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AD8091ARZ-REEL7

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AD8091ARZ-REEL7

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Part Number AD8091ARZ-REEL7
Manufacturer Analog Devices Inc.
Description IC OPAMP VFB 110MHZ RRO 8SOIC
Datasheet AD8091ARZ-REEL7 Datasheet
Package 8-SOIC (0.154", 3.90mm Width)
In Stock 417 piece(s)
Unit Price $ 1.0295 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jul 14 - Jul 19 (Choose Expedited Shipping)
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Part Number # AD8091ARZ-REEL7 (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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AD8091ARZ-REEL7 Specifications

ManufacturerAnalog Devices Inc.
CategoryIntegrated Circuits (ICs) - Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps
Datasheet AD8091ARZ-REEL7Datasheet
Package8-SOIC (0.154", 3.90mm Width)
Series-
Amplifier TypeVoltage Feedback
Number of Circuits1
Output TypeRail-to-Rail
Slew Rate170 V/µs
Gain Bandwidth Product-
-3db Bandwidth110MHz
Current - Input Bias1.4µA
Voltage - Input Offset1.8mV
Current - Supply4.8mA
Current - Output / Channel45mA
Voltage - Supply, Single/Dual (±)3 V ~ 12 V, ��1.5 V ~ 6 V
Operating Temperature-40°C ~ 85°C
Mounting TypeSurface Mount
Package / Case8-SOIC (0.154", 3.90mm Width)
Supplier Device Package8-SOIC

AD8091ARZ-REEL7 Datasheet

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Low Cost, High Speed Rail-to-Rail Amplifiers AD8091/AD8092 Rev. C 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 ©2002–2007 Analog Devices, Inc. All rights reserved. FEATURES Low cost single (AD8091) and dual (AD8092) amplifiers Fully specified at +3 V, +5 V, and ±5 V supplies Single-supply operation Output swings to within 25 mV of either rail High speed and fast settling on 5 V 110 MHz, −3 dB bandwidth (G = +1) 145 V/μs slew rate 50 ns settling time to 0.1% Good video specifications (G = +2) Gain flatness of 0.1 dB to 20 MHz; RL = 150 Ω 0.03% differential gain error; RL = 1 kΩ 0.03%differential phase error; RL = 1 kΩ Low distortion −80 dBc total harmonic @ 1 MHz; RL = 100 Ω Outstanding load drive capability Drives 45 mA, 0.5 V from supply rails Drives 50 pF capacitive load (G = +1) Low power of 4.4 mA per amplifier APPLICATIONS Coaxial cable drivers Active filters Video switchers Professional cameras CCD imaging systems CDs/DVDs Clock buffers CONNECTION DIAGRAMS 0 28 59 -0 0 1 NC = NO CONNECT AD8091NC 1 –IN 2 +IN 3 –VS 4 NC +VS VOUT NC 8 7 6 5 Figure 1. SOIC-8 (R-8) 0 28 59 -0 03 AD8091 VOUT 1 –VS 2 +IN 3 +VS5 –IN4 Figure 2. SOT23-5 (RJ-5) 0 28 59 -0 02 NC = NO CONNECT AD8092 OUT1 1 –IN1 2 +IN1 3 –VS 4 +VS OUT –IN2 +IN2 8 7 6 5 Figure 3. MSOP-8 and SOIC-8 (RM-8, R-8) GENERAL DESCRIPTION The AD8091 (single) and AD8092 (dual) are low cost, voltage feedback, high speed amplifiers designed to operate on +3 V, +5 V, or ±5 V supplies. The AD8091/AD8092 have true single- supply capability, with an input voltage range extending 200 mV below the negative rail and within 1 V of the positive rail. Despite their low cost, the AD8091/AD8092 provide excellent overall performance and versatility. The output voltage swing extends to within 25 mV of each rail, providing the maximum output dynamic range with excellent overdrive recovery. This makes the AD8091/AD8092 useful for video electronics, such as cameras, video switchers, or any high speed portable equip- ment. Low distortion and fast settling make them ideal for active filter applications. The AD8091/AD8092 offer a low power supply current and can operate on a single 3 V power supply. These features are ideally suited for portable and battery-powered applications where size and power are critical. The wide bandwidth and fast slew rate make these amplifiers useful in many general-purpose, high speed applications where dual power supplies of up to ±6 V and single supplies from +3 V to +12 V are needed. This low cost performance is offered in an 8-lead SOIC (AD8091/AD8092), a tiny SOT23-5 (AD8091), and an MSOP (AD8092).

