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SS495B

SS495B Sensor

Product Overview

Category

The SS495B sensor belongs to the category of Hall Effect sensors.

Use

It is commonly used for measuring magnetic fields in various applications.

Characteristics

  • Small and compact design
  • High sensitivity to magnetic fields
  • Wide operating temperature range
  • Low power consumption

Package

The SS495B sensor is typically available in a TO-92 package.

Essence

This sensor is essential for detecting and measuring magnetic fields accurately.

Packaging/Quantity

The sensor is usually packaged individually and is available in varying quantities depending on the supplier.

Specifications

  • Operating Voltage: 4.5V to 10.5V
  • Output Voltage: 2.5V ± 0.5V at 25°C
  • Output Current: 7mA
  • Operating Temperature: -40°C to 150°C
  • Sensitivity: 2.5mV/G

Detailed Pin Configuration

  1. VCC (Voltage supply)
  2. GND (Ground)
  3. VOUT (Analog output)

Functional Features

  • Linear output proportional to the strength of the magnetic field
  • Reverse polarity protection
  • Built-in voltage regulator for wide operating voltage range

Advantages

  • High sensitivity and accuracy
  • Wide operating temperature range
  • Compact and easy to integrate into various systems

Disadvantages

  • Susceptible to electromagnetic interference
  • Requires careful shielding in high-noise environments

Working Principles

The SS495B sensor operates based on the Hall Effect, where the output voltage is directly proportional to the strength of the magnetic field perpendicular to the sensor.

Detailed Application Field Plans

Automotive Industry

Used for position sensing in throttle and brake pedals, as well as gearbox and steering angle detection.

Industrial Automation

Applied in proximity sensing, speed detection, and motor control systems.

Consumer Electronics

Utilized in joystick controllers, rotary encoders, and smart home devices for position and proximity detection.

Detailed and Complete Alternative Models

  • A1324LUA-T: Similar specifications with digital output
  • SS49E: Lower sensitivity but wider temperature range

In conclusion, the SS495B sensor is a versatile component widely used for magnetic field measurement in various industries due to its compact design, high sensitivity, and reliable performance across different applications.

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Luettele 10 yleistä kysymystä ja vastausta, jotka liittyvät SS495B :n soveltamiseen teknisissä ratkaisuissa

  1. What is SS495B?

    • SS495B is a linear Hall effect sensor that provides an analog output proportional to the strength of the magnetic field present.
  2. How does SS495B work?

    • The SS495B operates based on the Hall effect, where a voltage is generated across the sensor in response to a magnetic field perpendicular to the current flow.
  3. What are the typical applications of SS495B?

    • SS495B is commonly used in position sensing, speed detection, and current sensing applications in various technical solutions.
  4. What is the operating voltage range for SS495B?

    • The operating voltage range for SS495B is typically between 4.5V and 10V.
  5. What is the output signal type of SS495B?

    • SS495B provides an analog output signal, usually in the form of a voltage proportional to the magnetic field strength.
  6. What is the sensitivity of SS495B?

    • The sensitivity of SS495B is typically specified in millivolts per gauss (mV/G), indicating the change in output voltage per unit change in magnetic field strength.
  7. Can SS495B be used in harsh environments?

    • Yes, SS495B is often designed to operate in harsh environments and can withstand temperature variations and mechanical stress.
  8. What are the key advantages of using SS495B in technical solutions?

    • Some advantages of SS495B include its high sensitivity, low power consumption, and ability to provide accurate and reliable measurements.
  9. How should SS495B be interfaced with microcontrollers or other electronic devices?

    • SS495B can be interfaced with microcontrollers or electronic devices through analog-to-digital converters (ADCs) or signal conditioning circuits to process the analog output.
  10. Are there any special considerations for PCB layout when using SS495B?

    • It is important to minimize noise and interference in the PCB layout when using SS495B, and to ensure proper grounding and shielding to maintain accuracy in measurements.