I've migrated a database from mysql to SQL Server (politics), original mysql database using UTF8.

Now I read https://dba.stackexchange.com/questions/7346/sql-server-2005-2008-utf-8-collation-charset that SQL Server 2008 doesn't support utf8, is this a joke?

The SQL Server hosts multiple databases, mostly Latin-encoded. Since the migrated db is intended for web publishing, I want to keep the utf8-encoding. Have I missed something or do I need to enc/dec at application level?

  • Actually there is no problem with using UTF8, by creating SQLCLR UDF and you can download from Microsoft the code. check this link: technet.microsoft.com/en-us/library/ms160893(v=sql.90).aspx Jan 5, 2015 at 23:26
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    Worth noting that Java, JavaScript, DotNet and Windows all use UTF-16 internally, so if your website is to be coded in any of those then you are saving a conversion to UTF16.
    – Ben
    Feb 4, 2016 at 12:20
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    If it helps, you can pretend that SQL Server internally stores text as UTF-8; and the driver converts it back to UTF-16 when you retrieve it. You could also pretend that SQL Server stores the text as UCS-32. The internal storage format is an irrelevant implementation detail. What is important is that databases return unicode character data as UTF-16 (matching your programming environment).
    – Ian Boyd
    Mar 17, 2016 at 20:45

5 Answers 5


UTF-8 is not a character set, it's an encoding. The character set for UTF-8 is Unicode. If you want to store Unicode text you use the nvarchar data type.

If the database would use UTF-8 to store text, you would still not get the text out as encoded UTF-8 data, you would get it out as decoded text.

You can easily store UTF-8 encoded text in the database, but then you don't store it as text, you store it as binary data (varbinary).

  • Thanks for input. There's more to learn around this, looking at for example stackoverflow.com/questions/3951722/…
    – Teson
    Sep 2, 2015 at 9:47
  • I can't get my head around this. "The character set for UTF8 is Unicode"?? Isn't utf8 way broader than unicode. Saving Dauðalogn in unicode vs utf8 gives different results: (EF BB BF) 44 61 75 C3 B0 61 6C 6F 67 6E vs \u0044\u0061\u0075\u00f0\u0061\u006c\u006f\u0067\u006e
    – Teson
    Sep 3, 2015 at 8:31
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    @user247245: UTF-8 is the encoding and Unicode is the character set. UTF-8 is one way of saving Unicode. What you have used to represent the Unicode is escape codes used in string literals, that's not normally how you represent Unicode as a file. UTF-32 would be the closest translation directly from Uncode to a file format, where each character code is saved as a 32 bit number.
    – Guffa
    Sep 3, 2015 at 10:10
  • Can you please explain why the third letter in the example above is represented in UTF8 as C3 B0 and in unicode as simply F0 . Thanks for your help.
    – Teson
    Sep 4, 2015 at 9:56
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    @user247245: Character codes between 8 and 11 bits are encoded as 110xxxxx 10xxxxxx in UTF-8 (where x represents data bits), so the character code F0 (00011110000 as 11 bits) is encoded as 11000011 10110000 (putting 00011 from the character code in the first byte and 110000 in the second) which is C3 B0.
    – Guffa
    Sep 4, 2015 at 10:18

Looks like this will be finally supported in the SQL Server 2019! SQL Server 2019 - whats new?

From BOL:

UTF-8 support

Full support for the widely used UTF-8 character encoding as an import or export encoding, or as database-level or column-level collation for text data. UTF-8 is allowed in the CHAR and VARCHAR datatypes, and is enabled when creating or changing an object’s collation to a collation with the UTF8 suffix.

For example,LATIN1_GENERAL_100_CI_AS_SC to Latin1_General_100_CI_AS_KS_SC_UTF8. UTF-8 is only available to Windows collations that support supplementary characters, as introduced in SQL Server 2012. NCHAR and NVARCHAR allow UTF-16 encoding only, and remain unchanged.

This feature may provide significant storage savings, depending on the character set in use. For example, changing an existing column data type with ASCII strings from NCHAR(10) to CHAR(10) using an UTF-8 enabled collation, translates into nearly 50% reduction in storage requirements. This reduction is because NCHAR(10) requires 22 bytes for storage, whereas CHAR(10) requires 12 bytes for the same Unicode string.

