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MAX4327ESD

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MAX4327ESD

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Part Number MAX4327ESD
Manufacturer Maxim Integrated
Description IC OPAMP GP 5MHZ RRO 14SOIC
Datasheet MAX4327ESD Datasheet
Package 14-SOIC (0.154", 3.90mm Width)
In Stock 391 piece(s)
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Lead Time Can Ship Immediately
Estimated Delivery Time Aug 14 - Aug 19 (Choose Expedited Shipping)
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Part Number # MAX4327ESD (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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MAX4327ESD Specifications

ManufacturerMaxim Integrated
CategoryIntegrated Circuits (ICs) - Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps
Datasheet MAX4327ESDDatasheet
Package14-SOIC (0.154", 3.90mm Width)
Series-
Amplifier TypeGeneral Purpose
Number of Circuits2
Output TypeRail-to-Rail
Slew Rate2 V/µs
Gain Bandwidth Product5MHz
-3db Bandwidth-
Current - Input Bias50nA
Voltage - Input Offset700µV
Current - Supply725µA
Current - Output / Channel50mA
Voltage - Supply, Single/Dual (±)2.4 V ~ 6.5 V, ��1.2 V ~ 3.25 V
Operating Temperature-40°C ~ 85°C
Mounting TypeSurface Mount
Package / Case14-SOIC (0.154", 3.90mm Width)
Supplier Device Package14-SOIC

MAX4327ESD Datasheet

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General Description The MAX4322/MAX4323/MAX4326/MAX4327/MAX4329 family of operational amplifiers combines wide bandwidth and excellent DC accuracy with Rail-to-Rail® operation at the inputs and outputs. These devices consume only 650µA per amplifier and operate from either a single sup- ply (2.4V to 6.5V) or dual supplies (±1.2V to ±3.25V). These unity-gain-stable amplifiers are capable of driving 250Ω loads and have a 5MHz gain-bandwidth product. The MAX4323 and MAX4327 feature a low-power shutdown mode that reduces supply current to 25µA and places the outputs in a high-impedance state. With their rail-to-rail input common-mode range and output swing, these amplifiers are ideal for low-voltage, single-supply operation. In addition, low offset voltage and high speed make them the ideal signal-condition- ing stages for precision, low-voltage data-acquisition systems. The MAX4323 is offered in a small 6-bump chip-scale package (UCSP™). The MAX4322/MAX4323 are also available in space-saving SOT23 packages. ________________________Applications Battery-Powered Data-Acquisition Instruments Systems RSSI Systems Signal Conditioning PA Biasing Portable Equipment Low-Power, Low-Voltage Applications ____________________________Features  6-Bump UCSP Package (MAX4323)  2.4V to 6.5V Single-Supply Operation  Rail-to-Rail Input Common-Mode Voltage Range  Rail-to-Rail Output Voltage Swing  5MHz Gain-Bandwidth Product  650µA Quiescent Current per Amplifier  700µV Offset Voltage  No Phase Reversal for Overdriven Inputs  Drive 250Ω Loads  25µA Shutdown Mode (MAX4323/MAX4327)  Unity-Gain Stable for Capacitive Loads Up to 500pF M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps ________________________________________________________________ Maxim Integrated Products 1 Pin Configurations 19-1380; Rev 3; 10/02 Ordering Information Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd. UCSP is a trademark of Maxim Integrated Products, Inc. Selector Guide TOP VIEW (BUMPS ON BOTTOM) UCSP MAX4323 1 2 3 VEE AB OUT VCC IN+ IN- SHDN 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/BUMP- PACKAGE TOP MARK MAX4322EUK-T -40oC to +85oC 5 SOT23-5 ACGE MAX4322EUA -40oC to +85oC 8 µMAX — MAX4322ESA -40oC to +85oC 8 SO — Ordering Information continued at end of data sheet. Pin Configurations continued at end of data sheet. 10 µMAX, 14 SO25MAX4327 Yes 8 µMAX/SO25MAX4326 — — Yes — SHUTDOWN 14 SO 6 SOT23/UCSP, 8 µMAX/SO 5 SOT23, 8 µMAX/SO PIN/BUMP- PACKAGE 45MAX4329 15MAX4323 PART 15MAX4322 NO. OF AMPS BW (MHz)

