AD8321AR-REEL Analog Devices Inc, AD8321AR-REEL Datasheet - Page 9

AD8321AR-REEL

Manufacturer Part Number

AD8321AR-REEL

Description

IC LINE DVR CATV 20-SOIC T/R

Manufacturer

Analog Devices Inc

Type

Line Driver, Transmitterr

Datasheet

1.AD8321ARZ.pdf (20 pages)

Specifications of AD8321AR-REEL

Rohs Status

RoHS non-compliant

Applications

Modems, CATV

Mounting Type

Surface Mount

Package / Case

20-SOIC (7.5mm Width)

For Use With

AD8321-EVAL - BOARD EVAL FOR AD8321

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

AD8321AR-REEL

Manufacturer:

ADI/亚德诺

Quantity:

20 000

Current page: 9 of 20
Download datasheet (717Kb)

Basic Connection

Figure 25 shows the basic schematic for operating the AD8321

in single-ended inverting mode. To operate in inverting mode,

connect the input signal through an ac coupling capacitor to

VIN–; VIN+ should be decoupled to ground with a 0.1 mF

capacitor. Because the amplifier operates from a single supply,

and the differential input pins are biased to approximately

capacitors. For operation in the noninverting mode, the VIN–

pin should be decoupled to ground via a 0.1 mF capacitor, with

the input signal being fed to the AD8321 through the (ac-coupled)

VIN+ pin. Inverting mode should be chosen if the AD8321 is

being used as a drop-in replacement for the AD8320 (the

AD8321 predecessor). Balanced differential inputs to the

AD8321 may also be applied at an amplitude that is one-half

the specified single-ended input amplitude. See the Differential

Inputs section for more on this mode of operation.

Power Supply and Decoupling

The AD8321 should be powered with a good quality (i.e., low

noise) single supply of 9 V. Although the AD8321 circuit will

function at voltages lower than 9 V, optimum performance will

not be achieved at lower supply settings. Careful attention must

be paid to decoupling the power supply pins. A 10 mF capacitor

located in near proximity to the AD8321 is required to provide

good decoupling for lower frequency signals. In addition, and

more importantly, five 0.1 mF decoupling capacitors should be

located close to each of the five power supply pins (7, 8, 9, 17,

and 20). A 0.1 mF capacitor must also be connected to the pins

labeled BYP1 and BYP2 (Pins 5 and 14) to provide decoupling

to internal nodes of the device. All six ground pins should be

connected to a common low impedance ground plane.

REV. A

/2, the differential inputs must be ac-coupled using 0.1 mF

VCC

INPUT

+9V

Figure 25. Basic Connection for Single-Ended Inverting Operation

82.5�

10�F

DATEN

SDATA

CLK

0.1�F

DATEN

0.1�F

VIN+

VIN–

VCC

0.1�F

CLK

VCC

AD8321

0.1�F

SDATA

VCC

ATTENUATOR

DATA LATCH

DATA SHIFT

0.1�F

C10

CORE

GND

VCC

–9–

0.1�F

GND

C11

VCC

Input Bias, Impedance and Termination

On the input side, the VIN+ and VIN– have a dc bias level

equal to (V

ac-coupled before being applied to either input pin. The input

impedance, when operated in single-ended mode is roughly

820 W (900 W in differential mode). An external shunt resis

tance (R1) to ground of 82.5 W is required to create a single-

ended input impedance of close to 75 W. If single-ended 50 W

termination is required, a 53.6 W shunt resistor may be used.

Differential input operation may be achieved by using a shunt

resistor of 41 W to ground on each of the inputs, or 82.6 W

across the inputs resulting in a differential input impedance of

approximately 75 W. Note: to avoid dc loading of either the

VIN+ or VIN– pin, the ac-coupling capacitor must be placed

between the input pin(s) and the shunt resistor(s). Refer to the

Differential Inputs section for more details on this mode of

operation.

Output Bias, Impedance and Termination

On the output side, the VOUT pin is also dc-biased to V

midway between the supply voltage and ground. The output

signal must therefore be ac-coupled before being applied to the

load. The dc-bias voltage is available on the BYP1 and BYP2

pins (Pins 5 and 14 respectively) and can be used in dc-biasing

schemes. These nodes must be decoupled to ground using a

0.1 mF capacitor as shown in Figure 25. If the BYP1 and/or

BYP2 voltages are used externally, they should be buffered.

External back termination resistors are not required when using

the AD8321. The output impedance of the AD8321 is 75 W and

is maintained dynamically. This on chip back termination is

maintained regardless of whether the amplifier is in forward

transmit mode or reverse powered down mode. If the output

signal is being evaluated on 50 W test equipment such as a

spectrum analyzer, a 75 W to 50 W adapter (commonly called

a minimum loss pad) should be used to maintain a properly

matched circuit.

GND

0.1�F

BYP1

GND

POWER

SWITCH

DOWN/

INTER

0.1�F

GND

BYP2

VOUT

/2) – 0.2 V. The input signal must therefore be

0.1�F

DIPLEXER

= 75�

AD8321

/2 or

AD8321AR-REEL Analog Devices Inc, AD8321AR-REEL Datasheet - Page 9

AD8321AR-REEL

Specifications of AD8321AR-REEL

Available stocks

Related parts for AD8321AR-REEL