2019-05-14 update:

Documentation seems to be updated now and explains our options staring in MSSQL 2019 in section "Collation and Unicode Support".

2019-07-24 update:

Article by Pedro Lopes - Senior Program Manager @ Microsoft about introducing UTF-8 support for Azure SQL Database


No! It's not a joke.

Take a look here: http://msdn.microsoft.com/en-us/library/ms186939.aspx

Character data types that are either fixed-length, nchar, or variable-length, nvarchar, Unicode data and use the UNICODE UCS-2 character set.

And also here: http://en.wikipedia.org/wiki/UTF-16

The older UCS-2 (2-byte Universal Character Set) is a similar character encoding that was superseded by UTF-16 in version 2.0 of the Unicode standard in July 1996.

  • Ok. Can the mssql-client translate to the outside UTF8-world?
    – Teson
    Sep 20, 2012 at 14:42
  • mssql-client can be everything. Java, .NET, C, PHP, etc... what do mean with client?
    – edze
    Sep 20, 2012 at 14:53
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    Client : sqlsrv extension under php. Robert puts it i clear text here: social.msdn.microsoft.com/Forums/en/sqldriverforphp/thread/…, will evaluate and post results.
    – Teson
    Sep 25, 2012 at 11:43
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    Hi again, sorry for the delay but thanks for the reps, using sqlsrv_connect(,array("CharacterSet" => "UTF-8").. in connection string works fine. PDO is out, right?
    – Teson
    Nov 27, 2013 at 23:56

Two UDF to deal with UTF-8 in T-SQL:

CREATE Function UcsToUtf8(@src nvarchar(MAX)) returns varchar(MAX) as
    declare @res varchar(MAX)='', @pi char(8)='%[^'+char(0)+'-'+char(127)+']%', @i int, @j int
    select @i=patindex(@pi,@src collate Latin1_General_BIN)
    while @i>0
        select @j=unicode(substring(@src,@i,1))
        if @j<0x800     select @res=@res+left(@src,@i-1)+char((@j&1984)/64+192)+char((@j&63)+128)
        else            select @res=@res+left(@src,@i-1)+char((@j&61440)/4096+224)+char((@j&4032)/64+128)+char((@j&63)+128)
        select @src=substring(@src,@i+1,datalength(@src)-1), @i=patindex(@pi,@src collate Latin1_General_BIN)
    select @res=@res+@src
    return @res

CREATE Function Utf8ToUcs(@src varchar(MAX)) returns nvarchar(MAX) as
    declare @i int, @res nvarchar(MAX)=@src, @pi varchar(18)
    select @pi='%[à-ï][€-¿][€-¿]%',@i=patindex(@pi,@src collate Latin1_General_BIN)
    while @i>0 select @res=stuff(@res,@i,3,nchar(((ascii(substring(@src,@i,1))&31)*4096)+((ascii(substring(@src,@i+1,1))&63)*64)+(ascii(substring(@src,@i+2,1))&63))), @src=stuff(@src,@i,3,'.'), @i=patindex(@pi,@src collate Latin1_General_BIN)
    select @pi='%[Â-ß][€-¿]%',@i=patindex(@pi,@src collate Latin1_General_BIN)
    while @i>0 select @res=stuff(@res,@i,2,nchar(((ascii(substring(@src,@i,1))&31)*64)+(ascii(substring(@src,@i+1,1))&63))), @src=stuff(@src,@i,2,'.'),@i=patindex(@pi,@src collate Latin1_General_BIN)
    return @res

Note that as of Microsoft SQL Server 2016, UTF-8 is supported by bcp, BULK_INSERT, and OPENROWSET.

Addendum 2016-12-21: SQL Server 2016 SP1 now enables Unicode Compression (and most other previously Enterprise-only features) for all versions of MS SQL including Standard and Express. This is not the same as UTF-8 support, but it yields a similar benefit if the goal is disk space reduction for Western alphabets.

  • 1
    But not OPENQUERY? I wonder if this is why I'm having issues migrating CLOB data from Oracle using OPENQUERY. Jun 10, 2019 at 14:38

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