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Bulk Barcode Generator - IATA
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https://barcode.design |
Recommand
Desktop Free
Barcode Software With More Features
https://free-barcode.com/ |
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1. Enter data in Excel for print bulk barcode labels.
2. Design complex label with barcodes, text, logo.
3. Generate sequence number for make barcodes.
4. Print barcode label sheet to Avery 5160, 5161, etc.
5. Print barcode label by command line.
6. Add Ascii key to barcode: Tab, Enter, etc. |
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What is the difference between EAN-13 barcode and UPC-A barcode? | The EAN-13 barcode has one more country/region code than the UPC-A barcode. In fact, the UPC-A barcode can be regarded as a special case of the EAN-13 barcode, which is the EAN-13 barcode with the first digit set to 0. The EAN-13 barcode is developed by the International Article Numbering Center and is universally accepted. The code length is 13 digits, and the first two digits represent the country or region code. UPC-A barcode is produced by the United States Uniform Code Committee and is mainly used in the United States and Canada. The code length is 12 digits, and the first digit indicates the numeric system code. EAN-13 barcode and UPC-A barcode have the same structure and verification method, and similar appearance. EAN-13 barcode is a superset of UPC-A barcode and can be compatible with UPC-A barcode. If I have a UPC code, do I still need to apply for an EAN? No need. Both UPC and EAN can identify goods. Although the former originated in the United States, it is part of the global GS1 system, so if you register UPC under the GS1 organization, it can be used globally. If you need to print a 13-digit EAN barcode, you can add the number 0 in front of the UPC code. UPC-A barcodes can be converted to EAN-13 barcodes by prepending 0. For example, the UPC-A barcode [012345678905] corresponds to the EAN-13 barcode [0012345678905]. Doing this ensures Compatibility with UPC-A barcodes. | About Code-128 barcode | Code-128 barcode was developed by COMPUTER IDENTICS in 1981. It is a variable-length, continuous alphanumeric barcode. Code-128 barcode consists of a blank area, a start mark, a data area, a check character and a terminator. It has three subsets, namely A, B and C, which can represent different character sets. It can also be used to achieve multi-level encoding through the selection of starting characters, code set characters, and conversion characters. It can encode all 128 ASCII characters, including numbers, letters, symbols and control characters, so it can represent all characters on the computer keyboard. It can achieve high-density and efficient data representation through multi-level encoding, and can be used for automatic identification in any management system. It is compatible with the EAN/UCC system and is used to represent the information of the storage and transportation unit or logistics unit of the commodity. In this case, it is called GS1-128. Code-128 barcode standard was developed by Computer Identics Corporation [USA] in 1981. It can represent all 128 ASCII code characters and is suitable for convenient application on computers. The purpose of formulating this standard is to Improve barcode encoding efficiency and reliability. Code128 is a high-density barcode. It uses three versions of character sets [A, B, C] and the selection of starting characters, code set characters, and conversion characters, according to different data Type and length, choose the most appropriate encoding method. This can reduce the length of the barcode and improve encoding efficiency. In addition, Code128 also uses check characters and terminators, which can increase the reliability of the barcode and prevent misreading or missed reading. Code-128 barcode is widely used in internal management of enterprises, production processes, and logistics control systems. It has many application scenarios, mainly in industries such as transportation, logistics, clothing, food, pharmaceuticals, and medical equipment. | About UPC-A barcode | UPC-A is a barcode symbol used to track items in stores and is only used in the United States and Canada. It consists of 12 digits and each item has a unique code. It was formulated by the Uniform Code Council in the United States in 1973, jointly developed with IBM, and has been in use since 1974. It was the earliest barcode system used for product settlement in supermarkets. An item marked with a UPC-A barcode was scanned at the checkout counter at a Troys Marsh supermarket. The reason why UPC-A barcodes are used in supermarkets is that it can quickly, accurately and conveniently identify product information, such as price, inventory, sales volume, etc. UPC-A barcode consists of 12 digits, of which the first 6 digits represent the manufacturer code, the last 5 digits represent the product code, and the last digit is the check digit. In this way, we only need to scan the barcode at the supermarket checkout counter , you can quickly obtain product price and inventory information, greatly improving the work efficiency of supermarket salespeople. UPC-A barcode is mainly used in the United States and Canadian markets, while other countries and regions use EAN-13 barcodes. The difference between them is that the EAN-13 barcode has one more country code. | Will barcodes be replaced by other technologies? | There are different views on the future of barcoding. Some people believe that barcodes will be replaced by other technologies due to the emergence of more advanced technologies, such as RFID and NFC. Some people believe that barcodes are still useful because of their advantages such as low cost and ease of use. Barcode will not be completely replaced by other technologies because it has its own unique advantages. The future of barcodes depends on many factors, such as cost, efficiency, security, compatibility, etc. It is a technology with a history, and it has applications in many fields, such as retail, logistics, medical, etc. . Barcodes can also evolve and innovate alongside other technologies. For example: RFID has many advantages. It has high security, can store more data, can be read from a long distance, can update and modify data, and can prevent damage and tampering. But RFID cannot replace barcodes because barcodes are cheaper and have better compatibility. The disadvantages of RFID are its high cost, the need for specialized equipment and software, the possibility of interference from metals or liquids, and the potential for privacy and security issues. The disadvantages of barcodes are the limited amount of data and the need to scan at close range. Data cannot be altered and is easily destroyed or imitated. Although barcode security is not as good as RFID, not all applications require a high degree of security. Therefore, it is wise to use RFID in applications with high security requirements and barcodes in applications with low security requirements. Because the cost of barcodes is much lower than RFID. So, RFID and barcode have their own applicable situations and cannot be generalized. |
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