Monster Media 1994 #1

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Text File | 1994-01-07 | 40KB | 1,220 lines

.TOPIC: Contents ╒════════════════════ Main Work Screen ═══════════════════════╕ │ Tag Peak Rate Off-Peak Rate Demand Charge │ │ │ │ Load Amps Volts Phase Power Factor KVA │ │ │ │ Peak Hours Off-Peak Hours Peak Days Off-Peak Days │ │ │ │ Motor Schedules Lighting Schedules │ ╘═════════════════════════════════════════════════════════════╛ ╒════════════════════ Customer Information ═══════════════════╕ │ Customer Information Prepared By Information │ │ │ │ Headers and Footers │ ╘═════════════════════════════════════════════════════════════╛ ╒═══════════ Calculate Kilowatt Hour & Demand Cost ═══════════╕ │ Meter Number Service Period │ │ Peak KWH Peak Cost │ │ Off-Peak KWH Off-Peak Cost │ │ │ │ Fuel Charge Fixed Cost Additional Charge │ │ │ │ Per Kva Cost Demand Cost Actual Kva │ │ Billed Kva Actual Kw Adjustment Factor │ ╘═════════════════════════════════════════════════════════════╛ ╒═══════════════════════ Amp Averaging ═══════════════════════╕ │ │ │ Load Description Load Amps Load Seconds │ ╘═════════════════════════════════════════════════════════════╛ ╒═══════════════════ Reporting & Data Base ═══════════════════╕ │ │ │ Reporting - Print or File Data Base │ │ │ │ Data Base Repair Utility Data Base Packing Utility │ │ │ │ Data Base Indexing Maximum Field Length │ ╘═════════════════════════════════════════════════════════════╛ ╒═══════════════════════ Miscellaneous ═══════════════════════╕ │ │ │ Command Buttons Command Line Options Special Keys │ │ │ │ Formulas Help on Help │ ╘═════════════════════════════════════════════════════════════╛ .TOPIC: Tag Use the tag field to identify information on the main screen. The tag field is the only indexing field for the main screen. When the cursor is on the tag field you can move to the previous record by pressing Page UP or move to the next record by pressing page Down. Information in the tag field will not print on reports. The data file will store up to 25 characters for this field. Customer Information Data Base Indexing Data Base .TOPIC: Peak Rate The cost per kilowatt hour for usage during the Peak Hours. This field will accept a value up to 50 ¢. ────────────────────────────────────────── The best way to calculate the value for the peak rate is: 1. select calculate kilowatt hour cost from the menu. 2. Enter the information from the electric bill 3. Press the send rates command button. This will place the calculated rate into the main work screen. Peak Days Off-Peak Rate Off-Peak Hours Off-Peak Days .TOPIC: Off-Peak Rate The cost per kilowatt hour for usage during the Off-Peak Hours. This field will accept a value up to 50 ¢. ────────────────────────────────────────── The best way to calculate the value for the Off-Peak Rate is: 1. select calculate kilowatt hour cost from the menu. 2. Enter the information from the electric bill 3. Press the send rates command button. This will place the calculated rate into the main work screen. Off-Peak Days Off-Peak Rate Off-Peak Hours Peak Days .TOPIC: Demand Charge The Demand Charge is the cost per KVA of demand that you are charged on the electric bill. This charge is generally for commercial & industrial users. This field will accept a value up to $50.000 ──────────────────────────────────────────── Example: 461.1 Kva X Demand Charge of $8.490 = $3914.74 An example of how the demand is measured by some utility Co. ──────────────────────────────────────────────────────────── The Peak Hours demand for each month under ordinary Load conditions shall be the greatest of the following: A. The greatest fifteen-minute peak occurring during the peak hours period within such a month as measured in kilowatts (KW). B. 90% of the greatest fifteen-minute peak occurring during the peak hours period of such a month as