AD9847 Datasheet, PDF(21/28 Page) Analog Devices – 10-Bit 40 MSPS CCD Signal Processor with Integrated Timing Driver

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AD9847 Datasheet, PDF (21/28 Pages) Analog Devices – 10-Bit 40 MSPS CCD Signal Processor with Integrated Timing Driver

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AD9847

ANALOG FRONT END DESCRIPTION AND OPERATION

The AD9847 signal processing chain is shown in Figure 15.

Each processing step is essential in achieving a high quality

image from the raw CCD pixel data.

DC Restore

To reduce the large dc offset of the CCD output signal, a

dc-restore circuit is used with an external 0.1 ÂµF series coupling

capacitor. This restores the dc level of the CCD signal to approxi-

mately 1.5 V, to be compatible with the 3 V analog supply of the

AD9847.

Correlated Double Sampler

The CDS circuit samples each CCD pixel twice to extract the video

information and reject low frequency noise. The timing shown

in Figure 6 illustrates how the two internally generated CDS

clocks, SHP and SHD, are used to sample the reference level and

data level of the CCD signal, respectively. The placement of the

SHP and SHD sampling edges is determined by the setting of

the SHPPOSLOC and SHDPOSLOC registers located at

Addresses 0xF0 and 0xF1, respectively. Placement of these two

clock signals is critical in achieving the best performance from

the CCD.

Input Clamp

A line-rate input clamping circuit is used to remove the CCDâs

optical black offset. This offset exists in the CCDâs shielded black

reference pixels. The AD9847 removes this offset in the input

stage to minimize the effect of a gain change on the system black

level, usually called the âgain step.â

Another advantage of removing this offset at the input stage is to

maximize system headroom. Some area CCDs have large black

level offset voltages, which, if not corrected at the input stage, can

significantly reduce the available headroom in the internal circuitry

when higher VGA gain settings are used.

Horizontal timing examples are shown on the last page of the

Applications Information section. It is recommended that the

CLPDM pulse be used during valid CCD dark pixels. CLPDM

may be used during the optical black pixels, either together with

CLPOB or separately. The CLPDM pulse should be a minimum

of four pixels wide.

PxGA

The PxGA provides separate gain adjustment for the individual

color pixels. A programmable gain amplifier with four separate

values, the PxGA has the capability to âmultiplexâ its gain value

on a pixel-to-pixel basis (see Figure 17). This allows lower out-

put color pixels to be gained up to match higher output color

pixels. Also, the PxGA may be used to adjust the colors for white

balance, reducing the amount of digital processing that is needed.

The four different gain values are switched according to the

Color Steering circuitry. Seven different color steering modes

for different types of CCD color filter arrays are programmed

in the AD9847 AFE Register, ctlmode, at Address 0x06

(see Figures 16a to 16g for timing examples). For example,

Mosaic Separate steering mode accommodates the popular

âBayerâ arrangement of red, green, and blue filters (see Figure 18).

0.1â®F

CCDIN

0.1â®F

BYP1

0.1â®F BYP 2

0.1â®F

BYP 3

DC RESTORE

1.5V

SHP

SHD

â2dB TO +10dB

CDS

PxGA

0.1â®F 1.0â®F 1.0â®F

INTERNAL

BIASING

CML REFB REFT

1.0V 2.0V

AVDD

INTERNAL

VREF

0dB TO 36dB

VGA

2V FULL SCALE

10-BIT

ADC

AD9847

DOUT

PHASE

OUTPUT

DATA

LATCH

DOUT

CLPDM

INPUT OFFSET

CLAMP

VGA GAIN

8-BIT

DAC

OPTICAL BLACK

CLAMP

DIGITAL

FILTER

CLPOB PBLK

DOUT

SHP SHD PHASE

CLPDM CLPOB PBLK

CLAMP LEVEL

PRECISION

TIMING

GENERATION

V-H

TIMING

GENERATION

Figure 15. Analog Front End Block Diagram

REV. A

â21â

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