NOIL2SC1300A-GDC ON Semiconductor, NOIL2SC1300A-GDC Datasheet - Page 5
NOIL2SC1300A-GDC
Manufacturer Part Number
NOIL2SC1300A-GDC
Description
LUPA1300-2 COLOR PGA168
Manufacturer
ON Semiconductor
Datasheet
1.NOIL2SC1300A-GDC.pdf
(45 pages)
Specifications of NOIL2SC1300A-GDC
Lead Free Status / Rohs Status
Supplier Unconfirmed
supply and ground. The grounds can be combined
externally, but not all power supply inputs may be combined.
Some power supplies must be isolated to reduce electrical
crosstalk and improve shielding, dynamic range, and output
swing. Internal to the image sensor, the ground lines of each
module are kept separate to improve shielding and electrical
crosstalk between them.
against damage due to high static voltages or electric fields.
However, take normal precautions to avoid voltages higher
Table 4. POWER SUPPLY RATINGS
Boldface limits apply for T
Table 5. POWER DISSIPATION
Power supply specifications according to Table 4.
V
(Note 4)
V
V
V
V
V
(Note 4)
1. All parameters are characterized for DC conditions after thermal equilibrium is established.
2. The peak currents were measured without the load capacitor from the LDO (Low Dropout Regulator). The 100 nF capacitor bank was
3. This device contains circuitry to protect the inputs against damage due to high static voltages or electric fields. However, it is
4. The VRES_AB and VPRECH power supply should be designed to have a sourcing and sinking current capability for frame rates of
Power
Power
Every module in the image sensor has its own power
The LUPA1300-2 contains circuitry to protect the inputs
RES_AB
RES_DS
RES_TS
MEM_L
MEM_H
PRECH
connected to the pin in question.
recommended that normal precautions be taken to avoid application of any voltages higher than the maximum rated voltages to this
high−impedance circuit.
the order of 20k frames /sec.
Symbol
Symbol
STDBY
Antiblooming
Supply
Reset Dual
Slope Supply
Reset Triple
Slope Supply
Memory Element
low level supply
Memory Element
high level supply
Pre_charge
Driver Supply
Standby Power
Average Power Dissipation
Power Supply
J
= T
Parameter
MIN
to T
(Note 1)
Operating Voltage
Dynamic Current
Peak Current following
edge reset
Standby Current
Operating Voltage
Dynamic Current
Peak Current
Operating Voltage
Dynamic Current
Peak Current
Operating Voltage
Dynamic Current
Peak Current during FOT
Peak Current during FOT
Operating Voltage
Dynamic Current
Peak Current during FOT
Operating Voltage
Dynamic Current
Peak Current during FOT
Peak Current during FOT
MAX
(Notes 1, 2 and 3)
, all other limits T
Parameter
Blocks in standby with SPI upload
lux = 0, clock = 315 MHz, 500 fps
http://onsemi.com
J
= +30°C. Clock = 315 MHz
Clock enabled, lux = 0
Clock enabled, lux = 0
Shutdown mode, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, bright
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = 0
Clock enabled, lux = bright
5
than the maximum rated voltages in this high impedance
circuit. Unused inputs must always be tied to an appropriate
logic level, for example, V
must be connected to ground through a 100 nF capacitor.
•
•
•
The recommended combinations of supplies are:
Analog group of +2.5 V supply: V
V
Digital Group of +2.5 V supply: V
Combine V
Condition
MEM_L
Condition
, V
ADC
PRECH
, V
and V
pix
, V
-10%
-10%
ANA
Min
-5%
-5%
RES_AB
1.8
1.8
DD
, V
or GND. All cap_xxx pins
BUF
to one supply (Note 4)
Typ
0.7
2.5
0.4
2.2
0.3
2.5
0.2
3.3
0.7
0.3
50
36
14
62
30
45
32
25
SAMPLE
1
1
1
DIG
1350
Typ
400
, V
LVDS
+10%
+10%
3.675
3.675
Max
+5%
+5%
, V
3
2
1
3
RES_DS
Units
Units
mW
mW
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
V
V
V
V
V
V
,
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