measured in kilovolt-amperes (KVA). Per Kva Cost Actual Kva Billed Kva Actual Kw Adjustment Factor .TOPIC: Load Identify the load being analyzed. Example: 25 hp Air Compressor The data file will store up to 25 characters for this field. Amps Volts Phase Power Factor KVA .TOPIC: Amps Amperes of the load. If you make an entry into the amps field with the Volts & Phase fields greater than 0, a value will automatically be calculated & inserted into the Kva field. This field will accept a value up to 999 Amps. ────────────────────────────────────────────── Motor Schedules Lighting Schedules Load Volts Phase Power Factor KVA .TOPIC: Volts Enter the voltage. This field will accept a value up to 15000 Volts. ───────────────────────────────────────────────── ╒═══════════════════ Standard AC Voltages ═══════════════════╕ │ │ │ 110 - 120 - 208 - 220 - 240 - 440 - 480 - 550 - 600 │ │ │ │ 2,200 - 2,300 - 2,400 - 4,000 - 4,160 - 6,600 - 6,900 │ │ │ │ 11,000 - 11,500 - 13,200 - 13,800 │ ╘═════════════════════════════════════════════════════════════╛ Load Amps Phase Power Factor KVA .TOPIC: Phase Phase of the load. This field will accept 1 or 3. When you are at the φ field and a value is in the amps & volts, a non entry in the φ field will cause it to default to 3. Motor Schedules Lighting Schedules Load Amps Volts Power Factor KVA .TOPIC: Power Factor Power Factor of the Load as expressed in percent. This field will accept a value from 1 to 100. ───────────────────────────────────────────── Power factor is the ratio of the true power or watts to the apparent power or voltamperes. The power factor is expressed as a decimal or in percentage. Thus power factors of 0.8 and of 80% are the same. Many of the newer energy efficient motors have a power factor rating listed on the name plate. Average Power Factors for Standard Industrial Design 3 φ Squirrel-Cage Induction Motors. ───────────────────────────────────────── Hp 1/2 load 3/4 load Full load ───────────┬──────────┬──────────┬─────────── 1/2 │ 45 │ 56 │ 65 3/4 │ 48 │ 58 │ 65 1 │ 57 │ 69 │ 76 1½ │ 64 │ 76 │ 81 2 │ 68 │ 79 │ 84 3 │ 70 │ 80 │ 84 5 │ 76 │ 83 │ 86 7½ │ 77 │ 84 │ 87 10 │ 77 │ 86 │ 88 15 │ 81 │ 85 │ 87 20 │ 82 │ 86 │ 87 25 │ 82 │ 86 │ 87 30 │ 83 │ 86.5 │ 87 40 │ 84 │ 87 │ 88 50 │ 84 │ 87 │ 88 60 │ 84 │ 87 │ 88 75 │ 84 │ 87 │ 88 100 │ 84 │ 88 │ 88 125 │ 84 │ 88 │ 89 150 │ 84 │ 88 │ 89 200 │ 85 │ 89 │ 90 250 │ 84 │ 89 │ 90 300 │ 84 │ 89 │ 90 ───────────┴──────────┴──────────┴─────────── Typical Power Factors ───────────────────── 1 φ induction motors 1/20 to 1hp ....... 55 to 75 average at rated load ....... 68 1 φ induction motors 1hp to 10hp ........75 to 86 average at rated load ........82 Incandescent lighting ........100 Electric resistance heaters ........100 Fluorescent lighting ........50 - 95 H.I.D. lighting ........50 - 95 Load Amps Volts Phase KVA .TOPIC: KVA KVA or apparent power of the load. When the Amps, Volts & Phase fields are greater than 0 a change in the Kva field will automatically calculated & adjust the amps. This field will accept a value up to 25,000 Kva. ──────────────────────────────────────────────── Motor Schedules Lighting Schedules Load Amps Volts Phase Power Factor .TOPIC: Peak Hours Enter the peak hours per day. This field will accept a value up to 24 hours. ────────────────────────────────────────────── Check with the customer representative for your area to confirm the peak hours as applied for your electric bill. The following is typical schedule of peak hours. Peak hours will be from 8:00 AM TO 9:00 PM daily Monday through Friday, excluding holidays. The company reserves the right to change these peak and off-peak hours, but in no case will the off-peak hours be less than eleven hours a day. Off-Peak Hours Peak Days Off-Peak Days .TOPIC: Off-Peak Hours Enter the off-peak hours per day. This field will accept a value up to 24 