High Performance, 145 MHz FastFET Op Amps Data Sheet AD8065/AD8066 FEATURES APPLICATIONS Automotive driver assistance systems Qualified for automotive applications Photodiode preamps FET input amplifier Filters 1 pA input bias current A/D drivers Low cost Level shifting High speed: 145 MHz, 3 dB bandwidth (G = +1) Buffering 180 V/s slew rate (G = +2) CONNECTION DIAGRAMS Low noise AD8065 7 nV/Hz (f = 10 kHz) AD8065 V 1 5 +V OUT S NC 1 8 NC 0.6 fA/Hz (f = 10 kHz) V S 2 IN 2 7 +V S Wide supply voltage range: 5 V to 24 V +IN 3 6 V +IN 3 4 IN OUT Single-supply and rail-to-rail output TOP VIEW (Not to Scale) V 4 5 NC Low offset voltage 1.5 mV maximum S TOP VIEW (Not to Scale) High common-mode rejection ratio: 100 dB Excellent distortion specifications AD8066 SFDR 88 dBc 1 MHz V 1 8 +V OUT1 S Low power: 6.4 mA/amplifier typical supply current IN1 2 7 V OUT2 No phase reversal +IN1 3 6 IN2 Small packaging: SOIC-8, SOT-23-5, and MSOP-8 V 4 5 S +IN2 TOP VIEW (Not to Scale) Figure 1. The AD8065/AD8066 are high performance, high speed, FET GENERAL DESCRIPTION input amplifiers available in small packages: SOIC-8, MSOP-8, 1 The AD8065/AD8066 FastFET amplifiers are voltage feedback and SOT-23-5. They are rated to work over the industrial amplifiers with FET inputs offering high performance and ease temperature range of 40C to +85C. of use. The AD8065 is a single amplifier, and the AD8066 is a The AD8065WARTZ-REEL7 is fully qualified for automotive dual amplifier. These amplifiers are developed in the Analog applications. It is rated to operate over the extended temperature Devices, Inc. proprietary XFCB process and allow exceptionally range (40C to +105C), up to a maximum supply voltage low noise operation (7.0 nV/Hz and 0.6 fA/Hz) as well as range of 5 V only. very high input impedance. 24 With a wide supply voltage range from 5 V to 24 V, the ability to 21 G = +10 operate on single supplies, and a bandwidth of 145 MHz, the V = 200mV p-p O AD8065/AD8066 are designed to work in a variety of applications. 18 For added versatility, the amplifiers also contain rail-to-rail outputs. 15 G = +5 Despite the low cost, the amplifiers provide excellent overall 12 performance. The differential gain and phase errors of 0.02% 9 G = +2 and 0.02, respectively, along with 0.1 dB flatness out to 7 MHz, 6 make these amplifiers ideal for video applications. Additionally, 3 they offer a high slew rate of 180 V/s, excellent distortion (SFDR G = +1 0 of 88 dBc 1 MHz), extremely high common-mode rejection 3 of 100 dB, and a low input offset voltage of 1.5 mV maximum under warmed up conditions. The AD8065/AD8066 operate 6 0.1 1 10 100 1000 using only a 6.4 mA/amplifier typical supply current and are FREQUENCY (MHz) capable of delivering up to 30 mA of load current. Figure 2. Small Signal Frequency Response 1 Protected by U. S. Patent No. 6,262,633. Rev. K Document Feedback 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 One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. rights of third parties that may result from its use. Specifications subject to change without notice. No Tel: 781.329.4700 20022016 Analog Devices, Inc. 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Technical Support www.analog.com GAIN (dB) 02916-E-001 02916-E-002AD8065/AD8066 Data Sheet TABLE OF CONTENTS Features .............................................................................................. 1 Wideband Operation ................................................................. 21 Applications ....................................................................................... 1 Input Protection ......................................................................... 21 Connection Diagrams ...................................................................... 1 Thermal Considerations ............................................................ 22 General Description ......................................................................... 1 Input and Output Overload Behavior ..................................... 22 Revision History ............................................................................... 3 Layout, Grounding, and Bypassing Considerations .................. 23 Specifications 5 V ........................................................................... 4 Power Supply Bypassing ............................................................ 23 Specifications 12 V ......................................................................... 6 Grounding ................................................................................... 23 Specifications +5 V ........................................................................... 7 Leakage Currents ........................................................................ 23 Absolute Maximum Ratings ............................................................ 9 Input Capacitance ...................................................................... 23 Maximum Power Dissipation ..................................................... 9 Output Capacitance ................................................................... 23 Output Short Circuit .................................................................... 9 Input-to-Output Coupling ........................................................ 24 ESD Caution .................................................................................. 9 Wideband Photodiode Preamp ................................................ 24 Typical Performance Characteristics ........................................... 10 High Speed JFET Input Instrumentation Amplifier.............. 25 Test Circuits ..................................................................................... 17 Video Buffer ................................................................................ 26 Theory of Operation ...................................................................... 20 Outline Dimensions ....................................................................... 27 Closed-Loop Frequency Response ........................................... 20 Ordering Guide .......................................................................... 28 Noninverting Closed-Loop Frequency Response .................. 20 Automotive Products ................................................................. 28 Inverting Closed-Loop Frequency Response ......................... 20 Rev. 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