Konverter Teks Biner ke Ascii

Contoh konverter biner ke Ascii

Memasukan data

01000101 01111000 01100001 01101101 01110000 01101100 01100101

Data Keluaran

Example

Bagaimana Mengonversi Biner ke Teks

Ubah kode ASCII biner menjadi teks:

  1. Dapatkan byte biner
  2. Ubah byte biner ke desimal
  3. Dapatkan karakter kode ASCII dari tabel ASCII
  4. Lanjutkan dengan byte berikutnya

Bagaimana cara mengubah biner 01000001 menjadi teks?

Gunakan tabel ASCII:
010100002 = 26+24 = 64+16 = 80 => "P"
011011002 = 26+25+23+22 = 64+32+8+4 = 108 => "l"
011000012 = 26+25+ 20 = 64+32+1 = 97 => "a"
01000001 = 2^6+2^2 = 64+1 = 65 = 'A'
00110000 = 2^5+2^4 = 2^5+2^4 = 32+16 = 48 = '0'

Tabel konversi teks biner ke ASCII

Heksadesimal biner Karakter ASCII
00 00000000 NUL
01 0000001 SOH
02 00000010 STX
03 00000011 ETX
04 00000100 EOT
05 00000101 PERTANYAAN
06 00000110 ACK
07 00000111 BEL
08 00001000 BS
09 00001001 HT
0A 00001010 LF
0B 00001011 VT
0C 00001100 FF
0D 00001101 CR
0E 00001110 JADI
0F 00001111 SI
10 00000000 DLE
11 00010001 DC1
12 00010010 DC2
13 00010011 DC3
14 00010100 DC4
15 00010101 NAK
16 00010110 SYN
17 00010111 ETB
18 00011000 BISA
19 00011001 EM
1A 00011010 SUB
1B 00011011 ESC
1C 00011100 FS
1D 00011101 GS
1E 00011110 RS
1F 00011111 kita
20 00100000 Ruang angkasa
21 00100001 !
22 00100010 "
23 00100011 #
24 00100100 $
25 00100101 %
26 00100110 &
27 00100111 '
28 00101000 (
29 00101001 )
2A 00101010 *
2B 00101011 +
2C 00101100 ,
2D 00101101 -
2E 00101110 .
2F 00101111 /
30 00110000 0
31 00110001 1
32 00110010 2
33 00110011 3
34 00110100 4
35 00110101 5
36 00110110 6
37 00110111 7
38 00111000 8
39 00111001 9
3A 00111010 :
3B 00111011 ;
3C 00111100 <
3D 00111101 =
3E 00111110 >
3F 00111111 ?
40 01000000 @
41 01000001 A
42 01000010 B
43 01000011 C
44 01000100 D
45 01000101 E
46 01000110 F
47 01000111 G
48 01001000 H
49 01001001 Saya
4A 01001010 J
4B 01001011 K
4C 01001100 L
4D 01001101 M
4E 01001110 n
4F 01001111 HAI
50 01010000 P
51 01010001 Q
52 01010010 R
53 01010011 S
54 01010100 T
55 01010101 kamu
56 01010110 V
57 01010111 W
58 01011000 x
59 01011001 kamu
5A 01011010 Z
5B 01011011 [
5C 01011100 \
5D 01011101 ]
5E 01011110 ^
5F 01011111 _
60 01100000 `
61 01100001 A
62 01100010 B
63 01100011 C
64 01100100 D
65 01100101 e
66 01100110 F
67 01100111 G
68 01101000 H
69 01101001 Saya
6A 01101010 J
6B 01101011 k
6C 01101100 aku
6D 01101101 M
6E 01101110 n
6F 01101111 o
70 01110000 p
71 01110001 q
72 01110010 r
73 01110011 s
74 01110100 t
75 01110101 u
76 01110110 v
77 01110111 w
78 01111000 x
79 01111001 y
7A 01111010 z
7B 01111011 {
7C 01111100 |
7D 01111101 }
7E 01111110 ~
7F 01111111 DEL

Binary System

The binary numeral system uses the number 2 as its base (radix). As a base-2 numeral system, it consists of only two numbers: 0 and 1. 

While it has been applied in ancient Egypt, China and India for different purposes, the binary system has become the language of electronics and computers in the modern world. This is the most efficient system to detect an electric signal’s off (0) and on (1) state. It is also the basis for binary code that is used to compose data in computer-based machines. Even the digital text that you are reading right now consists of binary numbers.

ASCII Text

ASCII (American Standard Code for Information Interchange) is one of the most common character encoding standards. Originally developed from telegraphic codes, ASCII is now widely used in electronic communication for conveying text.

The original ASCII is based on 128 characters. These are the 26 letters of the English alphabet (both in lower and upper cases); numbers from 0 to 9; and various punctuation marks. In the ASCII code, each of these characters are assigned a decimal number from 0 to 127. For example, the ASCII representation of upper case A is 65 and the lower case a is 97.