Analog Devices AD604 User Manual
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Analog Devices AD604 User Manual

Analog Devices AD604 User Manual

Dual, ultralow noise variable gain amplifier
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FEATURES

Ultralow input noise at maximum gain
0.80 nV/√Hz, 3.0 pA/√Hz
2 independent linear-in-dB channels
Absolute gain range per channel programmable
0 dB to 48 dB (preamplifier gain = 14 dB) through 6 dB to
54 dB (preamplifier gain = 20 dB)
±1.0 dB gain accuracy
Bandwidth: 40 MHz (−3 dB)
Input resistance: 300 kΩ
Variable gain scaling: 20 dB/V through 40 dB/V
Stable gain with temperature and supply variations
Single-ended unipolar gain control
Power shutdown at lower end of gain control
Drive ADCs directly

APPLICATIONS

Ultrasound and sonar time-gain controls
High performance AGC systems
www.BDTIC.com/ADI
Signal measurement

GENERAL DESCRIPTION

The AD604 is an ultralow noise, very accurate, dual-channel,
linear-in-dB variable gain amplifier (VGA) optimized for time-
based variable gain control in ultrasound applications; however,
it supports any application requiring low noise, wide bandwidth,
variable gain control. Each channel of the AD604 provides a
300 kΩ input resistance and unipolar gain control for ease of
use. User-determined gain ranges, gain scaling (dB/V), and dc
level shifting of output further optimize performance.
Each channel of the AD604 uses a high performance
preamplifier that provides an input-referred noise voltage of
0.8 nV/√Hz. The very accurate linear-in-dB response of the
AD604 is achieved with the differential input exponential
amplifier (DSX-AMP) architecture. Each DSX-AMP comprises
a variable attenuator of 0 dB to 48.36 dB followed by a high
speed fixed-gain amplifier. The attenuator is a 7-stage
R-1.5R ladder network. The attenuation between tap points is
6.908 dB and 48.36 dB for the ladder network.
The equation for the linear-in-dB gain response is
G (dB) =
(Gain Scaling (dB/V) × VGN (V)) + (Preamp Gain (dB) – 19 dB)
Rev. E
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 that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarks and registered trademarks are the property of their respective owners.
Dual, Ultralow Noise
Variable Gain Amplifier

FUNCTIONAL BLOCK DIAGRAM

PAOx
–DSXx
DIFFERENTIAL
ATTENUATOR
R-1.5R
PAIx
LADDER NETWORK
0dB TO –48.4dB
PROGRAMMABLE
ULTRALOW NOISE
PREAMPLIFIER
G = 14dB TO 20dB
PRECISION PASSIVE
INPUT ATTENUATOR
Preamplifier gains between 5 and 10 (14 dB and 20 dB) provide
overall gain ranges per channel of 0 dB through 48 dB and 6 dB
through 54 dB. The two channels of the AD604 can be cascaded
to provide greater levels of gain range by bypassing the preamplifier
of the second channel. However, in multiple channel systems,
cascading the AD604 with other devices in the AD60x VGA
family that do not include a preamplifier may provide a more
efficient solution. The AD604 provides access to the output of
the preamplifier, allowing for external filtering between the
preamplifier and the differential attenuator stage.
Note that scale factors up to 40 dB/V are achievable with reduced
accuracy for scales above 30 dB/V. The gain scales linearly in
decibels with control voltages of 0.4 V to 2.4 V with the 20 dB/V
scale. Below and above this gain control range, the gain begins
to deviate from the ideal linear-in-dB control law. The gain
control region below 0.1 V is not used for gain control. When
the gain control voltage is <50 mV, the amplifier channel is
powered down to 1.9 mA.
The AD604 is available in 24-lead SSOP, SOIC, and PDIP
packages and is guaranteed for operation over the −40°C to
+85°C temperature range.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
Fax: 781.461.3113
©1996–2008 Analog Devices, Inc. All rights reserved.
AD604
+DSXx
VGNx
GAIN CONTROL
AND SCALING
AFA
FIXED GAIN
AMPLIFIER
34.4dB
Figure 1.
www.analog.com
VREF
OUTx
VOCM

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Summary of Contents for Analog Devices AD604

  • Page 1: Features

    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 that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices.

  • Page 2: Table Of Contents

    AD604 TABLE OF CONTENTS Features ... 1 Applications ... 1 Functional Block Diagram ... 1 General Description ... 1 Revision History ... 2 Specifications ... 3 Absolute Maximum Ratings ... 5 ESD Caution ... 5 Pin Configuration and Function Descriptions ... 6 Typical Performance Characteristics ...

  • Page 3: Specifications

    = 2.50 V (scaling = 20 dB/V), 0 dB to 48 dB gain −27 ±400 ±200 0.73 2.5 ± 2 −20 2.5 ± 1.5 ±40 −54 −67 −43 −48 −74 −71 = 1 V p-p, −12.5 −30 ±2 AD604 Unit kΩ nV/√Hz nV/√Hz pA/√Hz Ω nV/√Hz pA/√Hz V/μs Ω kΩ...
  • Page 4 AD604 Parameter ACCURACY Absolute Gain Error 0 dB to 3 dB 3 dB to 43 dB 43 dB to 48 dB Gain Scaling Error Output Offset Voltage Output Offset Variation GAIN CONTROL INTERFACE Gain Scaling Factor Gain Range Input Voltage (VGN) Range...

