E6C2-CWZ3E 10P/R 2M Encoder

Basic Information Overview

Category: Industrial Automation Component
Use: Position and motion sensing in industrial machinery
Characteristics: High precision, durable, compact design
Package Essence: Enclosed in a protective housing
Packaging/Quantity: Typically sold individually or in small quantities

Specifications

Model: E6C2-CWZ3E 10P/R 2M
Resolution: 10 pulses per revolution (10P/R)
Cable Length: 2 meters
Output Type: Incremental

Detailed Pin Configuration

The E6C2-CWZ3E 10P/R 2M encoder typically features the following pin configuration: 1. Vcc 2. Ground 3. A phase output 4. B phase output 5. Z phase output

Functional Features

High Precision: Provides accurate position and motion feedback
Durable Construction: Suitable for harsh industrial environments
Incremental Output: Delivers real-time position information

Advantages and Disadvantages

Advantages

Reliable and accurate position sensing
Compact design for easy integration
Durable construction for longevity

Disadvantages

Requires additional decoding circuitry for absolute position determination
Limited resolution compared to some absolute encoders

Working Principles

The E6C2-CWZ3E 10P/R 2M encoder operates on the principle of converting mechanical motion into electrical signals. As the shaft rotates, the encoder generates pulses that correspond to the position and speed of the rotating shaft.

Detailed Application Field Plans

The E6C2-CWZ3E 10P/R 2M encoder is commonly used in various industrial applications, including: - CNC machinery - Robotics - Conveyor systems - Packaging equipment

Detailed and Complete Alternative Models

E6C2-CWZ6C 360P/R 2M
E6C2-CWZ5B 1000P/R 2M
E6C2-CWZ1X 5000P/R 2M

This completes the entry for the E6C2-CWZ3E 10P/R 2M encoder, providing comprehensive information about its product details, specifications, functional features, advantages and disadvantages, working principles, application field plans, and alternative models.

10个与E6C2-CWZ3E 10P/R 2M在技术解决方案中的应用相关的常见问题及解答

What is the E6C2-CWZ3E 10P/R 2M used for?
- The E6C2-CWZ3E 10P/R 2M is a rotary encoder commonly used for measuring rotational position and speed in various technical solutions.
What is the resolution of the E6C2-CWZ3E 10P/R 2M?
- The E6C2-CWZ3E 10P/R 2M has a resolution of 10 pulses per revolution (P/R).
What is the output signal of the E6C2-CWZ3E 10P/R 2M?
- The E6C2-CWZ3E 10P/R 2M typically provides quadrature outputs, which consist of two square wave signals that are 90 degrees out of phase with each other.
What is the operating voltage range of the E6C2-CWZ3E 10P/R 2M?
- The E6C2-CWZ3E 10P/R 2M operates within a voltage range of 5V to 12V DC.
Is the E6C2-CWZ3E 10P/R 2M suitable for harsh environments?
- Yes, the E6C2-CWZ3E 10P/R 2M is designed to withstand harsh industrial environments and has a high level of durability.
Can the E6C2-CWZ3E 10P/R 2M be used for closed-loop control systems?
- Yes, the E6C2-CWZ3E 10P/R 2M can be integrated into closed-loop control systems to provide accurate feedback on rotational position and speed.
What is the maximum speed at which the E6C2-CWZ3E 10P/R 2M can operate?
- The E6C2-CWZ3E 10P/R 2M can typically handle speeds up to 5000 RPM, making it suitable for a wide range of applications.
Does the E6C2-CWZ3E 10P/R 2M require any special mounting considerations?
- It is recommended to mount the E6C2-CWZ3E 10P/R 2M securely and ensure proper alignment to achieve accurate measurements.
Can the E6C2-CWZ3E 10P/R 2M be interfaced with microcontrollers or PLCs?
- Yes, the E6C2-CWZ3E 10P/R 2M can be easily interfaced with microcontrollers or PLCs using its quadrature output signals.
Are there any programming considerations when using the E6C2-CWZ3E 10P/R 2M in technical solutions?
- When integrating the E6C2-CWZ3E 10P/R 2M, it's important to consider the decoding of the quadrature signals and implement appropriate algorithms for position and speed calculations.