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps 2 _______________________________________________________________________________________ ABSOLUTE MAXIMUM RATINGS DC ELECTRICAL CHARACTERISTICS—TA = +25°C (VCC = 5.0V, VEE = 0V, VCM = 0V, VOUT = VCC/2, SHDN = VCC, RL connected to VCC/2, unless otherwise noted.) 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 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. Supply Voltage (VCC - VEE)...................................................7.5V All Other Pins ...................................(VCC + 0.3V) to (VEE - 0.3V) Output Short-Circuit Duration.....................................Continuous (Short to Either Supply) Continuous Power Dissipation (TA = +70°C) 5-Pin SOT23 (derate 7.1mW/°C above +70°C)............571mW 6-Bump UCSP (derate 3.9mW/°C above +70°C).........308mW 6-Pin SOT23 (derate 7.1mW/°C Above + 70°C) ..........571mW 8-Pin SO (derate 5.88mW/°C above +70°C)................471mW 8-Pin µMAX (derate 4.10mW/°C above +70°C) ...........330mW 10-Pin µMAX (derate 5.6mW/°C above +70°C) ...........444mW 14-Pin SO (derate 8.00mW/°C above +70°C)..............640mW Operating Temperature Range MAX432_E__ ...................................................-40°C to +85°C Maximum Junction Temperature .....................................+150°C Storage Temperature Range .............................-65°C to +160°C Bump Reflow Temperature ..............................................+235°C Lead Temperature (soldering, 10s) .................................+300°C PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS MAX432_ESA/ MAX4327ESD ±0.7 ±2.0 Input Offset Voltage VOS VCM = VEE or VCC All other packages ±1.2 ±2.50 mV Input Bias Current IB VCM = VEE or VCC ±50 ±150 nA Input Offset Current IOS VCM = VEE or VCC ±1 ±12 nA Differential Input Resistance RIN -1.5V < VDIFF < +1.5V 500 kΩ Common-Mode Input Voltage Range CMVR Inferred from CMRR test VEE VCC V MAX432_ESA/ MAX4327ESD 62 94 Common-Mode Rejection Ratio CMRR VEE ≤ VCM ≤ VCC All other packages 60 91 dB Power-Supply Rejection Ratio PSRR VCC = 2.4V to 6.5V 66 100 dB Output Resistance ROUT AV = +1V/V 0.1 Ω VOUT = 0.25V to 4.75V, RL = 100kΩ 106 Large-Signal Voltage Gain AV VOUT = 0.4V to 4.6V, RL = 250Ω 70 86 dB VCC - VOH 12 RL = 100kΩ VOL - VEE 20 VCC - VOH 200 300 MAX4322/ MAX4323 RL = 250Ω VOL - VEE 100 200 VCC - VOH 15 RL = 100kΩ VOL - VEE 25 VCC - VOH 220 350 Output Voltage Swing VO MAX4326/ MAX4327/ MAX4329 RL = 250Ω VOL - VEE 120 250 mV Output Short-Circuit Current ISC 50 mA VIL Low 0.8 SHDN Logic Threshold VIH MAX4323/MAX4327 High 2.0 V SHDN Input Current MAX4323/MAX4327 ±1 ±4 µA

