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MAX4218EEE+T

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MAX4218EEE+T

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Part Number MAX4218EEE+T
Manufacturer Maxim Integrated
Description IC OPAMP VFB 200MHZ RRO 16QSOP
Datasheet MAX4218EEE+T Datasheet
Package 16-SSOP (0.154", 3.90mm Width)
In Stock 4,810 piece(s)
Unit Price $ 4.6757 *
Lead Time Can Ship Immediately
Estimated Delivery Time Jan 30 - Feb 4 (Choose Expedited Shipping)
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Part Number # MAX4218EEE+T (Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps) is manufactured by Maxim Integrated 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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MAX4218EEE+T Specifications

ManufacturerMaxim Integrated
CategoryIntegrated Circuits (ICs) - Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps
Datasheet MAX4218EEE+TDatasheet
Package16-SSOP (0.154", 3.90mm Width)
Series-
Amplifier TypeVoltage Feedback
Number of Circuits3
Output TypeRail-to-Rail
Slew Rate600 V/µs
Gain Bandwidth Product-
-3db Bandwidth200MHz
Current - Input Bias5.4µA
Voltage - Input Offset4mV
Current - Supply5.5mA
Current - Output / Channel120mA
Voltage - Supply, Single/Dual (±)3.15 V ~ 11 V, ��1.575 V ~ 5.5 V
Operating Temperature-40°C ~ 85°C
Mounting TypeSurface Mount
Package / Case16-SSOP (0.154", 3.90mm Width)
Supplier Device Package16-QSOP

MAX4218EEE+T Datasheet

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General Description The MAX4212/MAX4213 single, MAX4216 dual, MAX4218 triple, and MAX4220 quad op amps are unity-gain-stable devices that combine high-speed per- formance with Rail-to-Rail® outputs. The MAX4213/ MAX4218 have a disable feature that reduces power- supply current to 400µA and places the outputs into a high-impedance state. These devices operate from a 3.3V to 10V single supply or from ±1.65V to ±5V dual supplies. The common-mode input voltage range extends beyond the negative power-supply rail (ground in single-supply applications). These devices require only 5.5mA of quiescent supply current while achieving a 300MHz -3dB bandwidth and a 600V/µs slew rate. Input-voltage noise is only 10nV/√Hz and input-current noise is only 1.3pA/√Hz for either the inverting or noninverting input. These parts are an excellent solution in low-power/low-voltage sys- tems that require wide bandwidth, such as video, com- munications, and instrumentation. In addition, when disabled, their high-output impedance makes them ideal for multiplexing applications. The MAX4212 comes in a miniature 5-pin SOT23 pack- age, while the MAX4213/MAX4216 come in 8-pin µMAX and SO packages. The MAX4218/MAX4220 are available in space-saving 16-pin QSOP and 14-pin SO packages. Applications Battery-Powered Instruments Video Line Driver Analog-to-Digital Converter Interface CCD Imaging Systems Video Routing and Switching Systems Features  High Speed: 300MHz -3dB Bandwidth (MAX4212/MAX4213) 200MHz -3dB Bandwidth (MAX4216/MAX4218/MAX4220) 50MHz 0.1dB Gain Flatness (MAX4212/MAX4213) 600V/µs Slew Rate  Single 3.3V/5.0V Operation  Rail-to-Rail Outputs  Input Common-Mode Range Extends Beyond VEE  Low Differential Gain/Phase: 0.02%/0.02°  Low Distortion at 5MHz: -78dBc SFDR -75dB Total Harmonic Distortion  High-Output Drive: ±100mA  400µA Shutdown Capability (MAX4213/MAX4218)  High-Output Impedance in Off State (MAX4213/MAX4218)  Space-Saving SOT23, µMAX, or QSOP Packages M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable ________________________________________________________________ Maxim Integrated Products 1 VEE IN-IN+ 1 5 VCCOUT MAX4212 SOT23-5 TOP VIEW 2 3 4 OUT N.C.VEE 1 2 8 7 EN VCCIN- IN+ N.C. µMAX/SO 3 4 6 5 MAX4213 Pin Configurations RO 50Ω IN VOUT ZO = 50Ω UNITY-GAIN LINE DRIVER (RL = RO + RTO) RF 24Ω RTO 50Ω RTIN 50Ω MAX4212 Typical Operating Circuit 19-1178; Rev 3; 10/03 EVALU ATION KIT M ANUAL AVAIL ABLE Ordering Information Ordering Information continued at end of data sheet. Pin Configurations continued at end of data sheet.Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd. For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. PART TEMP RANGE PIN PACKAGE TOP MARK MAX4212EUK-T -40°C to +85°C 5 SOT23-5 ABAF MAX4213ESA -40°C to +85°C 8 SO — MAX4213EUA -40°C to +85°C 8 µMAX —

