed to emit light at 650 nm. The robust SFH757
can be used for speeds up to 100 MBd and complements
the Avago SFH250 photodiode receiver and SFH551/1-1
integrated photo detector receiver.
(with peaking circuits)
• 2.2mm aperture holds standard 980/1000/2200µm
plastic fibers
• No fiber stripping required
• Molded microlens for efficient coupling
The SFH series is optimized for easy coupling. No fiber
stripping is required; just insert the cut fiber into the Plastic Direct Fiber Connector housing
selected SFH component.
(V-housing)
• Locking screw attached to the connector
SFH757
• Interference-free transmission by the light-tight
The transparent plastic package has an aperture where a
2.2 mm fiber end can be inserted. This very easy coupling
method is extremely cost-effective.
housing
• Transmitter and receiver can be positioned flexibly
• No cross talk
SFH757V
• Auto insertable and wave solderable
• Supplied in tubes
The V-housing allows easy coupling of unconnectorized
2.2 mm polymer optical fiber with an axial locking screw.
Ordering Information
Applications
• Household electronics
• Power electronics
• Optical networks
• Light barriers
Application Literature
SFH757
SFH757V
AN #
Description
5342 General information about the SFH series
with Selection Guide and recommendations
regarding System Planning and Mounting
Type
Ordering Code
SP000063871
SP000063858
SFH757
SFH757V
5341 Information about Basic and Special Circuits for
Transmitter and Receiver of the SFH series
Package Dimensions
SFH757
8.6
7.65
view from A
0.5
surface not ꢀat
A
1.5
4.6
28
5.3
Cathode
Dimensions in mm
SFH757V
24.0
9.0
13.5
Cathode
SFH757
component
∅ 0.6
locking screw
2.54
0.5
7.62
5.08
spacing
Dimensions in mm
Package V-housing Color
Package V-housing axial locking screw
SFH V-series components are color coded just like other
Avago fiber optic components. The SFH757V transmitter
has a white colored housing; the SFH250V and SFH551/1-
1V receiver components have a black colored housing.
Components of the SFH V-series are equipped with an
axial locking screw for easy coupling to the unconnec-
torized 2.2 mm polymer optical fiber. The force that is
necessary to pull a jammed fiber out of the V-housing is
This prevents mistakes while making connections. typically 50 N (with a torque of 15 cNm for tightening the
Product designation and date of manufacture are printed
on the housing.
locking screw). This is an approximate value that is very
dependent on the fiber and torque combination.
Package V-housing mounting pins
SFH V-series components have two pins that are electri-
cally isolated from the inner circuit. The pins are only
designed for mounting the V-housing to the PCB surface.
This helps increase stability, which is needed during
fixing the fiber end by the axial locking screw.
The retention force between the soldered mounting pins
and the V-housing of the SFH component is about 20 N
(with a vertical exertion of force). This is an approximate
value.
Package V-housing mounting pins
Package V-housing axial locking screw
2
Technical Data
Absolute Maximum Ratings
Parameter
Symbol
TC
Min
-40
-40
Typ
Max
Unit
°C
Notes
Figure
Operating Temperature range
Storage Temperature range
Junction Temperature
+85
Tstg
TJ
+100
+100
+260
°C
°C
Soldering Temperature
TS
°C
(2mm from case bottom, t≤5s)
Reverse Voltage
VR
3
V
Forward Current
IF
50
mA
mW
K/W
V
Power Dissipation
Ptot
RthJA
ESD
ESD
120
450
2000
400
Thermal Resistance (Junction/Air)
Electrostatic Discharge Voltage Capability
Electrostatic Discharge Voltage Capability
Notes:
1
1
2
V
1. ESD Capability for all Pins HBM(Human Body Model) according JESD22-A114
2. ESD Capability for all Pins MM (Machine Model) according JESD22-A115
Characteristics (T = -40°C to +85°C) unless otherwise specified
A
Parameter
Symbol
λPEAK
Δλ
Min
Typ*
650
20
Max
685
30
Unit
nm
nm
Notes
Figure
Peak Wavelength
Spectral Bandwidth (FWHM)
630
5
5
Switching Times (R_ILED = 100Ohm)
T_rise (10%...90%)
tr
tf
tr
tf
14
16
20
24
25
27
ns
ns
ns
ns
1,2,4
1,2,4
1,4
T_fall (90%.. 10%)
T_rise (10%...90%)
T_fall (90%.. 10%)
1,4
Capacitance (fmeas = 1MHz; Vf = 0V)
Forward Voltage (ILED_DC = 50mA)
CS
52
pF
VF
VF
2.0
2.6
2.7
V
V
2
4
4
Optical Output Power (ILED_DC = 10mA)
POPT
POPT
-10.5
-12.5
-6.2
-2.5
-1.5
dBm
dBm
2,3,5
3,5
3
3
Coefficient
Symbol
TPOPT
TVF
Value
-0.4
Unit
Notes
Figure
Optical Power Temperature Coefficient
Forward Voltage Temperature Coefficient
Wavelength Temperature Coefficient
Typical value = mean value at TA = 25°C
%/K
6,7
-1.8
mV/K
nm/K
Tλ
0.16
*
Notes:
1. Given switching time values can be reduced by suitable driver circuits. Also an increase of LED-Current leads to a reduction of the switching times.
2. Measured at 25°C
3. The optical output power coupled into a polymere optical fiber (NA=0.5) is measured with a large area detector at the end of a short fiber (about 1m).
4. Driver circuit for the characterization process: see Figure 2 (Vcc=5.0V; installed R_ILED = 100Ohm)
5. Value =10*log(Value /1mW)
dBm measured
6. Only valid for a used LED-current in the range of 10mA to 50mA (DC-Current). Optical Power Temperature Coefficient for temperatures between -40°C
and 25°C is almost 0%/K.
7. Value for +25°C to +85°C
3
Maximum Forward Current
R_ILED
80
60
Vcc
R thJA = 450 K/W
SN75451BD
GND
1A
1A
1Y
Vcc
2B
2A
40
20
0
Data In
GND 2Y
0
20
40
60
80
100
GND
GND
GND
TA - Temperature (°C)
Figure 1. Maximum Forward Current
Figure 2. Measurement circuit
Forward Voltage
Optical Output Power
+2
0
-2
2.5
2
-4
-6
-8
1.5
1
-10
-12
-14
-16
-18
-40°C
25°C
85°C
-40°C
25°C
85°C
0.5
0
0
15
25 30 35 40 45
DC-LED Current (mA)
5
10
20
50
0
15
25 30 35 40 45
5
10
20
50
DC-LED Current (mA)
Figure 3. Typical Optical Output Power
Figure 4. Typical Forward Voltage
Spectral Emission (100% = Peak Power)
100
90
80
70
60
50
40
30
20
10
0
600
625
650
675
700
Wavelength (nm)
Figure 5. Typical Spectral Emission
For product information and a complete list of distributors, please go to our web site: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2011 Avago Technologies. All rights reserved. Obsoletes AV01-0717EN
AV02-2597EN - December 1, 2011
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