I think this is an excellent question. (I just discovered it.)

Unless you're operating with dates quite close to the year 1900, a `DateTime`

will have a *higher* precision than an OA date. But for some obscure reason, the authors of the `DateTime`

struct just **love** to truncate to the nearest whole millisecond when they convert between `DateTime`

and something else. Needless to say, doing this throws away a lot of precision without good reason.

Here's a work-around:

```
static readonly DateTime oaEpoch = new DateTime(1899, 12, 30);
public static DateTime FromOADatePrecise(double d)
{
if (!(d >= 0))
throw new ArgumentOutOfRangeException(); // NaN or negative d not supported
return oaEpoch + TimeSpan.FromTicks(Convert.ToInt64(d * TimeSpan.TicksPerDay)):
}
public static double ToOADatePrecise(this DateTime dt)
{
if (dt < oaEpoch)
throw new ArgumentOutOfRangeException();
return Convert.ToDouble((dt - oaEpoch).Ticks) / TimeSpan.TicksPerDay;
}
```

Now, let's consider (from your question) the `DateTime`

given by:

```
var ourDT = new DateTime(634202170964319073);
// .ToSting("O") gives 2010-09-16T06:58:16.4319073
```

The precision of any `DateTime`

is 0.1 µs.

Near the date and time we're considering, the precision of an OA date is:

`Math.Pow(2.0, -37.0)`

days, or circa `0.6286`

µs

We conclude that *in this region* a `DateTime`

is more precise than an OA date by (just over) a factor six.

Let's convert `ourDT`

to `double`

using my extension method above

```
double ourOADate = ourDT.ToOADatePrecise();
// .ToString("G") gives 40437.2904679619
// .ToString("R") gives 40437.290467961888
```

Now, if you convert `ourOADate`

back to a `DateTime`

using the static `FromOADatePrecise`

method above, you get

`2010-09-16T06:58:16.4319072`

(written with `"O"`

format)

Comparing with the original, we see that the loss of precision is in this case 0.1 µs. We expect the loss of precision to be within ±0.4 µs since this interval has length 0.8 µs which is comparable to the 0.6286 µs mentioned earlier.

If we go the other way, starting with a `double`

representing an OA date not too close to the year 1900, and *first* use `FromOADatePrecise`

, and *then* `ToOADatePrecise`

, then we get back to a `double`

, and because the precision of the intermediate `DateTime`

is superior to that of an OA date, we expect a perfect round-trip in this case. If, on the other hand, you use the BCL methods `FromOADate`

and `ToOADate`

in the same order, it is extremely improbable to get a good round-trip (unless the `double`

we started with has a very special form).