hours. ────────────────────────────────────────────── Check with the customer representative for your area to confirm the off-peak hours as applied for your electric bill. The following is typical schedule of off-peak hours. Off-peak hours will be from 9:00 PM TO 8:00 AM daily Monday through Friday, and all day on Saturdays, Sundays and holidays. The company reserves the right to change these peak and off-peak hours, but in no case will the off-peak hours be less than eleven hours a day. Peak Hours Peak Days Off-Peak Days .TOPIC: Peak Days Enter the number of days that the Load is using power during the peak hours period. This field will accept a value up to 9,999 Days. ──────────────────────────────────────────────── The following is typical schedule for peak days. 8:00 AM TO 9:00 PM daily Monday through Friday, excluding holidays. Peak Hours Off-Peak Hours Off-Peak Days .TOPIC: Off-Peak Days Enter the number of days that the Load is using power during the off-peak hours period. This field will accept a value up to 9,999 Days. ──────────────────────────────────────────────── The following is typical schedule of off-peak days. 9:00 PM TO 8:00 AM daily Monday through Friday, and all day on Saturdays, Sundays and holidays. Peak Hours Off-Peak Hours Peak Days .TOPIC: Peak KWH The value that reflects usage during peak time. The Peak, Off-Peak And Total Kilowatt Hours will always be displayed on the Kilowatt Hour bar of the main screen. The Kilowatt Hours will auto adjust when enter is pressed. Off-Peak KWH .TOPIC: Off-Peak KWH The value that reflects usage during off-peak time. The Peak, Off-Peak And Total Kilowatt Hours will always be displayed on the Kilowatt Hour bar of the main screen. The Kilowatt Hours will auto adjust when enter is pressed. Off-Peak KWH .TOPIC: Load Description Enter a description for this category. This is used when printing an ampere averaging report. Load Amps Load Seconds .TOPIC: Load Amps Enter the amps that reflects the Load in the description and seconds fields. This field will accept a value up to 999,999 Amps. ────────────────────────────────────────────────── Load Description Load Seconds .TOPIC: Load Seconds Enter the time in seconds that the amps is at the value as shown in the amps field. This field will accept a value up to 86,400 Seconds. ──────────────────────────────────────────────────── Load Description Load Amps .TOPIC: Customer Information The Name, City, State & Zip fields are indexing fields. To change the index to the prepared for name, select set index to Name from the top menu. When the cursor is on the prepared for field you can move to the previous record by pressing Page UP or move to the next record by pressing page Down. The default index is the Tag field of the main work screen. Prepared By Information Headers and Footers .TOPIC: Prepared By Information This information will print on all reports under the prepared by heading. If the Prepared by NAME field is empty no prepared by information will print on the report. Customer Information Headers and Footers .TOPIC: Headers and Footers If a header has any information it will print near the top of all reports. If a footer has any information it will print near the bottom of all reports. Customer Information Prepared By Information .TOPIC: Data Base Indexing ENERGY has 5 Indexing fields. ■ Tag ■ Prepared for Name ■ Prepared for State ■ Prepared for City ■ Prepared for Zip Records are sorted in an ascending order based on the current indexing field. The default index when ENERGY is started is the Tag field of the main work screen. To change the index select the desired index from the Names screen menu. Four of the five indexes also have multiple sub indexes. ■ Prepared for Name > City > State ■ Prepared for State > Name > City ■ Prepared for City > Name > State ■ Prepared for Zip > Name > City Maximum Field Length