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AD8033ARZ

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AD8033ARZ

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Part Number AD8033ARZ
Manufacturer Analog Devices Inc.
Description IC OPAMP VFB 80MHZ RRO 8SOIC
Datasheet AD8033ARZ Datasheet
Package 8-SOIC (0.154", 3.90mm Width)
In Stock 2,012 piece(s)
Unit Price $ 3.2300 *
Lead Time Can Ship Immediately
Estimated Delivery Time Dec 2 - Dec 7 (Choose Expedited Shipping)
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Part Number # AD8033ARZ (Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps) is manufactured by Analog Devices Inc. and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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AD8033ARZ Specifications

ManufacturerAnalog Devices Inc.
CategoryIntegrated Circuits (ICs) - Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps
Datasheet AD8033ARZDatasheet
Package8-SOIC (0.154", 3.90mm Width)
SeriesFastFET?
Amplifier TypeVoltage Feedback
Number of Circuits1
Output TypeRail-to-Rail
Slew Rate80 V/µs
Gain Bandwidth Product-
-3db Bandwidth80MHz
Current - Input Bias1.5pA
Voltage - Input Offset1mV
Current - Supply3.3mA
Current - Output / Channel60mA
Voltage - Supply, Single/Dual (±)5 V ~ 24 V, ��2.5 V ~ 12 V
Operating Temperature-40°C ~ 85°C
Mounting TypeSurface Mount
Package / Case8-SOIC (0.154", 3.90mm Width)
Supplier Device Package8-SOIC

AD8033ARZ Datasheet

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Low Cost, 80 MHz FastFET Op Amps AD8033/AD8034 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 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. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 www.analog.com Fax: 781.461.3113 ©2002–2008 Analog Devices, Inc. All rights reserved. FEATURES FET input amplifier 1 pA typical input bias current Very low cost High speed 80 MHz, −3 dB bandwidth (G = +1) 80 V/μs slew rate (G = +2) Low noise 11 nV/√Hz (f = 100 kHz) 0.7 fA/√Hz (f = 100 kHz) Wide supply voltage range: 5 V to 24 V Low offset voltage: 1 mV typical Single-supply and rail-to-rail output High common-mode rejection ratio: −100 dB Low power: 3.3 mA/amplifier typical supply current No phase reversal Small packaging: 8-lead SOIC, 8-lead SOT-23, and 5-lead SC70 APPLICATIONS Instrumentation Filters Level shifting Buffering GENERAL DESCRIPTION The AD8033/AD8034 FastFET™ amplifiers are voltage feedback amplifiers with FET inputs, offering ease of use and excellent performance. The AD8033 is a single amplifier and the AD8034 is a dual amplifier. The AD8033/AD8034 FastFET op amps in Analog Devices, Inc., proprietary XFCB process offer significant performance improvements over other low cost FET amps, such as low noise (11 nV/√Hz and 0.7 fA/√Hz) and high speed (80 MHz bandwidth and 80 V/μs slew rate). With a wide supply voltage range from 5 V to 24 V and fully operational on a single supply, the AD8033/AD8034 amplifiers work in more applications than similarly priced FET input amplifiers. In addition, the AD8033/AD8034 have rail-to-rail outputs for added versatility. Despite their low cost, the amplifiers provide excellent overall performance. They offer a high common-mode rejection of −100 dB, low input offset voltage of 2 mV maximum, and low noise of 11 nV/√Hz. CONNECTION DIAGRAMS NC 1 –IN 2 +IN 3 –VS 4 NC8 +VS7 VOUT6 NC5 NC = NO CONNECT 02 9 24 -0 01 AD8033 VOUT 1 +IN 3 –VS 2 +VS5 –IN4 02 92 4- 00 2 AD8033 Figure 1. 8-Lead SOIC (R) Figure 2. 5-Lead SC70 (KS) VOUT1 1 –IN1 2 +IN1 3 –VS 4 +VS8 VOUT27 –IN26 +IN25 0 29 24 -0 03 AD8034 Figure 3. 8-Lead SOIC (R) and 8-Lead SOT-23 (RJ) 1000.1 1 FREQUENCY (MHz) 21 18 –9 15 12 9 6 3 0 –3 –6 24 G A IN ( d B ) G = +5 1000 G = +1 VOUT = 200mV p-p G = +10 G = +2 G = –1 02 92 4- 0 0410 Figure 4. Small Signal Frequency Response The AD8033/AD8034 amplifiers only draw 3.3 mA/amplifier of quiescent current while having the capability of delivering up to 40 mA of load current. The AD8033 is available in a small package 8-lead SOIC and a small package 5-lead SC70. The AD8034 is also available in a small package 8-lead SOIC and a small package 8-lead SOT-23. They are rated to work over the industrial temperature range of −40°C to +85°C without a premium over commercial grade products.