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps _______________________________________________________________________________________ 3 DC ELECTRICAL CHARACTERISTICS—TA = -40°C to +85°C (VCC = 5V, VEE = 0V, VCM = 0V, VOUT = VCC/2, SHDN = VCC, RL connected to VCC/2, unless otherwise noted.) (Note 1) DC ELECTRICAL CHARACTERISTICS—TA = +25°C (continued) (VCC = 5V, VEE = 0V, VCM = 0V, VOUT = VCC/2, SHDN = VCC, RL connected to VCC/2, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS MAX432_ESA/ MAX4327ESD ±3.0 Input Offset Voltage VOS VCM = VEE or VCC All other packages ±6.0 mV Input Offset Voltage Tempco TCVOS ±2 µV/°C Input Bias Current IB VCM = VEE or VCC ±180 nA Input Offset Current IOS VCM = VEE or VCC ±20 nA Common-Mode Input Voltage Range CMVR Inferred from CMRR test VEE VCC V MAX432_ESA/ MAX4327ESD 59 Common-Mode Rejection Ratio CMRR VEE ≤ VCM ≤ VCC All other packages 54 dB Power-Supply Rejection Ratio PSRR VCC = 2.4V to 6.5V 62 dB Large-Signal Voltage Gain AV VOUT = 0.4V to 4.6V, RL = 250Ω 66 dB VCC - VOH 350MAX4322/ MAX4323 RL = 250Ω VOL - VEE 250 VCC - VOH 400 Output Voltage Swing VO MAX4326/ MAX4327/ MAX4329 RL = 250Ω VOL - VEE 300 mV VIL Low 0.8 SHDN Logic Threshold VIH MAX4323/MAX4327 High 2.0 V SHDN Input Current MAX4323/MAX4327 ±5 µA Operating Supply Voltage Range VCC 2.4 6.5 V Supply Current per Amplifier ICC VCM = VOUT = VCC/2 1200 µA Shutdown Supply Current per Amplifier I SHDN V SHDN ≤ 0.8V, MAX4323/MAX4327 70 µA PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Operating Supply Voltage Range VCC Inferred from PSRR test 2.4 6.5 V VCC = 2.4V 650 Supply Current per Amplifier ICC VCM = VOUT = VCC/2 VCC = 5V 725 1100 µA VCC = 2.4V 25Shutdown Supply Current per Amplifier I SHDN V SHDN ≤ 0.8V, MAX4323/MAX4327 VCC = 5V 40 60 µA

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps 4 _______________________________________________________________________________________ AC ELECTRICAL CHARACTERISTICS (VCC = 5V, VEE = 0V, VCM = VOUT = VCC/2, SHDN = VCC, TA = +25°C, unless otherwise noted.) Note 1: All devices are 100% tested at TA = +25°C. All temperature limits are guaranteed by design. PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Gain-Bandwidth Product GBWP 5 MHz Phase Margin φM 64 Degrees Gain Margin GM 12 dB Total Harmonic Distortion THD f = 10kHz, VOUT = 2VP-P, AV = +1V/V 0.003 % Slew Rate SR 2 V/µs Settling Time to 0.01% tS AV = +1V/V, VOUT = 2V step 2.0 µs Turn-On Time tON VCC = 0 to 3V step 1 µs Enable 1 SHDN Delay MAX4323/MAX4327 Disable 0.2 µs Input Capacitance CIN 3 pF Input Noise-Voltage Density en f = 1kHz 22 nV/√Hz Input Noise-Current Density in f = 1kHz 0.4 pA/√Hz Amp-Amp Isolation 135 dB Capacitive-Load Stability CL AV = +1V/V 250 pF

