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Details, datasheet, quote on part number:Q62702-P265
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Datasheet text preview:
Plastic Fiber Optic Transmitter Diode Plastic Connector Housing
SFH 450 SFH 450V
Features
· · · · · · · · · · · · · · · ·
2.2 mm aperture holds standard 1000 micron plastic fiber No fiber stripping required Good linearity Molded microlens for efficient coupling
Plastic Connector Housing Mounting screw attached to the connector Interference-free transmission from light-tight housing Transmitter and receiver can be flexibly positioned No cross talk Auto insertable and wave solderable Supplied in tubes
Applications Household electronics Power electronics Optical networks Medical instruments Automotive electronics Light barriers Ordering Code Q62702-P1034 Q62702-P265
Type SFH 450 SFH 450V Maximum Ratings Parameter
Symbol
Values - 55 ... +100 - 55 ... +100 100 260 5
Unit °C °C °C °C V
Operating temperature range Storage temperature range Junction temperature Soldering temperature (2 mm from case bottom, t 5 s) Reverse voltage
TOP TSTG TJ TS VR
Semiconductor Group
73
02.96
SFH 450 SFH 450V
Maximum Ratings (cont'd) Parameter Forward current Surge current t 10 µs, D = 0 Power dissipation Thermal resistance, junction/air Symbol Values 130 3.5 200 375 Unit mA A mW K/W
IF IFSM PTOT RthJA
Characteristics (TA = 25 °C) Parameter Peak wavelength Spectral bandwidth Switching times (RL = 50 , IF = 10 mA) 10 % ... 90 % 90 % ... 10 % Capacitance (f = 1 MHz, VR = 0 V) Forward voltage (IF = 10 mA) Output power coupled into plastic fiber (IF = 10 mA) see Note 1 Temperature coefficient IN Temperature coefficient VF Temperature coefficient Peak Symbol Peak Values 950 55 1 1 40 1.3 ( 1.5) 40 ... 200 - 0.5 - 1.5 0.3 Unit nm nm µs µs pF V µW %/K mV/K nm/K
tR tF CO VF
IN
TC TCV TC
Note 1: The output power coupled into plastic fiber is measured using a large area detector at the end of a short length of fiber (about 30 cm). This value must not be used for calculating the power budget for a fiber optic system with a long fiber because the numerical aperture of plastic fibers decreases on the first few meters. Therefore the fiber seems to have a higher attenuation over the first few meters compared with the specified value.
Semiconductor Group
74
SFH 450 SFH 450V
Relative spectral emission Irel = f()
Forward current IF = f(VF) single pulse, duration = 20 µs
Relative output power IN/IN(10 mA) = f(IF)
Semiconductor Group
75
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