AD9609 Analog Devices, AD9609 Datasheet - Page 31

AD9609

Manufacturer Part Number

AD9609

Description

10-Bit, 20 MSPS/40 MSPS/65 MSPS/80 MSPS, 1.8 V Analog-to-Digital Converter

Manufacturer

Analog Devices

Datasheet

1.AD9609.pdf (32 pages)

Specifications of AD9609

Resolution (bits)

10bit

# Chan

Sample Rate

80MSPS

Interface

Par

Analog Input Type

Diff-Uni

Ain Range

2 V p-p

Adc Architecture

Pipelined

Pkg Type

CSP

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APPLICATIONS INFORMATION

DESIGN GUIDELINES

Before starting design and layout of the AD9609 as a system,

it is recommended that the designer become familiar with these

guidelines, which discuss the special circuit connections and

layout requirements needed for certain pins.

Power and Ground Recommendations

When connecting power to the AD9609, it is strongly recom-

mended that two separate supplies be used. Use one 1.8 V supply

for analog (AVDD); use a separate 1.8 V to 3.3 V supply for the

digital output supply (DRVDD). If a common 1.8 V AVDD and

DRVDD supply must be used, the AVDD and DRVDD domains

must be isolated with a ferrite bead or filter choke and separate

decoupling capacitors. Several different decoupling capacitors

can be used to cover both high and low frequencies. Locate

these capacitors close to the point of entry at the PCB level

and close to the pins of the part, with minimal trace length.

A single PCB ground plane should be sufficient when using the

AD9609. With proper decoupling and smart partitioning of the

PCB analog, digital, and clock sections, optimum performance

is easily achieved.

Exposed Paddle Thermal Heat Sink Recommendations

The exposed paddle (Pin 0) is the only ground connection for

the AD9609; therefore, it must be connected to analog ground

(AGND) on the customer’s PCB. To achieve the best electrical

and thermal performance, mate an exposed (no solder mask)

continuous copper plane on the PCB to the AD9609 exposed

paddle, Pin 0.

The copper plane should have several vias to achieve the

lowest possible resistive thermal path for heat dissipation to

flow through the bottom of the PCB. Fill or plug these vias

with nonconductive epoxy.

Rev. 0 | Page 31 of 32

To maximize the coverage and adhesion between the ADC and

the PCB, a silkscreen should be overlaid to partition the continuous

plane on the PCB into several uniform sections. This provides

several tie points between the ADC and the PCB during the reflow

process. Using one continuous plane with no partitions guarantees

only one tie point between the ADC and the PCB. For detailed

information about packaging and PCB layout of chip scale

packages, see the AN-772 Application Note, A Design and

Manufacturing Guide for the Lead Frame Chip Scale Package

(LFCSP) at www.analog.com.

Encode Clock

For optimum dynamic performance a low jitter encode clock

source with a 50% duty cycle ±5% should be used to clock the

AD9609.

VCM

The VCM pin should be decoupled to ground with a 0.1 μF

capacitor, as shown in Figure 38.

RBIAS

The AD9609 requires that a 10 kΩ resistor be placed between

the RBIAS pin and ground. This resistor sets the master current

reference of the ADC core and should have at least a 1% tolerance.

Reference Decoupling

Externally decoupled the VREF pin to ground with a low ESR,

1.0 μF capacitor in parallel with a low ESR, 0.1 μF ceramic

capacitor.

SPI Port

The SPI port should not be active during periods when the full

dynamic performance of the converter is required. Because the

SCLK, CSB, and SDIO signals are typically asynchronous to the

ADC clock, noise from these signals can degrade converter

performance. If the on-board SPI bus is used for other devices,

it may be necessary to provide buffers between this bus and the

AD9609 to keep these signals from transitioning at the converter

inputs during critical sampling periods.

AD9609

AD9609 Analog Devices, AD9609 Datasheet - Page 31

AD9609

Specifications of AD9609

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