NOII4SM6600A-QDC ON Semiconductor, NOII4SM6600A-QDC Datasheet - Page 19

NOII4SM6600A-QDC

Manufacturer Part Number

NOII4SM6600A-QDC

Description

Manufacturer

ON Semiconductor

Datasheet

1.NOII4SM6600A-QDC.pdf (32 pages)

Specifications of NOII4SM6600A-QDC

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Table 11. List of Internal Registers (continued)

Description of Registers

SEQUENCER Register

In normal operation (NDR = 0), the sensor operates in double

sampling mode. At the start of each row readout, the signals from

the pixels are sampled, the row is reset, and the signals from the

pixels are sampled again. The values are subtracted in the

output amplifier.

When NDR is set to 1, the sensor operates in nondestructive

readout (NDR) mode (refer

These bits only influence the operation of the sensor in case

NDR (bit 0) is set to 1. There are two modes for nondestructive

readout (mode 1 and 2). Each mode needs two different frame

readouts (setting 1 and 2 for mode 1, setting 3 and 4 for mode

2). a reset/readout sequence (reset_seq) and then one or

several pure readout sequences (called read_seq hereafter).

Table 12

Table 12. Overview of NDR Modes.

12 (1100)

13 (1101)

14 (1110)

15 (1111)

Setting

NDR (Bit 0)

NDR_mode (Bit 1 and 2)

gives an overview of the different NDR modes.

10:0

6:8

Bit

Bits

ADC register

STANDBY_1

STANDBY_2

ONE

SWITCH

EXT_CLK

TRISTATE

DELAY_CLK_ADC

GAMMA

BITINVERT

Reserved

Table

Name

NDR mode

12).

Default value <10:0>:"00000000000"

0 = normal operation

1 = ADC in standby

0 = multiplexing of two ADC outputs

1 = disable multiplexing

if ONE = 0: delay of output with one (EXT_CLK = 0) or half (EXT_CLK = 1) clock cycle

if ONE = 1: switch between two ADCs

0 = internal clock (same as clock to X shift register and output amplifier)

1 = external clock

0 = normal operation

1 = outputs in tristate mode

Delay of clock to ADCs and digital multiplexer

0 = linear conversion

1 = 'gamma' law conversion

0 = no inversion of bits

1 = inversion of bits

Rev. 9 | www.onsemi.com | Page 19 of 32

Sequence

reset

read

Table 12. Overview of NDR Modes.

Mode 1

In this mode, the sensor is readout in the same method as for the

nondestructive readout. However, electronic shutter control is

not possible in this case, that is, the minimal (integration) time

between two readings is equal to the number of lines that has to

be read out (frame read time). The row lines are clocked

simultaneously (left and right clock pulses are equal).

Mode 2

In this mode, it is possible to have a shorter integration time than

the frame read time. Rows are alternatingly read out with the left

and right pointer. These two pointers can point to two different

rows (see INT_TIME register). The integration time between two

readings of the same row is equal to the number of lines that is

set in the INT_TIME register multiplied by 2 plus 1, and is the

minimal one line read time.

In setting 3, the row that is read out by the left pointer is reset and

read out (first Y_CLOCK), and the row that is read out by the right

pointer is read out without being reset (second Y_CLOCK).

In setting 4, both rows are read out without being reset (on the

first Y_CLOCK the row is read out by the left pointer; on the

second Y_CLOCK the row is read out by the right pointer).

Setting

Description

Bits

NDR mode

NOII4SM6600A

Sequence

read

NOII4SM6600A-QDC ON Semiconductor, NOII4SM6600A-QDC Datasheet - Page 19

NOII4SM6600A-QDC

Specifications of NOII4SM6600A-QDC

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