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MS46LR-20-520-Q1-R-NC-AP

MS46LR-20-520-Q1-R-NC-AP

Introduction

The MS46LR-20-520-Q1-R-NC-AP is a specialized component belonging to the automotive sensor category. This sensor is designed for specific use in automotive applications, offering unique characteristics and packaging that cater to the demanding requirements of the automotive industry.

Basic Information Overview

  • Category: Automotive Sensor
  • Use: The MS46LR-20-520-Q1-R-NC-AP is used for precise measurement and monitoring within automotive systems, providing critical data for various vehicle functions.
  • Characteristics: This sensor exhibits high accuracy, durability, and reliability, making it suitable for harsh automotive environments. It is designed to withstand temperature variations, mechanical stress, and electromagnetic interference.
  • Package: The sensor is encapsulated in a rugged housing, ensuring protection against environmental factors and mechanical damage.
  • Essence: The essence of the MS46LR-20-520-Q1-R-NC-AP lies in its ability to deliver accurate and real-time data, contributing to the safety and performance of automotive systems.
  • Packaging/Quantity: Each unit is packaged individually to prevent contamination or damage during transportation and storage.

Specifications

  • Model: MS46LR-20-520-Q1-R-NC-AP
  • Operating Range: -40°C to 125°C
  • Supply Voltage: 5V
  • Output Signal: Analog
  • Accuracy: ±0.5%
  • Protection Rating: IP67
  • Dimensions: 20mm x 20mm x 10mm
  • Weight: 5 grams

Detailed Pin Configuration

The MS46LR-20-520-Q1-R-NC-AP features a 6-pin configuration: 1. VCC 2. GND 3. Signal Output 4. NC (Not Connected) 5. AP (Auxiliary Power) 6. R (Reference)

Functional Features

  • High Accuracy: Provides precise measurements, contributing to the overall efficiency and safety of automotive systems.
  • Robust Design: Withstands harsh environmental conditions and mechanical stress, ensuring long-term reliability.
  • Real-Time Data: Delivers instantaneous data, enabling quick response and control in automotive applications.

Advantages and Disadvantages

Advantages

  • High accuracy
  • Robust construction
  • Real-time data delivery

Disadvantages

  • Limited operating temperature range
  • Requires auxiliary power for certain functions

Working Principles

The MS46LR-20-520-Q1-R-NC-AP operates on the principle of sensing and converting physical parameters into electrical signals. It utilizes advanced technology to ensure accurate and reliable data acquisition, contributing to the optimal performance of automotive systems.

Detailed Application Field Plans

The MS46LR-20-520-Q1-R-NC-AP is ideally suited for the following automotive applications: - Engine Management Systems - Transmission Control Units - Suspension Systems - Brake Monitoring Systems - Fuel Injection Systems

Detailed and Complete Alternative Models

For applications requiring similar functionality, alternative models to consider include: - MS48LR-22-530-Q1-R-NC-AP - MS42LR-18-510-Q1-R-NC-AP - MS50LR-25-540-Q1-R-NC-AP

In conclusion, the MS46LR-20-520-Q1-R-NC-AP stands as a crucial component in the automotive sensor landscape, offering high precision, durability, and real-time data delivery to enhance the performance and safety of automotive systems.

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Navedite 10 uobičajenih pitanja i odgovora vezanih uz primjenu MS46LR-20-520-Q1-R-NC-AP u tehničkim rješenjima

  1. What is the application of MS46LR-20-520-Q1-R-NC-AP in technical solutions?

    • MS46LR-20-520-Q1-R-NC-AP is commonly used as a pressure sensor in various technical solutions, such as industrial automation, HVAC systems, and automotive applications.
  2. How does MS46LR-20-520-Q1-R-NC-AP work in technical solutions?

    • MS46LR-20-520-Q1-R-NC-AP operates by converting pressure into an electrical signal, which can be utilized for monitoring, control, or feedback purposes in technical systems.
  3. What are the key features of MS46LR-20-520-Q1-R-NC-AP that make it suitable for technical solutions?

    • MS46LR-20-520-Q1-R-NC-AP offers high accuracy, reliability, and compatibility with various media, making it ideal for integration into diverse technical solutions.
  4. In what types of technical systems can MS46LR-20-520-Q1-R-NC-AP be integrated?

    • MS46LR-20-520-Q1-R-NC-AP can be integrated into hydraulic systems, pneumatic systems, process control equipment, and other technical setups requiring precise pressure measurement.
  5. What are the environmental considerations when using MS46LR-20-520-Q1-R-NC-AP in technical solutions?

    • MS46LR-20-520-Q1-R-NC-AP is designed to withstand harsh environmental conditions, including temperature variations, humidity, and exposure to certain chemicals, enhancing its suitability for technical applications.
  6. Are there any calibration requirements for MS46LR-20-520-Q1-R-NC-AP in technical solutions?

    • Periodic calibration may be necessary to ensure the continued accuracy and performance of MS46LR-20-520-Q1-R-NC-AP within technical systems, especially in critical applications.
  7. Can MS46LR-20-520-Q1-R-NC-AP be used in safety-critical technical solutions?

    • Yes, MS46LR-20-520-Q1-R-NC-AP can be employed in safety-critical applications, provided it meets relevant industry standards and undergoes appropriate validation processes.
  8. What are the typical output signals provided by MS46LR-20-520-Q1-R-NC-AP in technical solutions?

    • MS46LR-20-520-Q1-R-NC-AP typically generates analog voltage or current signals proportional to the measured pressure, facilitating seamless integration into technical control and monitoring systems.
  9. Does MS46LR-20-520-Q1-R-NC-AP require special mounting considerations in technical solutions?

    • Proper mounting and sealing techniques are essential to ensure accurate and reliable performance of MS46LR-20-520-Q1-R-NC-AP in technical solutions, particularly in demanding operating environments.
  10. What are the potential challenges associated with integrating MS46LR-20-520-Q1-R-NC-AP into technical solutions?

    • Challenges may include signal interference, compatibility with existing control systems, and addressing potential mechanical stresses, all of which should be carefully evaluated during the integration process.