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AD8091/AD8092 Rev. C | Page 2 of 20 TABLE OF CONTENTS Features .............................................................................................. 1 Applications....................................................................................... 1 Connection Diagrams...................................................................... 1 General Description ......................................................................... 1 Revision History ............................................................................... 2 Specifications..................................................................................... 3 Absolute Maximum Ratings............................................................ 6 ESD Caution.................................................................................. 6 Maximum Power Dissipation ..................................................... 7 Typical Performance Characteristics ............................................. 8 Layout, Grounding, and Bypassing Considerations .................. 12 Power Supply Bypassing ............................................................ 12 Grounding ................................................................................... 12 Input Capacitance ...................................................................... 12 Input-to-Output Coupling ........................................................ 12 Driving Capacitive Loads .............................................................. 13 Overdrive Recovery ................................................................... 13 Active Filters ............................................................................... 13 Sync Stripper ............................................................................... 14 Single-Supply Composite Video Line Driver ......................... 14 Outline Dimensions ....................................................................... 16 Ordering Guide .......................................................................... 17 REVISION HISTORY 9/07—Rev. B to Rev. C Changes to Applications Section .................................................... 1 Updated Outline Dimensions ....................................................... 16 Changes to Ordering Guide .......................................................... 17 3/05—Rev. A to Rev. B Changes to Format .............................................................Universal Changes to Features.......................................................................... 1 Updated Outline Dimensions ....................................................... 17 Changes to Ordering Guide .......................................................... 18 5/02–Rev. 0 to Rev. A Edits to Product Description .......................................................... 1 Edit to TPC 6 .................................................................................... 7 Edits to TPCs 21–24....................................................................... 10 Edits to Figure 3 .............................................................................. 11 2/02—Revision 0: Initial Version

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AD8091/AD8092 Rev. C | Page 3 of 20 SPECIFICATIONS TA = 25°C, VS = 5 V, RL = 2 kΩ to 2.5 V, unless otherwise noted. Table 1. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Small Signal Bandwidth G = +1, VO = 0.2 V p-p 70 110 MHz G = −1, +2, VO = 0.2 V p-p 50 MHz Bandwidth for 0.1 dB Flatness G = +2, VO = 0.2 V p-p, RL = 150 Ω to 2.5 V, RF = 806 Ω 20 MHz Slew Rate G = −1, VO = 2 V step 100 145 V/μs Full Power Response G = +1, VO = 2 V p-p 35 MHz Settling Time to 0.1% G = −1, VO = 2 V step 50 ns NOISE/DISTORTION PERFORMANCE Total Harmonic Distortion (See Figure 11) fC = 5 MHz, VO = 2 V p-p, G = +2 −67 dB Input Voltage Noise f = 10 kHz 16 nV/√Hz Input Current Noise f = 10 kHz 850 fA/√Hz Differential Gain Error (NTSC) G = +2, RL = 150 Ω to 2.5 V 0.09 % RL = 1 kΩ to 2.5 V 0.03 % Differential Phase Error (NTSC) G = +2, RL = 150 Ω to 2.5 V 0.19 Degrees RL = 1 kΩ to 2.5 V 0.03 Degrees Crosstalk f = 5 MHz, G = +2 −60 dB DC PERFORMANCE Input Offset Voltage 1.7 10 mV TMIN to TMAX 25 mV Offset Drift 10 μV/°C Input Bias Current 1.4 2.5 μA TMIN to TMAX 3.25 μA Input Offset Current 0.1 0.75 μA Open-Loop Gain RL = 2 kΩ to 2.5 V 86 98 dB TMIN to TMAX 96 dB RL = 150 Ω to 2.5 V 76 82 dB TMIN to TMAX 78 dB INPUT CHARACTERISTICS Input Resistance 290 kΩ Input Capacitance 1.4 pF Input Common-Mode Voltage Range −0.2 to +4 V Common-Mode Rejection Ratio VCM = 0 V to 3.5 V 72 88 dB OUTPUT CHARACTERISTICS Output Voltage Swing RL = 10 kΩ to 2.5 V 0.015 to 4.985 V RL = 2 kΩ to 2.5 V 0.100 to 4.900 0.025 to 4.975 V RL = 150 Ω to 2.5 V 0.300 to 4.625 0.200 to 4.800 V Output Current VOUT = 0.5 V to 4.5 V 45 mA TMIN to TMAX 45 mA Short-Circuit Current Sourcing 80 mA Sinking 130 mA Capacitive Load Drive G = +1 50 pF POWER SUPPLY Operating Range 3 12 V Quiescent Current/Amplifier 4.4 5 mA Power Supply Rejection Ratio ΔVS = ±1 V 70 80 dB OPERATING TEMPERATURE RANGE −40 +85 °C