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AD8033/AD8034 Rev. D | Page 2 of 24 TABLE OF CONTENTS Features .............................................................................................. 1  Applications ....................................................................................... 1  General Description ......................................................................... 1  Connection Diagrams ...................................................................... 1  Revision History ............................................................................... 2  Specifications ..................................................................................... 3  Absolute Maximum Ratings ............................................................ 6  Maximum Power Dissipation ..................................................... 6  Output Short Circuit .................................................................... 6  ESD Caution .................................................................................. 6  Typical Performance Characteristics ............................................. 7  Test Circuits ..................................................................................... 14  Theory of Operation ...................................................................... 16  Output Stage Drive and Capacitive Load Drive ..................... 16  Input Overdrive .......................................................................... 16  Input Impedance ........................................................................ 16  Thermal Considerations ............................................................ 16  Layout, Grounding, and Bypassing Considerations .................. 18  Bypassing ..................................................................................... 18  Grounding ................................................................................... 18  Leakage Currents ........................................................................ 18  Input Capacitance ...................................................................... 18  Applications Information .............................................................. 19  High Speed Peak Detector ........................................................ 19  Active Filters ............................................................................... 20  Wideband Photodiode Preamp ................................................ 21  Outline Dimensions ....................................................................... 23  Ordering Guide .......................................................................... 24  REVISION HISTORY 9/08—Rev. C to Rev. D Deleted Usable Input Range Parameter, Table 1 ........................... 3 Deleted Usable Input Range Parameter, Table 2 ........................... 4 Deleted Usable Input Range Parameter, Table 3 ........................... 5 4/08—Rev. B to Rev. C Changes to Format ............................................................. Universal Changes to Features and General Description ............................. 1 Changes to Figure 13 Caption and Figure 14 Caption ................ 8 Changes to Figure 22 and Figure 23 ............................................... 9 Changes to Figure 25 and Figure 28 ............................................. 10 Changes to Input Capacitance Section ........................................ 18 Changes to Active Filters Section ................................................. 21 Changes to Outline Dimensions ................................................... 23 Changes to Ordering Guide .......................................................... 24 2/03—Rev. A to Rev. B Changes to Features .......................................................................... 1 Changes to Connection Diagrams ................................................. 1 Changes to Specifications ................................................................ 2 Changes to Absolute Maximum Ratings ....................................... 4 Replaced TPC 31............................................................................. 11 Changes to TPC 35 ......................................................................... 11 Changes to Test Circuit 3 ............................................................... 12 Updated Outline Dimensions ....................................................... 19 8/02—Rev. 0 to Rev. A Added AD8033 ................................................................... Universal VOUT = 2 V p-p Deleted from Default Conditions ......... Universal Added SOIC-8 (R) and SC70 (KS) .................................................. 1 Edits to General Description Section ............................................. 1 Changes to Specifications ................................................................. 2 New Figure 2 ...................................................................................... 5 Edits to Maximum Power Dissipation Section .............................. 5 Changes to Ordering Guide ............................................................. 5 Change to TPC 3 ............................................................................... 6 Change to TPC 6 ............................................................................... 6 Change to TPC 9 ............................................................................... 7 New TPC 16 ....................................................................................... 8 New TPC 17 ....................................................................................... 8 New TPC 31 .................................................................................... 11 New TPC 35 .................................................................................... 11 New Test Circuit 9 .......................................................................... 13 SC70 (KS) Package Added ............................................................ 19

