MF359
Optical and Electrical Characteristics - Case Temperature 25
°
C
Parameter
Fiber-Coupled Power
Rise and Fall Time (10-90%)
Bandwidth (3dB
el
)
Thermal Droop
(non linearity) (Note 2)
Peak Wavelength
Spectral Width (FWHM)
Forward Voltage (Figure 7)
Reverse Current
Capacitance
Note 1:
Note 2:
Data Sheet
Symbol
P
fiber
t
r
,t
f
f
c
I∆PI
λ
p
∆λ
V
F
I
R
C
Min
80
Typ
120
6
55
2
Max
Unit
µW
Test Condition
I
F
=80mA
(Note 1)
I
F
=80mA
(no bias)
I
F
=80mA
I
F
=80mA
I
F
=80mA
I
F
=80mA
I
F
=80mA
V
R
=1V
V
R
-0V, f=1MHz
Fiber:
62.5/
125µm
Graded
Index
NA=0.275
8
ns
MHz
%
760
780
50
2.2
250
800
2.6
20
nm
nm
V
µA
pF
Measured at the exit of 100 meters of fiber.
Transient decline in optical power due to self-heating.
Absolute Maximum Ratings
Parameter
Storage Temperature
Operating Temperature (derating: Figure 6)
Electrical Power Dissipation (derating: Figure 6)
Continuous Forward Current (f<10kHz)
Peak Forward Current (duty cycle<50%,f>1MHz
Reverse Voltage
Soldering Temperature (2mm from the case for 10 sec.)
Symbol
T
stg
T
op
P
tot
I
F
I
FRM
V
R
T
sld
Limit
-55 to +125
°
C
-40 to +85
°
C
300 mW
110 mA
180 mA
1.5 V
260
°
C
Thermal Characteristics
Parameter
Thermal Resistance - Infinite Heat Sink
Thermal Resistance - No Heat Sink
Temperature Coefficient - Optical Power
Temperature Coefficient - Wavelength
Symbol
R
thjc
R
thja
dP/dT
j
d
λ
/dT
j
-0.5
0.3
Min
Typ
Max
100
400
Unit
°
°
C/W
C/W
%/
°
C
nm/
°
C
2
Zarlink Semiconductor Inc.