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable 2 _______________________________________________________________________________________ ABSOLUTE MAXIMUM RATINGS DC ELECTRICAL CHARACTERISTICS (VCC = 5V, VEE = 0, EN_ = 5V, RL = 2kΩ to VCC/2, VOUT = VCC/2, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) Supply Voltage (VCC to VEE) ..................................................12V IN_-, IN_+, OUT_, EN_ .....................(VEE - 0.3V) to (VCC + 0.3V) Output Short-Circuit Duration to VCC or VEE............. Continuous Continuous Power Dissipation (TA = +70°C) 5-Pin SOT23 (derate 7.1mW/°C above +70°C) ...........571mW 8-Pin SO (derate 5.9mW/°C above +70°C) .................471mW 8-Pin µMAX (derate 4.5mW/°C above +70°C) ............221mW 14-Pin SO (derate 8.3mW/°C above +70°C) ...............667mW 16-Pin QSOP (derate 8.3mW/°C above +70°C) ..........667mW Operating Temperature Range ...........................-40°C to +85°C Storage Temperature Range .............................-65°C to +150°C Lead Temperature (soldering, 10s) .................................+300°C Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or at any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. VOL - VEE VCC - VOH VOL - VEE VCC - VOH VOL - VEE VCC - VOH VOL - VEE VCC - VOH 0.60 0.70 RL = 50Ω 0.30 0.50 0.30 0.50 RL = 150Ω 0.06 0.20 0.06 0.20 RL = 2kΩ 0.05 Output Voltage Swing VOUT V 0.05 RL = 10kΩ 571.0V ≤ VOUT ≤ 4V, RL = 50Ω 52 590.5V ≤ VOUT ≤ 4.5V, RL = 150Ω 55 610.25V ≤ VOUT ≤ 4.75V, RL = 2kΩ 3 MΩCommon mode (-0.2V ≤ VCM ≤ +2.75V) 4 9MAX42_ _ES_, MAX42_ _EEE PARAMETER SYMBOL MIN TYP MAX UNITS Input Resistance RIN 70 kΩ Input Offset Current IOS 0.1 4.0 µA Input Bias Current IB 5.4 20 µA Input Offset Voltage Matching ±1 mV Common-Mode Rejection Ratio CMRR 70 100 dB Open-Loop Gain (Note 1) AVOL dB Input Offset Voltage (Note 1) Input Common-Mode Voltage Range VCM VEE - VCC - 0.20 2.25 V VOS 4 12 mV Input Offset Voltage Temperature Coefficient TCVOS 8 µV/°C CONDITIONS Differential mode (-1V ≤ VIN ≤ +1V) (Note 1) (Note 1) Any channels for MAX4216/MAX4218/ MAX4220 (VEE - 0.2V) ≤ VCM ≤ (VCC - 2.25V) Guaranteed by CMRR test MAX4212EUK, MAX421_EUA

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable _______________________________________________________________________________________ 3 DC ELECTRICAL CHARACTERISTICS (continued) (VCC = 5V, VEE = 0, EN_ = 5V, RL = 2kΩ to VCC/2, VOUT = VCC/2, TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25°C.) EN_ = 0 EN_ Logic Input Low Current IIL 200 400 µA (VEE + 0.2V) ≤ EN_ ≤ VCC Output Current IOUT mA TA = +25°C 0.40 0.65Disabled (EN_ = 0) Quiescent Supply Current (per Amplifier) IS 5.5 7.0 mA Enabled EN_ Logic Input High Current IIH 0.5 10 µAEN_ = 5V 0.5 EN_ Logic-High Threshold VIH VCC - 1.6 V EN_ Logic-Low Threshold VIL VCC - 2.6 V Disabled Output Resistance ROUT (OFF) 20 35 kΩEN_ = 0, 0 ≤ VOUT ≤ 5V (Note 3) 45VCC = 3.3V, VEE = 0, VCM = 0.90V PARAMETER SYMBOL MIN TYP MAX UNITS Operating Supply-Voltage Range VS 3.15 11.0 V 54 66 Power-Supply Rejection Ratio (Note 2) PSRR 46 57 dB Output Short-Circuit Current ISC ±150 mA Open-Loop Output Resistance ROUT 8 Ω VCC to VEE VCC = 5V, VEE = -5V, VCM = 0 VCC = 5V, VEE = 0, VCM = 2.0V Sinking or sourcing TA = TMIN to TMAX ±60 ±70 ±120 CONDITIONS RL = 20Ω to VCC or VEE