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AD8091/AD8092 Rev. C | Page 4 of 20 TA = 25°C, VS = +3 V, RL = 2 kΩ to +1.5 V, unless otherwise noted. Table 2. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Small Signal Bandwidth G = +1, VO = 0.2 V p-p 70 110 MHz G = −1, +2, VO = 0.2 V p-p 50 MHz Bandwidth for 0.1 dB Flatness G = +2, VO = 0.2 V p-p, RL = 150 Ω to 2.5 V, RF = 402 Ω 17 MHz Slew Rate G = −1, VO = 2 V step 90 135 V/μs Full Power Response G = +1, VO = 1 V p-p 65 MHz Settling Time to 0.1% G = −1, VO = 2 V step 55 ns NOISE/DISTORTION PERFORMANCE Total Harmonic Distortion (see Figure 11) fC = 5 MHz, VO = 2 V p-p, G = −1, RL = 100 Ω to 1.5 V −47 dB Input Voltage Noise f = 10 kHz 16 nV/√Hz Input Current Noise f = 10 kHz 600 fA/√Hz Differential Gain Error (NTSC) G = +2, VCM = 1 V RL = 150 Ω to 1.5 V 0.11 % RL = 1 kΩ to 1.5 V 0.09 % Differential Phase Error (NTSC) G = +2, VCM = 1 V RL = 150 Ω to 1.5 V 0.24 Degrees RL = 1 kΩ to 1.5 V 0.10 Degrees Crosstalk f = 5 MHz, G = +2 −60 dB DC PERFORMANCE Input Offset Voltage 1.6 10 mV TMIN to TMAX 25 mV Offset Drift 10 μV/°C Input Bias Current 1.3 2.6 μA TMIN to TMAX 3.25 μA Input Offset Current 0.15 0.8 μA Open-Loop Gain RL = 2 kΩ 80 96 dB TMIN to TMAX 94 dB RL = 150 Ω 74 82 dB TMIN to TMAX 76 dB INPUT CHARACTERISTICS Input Resistance 290 kΩ Input Capacitance 1.4 pF Input Common-Mode Voltage Range −0.2 to +2.0 V Common-Mode Rejection Ratio VCM = 0 V to 1.5 V 72 88 dB OUTPUT CHARACTERISTICS Output Voltage Swing RL = 10 kΩ to 1.5 V 0.01 to 2.99 V RL = 2 kΩ to 1.5 V 0.075 to 2.9 0.02 to 2.98 V RL = 150 Ω to 1.5 V 0.20 to 2.75 0.125 to 2.875 V Output Current VOUT = 0.5 V to 2.5 V 45 mA TMIN to TMAX 45 mA Short Circuit Current Sourcing 60 mA Sinking 90 mA Capacitive Load Drive G = +1 45 pF POWER SUPPLY Operating Range 3 12 V Quiescent Current/Amplifier 4.2 4.8 mA Power Supply Rejection Ratio ΔVS = +0.5 V 68 80 dB OPERATING TEMPERATURE RANGE −40 +85 °C