Data Base Data Base Repair Utility Data Base Packing Utility .TOPIC: Command Line Options When starting ENERGY you can set the monitor to 43 or 50 line mode from the command line with the following command. ■ For 43 line mode type ENERGY 43 then press ENTER ■ For 50 line mode type ENERGY 50 then press ENTER On 43 line mode the main work screen will be at the top leaving a lower section to pull down the other screens. On 50 line mode the main work screen will be at the top and the Names screen will setup at the bottom. Moving windows ────────────── ■ With the keyboard use Ctrl + F7 to activate the window move feature. Use the arrow keys to place the window at the desired location. Press ENTER to set the window in the new location. ■ With the mouse click the top bar and drag to the desired location. Command Buttons Special Keys .TOPIC: Reporting - Print or File All reports can be sent to ────────────────────────── ■ Printer ports LPT1, LPT2 or LPT3 ■ An ASCII file via a user supplied name. When sending reports to the printer you also have the option to produce multiple copies from 1 - 10 with the copies field. When sending a report to file ENERGY produces an ASCII file that you can edit with any word processor. You also have the option to select append or replace. The default is replace. ■ With replace ENERGY will first check if the user supplied file name already exist. If so a message box will confirm that you want to continue and overwrite the existing file or cancel the operation. ■ With append if the file already exist ENERGY will add the report to the end of the existing file otherwise a new file will be created. A convenient way to use append is to produce multiple report all into the same file. .TOPIC: Special Keys ■ F1 Help - Displays a help message about the task you are performing. ■ ENTER - Signal the computer to accept an entry that you have made, and move the cursor to the next field. ■ TAB - Move the cursor to the next field. When in the help window pressing TAB will jump from one hyper-link to the next. ■ SHIFT + TAB - Move the cursor back to the previous field. ■ ALT + HOT KEY - Used to select a menu item or command button function. Hot keys are highlighted in white. ■ ESC - Move towards the main screen and out of program. ■ UP ARROW - Move the cursor to the previous field. ■ DOWN ARROW - Move the cursor to the next field. ■ PAGE UP - When at the customer name, page up will move to the next data base record. ■ PAGE DOWN - When at the customer name, page down will move to the previous data base record. ■ HOME - Move the cursor to the beginning of the current field. ■ END - Move the cursor to the end of the current field. ■ MOUSE - Select any field or button. ■ Ctrl + F4 - Close the active window. ■ Ctrl + F6 - Activate the next window. ■ Ctrl + F7 - Move a window, with directional keys. Command Buttons Command Line Options .TOPIC: Data Base All records can be saved to disk in a data base file named ENERGY.MDB. The data base will first show records on an ascending order based on the Tag field of the main screen. When an index from the names screen is selected the following indexes are in use. Name = Name -> city -> state City = City -> name -> state State = State -> name -> city Zip = Zip -> name -> city Example: The name index will sort based on the name field first, then as sub-index it will sort on city and lastly on state. Data Base Indexing Maximum Field Length Data Base Repair Utility Data Base Packing Utility .TOPIC: Help on help Selecting a Help link ───────────────────── With the keyboard - Press TAB or Shift-TAB to select a link. Press ENTER to jump to that topic. With a mouse - Click on phrases outlined by two triangles. Scrolling the Help window ───────────────────────── With the keyboard - Press the cursor navigation keys. With a mouse - Click on the horizontal or vertical scroll