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps _______________________________________________________________________________________ 5 60 -40 100 1k 10k 1M 10M100k 100M GAIN AND PHASE vs. FREQUENCY -20 FREQUENCY (Hz) G A IN ( dB ) 0 20 40 PHASE GAIN AV = +1000 NO LOAD P H A S E (D EG R EE S ) 180 144 72 0 -72 -144 -180 -108 -36 36 108 MAX4322/26/29-01 60 -40 100 1k 10k 1M 10M100k 100M GAIN AND PHASE vs. FREQUENCY (WITH CLOAD) -20 MAX4322/26/29-02 FREQUENCY (Hz) G A IN ( dB ) 0 20 40 PHASE GAIN AV = +1000 RL = ∞ CL = 500pF P H A S E (D EG R EE S ) 180 144 72 0 -72 -144 -180 -108 -36 36 108 0 -100 10 100 1k 100k 1M 10M10k 100M POWER-SUPPLY REJECTION RATIO vs. FREQUENCY -80 M A X 43 22 /2 6/ 29 -0 3 FREQUENCY (Hz) P S R R ( dB ) -60 -40 -20 AV = +1 __________________________________________Typical Operating Characteristics (VCC = 5V, VEE = 0V, VCM = VCC/2, SHDN = VCC, TA = +25°C, unless otherwise noted.) 1k 10k 10M FREQUENCY (Hz) 100k 1M100 130 50 60 70 80 90 100 110 120 MAX4326/MAX4327/MAX4329 CHANNEL SEPARATION vs. FREQUENCY M A X 43 22 /2 6/ 29 -0 4 C H A N N EL S EP A R A TI O N ( dB ) 100 0.01 100 1k 100k 1M 10M10k 100M OUTPUT IMPEDANCE vs. FREQUENCY 0.1 M A X 43 22 /2 6/ 29 -0 5 FREQUENCY (Hz) O U TP U T IM P ED A N C E (Ω ) 1 10 AV = +1 900 500 550 600 650 700 750 800 850 -40 -25 -10 5 20 35 50 65 80 95 SUPPLY CURRENT PER AMPLIFIER vs. TEMPERATURE M A X 43 22 /2 6/ 29 -0 7 TEMPERATURE (°C) S U P P LY C U R R EN T (µ A ) VCC = 6.5V VCC = 2.7V -3.00 -2.25 -0.75 -1.50 0 1.50 0.75 2.25 3.00 -40 -25 -10 5 20 35 50 65 80 95 INPUT OFFSET VOLTAGE vs. TEMPERATURE M A X 43 22 /2 6/ 29 -0 8 TEMPERATURE (°C) V O LT A G E (m V ) SOT23-5/6 PACKAGE SO PACKAGE -50 0 1 2 3 4 5 6 INPUT BIAS CURRENT vs. COMMON-MODE VOLTAGE M A X 43 22 /2 6/ 29 -0 9 COMMON-MODE VOLTAGE (V) IN P U T B IA S C U R R EN T (n A ) -40 -30 -20 -10 0 10 20 30 40 50 VCC = 2.7V VCC = 6.5V 0 10 20 30 40 50 60 -40 -25 -10 5 20 35 50 65 80 95 MAX4323/MAX4327 SHUTDOWN SUPPLY CURRENT vs. TEMPERATURE M A X 4 3 2 3 -0 6 TEMPERATURE (°C) S H U TD O W N S U P P LY C U R R EN T (µ A ) VCC = 6.5V VCC = 2.7V VSHDN = 0V

