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S11963-01CR_15 Datasheet, PDF (9/10 Pages) Hamamatsu Corporation – Distance area image sensor
Distance area image sensor
S11963-01CR
Pin connections
Pin no.
Symbol
I/O
Description
1
GND
I
Ground
2
Vdd(A)
I
Analog supply voltage
3
GND
I
Ground
4
dis_read
O
Non-readout period pulse
5
ext_res
I
Pixel reset pulse
6
reset
I
Frame reset pulse
7
vst
I
Frame synchronous trigger pulse
8
oe
O
Output signal effective period pulse
9
hst
I
Line synchronous trigger pulse
10
mclk
I
Master clock pulse
11
dclk
O
Output signal synchronous pulse
12
GND
I
Ground
13
Vdd(D)
I
Digital supply voltage
14
NC
-
No connection
15
NC
-
No connection
16
GND
I
Ground
17
GND
I
Ground
18
GND
I
Ground
19
GND
I
Ground
20
Vdd(D)
21
nbias
22
pbias
I
Digital supply voltage
O
Bias terminal 1*9
O
Bias terminal 2*9
23
GND
I
Ground
24
Vdd(A)
I
Analog supply voltage
25
Vout2
O
Output signal 2
26
Vout1
O
Output signal 1
27
Vref
I
Bias voltage (output offset)
28
Vr
I
Bias voltage (pixel reset)
29
Vref2
I
Bias voltage (column gain circuit)
30
Vpg
I
Bias voltage (photosensitive area)
31
GND
I
Ground
32
Vdd(A)
I
Analog supply voltage
33
sel0
I
Gain selection
34
sel1
I
Gain selection
35
sel2
I
Gain selection
36
Vdd_tx
I
Supply voltage for internal driver circuit of charge transfer clock pulse
37
GND
I
Ground
38
GND
I
Ground
39
GND
I
Ground
40
GND
I
Ground
41
VTX3
I
Charge transfer clock pulse 3
42
VTX2
I
Charge transfer clock pulse 2
43
VTX1
I
Charge transfer clock pulse 1
44
Vdd_tx
I
Supply voltage for internal driver circuit of charge transfer clock pulse
*9: It is recommended to externally add a capacitor of approximately 0.1 μF to the sensor.
Note: Leave “NC” terminals open and do not connect them to GND.
Connect impedance convering buffer amplifiers to Vout1/Vout2 so as to minimize the current flow.
Gain setting
Gain
sel0
sel1
sel2
1
H
H
H
2
H
L
L
4
L
H
L
9