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AD8033/AD8034 Rev. D | Page 3 of 24 SPECIFICATIONS TA = 25°C, VS = ±5 V, RL = 1 kΩ, gain = +2, unless otherwise noted. Table 1. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Bandwidth G = +1, VOUT = 0.2 V p-p 65 80 MHz G = +2, VOUT = 0.2 V p-p 30 MHz G = +2, VOUT = 2 V p-p 21 MHz Input Overdrive Recovery Time −6 V to +6 V input 135 ns Output Overdrive Recovery Time −3 V to +3 V input, G = +2 135 ns Slew Rate (25% to 75%) G = +2, VOUT = 4 V step 55 80 V/μs Settling Time to 0.1% G = +2, VOUT = 2 V step 95 ns G = +2, VOUT = 8 V step 225 ns NOISE/HARMONIC PERFORMANCE Distortion fC = 1 MHz, VOUT = 2 V p-p Second Harmonic RL = 500 Ω −82 dBc RL = 1 kΩ −85 dBc Third Harmonic RL = 500 Ω −70 dBc RL = 1 kΩ −81 dBc Crosstalk, Output-to-Output f = 1 MHz, G = +2 −86 dB Input Voltage Noise f = 100 kHz 11 nV/√Hz Input Current Noise f = 100 kHz 0.7 fA/√Hz DC PERFORMANCE Input Offset Voltage VCM = 0 V 1 2 mV TMIN − TMAX 3.5 mV Input Offset Voltage Match 2.5 mV Input Offset Voltage Drift 4 27 μV/°C Input Bias Current 1.5 11 pA TMIN − TMAX 50 pA Open-Loop Gain VOUT = ± 3 V 89 92 dB INPUT CHARACTERISTICS Common-Mode Input Impedance 1000||2.3 GΩ||pF Differential Input Impedance 1000||1.7 GΩ||pF Input Common-Mode Voltage Range FET Input Range −5.0 to +2.2 V Common-Mode Rejection Ratio VCM = −3 V to +1.5 V −89 −100 dB OUTPUT CHARACTERISTICS Output Voltage Swing ±4.75 ±4.95 V Output Short-Circuit Current 40 mA Capacitive Load Drive 30% overshoot, G = +1, VOUT = 400 mV p-p 35 pF POWER SUPPLY Operating Range 5 24 V Quiescent Current per Amplifier 3.3 3.5 mA Power Supply Rejection Ratio VS = ±2 V −90 −100 dB

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AD8033/AD8034 Rev. D | Page 4 of 24 TA = 25°C, VS = 5 V, RL = 1 kΩ, gain = +2, unless otherwise noted. Table 2. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Bandwidth G = +1, VOUT = 0.2 V p-p 70 80 MHz G = +2, VOUT = 0.2 V p-p 32 MHz G = +2, VOUT = 2 V p-p 21 MHz Input Overdrive Recovery Time −3 V to +3 V input 180 ns Output Overdrive Recovery Time −1.5 V to +1.5 V input, G = +2 200 ns Slew Rate (25% to 75%) G = +2, VOUT = 4 V step 55 70 V/μs Settling Time to 0.1% G = +2, VOUT = 2 V step 100 ns NOISE/HARMONIC PERFORMANCE Distortion fC = 1 MHz, VOUT = 2 V p-p Second Harmonic RL = 500 Ω −80 dBc RL = 1 kΩ −84 dBc Third Harmonic RL = 500 Ω −70 dBc RL = 1 kΩ −80 dBc Crosstalk, Output to Output f = 1 MHz, G = +2 −86 dB Input Voltage Noise f = 100 kHz 11 nV/√Hz Input Current Noise f = 100 kHz 0.7 fA/√Hz DC PERFORMANCE Input Offset Voltage VCM = 0 V 1 2 mV TMIN − TMAX 3.5 mV Input Offset Voltage Match 2.5 mV Input Offset Voltage Drift 4 30 μV/°C Input Bias Current 1 10 pA TMIN − TMAX 50 pA Open-Loop Gain VOUT = 0 V to 3 V 87 92 dB INPUT CHARACTERISTICS Common-Mode Input Impedance 1000||2.3 GΩ||pF Differential Input Impedance 1000||1.7 GΩ||pF Input Common-Mode Voltage Range FET Input Range 0 to 2.0 V Common-Mode Rejection Ratio VCM = 1.0 V to 2.5 V −80 −100 dB OUTPUT CHARACTERISTICS Output Voltage Swing RL = 1 kΩ 0.16 to 4.83 0.04 to 4.95 V Output Short-Circuit Current 30 mA Capacitive Load Drive 30% overshoot, G = +1, VOUT = 400 mV p-p 25 pF POWER SUPPLY Operating Range 5 24 V Quiescent Current per Amplifier 3.3 3.5 mA Power Supply Rejection Ratio VS = ±1 V −80 −100 dB

