AD640BPZ Datasheet AD640BE, AD640JNZ, AD640JPZ | P1-P3

ATN OUT

AMPLIFIER/LIMITER

FULL-WAVE

DETECTOR

ATN LO

ATN COM

SIG +IN

SIG –IN

ATN COM

COM

27V

30V

270V

ATN IN

1kV

RG1 RG0

RG2

–V

BL1

LOG OUT

LOG COM

SIG +OUT

SIG –OUT

BL2

ITC

INTERCEPT POSITIONING BIAS

GAIN BIAS REGULATOR

AMPLIFIER/LIMITER

FULL-WAVE

DETECTOR

AMPLIFIER/LIMITER

FULL-WAVE

DETECTOR

10dB

AMPLIFIER/LIMITER

FULL-WAVE

DETECTOR

10dB 10dB

AMPLIFIER/LIMITER

FULL-WAVE

DETECTOR

17 16 14

1kV

SLOPE BIAS REGULATOR

10dB10dB

DC-Coupled Demodulating

120 MHz Logarithmic Amplifier

AD640

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 © Analog Devices, Inc., 1999-2016

FEATURES

Complete, Fully Calibrated Monolithic System

Five Stages, Each Having 10 dB Gain, 350 MHz BW

Direct Coupled Fully Differential Signal Path

Logarithmic Slope, Intercept and AC Response are

Stable Over Full Military Temperature Range

Dual Polarity Current Outputs Scaled 1 mA/Decade

Voltage Slope Options (1 V/Decade, 100 mV/dB, etc.)

Low Power Operation (Typically 220 mW at ⴞ5 V)

Low Cost Plastic Packages Also Available

APPLICATIONS

Radar, Sonar, Ultrasonic and Audio Systems

Precision Instrumentation from DC to 120 MHz

Power Measurement with Absolute Calibration

Wide Range High Accuracy Signal Compression

Alternative to Discrete and Hybrid IF Strips

Replaces Several Discrete Log Amp ICs

PRODUCT DESCRIPTION

The AD640 is a complete monolithic logarithmic amplifier. A single

AD640 provides up to 50 dB of dynamic range for frequencies

from dc to 120 MHz. Two AD640s in cascade can provide up to

95 dB of dynamic range at reduced bandwidth. The AD640 uses a

successive detection scheme to provide an output current propor-

tional to the logarithm of the input voltage. It is laser calibrated to

close tolerances and maintains high accuracy over the full military

temperature range using supply voltages from ±4.5 V to ±7.5 V.

The AD640 comprises five cascaded dc-coupled amplifier/limiter

stages, each having a small signal voltage gain of 10 dB and a –3 dB

bandwidth of 350 MHz. Each stage has an associated full-wave

detector, whose output current depends on the absolute value of its

input voltage. The five outputs are summed to provide the video

output (when low-pass filtered) scaled at 1 mA per decade (50 µA

per dB). On chip resistors can be used to convert this output cur-

rent to a voltage with several convenient slope options. A balanced

signal output at +50 dB (referred to input) is provided to operate

AD640s in cascade.

The logarithmic response is absolutely calibrated to within ±1 dB

for dc or square wave inputs from ±0.75 mV to ±200 mV, with

an intercept (logarithmic offset) at 1 mV dc. An integral X10

attenuator provides an alternative input range of ±7.5 mV to

±2 V dc. Scaling is also guaranteed for sinusoidal inputs.

The AD640B is specified for the industrial temperature range of

–40°C to +85°C and the AD640T, available processed to MIL-

STD-883B, for the military range of –55°C to +125°C. Both are

available in 20-lead side-brazed ceramic DIPs or leadless chip

carriers (LCC). The AD640J is specified for the commercial

temperature range of 0°C to +70°C, and is available in both

20-lead plastic DIP (N) and PLCC (P) packages.

This device is now available to Standard Military Drawing

(DESC) number 5962-9095501MRA and 5962-9095501M2A.

PRODUCT HIGHLIGHTS

1. Absolute calibration of a wideband logarithmic amplifier is

unique. The AD640 is a high accuracy measurement device,

not simply a logarithmic building block.

2. Advanced design results in unprecedented stability over the

full military temperature range.

3. The fully differential signal path greatly reduces the risk of

instability due to inadequate power supply decoupling and

shared ground connections, a serious problem with com-

monly used unbalanced designs.

4. Differential interfaces also ensure that the appropriate ground

connection can be chosen for each signal port. They further

increase versatility and simplify applications. The signal input

impedance is ~500 kΩ in shunt with ~2 pF.

5. The dc-coupled signal path eliminates the need for numerous

interstage coupling capacitors and simplifies logarithmic

conversion of subsonic signals.

(continued on page 4)

FUNCTIONAL BLOCK DIAGRAM

REV. D

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.

AD640* PRODUCT PAGE QUICK LINKS

Last Content Update: 02/23/2017

COMPARABLE PARTS

View a parametric search of comparable parts.

DOCUMENTATION

Data Sheet

• AD640: DC-Coupled Demodulating 120 MHz Logarithmic

Amplifier Data Sheet

• AD640: Military Data Sheet

Product Highlight

• Industrial Applications

TOOLS AND SIMULATIONS

• ADIsimPLL™

• ADIsimRF

REFERENCE MATERIALS

Informational

• ADI Warns Against Misuse of COTS Integrated Circuits

Product Selection Guide

• RF Source Booklet

• Space Qualified Parts List

Technical Articles

• Design a Logamp RF Pulse Detector

• Detecting Fast RF Bursts using Log Amps

• Log Amps and Directional Couplers Enable VSWR

Detection

• Make Precise Base-Station Power Measurements

• Measurement and Control of RF Power, Part I

• Measurement and Control of RF Power, Part II

• Measurement and Control of RF Power, Part III

• Measuring the RF Power in CDMA2000 and W-CDMA High

Power Amplifiers (HPAs)

• Measuring VSWR and Gain in Wireless Systems

DESIGN RESOURCES

• AD640 Material Declaration

• PCN-PDN Information

• Quality And Reliability

• Symbols and Footprints

DISCUSSIONS

View all AD640 EngineerZone Discussions.

