N30 Supervisory Controller User`s Manual: Chapter 19: Working
Contents
1. that they appear on the screen Entry requirements for these attributes are in Table 19 2 For additional information about the DLLR object and its attributes refer to the Object Dictionary Object Name Identifies the object on the user interface Description Provides optional information to further describe the object Object Type Indicates the kind of object such as Schedule N2 Analog Input or Analog Alarm Object Category Determines the general classification of an object to help define user access capability and message routing Enabled Indicates if the object is active and executing an operational condition DL Mode Shows the operation mode of Demand Limiting The mode Monitor Only means that no Load is to be shed Demand Limit Indicates the maximum allowed average demand during the interval Algorithm Indicates the type of mathematical procedure used to determine the amount to shed for demand limiting Meter Object References the object supplying the instantaneous demand Interval Length Indicates the input used in the algorithm to indicate the number of minutes in the sliding and fixed windows N30 Supervisory Controller User s Manual 19 7 Offline Shed Rate Indicates the absolute amount of power that Demand Limiting can increase or decrease the current amount of power shed per minute when the meter is offline This value is specified in power minute Positive numbers increase negative2. 30 Supervisory Controller User s Manual 19 13 5 Press the F3 Save key 6 Check the User Assistance area of the screen to verify if the save was successful or if there were errors If errors were detected correct them and resave the entries Once the save is successful continue with Step 7 7 Press any key to continue 8 Press the F4 Cancel key to return to the container hierarchy Editing a DLLR Object To edit a DLLR object 1 Browse to and highlight a DLLR object 2 Press Enter to open the object Note Additional attributes appear Refer to the Object Dictionary for more information 3 Press the F3 Edit key The DLLR object attribute screen appears Figure 19 1 and Figure 19 2 4 Edit the fields using Table 19 2 5 Press the F3 Save key 6 Check the User Assistance area of the screen to verify if the save was successful or if there were errors If errors were detected correct them and resave the entries Once the save is successful continue with Step 7 7 Press any key to continue 8 Press the F4 Cancel key to return to the container hierarchy 19 14 N30 Supervisory Controller User s Manual Commanding a DLLR Object To command a DLLR object l 2 3 Browse to and highlight a DLLR object Press the F2 Command key The Command field appears Use the Spacebar and the Backspace key to cycle through the list until the desired command appears The DLLR object supports the commands l
3. Energy container 2 Press the F3 Add key The Add Object list appears 3 Highlight DLLR and press Enter The first of two DLLR attribute screens appears Figure 19 1 Dean ADMIN Fri O1 Oct 1999 11 56 CDT Object Object Name C Description Object Type DLLR Object Category HVAC Enabled True Load Rolling LR Mode LR Monitor Only LR Target 0 0 kW Demand Limiting DL Mode DL Monitor Only Demand Limit 0 0 kW Meter Object Algorithm None Rate Units ki Interval Length 15 minute Consumption Units kWh Offline Shed Rate 0 0 kW min Offl Shed Rate Units kW min Sliding Window Alg Display F3 Save F4 Cancel Page Enter an alphanumeric string Figure 19 1 DLLR Object Attribute Screen 1 of 2 N30 Supervisory Controller User s Manual 19 11 Dean ADMIN Fri O1 Oct 1999 11 57 CDT ADIN Energy DLLR z Sensitivity Me divm Display Precision lOths Fixed Window Alg Limit Elevation Fu EOI Attribute Advanced Setup Registering Phase 15 second Restart Register False Algorithm Delay 5 second F3 Save F4 Cancel Page Press space bar backspace to select value Figure 19 2 DLLR Object Attribute Screen 2 of 2 4 Fill in the fields using Table 19 2 Table 19 2 Attribute Entry Requirements Section Attribute Required Default Options Range Object Object Name No Blank Maximum 32 characters Invalid characters If not completed the system assigns a name Description No Blank Maximum 40 chara
4. N30 Supervisory Controller Users Manual 19 1 Working with Demand Limiting Load Rolling DLLR Objects Introduction The Demand Limiting Load Rolling DLLR object selectively sheds loads to assure that the total energy consumed during one interval never exceeds a certain limit This chapter describes how to e adda DLLR object e edit a DLLR object e command a DLLR object e delete a DLLR object November 01 2001 Johnson Controls Inc www johnsoncontrols com Code No LIT 6892190 Software Release 5 0 19 2 N30 Supervisory Controller User s Manual Key Concepts Demand Limiting Load Rolling Controller Object Shedding Releasing The Demand Limiting Load Rolling DLLR Controller object reduces utility expenses by selectively shedding loads Demand limiting reduces energy costs by turning off designated equipment when the amount of energy consumed by the facility approaches a specified target The purpose of demand limiting is to keep the demand for energy at one time below this target This reduces energy costs because utility companies often determine charges by the day s peak demand for energy Load rolling reduces energy consumption by repeatedly turning off designated equipment at specified intervals For example instead of running a fan continuously load rolling can save energy by turning the fan off for 15 minutes every hour The DLLR object is the heart of the DLLR feature The DLLR algorithm inside the DLL