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AD8033/AD8034 Rev. D | Page 5 of 24 TA = 25°C, VS = ±12 V, RL = 1 kΩ, gain = +2, unless otherwise noted. Table 3. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Bandwidth G = +1, VOUT = 0.2 V p-p 65 80 MHz G = +2, VOUT = 0.2 V p-p 30 MHz G = +2, VOUT = 2 V p-p 21 MHz Input Overdrive Recovery Time −13 V to +13 V input 100 ns Output Overdrive Recovery Time −6.5 V to +6.5 V input, G = +2 100 ns Slew Rate (25% to 75%) G = +2, VOUT = 4 V step 55 80 V/μs Settling Time to 0.1% G = +2, VOUT = 2 V step 90 ns G = +2, VOUT = 10 V step 225 ns NOISE/HARMONIC PERFORMANCE Distortion fC = 1 MHz, VOUT = 2 V p-p Second Harmonic RL = 500 Ω −80 dBc RL = 1 kΩ −82 dBc Third Harmonic RL = 500 Ω −70 dBc RL = 1 kΩ −82 dBc Crosstalk, Output to Output f = 1 MHz, G = +2 −86 dB Input Voltage Noise f = 100 kHz 11 nV/√Hz Input Current Noise f = 100 kHz 0.7 fA/√Hz DC PERFORMANCE Input Offset Voltage VCM = 0 V 1 2 mV TMIN − TMAX 3.5 mV Input Offset Voltage Match 2.5 mV Input Offset Voltage Drift 4 24 μV/°C Input Bias Current 2 12 pA TMIN − TMAX 50 pA Open-Loop Gain VOUT = ±8 V 88 96 dB INPUT CHARACTERISTICS Common-Mode Input Impedance 1000||2.3 GΩ||pF Differential Input Impedance 1000||1.7 GΩ||pF Input Common-Mode Voltage Range FET Input Range −12.0 to +9.0 V Common-Mode Rejection Ratio VCM = ±5 V −92 −100 dB OUTPUT CHARACTERISTICS Output Voltage Swing ±11.52 ±11.84 V Output Short-Circuit Current 60 mA Capacitive Load Drive 30% overshoot, G = +1 35 pF POWER SUPPLY Operating Range 5 24 V Quiescent Current per Amplifier 3.3 3.5 mA Power Supply Rejection Ratio VS = ±2 V −85 −100 dB

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AD8033/AD8034 Rev. D | Page 6 of 24 ABSOLUTE MAXIMUM RATINGS Table 4. Parameter Rating Supply Voltage 26.4 V Power Dissipation See Figure 5 If the rms signal levels are indeterminate, consider the worst case, when VOUT = VS/4 for RL to midsupply PD = (VS × IS) + (VS/4)2/RL In single-supply operation with RL referenced to VS−, worst case is VOUT = VS/2. Common-Mode Input Voltage 26.4 V Differential Input Voltage 1.4 V Storage Temperature Range −65°C to +125°C Operating Temperature Range −40°C to +85°C Lead Temperature (Soldering 10 sec) 300°C AMBIENT TEMPERATURE (°C) –60 –20–40 10060 80 2.0 1.5 M A X IM U M P O W E R D IS S IP A T IO N ( W ) 1.0 0.5 0 SOIC-8SOT-23-8 SC70-5 400 20 0 29 24 -0 0 5 Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. MAXIMUM POWER DISSIPATION The maximum safe power dissipation in the AD8033/AD8034 packages is limited by the associated rise in junction temperature (TJ) on the die. The plastic that encapsulates the die locally reaches the junction temperature. At approximately 150°C, which is the glass transition temperature, the plastic changes its properties. Even temporarily exceeding this temperature limit can change the stresses that the package exerts on the die, permanently shifting the parametric performance of the AD8033/ AD8034. Exceeding a junction temperature of 175°C for an extended period can result in changes in silicon devices, potentially causing failure. Figure 5. Maximum Power Dissipation vs. Ambient Temperature for a 4-Layer Board Airflow increases heat dissipation, effectively reducing θJA. In addition, more metal directly in contact with the package leads from metal traces, through holes, ground, and power planes reduces the θJA. Care must be taken to minimize parasitic capacitances at the input leads of high speed op amps as discussed in the Layout, Grounding, and Bypassing Considerations section. Figure 5 shows the maximum power dissipation in the package vs. the ambient temperature for the 8-lead SOIC (125°C/W), 5-lead SC70 (210°C/W), and 8-lead SOT-23 (160°C/W) packages on a JEDEC standard 4-layer board. θJA values are approximations. The still-air thermal properties of the package and PCB (θJA), ambient temperature (TA), and the total power dissipated in the package (PD) determine the junction temperature of the die. The junction temperature can be calculated as OUTPUT SHORT CIRCUIT Shorting the output to ground or drawing excessive current for the AD8033/AD8034 will likely cause catastrophic failure. TJ = TA + (PD × θJA) PD is the sum of the quiescent power dissipation and the power dissipated in the package due to the load drive for all outputs. The quiescent power is the voltage between the supply pins (VS) times the quiescent current (IS). Assuming the load (RL) is referenced to midsupply, the total drive power is VS/2 × IOUT, some of which is dissipated in the package and some in the load (VOUT × IOUT). The difference between the total drive power and the load power is the drive power dissipated in the package ESD CAUTION PD = Quiescent Power + (Total Drive Power − Load Power) PD = [VS × IS] + [(VS/2) × (VOUT/RL)] − [VOUT2/RL] RMS output voltages should be considered. If RL is referenced to −VS, as in single-supply operation, the total drive power is VS × IOUT.