bars. Closing the Help window ─────────────────────── With the keyboard - Press Esc or Ctrl-F4. With a mouse - Double click on the window's control box icon. top left. Contents - Displays a table of contents for the application's Help. Press C to select Contents. Search - Opens a dialogue box that lists all available Help topics. Select a topic from the list box and press ENTER. Press S to select Search. Back - Jumps to the last Help topic viewed. Press B to select Back. History - Lists the last 20 Help topics viewed. Jump to a topic by selecting from the list box and pressing ENTER. Press T to select History. Copy - Copies the contents of the current Help topic into an edit area. Select the text you want copied to the Clipboard and choose Copy. Choosing Copy without selecting any text in the edit area copies the entire Help topic to the Clipboard. Press P to select Copy. .TOPIC: Command buttons New rec....... Create a new record. Update........ Update the current record. When a record is changed in any way since the last save, a message box will ask if ENERGY can update the record for you before exit. Delete........ Delete the current record. Prev.......... Move to the previous record in the indexing sequence. Next.......... Move to the next record in the indexing sequence. Find.......... Find a specific record. The search will take place on the field that is the current index. Calc.......... Bring up a pop up calculator. Screen........ Toggle between the Names screen and the main work screen. Exit.......... Exit the program. Esc........... The Esc button will move out of the program. Mouse......... Select a field or button, Move windows. Command Buttons Command Line Options Special Keys .TOPIC: Data Base Packing utility ISAMPACK purges records marked for deletion and recovers disk space formerly used by deleted records in 32K blocks. When a record is deleted it is removed from the indexing order. However the information remains in the data file. Using ISAMPACK reconstructs the data file with active records only. Syntax ISAMPACK DEMAND.MDB Data Base Repair Utility Maximum Field Length Data Base Data Base Indexing .TOPIC: Data Base Repair Utility ISAMREPR recovers data bases that become corrupted; it recreates them by systematically evaluating every table and index and using every piece of internally consistent information in the file. Syntax ISAMREPR DEMAND.MDB Data Base Packing Utility Maximum Field Length Data Base Data Base Indexing .TOPIC: Motor Schedules Table 430-148 Full-Load Currents in Amperes Single-Phase Alternating-Current Motors ════════════════════════════════════════════════════════ HP 115v 200v 208v 230v ──────────────────────────────────────────────────────── 1/6 4.4 2.5 2.4 2.2 1/4 5.8 3.3 3.2 2.9 1/3 7.2 4.1 4.0 3.6 1/2 9.8 5.6 5.4 4.9 3/4 13.8 7.9 7.6 6.9 ──────────────────────────────────────────────────────── 1 16 9.2 8.8 8 1½ 20 11.5 11 10 2 24 13.8 13.2 12 3 34 19.6 18.7 17 ──────────────────────────────────────────────────────── 5 56 32.2 30.8 28 7½ 80 46 44 40 10 100 57.5 55 50 ════════════════════════════════════════════════════════ Table 430-150 Full-Load Currents* Three-Phase Alternating-Current Motors ════════════════════════════════════════════════════════ HP 200v 208v 230v 460v 575v ──────────────────────────────────────────────────────── 1/2 2.3 2.2 2.0 1.0 0.8 3/4 3.2 3.1 2.8 1.4 1.1 1 4.1 4.0 3.6 1.8 1.4 ──────────────────────────────────────────────────────── 1½ 6.0 5.7 5.2 2.6 2.1 2 7.8 7.5 6.8 3.4 2.7 3 11.0 10.6 9.6 4.8 3.9 ──────────────────────────────────────────────────────── 5 17.5 16.7 15.2 7.6 6.1 7½ 25.3 24.2 22.0 11.0 9.0 10 32.2 30.8 28.0 14.0 11.0 ──────────────────────────────────────────────────────── 15 48.3 46.2 42.0 21.0 17.0 20 62.1 59.4 54.0 27.0 22.0 25 78.2 74.8 68.0 34.0 27.0 ──────────────────────────────────────────────────────── 30 92.0 88.0 80.0 