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_____________________________Typical Operating Characteristics (continued) (VCC = 5V, VEE = 0V, VCM = VCC/2, SHDN = VCC, TA = +25°C, unless otherwise noted.) M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps 6 _______________________________________________________________________________________ 120 80 85 90 95 100 105 110 115 -40 -25 -10 5 20 35 50 65 80 95 COMMON-MODE REJECTION RATIO vs. TEMPERATURE M A X 43 22 /2 6/ 29 -1 1 TEMPERATURE (°C) C M R R ( dB ) VCM = 0 TO 5.0V VCM = -0.2V TO 5.2V 250 0 -40 -25 -10 5 20 35 50 65 80 95 MINIMUM OUTPUT VOLTAGE vs. TEMPERATURE 50 200 MA X 43 22 /2 6/ 29 -1 2 TEMPERATURE (°C) V O U T - V EE (m V ) 150 100 RL TO VCC VCC = 6.5V, RL = 500Ω VCC = 2.7V, RL = 100kΩ VCC = 2.7V, RL = 500Ω VCC = 6.5V, RL = 100kΩ 0 50 100 150 200 250 300 -40 -25 -10 5 20 35 50 65 80 95 MAXIMUM OUTPUT VOLTAGE vs. TEMPERATURE M A X 4 3 2 2 /2 6 /2 9 -1 3 TEMPERATURE (°C) V C C - V O U T (m V ) RL TO VEE VCC = 6.5V, RL = 500Ω VCC = 2.7V, RL = 100kΩ (BOTTOM) VCC = 2.7V, RL = 500Ω VCC = 6.5V, RL = 100kΩ (TOP) 120 60 0 600 110 OUTPUT VOLTAGE: FROM VCC (mV) G A IN ( dB ) 300 90 80 70 100 200 500 100 400 M A X 43 22 /2 6/ 29 -1 4 LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE VCC = 2.7V RL TO VEE RL = 500Ω RL = 100kΩ RL = 10kΩ RL = 2kΩ 120 60 0 600 110 OUTPUT VOLTAGE: FROM VCC (mV) G A IN ( dB ) 300 90 80 70 100 200 500 100 400 M A X 43 22 /2 6/ 29 -1 5 LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE VCC = 6.5V RL TO VEE RL = 500Ω RL = 100kΩ RL = 10kΩ RL = 2kΩ 125 75 -40 -25 -10 5 20 35 50 65 80 95 LARGE-SIGNAL GAIN vs. TEMPERATURE 85 115 MA X 43 22 /2 6/ 29 -1 6 TEMPERATURE (°C) G A IN ( dB ) 105 95 80 90 120 110 100 VCC = 2.7V, RL TO VEE VCC = 6.5V, RL TO VCC VCC = 2.7V, RL TO VCC RL = 500Ω VOUT(P-P) = VCC - 1V VCC = 6.5V, RL TO VEE 120 60 0 600 110 G A IN ( dB ) 300 90 80 70 100 200 500 100 400 M A X 43 22 /2 6/ 29 -1 7 LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE RL = 500Ω RL = 100kΩ RL = 10kΩ RL = 2kΩ VCC = 2.7V RL TO VCC OUTPUT VOLTAGE: FROM VEE (mV) 120 60 0 600 110 G A IN ( dB ) 300 90 80 70 100 200 500 100 400 M A X 43 22 /2 6/ 29 -1 8 LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE VCC = 6.5V RL TO VCC RL = 500Ω RL = 100kΩ RL = 10kΩ RL = 2kΩ OUTPUT VOLTAGE: FROM VEE (mV) -60 -50 -40 -25 -10 5 20 35 50 65 80 95 INPUT BIAS CURRENT vs. TEMPERATURE M A X 43 22 /2 6/ 29 -1 0 TEMPERATURE (°C) IN P U T B IA S C U R R EN T (n A ) -40 -30 -20 -10 0 10 20 30 40 50 VCC = 6.5V, VCM = VCC VCC = 2.7V, VCM = VEE VCC = 2.7V, VCM = VCC VCC = 6.5V, VCM = VEE