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AD8033/AD8034 Rev. D | Page 7 of 24 TYPICAL PERFORMANCE CHARACTERISTICS Default conditions: VS = ±5 V, CL = 5 pF, RL = 1 kΩ, TA = 25°C. 1000.1 1 FREQUENCY (MHz) 21 18 –9 15 12 9 6 3 0 –3 –6 24 G A IN ( d B ) G = +5 1000 G = +1 VOUT = 200mV p-p G = +10 G = +2 G = –1 10 02 92 4- 0 06 Figure 6. Small Signal Frequency Response for Various Gains FREQUENCY (MHz) –6 1 0 –1 –2 –3 –4 –5 VS = +5V G = +1 VOUT = 200mV p-p G A IN ( d B ) VS = ±12V VS = ±5V 1000.1 1 10 02 92 4- 00 7 Figure 7. Small Signal Frequency Response for Various Supplies (See Figure 44) FREQUENCY (MHz) 2 1 –6 1000.1 1 G A IN ( d B ) 10 0 –1 –5 –2 –3 –4 G = +1 VOUT = 2V p-p VS = ±12V VS = ±5V VS = +5V 02 92 4- 0 08 Figure 8. Large Signal Frequency Response for Various Supplies (See Figure 44) FREQUENCY (MHz) 1000.1 1 10 8 7 0 6 5 1 4 3 2 G A IN ( d B ) VOUT = 1V p-p VOUT = 4V p-p VOUT = 2V p-p VOUT = 0.2V p-p G = +2 02 92 4- 0 09 Figure 9. Frequency Response for Various Output Amplitudes (See Figure 45) 1000.1 1 10 FREQUENCY (MHz) 8 7 0 6 5 1 4 3 2 G A IN ( d B ) VS = +5V VS = ±12V VS = ±5V G = +2 VOUT = 200mV p-p 02 92 4- 01 0 Figure 10. Small Signal Frequency Response for Various Supplies (See Figure 45) 1000.1 1 10 FREQUENCY (MHz) 7 G A IN ( d B ) 6 5 1 4 3 2 0 G = +2 VOUT = 2V p-p VS = ±12V VS = ±5V VS = +5V 0 29 2 4- 0 11 Figure 11. Large Signal Frequency Response for Various Supplies (See Figure 45)

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AD8033/AD8034 Rev. D | Page 8 of 24 FREQUENCY (MHz) 1000.1 1 10 8 6 4 –4 2 0 –2 –6 G A IN ( d B ) CL = 100pF CL = 100pF RSNUB = 25Ω CL = 33pF CL = 2pF VOUT = 200mV p-p G = +1 02 92 4- 0 12 Figure 12. Small Signal Frequency Response for Various CL (See Figure 44) 1000.1 1 10 9 8 0 7 6 2 5 4 3 1 G A IN ( d B ) FREQUENCY (MHz) CF = 0pF CF = 1pF CF = 1.5pF CF = 2pF VOUT = 200mV p-p RF = 3kΩ G = +2 0 29 24 -0 13 Figure 13. Small Signal Frequency Response for Various CF (See Figure 45) FREQUENCY (Hz) 0.1 IM P E D A N C E ( Ω ) 100 10 1 G = +2 G = +1 VOUT = 200mV p-p 0.01 100 1k 10k 100k 1M 10M 100M 0 29 24 -0 1 4 Figure 14. Output Impedance vs. Frequency (See Figure 47) 1000.1 1 10 FREQUENCY (MHz) G A IN ( d B ) 10 9 0 8 7 6 5 4 3 2 1 CL = 100pF CL = 51pF CL = 33pF CL = 2pF VOUT = 200mV p-p G = +2 0 29 24 -0 1 5 Figure 15. Small Signal Frequency Response for Various CL (See Figure 45) FREQUENCY (MHz) 1000.1 1 10 8 7 0 G A IN ( d B ) 6 5 1 4 3 2 RL = 500Ω RL = 1kΩ VOUT = 200mV p-p G = +2 0 29 24 -0 16 Figure 16. Small Signal Frequency Response for Various RL (See Figure 45) FREQUENCY (Hz) 100 1k 10k 100k 1M 10M 100M 100 80 –20 G A IN ( d B ) 40 20 0 60 180 150 0 P H A S E ( D eg re es ) 90 60 30 120 GAIN PHASE VS = ±12V 02 92 4- 0 17 Figure 17. Open-Loop Response