5. R object determines the necessary power reduction to meet the specified target Power reduction is accomplished by shedding loads Shedding loads is done by advising the associated loads to switch off their associated outputs which then leads to the actual physical shedding of loads causing the desired power reduction The process of turning off equipment for Demand Limiting Load Rolling The process of turning on equipment shed by Demand Limiting Load Rolling N30 Supervisory Controller User s Manual 19 3 Demand Limiting The job of demand limiting is to assure that the total energy consumed during one interval never exceeds a certain limit The Demand Limit DL attribute is the maximum allowed average power during this interval Hence the target of DL is to keep the demand below the demand limit The DLLR executes once each minute to calculate a new amount to shed for DL The DLLR first sheds loads to satisfy the Load Rolling LR target The DLLR then sheds loads of Priority 4 first to meet the DL target If this is not possible with loads of Priority 4 then loads of Priority 3 are also used The same mechanism applies then for loads of Priorities 2 and 1 Loads shed for LR count towards meeting the DL target If the DL target is not met after shedding all eligible loads the amount of power not shed is in the DL not Shed attribute The DLLR can use two different algorithms to determine the amount of power to shed Fixed Windo
6. cated to this DLLR object Use the Spacebar and Backspace key to view and select options None Fixed Window Sliding Window Enter an integer value between 3 and 60 minutes Enter a float value Enter a float value that is greater than or equal to zero Use the Spacebar and Backspace key to view and select options Refer to Units Enumeration Set in Appendix A Object Enumeration Sets of the Object Dictionary LIT 694980 Use the Spacebar and Backspace key to view and select options Refer to Units Enumeration Set in Appendix A Object Enumeration Sets of the Object Dictionary LIT 694980 Use the Spacebar and Backspace key to view and select options Refer to Units Enumeration Set in Appendix A Object Enumeration Sets of the Object Dictionary LIT 694980 Use the Spacebar and Backspace key to view and select options Low Medium High Use the Spacebar and Backspace key to view and select options Refer to Display Precision Enumeration Set in Appendix A Object Enumeration Sets of the Object Dictionary LIT 694980 Enter an integer value between 0 and 99 Enter an object and attribute name Enter an integer value that is greater than or equal to zero Enter an integer value that is greater than or equal to zero Use the Spacebar and Backspace key to view and select options True The DLLR enters the Register mode after a restart False The DLLR does not enter Register mode after a restart N
7. cters Object Type Yes DLLR The default is preset and cannot be changed Object Yes HVAC Use the Spacebar and Backspace key to Category view and select options HVAC Fire Security Services Administrative Enabled Yes True Use the Spacebar and Backspace key to view and select options True False Load Rolling LR Mode Yes LR Monitor Use the Spacebar and Backspace key to only view and select options LR Monitor only LR Shedding LR Target Yes 0 0 kw Enter a float value that is greater than or equal to zero Continued on next page 19 12 N30 Supervisory Controller User s Manual Screen Area Cont Demand Limiting Sliding Window Alg Display Fixed Window Alg Advanced Setup Attribute DL Mode Meter Object Algorithm Interval Length Offline Shed Rate Demand Limit Rate Units Consumption Units Offline Shed Rate Units Sensitivity Display Precision Limit Elevation EOI Attribute Registering Phase Algorithm Delay Restart Register Required Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Default DL Monitor only Blank None 15 minutes 0 0 kW minutes 0 0 kW kW kWh kW min Medium 10ths 0 Blank 15 seconds 5 seconds False Options Range Use the Spacebar and Backspace key to view and select options DL shedding DL monitor only Enter the exact name of the Pulse Meter object dedi
8. he DLLR enters the Register mode after a restart N30 Supervisory Controller Users Manual 19 9 Procedure Overview Table 19 1 Working with DLLR Objects To Do This Add a DLLR Object Edit a DLLR Object Command a DLLR Object Delete a DLLR Object Follow These Steps Browse to and highlight the Energy container Press the F3 Add key Highlight DLLR and press Enter Fill in the fields using Table 19 2 Press the F3 Save key Check the User Assistance area of the screen to verify if the save was successful or if there were errors Press any key to continue Press the F4 Cancel key to return to the container hierarchy Browse to and highlight a DLLR object Press Enter to open the object Press the F3 Edit key Edit the fields using Table 19 2 Press the F3 Save key Check the User Assistance area of the screen to verify if the save was successful or if there were errors Press any key to continue Press the F4 Cancel key to return to the container hierarchy Browse to and highlight a DLLR object Press the F2 Command key Use the Spacebar and the Backspace key to cycle through the list until the desired command appears Press Enter Browse to and highlight a DLLR object Press Enter to open the object Press the Delete key Press the Tab key to confirm the deletion 19 10 N30 Supervisory Controller User s Manual Detailed Procedures Adding a DLLR Object To add a DLLR object 1 Browse to and highlight the
9. isted in Table 19 3 Table 19 3 Supported Commands 5 Command Description Force Register Use this command only when necessary for example when loads have been lost or when there are many changes to the loads This command reinitializes connections between Load and DLLR objects Load shedding is suspended during this time Selecting False only updates the database while selecting True clears out and then updates the database Enable Allows the DLLR object s functionality Disable Prohibits the DLLR from sending shed load commands If the desired command appears with additional parameters below it press the Tab key to highlight the field and either type in the necessary information or use the Spacebar and Backspace key to cycle through the list of options Press Enter Deleting a DLLR Object To delete a DLLR object l 2 3 4 Browse to and highlight a DLLR object Press Enter to open the object Press the Delete key Press the Tab key to confirm the deletion