SAMPLE AND BUY

Visit the product page to see pricing options.

TECHNICAL SUPPORT

Submit a technical question or find your regional support

number.

DOCUMENT FEEDBACK

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AD640–SPECIFICATIONS

DC SPECIFICATIONS

Model AD640J AD640B AD640T

Parameter Conditions Min Typ Max Min Typ Max Min Typ Max Units

TRANSFER FUNCTION

OUT

= I

LOG |V

| for V

= ±0.75 mV to ±200 mV dc

SIGNAL INPUTS (Pins 1, 20)

Input Resistance Differential 500 500 500 kΩ

Input Offset Voltage Differential 50 500 50 200 50 200 µV

vs. Temperature 0.8 0.8 0.8 µV/°C

Over Temperature T

MIN

to T

MAX

300 µV

vs. Supply 2 2 2 µV/V

Input Bias Current 7 25 7 25 7 25 µA

Input Bias Offset 1 1 1 µA

Common-Mode Range –2 +0.3 –2 +0.3 –2 +0.3 V

INPUT ATTENUATOR

(Pins 2, 3, 4, 5 and 19)

Attenuation

Pin 5 to Pin 19 20 20 20 dB

Input Resistance Pins 5 to 3/4 300 300 300 Ω

SIGNAL OUTPUT (Pins 10, 11)

Small Signal Gain

50 50 50 dB

Peak Differential Output

±180 ±180 ±180 mV

Output Resistance Either Pin to COM 75 75 75 Ω

Quiescent Output Voltage Either Pin to COM –90 –90 –90 mV

LOGARITHMIC OUTPUT

(Pin 14)

Voltage Compliance Range –0.3 +V

–1 –0.3 +V

–1 –0.3 V

–1 V

Slope Current, I

0.95 1.00 1.05 0.98 1.00 1.020.98 1.00 1.02 mA

Accuracy vs. Temperature 0.002 0.002 0.002 %/°C

MIN

to T

MAX

0.96 1.02 mA

Accuracy vs. Supply +V

= 4.5 V to 7.5 V 0.08 1.0 0.080.4 0.08 0.4 %/V

Intercept Voltage

, V

0.850.99 1.150.93 0.99 1.05 0.93

0.99

1.05 mV

vs. Temperature 0.5 0.5 0.5 µV/°C

Over Temperature T

MIN

to T

MAX

0.90 1.10 mV

vs. Supply ±V

= 4.5 V to 7.5 V 2 2 2 µV/V

Logarithmic Offset

(Alt. Definition of V

) –61.5 –60.0 –58.7 –60.5 –60.0 –59.5 –60.5 –60.0 –59.5 dBV

vs. Temperature 0.004 0.004 0.004 dB/°C

Over Temperature T

MIN

to T

MAX

–60.9 –59.1 dB

vs. Supply ±V

= 4.5 V to 7.5 V 0.017 0.017 0.017 dB/V

Intercept Voltage Using Attenuator 8.25 10.0 11.75 9.0 10.0 11.0 9.0 10.0 11.0 mV

Zero Signal Output Current

–0.2 –0.2 –0.2 mA

ITC Disabled Pin 8 to COM –0.27 –0.27 –0.27 mA

Maximum Output Current 2.3 2.3 2.3 mA

APPLICATIONS RESISTORS

(Pins 15, 16, 17) 1.000 0.995 1.000 1.005 0.995 1.000 1.005 kΩ

DC LINEARITY

±1 mV to ±100 mV 0.35 1.2 0.35 0.6 0.35 0.6 dB

TOTAL ABSOLUTE DC

ACCURACY

= ±1 mV to ±100 mV

0.55 2 0.551.2 0.551.2 dB

Over Temperature T

MIN

to T

MAX

3 2.0 2.0 dB

Over Supply Range ±V

= 4.5 V to 7.5 V 2 1.5 1.5 dB

= ±0.75 mV to ±200 mV 1.0 3 1.0 2.0 1.0 2.0 dB

Using Attenuator

= ±10 mV to ±1 V 0.4 2.5 0.4 1.5 0.4 1.5 dB

Over Temperature T

MIN

to T

MAX

0.6 3 0.62.2 0.62.2 dB

= ±7.5 mV to 2 V 1.2 3.5 1.2 2.5 1.2 2.5 dB

POWER REQUIREMENTS

Voltage Supply Range

ⴞ

4.5

ⴞ

7.5

ⴞ

4.5

ⴞ

7.5

ⴞ

4.5

ⴞ

7.5 V

Quiescent Current

(Pin 12) T

MIN

to T

MAX

915 9 15 9 15 mA

–V

(Pin 7) T

MIN

to T

MAX

35 60 35 60 35 60 mA

–2–

REV. D

ⴞ

5 V, T

= +25

ⴗ

C, unless otherwise noted)

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P20

AD640BPZ

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Logarithmic Amplifiers LOGARITHMIC AMP IC 120MHz 50dB

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AD640BPZ

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