BA2903HFVM-CTR

BA2903HFVM-CTR

Manufacturer No:

BA2903HFVM-CTR

Manufacturer:

Description:

IC COMPARATOR 2 GEN PUR 8MSOP

Datasheet:

Datasheet

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BA2903HFVM-CTR Specifications

  • Type
    Parameter
  • Supplier Device Package
    8-MSOP
  • Mounting Type
    Surface Mount
  • Package / Case
    8-VSSOP, 8-MSOP (0.110", 2.80mm Width)
  • Operating Temperature
    -40°C ~ 125°C
  • Hysteresis
    -
  • Propagation Delay (Max)
    -
  • CMRR, PSRR (Typ)
    -
  • Current - Quiescent (Max)
    1mA
  • Current - Output (Typ)
    16mA @ 5V
  • Current - Input Bias (Max)
    0.25µA @ 5V
  • Voltage - Input Offset (Max)
    7mV @ 5V
  • Voltage - Supply, Single/Dual (±)
    2V ~ 36V, ±1V ~ 18V
  • Output Type
    Open-Collector
  • Number of Elements
    2
  • Type
    General Purpose
  • Packaging
    Cut Tape (CT)
  • Packaging
    Tape & Reel (TR)
  • Product Status
    Active
  • Series
    -
The BA2903HFVM-CTR is a specific integrated circuit chip that offers several advantages and can be applied in various scenarios. Here are some of its advantages and application scenarios:Advantages: 1. Low power consumption: The BA2903HFVM-CTR chip is designed to operate with low power consumption, making it suitable for battery-powered devices or applications where energy efficiency is crucial. 2. Wide operating voltage range: It can operate within a wide voltage range, typically from 2V to 36V, allowing it to be used in various voltage levels without requiring additional voltage regulation circuits. 3. Rail-to-rail output swing: The chip provides rail-to-rail output swing, meaning it can drive signals close to the power supply rails, maximizing the dynamic range and signal fidelity. 4. High output current: With a high output current capability, the chip can drive loads with low impedance, making it suitable for applications that require driving power-hungry components. 5. Low input offset voltage: The BA2903HFVM-CTR chip has a low input offset voltage, which minimizes errors in precision applications and improves overall accuracy.Application Scenarios: 1. Battery-powered devices: Due to its low power consumption, the chip can be used in portable devices such as handheld instruments, battery-powered sensors, or portable medical devices. 2. Audio amplification: The rail-to-rail output swing and high output current make it suitable for audio amplification applications, such as headphone amplifiers or small audio systems. 3. Industrial control systems: The wide operating voltage range and high output current capability make the chip suitable for industrial control systems, motor control, or process automation applications. 4. Automotive electronics: The chip's ability to operate within a wide voltage range and its robustness against voltage fluctuations make it suitable for automotive electronics, such as powertrain control modules or body control modules. 5. Precision measurement: The low input offset voltage of the chip makes it suitable for precision measurement applications, such as data acquisition systems or sensor interfaces, where accuracy is crucial.It's important to note that the specific application scenarios may vary depending on the requirements and specifications of the overall system design.