AD8320 Datasheet, PDF(1/20 Page) Analog Devices – Serial Digital Controlled Variable Gain Line Driver

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AD8320 Datasheet, PDF (1/20 Pages) Analog Devices – Serial Digital Controlled Variable Gain Line Driver

Serial Digital Controlled

Variable Gain Line Driver

AD8320

FEATURES

8-Bit Serial Gain Control

V/V/LSB Linear Gain Response

36 dB Gain Range

Ø0.20 dB Gain Accuracy

Upper Bandwidth: 150 MHz

22 dBm 1 dB Compression Point (75 â)

Drives Low Distortion Signals into 75 â Load:

â57 dBc SFDR at 42 MHz and 12 dBm Out

â46 dBc SFDR at 42 MHz and 18 dBm Out

Single Supply Operation from 5 V to 12 V

Maintains 75 â Output Impedance

Power-Up and Power-Down Condition

Supports SPI Input Control Standard

APPLICATIONS

Coaxial Cable Driver

HFC Cable Telephony Systems

HFC High Speed Data Modems

Interactive Set-Top Boxes

PC Plug-In Modems

Interfaces with AD9853 I2C Controlled Digital Modulator

High Performance Digitally Controlled Variable Gain

Block

VREF

VIN

FUNCTIONAL BLOCK DIAGRAM

VCC GND

REFERENCE

AD8320

INV.

ATTENUATOR CORE

PWR AMP

VOUT

REVERSE

AMP

BUF.

DATA LATCH

POWER-

DOWN/

SWITCH

DATA SHIFT REGISTER

INTER.

DATEN CLK

SDATA

DESCRIPTION

The AD8320 is a digitally controlled variable gain amplifier

optimized for coaxial line driving applications. An 8-bit serial

word determines the desired output gain over a 36 dB range

(256 gain levels). The AD8320 provides linear gain response.

The AD8320 is made up of a digitally controlled variable at-

tenuator of 0 dB to â36 dB, which is preceded by a low noise,

fixed gain buffer and followed by a low distortion high power

amplifier. The AD8320 has a 220 â¦ input impedance and ac-

cepts a single-ended input signal with a specified analog input

level of up to 0.310 V p-p. The output is specified for driving a

75 â¦ load, such as coaxial cable, although the AD8320 is ca-

pable of driving other loads. Distortion performance of â57 dBc

is achieved with an output level up to 12 dBm (3.1 V p-p) at

42 MHz, while â46 dBc distortion is achieved with an output

level up to 18 dBm (6.2 V p-p).

A key performance and cost advantage of the AD8320 results

from the ability to maintain a constant 75 â¦ output impedance

during power-up and power-down conditions. This eliminates

the need for external 75 â¦ back-termination, resulting in twice

the effective output voltage when compared to a standard opera-

tional amplifier. Additionally, the on-chip 75 â¦ termination

results in low glitch output during power-down and power-up

transitions, eliminating the need for an external switch.

The AD8320 is packaged in a 20-lead SOIC and operates from

a single +5 V through +12 V supply and has an operational

temperature range of â40Â°C to +85Â°C.

Ø20

Ø30

PO = 18dBm

Ø40

Ø50

PO = 8dBm

Ø60

PO = 12dBm

Ø70

PO = 4dBm

Ø80

100

FREQUENCY â MHz

Figure 1. Worst Harmonic Distortion vs. Frequency for

Various Output Levels at VCC = 12 V

REV. 0

Information furnished by Analog Devices is believed to be accurate and

reliable. However, no responsibility is assumed by Analog Devices for its

use, nor for any infringements of patents or other rights of third parties

which may result from its use. No license is granted by implication or

otherwise under any patent or patent rights of Analog Devices.

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Tel: 781/329-4700 World Wide Web Site: http://www.analog.com

Fax: 781/326-8703

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