NOIL1SE3000A-GDC ON Semiconductor, NOIL1SE3000A-GDC Datasheet - Page 34

NOIL1SE3000A-GDC

Manufacturer Part Number

NOIL1SE3000A-GDC

Description

Manufacturer

ON Semiconductor

Datasheet

1.NOIL1SE3000A-GDC.pdf (58 pages)

Specifications of NOIL1SE3000A-GDC

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Pixel Timing

is transferred to the pixel storage capacitor. This is

controlled by Vmem, precharge, and sample signals. The

duration of this operation is the FOT. At the beginning of the

FOT, Vmem is brought low, and precharge and sample are

brought high. The precharge pulse ensures that the old

information on the storage node is destroyed. This ensures

there is no image lag. After the falling edge of the precharge

pulse, the sampling operation on the storage node is

completed during the high level of sample.

The rise in Vmem compensates for the voltage loss in the last

source follower in the pixel. The readout begins after this.

The pulse length is controlled by the user. The registers that

control this are listed in the following section.

Frame Rate and Windowing

Frame Rate

The frame period is calculated as follows:

data period)

granularity clock cycles)

Example

MHz (4.854 ns) is given by

ns)) = 2.063 ms

reset length and integration time rather than readout time.

After every exposure cycle, the value on the pixel diode

After the falling edge of sample, Vmem is brought high.

The frame rate depends on the input clock, FOT, and ROT.

1 kernel = 32 pixels

1 granularity clock = 4 clock periods

Frame period = FOT + Nr. lines x (ROT + Nr. pixels/4 x

Frame period = FOT + Nr. lines x (ROT + Nr. kernels *

Readout time for full resolution at nominal speed of 206

Frame period = 3.2 ms + (1710 x (176 ns + 1696/4 x 2.427

Frame period = 3.2 ms + (1710 x (176 ns + 53 x 19.4174

Frame Rate = 485 fps

Alternatively, frame rate can also be expressed in terms of

IMAGE SENSOR TIMING AND READOUT

Figure 22. Pixel Timing

http://onsemi.com

Considerations in Pixel Timing

and SAMPLE_TIMER influences the final image quality.

•

must be reset for at least 3 ms.

Table 46. CLARIFICATION OF FRAME RATE

PARAMETERS

FOT

ROT

Nr. lines

Nr. pixels

Data period

Parameter

The length of the FOT_TIMER, PRECHARGE_TIMER,

The length of pixel_reset influences image lag. The pixel

Precharge pulse: The pixel precharge prevents image

lag. A very short pulse results in image lag.

Sample pulse: A shorter sample results in a reduced

dark level.

FOT_TIMER register: The vmem signal must charge

all pixel storage capacitors simultaneously. This is a

large combined capacitance (96 nF) and Vmem takes

some time to stabilize. Readout must start only after

Vmem is stable.

Frame overhead

time

Row overhead

time

Number of lines

read out in each

frame

Number of pixels

read out in each

line

0.5 x clock period

= 2.427 ns

Comment

The FOT does a frame

transfer from pixel diode to

pixel storage node. During

this transfer, the sensor is

not read out. The FOT

length is programmable.

The default length is 3.2 ms.

The ROT transfers the pixel

output to the column amplifi-

ers. Default ROT is 176 ns.

Default is 1710 lines.

Default is 1696 pixels.

Because the outputs oper-

ate at DDR, the data period

is half the clock period

(206 MHz clk).

Clarification

NOIL1SE3000A-GDC ON Semiconductor, NOIL1SE3000A-GDC Datasheet - Page 34

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