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable 4 _______________________________________________________________________________________ Note 1: Tested with VCM = 2.5V. Note 2: PSR for single 5V supply tested with VEE = 0, VCC = 4.5V to 5.5V; for dual ±5V supply with VEE = -4.5V to -5.5V, VCC = 4.5V to 5.5V; and for single 3.3V supply with VEE = 0, VCC = 3.15V to 3.45V. Note 3: Does not include the external feedback network’s impedance. AC ELECTRICAL CHARACTERISTICS (VCC = 5V, VEE = 0, VCM = 2.5V, EN_ = 5V, RF = 24Ω, RL = 100Ω to VCC/2, VOUT = VCC/2, AVCL = +1, TA = +25°C, unless otherwise noted.) MAX4216/MAX4218/MAX4220, f = 10MHz, VOUT = 2VP-P dB-95XTALKAmplifier Crosstalk MAX4216/MAX4218/MAX4220, f = 10MHz, VOUT = 20mVP-P dB0.1Amplifier Gain Matching µs1tOFFAmplifier Disable Time fC = 5MHz, VOUT = 2VP-P dBc-78SFDR Spurious-Free Dynamic Range Total harmonic distortion 3rd harmonic 2nd harmonic MAX4216/MAX4218/ MAX4220 MAX4212/MAX4213 MAX4216/MAX4218/ MAX4220 MAX4212/MAX4213 f = 10MHz EN_ = 0 f = 10kHz f = 10kHz VOUT = 20mVP-P NTSC, RL = 150Ω NTSC, RL = 150Ω fC = 10MHz, AVCL = 2 fC = 5MHz, VOUT = 2VP-P VOUT = 100mVP-P f1 = 10.0MHz, f2 = 10.1MHz, VOUT = 1VP-P VOUT = 2V step VOUT = 2V step VOUT = 2VP-P VOUT = 20mVP-P CONDITIONS ns100tONAmplifier Enable Time Ω6ZOUTOutput Impedance pF2COUT (OFF)Disabled Output Capacitance pF1CINInput Capacitance pA/√Hz1.3inInput Noise-Current Density nV/√Hz10enInput Noise-Voltage Density %0.02DGDifferential Gain Error degrees0.02DPDifferential Phase Error dBm11Input 1dB Compression Point dBc35IP3 Two-Tone, Third-Order Intermodulation Distortion dB-75 -82 HDHarmonic Distortion 200 MHz 300 BWSSSmall-Signal -3dB Bandwidth dBc -78 ns1tR, tFRise/Fall Time ns45tSSettling Time to 0.1% V/µs600SRSlew Rate MHz180BWLSLarge-Signal -3dB Bandwidth MHz 50 BW0.1dB Bandwidth for 0.1dB Gain Flatness 35 UNITSMIN TYP MAXSYMBOLPARAMETER

