Both the two most upvoted answers are wrong. It should have nothing to do with "store different/multiple languages". You can support Spanish characters like
ñ and English, with just common
varchar field and
You should use
NCHAR whenever the
ENCODING, which is determined by
COLLATION of the field, doesn't support the characters needed.
Also, depending on the SQL Server version, you can use specific
Latin1_General_100_CI_AS_SC_UTF8 which is available since SQL Server 2019. Setting this collation on a
VARCHAR field (or entire table/database), will use
ENCODING for storing and handling the data on that field, allowing fully support
UNICODE characters, and hence any languages embraced by it.
To FULLY UNDERSTAND:
To fully understand what I'm about to explain, it's mandatory to have the concepts of
COLLATION all extremely clear in your head. If you don't, then first take a look below at my humble and simplified explanation on "What is UNICODE, ENCODING, COLLATION and UTF-8, and how they are related" section and supplied documentation links. Also, everything I say here is specific to
Microsoft SQL Server, and how it stores and handles data in
Let's say we wanna store a peculiar text on our MSSQL Server database. It could be an Instagram comment as "I love stackoverflow! 😍".
The plain English part would be perfectly supported even by ASCII, but since there are also an emoji, which is a character specified in the
UNICODE standard, we need an
ENCODING that supports this Unicode character.
MSSQL Server uses the
COLLATION to determine what
ENCODING is used on
nvarchar fields. So, differently than a lot think,
COLLATION is not only about sorting and comparing data, but also about
ENCODING, and by consequence: how our data will be stored!
So, HOW WE KNOW WHAT IS THE ENCODING USED BY OUR COLLATION? With this:
SELECT COLLATIONPROPERTY( 'Latin1_General_CI_AI' , 'CodePage' ) AS [CodePage]
This simple SQL returns the
Windows Code Page for a
Windows Code Page is nothing more than another mapping to
ENCODINGs. For the
COLLATION it returns the
Windows Code Page code
1252 , that maps to
So, for a
varchar column, with
COLLATION, this field will handle its data using the
ENCODING, and only correctly store characters supported by this encoding.
If we check the
Windows-1252 ENCODING specification Character List for Windows-1252, we will find out that this encoding won't support our emoji character. And if we still try it out:
OK, SO HOW CAN WE SOLVE THIS?? Actually, it depends, and that is GOOD!
Before SQL Server 2019 all we had was
NVARCHAR fields. Some say they are
UNICODE fields. THAT IS WRONG!. Again, it depends on the field's
COLLATION and also SQLServer Version.
Microsoft's "nchar and nvarchar (Transact-SQL)" documentation specifies perfectly:
Starting with SQL Server 2012 (11.x), when a
Supplementary Character (SC) enabled collation is used, these data
types store the full range of Unicode character data and use the
UTF-16 character encoding. If a non-SC collation is specified, then
these data types store only the subset of character data supported by
the UCS-2 character encoding.
In other words, if we use SQL Server older that 2012, like SQL Server 2008 R2 for example, the
ENCODING for those fields will use
UCS-2 ENCODING which support a subset of
UNICODE. But if we use SQL Server 2012 or newer, and define a
COLLATION that has
Supplementary Character enabled, than with our field will use the
ENCODING, that fully supports
BUT WHAIT, THERE IS MORE! WE CAN USE UTF-8 NOW!!
Starting with SQL Server 2019, WE CAN USE
VARCHAR fields and still fully support
From Microsoft's "char and varchar (Transact-SQL)" documentation:
Starting with SQL Server 2019 (15.x), when a
UTF-8 enabled collation is used, these data types store the full range
of Unicode character data and use the UTF-8 character encoding. If a
non-UTF-8 collation is specified, then these data types store only a
subset of characters supported by the corresponding code page of that
Again, in other words, if we use SQL Server older that 2019, like SQL Server 2008 R2 for example, we need to check the
ENCODING using the method explained before. But if we use SQL Server 2019 or newer, and define a
Latin1_General_100_CI_AS_SC_UTF8, then our field will use
ENCODING which is by far the most used and efficient encoding that supports all the
Regarding the OP's observation on "I have seen that most of the European languages (German, Italian, English, ...) are fine in the same database in VARCHAR columns", I think it's nice to know why it is:
For the most common
COLLATIONs, like the default ones as
ENCODING will be
varchar fields. If we take a look on it's documentation, we can see that it supports:
English, Irish, Italian, Norwegian, Portuguese, Spanish, Swedish. Plus
also German, Finnish and French. And Dutch except the Ĳ character
But as I said before, it's not about language, it's about what characters do you expect to support/store, as shown in the emoji example, or some sentence like "The electric resistance of a lithium battery is 0.5Ω" where we have again plain English, and a Greek letter/character "omega" (which is the symbol for resistance in ohms), which won't be correctly handled by
So, there it is! When use
nvarchar depends on the characters that you want to support, and also the version of your SQL Server that will determines which
COLLATIONs and hence the
ENCODINGs you have available.
What is UNICODE, ENCODING, COLLATION and UTF-8, and how they are related
Note: all the explanations below are simplifications. Please, refer to the supplied documentation links to know all the details about those concepts.
UNICODE - Is a standard, a convention, that aims to regulate all the characters in a unified and organized table. In this table, every character has an unique number. This number is commonly called character's
UNICODE IS NOT AN ENCODING!
ENCODING - Is a mapping between a character and a byte/bytes sequence. So a encoding is used to "transform" a character to bytes and also the other way around, from bytes to a character. Among the most popular ones are
ASCII. You can think of it as a "conversion table" (i really simplified here).
COLLATION - That one is important. Even Microsoft's documentation doesn't let this clear as it should be. A Collation specifies how your data would be sorted, compared, AND STORED!. Yeah, I bet you was not expecting for that last one, right!? The collations on
SQL Server determines too what would be the
ENCODING used on that particular
ASCII ENCODING - Was one of the firsts encodings. It is both the character table (like an own tiny version of
UNICODE) and its byte mappings. So it doesn't map a byte to
UNICODE, but map a byte to its own character's table. Also, it always use only 7bits, and supported 128 different characters. It was enough to support all English letters upper and down cased, numbers, punctuation and some other limited number of characters. The problem with ASCII is that since it only used 7bits and almost every computer was 8bits at the time, there were another 128 possibilities of characters to be "explored", and everybody started to map this "available" bytes to its own table of characters, creating a lot of different
UTF-8 ENCODING - This is another
ENCODING, one of the most (if not the most) used
ENCODING around. It uses variable byte width (one character can be from 1 to 6 bytes long, by specification) and fully supports all
Windows-1252 ENCODING - Also one of the most used
ENCODING, it's widely used on SQL Server. It's fixed-size, so every one character is always 1byte. It also supports a lot of accents, from various languages but doesn't support all existing, nor supports
UNICODE. That's why your
varchar field with a common collation like
ñ characters, even that it isn't using a supportive
SQL Server default character encoding