Bulk Barcode Generator - MSI Plessey


Recommand:  Desktop Barcode Software With More Features:     Download Now

1. Enter barcode data in Excel for print bulk labels. 3. Generate sequence numbers for make barcodes.
2. Design barcode label with text, logo. 4. Print barcode label sheet to Avery 5160, 5161, 5162 . . .
5. Print barcode label on command line. 6. Add Ascii key to barcode: Tab, Enter, File Separator. etc.

Barcode Data: 

(Up to 100 rows, Desktop version no limits)

Tips:   You can edit data in Excel

or Word, then copy & paste

to this text box.

Or Make Sequence No. Barcodes.

Add Tab Key to Barcode

Use Excel Data to Print Bulk Barcode Labels - Desktop Freeware

Barcode Type:

ISBN Barcode With Price, QR Code bulk Generator

  Choose Another Barcode Type >>

Barcode Size:

Auto Resize to Fit Label Paper

  /     [ Width / Height ]     

Show Text on Bottom:

Add Multiple Line Texts to Barcode

Yes       No


Vertical Print Barcode and Text

Yes       No

Font Name / Size:

Export Barcodes to Word Excel for Further Editing



Right click each barcode to save to local.

Desktop version software can export bulk barcode images to a folder


Show detailed description of MSI Plessey Barcode  >>

About QR-Code

QR-Code was invented in 1994 by a team led by Masahiro Harada of the Japanese company Denso Wave, based on the barcode originally used to mark automobile parts. It is a two-dimensional matrix barcode that can achieve multiple uses.

QR-Code has the following advantages compared with one-dimensional barcodes:

QR-Code can store more information because it uses a two-dimensional square matrix instead of one-dimensional lines. One-dimensional barcodes can usually only store dozens of characters, while QR-Code can Stores thousands of characters.

QR-Code can represent more data types, such as numbers, letters, binary, Chinese characters, etc. One-dimensional barcodes can usually only represent numbers or letters.

QR-Code can be scanned and recognized faster because it has four positioning marks and can be scanned from any angle. One-dimensional barcodes usually need to be scanned from a specific direction.

QR-Code is more resistant to damage and interference because it has error correction capabilities that can recover partially lost or obscured data. One-dimensional barcodes generally do not have such capabilities.

The difference between two-dimensional barcodes and one-dimensional barcodes mainly lies in the encoding method and information capacity. Two-dimensional barcodes use a two-dimensional square matrix, which can store more information and represent more data types. One-dimensional barcodes use one-dimensional lines, can only store a small amount of information, and can only represent numbers or letters. There are other differences between two-dimensional barcodes and one-dimensional barcodes, such as scanning speed, error correction capabilities, compatibility, etc.

QR-Code is not the only two-dimensional barcode. According to the principle, two-dimensional barcodes can be divided into two categories: matrix and stacked. Common two-dimensional barcode types are: Data Matrix, MaxiCode, Aztec, QR -Code, PDF417, Vericode, Ultracode, Code 49, Code 16K, etc., they have different applications in different fields.

The two-dimensional barcode developed on the basis of the one-dimensional barcode has advantages that the one-dimensional barcode cannot compare with. As a portable data file, although it is still in its infancy, it is in the ever-improving market. Driven by the economy and rapidly developing information technology, coupled with the unique characteristics of 2D barcodes, the demand for the new technology of 2D barcodes in various countries is increasing day by day.

The future development of barcodes

Increase the capacity and information density of barcodes, enabling them to store more data, such as images, sounds, videos, etc.

The capacity and information density of barcodes refer to the amount of data that a barcode can store and the amount of data per unit area. Different types of barcodes have different capacities and information densities. Generally speaking, the capacity of two-dimensional barcodes and information density is higher than one-dimensional barcodes.

Currently, there are already some new barcode technologies, such as color barcodes, invisible barcodes, three-dimensional barcodes, etc. They all try to increase the capacity and information density of barcodes, but they also face some technical and application challenges. Therefore, there is still room and possibility to improve the capacity and information density of barcodes, but it also requires continuous innovation and optimization.

Enhance the security and anti-counterfeiting of barcodes, using encryption, digital signatures, watermarks and other technologies to prevent barcodes from being forged or tampered with. Specifically, there are several ways:

Encryption: Encrypt the data in the barcode so that it can only be decrypted by authorized equipment or personnel to prevent data leakage or malicious modification.

Digital signature: Add a digital signature to the barcode to verify the source and integrity of the barcode and prevent the barcode from being forged or tampered with.

Watermark: A watermark is embedded in the barcode to identify the owner or user of the barcode and prevent the barcode from being stolen or copied.

These technologies can improve the security and anti-counterfeiting of barcodes, but they will also increase the complexity and cost of barcodes, so they need to be selected and designed according to different application scenarios and needs.


 http://barcode.design/ - For Online

 http://Free-Barcode.com/ - For PC

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