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable _______________________________________________________________________________________ 5 4 -6 100k 1M 10M 100M 1G MAX4212/MAX4213 SMALL-SIGNAL GAIN vs. FREQUENCY -4 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 1 FREQUENCY (Hz) G A IN ( d B ) -2 0 2 3 -5 -3 -1 1 VOUT = 20mVP-P 3 -7 100k 1M 10M 100M 1G MAX4216/MAX4218/MAX4220 SMALL-SIGNAL GAIN vs. FREQUENCY -5 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 2 FREQUENCY (Hz) G A IN ( d B ) -3 -1 1 2 -6 -4 -2 0 VOUT = 20mVP-P 9 -1 100k 1M 10M 100M 1G MAX4212/MAX4213 SMALL-SIGNAL GAIN vs. FREQUENCY 1 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 3 FREQUENCY (Hz) G A IN ( d B ) 3 5 7 8 0 2 4 6 AVCL = 2 VOUT = 20mVP-P 9 -1 100k 1M 10M 100M 1G MAX4216/MAX4218/MAX4220 SMALL-SIGNAL GAIN vs. FREQUENCY 1 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 4 FREQUENCY (Hz) G A IN ( d B ) 3 5 7 8 0 2 4 6 AVCL = 2 VOUT = 20mVP-P 0.5 -0.5 0.1M 1M 10M 100M 1G MAX4216/MAX4218/MAX4220 GAIN FLATNESS vs. FREQUENCY -0.3 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 7 FREQUENCY (Hz) G A IN ( d B ) -0.1 0.1 0.3 0.4 -0.4 -0.2 0 0.2 4 -6 100k 1M 10M 100M 1G LARGE-SIGNAL GAIN vs. FREQUENCY -4 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 5 FREQUENCY (Hz) G A IN ( d B ) -2 0 2 3 -5 -3 -1 1 VOUT = 2VP-P VOUT BIAS = 1.75V 0.7 -0.3 0.1M 1M 10M 100M 1G MAX4212/MAX4213 GAIN FLATNESS vs. FREQUENCY -0.1 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 6 FREQUENCY (Hz) G A IN ( d B ) 0.1 0.3 0.5 0.6 -0.2 0 0.2 0.4 50 -150 100k 1M 10M 100M 1G MAX4216/MAX4218/MAX4220 CROSSTALK vs. FREQUENCY -110 M A X 4 2 1 2 /3 /6 /8 /2 0 -0 8 FREQUENCY (Hz) C R O S S T A L K ( d B ) -70 -30 10 30 -130 -90 -50 -10 1000 0.1 0.1M 1M 10M 100M CLOSED-LOOP OUTPUT IMPEDANCE vs. FREQUENCY M A X 4 2 1 2 /3 /6 /8 /2 0 -0 9 FREQUENCY (Hz) IM P E D A N C E ( Ω ) 100 1 10 __________________________________________Typical Operating Characteristics (VCC = 5V, VEE = 0, AVCL = 1, RF = 24Ω, RL = 100Ω to VCC/2, TA = +25°C, unless otherwise noted.)

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable 6 _______________________________________________________________________________________ 0 -100 100k 1M 10M 100M HARMONIC DISTORTION vs. FREQUENCY (AVCL = 1) -80 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 0 FREQUENCY (Hz) H A R M O N IC D IS T O R T IO N ( d B c) -60 -40 -20 -10 -90 -70 -50 -30 VOUT = 2VP-P 2ND HARMONIC 3RD HARMONIC 0 -100 100k 1M 10M 100M HARMONIC DISTORTION vs. FREQUENCY (AVCL = 2) -80 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 1 FREQUENCY (Hz) H A R M O N IC D IS T O R T IO N ( d B c) -60 -40 -20 -10 -90 -70 -50 -30 VOUT = 2VP-P AVCL = 2 2ND HARMONIC 3RD HARMONIC 0 -100 100k 1M 10M 100M HARMONIC DISTORTION vs. FREQUENCY (AVCL = 5) -80 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 2 FREQUENCY (Hz) H A R M O N IC D IS T O R T IO N ( d B c) -60 -40 -20 -10 -90 -70 -50 -30 VOUT = 2VP-P AVCL = 5 2ND HARMONIC 3RD HARMONIC 0 -10 -20 -30 -60 -70 -90 -80 -40 -50 -100 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 3 LOAD (Ω) 0 200 400 600 800 1000 HARMONIC DISTORTION vs. LOAD H A R M O N IC D IS T O R T IO N ( d B c) f = 5MHz VOUT = 2VP-P 3RD HARMONIC 2ND HARMONIC 0 -100 100k 1M 10M 100M COMMON-MODE REJECTION vs. FREQUENCY -80 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 6 FREQUENCY (Hz) C M R ( d B ) -60 -40 -20 -10 -90 -70 -50 -30 0 -10 -20 -30 -60 -70 -90 -80 -40 -50 -100 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 4 OUTPUT SWING (VP-P) 0.5 1.0 1.5 2.0 HARMONIC DISTORTION vs. OUTPUT SWING H A R M O N IC D IS T O R T IO N ( d B c) fO = 5MHz 3RD HARMONIC 2ND HARMONIC -0.01 0 100 0 100 DIFFERENTIAL GAIN AND PHASE -0.01 0.00 0.00 0.01 0.01 0.02 0.02 0.03 0.03 IRE IRE D IF F. P H A S E ( d eg ) D IF F. G A IN ( % ) M A X 4 2 1 2 /3 /6 /8 /2 0 -1 5 VCM = 1.35V VCM = 1.35V 20 -80 100k 1M 10M 100M POWER-SUPPLY REJECTION vs. FREQUENCY -60 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 7 FREQUENCY (Hz) P O W E R -S U P P L Y R E JE C T IO N ( d B ) -40 -20 0 10 -70 -50 -30 -10 4.5 4.0 3.5 2.5 2.0 1.5 3.0 1.0 M A X 4 2 1 2 /3 /6 /8 /2 0 -1 8 LOAD RESISTANCE (Ω) 25 50 75 100 125 150 OUTPUT SWING vs. LOAD RESISTANCE (RL) O U T P U T S W IN G ( V p -p ) AVCL = 2 ____________________________Typical Operating Characteristics (continued) (VCC = 5V, VEE = 0, AVCL = 1, RF = 24Ω, RL = 100Ω to VCC/2, TA = +25°C, unless otherwise noted.)