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AD8033/AD8034 Rev. D | Page 9 of 24 FREQUENCY (MHz) –40 –50 –120 510.1 D IS T O R T IO N ( d B c) –60 –70 –110 –80 –90 –100 G = +2 HD2 RL = 500Ω HD2 RL = 1kΩ HD3 RL = 1kΩ HD3 RL = 500Ω 0 29 24 -0 1 8 Figure 18. Harmonic Distortion vs. Frequency for Various Loads (See Figure 45) FREQUENCY (MHz) –40 –50 –120 50.1 1 D IS T O R T IO N ( d B c) –60 –70 –110 –80 –90 –100 G = +2 HD3 VS = 24V HD2 VS = 24V HD2 VS = 5V HD3 VS = 5V 02 92 4- 0 19 Figure 19. Harmonic Distortion vs. Frequency for Various Supply Voltages (See Figure 45) FREQUENCY (Hz) 1000 10 M0110 100 1k 10k 100k 1M 100M N O IS E ( n V /√ H z) 100 02 92 4- 0 20 Figure 20. Voltage Noise vs. Frequency FREQUENCY (MHz) –40 –50 –120 50.1 1 D IS T O R T IO N ( d B c) –60 –70 –110 –80 –90 –100 HD3 G = +2 HD2 G = +1 HD3 G = +1 HD2 G = +2 0 29 24 -0 2 1 Figure 21. Harmonic Distortion vs. Frequency for Various Gains FREQUENCY (MHz) –40 –50 –120 50.1 1 D IS T O R T IO N ( d B c) –60 –70 –110 –80 –90 –100 HD3 VOUT = 20V p-p HD2 VOUT = 20V p-pHD3 VOUT = 10V p-p HD2 VOUT = 10V p-p HD3 VOUT = 2V p-p HD2 VOUT = 2V p-p –30 –20 02 92 4- 0 22 G = +2 Figure 22. Harmonic Distortion vs. Frequency for Various Amplitudes (See Figure 45), VS = 24 V CAPACITIVE LOAD (pF) 80 0 P E R C E N T O V E R S H O O T ( % ) 70 40 30 20 10 60 50 10 30 50 70 90 110 VS = +5V POSITIVE SIDE VS = ±5V POSITIVE SIDE VS = ±5V NEGATIVE SIDE VS = +5V NEGATIVE SIDE 0 29 24 -0 2 3 G = +1 Figure 23. Percent Overshoot vs. Capacitive Load (See Figure 44)

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Kelv*****rancis

November 22, 2020

I have always get a fast response from Heisener with my orders. As a small business owner I greatly appreciate that I can order as little as 1 item as opposed to other companies who require you place a larger minimum order.

Grac*****allace

November 21, 2020

A well designed product that fit my custom PCB's perfectly. Easy to use. Sturdy construction. Highly recommend to all PCB builders.

Lill*****Ware

November 20, 2020

This was a perfect replacement for the original mode. 5 minutes and it was up and running like new.

Ada*****rris

November 11, 2020

So easy to do business with Heisener and they generally have stock on the items we need.

Lis*****inhas

November 11, 2020

Sure appreciate your service high standard, expertise and skills. Thanks Much!!!

Walt*****wens

November 9, 2020

Sure appreciate your quality, expertise and professional service. Thank you so much!!!

Law***** Sani

November 9, 2020

EXACTLY what I was looking for -- one piece with a low forward voltage drop to isolate some DC power sources. They work fantastic!

Camr*****alton

November 3, 2020

Excellent sales and service. Thank you. Buy with confidence.

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