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AD8091/AD8092 Rev. C | Page 5 of 20 TA = 25°C, VS = ±5 V, RL = 2 kΩ to ground, unless otherwise noted. Table 3. Parameter Conditions Min Typ Max Unit DYNAMIC PERFORMANCE −3 dB Small Signal Bandwidth G = +1, VO = 0.2 V p-p 70 110 MHz G = −1, +2, VO = 0.2 V p-p 50 MHz Bandwidth for 0.1 dB Flatness G = +2, VO = 0.2 V p-p, RL = 150 Ω, RF = 1.1 kΩ 20 MHz Slew Rate G = −1, VO = 2 V step 105 170 V/μs Full Power Response G = +1, VO = 2 V p-p 40 MHz Settling Time to 0.1% G = −1, VO = 2 V step 50 ns NOISE/DISTORTION PERFORMANCE Total Harmonic Distortion (see Figure 11) fC = 5 MHz, VO = 2 V p-p, G = +2 −71 dB Input Voltage Noise f = 10 kHz 16 nV/√Hz Input Current Noise f = 10 kHz 900 fA/√Hz Differential Gain Error (NTSC) G = +2, RL = 150 Ω 0.02 % RL = 1 kΩ 0.02 % Differential Phase Error (NTSC) G = +2, RL = 150 Ω 0.11 Degrees RL = 1 kΩ 0.02 Degrees Crosstalk f = 5 MHz, G = +2 −60 dB DC PERFORMANCE Input Offset Voltage 1.8 11 mV TMIN to TMAX 27 mV Offset Drift 10 μV/°C Input Bias Current 1.4 2.6 μA TMIN to TMAX 3.5 μA Input Offset Current 0.1 0.75 μA Open-Loop Gain RL = 2 kΩ 88 96 dB TMIN to TMAX 96 dB RL = 150 Ω 78 82 dB TMIN to TMAX 80 dB INPUT CHARACTERISTICS Input Resistance 290 kΩ Input Capacitance 1.4 pF Input Common-Mode Voltage Range −5.2 to +4.0 V Common-Mode Rejection Ratio VCM = −5 V to +3.5 V 72 88 dB OUTPUT CHARACTERISTICS Output Voltage Swing RL = 10 kΩ −4.98 to +4.98 V RL = 2 kΩ −4.85 to +4.85 −4.97 to +4.97 V RL = 150 Ω −4.45 to +4.30 −4.60 to +4.60 V Output Current VOUT = −4.5 V to +4.5 V 45 mA TMIN to TMAX 45 mA Short Circuit Current Sourcing 100 mA Sinking 160 mA Capacitive Load Drive G = +1 (AD8091/AD8092) 50 pF POWER SUPPLY Operating Range 3 12 V Quiescent Current/Amplifier 4.8 5.5 mA Power Supply Rejection Ratio ΔVS = ±1 V 68 80 dB OPERATING TEMPERATURE RANGE −40 +85 °C

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AD8091/AD8092 Rev. C | Page 6 of 20 ABSOLUTE MAXIMUM RATINGS Table 4. Parameter Rating Supply Voltage 12.6 V Power Dissipation See Figure 4 Common-Mode Input Voltage ±VS Differential Input Voltage ±2.5 V Output Short-Circuit Duration See Figure 4 Storage Temperature Range −65°C to +125°C Operating Temperature Range −40°C to +85°C Lead Temperature (Soldering 10 sec) 300°C 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. ESD CAUTION

