AD9949KCPRL Analog Devices Inc, AD9949KCPRL Datasheet - Page 30

AD9949KCPRL

Manufacturer Part Number

AD9949KCPRL

Description

IC CCD SIGNAL PROCESSOR 40-LFCSP

Manufacturer

Analog Devices Inc

Type

CCD Signal Processor, 12-Bitr

Datasheet

1.AD9949AKCPZ.pdf (36 pages)

Specifications of AD9949KCPRL

Rohs Status

RoHS non-compliant

Input Type

Logic

Output Type

Logic

Interface

3-Wire Serial

Mounting Type

Surface Mount

Package / Case

40-LFCSP

Analog Front End Type

CCD

Analog Front End Category

Video

Interface Type

Serial (3-Wire)

Sample Rate

36MSPS

Input Voltage Range

0.5V

Operating Supply Voltage (min)

2.7V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

3.6V

Resolution

12b

Number Of Adc's

Power Supply Type

Analog/Digital

Operating Temp Range

-20C to 85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

LFCSP EP

Number Of Channels

Current - Supply

Lead Free Status / RoHS Status

Not Compliant

Current page: 30 of 36
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AD9949

APPLICATIONS INFORMATION

CIRCUIT CONFIGURATION

The AD9949 recommended circuit configuration is shown in

Figure 38. Achieving good image quality from the AD9949

requires careful attention to PCB layout. All signals should be

routed to maintain low noise performance. The CCD output

signal should be directly routed to Pin 27 through a 0.1 µF

capacitor. The master clock CLI should be carefully routed to

Pin 25 to minimize interference with the CCDIN, REFT, and

REFB signals.

The digital outputs and clock inputs are located on Pins 1 to 13

and Pins 31 to 40 and should be connected to the digital ASIC

away from the analog and CCD clock signals. Placing series

resistors close to the digital output pins may help to reduce

digital code transition noise. If the digital outputs must drive a

load larger than 20 pF, buffering is recommended to minimize

additional noise. If the digital ASIC can accept gray code, the

AD9949’s outputs can be selected to output data in gray code

format using the control register Bit D5. Gray coding helps reduce

potential digital transition noise compared with binary coding.

The H1–H4 and RG traces should have low inductance to avoid

excessive distortion of the signals. Heavier traces are recom-

mended because of the large transient current demand on

H1–H4 from the capacitive load of the CCD. If possible,

physically locating the AD9949 closer to the CCD will reduce

the inductance on these lines. As always, the routing path

should be as direct as possible from the AD9949 to the CCD.

SUPPLY

DRIVER

VD/HD/HBLK INPUTS

CLP/BLK OUTPUT

OUTPUTS

4.7µF 0.1µF

DATA

3V ANALOG SUPPLY

DRVDD

DRVSS

Figure 38. Recommended Circuit Configuration

PIN 1

IDENTIFIER

AD9949

TOP VIEW

Rev. B | Page 30 of 36

0.1µF

GROUNDING AND DECOUPLING

RECOMMENDATIONS

As shown in Figure 38, a single ground plane is recommended

for the AD9949. This ground plane should be as continuous as

possible, particularly around Pins 23 to 30. This ensures that all

analog decoupling capacitors provide the lowest possible

impedance path between the power and bypass pins and their

respective ground pins. All high frequency decoupling

capacitors should be located as close as possible to the package

pins. It is recommended that the exposed paddle on the bottom

of the package be soldered to a large pad, with multiple vias

connecting the pad to the ground plane.

All the supply pins must be decoupled to ground with good

quality, high frequency chip capacitors. There should also be a

4.7 µF or larger bypass capacitor for each main supply—AVDD,

RGVDD, HVDD, and DRVDD—although this is not necessary

for each individual pin. In most applications, it is easier to share

the supply for RGVDD and HVDD, which may be done as long

as the individual supply pins are separately bypassed. A separate

3 V supply may be used for DRVDD, but this supply pin should

still be decoupled to the same ground plane as the rest of the

chip. A separate ground for DRVSS is not recommended.

The reference bypass pins (REFT, REFB) should be decoupled

to ground as close as possible to their respective pins. The

analog input (CCDIN) capacitor should also be located close to

the pin.

0.1µF

REFB

REFT

AVSS

CCDIN

AVDD

CLI

TCVDD

TCVSS

RGVDD

4.7µF

0.1µF

SERIAL

INTERFACE

1µF

0.1µF

4.7µF

0.1µF

4.7µF

H1 TO H4

H DRIVER

SUPPLY

CCD SIGNAL

MASTER

CLOCK INPUT

3V ANALOG

SUPPLY

RG OUTPUT

RG DRIVER

SUPPLY

AD9949KCPRL Analog Devices Inc, AD9949KCPRL Datasheet - Page 30

AD9949KCPRL

Specifications of AD9949KCPRL

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