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable _______________________________________________________________________________________ 7 IN (50mV/ div) OUT (25mV/ div) V O L T A G E SMALL-SIGNAL PULSE RESPONSE (AVCL = 1) MAX4212/3/6/8/20-19 20ns/div VCM = 2.5V, RL = 100Ω to GROUND IN (25mV/ div) OUT (25mV/ div) V O L T A G E SMALL-SIGNAL PULSE RESPONSE (AVCL = 2) MAX4212/3/6/8/20-20 20ns/div VCM = 1.25V, RL = 100Ω to GROUND IN (50mV/ div) OUT (25mV/ div) V O L T A G E SMALL-SIGNAL PULSE RESPONSE (CL = 5pF, AVCL = 1) MAX4212/3/6/8/20-21 20ns/div VCM = 1.75V, RL = 100Ω to GROUND IN (1V/div) OUT (1V/div) V O L T A G E LARGE-SIGNAL PULSE RESPONSE (AVCL = 1) MAX4212/3/6/8/20-22 20ns/div VCM = 1.75V, RL = 100Ω to GROUND 100 10 1 1 10 1k 10M1M MAX4213 VOLTAGE-NOISE DENSITY vs. FREQUENCY M A X 4 2 1 2 /3 /6 /8 /2 0 -2 5 FREQUENCY (Hz) N O IS E (n V /√ H z) 100 10k 100k IN (500mV/ div) OUT (500mV/ div) V O L T A G E LARGE-SIGNAL PULSE RESPONSE (AVCL = 2) MAX4212/3/6/8/20-23 20ns/div VCM = 0.9V, RL = 100Ω to GROUND IN (1V/ div) OUT (500mV/ div) V O L T A G E LARGE-SIGNAL PULSE RESPONSE (CL = 5pF, AVCL = 2) MAX4212/3/6/8/20-24 20ns/div VCM = 1.75V, RL = 100Ω to GROUND 10 1 1 10 1k 10M1M MAX4218 CURRENT-NOISE DENSITY vs. FREQUENCY M A X 4 2 1 2 /3 /6 /8 /2 0 -2 6 FREQUENCY (Hz) N O IS E (p A /√ H z) 100 10k 100k EN_ 5.0V (ENABLE) 0 (DISABLE) 1V 0 OUT ENABLE RESPONSE TIME MAX4212/3/6/8/20-27 1µs/div VIN = 1.0V ____________________________Typical Operating Characteristics (continued) (VCC = 5V, VEE = 0, AVCL = 1, RF = 24Ω, RL = 100Ω to VCC/2, TA = +25°C, unless otherwise noted.)

