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LM4050QBIM3-2.5/NOPB
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LM4050QBIM3-2.5/NOPB

Product Overview

Category

The LM4050QBIM3-2.5/NOPB belongs to the category of voltage references.

Use

It is primarily used as a precision voltage reference in various electronic circuits.

Characteristics

  • High accuracy and stability
  • Low temperature coefficient
  • Low dropout voltage
  • Wide operating temperature range

Package

The LM4050QBIM3-2.5/NOPB comes in a small SOT-23 package, which is suitable for surface mount applications.

Essence

This product serves as a reliable and precise voltage reference, ensuring accurate voltage levels in electronic systems.

Packaging/Quantity

The LM4050QBIM3-2.5/NOPB is typically available in reels or tubes, with a quantity of 3000 units per reel/tube.

Specifications

  • Output Voltage: 2.5V
  • Initial Accuracy: ±0.1%
  • Temperature Coefficient: 50ppm/°C
  • Dropout Voltage: 200mV (typical)
  • Operating Temperature Range: -40°C to +85°C
  • Supply Voltage Range: 2.7V to 10V
  • Quiescent Current: 60µA (typical)

Pin Configuration

The LM4050QBIM3-2.5/NOPB has three pins:

  1. VOUT: Output voltage pin
  2. GND: Ground pin
  3. VIN: Input voltage pin

Functional Features

  • Precise output voltage reference
  • Low power consumption
  • Stable performance over a wide temperature range
  • Low dropout voltage allows for use in low-power applications
  • Excellent line and load regulation characteristics

Advantages

  • High accuracy and stability ensure reliable voltage references
  • Low temperature coefficient minimizes voltage variations with temperature changes
  • Small package size enables space-saving designs
  • Wide operating temperature range allows for use in various environments

Disadvantages

  • Limited output voltage options (only 2.5V in this case)
  • Higher cost compared to less precise voltage references

Working Principles

The LM4050QBIM3-2.5/NOPB utilizes bandgap reference technology to generate a stable and accurate voltage reference. It compensates for temperature variations by employing a temperature-compensated design, resulting in minimal voltage drift over a wide temperature range.

Detailed Application Field Plans

The LM4050QBIM3-2.5/NOPB finds applications in various fields, including:

  1. Precision analog-to-digital converters (ADCs)
  2. Voltage regulators and power management circuits
  3. Battery-powered devices
  4. Industrial control systems
  5. Test and measurement equipment
  6. Medical devices
  7. Automotive electronics

Detailed and Complete Alternative Models

  1. LM4040AIM3-2.5/NOPB: Similar to LM4050QBIM3-2.5/NOPB, but with an initial accuracy of ±0.2%.
  2. LT1236ACS8-2.5#PBF: Offers a higher initial accuracy of ±0.05% and lower temperature coefficient of 20ppm/°C.
  3. MAX6126AASA25+: Provides an initial accuracy of ±0.02% and ultra-low temperature coefficient of 3ppm/°C.

These alternative models offer different levels of precision and performance, allowing users to choose the most suitable option based on their specific requirements.

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Enumere 10 preguntas y respuestas comunes relacionadas con la aplicación de LM4050QBIM3-2.5/NOPB en soluciones técnicas

  1. What is the LM4050QBIM3-2.5/NOPB?
    The LM4050QBIM3-2.5/NOPB is a precision voltage reference diode that provides a stable 2.5V output.

  2. What are the typical applications of the LM4050QBIM3-2.5/NOPB?
    It is commonly used in precision analog circuits, data acquisition systems, and industrial instrumentation.

  3. How accurate is the LM4050QBIM3-2.5/NOPB?
    The LM4050QBIM3-2.5/NOPB has a high initial accuracy of ±0.5%.

  4. Can the LM4050QBIM3-2.5/NOPB operate in harsh environments?
    Yes, it has a wide operating temperature range and is suitable for industrial and automotive applications.

  5. What is the power consumption of the LM4050QBIM3-2.5/NOPB?
    It has low power consumption, typically drawing less than 100µA.

  6. Is the LM4050QBIM3-2.5/NOPB available in different package types?
    Yes, it is available in SOT-23 and SC-70 packages for flexibility in design.

  7. Can the LM4050QBIM3-2.5/NOPB be used in battery-powered devices?
    Yes, its low power consumption makes it suitable for battery-powered applications.

  8. Does the LM4050QBIM3-2.5/NOPB require external components for operation?
    It only requires a small bypass capacitor for stability.

  9. What is the long-term stability of the LM4050QBIM3-2.5/NOPB?
    It offers excellent long-term stability and reliability over time.

  10. Are there any specific layout considerations for using the LM4050QBIM3-2.5/NOPB?
    Care should be taken to minimize noise and thermal effects, and proper PCB layout practices should be followed for optimal performance.