Manufacturer Part Number: MAX4232AKA-T Manufacturer / Brand: Analog Devices Inc.
Part of Description: SoC FPGA MAX4232AKA-T Lead Free Status / RoHS Status: table_img Lead free / RoHS Compliant
Ship From: HK/Shen Zhen Shipment Way: DHL/Fedex/TNT/UPS

Product parameters

ManufacturerAnalog Devices Inc.
Package / CaseSOT-23-8
Mounting StyleSMD/SMT
Maximum Operating Temperature-40 C
Minimum Operating Temperature+125C
Factory Pack Quantity2500
Moisture SensitiveYes
Width1.63 mm
Height1.1 mm
Length2.9 mm
Voltage Gain dB100 dB
Pd – Power Dissipation714 mW
Unit Weight0.001411 oz

Get in touch with us now

    Please submit your BOM List or Input the part online

    Please complete all required fields with your contact information.Click "SUBMIT REQUEST" we will contact you shortly by email. Or Email us:

    First name *

    Last name *

    Company Email *

    Phone number *

    Company name *

    Country *

    Upload file: We support .xls, .xlsx and .csv files under 4MB


    Please submit your BOM List or Input the part online


    MAX4232AKA-T Applications:

    Sensor Signal Conditioning:

    Use the op-amp for amplifying and conditioning signals from sensors such as thermocouples, strain gauges, and pressure sensors.

    Data Acquisition Systems:

    Integrate the op-amp into data acquisition systems to process analog signals from sensors before digitization.

    Instrumentation Amplifiers:

    Design instrumentation amplifiers for precise measurement applications that require high common-mode rejection and accuracy.

    Precision Voltage References:

    Employ the op-amp in circuits that generate precision voltage references for analog-to-digital converters (ADCs) or other voltage-sensitive components.

    Bridge Amplifiers:

    Build bridge amplifiers for applications where differential measurements are necessary, such as load cells or strain gauge bridges.

    Battery-Powered Devices:

    Utilize the low-power characteristics of the op-amp in battery-powered devices to extend battery life.

    Medical Devices:

    Incorporate the op-amp in medical equipment for applications like patient monitoring or diagnostic instrumentation.

    Audio Signal Processing:

    Use the op-amp in audio applications for low-distortion signal amplification or filtering.

    Signal Conditioning for Control Systems:

    Integrate the op-amp in control systems to condition signals from sensors before feeding them to control algorithms.

    Low-Noise Amplifiers:

    Implement low-noise amplifiers in applications where minimizing signal distortion and interference is crucial.

    Temperature Measurement Systems:

    Amplify signals from temperature sensors or thermocouples in precision temperature measurement systems.

    Industrial Process Control:

    Use the op-amp in industrial automation and process control systems for amplifying and processing sensor signals.

    Strain Gauge Amplifiers:

    Design precision strain gauge amplifiers for applications such as structural health monitoring or materials testing.

    Voltage-to-Frequency Converters:

    Incorporate the op-amp in voltage-to-frequency converter circuits for applications like frequency-based sensor signal processing.

    Automotive Electronics:

    Use the op-amp in automotive applications where precision amplification is required, such as in sensor interfaces or control systems.