NOIL1SE3000A-GDC ON Semiconductor, NOIL1SE3000A-GDC Datasheet - Page 22

NOIL1SE3000A-GDC

Manufacturer Part Number

NOIL1SE3000A-GDC

Description

Manufacturer

ON Semiconductor

Datasheet

1.NOIL1SE3000A-GDC.pdf (58 pages)

Specifications of NOIL1SE3000A-GDC

Lead Free Status / Rohs Status

Supplier Unconfirmed

Current page: 22 of 58
Download datasheet (910Kb)

Precharge_timer (b0000010 / d2)

pixel precharge pulse as described in Frame Overhead Time

on page 38. The pixel precharge length is expressed in the

number of sensor clock periods by the following formula:

Sample_timer (b0000011 / d3)

sample pulse as described in Frame Overhead Time on page

38. The length of the pixel sample is expressed in the number

of sensor clock periods by the following formula:

precharge_timer.

Vmem_timer (b0000100 / d4)

vmem pulse as described in Frame Overhead Time on page

38. The length of the pixel vmem is expressed in the number

of sensor clock periods by the following formula:

sample_timer.

Table 18. PRECHARGE TIMER REGISTER

Table 19. SAMPLE TIMER REGISTER

Table 20. VMEM TIMER REGISTER

The precharge_timer register controls the length of the

Pixel precharge length = precharge_timer x 4

The sample_timer register controls the length of the pixel

Pixel sample length = sample_timer x 4

Sample_timer must be equal to or larger than

The vmem_timer register controls the length of the pixel

Pixel vmem length = vmem_timer x 4

Vmem_timer must be equal to or larger than

On startup

00000000

On startup

xxxxxxxx

00000000

xxxxxxxx

Value

Pixel precharge length is 1 sensor clock

Pixel precharge length is <N x 4> sensor

clocks (<N x 4> x 4 master clocks), where N

is the register value

00010011

Pixel sample length is two sensor clock

Pixel sample length is <N x 4> sensor clocks

(<N x 4> x 4 master clocks), where N is the

00011111

Pixel vmem length is four sensor clock.

Pixel vmem length is <N x 4> sensor clocks

(<N x 4> x 4 master clocks), where N is the

00100010

Effect

http://onsemi.com

Fot_timer (b0000101 / d5)

described in Frame Overhead Time on page 38. The length

of the FOT is expressed in the number of sensor clock

periods by the following formula:

FOT pin is described in FOT Pin on page 39. Fot_timer must

be larger than vmem_timer.

Nb_of_kernels (b0000110 / d6)

the register determines the number of pixel kernels that is

readout every line. The maximum number of kernels to

readout is 53. The minimum number of kernels to readout is

four.

Y_start (b0000111 / d7 and b0001000 / d8)

pointer. Because a row address is 11-bit wide, the Y_start

address is split over two registers: Y_start<10:8> and

Y_start<7:0>. Y_start<10:8> contains 3 MSBs of the 11-bit

address, and Y_start<7:0> contains 8 LSBs of the address.

Y_start<10:0> must not be larger than 1709.

Table 21. FOT_TIMER REGISTER

Table 22. NB_OF_KERNELS REGISTER

Value Bit<5:0>

Table 23. Y_START REGISTER

Y_start<7:0> (b0000111 / d7)

Y_start<10:8> (b0001000 / d8): Bits<7:3> are ignored

The fot_timer register controls the length of the FOT as

FOT length = fot_timer x 4 + 2

The relation between the frame overhead time and the

This register controls the window size in X. The value of

Bits <7:6> are ignored.

The Y_start register contains the row address of the Y start

On startup

00000000

On startup

xxxxxxxx

Bit<2:0>

000100

000101

110101

Value

…

Invalid setting

FOT length is <N x 4 + 2> sensor clocks

(<N x 4 + 2> x 4 master clocks), where N is

the register value

00101000

00000000

Window size in X is 4 kernels

Window size in X is 5 kernels

Window size in X is 53 kernels

110101

Effect

NOIL1SE3000A-GDC ON Semiconductor, NOIL1SE3000A-GDC Datasheet - Page 22

NOIL1SE3000A-GDC

Specifications of NOIL1SE3000A-GDC

Related parts for NOIL1SE3000A-GDC