Varec 8620 manual Configuration, Setting Function

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8620 Driver Entry Terminal

4 Configuration

Pin 5

J3

Pin 3

Pin 1

Figure 4-1: J3 on the Single Board Computer

Configuring the 8620 DET consists of the following:

Configuring the RS-232 Com port (Com 1, 2, 3, and 4)

Configuring the RS-485/422 or RS-232 Com port (Com 2)

Configuring the DET.Config File

Note Com 2 is a dual protocol port that can be an RS-232 or an RS-485/422 communi- cations protocol set by jumper J3 on the single board computer (see Figure 4-1 above) as shown in Table 4-1.

Setting

Function

 

 

1-2

RS-232

 

 

3-4

RS-485(Default)

 

 

5-6

RS-422

 

 

Table 4-1: Com 2 Setting (J3)

Varec, Inc.

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Contents Dispatch and Fuels Accounting Installation and Operations ManualVarec, Inc CopyrightIii Disclaimer of Warranties Limitations of Sellers LiabilitySafety Precautions Contents Contents Overview IntroductionDriver Entry Terminal Description IntroductionPLC Functionality and System DesignIntroduction Installation Safety Guidelines Preparing for InstallationSite Preparation Checklist General Safety GuidelinesPreparing for Installation InstallationUnpacking DET Dimensions Preparing for Installation Wiring 8620 DET Internal Wiring WiringPin Pin Name Signal Type PowerCommunications Communication Protocol Communications WiringPin Wire Color Terminal Pin Pin NameSetting Function ConfigurationConfiguration Configuring the DET.Config FileVariables Used in the DET.Config File Configuration Maintenance Maintenance and TroubleshootingDescription Maintenance and TroubleshootingUsing Local Diagnostics LED Indicators TroubleshootingPurpose Description Replacing a Fuse General SpecificationsSystem Components Specifications Mechanical Construction Host CommunicationEnvironmental ElectricalCertifications and Approvals Order Codes Ordering InformationData Entry Terminal Ordering Information Page Document Code IOM097GVAE0709

8620 specifications

Varec 8620 is a specialized alloy steel that combines exceptional strength, toughness, and wear resistance, making it highly desirable in various industrial applications. This alloy is primarily composed of carbon, manganese, chromium, molybdenum, and nickel, offering a well-balanced microstructure that enhances its mechanical properties.

One of the main features of Varec 8620 is its versatility; it can be heat-treated to achieve different hardness levels and mechanical properties. This adaptability allows it to be tailored for specific applications, such as gears, crankshafts, and other critical components in automotive and aerospace industries. The alloy's effective balance of strength and ductility lends itself well to applications requiring material that can withstand dynamic loads and high-stress environments.

The manufacturing process of Varec 8620 often utilizes methods like forging, machining, and heat treatment. The heat treatment process, typically involving quenching and tempering, significantly improves the alloy's hardness and tensile strength, making it suitable for more demanding applications. Additionally, the alloy can be surface-hardened through processes like carburizing, which enhances its wear resistance and ensures longevity.

Key technologies employed in the production of Varec 8620 include advanced metallurgical techniques that optimize grain size and structure. These techniques contribute to the consistent performance of the alloy in service, ensuring reliability and efficiency. The alloy also benefits from specialized heat treatment techniques, which refine its internal microstructure, further enhancing its mechanical properties.

In terms of characteristics, Varec 8620 exhibits excellent fatigue resistance and impact toughness, making it ideal for parts subjected to cyclic loading. Its compatibility with various manufacturing processes allows for easy integration into existing production workflows. With a good balance between cost and performance, Varec 8620 provides a practical solution for manufacturers seeking durable and reliable materials.

Overall, Varec 8620 stands out as a robust and adaptable alloy steel, suitable for a wide range of critical applications. Its combination of mechanical properties, along with advanced processing capabilities, positions it as a preferred choice in industries where performance and reliability are paramount.