Try something like the following code. You might need to figure out how to pass in the correct value for 'now' to the query if you're running it on a schedule. For instance, does the Monday run look at Sunday, or does it look at Friday?
@dtNow datetime ,
@dtToday datetime ,
@dtFrom datetime ,
@dtThru datetime ,
@dtExcludeFrom datetime ,
set @dtNow = getdate()
set @dtToday = convert(datetime,convert(varchar,@dtNow,112),112)
set @dtFrom = dateadd(day,-1,@dtToday) -- start-of-day yesterday
set @dtThru = dateadd(ms,-3,@dtToday) -- end-of-day yesterday (e.g., 2012-06-17 23:59:59.997)
set @dtExcludeFrom = convert(datetime, convert(char(10),@dtFrom,120) + ' 06:30:00.000' , 120 )
set @dtExcludeThru = convert(datetime, convert(char(10),@dtFrom,120) + ' 07:15:00.000' , 120 )
SELECT Store_Id ,
WHERE Register_Transaction_Type = 'SOD'
AND Register_Till_Count_Datetime between @dtFrom and @dtThru
AND Register_Till_Count_Datetime not between @dtExcludeFrom and @dtExcludeThru
Here's a sample of the computed variable values:
@dtNow 2012-08-08 15:12:46.790
@dtToday 2012-08-08 00:00:00.000
@dtFrom 2012-08-07 00:00:00.000
@dtThru 2012-08-07 23:59:59.997
@dtExcludeFrom 2012-08-07 06:30:00.000
@dtExcludeThru 2012-08-07 07:15:00.000
datetime values, the last 'tick' of the day might be
23:59:59.996 in SQL Server 2000. I can't remember, though (been too long since I had to deal with it). If it is, you'll need to change
As far as time zones go, SQL Server 2000 knows nothing about them. Knows nothing about UTC either. The date time value is just a count of days and fractional days since the epoch of 1900-01-01T00:00:00.000.
Whether it represents UTC or local time is entirely dependent on how your system is set up. If the date/time values come from users or other systems, you're dependent upon the data source for meaning.
As far as converting from Eastern Standard Time (EST) to Central Standard Time (CST) goes, CST is one hour earlier than Eastern time, so just subtract one hour to get EST:
dateadd(hour,-1,@my_datetime_value) should it. If you've got to deal with the boundaries between daylight savings (summer) time and standard time, it get [much] more complex, since you need to know the source locus of the date/time value, and quite likely, whether or not the recording system normalized the date/time value in any way.
For instance, prior to 2005, the State of Indiana was ostensibly in the Central Time Zone. However, the selection of time zone — Central (UTC-6) or Eastern (UTC-7) — and whether or not daylight savings time was observed was made on a county-by-county basis. Some counties liked Easter Time. Though some counties did observer daylight savings time, most did not. This effectively made those counties toggle between Central Time and Eastern time depending on what time of the year it was.
In 2006, Indiana passed a law and [sort of] standardized on the Eastern time zone and the observation of daylight savings time...except that 18 of Indiana's 92 counties are on Central Time (7 in the northwest corner of the state, because they are near Chicago, which is Central Time, and 11 in the southwest corner of the state, just to be ornery since they're near nothing). And then on 11 March 2007, Pulaski county changed from Central Time to Easter Time. No idea what Indiana has done since them.
For more — much more — on the difficulties on dealing with this sort of stuff, See the [excellent!] book Calendrical Calculations by Nachum Dershowitz and Edward M. Reingold. The book has its own web site:
If I was going to approach that problem, I would design some sort of mapping table or tables to let me look up the appropriate adjustment to be made given a date/time value and a locus like a zip code or a base zip code. The first 3 digits of a US zip code give you the base zip code for a city or region. For instance, the base zip for Seattle is 98100.
Finding the data to load in the tables regarding time zone usage over time, whether or not daylight savings time was observed in that location and if so, what the switch-over dates were for a particular year or range of years in each location is likely to be something of a challenge.