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S10140-1007_15 Datasheet, PDF (10/13 Pages) Hamamatsu Corporation – CCD area image sensor
CCD area image sensor
S10140/S10141 series
Pin connections
Pin
no. Symbol
S10140 series
Function
Symbol
S10141 series
Function
Remark
(standard operation)
1
RD Reset drain
RD Reset drain
+12 V
2
OS Output transistor source
OS Output transistor source
RL=100 kΩ
3
OD Output transistor drain
OD Output transistor drain
+24 V
4
OG Output gate
OG Output gate
+3 V
5
SG Summing gate
SG Summing gate
Same pulse as P2H
6
-
-
7
-
-
8
P2H CCD horizontal register clock-2
P2H CCD horizontal register clock-2
9
P1H CCD horizontal register clock-1
P1H CCD horizontal register clock-1
10 IG2H Test point (horizontal input gate-2)
IG2H Test point (horizontal input gate-2)
-8 V
11 IG1H Test point (horizontal input gate-1)
IG1H Test point (horizontal input gate-1)
-8 V
12 ISH Test point (horizontal input source)
13 TG*18 Transfer gate
ISH Test point (horizontal input source)
TG*18 Transfer gate
Connect to RD
Same pulse as P2V
14 P2V CCD vertical register clock-2
P2V CCD vertical register clock-2
15 P1V CCD vertical register clock-1
P1V CCD vertical register clock-1
16
-
Th1 Thermistor
17
-
Th2 Thermistor
18
-
P- TE-cooler-
19
-
P+ TE-cooler+
20
SS Substrate (GND)
SS Substrate (GND)
GND
21 ISV Test point (vertical input source)
ISV Test point (vertical input source)
Connect to RD
22 IG2V Test point (vertical input gate-2)
IG2V Test point (vertical input gate-2)
-8 V
23 IG1V Test point (vertical input gate-1)
IG1V Test point (vertical input gate-1)
-8 V
24
RG Reset gate
RG Reset gate
*18: Isolation gate between vertical register and horizontal register. In standard operation, TG should be applied the same pulse as P2V.
Specifications of built-in TE-cooler (Typ.)
Parameter
Symbol
Condition
S10141-1007S/-1008S/-1009S S10141-1107S/-1108S/-1109S Unit
Internal resistance
Rint Ta=25 °C
2.5
Maximum current*19
Imax Tc*20=Th*21=25 °C
1.5
1.2
Ω
3.0
A
Maximum voltage
Vmax Tc*20=Th*21=25 °C
3.8
Maximum heat absorption*21 Qmax
3.4
3.6
V
5.1
W
Maximum temperature
of heat radiating side
-
70
70
°C
*19: If the current greater than this value flows into the thermoelectric cooler, the heat absorption begins to decrease due to the Joule
heat. It should be noted that this value is not the damage threshold value. To protect the thermoelectric cooler and maintain stable
operation, the supply current should be less than 60% of this maximum current.
*20: Temperature of the cooling side of thermoelectric cooler.
*21: Temperature of the heat radiating side of thermoelectric cooler.
*22: This is a theoretical heat absorption level that offsets the temperature difference in the thermoelectric cooler when the maximum
current is supplied to the unit.
10