Opticon NFT 2135, NFT 1125 manual Redundant Decoding

Page 55

Manual No. 25-NFT1121-01

Series NFT-1121/2135 Mini CCD Fixed Position Scanners

26. Redundant Decoding

The Number of Redundant Decodes determines how many times the scanner must decode a bar code and obtain the same value before it will transmit the data. For example, if the redundancy is set at three times, the scanner will not transmit data until it has decoded the bar code and obtained the same values three times in succession. If it obtains the same value twice in a row, but a different value on the third read attempt, it will not transmit. If it gets the same value three out of four times, it will not transmit. It must receive three consecutive, identical reads.

Computer

Function

Bar Code

 

Command

/Description

Command

 

(Z7)

START/END

,Z7,

 

Programming Menu

 

 

 

 

 

X0

Read bar code once

,X0,

 

 

 

 

 

 

 

 

X1

Read bar code twice

,X1,

B

 

 

 

 

 

 

 

X2

Read bar code three times

,X2,

 

 

 

 

 

X3

Read bar code four times

,X3,

 

 

 

 

 

Page 49

Image 55
Contents Series NFT 1125/2135 User’s ManualThis page left intentionally blank for repagenation Contents This page left intentionally blank for repagenation Organization of this Manual This page left intentionally blank for repagenation Section Introduction and Getting Started Quick Start-Up ProcedureProduct Overview Page Optical Specifications Section Technical SpecificationsPhysical Specifications Symbologies SupportedRS232 Communications Specifications Electrical SpecificationsEnvironmental Specifications Connector Pin-OutsPage Getting Optimum Performance Section Positioning the ScannerField-of-View Maximum Readable Bar Code Width LEDs Read Rate Test Measuring Scanner PerformanceTips for Achieving High Throughput Application NotesTips for Insuring Highest Data Integrity Tips for Verifying the Presence of a Bar Code Programming Menus & Commands Section Configuring the ScannerDefault Settings Page Modified and/or Customized Scanners Section Application Engineering SupportTechnical Assistance and Support Common Causes of Poor PerformancePage Appendix a Programming Menus & Commands Index Introduction Programming via Computer CommandsProgramming via Bar Codes Page Computer Function Bar Code Command Description Global Default & Scanner ConfigurationsSymbology Selection Symbology Selection Add/Activate Specific Bar Code SymbologiesAdd/Activate Specific Bar Code Symbologies Delete/Deactivate Specific Bar Code Symbologies Options for UPC Options for Code Options for Codabar NW-7 Options for Codabar NW-7 5 Standard and Interleaved Format Options for 2CPN Options for IataFixing the Number of Digits Creating a Prefix and/or Suffix Setting Prefixes Identifying the Symbology Setting Prefixes Identifying the Symbology Setting Suffixes Identifying the SymbologySetting Suffixes Identifying the Symbology Direct Input of Numeric Characters Direct Input of Alpha Characters Direct Input of Control Characters Enable Number of Characters/Digits TransmittedSTART/END Enable Number of Characters/Digits TransmittedDisable Number of Characters/Digits Transmitted Communication Parameters Disable Number of Characters/Digits TransmittedCommunication Parameters Handshaking Buzzer Operation Buzzer Operation Positive & Negative Bar CodesSetting the Trigger Function Selecting the Read Mode Scanner Timeout Trigger Enabled Mode only Redundant Decoding STX?ETX for no read Transmitting Error Indications Trigger Enabled onlyPrint Quality Adjustments Page 1126/2126 Side View Appendix B Dimensional Drawings1127/2127 Front View Appendix C Optical Performance Charts

NFT 1125, NFT 2135 specifications

Opticon NFT 2135 and NFT 1125 are two prominent examples of the innovative applications of blockchain technology in the world of digital art and collectibles. They symbolize the burgeoning trend of non-fungible tokens (NFTs) which provide verifiable ownership of unique digital items.

Opticon NFT 2135 is celebrated for its intricate design and immersive experience. It features a stunning visual representation that blends cutting-edge graphics with augmented reality elements. Users can interact with the NFT in various environments, allowing them to explore its dynamic aspects from different angles. The underlying technology leverages smart contracts on the blockchain, ensuring that ownership and transaction history are transparent and secure. Each piece is minted on a specific blockchain that supports the ERC-721 standard, empowering users with proof of authenticity and enabling interoperability across multiple platforms.

On the other hand, Opticon NFT 1125 is distinguished by its utility and community engagement features. This NFT offers holders exclusive access to in-game assets and experiences in various virtual ecosystems. The characteristic trait of NFT 1125 lies in its ability to unlock additional functionalities for its owner, such as special events, early access to drops, and voting rights in community decisions regarding future projects. This aspect of utility not only elevates the value of the NFT but also fosters a sense of belonging among collectors and enthusiasts.

Both NFTs employ advanced technologies such as blockchain analytics and decentralized finance (DeFi) functionalities. These technologies enhance user experience by providing seamless transactions and low fees while maintaining security. The growing ecosystem of marketplaces dedicated to trading NFTs further amplifies their visibility and accessibility.

In summary, Opticon NFT 2135 and NFT 1125 showcase the diverse characteristics and technological prowess of NFTs. While NFT 2135 emphasizes artistic expression and immersive interaction, NFT 1125 focuses on community involvement and utility. Together, they illustrate how NFTs can be more than just collectibles; they can serve as gateways to interactive and engaging experiences in the digital landscape. The evolution of these NFTs not only highlights the potential of blockchain technology but also paves the way for innovative future applications.