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AD8091/AD8092 Rev. C | Page 7 of 20 MAXIMUM POWER DISSIPATION The maximum safe power dissipation in the AD8091/AD8092 package is limited by the associated rise in junction temperature (TJ) on the die. The plastic encapsulating 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 may change the stresses that the package exerts on the die, permanently shifting the parametric performance of the AD8091/AD8092. Exceeding a junction temperature of 175°C for an extended period of time can result in changes in the silicon devices, potentially causing failure. The still-air thermal properties of the package (θJA), the ambient temperature (TA), and the total power dissipated in the package (PD) can be used to determine the junction temperature of the die. The junction temperature can be calculated as ( )JADAJ θPTT ×+= The power dissipated in the package (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 that the load (RL) is referenced to midsupply, then 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. ( )powerloadpowerdrivetotalpowerquiescentPD −+= ( ) ⎟ ⎟ ⎠ ⎞ ⎜ ⎜ ⎝ ⎛ ⎟ ⎟ ⎠ ⎞ ⎜ ⎜ ⎝ ⎛ −⎟⎟ ⎠ ⎞ ⎜⎜ ⎝ ⎛ ×+×= L OUT L OUTS SSD R V R VV IVP 2 2 RMS output voltages should be considered. If RL is referenced to −VS, as in single-supply operation, then the total drive power is VS × IOUT. If the rms signal levels are indeterminate, then consider the worst case when VOUT = VS/4 for RL to midsupply ( ) 2 4 L S SSD R V IVP ⎟ ⎠ ⎞ ⎜ ⎝ ⎛ +×= In single-supply operation with RL referenced to −VS, the worst case is VOUT = VS/2. Airflow increases heat dissipation, effectively reducing θJA. Also, 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 Input Capacitance section. Figure 4 shows the maximum safe power dissipation in the package vs. the ambient temperature for the SOIC-8 (125°C/W), SOT23-5 (180°C/W), and MSOP-8 (150°C/W) on a JEDEC standard four-layer board. 2.0 0 0.5 1.0 1.5 –40 –30 –20 –10 0 10 20 30 40 50 60 70 80 90 0 28 59 -0 04 AMBIENT TEMPERATURE (°C) M A X IM U M P O W E R D IS S IP A T IO N ( W ) TJ = 150°C MSOP-8 SOIC-8 SOT23-5 Figure 4. Maximum Power Dissipation vs. Temperature for a Four-Layer Board

Page 9

AD8091/AD8092 Rev. C | Page 8 of 20 TYPICAL PERFORMANCE CHARACTERISTICS 3 –7 –6 –5 –4 –3 –2 –1 0 1 2 0.1 1 10 100 500 0 28 59 -0 05 FREQUENCY (MHz) N O R M A L IZ E D G A IN ( d B ) VS = 5V GAIN AS SHOWN RF AS SHOWN RL = 2kΩ VO = 0.2V p-p G = +1 RF = 0Ω G = +5 RF = 2kΩ G = +2 RF = 2kΩ G = +10 RF = 2kΩ Figure 5. Normalized Gain vs. Frequency; VS = +5 V 3 –7 –6 –5 –4 –3 –2 –1 0 1 2 0.1 1 10 100 500 0 28 59 -0 06 FREQUENCY (MHz) G A IN ( d B ) VS AS SHOWN G = +1 RL = 2kΩ VO = 0.2V p-p VS = +3V VS = +5V VS = ±5V Figure 6. Gain vs. Frequency vs. Supply 3 –7 –6 –5 –4 –3 –2 –1 0 1 2 0.1 1 10 100 500 0 28 59 -0 07 FREQUENCY (MHz) G A IN ( d B ) VS = 5V G = +1 RL = 2kΩ VO = 0.2V p-p TEMPERATURE AS SHOWN –40°C +85°C +25°C Figure 7. Gain vs. Frequency vs. Temperature 6.3 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 6.1 6.2 0.1 1 10 100 0 28 59 -0 08 FREQUENCY (MHz) G A IN F L A T N E S S ( d B ) VS = 5V G = +2 RL = 150kΩ RF = 806Ω VO = 0.2V p-p Figure 8. 0.1 dB Gain Flatness vs. Frequency; G = +2 9 –1 0 1 2 3 4 5 6 7 8 0.1 1 10 100 500 0 28 59 -0 09 FREQUENCY (MHz) G A IN ( d B ) VS AS SHOWN G = +2 RL = 2kΩ RF = 2kΩ VO AS SHOWN VS = +5V VO = 2V p-p VS = ±5V VO = 4V p-p Figure 9. Large Signal Frequency Response; G = +2 70 –20 –10 0 10 –180 –135 –90 –45 0 20 30 40 50 60 0.1 1 10 100 500 0 28 59 -0 10 FREQUENCY (MHz) O P E N -L O O P G A IN ( d B ) P H A S E ( D eg re es ) PHASE GAIN 50° PHASE MARGIN VS = 5V RL = 2kΩ Figure 10. Open-Loop Gain and Phase vs. Frequency

