The SQL Server `money`

datatype internally is a 64-bit integer with an implied scale of 4 decimal places. To quote Books Online, it is accurate "to ten-thousandsth of a currency unit." It is, the rough equivalent of a `decimal(19,4)`

.

The reason for the scale of 4 rather than 2 is to maintain precision in the results of arithmetic. Your ordinary currency value has a scale of 2 (e.g. $3.27) Multiplication or division of two numbers scaled to 2 decimal places gives a results that is precise to 4 decimal places: 9.23 divided by 3.27 yields a result of 2.82262996941896 (approximately). You can carry the result to whatever *accuracy* (number of decimal places) you desire. However, the result is only *precise* to 4 decimal places (2.8226) as the original values were only precise to 2 decimal places. That measurement is precise to within 1/2 of the smallest unit specified (+/- 0.005).

But I digress.

As a result of a SQL Server `money`

value having an implied scale of 4, ADO.Net converts the value to a System.Decimal with a scale of 4. And since System.Decimal tracks scale, when you convert it to string, you get 4 decimal places.

To get fewer, you can

- Round it before conversion, using the appropriate
`Decimal.Round()`

overload, or
- Format it as desired (eg.
`(3.27M).ToString("0.00") ;`

.

Hope this helps.

This program:

```
namespace Sandbox
{
using System ;
class Program
{
static void Main( string[] args )
{
decimal pi = (decimal) Math.PI ;
string piText = pi.ToString("0.00");
Console.WriteLine("PI to 2 decimal places is {0} one way, and {1:0.00} another" , piText , pi ) ;
return;
}
}
}
```

Produces what you'd expect:

```
PI to 2 decimal places is 3.14 one way, and 3.14 another
```

Cheers,

N.