Presented By : Rakesh Dasgupta
Content at : http://wp.me/p1Ci5jhttp://wp.me/p1Ci5j-J
Agenda
1.Info on RTP Billing.
2.Formulas.
3.RTP Component.
4.RTP Interface.
5.Screenshots-Use of RTP Interface in Rate.
6.Screenshots-Billing Document Analysis.
7.Demo.
8.Questions .
Info on RTP Billing
Billing of Interval related data i.e. profiles
Based on rate models that evaluate energy requirements
over a period of time.
Consumption is measured for each interval for each
rate period.
The interval of measurement can be 5,10,15,30,60,day.
Can be used to calculate Time of use pricing models and
RTP models.
Prices can be defined in advance or adjusted for spot
pricing defined by the energy market.
Formulas
Formulas define the calculations that take place when
an RTP interface is executed. Formula is allocated to an
RTP interface. On choosing a formula, we need to define
the input parameters to be supplied to the RTP interface
as well as the output parameters available.
The formula is only carried out once.
We can define our own formulas.
Eg : MULTI01,LIMIT01
RTP Component
They define the structure of parameter allocations
in the RTP interface linking input, output and
result parameters.
One may require various RTP components because
we usually need different periods (such as summer and
winter) for parameter allocations. One can allocate various
time groups, such as season groups, day groups and
time-of-use groups within an RTP component.
RTP Component must be generated before it can be
used in an RTP interface.
RTP Interface I
The RTP interface enables one to use the profiles
maintained in the IS-U-EDM in billing.
To do this, we allocate the RTP interface to the rate
used for billing an interval meter.
In the RTP interface we can execute billing-relevant
processing steps carried out based on profiles.
Result parameters describe the results of RTP interface
execution. Result parameter values are defined via
result functions.
One can allocate result parameters to output parameters
according to the structure defined for the RTP component
RTP Interface II
When the RTP interface is executed, a profile is created for
every result parameter at runtime.
This means that the profile values of an output parameter
can be transferred to several result parameters.
Conversely, a result parameter can be supplied by several
output parameters.
The result function allocated to the result parameter is
then executed on the profile values transferred to the
result parameter.
One can allocate different result parameters to one output
parameter in different RTP components. These profiles are
then used according to the priority defined for the RTP
component and its corresponding activation periods.