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AD8091/AD8092 Rev. C | Page 9 of 20 –20 –110 –100 –90 –80 –70 –60 –50 –40 –30 1 10 0.10 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 –0.06 0.10 0.05 0 –0.05 –0.10 –0.15 –0.20 –0.25 –0.04 –0.02 0 0.02 0.04 0.06 0.08 0 28 59 -0 14 MODULATING RAMP LEVEL (IRE) D IF F E R E N T IA L G A IN E R R O R ( % ) D IF F E R E N T IA L P H A S E E R R O R ( D eg re es ) 98765432 0 28 59 -0 11 FUNDAMENTAL FREQUENCY (MHz) T O TA L H A R M O N IC D IS T O R T IO N ( d B c) VO = 2V p-p VS = 3V, G = –1 RF = 2kΩ, RL = 100Ω VS = 5V, G = +2 RF = 2kΩ, RL = 100Ω VS = 5V, G = +1 RL = 100Ω VS = 5V, G = +2 RF = 2kΩ, RL = 2kΩ VS = 5V, G = +1 RL = 2kΩ Figure 11. Total Harmonic Distortion –30 –130 –120 –110 –100 –90 –80 –70 –60 –50 –40 0 5.04.54.03.53.02.52.01.51.00.5 0 28 59 -0 12 OUTPUT VOLTAGE (V p-p) W O R S T H A R M O N IC ( d B c) VS = 5V RL = 2kΩ G = +2 10MHz 5MHz 1MHz Figure 12. Worst Harmonic vs. Output Voltage 5.0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 0.1 50101 0 28 59 -0 13 FREQUENCY (MHz) O U T P U T V O LT A G E S W IN G ( T H D £ 0. 5% ) (V p -p ) VS = 5V G = –1 RF = 2kΩ RL = 2kΩ Figure 13. Low Distortion Rail-to-Rail Output Swing NTSC SUBSCRIBER (3.58MHz) RL = 150Ω RL = 1kΩ RL = 1kΩ RL = 150Ω VS = 5, G = +2 RF = 2kΩ, RL AS SHOWN VS = 5, G = +2 RF = 2kΩ, RL AS SHOWN 1000 1 10 100 10 10M1M100k10k1k100 0 28 59 -0 15 FREQUENCY (Hz) V O LT A G E N O IS E ( n A H z) Figure 14. Differential Gain and Phase Errors VS = 5V Figure 15. Input Voltage Noise vs. Frequency 100 0.1 1 10 10 10M1M100k10k1k100 0 28 59 -0 16 FREQUENCY (Hz) C U R R E N T N O IS E ( p A H z) VS = 5V Figure 16. Input Current Noise vs. Frequency

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June 12, 2020

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June 11, 2020

These are the most popular variety of components of different types!

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June 1, 2020

All resistors exactly -0.01%. Pretty good.

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June 1, 2020

Great price and condition, Very speedy delivery, Very pleased thank you

Nico*****Clark

May 25, 2020

Does what it says. As with this this type of device it is important to have it mounted so that heat can dissipate. The higher the amperage the hotter the device.

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May 16, 2020

Great price. Worked well for my needs.

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May 16, 2020

The are the right size and type and do what they are designed to do.

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May 13, 2020

Very much appreciate the thoughtful system to hold multiple orders, including back ordered items, can be shipped at once rather than incremental shipments.

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