40.0 32.0 40 119.6 114.4 104.0 52.0 41.0 50 149.5 143.0 130.0 65.0 52.0 ──────────────────────────────────────────────────────── 60 177.1 169.4 154.0 77.0 62.0 75 220.8 211.2 192.0 96.0 77.0 100 285.2 272.8 248.0 124.0 99.0 ──────────────────────────────────────────────────────── 125 358.8 343.2 312.0 156.0 125.0 150 414.0 396.0 360.0 180.0 144.0 200 552.0 528.0 480.0 240.0 192.0 ════════════════════════════════════════════════════════ Formulas .TOPIC: Formulas OHM'S LAW 1 φ ───────────── Watts = E x I = Volts X Amps Watts = E² ÷ R = (Volts squared) ÷ Ohm's Watts = I² x R = (Amps squared) X Ohm's ─────────────────────────────────────────────────── Volts = I X R = Amps X Ohm's Volts = P ÷ I = Watts ÷ Amps Volts = √(PxR) = Square of (Watts X Ohm's) ─────────────────────────────────────────────────── Amps = P ÷ E = Watts ÷ Volts Amps = E ÷ R = Volts ÷ Ohm's Amps = √(P ÷ R) = Square of (Watts ÷ Ohm's) ─────────────────────────────────────────────────── Ohm's = E ÷ I = Volts ÷ Amps Ohm's = E² ÷ P = (Volts squared) ÷ Watts Ohm's = P ÷ I² = Watts ÷ (Amps squared) ─────────────────────────────────────────────────── OHM'S LAW FOR A 3 φ LOAD WITH A POWER FACTOR OF 100% ──────────────────────────────────────────────────── Watts = E x I x 1.732 = Volts X Amps X 1.732 ───────────────────────────────────────────────────────── Volts = P ÷ (I X 1.732) = Watts ÷ (Amps X 1.732) ───────────────────────────────────────────────────────── Amps = P ÷ (E X 1.732) = Watts ÷ (Volts X 1.732) ───────────────────────────────────────────────────────── OHM'S LAW FOR ANY 3 φ LOAD ────────────────────────── Watts = Volts X Amps X 1.732 X POWER FACTOR ───────────────────────────────────────────────────────── Volts = Watts ÷ (Amps X 1.732 X POWER FACTOR) ───────────────────────────────────────────────────────── Amps = Watts ÷ (Volts X 1.732 X POWER FACTOR) ───────────────────────────────────────────────────────── Power Factor = Watts ÷ (Amps X Volts X 1.732) ───────────────────────────────────────────────────────── .TOPIC: Maximum field length The Maximum Field Lengths for the various fields is the data that will be saved in the data base record. If you type in a longer amount of information it will not be saved in the data base file ENERGY.MDB ■ TAG .................25 ■ LOAD DESCRIPTION ......20 ■ PREPARED FOR NAME .....25 ■ PREPARED FOR ADDRESS ..25 ■ PREPARED FOR CITY .....20 ■ PREPARED FOR STATE ....20 ■ PREPARED FOR ZIP ......10 ■ PREPARED BY NAME ......25 ■ PREPARED BY ADDRESS ...25 ■ PREPARED BY CITY ......20 ■ PREPARED BY STATE .....20 ■ PREPARED BY ZIP .......10 ■ HEADER ONE ............72 ■ HEADER TWO ............72 ■ FOOTER ................72 .TOPIC: Meter Number Enter the meter number on the electric bill. This is useful only when printing a report on the electric bill. Service Period .TOPIC: Service Period Enter the service period on the electric bill. This is useful only when printing a report on the electric bill. Meter Number .TOPIC: Peak Cost Enter the usage charge on the electric bill for peak time. Peak KWH Off-Peak KWH Off-Peak Cost Fuel Charge Fixed Cost Additional Charge .TOPIC: Off-Peak Cost Enter the usage charge on the electric bill for off-peak time. Peak KWH Off-Peak KWH Peak Cost Fuel Charge Fixed Cost Additional Charge .TOPIC: Fuel Charge Enter the fuel charge on the electric bill. This dollar amount is distributed among the total peak and off-peak kilowatt hours to calculate the actual cost per kilowatt hour. Peak KWH Off-Peak KWH Peak Cost Off-Peak Cost Fixed Cost Additional Charge .TOPIC: Fixed Cost Enter any charge or credit on the electric bill. This dollar amount is distributed among the total peak and off-peak kilowatt hours to calculate the actual cost per kilowatt hour. Peak KWH Off-Peak KWH Peak Cost Off-Peak Cost Fuel Charge Additional Charge .TOPIC: Additional Charge Enter any charge or credit on the