AD8018ARZ Analog Devices Inc, AD8018ARZ Datasheet - Page 9

AD8018ARZ

Manufacturer Part Number

AD8018ARZ

Description

SOIC Dual+5V HiSpd Hi Output Current Amp

Manufacturer

Analog Devices Inc

Type

Driverr

Datasheet

1.AD8018ARZ.pdf (19 pages)

Specifications of AD8018ARZ

Number Of Drivers/receivers

2/0

Protocol

xDSL

Voltage - Supply

3.3 V ~ 8 V

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

AD8018ARU-EVAL - BOARD EVAL FOR AD8018AD8018AR-EVAL - BOARD EVAL FOR AD8018

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Current page: 9 of 19
Download datasheet (340Kb)

POWER-DOWN FEATURES

Two digitally programmable logic pins, PWDN1 and PWDN0,

are available on the TSSOP-14 package to select among three

different modes of operation, full power, standby and shutdown.

The DGND pin is the logic ground reference. The logic thresh-

old voltage is established 1 V above DGND. In a typical 5 V

single-supply application, the DGND pin is connected to analog

ground. If PWDN1, PWDN0, and DGND are left unconnected,

the AD8018 will operate at full power.

PWDN0

High

Low

High

Low

POWER SUPPLY AND DECOUPLING

The AD8018 can be powered with a good quality (i.e., low-noise)

supply anywhere in the range from 3.3 V to 8 V. However, in

order to optimize the ADSL upstream drive capability to +13 dBm

and maintain the best Spurious Free Dynamic Range (SFDR),

the AD8018 circuit should be supplied with a well regulated 5 V

supply. The 5 V supplied at the Universal Serial Bus (USB) port

may be poorly regulated. Improving the quality of the 5 V supply

will optimize the performance of the AD8018 in a Universal Serial

Bus-supplied CPE ADSL modem. This can be accomplished

through the use of a step-up dc-to-dc converter or switching

power supply followed by a low dropout (LDO) regulator such

as the ADP3331 (see Figure 6). Setting R1 to be 953 k and

R2 to be 301 k will result in a V

Careful attention must be paid to decoupling the power supply

pins at the output of the dc-to-dc converter, the output of the

LDO regulator and the supply pins of the AD8018. High-quality

capacitors with low equivalent series resistance (ESR) such as

multilayer ceramic capacitors (MLCCs) should be used to mini-

mize supply voltage ripple and power dissipation. A large, usually

tantalum, 10 F to 47 F capacitor located in proximity to the

AD8018 is required to provide good decoupling for lower fre-

quency signals. In addition, 0.1 F MLCC decoupling capacitors

should be located as close to each of the power supply pins as is

physically possible, no more than 1/8 inch away. An additional

large (4.7 F to 10 F) tantalum capacitor should be placed on the

board near the supply terminals to supply current for fast, large-

signal changes at the AD8018 outputs.

Table II. Power-Down Features and Truth Table

PWDN1

High

Low

Gain

–1

Table I. Resistor Selection Guide

State

Full Power

Standby

Disabled

681

1 k

750

511

340

230

( )

OUT

Supply

Current

18 mA

9 mA

300 A

of 5 V.

681

750

256

113

( )

Output

Low

High

Impedance

METHOD FOR GENERATING A MIDSUPPLY VOLTAGE

To operate an amplifier on a single voltage supply, a voltage

midway between the supply and ground must be generated to

properly bias the inputs and the outputs.

A voltage divider can be created with two equal value resistors

(Figure 7). There is a trade-off between the power consumed by

the divider and the voltage drop across these resistors due to the

positive input bias currents. Selecting 2.5 k for R1 and R2 will

create a voltage divider that draws only 1 mA from a 5 V supply.

The voltage generated with this topology can vary due to the

temperature coefficient (TC) of resistance. Resistors that are

closely matched and have a low TC will minimize variations in

the voltage reference due to temperature. One should also be

sure to use a decoupling capacitor (0.1 F) at the node where

DIFFERENTIAL TESTING

The test circuit shown in TPC 13 is used for measuring the dif-

ferential distortion of the AD8018. A single-ended test signal is

applied to the inverting input of the AD8138 differential driver

with the noninverting input grounded. Applying the differential

output of the AD8138 through 100

the inputs of the AD8018 differential driver and provide a well-

balanced low-distortion input signal. The differential load (R

of the AD8018 can be set to the equivalent of the line imped-

ance reflected through a transformer. The AD9632 converts

the differential output voltage back to a single-ended signal.

The differential-to- single-ended converter using the AD9632

has an attenuation of –26 dB and is wired with precision resis-

tors to optimize the balance of differential input signal. The

resulting smaller output signal can be easily measured using a

REF

is generated.

spectrum analyzer.

0.47 F

2.5k

ADP3331

OFF

GND

ERR

OUT

0.1 F

330k

953k

301k

resistors serves to isolate

REF

0.47 F

AD8018

OUT

)

AD8018ARZ Analog Devices Inc, AD8018ARZ Datasheet - Page 9

AD8018ARZ

Specifications of AD8018ARZ

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