SLD-68HL1
Planar Photodiode
Features
•
•
•
•
•
•
Low capacitance
Fast switching time
Low leakage current
Linear response vs irradiance
Hermetic TO-46 package with high dome lens
Multiple dark current ranges available
1.0
5.1
0.50-0.52
4.7
ø 5.3
CATHODE
(Common to case)
2.5
Description
This small area planar, passivated silicon
photodetector is designed to operate in either
photovoltaic or reverse bias mode. It provides
excellent linearity in output signal versus irradiance.
This is an ideal detector for fast rise time applications.
Absolute Maximum Ratings
Storage Temperature
Operating Temperature
Soldering Temperature (1)
-40°C to +125°C
-40°C to +125°C
260°C
60°
25.4
Min.
Chip Size = 1.7 mm X 1.7 mm
Active Area = 2.0 sq.mm.
Anode
45°
Dimensions in mm. (+/- 0.13)
Directional Sensitivity Characteristics
40°
50°
0.8
0.6
0.4
0.2
0.0
30°
20°
10°
1.0
Half Angle = 15°
70°
Notes: (1) >2 mm from case for <5 sec.
(2) Ee = source @ 2854
°K
(3) Ee = source @
λ
= 880 nm
80°
90°
100°
1.0
0.8
0.6
0.4
0°
20°
40°
60°
80°
100°
120°
Electrical Characteristics
(T
A
=25°C unless otherwise noted)
Symbol
Parameter
MIN
TYP
I
SC
Short Circuit Current
50
70
V
OC
Open Circuit Voltage
0.40
I
D
Reverse Dark Current
SLD-68HL1A
SLD-68HL1B
SLD-68HL1C
SLD-68HL1D
SLD-68HL1E
C
J
Junction Capacitance
40
t
R
Rise Time
1.0
t
F
Fall Time
1.5
TC
I
Temp. Coef.
+0.2
V
BR
Reverse Breakdown Voltage
50
Maximum Sensitivity Wavelength
930
λ
P
Sensitivity Spectral Range
400
λ
R
Acceptance Half Angle
15
θ
1/2
Specifications subject to change without notice
MAX
UNITS
TEST CONDITIONS
2
V
R
=0V, Ee=5mW/cm (2)
µA
2
V
Ee=5mW/cm (2)
nA
nA
nA
nA
pA
pF
µs
µs
%/°C
V
nm
nm
deg
V
R
=100mV, Ee=0
V
R
=5V, Ee=0
V
R
=5V, Ee=0
V
R
=5V, Ee=0
V
R
=5V, Ee=0
V
R
=0, Ee=0, f=1MHz
V
R
=10V, R
L
=1kΩ (3)
V
R
=10V, R
L
=1kΩ (3)
(2)
I
R
=100µA
100
100
10
1
250
1100
(off center-line)
101987 REV 2
5200 St. Patrick St., Montreal
Que., H4E 4N9, Canada
Tel: 514-768-8000
Fax: 514-768-8889
QF-84
The Old Railway, Princes Street
Ulverston, Cumbria, LA12 7NQ, UK
Tel: 01 229 581 551
Fax: 01 229 581 554