6
Parameter Symbol Remark Min Typ Max Unit
Saturation Irradiance
[4]
GS:00 l
P
= 460 nm
[1]
(Blue Channel)
1.95 mW/cm2
GS:00 l
P
= 542 nm
[2]
(Green Channel)
1.46
GS:00 l
P
= 645 nm
[3]
(Red Channel)
1.10
Saturation Irradiance
[4]
GS:11 l
P
= 460 nm
[1]
(Blue Channel)
3.90 mW/cm2
GS:11 l
P
= 542 nm
[2]
(Green Channel)
2.93
GS:11 l
P
= 645 nm
[3]
(Red Channel)
2.20
Saturation Irradiance
[4]
GS:01 l
P
= 460 nm
[1]
(Blue Channel)
7.79 mW/cm2
GS:01 l
P
= 542 nm
[2]
(Green Channel)
5.85
GS:01 l
P
= 645 nm
[3]
(Red Channel)
4.40
Saturation Irradiance
[4]
GS:10 l
P
= 460 nm
[1]
(Blue Channel)
14.61 mW/cm2
GS:10 l
P
= 542 nm
[2]
(Green Channel)
10.98
GS:10 l
P
= 645 nm
[3]
(Red Channel)
8.24
Output Rise Time tr GS:10 to GS11
Test Condition: Refer to note
[5]
15 ms
GS:00
Test Condition: Refer to note
[5]
110
Output Fall Time tf GS:10 to GS11
Test Condition: Refer to note
[5]
15 ms
GS:00
Test Condition: Refer to note
[5]
120
Notes:
1. Test condition: using blue diuse light of peak wavelength (l
P
)
460nm and spectral half width (Δl½) 20nm as light source.
2. Test condition: using green diuse light of peak wavelength (l
P
)
542nm and spectral half width (Δl½) 35nm as light source.
3. Test condition: using red diuse light of peak wavelength (l
P
)
645nm and spectral half width (Δl½) 20nm as light source.
4. Saturation irradiance = (Max output voltage swing)/(Irradiance
responsivity)
5. Test condition: The rise and fall time is measured with RC lowpass
lter added to sensor output:
Gain Selection Rext Cext
GS:01 to GS:11 3.6kΩ 1nF
GS:00 36kΩ 1nF
Test Circuit
Remarks: For illustration purpose, only red channel is shown. The same
circuit applies to green and blue channel.
R
Rext
SIGNAL
GENERATOR
RED CHANNEL
TEST CIRCUIT
FOR ILLUSTRATION PURPOSE, ONLY RED CHANNEL IS SHOWN.
THE SAME CIRCUIT APPLIES TO GREEN AND BLUE CHANNELS.
Cext
LED
RC LOWPASS FILTER
RED CHANNEL
C
-
+
+
-
VRout
Vout