10. mit the maximum power that can be used However since every minute is also the beginning of a new sliding interval the Sliding Window Algorithm reacts every minute and tries to prevent the demand from getting above the demand limit The Fixed Window Algorithm reacts only when there is danger of surpassing the maximum energy during the interval Interaction with Other Objects Note For more information about the DLLR object s interaction with other objects refer to Appendix A Building an Energy Management Application LIT 68923 10 in this document Load Objects The Loads sign up for Change of Value COV on the DLLR s DLLR Status attribute This attribute informs the loads about the current state of their DLLR The DLLR can enter the Register mode by setting DLLR Status temporarily to Register which causes the signed up loads to register The DLLR signs up for trigger on some internal attributes of the Loads which allows the DLLR to be constantly informed about the eligibility of Loads to be used as sheddable Loads Which and how many attributes are used for this purpose must be determined after the overall system communication performance is evaluated N30 Supervisory Controller User s Manual 19 5 Meter Objects The DLLR generally can use any object as its meter object as long as that object fulfills the requirements listed below Currently the Pulse Meter object is the best suited object for this purpose but Analog In
11. numbers decrease the amount shed Display Precision Indicates the rounded position and decimal places to display for this object Indicates the operation mode of Load Rolling The mode Monitor Only means that no Loads are to be shed LR Target Indicates the desired power reduction through Load Rolling Consumption Units Defines the unit for energy values for example kWh Offline Shed Rate Units Defines the unit used for offline shed rate value for example kW minute Rate Units Defines units for demand values for example kW Limit Elevation Indicates the amount in percent by which the demand limit is increased at the beginning of the next interval The increased demand limit is the starting value of the the demand limit profile in the Fixed Window Algorithm EOI Attribute Indicates the Attribute reference to the EOI pulse in the Fixed Window Algorithm Sensitivity Indicates the level of aggression for shedding Loads in the Sliding Window Algorithm Registering Phase Defines the time in seconds that the DLLR remains in the Register mode to get all signed up Loads to register 19 8 N30 Supervisory Controller User s Manual Algorithm Delay Defines the time in seconds that the DLLR puts between the execution of the meter object and the execution of the DL algorithm This allows the newest values to be reported by the meter before the DL algorithm executes Restart Register Indicates if set if t
12. put and Analog Value objects are possible when they meet requirements The following requirements must be met e A permanent communication path must exist between the meter object and the DLLR e The meter object must calculate a new rate exactly once every 60 seconds e This rate must be the average power over the just elapsed minute and must be provided in the meter object s Present Value attribute which has to support signup for COV e The meter object s Rate Units must be identical to the DLLR s Rate Units EO Attribute Note The use of an End of Interval EOJ input is required for the Fixed Window Algorithm only It must not be used for the Sliding Window Algorithm The attribute supplying the End of Interval pulse is defined by the attribute reference entered in the DLLR s EOI attribute This EOI attribute can be any attribute of any object as long as the following requirements are met e A permanent communication path must exist between this attribute and the DLLR e This attribute must be a numerical attribute where a raise from 0 to 1 indicates the end of the interval and thus the beginning of the next interval e The object providing this attribute must support signup for trigger on this attribute 19 6 N30 Supervisory Controller User s Manual Attributes The values of an object s attributes determine how the object operates The DLLR object attributes described below are listed in the order
13. w Algorithm and Sliding Window Algorithm Fixed Window Algorithm FWA The fixed window is a period of time during which maximum energy consumption must not be exceeded This period is started and ended by the End of Interval EOI pulse which is provided by the power company Typical values for the interval length are 15 or 30 minutes As an example a demand limit of 100 kW with a 15 minute fixed interval means only that the total energy consumption between two EOI pulses must not exceed 25 kWh but it does not limit the maximum power that can be used If for example only 10 kWh were consumed during the first 10 minutes of a fixed 15 minute interval there are still 15 kWh allowed to be consumed during the last 5 minutes of the interval This results in an allowed average power of 180 kW during the last 5 minutes of the interval which is 80 above the demand limit and still no loads would have to be shed 19 4 N30 Supervisory Controller User s Manual Sliding Window Algorithm SWA The sliding window is a period of time during which maximum energy consumption must not be exceeded This period has a fixed length here called interval length and it always ends at the current time A typical value for the interval length is 15 minutes As an example a demand limit of 100 kW with a 15 minute sliding interval means only that the maximum energy consumption within any 15 consecutive minutes must not exceed 25 kWh but it does not li
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