electric bill. This dollar amount is distributed among the total peak and off-peak kilowatt hours to calculate the actual cost per kilowatt hour. Peak KWH Off-Peak KWH Peak Cost Off-Peak Cost Fuel Charge Fixed Cost .TOPIC: Per Kva Cost Enter the cost per KVA for the Demand Charge. This field will accept a value up to 50.00 Dollars. ─────────────────────────────────────────────────── When you enter the information from the electric bill the Per KVA cost, Demand$ & the Billed KVA must all reflect the figures on the electric bill. This will assure ENERGY that the rates that are sent to the main screen (via the Send Rates) command button are correct. To Verify your input ENERGY will: ■ Take (Demand$) ÷ (Per KVA cost) to verify the (Billed KVA). ■ Take (Per KVA cost) X (Billed KVA) to verify the (Demand$) Demand Cost Actual Kva Billed Kva Actual Kw Adjustment Factor .TOPIC: Demand Cost Enter the Total Demand Cost. This field will accept a value up to 9,999,999.00 Dollars. ────────────────────────────────────────────────────────── When you enter the information from the electric bill the Per KVA cost, Demand$ & the Billed KVA must all reflect the figures on the electric bill. This will assure ENERGY that the rates that are sent to the main screen (via the Send Rates) command button are correct. To Verify your input ENERGY will: ■ Take (Demand$) ÷ (Per KVA cost) to verify the (Billed KVA). ■ Take (Demand$) ÷ (Billed KVA) to verify the (Per KVA cost) Per Kva Cost Actual Kva Billed Kva Actual Kw Adjustment Factor .TOPIC: Billed Kva Enter the Total billed KVA. This field will accept a value up to 25,000 KVA. ──────────────────────────────────────────────── When you enter the information from the electric bill the Per KVA cost, Demand$ & the Billed KVA must all reflect the figures on the electric bill. This will assure ENERGY that the rates that are sent to the main screen (via the Send Rates) command button are correct. To Verify your input ENERGY will: ■ Take (Per KVA cost) X (Billed KVA) to verify the (Demand$) ■ Take (Demand$) ÷ (Billed KVA) to verify the (Per KVA cost) Per Kva Cost Demand Cost Actual Kva Actual Kw Adjustment Factor .TOPIC: Actual Kva Enter the actual KVA as shown on the electric bill. This field will accept a value up to 25,000 KVA. ──────────────────────────────────────────────── This value is used to: ■ Calculate the adjustment factor for the Demand Cost. ■ Calculate the Power Factor. Per Kva Cost Demand Cost Billed Kva Actual Kw Adjustment Factor .TOPIC: Actual Kw Enter the actual KW as shown on the electric bill. This field will accept a value up to 25,000 KW. ─────────────────────────────────────────────── This value is used to: ■ Calculate the Power Factor. Per Kva Cost Demand Cost Actual Kva Billed Kva Adjustment Factor .TOPIC: Adjustment Factor The adjustment is automatically entered for you when you enter the Actual KVA & the Billed KVA. This value is used to adjust the actual cost burden for Demand Charge. This field will accept a value from 1 to 100% ───────────────────────────────────────────── The reason for the adjustment factor is that most electric utility companies will allow for a Power Factor of 90%. Therefore if you have a 10 KVA Load and the power company is billing for 90% of the total KVA then the billable KVA on the 10 KVA load is 90% of the 10 KVA or 9KVA. Therefore the adjustment factor will assure that the reports reflect the true cost that you incurred on the electric bill. Example: Assume a per KVA cost of $10.00. When we look at the electric bill we see that the actual KVA is 100 but the billed KVA is 90. This would cause the electric bill to look like this: 90 KVA X $10.00 per KVA = a Demand Cost of $900.00 Now lets calculate the demand cost of a motor load with a KVA demand of 10 KVA. If we took the 10 KVA X $10.00 per KVA the demand cost would be $100.00 This would