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_____________________________Typical Operating Characteristics (continued) (VCC = 5V, VEE = 0V, VCM = VCC/2, SHDN = VCC, TA = +25°C, unless otherwise noted.) M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps _______________________________________________________________________________________ 7 1.2 1.3 1.5 1.4 1.6 1.7 1.8 1.9 -40 -25 -10 5 20 35 50 65 80 95 MINIMUM OPERATING VOLTAGE vs. TEMPERATURE M A X 43 22 /2 6/ 29 -2 0 TEMPERATURE (°C) M IN IM U M O P ER A TI N G V O LT A G E (V ) 10 100k10k FREQUENCY (Hz) 100 1k 0.040 0 0.005 0.010 0.015 0.020 0.025 0.030 0.035 TOTAL HARMONIC DISTORTION PLUS NOISE vs. FREQUENCY M A X 43 22 /2 6/ 29 -2 1 TH D + N ( % ) AV = +1 2VP-P SIGNAL 500kHz LOWPASS FILTER RL = 10kΩ TO VCC/2 0.1 0.001 4.0 4.44.2 5.04.84.6 TOTAL HARMONIC DISTORTION PLUS NOISE vs. PEAK-TO-PEAK SIGNAL AMPLITUDE M A X 43 22 /2 6/ 29 -2 2 PEAK-TO-PEAK SIGNAL AMPLITUDE (V) TH D + N ( % ) 0.01 AV = +1 10kHz SINE WAVE RL TO VCC/2 500kHz LOWPASS FILTER RL = 10kΩ RL = 100kΩ RL = 2kΩRL = 250Ω IN 200ns/div V O LT A G E (5 0m V /d iv ) OUT AV = +1 SMALL-SIGNAL TRANSIENT RESPONSE (NONINVERTING) M A X 43 22 /2 6/ 29 -2 3 IN 200ns/div V O LT A G E (5 0m V /d iv ) OUT AV = -1 SMALL-SIGNAL TRANSIENT RESPONSE (INVERTING) M A X 43 22 /2 6/ 29 -2 4 125 75 -40 -25 -10 5 20 35 50 65 80 95 LARGE-SIGNAL GAIN vs. TEMPERATURE 85 115 MA X 43 22 /2 6/ 29 -1 9 TEMPERATURE (°C) G A IN ( dB ) 105 95 80 90 120 110 100 VOUT(P-P) = VCC - 600mV RL = 100kΩ VCC = 6.5V, RL TO VEE VCC = 2.7V, RL TO VCC VCC = 2.7V, RL TO VEE VCC = 6.5V, RL TO VCC IN 2µs/div V O LT A G E (2 V /d iv ) OUT AV = +1 LARGE-SIGNAL TRANSIENT RESPONSE (NONINVERTING) M A X 43 22 /2 6/ 29 -2 5 IN 2µs/div V O LT A G E (2 V /d iv ) OUT AV = -1 LARGE-SIGNAL TRANSIENT RESPONSE (INVERTING) M A X 43 22 /2 6/ 29 -2 6

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps 8 _______________________________________________________________________________________ Pin Description PIN MAX4322 MAX4323 MAX4327 SOT23 SO/µMAX SOT23 SO/µMAX UCSP MAX4326 µMAX SO MAX4329 NAME FUNCTION 1 6 1 6 A2 — — — — OUT Output 2 4 2 4 A1 4 4 4 11 VEE Negative Supply. Ground for single- supply operation. 3 — 3 3 B1 — — — — IN+ Noninverting Input 4 — 4 2 B2 — — — — IN- Inverting Input 5 7 6 7 A3 8 10 14 4 VCC Positive Supply — 1, 5, 8 — 1, 5 — — — 5, 7, 8 , 10 — N.C. No Connection. Not internally connected. — — 5 8 B3 — — — SHDN Shutdown Control. Connected high or leave floating to enable amplifier. — — — — — 1, 7 1, 9 1, 13 1, 7 OUT1, OUT2 Outputs for Amps 1 and 2 — 2 — — — 2, 6 2, 8 2, 12 2, 6 IN1-, IN2- Inverting Inputs for Amps 1 and 2 — 3 — — — 3, 5 3, 7 3, 11 3, 5 IN1+, IN2+ Noninverting Inputs for Amps 1 and 2 — — — — — — 5, 6 5, 9 — SHDN1, SHDN2 Shutdown Control for Amps 1 and 2. Connected high or leave floating to enable amplifier. — — — — — — — — 8, 14 OUT3, OUT4 Outputs for Amps 3 and 4 — — — — — — — — 9, 13 IN3-, IN4- Inverting Inputs for Amps 3 and 4 — — — — — — — — 10, 12 IN3+, IN4+ Noninverting Inputs for Amps 3 and 4

