From http://www.w3schools.com (Copyright Refsnes Data)
To display an HTML page correctly, the browser must know what character-set to use.
The character-set for the early world wide web was ASCII. ASCII supports the numbers from 0-9, the uppercase and lowercase English alphabet, and some special characters.
Since many countries use characters which are not a part of ASCII, the default character-set for modern browsers is ISO-8859-1.
Complete ISO-8859-1 reference.
If a web page uses a different character-set than ISO-8859-1, it should be specified in the <meta> tag.
It is the International Standards Organization (ISO) that defines the standard character-sets for different alphabets/languages.
The different character-sets being used around the world are listed below:
| Character set | Description | Covers |
|---|---|---|
| ISO-8859-1 | Latin alphabet part 1 | North America, Western Europe, Latin America, the Caribbean, Canada, Africa |
| ISO-8859-2 | Latin alphabet part 2 | Eastern Europe |
| ISO-8859-3 | Latin alphabet part 3 | SE Europe, Esperanto, miscellaneous others |
| ISO-8859-4 | Latin alphabet part 4 | Scandinavia/Baltics (and others not in ISO-8859-1) |
| ISO-8859-5 | Latin/Cyrillic alphabet part 5 | The languages that are using a Cyrillic alphabet such as Bulgarian, Belarusian, Russian and Macedonian |
| ISO-8859-6 | Latin/Arabic alphabet part 6 | The languages that are using the Arabic alphabet |
| ISO-8859-7 | Latin/Greek alphabet part 7 | The modern Greek language as well as mathematical symbols derived from the Greek |
| ISO-8859-8 | Latin/Hebrew alphabet part 8 | The languages that are using the Hebrew alphabet |
| ISO-8859-9 | Latin 5 alphabet part 9 | The Turkish language. Same as ISO-8859-1 except Turkish characters replace Icelandic ones |
| ISO-8859-10 | Latin 6 Lappish, Nordic, Eskimo | The Nordic languages |
| ISO-8859-15 | Latin 9 (aka Latin 0) | Similar to ISO 8859-1 but replaces some less common symbols with the euro sign and some other missing characters |
| ISO-2022-JP | Latin/Japanese alphabet part 1 | The Japanese language |
| ISO-2022-JP-2 | Latin/Japanese alphabet part 2 | The Japanese language |
| ISO-2022-KR | Latin/Korean alphabet part 1 | The Korean language |
Because the character-sets listed above are limited in size, and are not compatible in multilingual environments, the Unicode Consortium developed the Unicode Standard.
The Unicode Standard covers all the characters, punctuations, and symbols in the world.
Unicode enables processing, storage and interchange of text data no matter what the platform, no matter what the program, no matter what the language.
The Unicode Consortium develops the Unicode Standard. Their goal is to replace the existing character-sets with its standard Unicode Transformation Format (UTF).
The Unicode Standard has become a success and is implemented in XML, Java, ECMAScript (JavaScript), LDAP, CORBA 3.0, WML, etc. The Unicode standard is also supported in many operating systems and all modern browsers.
The Unicode Consortium cooperates with the leading standards development organizations, like ISO, W3C, and ECMA.
Unicode can be implemented by different character-sets. The most commonly used encodings are UTF-8 and UTF-16:
| Character-set | Description |
|---|---|
| UTF-8 | A character in UTF8 can be from 1 to 4 bytes long. UTF-8 can represent any character in the Unicode standard. UTF-8 is backwards compatible with ASCII. UTF-8 is the preferred encoding for e-mail and web pages |
| UTF-16 | 16-bit Unicode Transformation Format is a variable-length character encoding for Unicode, capable of encoding the entire Unicode repertoire. UTF-16 is used in major operating systems and environments, like Microsoft Windows 2000/XP/2003/Vista/CE and the Java and .NET byte code environments |
Tip: The first 256 characters of Unicode character-sets correspond to the 256 characters of ISO-8859-1.
Tip: All HTML 4 processors already support UTF-8, and all XHTML and XML processors support UTF-8 and UTF-16!
From http://www.w3schools.com (Copyright Refsnes Data)