be $10.00 higher than we were actually charged on the electric bill for this motor. This value is used to adjust the demand cost on the reports. Per Kva Cost Demand Cost Actual Kva Billed Kva Actual Kw .TOPIC: List Charge Use this field to enter the description of a charge or credit. You may have a charge on the electric bill that we would not have a heading for. Therefore you can type in any heading you want, and ENERGY will print that information in the report. Example: Oca charge Example: Rate settlement credit Example: Sales tax Additional Charge .TOPIC: Lighting Schedules STD - Standard ballast EEMAG - Energy efficient magnetic ballast ELIG - Electronic or hybird ballast EE - Energy efficient lamp RATED WATTAGE FOR VARIOUS FIXTURES ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ FOUR-FOOT FLUORESCENT SYSTEMS F40T12 Description Rated Wattage Description Rated Wattage 1L4'STD/STD 57 1L4'STD/EEMAG 50 2L4'STD/STD 94 2L4'STD/EEMAG 86 3L4'STD/STD 151 3L4'STD/EEMAG 136 4L4'STD/STD 188 4L4'STD/EEMAG 172 1L4'STD/ELIG 46 1L4'EE/STD 50 2L4'STD/ELIG 72 2L4'EE/STD 86 3L4'STD/ELIG 110 3L4'EE/STD 136 4L4'STD/ELIG 144 4L4'EE/STD 172 1L4'EE/EEMAG 40 1L4'EE/ELIG 38 2L4'EE/EEMAG 70 2L4'EE/ELIG 60 3L4'EE/EEMAG 110 3L4'EE/ELIG 90 4L4'EE/EEMAG 140 4L4'EE/ELIG 120 F32T8 1L4'T8/EEMAG 37 1L4'T8/ELIG 30 2L4'T8/EEMAG 70 2L4'T8/ELIG 60 3L4'T8/EEMAG 107 3L4'T8/ELIG 90 4L4'T8/EEMAG 140 4L4'T8/ELIG 120 F48T12 1L4'F48T12/STD 60 1L4'F48T12EE/STD 50 2L4'F48T12/STD 102 2L4'F48T12EE/STD 82 3L4'F48T12/STD 162 3L4'F48T12EE/STD 132 4L4'F48T12/STD 204 4L4'F48T12EE/STD 164 F48T12HO 1L4'HO/STD/STD 85 1L4'HO/EE/STD 80 2L4'HO/STD/STD 145 2L4'HO/EE/STD 135 3L4'HO/STD/STD 230 3L4'HO/EE/STD 215 4L4'HO/STD/STD 290 4L4'HO/EE/STD 270 FIVE-FOOT FLUORESCENT SYSTEMS 2L5'STD/STD 135 SIX-FOOT FLUORESCENT SYSTEMS 1L6'STD/STD 95 2L6'STD/STD 173 1L6'VHO/STD/STD 180 2L6'VHO/STD/STD 300 1L6'T8/EEMAG 53 2L6'HO/STD/STD 206 3L6'STD/STD 213 EIGHT-FOOT FLUORESCENT SYSTEMS F96T12 1L8'STD/STD 100 2L8'STD/STD 173 2L8'STD/EEMAG 158 3L8'STD/STD 273 4L8'STD/STD 346 4L8'STD/EEMAG 316 1L8'STD/ELIG 70 1L8'EE/STD 83 2L8'STD/ELIG 134 2L8'EE/STD 138 3L8'EE/STD 221 4L8'STD/ELIG 268 4L8'EE/STD 276 1L8'EE/ELIG 60 2L8'EE/EEMAG 123 2L8'EE/ELIG 109 4L8'EE/EEMAG 246 4L8'EE/ELIG 218 HIGH INTENSITY DISCHARGE SYSTEMS MERCURY VAPOR 40 W Mercury Vapor 50 50 W Mercury Vapor 75 75 W Mercury Vapor 95 100 W Mercury Vapor 120 175 W Mercury Vapor 205 250 W Mercury Vapor 290 400 W Mercury Vapor 455 1000 W Mercury Vapor 1075 METAL HALIDE 50 W Metal Halide 85 70 W Metal Halide 95 100 W Metal Halide 130 150 W Metal Halide 195 175 W Metal Halide 205 250 W Metal Halide 300 400 W Metal Halide 455 750 W Metal Halide 825 1000 W Metal Halide 1080 1500 W Metal Halide 1620 HIGH PRESSURE SODIUM 35 W - HPS 45 50 W - HPS 65 70 W - HPS 95 100 W - HPS 130 150 W - HPS 190 200 W - HPS 245 250 W - HPS 295 310 W - HPS 365 400 W - HPS 460 1000 W - HPS 1100 LOW PRESSURE SODIUM 35 W - LPS 60 55 W - LPS 85 90 W - HPS 130 135 W - HPS 180 180 W - HPS 230 Most ballast today have high power factor ballast that bring the power factor to within 2% to 5% of unity 100% Power factor. The figures above represent the wattage or true power consumed by the various fixtures and not the volt-amps or apparent power. Please consider this if you are using these figures and reporting on the demand charges. Example: A 2Lamp 4' Standard lamps and Standard ballast fixture is rated at 94 watts therefore 94 watts / 120 volts = .783 amps. However one manufacture has the ballast listed at .8 amps. The wattage at .8 amps is 120 volts X .8 amps = 96 va With this information we can list the fixture at .8 amps instead of the .783 but in the power factor column we can put 98 instead of 100. (94 watts / 96volt amps = .979% power factor -> rounded to 98%). Using this method we would have a report that has a 2% better accuracy on the demand charges.