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M A X 4 3 2 2 /M A X 4 3 2 3 /M A X 4 3 2 6 /M A X 4 3 2 7 /M A X 4 3 2 9 Single/Dual/Quad, Low-Cost, UCSP/SOT23, Low-Power, Rail-to-Rail I/O Op Amps _______________________________________________________________________________________ 9 R3 R3 = R1 R2 R1 R2 MAX4322/MAX4323 MAX4326/MAX4327 MAX4329 Figure 1a. Reducing Offset Error Due to Bias Current (Noninverting) R3 R3 = R1 R2 R1 R2 MAX4322/MAX4323 MAX4326/MAX4327 MAX4329 Figure 1b. Reducing Offset Error Due to Bias Current (Inverting) 1kΩ 1kΩ Figure 2. Input Protection Circuit __________Applications Information Rail-to-Rail Input Stage Devices in the MAX4322/MAX4323/MAX4326/MAX4327/ MAX4329 family of high-speed amplifiers have rail-to- rail input and output stages designed for low-voltage, single-supply operation. The input stage consists of separate NPN and PNP differential stages, which com- bine to provide an input common-mode range extend- ing to the supply rails. The PNP stage is active for input voltages close to the negative rail, and the NPN stage is active for input voltages near the positive rail. The input offset voltage is typically below 250µV. The switchover transition region, which occurs near VCC/2, has been extended to minimize the slight degradation in CMRR caused by the mismatch of the input pairs. Their low offset voltage, high bandwidth, and rail-to-rail common-mode range make these op amps excellent choices for precision, low-voltage, data-acquisition systems. Since the input stage switches between the NPN and PNP pairs, the input bias current changes polarity as the input voltage passes through the transition region. To reduce the offset error caused by input bias cur- rents flowing through external source impedances, match the effective impedance seen by each input (Figures 1a, 1b). High-source impedances, together with the input capacitance, can create a parasitic pole that produces an underdamped signal response. Reducing the input impedance or placing a small (2pF to 10pF) capacitor across the feedback resistor improves the response. The MAX4322/MAX4323/MAX4326/MAX4327/MAX4329s’ inputs are protected from large differential input voltages by 1kΩ series resistors and back-to-back triple diodes across the inputs (Figure 2). For differential input volt- ages less than 1.8V, the input resistance is typically 500kΩ. For differential input voltages greater than 1.8V, the input resistance is approximately 2kΩ, and the input bias current is determined by the following equation:

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July 31, 2020

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July 25, 2020

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If the items you received were not in perfect quality, we would be responsible for your refund or replacement, but the items must be returned in their original condition.

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MCP18480-I/SS MCP18480-I/SS Microchip Technology, IC HOT SWAP CTRLR -48V 20SSOP, 20-SSOP (0.209", 5.30mm Width), - View
MTGBEZ-00-0000-0B0HJ040F MTGBEZ-00-0000-0B0HJ040F Cree Inc., LED EASYWHT NEU WHT 4000K 2SMD, 2-SMD, No Lead, Exposed Pad, - View
AM23ID-F AM23ID-F Kingbright, LED RED DIFFUSED TO236-3 SMD, TO-236-3, SC-59, SOT-23-3, - View
CMF50422R00FKR6 CMF50422R00FKR6 Vishay Dale, RES 422 OHM 1/4W 1% AXIAL, Axial, - View
PHP00603E11R8BST1 PHP00603E11R8BST1 Vishay Thin Film, RES SMD 11.8 OHM 0.1% 3/8W 0603, 0603 (1608 Metric), - View
0395264008 0395264008 Molex, LLC, TERM BLOCK HDR 8POS 90DEG 5MM, -, - View
ECA31DRMS-S288 ECA31DRMS-S288 Sullins Connector Solutions, CONN EDGE DUAL FMALE 62POS 0.125, -, - View
VI-B5F-EX-B1 VI-B5F-EX-B1 Vicor Corporation, CONVERTER MOD DC/DC 72V 75W, Full Brick, - View
STM32F745VEH6TR STM32F745VEH6TR STMicroelectronics, TFBGA 8X8 100L F10X1, 100-UFBGA, - View
SI5340A-B03610-GM SI5340A-B03610-GM Silicon Labs, IC CLOCK GENERATOR PLL, -, - View
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MAX4327ESD

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