E3F2-R4C4-M1-M-E Product Overview

Introduction

The E3F2-R4C4-M1-M-E belongs to the category of photoelectric sensors and is widely used in industrial automation applications. This sensor is known for its high precision, reliability, and versatility, making it suitable for a wide range of applications.

Basic Information Overview

Category: Photoelectric Sensor
Use: Industrial Automation
Characteristics: High precision, reliability, versatility
Package: Standard packaging
Essence: Detection and measurement
Packaging/Quantity: Standard packaging, quantity varies based on supplier

Specifications

Model: E3F2-R4C4-M1-M-E
Sensing Method: Through-beam
Sensing Distance: 4m
Output Configuration: NPN
Power Supply Voltage: 12-24V DC
Enclosure Rating: IP67
Operating Temperature: -25°C to 55°C
Connection Type: M8 Connector

Detailed Pin Configuration

The detailed pin configuration of the E3F2-R4C4-M1-M-E sensor is as follows: - Pin 1: V+ - Pin 2: Output - Pin 3: V- - Pin 4: GND

Functional Features

High precision detection
Long sensing distance
NPN output configuration for compatibility with various control systems
Durable construction suitable for industrial environments
Easy installation and maintenance

Advantages and Disadvantages

Advantages

Reliable and accurate detection
Versatile application in industrial automation
Robust construction for durability
Compatible with various control systems

Disadvantages

Limited sensing distance compared to some other sensors
Requires power supply for operation

Working Principles

The E3F2-R4C4-M1-M-E operates on the principle of photoelectric sensing, where it emits a light beam and detects the presence or absence of an object based on the interruption of the beam. The NPN output provides a signal when the object is detected, enabling seamless integration into control systems.

Detailed Application Field Plans

The E3F2-R4C4-M1-M-E sensor finds extensive use in the following application fields: - Conveyor belt systems for object detection - Automated packaging lines for product counting - Material handling equipment for presence detection - Robotics for part positioning and verification

Detailed and Complete Alternative Models

Some alternative models to the E3F2-R4C4-M1-M-E sensor include: - E3F2-R2B4-P1 - E3F2-R2RB4-P1 - E3F2-R2Z2-P1

In conclusion, the E3F2-R4C4-M1-M-E photoelectric sensor offers high precision, reliability, and versatility in industrial automation applications. Its functional features, advantages, and detailed application field plans make it a valuable component in various industries.

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Seznam 10 běžných otázek a odpovědí souvisejících s aplikací E3F2-R4C4-M1-M-E v technických řešeních

What is the operating principle of E3F2-R4C4-M1-M-E?
- E3F2-R4C4-M1-M-E is a photoelectric sensor that uses light to detect the presence or absence of an object.
What are the typical applications of E3F2-R4C4-M1-M-E?
- It is commonly used in industrial automation for object detection, counting, and positioning in manufacturing processes.
How does E3F2-R4C4-M1-M-E handle different types of objects?
- This sensor can be adjusted to detect various objects by setting the sensing distance and sensitivity according to the specific requirements.
What are the environmental considerations for using E3F2-R4C4-M1-M-E?
- It is important to consider factors such as ambient light, dust, and temperature to ensure optimal performance of the sensor.
Can E3F2-R4C4-M1-M-E be integrated with PLCs or other control systems?
- Yes, it can be easily integrated with programmable logic controllers (PLCs) and other control devices for seamless automation.
What are the maintenance requirements for E3F2-R4C4-M1-M-E?
- Regular cleaning and inspection of the sensor lens and housing are recommended to prevent any potential issues due to dirt or debris.
Is E3F2-R4C4-M1-M-E suitable for use in hazardous environments?
- Depending on the specific model, there are versions available that are designed to meet the requirements for hazardous locations.
What are the output options available with E3F2-R4C4-M1-M-E?
- This sensor typically provides digital outputs such as NPN or PNP transistor switching signals based on the detected object.
How can the sensing range of E3F2-R4C4-M1-M-E be adjusted?
- The sensing range can be adjusted using the potentiometer or through programming, allowing flexibility in different applications.
Are there any special considerations for installation of E3F2-R4C4-M1-M-E?
- Proper alignment and mounting of the sensor are crucial for accurate and reliable operation, and the manufacturer's guidelines should be followed closely.