  • Page 5: Absolute Maximum Ratings

    VPOS/2 ± 2 V device reliability. continuous ±2 V ESD CAUTION VPOS, VNEG VPOS, 0 V 2.2 W 1.7 W 1.1 W −40°C to +85°C −65°C to +150°C 300°C 105°C/W 73°C/W 112°C/W 35°C/W 38°C/W 34°C/W Rev. E | Page 5 of 32 AD604...

  • Page 6: Pin Configuration And Function Descriptions

    AD604 PIN CONFIGURATION AND FUNCTION DESCRIPTIONS Table 3. Pin Function Descriptions Pin No. Mnemonic Description –DSX1 Channel 1 Negative Signal Input to DSX1. +DSX1 Channel 1 Positive Signal Input to DSX1. PAO1 Channel 1 Preamplifier Output. FBK1 Channel 1 Preamplifier Feedback Pin.

  • Page 7: Typical Performance Characteristics

    VREF (V) Figure 6. Gain Scaling vs. VREF +25°C –40°C +85°C VGN (V) Figure 7. Gain Error vs. VGN FREQ = 1MHz FREQ = 5MHz FREQ = 10MHz VGN (V) Figure 8. Gain Error vs. VGN at Different Frequencies AD604 2.50...
  • Page 8 AD604 –0.5 30dB/V VREF = 1.67V –1.0 –1.5 –2.0 VGN (V) Figure 9. Gain Error vs. VGN for Two Gain Scaling Values www.BDTIC.com/ADI –1.0 –0.8 –0.6 –0.4 –0.2 DELTA GAIN (dB) Figure 10. Gain Match; VGN1 = VGN2 = 1.0 V –1.0...
  • Page 9 Figure 16. Input Referred Noise vs. Temperature VGN = 2.9V 100k FREQUENCY (Hz) Figure 17. Input Referred Noise vs. Frequency VGN = 2.9V Rev. E | Page 9 of 32 AD604 ALONE SOURCE (Ω) SOURCE Figure 18. Input Referred Noise vs. R SOURCE VGN = 2.9V...
  • Page 10 AD604 –40 = 1V p-p VGN = 1V –45 –50 –55 –60 –65 –70 100k FREQUENCY (Hz) Figure 21. Harmonic Distortion vs. Frequency –30 = 1V p-p –35 –40 –45 –50 –55 HD3 (10MHz) www.BDTIC.com/ADI –60 –65 –70 HD2 (1MHz) –75...
  • Page 11 VGN1 = 1V = 1V p-p OUT1 = GND VGN2 = 2.9V VGN2 = 2V VGN2 = 1.5V VGN2 = 0.1V FREQUENCY (Hz) VGN = 2.9V VGN = 2.5V VGN = 2V VGN = 0.1V FREQUENCY (Hz) AD604 100M 100M...
  • Page 12 26.2 26.0 25.8 –40 –20 TEMPERATURE (°C) Figure 34. Input Bias Current vs. Temperature 100M Rev. E | Page 12 of 32 (AD604) = +I (PA) + +I (DSX) –I (AD604) = –I (PA) AD604 (+I DSX (+I PREAMP (±I (VGN = 0) –40...

  • Page 13: Theory Of Operation

    FBKx –DSXx 32Ω 175Ω 8Ω COMx Figure 37. Simplified Block Diagram of a Single Channel of the AD604 Rev. E | Page 13 of 32 G (dB) = 20 (dB/V) × VGN (V) – 5 dB DISTRIBUTED G OUTx 20Ω...

  • Page 14: Preamplifier

    Figure 38 shows how the preamplifier is set to gains of 14 dB, 17.5 dB, and 20 dB. The gain range of a single channel of the AD604 is 0 dB to 48 dB when the preamplifier is set to 14 dB www.BDTIC.com/ADI (Figure 38a), 3.5 dB to 51.5 dB for a preamp gain of 17.5 dB...

  • Page 15: Differential Ladder (Attenuator)

    (25 Ω) source resistance. In applications that require more than 48 dB of gain range, two AD604 channels can be cascaded. Because the preamplifier has a limited input signal range and consumes over half (120 mW)

  • Page 16: Ac Coupling

    AD604 AC COUPLING The DSX portion of the AD604 is a single-supply circuit and, therefore, its inputs need to be ac-coupled to accommodate ground-based signals. External Capacitors C1 and C2 in Figure 37 level shift the ground referenced preamplifier output from ground to the dc value established by VOCM (nominal 2.5 V).

  • Page 17: Changes To Figure 51

    DSX; again, this is done for level shifting and to eliminate any dc offsets contributed by the DSX (see the AC Coupling section). Rev. E | Page 17 of 32 AD604...

