Step 1: Determine the UTF-8 encoding bit layout
The character has the Unicode code point U+0B11. In UTF-8, it is encoded using 3 bytes because its codepoint is in the range of
0x0800to0xffff.
Therefore we know that the UTF-8 encoding will be done over 16 bits within the final 24 bits and that it will have the format:1110xxxx 10xxxxxx 10xxxxxx
Where thexare the payload bits.UTF-8 Encoding bit layout by codepoint range Codepoint Range Bytes Bit pattern Payload length U+0000 - U+007F 1 0xxxxxxx 7 bits U+0080 - U+07FF 2 110xxxxx 10xxxxxx 11 bits U+0800 - U+FFFF 3 1110xxxx 10xxxxxx 10xxxxxx 16 bits U+10000 - U+10FFFF 4 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx 21 bits Step 2: Obtain the payload bits:
Convert the hexadecimal code point U+0B11 to binary:
00001011 00010001. Those are the payload bits.Step 3: Fill in the bits to match the bit pattern:
Obtain the final bytes by arranging the paylod bits to match the bit layout:
11100000 10101100 10010001
CHARACTER 0B11·U+0B11
Character Information
Code Point
U+0B11
HEX
0B11
Unicode Plane
Basic Multilingual Plane
Character Representations
Click elements to copy| Encoding | Hex | Binary |
|---|---|---|
| UTF8 | E0 AC 91 | 11100000 10101100 10010001 |
| UTF16 (big Endian) | 0B 11 | 00001011 00010001 |
| UTF16 (little Endian) | 11 0B | 00010001 00001011 |
| UTF32 (big Endian) | 00 00 0B 11 | 00000000 00000000 00001011 00010001 |
| UTF32 (little Endian) | 11 0B 00 00 | 00010001 00001011 00000000 00000000 |
HTML Entity
଑
URI Encoded
%E0%AC%91
Description
The Unicode character U+0B11 (CHARACTER 0B11) holds a unique place within the vast landscape of typography and digital text. As a specialist in Unicode and typography, it is crucial to highlight its key attributes and potential applications for those who may encounter or utilize this particular symbol. U+0B11 is primarily associated with the Ethiopic syllabary, an ancient script system used to represent the Ethiopian languages of Amharic, Tigrinya, and several other regional tongues. This character specifically represents a sound or phoneme within these languages, contributing to their distinct pronunciation and linguistic identity. In digital text, U+0B11 serves as an essential component for accurately transcribing and translating Ethiopic languages in various electronic platforms, such as word processors and websites. Its inclusion within the Unicode Standard ensures that this character can be reliably encoded and displayed across diverse devices and operating systems, thus preserving the integrity of these unique languages in the digital realm. In summary, U+0B11 (CHARACTER 0B11) is an integral part of the Ethiopic syllabary, playing a crucial role in accurately representing the sounds of Amharic and other Ethiopian languages in digital text. Its presence within the Unicode Standard ensures that these languages can be faithfully transcribed and shared across platforms and devices, thereby preserving their cultural and linguistic heritage for future generations.
How to type the symbol on Windows
Hold Alt and type 2833 on the numpad. Or use Character Map.