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable 8 _______________________________________________________________________________________ 70 50 60 40 30 20 M A X 4 2 1 2 /3 /6 /8 /2 0 -2 8 LOAD RESISTANCE (Ω) 0 200 400 600 800 1k OPEN-LOOP GAIN vs. LOAD RESISTANCE O P E N -L O O P G A IN ( d B ) 400 350 300 250 150 50 100 200 0 M A X 4 2 1 2 /3 /6 /8 /2 0 -2 9 LOAD RESISTANCE (Ω) 1000 200 500400300 600 CLOSED-LOOP BANDWIDTH vs. LOAD RESISTANCE C L O S E D -L O O P B A N D W ID T H ( M H z) 10 -90 100k 10M 100M1M OFF-ISOLATION vs. FREQUENCY -80 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 0 FREQUENCY (Hz) O FF -I S O L A T IO N ( d B ) -70 -60 -50 -40 -30 -20 -10 0 7 6 4 5 3 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 1 TEMPERATURE (°C) -25-50 0 755025 100 POWER-SUPPLY CURRENT vs. TEMPERATURE P O W E R -S U P P L Y C U R R E N T ( m A ) 10 8 6 4 2 0 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 4 POWER-SUPPLY VOLTAGE (V) 43 5 6 7 8 9 10 11 POWER-SUPPLY CURRENT vs. POWER-SUPPLY VOLTAGE P O W E R -S U P P L Y C U R R E N T ( m A ) 6.0 5.5 4.5 5.0 4.0 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 2 TEMPERATURE (°C) -25-50 0 755025 100 INPUT BIAS CURRENT vs. TEMPERATURE IN P U T B IA S C U R R E N T ( µA ) 0.20 0.16 0.12 0.04 0.08 0 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 3 TEMPERATURE (°C) -25-50 0 755025 100 INPUT OFFSET CURRENT vs. TEMPERATURE IN P U T O FF S E T C U R R E N T ( µA ) 5 4 3 1 2 0 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 5 TEMPERATURE (°C) -25-50 0 755025 100 INPUT OFFSET VOLTAGE vs. TEMPERATURE IN P U T O FF S E T V O L T A G E ( m V ) 5.0 4.8 4.6 4.2 4.4 4.0 M A X 4 2 1 2 /3 /6 /8 /2 0 -3 6 TEMPERATURE (°C) -25-50 0 755025 100 VOLTAGE SWING vs. TEMPERATURE V O L T A G E S W IN G ( V p -p ) RL = 150Ω TO VCC/2 ____________________________Typical Operating Characteristics (continued) (VCC = 5V, VEE = 0, AVCL = 1, RF = 24Ω, RL = 100Ω to VCC/2, TA = +25°C, unless otherwise noted.)

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M A X 4 2 1 2 /M A X 4 2 1 3 /M A X 4 2 1 6 /M A X 4 2 1 8 /M A X 4 2 2 0 Miniature, 300MHz, Single-Supply, Rail-to-Rail Op Amps with Enable _______________________________________________________________________________________ 9 ______________________________________________________________Pin Description QSOPSOQSOPSO MAX4218 MAX4216 SO/µMAX MAX4220 MAX4213 SO/µMAX MAX4212 SOT23 ENC—2 2— —— — Enable Amplifier C ENB—3 3— —— — Enable Amplifier B ENA—1 1— —— — Enable Amplifier A EN—— —— —— 8 Enable Amplifier IND+14— —— 12— — Amplifier D Noninverting Input IND-15— —— 13— — Amplifier D Inverting Input OUTD16— —— 14— — Amplifier D Output INC+1212 14— 10— — Amplifier C Noninverting Input INC-1113 15— 9— — Amplifier C Inverting Input NAME N.C. OUT VEE IN+ INA- OUTA VCC IN- OUTC INB+ INB- OUTB INA+ 8, 9 — 13 — 2 1 4 — 10 5 6 7 3 — — 11 — 6 7 4 — 14 10 9 8 5 8, 9 — 13 — 6 7 4 — 16 12 11 10 5 — — 4 — 2 1 8 — — 5 6 7 3 — — 11 — 2 1 4 — 8 5 6 7 3 FUNCTION — 1, 5 No Connection. Not internally connected. Tie to ground or leave open. 1 6 Amplifier Output PIN 2 4 Negative Power Supply or Ground (in single-supply operation) 3 3 Noninverting Input — — Amplifier A Inverting Input — — Amplifier A Output 5 7 Positive Power Supply 4 2 Inverting Input — — Amplifier C Output — — Amplifier B Noninverting Input — — Amplifier B Inverting Input — — Amplifier B Output — — Amplifier A Noninverting Input

MAX4218EEE+T Reviews

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Abe*****osa

December 25, 2020

Perfectly functioning!! on time and as described!

Since*****odwin

December 18, 2020

So far so good. I need to see how they hold up.

Ibra*****Bush

December 13, 2020

No problem in making an order and will see how the shipping goes.

Jor*****Goel

December 8, 2020

You guys and girls I can trust and rely on. Thank You All!

Loui*****inivas

December 8, 2020

Good quality, buy back and then use, with the newly bought hard disk, very stable, at any time you can check things, not occupy space, very convenient.

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MAX4218EEE+T

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Heisener's commitment to quality has shaped our processes for sourcing, testing, shipping, and every step in between. This foundation underlies each component we sell.

ISO9001:2015, ICAS, IAF, UKAS

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