NOIL1SC4000A-GDC ON Semiconductor, NOIL1SC4000A-GDC Datasheet - Page 9
NOIL1SC4000A-GDC
Manufacturer Part Number
NOIL1SC4000A-GDC
Description
Manufacturer
ON Semiconductor
Datasheet
1.NOIL1SC4000A-GDC.pdf
(30 pages)
Specifications of NOIL1SC4000A-GDC
Lead Free Status / Rohs Status
Supplier Unconfirmed
Non Destructive Readout (NDR)
After a pixel is initially reset, it can be read multiple times
without resetting. The initial reset level and all intermediate
signals can be recorded. High light levels saturate the pixels
quickly, but a useful signal is obtained from the early
samples. For low light levels, use the latest samples.
The signals are classified into the following groups:
•
•
•
•
•
Power Supplies and Ground
output stages, digital modules, and drivers has its own power
supply and ground. Off chip, the grounds can be combined,
but not all power supplies may be combined. This results in
several different power supplies, but this is required to
reduce electrical cross-talk and improve shielding, dynamic
range, and output swing.
separately to improve shielding and electrical cross talk
between them.
Specifications on page 4. The maximum currents mentioned
in the specifications table are peak currents which occur
once per frame (except for Vres_ds in multiple slope mode).
The sensor can also be read out in a non destructive way.
Every module on chip including column amplifiers,
On chip, the ground lines of every module are kept
An overview of the supplies is given in Electrical
Power supplies and grounds
Biasing and analog signals
Pixel array signals
Digital signals
Test signals
Integration Time
Handling
Readout
Handling
Figure 10. Principle of NDR
ROT
É É É É
FOT
É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É
Figure 9. Integration and Readout for Pipelined Shutter
Line Readout
Reset
N
Readout Frame N-1
OPERATION AND SIGNALLING
Exposure Time N
http://onsemi.com
time
9
É É
FOT
FOT
once. The external system intelligence takes care of the
interpretation of the data. Table 2 summarizes the
advantages and disadvantages of non-destructive readout.
All power supplies should be able to deliver these currents
except for Vmem_l and Vpre_l, which must be able to sink
this current.
than 500 mA. Note that no power supply filtering on chip is
implemented and noise on these power supplies can
contribute immediately to the noise on the signal. The
voltage supplies Vpix and Vaa must be noise free.
Startup Sequence
all power supplies are turned on simultaneously. The sensor
comes out of latch-up and starts working normally as soon
as it is clocked. A power supply current limit of 400 mA is
recommended to avoid damage to the sensor. Avoid the time
that the device is in the latch-up state, so clocking of the
sensor should start as soon as the system is turned on.
Table 2. ADVANTAGES & DISADVANTAGES OF NDR
É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É É
É É
Low noise, because it is true
correlated double sampling
(CDS).
High sensitivity, because the
conversion capacitance is
kept low.
High dynamic range, because
the results includes signal for
short and long integrations
times.
An active pixel array is read multiple times and reset only
The maximum peak current for Vpix should not be higher
The LUPA4000 goes in latch-up (draw high current) when
To avoid latch-up of the sensor, follow this sequence:
1. Apply Vdd
2. Apply clocks and digital pulses to the sensor to
3. Apply other supplies
Reset
N+1
count 1024 clock_x and 2048 clock_y pulses to
empty the shift registers
Advantages
Readout Frame N
Exposure Time N+1
System memory required to
record the reset level and the
intermediate samples.
Requires multiples readings of
each pixel, thus higher data
throughput.
Requires system level digital
calculations.
É É É É
FOT
FOT
Disadvantages
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