  • Page 18: Changes To Applications Information Section

    APPLICATIONS INFORMATION The basic circuit in Figure 43 shows the connections for one channel of the AD604. The signal is applied at Pin 5. RGN is normally 0, in which case the preamplifier is set to a gain of 5 (14 dB).

  • Page 19: Changes To An Ultralow Noise Agc Amplifier With 82 Db To 96 Db Gain Range Section

    96 dB GAIN RANGE Figure 44 shows an implementation of an AGC amplifier with 82 dB of gain range using a single AD604. The signal is applied to connector VIN and, because the signal source is 50 Ω, a terminating resistor (R1) of 49.9 Ω is added. The signal is then...
  • Page 20 RF signal. The multiplier functions as the detector by squaring the output signal presented to it by the AD604. A low-pass filter following the squaring operation removes the RF signal component at twice the incoming signal frequency, while passing the low frequency AM information.

  • Page 21: Ultralow Noise, Differential Input-Differential Output Vga

    The differential gain range of this circuit runs from 6 dB to 54 dB, which is 6 dB higher than each individual channel of the AD604 because the DSX inputs now see twice the signal amplitude compared with when they are driven single-ended.

  • Page 22: Medical Ultrasound Tgc Driving The Ad9050, A 10-Bit, 40 Msps Adc

    MEDICAL ULTRASOUND TGC DRIVING THE AD9050, A 10-BIT, 40 MSPS ADC The AD604 is an ideal candidate for the time gain control (TGC) amplifier that is required in medical ultrasound systems to limit the dynamic range of the signal that is presented to the ADC.

  • Page 23: Changes To Figure 54

    EASURING BW WITH 50Ω SPECTRUM ANALYZER, USE 450Ω www.BDTIC.com/ADI HP11636B POWER SPLITTER 0.1µF VGN1 –DSX1 +DSX1 VREF 0.1µF PAO1 OUT1 500Ω FBK1 GND1 NOTE 3 AD604 0.1µF PAI1 VPOS 0.1µF COM1 VNEG COM2 VNEG 0.1µF PAI2 VPOS 0.1µF NOTE 3 GND2 FBK2 500Ω...

  • Page 24: Changes To Evaluation Board Model Name

    JP14 selects the positive input. Verify that there are no jumpers in JP15 or JP13. Because the VGA section of the AD604 uses a single 5 V supply, the DSX inputs are ac-coupled. Decoupling capacitors are provided on the evaluation board.

  • Page 25: Changes To Cascaded Dsx Section And Outputs Section

    Table 5 lists the jumpers and their functions. Table 4. Trimmer Functions Trimmer Function Gain of Channel 1 Reference voltage adjustment Output common-mode voltage adjustment Channel 2 gain adjustment Rev. E | Page 25 of 32 AD604...

  • Page 26: Changes To Figure 57 To Figure 60

    AD604 EVALUATION BOARD ARTWORK AND SCHEMATIC www.BDTIC.com/ADI Figure 57. Component Side Copper Figure 59. Internal Ground Plane Figure 58. Secondary Side Copper Figure 60. Internal Power Plane Rev. E | Page 26 of 32...

  • Page 27: Changes To Figure 61 And Table 6

    VOCM 1kΩ VGN2 1kΩ Manufacturer Components Corp. Components Corp. Components Corp. Components Corp. Nichicon Panasonic Panasonic Amphenol Berg Molex Bourns Panasonic Analog Devices, Inc. AD604 Part Number TP-104-01-02 TP-104-01-06 TP-104-01-00 TP-104-01-07 F931A106MAA PCC1840CT-ND ECU-V1H102KBN 901-143-6RFX 69157-2 22-11-2032 3361P-1-103G ERJ-6ENF49R9 AD604AR...

  • Page 28: Outline Dimensions

    AD604 OUTLINE DIMENSIONS 0.210 (5.33) 0.150 (3.81) 0.130 (3.30) 0.115 (2.92) 0.022 (0.56) 0.018 (0.46) 0.014 (0.36) CONTROLLING DIMENSIONS ARE IN INCHES; MILLIMETER DIMENSIONS (IN PARENTHESES) ARE ROUNDED-OFF INCH EQUIVALENTS FOR REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN.

  • Page 29: Changes To Ordering Guide

    AD604ARS −40°C to +85°C AD604ARS-REEL −40°C to +85°C AD604ARS-REEL7 −40°C to +85°C AD604ARSZ −40°C to +85°C AD604ARSZ-RL −40°C to +85°C AD604ARSZ-R7 −40°C to +85°C AD604-EVALZ Z = RoHS Compliant Part. 8.50 8.20 7.90 5.60 5.30 8.20 5.00 7.80 7.40 1.85 1.75...
  • Page 30 AD604 NOTES www.BDTIC.com/ADI Rev. E | Page 30 of 32...
  • Page 31 AD604 NOTES www.BDTIC.com/ADI Rev. E | Page 31 of 32...
  • Page 32 AD604 NOTES www.BDTIC.com/ADI ©1996–2008 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D00540-0-10/08(E) Rev. E | Page 32 of 32...

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