!!"#$%&'#(&')*%#&$#!!#$%+%*',#&-.%'/
0 (!%*)&-%#' 1 0$$, 112/3&!%''(+.%*4#'%&(+%"
5 *(+*3"%"*%'#&3&"%*6!)&7%#' $$, 182/$)9
: %)"';)-#&7#'$%)'3*%"4.%*%+.%!%)"'%$%*7%6*($+.%;)-<)7%
;%-#6#-)+#(&')*%'3=>%-++(-.)&7%4#+.(3+&(+#-%
)*+(
)7% (6 :
5?:
,0 $=#%&+%$;%*)+3*%&!%''+.%*4#'%(+%"/
%
100
80
60
40
20
0
800
900 1000 1100
10
-2
mW
CM
10
2
3
uA
1.0
0.9
0.8
0.6
0
Wavelength
Fig.5 RELATIVE SPECTRAL SENSITIVITY
VS WAVELENGTH
Irradiance Ee
Fig.6 PHOTOCURRENT VS
IRRADIANCE = 940 nm
Ph
otoc
u
r
ren
t
Ip
Re
la
t
i
ve
S
p
ect
r
a
l
S
e
n
s
it
i
v
it
y
Fig.7 SENSITIVITY DIAGRAM
Ambient Temperature
Fig.8 TOTAL POWER DISSIPATION VS
AMBIENT TEMPERATURE
To
t
a
l P
o
we
r Di
ssip
a
t
i
on
m
W
700
Re
la
t
i
ve
S
e
nsi
t
ivit
y
-1
10
0
10
1
10
2
10
1
10
0
10
-1
10
0.7
0.3
0.5
0.2
0.4
o
0
o
10
20
o
30
60
o
80
100
o
o
40
50
o
o
o
100
-20
125
-40
0
25
75
175
40
0
20
60 80
o
C
)*+(
)7% : (6 :
5?: