Retrocommissioning Final Report
Contents
1. Operating amp Maintenance Plan 6 This section is dedicated to the plumbing and fire protection tradesmen and associated engineers It is here for any data related to the functioning replacement and energy consumption by the plumbing and fire protection systems in the building TM This section is dedicated to the heating ventilating and air conditioning tradesmen and associated engineers It is here for any data related to the functioning replacement and energy consumption by the HVAC systems in the building Industrial Belt Design Drive Detail Report CA AAC Design Flex Pro by the Gates Corporation Designed For MIKE MONTGOMERY Provided By STEVE SMALL UNIVERSITY OF ILLINOIS GATES CORPORATION CHAMPAIGN Illinois 1359 Jeffco Blvd United States PO Box 707 mike montgomery motion ind com Arnold Missouri 63010 United States ssmall gates com 636 287 9100 Phone 303 744 4693 Fax Application ACES Library_AHU 2 RETURN FAN_Polychain Carbon DriveR DriveN RPM 1780 0 828 4 4 Shaft Diameter 2 125 in 2 9375 in Drive Information Speed Ratio 2 15 Down Input Load 40 hp Service Factor 1 4 Design Power 56 hp Center Distance 40 32 in 10 Bushings Checked Any Motor Standards NEMA Electric Motor 324T frame Belts Checked Poly Chain Carbon PowerGrip GT2 SELECTED DRIVE Belt Type Poly Chain Carbon 14M Belt DriveR DriveN Part No 14MGT 3136 20 14 432. 1 dae TM 1 OI td C E E E C3 D DMX Control ete er rn itudin treme ree d D 1 PES Us TU D 1 D2 QNEM UT TTE D 1 Dd Programming D 3 EN TO _______ E E CODIBG IDE ued E EZ vada bn E F el 3 3 ES Programming OPEN CLOSE E 4 M MODBUS Comrnunicqhlionss M 1 NEG i p M 1 M 2 C a a M 1 Transmission pel dex sc edo pn M 1 M 4 Transmission Mode 3 M S Hardware 3 MG Required Parameter M 3 M7 M 3 Supported Additional Informdfionioi n ua in M 3 N N2 COMMUNICOHONS bri da dava N 1 Jr N 1 N2 Hardware u uuu cw N 1 N3 Point eee T N 1 Quanta Elite User Manual Version 1J 9 20 00 QUAN Section 1 Controller Description 5 9 2 Jg Q E 5 QUANTA QUANTA ELITE WED 02 28 01 07 50 54 PM C 01 ILC Quanta Elite User Manual Version 1J 9 20 00 Controller
3. Finding Many of the transducers transmitters and pilot positioners were out of calibration thereby reading and sending erred values Proposed Calibrate all the sensors related to the building pressure outside air temp and Solution humidity and all sensors and transducers associated with each air handling unit Handed Off Implemented Completed by Maintenance To Maintenance Yes No 54 Completed by RCx To Engineering L Will Be 1 Completed by Facility Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 12 of 14 Facilities amp Services August 5 2008 Verification of Savings The data shows that the solutions implemented at ACES have had serious impacts on the amount of energy consumed and a payback of thousands of dollars Data was collected over the last year in energy usage and has been compared to this year after the RCx Team visited Below the difference in monthly usage is noted 00377 ACES LIBRARY INFORMATION AND ALUMNI CENTER 128 700 132 700 143 700 146 800 129 100 147 300 132 900 150 100 160 500 131 600 144 300 137 900 148 000 125 700 132 600 148 700 143 700 136 600 121 400 Figure 1 Energy Savings since RCx I mplementations These savings are estimated to amount to 7 950 according to the current utility rates for the actual two months Th
4. 5 OUTMX OUTMN ENCHG ACT DIRECT RASEL NO RAMP ACES LIBRARY LCM 2 AHU 1 PREHEAT VALVES AHU 1 Nit i cue 6 18 2008 SHEET 4 4 NA ON CENAB DV ONDV OFFDV DIAGN LO PR LOGIC SAFETY ONDV OFFDV OFFDV E DIAGN ONTIM DINP4 CHTIM NCHGS DINP5 OSS AHU2 WI OCC FAENA DAENA LO PR CENAB DV ONDV OFFDV OS 5 PR ONTIM CENAB DV CHTIM ONDV NCHGS OFFDV DIAGN ONTIM CHTIM DI LO LMT CENAB m ONDV ___ m DIAGN DI SMOKE 22 ONTIM CENAB DV CHTIM NCHGS OGIC SMK_PURG RAMP SMK PURI 0 DI SMK_PURG DV DO RF SIS IPR3 LECT PRG CENAB DO SF 55 DV OVTIM CAUSE DIAGN ONTIM CHTIM 0 0 OSS AHU OCC FAENA VAC DAENA MXSTA MXSTP NA OFF CENAB LOOP STATIC AV RGCM X1 ALRM DFTDV DV DIAGN SLECT SF VFD CENAB AV AINP1 AINP2 INSEL SLECT SF_VFD INSEL LOGIC SMK LOOP STATIC RAENA SLECT SMK_RF RGCM SUMR SC DFTDV DV DIAGN PURG DINP1 ON NCHGS SLECT SP SCH INSEL DORRF 55 DV OVTIM CAUSE DIAGN ONTIM LOGIC SAFETY OFFDV SLECT X1_ALRM CENAB
5. 1 CLOSED 83 SWITCH INPUT 42 OFF O OPEN 1 CLOSED 84 SWITCH INPUT 42 ON 0 1 CLOSED 85 SWITCH INPUT 43 OFF O OPEN 1 CLOSED 86 SWITCH INPUT 43 0 1 CLOSED 87 SWITCH INPUT 44 OFF O OPEN 1 CLOSED 88 SWITCH INPUT 44 ON 1 CLOSED 89 SWITCH INPUT 45 OFF O OPEN 1 CLOSED 90 SWITCH INPUT 45 0 1 CLOSED 91 SWITCH INPUT 46 O OPEN 1 CLOSED BI 92 SWITCH INPUT 46 ON O OPEN 1 CLOSED 93 SWITCH INPUT 47 O OPEN 1 CLOSED 94 SWITCH INPUT 47 1 CLOSED 95 SWITCH INPUT 48 OFF O OPEN 1 CLOSED BI 96 SWITCH INPUT 48 ON O OPEN 1 CLOSED N 6 Appendix 2 Commmunications QUAN gt NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES BO RELAY OUTPUT 1 O OFF 1 ON BO 2 RELAY OUTPUT 2 O OFF 1 BO 3 RELAY OUTPUT 3 O OFF 1 ON BO 4 RELAY OUTPUT 4 O OFF 1 ON BO 5 RELAY OUTPUT 5 O OFF 1 ON BO 6 RELAY OUTPUT 6 O OFF 1 BO 7 RELAY OUTPUT 7 O OFF 1 ON BO 8 RELAY OUTPUT 8 O OFF 1 ON BO 9 RELAY OUTPUT 9 O OFF 1 ON BO 10 RELAY OUTPUT 10 O OFF 1 ON BO 11 RELAY OUTPUT 11 O OFF 1 BO 12 RELAY OUTPUT 12 O OFF 1 BO 13 RELAY OUTPUT 13 O OFF 1 BO l4 RELAY OUTPUT 14 O OFF 1 BO 15 RELAY OUTPUT 15 O OFF 1 BO 16 RELAY OUTPUT
6. AERAT 1 CENAB AV INTYP STANDARD INTYP USER DEFINED INTYP STANDARD Al OA HUM AV DIAGN INTYP USER DEFINED INTYP STANDARD DI SMK_PURG CENAB DI SF1_STS CENAB RLCM LO LMT_1 DFTAV ENTHL RA 1 CENAB AV DBULB OFFDV HIFLG LOFLG MODE ON OFF CONTROL ENTHL OA CENAB AV DBULB RH OFFDV _ LOFLG MODE ON OFF CONTROL DV ONDV OFFDV DIAGN CHTIM NCHGS DV DIAGN NA 100 0 LOGIC MINOA 1 DINP3 LOOP MAT 1 CENAB DV ONDV OFFDV LOFLG MODE ON OFF CONTROL 55 0 DEG F LOOP MAT 1 LOGIC MAD1 CENAB DINP1 ONDV DINP2 OFFDV DINP3 DV AND RLCM AHU10CC DFTAV DV DIAGN LOGIC MINOA_1 CENAB DV DINP1 ONDV DINP2 OFFDV DINP3 AND SLECT MAD_1 CENAB AV AINP1 AINP2 INSEL 0 0 NA SLECT OCC_UNOC CENAB AV 0 0 AINP1 AINP2 INSEL 20 0 SLECT MINOA_1 CENAB AV AINP1 AINP2 INSEL LECT PRG MAD1 CENAB AV AINP1 AINP2 INSEL CENAB AV SP HIFLG TR LOFLG NOACT COENA OUTMX OUTMN RAENA RASEL SOFT START 45 0 DEGF 1 CENAB AV AINP _ SP HIFLG TR LOF
7. L Handed Off To Maintenance To Engineering Completed by RCx D Completed by Maintenance Energy Savings Project Proposal 12 Finding Architectural windows have a broken thermal barrier and should still be under warranty to replace or fix Proposed Pursue warranty item and replace windows with thermal failure Solution Cost Yes No Estimate Labor Costs Payback 10 yrs Implemented Will Be Handed Off 54 To Maintenance To Engineering Completed by RCx Completed by Maintenance Retrocommissioning Team Division of Engineering Facilities amp Services ACES Library Info amp Alumni Center Retrocommissioning Final Report 9 of 14 August 5 2008 Operations amp Maintenance Projects Operations amp Maintenance Project 1 Finding An existing GCS Controller was found to be defective not allowing damper control on AHU 2 Affected building pressure and temperature control Temperatures and alarms were inac
8. O OPEN 1 CLOSED 38 SWITCH INPUT 19 ON 0 1 CLOSED 39 SWITCH INPUT 20 OFF 0 1 CLOSED 40 SWITCH INPUT 20 ON 0 1 CLOSED 41 SWITCH INPUT 21 OFF O OPEN 1 CLOSED 42 SWITCH INPUT 21 0 1 CLOSED 43 SWITCH INPUT 22 0 1 CLOSED 44 SWITCH INPUT 22 ON 0 1 CLOSED 45 SWITCH INPUT 23 OFF 0 1 CLOSED 46 SWITCH INPUT 23 ON 0 1 CLOSED 47 SWITCH INPUT 24 OFF O OPEN 1 CLOSED 48 SWITCH INPUT 24 ON 0 1 CLOSED BI 49 SWITCH INPUT 25 OFF 1 CLOSED Appendix 2 Commmunications QUAN NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES 50 SWITCH INPUT 25 ON 0 1 CLOSED BI 51 SWITCH INPUT 26 OFF O OPEN 1 CLOSED 52 SWITCH INPUT 26 1 CLOSED 53 SWITCH INPUT 27 0 1 CLOSED 54 SWITCH INPUT 27 1 CLOSED 55 SWITCH INPUT 28 OFF O OPEN 1 CLOSED BI 56 SWITCH INPUT 28 ON 0 1 CLOSED 57 SWITCH INPUT 29 0 1 CLOSED BI 58 SWITCH INPUT 29 ON 0 1 CLOSED 59 SWITCH INPUT 30 OFF 0 1 CLOSED 60 SWITCH INPUT 30 ON 1 CLOSED 61 SWITCH INPUT 31 OFF O OPEN 1 CLOSED 62 SWITCH INPUT 31 ON 0 1 CLOSED BI
9. ACES LIBRARY INFO amp ALUMNI CENTER AUGUST 2008 A work completed by Retrocommissioning Team Division of Engineering Services Facilities amp Services This document is property of Facilities and Services Retrocommissioning Team and is not to be revised copied or distributed without the explicit consent of the Manager of the Team This document is not intended to be dynamic but rather a static report taken at one point in time in order to compare with the past and with the future 2008 This document is based upon 2005 Portland Energy Conservation Inc PECI All rights reserved Table of Contents Executive b u aa awas obedire Massi aaa 3 PUN OWS n 4 Re ala 4 Investigation and Data Collection 5 Documentation ReVieW 5 5 Analysis i 5 Energy Saving Projects Proposed nn
10. m 3 29 3 29 Pael NOME T 3 30 3 24 PIGSOTS c nirani aieeaa AAA OENE 3 32 3 25 M 3 34 3 26 Set Open Close Times 3 36 3 26 1 Example Set Open Close 3 37 3 26 2 Example Define the Timers 3 38 3 26 3 Example Lighting Relays to Timers 3 39 3 27 Firmware Revision 3 40 Quanta Elite User Manual Version 1J 9 20 00 Programming QUAN gt Objectives Another term used often is Home screen The Home screen is the top level screen of the con In this section you will learn how to program troller It features the controller name the date QUANTA Elite Controller and the time See Figure 3 1 The controller displays this screen on power up and at times Conventions Definitions when you are not programming or checking Actual key strokes entries appear as arrows for I Put output status example followed if applicable by the Automatic Timeout Data Saving appropriate keyword For example to leave the Home screen the entry is B gt EDIT See If you do not press any keys for 30 seconds figure below while you are programming the controller will automatically return to the Home screen and The term default appears in this section Default save whatever data was entered Therefore means the value or entr
11. 0545421 315 158 10 0545421 315 158 ao 0545421 315 158 u2337 10 054542 35 158 10 10 5454 35 158 ao 1054642 375 180 950 26 04 UJ w 0 0 TOTAL DESIGN AI RFLOW OUTLET CFM PRELI MI NARY Static Pressure Max FINAL AI RFLOW cfm Heating Clg Htg M Min 9 Cooling AHU Max SP FOUND OUT OF CONTROL REPLACED CONTROLLER 3 1 1 1 1 1 1 2 1 1 1 1 2111 jax 149 63 82 61 65 134 77 72 77 75 115 110 107 109 110 48 51 49 50 50 50 43 97 47 43 41 42 15 6 2 2 18 3 32 33 30 3 o1 2 38 12 ozsa 4 zs wos us 308 1 308 2 TOTAL 306 1 306 2 306 3 TOTAL 03499 225 m u2339 8 03499 225 112 4 22 p us T T e sj 40 04 30 04 Retrocommissioning Team Division of Engineering Facilities and Services wo 12 wo in Box our oF 78 _____ REPLACED 28 ____ se as Page 4 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 5th floor Mechanical Room TEST DATE REA
12. paw 138 138 138 s E posee 15 054542 f 3 15 1054542 Lo eee pa s 36 055 4 055 055 j 35 s ze 055 2 j e PRELI MI NARY Static Pressure Retrocommissioning Team Division of Engineering Facilities and Services FINAL AI RFLOW cfm pred Clg Htg Min 396 MAX FOUND NOT WORKI NG WIDE OPEN REPLACED DID BACK THIS OFF Page 1 of 3 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 1 LOCATION FIRST FLOOR TEST DATE READINGS BY JAMES HUGHES DESI GN Al RFLOW AREA SERVED OUTLET CFM PRELI MI NARY FINAL AI RFLOW cfm Static Pressure ois pesky Clg Htg ROOM NUMBER NUMBER SQFT Min 13 GL 22 3 14159 se REMARKS Ee a 1001 pao a 179 RESET MIN 9776 MIN 1042 1043 ee Josasaz 3 ex 1045 3 Total T unsi 1361 1362 10 055 ze us 9 Total 26 4
13. C id RS 232 Port PC Add On Module Factory suppled RS232 cable to computer COM port Figure B 1 Programming the Controller from PC Quanta Elite User Manual B 2 Version 1J 9 20 00 Appendix C Master Slave Networking 1 Overview You can link up to 256 Quanta controllers to form a LAN Local Area Network Switches and timers can control relay outputs in any of the controllers regardless of the location of the physical switch You program alll functions and O points from the master controller programming module C 2 Setup Each controller in the LAN will come factory equipped with the required networking firmware and a Serial LAN Module which is mounted on the CPU I O board See Figure C 1 Make sure the position of the protocol select jumpers on the Serial LAN Module are in the proper Master Slave Networking posi tion Also note the adaress DIP switches Each controller in the LAN must have a unique address The Quanta you choose as master MUST be controller 1 To set controller address set the switches so that when you add the values of each switch set to the ON position the total will be the desired adaress C 3 Installation Install each Quanta controller per the instructions in Section 2 The LAN physical link is cable Carol 2534 or equal contact ILC for cable specifications connected to the 25485 port on the Serial LAN Module See Figure C 1 The master controller can be installe
14. 5 Security and Door Access System a perimeter security syslem is provided wik qund looks Selective rooms in the lower level arc provided with card access and electric locks 6 The building has a publio dress sound system with selective zones with phone access 4 Rew 7 The building has an addressable fire alarm system with smoke and heat detectors magnetic Desk door bolders sprinkler connections elevation recalls horn and strobe alarms The fire alarm is also tied into the campus loop 8 The building is provided with voice and data commu University standards D 9 4 MAAKE OA ARMLA 1 MD e dag SUMA ar Y QUAN TZ USER GUIDE Version 1J 9 20 00 INTELLIGENT LIGHTING CONTROLS INC 5229 Edina Industrial Boulevard Minneapolis Minnesota 55439 Phone 952 829 1900 FAX 952 829 1901 1 800 922 8004 QUAN 1 Overview The QUANTA Elite is microprocessor based programmable lighting controller You can program each of the controller inputs to control any or all of the relay outputs The QUANTA Elite is UL and FCC approved for commercial and residential applications Structure The major components making up the controller are e enclosure e
15. 6 Operations amp Maintenance 10 Verification VR do m 13 The Path to Success Maintenance of 5 14 Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 2 of 14 Facilities amp Services August 5 2008 Executive Summary The Retrocommissioning Team in conjunction with Facilities and Services Engineering Division completed a retrocommissioning study of ACES Library Info amp Alumni Center for the University of Illinois ACES was considered to be No 52 in the Top 100 List of Energy Consumers on campus with an estimated 355 000 annual utility cost The project was funded by student fees in harmony with their vision to create a sustainable campus Retrocommissioning or returning a building to its originally intended design while integrating energy saving measures is a snapshot in the life of a building that applies a systematic investigation process to improve and optimize a building s operation and to offer suggestions to improve the overall maintenance It is an independent process that focuses on the building s energy using equipment such as the HVAC and other mechanical equipment lighting equipment and related controls It may or may not emphasize bringing the building back to its original intended design specifications In
16. 6 OB B BHEE H mme 16 OE B a eg EEEO 9 gts Typical momentary ote smt switch with LED ls i AH E a i rs Q inis ols gt 55554 een O 1 1 i Switch input Override Relay output Yeu LED Common Grey Status LEDs switches Status LEDs LED Orange to LED terminal of relay controlled Applies to pilot lighted switches only Figure 2 2 Wire Class 2 Switch Circuits Quanta Elite User Manual 2 4 Version 1J 9 20 00 Installation 2 4 Pre Power Checks Complete the following checks BEFORE applying power to the QUANTA Elite controller 2 4 1 Check Controller Power Input 1 Verify that the controller power switch is OFF 2 After verifying that control transformer source voltage is 120 or 277 VAC whichever is appropriate power up the circuit 3 Verify correct line voltage on the primary of the transformer 2 4 2 Verify Controller s Supply Voltage Verify that there is 24 VAC on control transformer secondary and 12 VAC between each leg and the center tap See Figure 1 2 2 4 3 Double Check Connections 1 Verify integrity of I O connections 2 Verify integrity of all internal and external wire cabling Quanta Elite User Manual Version 1J 9 20 00 QUANTA py 2 5 Power Up and Check Out Complete the following procedures to power up and check out the QUANTA Elite
17. A 3 Telephone Control Setup 1 If you are field installing the module power down the controller and plug the module into an unused expansion slot on the con troller CPU board See Figure A 1 2 Connect a phone cord to the module RJ11 jack and connect the other end to the telephone outlet The telephone line must be an analog line and have its own phone number The line must be direct and not switched through a PBX or any type of extension system 3 Dial the telephone number of the controller 4 When the controller answers follow the voice prompts that will guide you through the operations you can perform Quanta Elite User Manual Version 1J 9 20 00 QUANTA py A 4 Remote Modem Programming Control and Monitoring You can link personal computer PC equipped with a modem and QUANTA Pro networking software to the QUANTA Elite controller and perform all the control and programming operations supported by Quanta Pro including e Check the status of the controller s relay outputs and switch inputs e Turn ON OFF individual relay outputs e Sweep ON OFF all the relay outputs e Define switch inputs and map them to relay outputs e Define timers and map them to relay outputs e Define and invoke preset scenes e Upload and download data between the controller and your PC A 5 Remote Modem Control Setup lf you are field installing the module power down the controller and plug the module into an unu
18. FOUND BOX OUT OF CONTROL REPLACED CONTROLLER COULD BE TURNED UP IF NEEDED NOT AT MAX ojo Als ayn Als NIN Retrocommissioning Team Division of Engineering Facilities and Services Page 1 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 2nd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES DESIGN AI RFLOW AREA SERVED CFM PRELI MI NARY FINAL AI RFLOW cfm Heating Static Pressure pr Clg Htg Min 33 04 REMARKS CONTROL WI DE OPEN FOUND BAD POLY TUBE AND REPAIRED Cooling ROOM NUMBER NUMBER t BOX WILL NOT CONTROL IF MIN IS SET ANY LOWER FOUND BOX OUT OF CONTROL REPLACED CONTROLLER AND FOUND HOSED OFF OF GRID INSI DE BOX REPAIRED IT 9 1 1 DAMPER MOSTLY CLOSED 148 5 comro FOUND THE ass 7 Hoss OF F OF THE GRID 303 INSIDE OF THE Retrocommissioning Team Division of Engineering Facilities and Services Page 2 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 2nd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES DESIGN AIRFLOW ROOM NUMBER NUMBER SQFT Mult Max a PR Min 221 1 a 034909 225 m un 221 2 u2 2 48 8 225 112 TOTAL 24 2201 03499 175 87 2202 ux249 8 03499
19. Grounding Lug Control transformer Enclosure o ouo AT olo 89 amp 22 o ESCO eae NCCC Y 8 CPU I O board Lighting relays ORANGE ORANGE status BLACK OFF RED ON BLUE COM Programming module Relay termination detail Figure 1 1 QUANTA Elite 8 Controller Quanta Elite User Manual 1 4 Version 1J 9 20 00 Controller Description QUAN ite Programming modda Main power switch under Keyboard on the controller board Terminal block for QUAN T 2 transformer litt under Keyboard i on controller QUANTA ELITE board WED 02 28 01 07 50 54 C 01 ILC 12 Center tap 24 VAC 12 VAC 5 2 Jg Q 5 Power supply Power EXPANSION MODULE 1 EXPANSION MODULE 2 LED 00000000000000000 00000000000000000 Override switches Relay output connector Orange Aux contacts used 2 7 relay Black OFF Red ON Blue COM 1 BE B mounted headers for relay output Y connectors Switch input Data to Relay output Status Terminals Pilot Power to status LEDs next board status LEDs used with Pilot
20. The minimum requirements for the computer are e IBM compatible PC e 486DX 66 or faster Pentium recommended e RS232 serial port e CD ROM or CD ROM R W drive e Windows 95 98 or newer e 8 MB RAM e VGA or SVGA monitor 640 x 480 min 800 x 600 recommended e Mouse amp keyboard With QUANTA Pro you can e Check the status of the controller s relay outputs and switch inputs e Turn ON OFF individual relay outputs e Sweep ON CFF all the relay outputs e Define switch inputs and map them to relay outputs e Define timers and map them to relay outputs e Define and invoke preset scenes e Upload and download data between the controller and your PC Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy B 2 PC Add On Setup If you are field nstalling the module power down the controller and plug the module into an unused expansion slot on the controller CPU I O board See Figure B 1 2 Connect the factory supplied RS232 cable to the module port and connect the other end to the COM port you have selected for communication on your computer 3 Using QUANTA Pro connect with the controller 4 When your PC and the controller link per form the desired QUANTA Pro operations B 1 o 5 2 x Appendix B PC Add on Module QUANTA Elite controller Personal Computer equipped with QUANTA Fro software Unused Expansion Slot
21. dran E 9 e drain ooo m wr mj Data line out to Node 2 Data line out to Node S terminate center wire drain terminate center wire drain NODE 1 NODE 2 NODE S Figure C 1 LAN Setup Quanta Elite User Manual C 2 Version 1J 9 20 00 Appendix C Master Slave Networking C 5 Programming You program the entire network from the master con troller The procedures and parameters are the same as described in Sections 1 and 2 except that you need to define the controller number node in addition to the other parameters You do this by pressing and holding the appropriate programming module keys 5 1 Example Program switch input 2 located in con troller 4 to control relay output 3 in controller 2 1 Access the INPUT RELAY CONTROL screen 2 Press and hold j gt INPUT until the node selection screen appears 3 Press until NODE 04 appears 4 Press to return to the INPUT RELAY CONTROL screen 5 Press until INPUT 02 appears 6 Press and hold gt RELAY until the node selection screen appears 7 Press until NODE 02 appears 8 Press to return to the INPUT RELAY CONTROL screen 9 Press RELAY and then A until RELAY 03 appears 10 Press ACTION then A until the desired relay response appears 11 Press EXIT to save the data and leave the screen Quanta Elite User Manual Version 1J 9 20 00 QU
22. hexadecimal uses ASCII printable characters 0 9 A F Start Bits 1 Data Bits least significant first 7 Parity optional 1 1 Bit set for even or odd no Bits for no parity Stop Bits 1 or 2 Error Checking LRC Longitudinal Redundancy Check M 3 2 RTU Coding System 8 Bit Binary Start Bits 1 Data Bits least significant first 8 Parity optional 1 1 Bit set for even or odd no Bits for no parity Stop Bits 1 or 2 Error Checking CRC Cyclical Redundancy Check gt o 5 2 x Appendix M MODBUS Communications QUANTAZ QUANTA MODBUS Communications Example See Termination Detail Below MODBUS COMM Terminal on Ic Det i uL POS Drain from other network node Serial LAN Module NEG QUANTA Elite MOL ail ad qu 100000000000000000 00000000000000000 BUS and Serial LAN Module A 20 Data Line 2 18 AWG Shield Pair to other network node Protocol jumper configuration B LAN a gt 00 gt DIP Switch Addressing Add the value of each ON 7 Protocol WARNING Processor must be turned OFF before protocol jumper changes switch to determine the
23. 124 2 RECEIVING ass us Total TL us s s aes 2 1 us C ez s xs s x s __ x s aw s I I3 e Is x T 125 GL 30 0 34907 161 81 185 105 ROLLED T STATS DI D NOT ADJ UST ANY BOXES 26 30 z 1 s 4 e os s 4 s 4 e os _ s 4 bhes s e e j o 8 lt RESET MIN 7196 MIN Retrocommissioning Team Division of Engineering Facilities and Services Page 2 of 3 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 1 LOCATION FIRST FLOOR TEST DATE READINGS BY JAMES HUGHES DESIGN AIRFLOW BOX Cooling Heating Cooling Heating Clg Htg NUMBER DIA H w SQFT Mult Max Max Max Min c x 24 se 14 FOUND OUT OF CONTROL REPLACED CONTROLLER BOX 35 STILL NOT WORKI NG OUT OF 120 GL 35 0 34907 230 115 X 04 CONTROL FEAR GRID BROKEN VAV BOX IS IN WALL NEED WORK VI CE DEANS OFFICE BOX IS WIDE OPEN GL 36 0 34907 115 225 103 X osx FOUND OUT OF CONTROL 119 GL 37 0 34907 166 83 14 04 161 88 REPLACED CONTROLLER BOX
24. Appendix N QUAN 1 Section 2 Installation QUANTA QUANTA ELITE WED 02 28 01 07 50 54 PM C 01 ILC Quanta Elite User Manual Version 1J 9 20 00 Installation Table of Contents QUAN gt Section 2 Installation 2 0 SECTION OVeOIVIBW cicndicvidanneiiieanteccsssanertwekiseiadins Finita d Rad daa 2 1 2 1 tec konkret reae s 2 2 2 2 Mounting The Controller tase 2 2 2 2 NATUS 2 2 2 2 2 Environmental Considerations e ripis 2 2 2 2 3 Distance From Control Devices bota ves dut 2 2 25 Wiring The 2 2 2 3 1 Wire the Control Trqnsformer erre treten 2 2 2 3 2 Connect LINE 2 2 2 3 3 Wire 2 2 2 3 4 SET Relay RESPONSE rtp iex kx n eR RE 2 2 24 Pre Power Checks aisedsresaecdvcezests 2 5 2 4 1 Check Controller Power Input rn ads 2 5 2 4 2 Verify Controller s Supply 2 5 24 3 Double Check CONNeECHONS 2 5 2 5 Power Up Check m 2 5 2 5 1 Power Up the Controller 2 5 2 5 2 Verify the 2 5 2 5 3 Perform Initial Programming 2 5 2 5 4 Verify the Switching FUNCHON 2 5 2 3 5 Verify The Timer FUNCTIONS 2
25. CAUSE DIAGN AO RADVLV SLECT RADVLV INSEL LCM 6 RADIATION SYSTEM STEAM VALVE RADIATION STEAM VALVE OPERATION THE STEAM VALVE IS A NORMALLY OPEN VALVE COMMAND IS 96 CLOSED IF PUMP STATUS IS NOT PROVEN THE VALVE WILL BE COMMANDED TO 100 CLOSED AND THE REHEAT VALVE EP WILL BE COMMANDED TO PLACE MAIN AIR ON THE VALVE ACTUATOR TO CLOSE THE VALVE IF PUMP STATUS IS PROVEN THE HEAT EXCHANGER VALVE WILL MODULATE TO MAINTAIN A SUPPLY WATER SETPOINT BASED ON OUTSIDE AIR TEMPERATURE OAT IF OAT IS 5 DEG F THE SUPPLY SETPOINT IS 180 DEG F IF OAT IS 55 DEG F OR GREATER THE SUPPLY SETPOINT IS 140 DEG F ACES LIBRARY RADIATION SYSTEM SCALE NONE 7 8 2008 SHEET 4 4 This section is dedicated to the electrical fire alarm telephone data amp cable tradesmen and associated engineers It is here for any data related to the functioning replacement and energy consumption by the aforementioned systems in the building TM n mi ai EM
26. Proposed Fill system to accurate pressure to allow pump to slow down Solution Handed Off To Maintenance To Engineering Implemented Completed by Maintenance Yes Completed by RCx L Will Be 1 Completed by Facility Operations amp Maintenance Project 9 Finding Finned Tube Radiation system has been found low on water and re circulating pump running at 10096 The automatic fill was disabled Proposed Fill system to accurate pressure to allow pump to slow down Solution Handed Off To Maintenance To Engineering Implemented Completed by Maintenance Yes 54 Completed by RCx Will Be Completed by Facility Retrocommissioning Team Division of Engineering Facilities amp Services ACES Library Info amp Alumni Center Retrocommissioning Final Report 11 of 14 August 5 2008 Operations amp Maintenance Project 10 Finding Chilled water meter is an older annular type and is located in a place difficult to perform maintenance on Proposed Install new chilled water meter and located in the supply line above the air handling Solution unit in the straight line of supply chilled water Handed Off Implemented Completed by Maintenance 54 To Maintenance Yes No Completed by RCx To Engineering L Will Be 1 Completed by Facility Operations amp Maintenance Project 11
27. eJ Programming QUAN gt 3 21 Telephone Interface View the current Telephone Interface proper ties See Appendix A for specific program ming and operating instructions WHAT IS IT This feature permits you to view and edit tele phone interface parameters If your controller is equipped with this feature see Appendix A ELITE SERIAL 1 2 W TELEPHONE REV 1 00 01 28 99 EXIT Telephone Interface Screen ELITE SERIAL 1 2 W TELEPHONE REV 1 00 01 28 99 EXIT EDIT then W 10 times ILC PROTOCOL REV 5 08 01 28 99 EXIT ADDRESS 001 Telephone Interface Definition Screens Figure 3 15 Quanta Elite User Manual 3 28 Version 1J 9 20 00 Programming 3 22 DMX Receiver View and edit DMX interface properties see appendices for specific programming and operating instructions WHAT IS IT This feature allows you to view and edit DMX parameters If your controller is equipped with This feature see Appendix D Quanta Elite User Manual Version 1J 9 20 00 QUANTA ay 5 Q 3 eJ Programming QUAN gt 3 23 Panel Name HOW DO GET THERE 1 From the Home Screen press EDIT then View and edit panel name W 12 times 2 Then press PANEL NAME to access the WHAT IS IT Panel Name screen See Figure 3 16 If you choose you can customize the QUANTA Elite controller panel name The controller name appears at the top of the Home scr
28. j 14 M J An D LAAR 20 4 S x een se Ba w AA AD Ji U 1 Mo P MAT DLA 0 CA A fi a h MAM JA PAPE VOV E y NS i uU A AW Tec TM MEESE 2 en RS i E De TENE e TO RA MIN Seton Sw prc MEA D a a REDE diim aei Kom iE uA we UU ANDE Electrical Service to the Building 1 The building has two unit substations TRI at 12 47 KV to 277 480 V 3 phase 4W and TR2 at 12 47 KV to 120 208 V 3 phasc AW both served from new load center 62 via DES The distribution switchboards associated with the unit substations are circuit breaker type 2 The building has a 500 KW277 480 V 3 phase 4W diesel generator with skid fu tank and an automatic transfer switch Fire Pump b Smoke Exac c Elevators d Sewage Ejector Make Up Air to Exhaust System 3 Lighting The majority of lighting in the building is 277 volt The lighting and selected in sree as corvi by kay agp Master control at circulation desk second level 4 The Multimedia Room in the lower Bye dieing apes
29. next board Light Switches Figure 1 2 CPU I O Board Quanta Elite User Manual 1 5 Version 1J 9 20 00 QUAN 1 Controller Description SALAM id EXER eese eerie ST T1111 Ael m Figure 1 3 QUANTA Elite 32 leceeclececc ecece gt xe 06 590 29 Quanta Elite User Manual Version 1J 9 20 00 Controller Description QUAN ite 4 line 32 character Display Screen 3 192 2 Jg a Q 5 Yj Selection Keys Scrolling Pads used to select displayed options Figure 1 4 Elite Keypad and Display Quanta Elite User Manual 1 7 Version 1J 9 20 00 Controller Description 1 3 Options If your application requires you can equip the controller with certain input output options 1 3 1 Telephone Switching You can equip the controller with a DTMF Dual Tone Multi Frequenoy interface which allows you to activate switch inputs via commands from touchtone telephone See Appendix A 1 3 2 Pulsed Relay Output Operation By adding conversion hardware to the
30. of the relay ON OFF states that make up a selected preset HOW DO I GET THERE 1 From the Home screen press EDIT 2 Press W 13 times 3 Then press EDIT PRESETS to access the Edit Presets screen See Figure 3 17 PRESET PRESET 001 A RELAY RELAY 01 ACTION TURN ON EXIT Parameter Key PRESET the number of the pre set you want to edit RELAY the number of the relay output whose ON OFF state you want to change ACTION the desired response Edit Presets Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 13 times TELEPHONE PORT DMX RECEIVER PANEL NAME EDIT PRESETS gt EDIT PRESETS PRESET PRESET 001A RELAY RELAY 01 ACTION TURN ON EXIT of the relay to the TEST See 3 25 command NO ACTION TURN ON or TURN OFF Edit Presets Definition Screens Figure 3 17 Quanta Elite User Manual Version 1J 9 20 00 Programming 3 24 Edit Presets Edit or create preset scenes for activation WHAT DO DO 1 Press p gt PRESET then press W until the preset you want to edit appears on the screen 2 Press p gt RELAY then A until the relay whose ON OFF state you want to change appears 3 Press ACTION then Aor W until the desired state appears 4 After you have edited all the relays to be changed press EXIT to save the changes and leave the screen Quanta Elite User Manual Version 1J 9 20 00 Q
31. telecommunications network protective operational and safety requirements The Industry Canada does not guarantee the equipment will operate to the user s satisfaction Before installing this equipment users should ensure that it is permissible to be connected to the facilities of the local t elecommunications company The equipment must also be installed using an acceptable method of connection In some cases the company s inside wiring associated with a single line of individual service may be extended by means of a certified connec tor assembly telephone extension cord The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations Repairs to certified equipment should be made by an authorized Canadian maintenance facility designed by the supplier Any repairs or alterations made by the user to this equipment or equipment malfunctions may give the telecommunications company cause to request the user to disconnect the equipment Users should ensure for their own protection that the electrical ground connections of the power utility telephone lines and internal metallic water pipe system if present are connected together This precaution may be particularly important in rural areas CAUTION Users should not attempt to make such connections themselves but should contact the appropriate electric inspec tion authority or electrician as appropriate The Ringer Equivalenc
32. to signals of this amplitude on channel 2 1 From the Home screen press EDIT then press W 11 times to access the top level DMX screen 2 Press gt EDIT DMX RECEIVER 3 When the DMX menu appears press DMX LEVELS 4 Press B gt ON then A until 092 appears to set the ON signal level 5 Press gt OFF then W until 015 appears to set the OFF level 6 Press EXIT to return to the DMX menu 7 Press DMX RELAY CONTROL 8 Press amp until channel 002 appears 9 Press RELAY then until relay 004 appears 10 Press ACTION until ON AND OFF appears 11 Repeat steps 9 and 10 for relays 5 and 6 12 Press EXIT to return to the DMX menu 13 Press EXIT to return to the main menu Let the controller time out to save your entries and return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUANTA py HP SERIAL WITH DMX REV 1 00 10 01 99 EDIT DMX RECEIVER EXIT Top Level DMX Screen QUANTA DMX RELAY CONTROL DMX LEVELS CLEAR ALL DMX DATA EXIT QUANT DMX TRIGGER LEVELS A QUANTA yy DMX lt 002 092 A RELAY 04 ACTION ON AND OFF EXIT DMX Relay Control 4 40 4 40 D 3 Appendix E Master Scheduler E Objectives This section describes the function and setup of the Master Scheduler and how to program time based schedules keyed to a facility s mu
33. 00 QUAN 1 D 2 Objectives After reading Appendix D you will be able to program the QUANTA Elite to implement DMX control Appendix D DMX Control Feature QUAN gt DMX Communication Channel Enable DIP Settings OFF 2 OFF 64 channels enabled 1 2 OFF 128 channels enabled 1 2 ON 256 channels enabled 1 2 512 channels enabled 5 T DMX 512 Interface Card Mounted on QUANTA Elite Controller CPU Board ce P 4 sk QUANTA Elite Controller 100 ohm Terminating Resistor Used only if QUANTA Elite Controller is the last device on DMX 512 Cable 77013397 REV B 97013397 REV O 00000 oool ooooo To Theatrical Lighting Controller USITT DMX 512 Protocol NEG DRAIN 18 Gauge Shielded twisted pair POS DMX 512 Control Cable DMX 512 Interface Card Figure D 1 DMX Interface Hardware Features gt o 5 2 x Quanta Elite User Manual D 2 Version 1J 9 20 00 Appendix D DMX Control Feature D 3 Programming Example Set the DMX signal ON level at 92 and the OFF level at 1596 Program relay outputs 4 5 and 6 to respond by switching ON at 92 and OFF at 15
34. 1 8 0 34907 200 100 177 65 406 2 U2 4 24 8 0 34907 230 115 34 04 238 81 406 3 8 0 34907 230 115 235 85 TOTAL 660 330 650 231 Retrocommissioning Team Division of Engineering Facilities and Services Page 4 of 4 This section is dedicated to the control tradesmen who will need an understanding of the pneumatic and digital controls utilized in the building systems Anything related to the sequence logic block diagrams alarms sensors and assigned points shall be contained herein This building s controls does not allow for web graphics at this time A future upgrade should include this option for remote monitoring and troubleshooting IDISMK PURG OA VFD INSEL LOGIC SMK PURG DINP1 DO RF SIS IPR3 PR7 DI SMK_PURG DV OGIC SMK_PURG CENAB DV DINP1 ONDV DINP2 OFFDV AND LECT PRG_OVRD CENAB DV DINP1 DINP2 INSEL OSS AHU OCC FAENA ON MXSTA MXSTP COMFT SPACE SP OAT OSS AHU1_WIN FAENA DAENA SLECT OCC CENAB DV DINP1 DINP2 INSEL DO MIN_OA IPR4 LOGIC SAFETY OFFDV SLECT SMK_RF DV DI SMK_PURG DV HILO SMK_PURG CENAB HIVAL AINP1 HICAU AINP2 LOVAL AINP4 LOOP STATIC AV IDERF 575 DI SMK PURG DV CENAB DV ONDV OFFDV DIAG
35. 16 O OFF 1 BO 17 RELAY OUTPUT 17 O OFF 1 BO 18 RELAY OUTPUT 18 O OFF 1 BO 19 RELAY OUTPUT 19 O OFF 1 BO 20 RELAY OUTPUT 20 O OFF 1 BO 21 RELAY OUTPUT 21 O OFF 1 BO 22 RELAY OUTPUT 22 O OFF 1 BO 23 RELAY OUTPUT 23 O OFF 1 5 24 RELAY OUTPUT 24 1 5 Table 1 Quanta Elite N2 Point Map Quanta Elite User Manual N 7 Version 1J 9 20 00 Appendix N N2 Commmunications QUANTA NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES BO 25 RELAY OUTPUT 25 O OFF 1 O BO 26 RELAY OUTPUT 26 O OFF 1 O BO 27 RELAY OUTPUT 27 O OFF 1 O BO 28 RELAY OUTPUT 28 O OFF 1 O BO 29 RELAY OUTPUT 29 O OFF 1 O BO 30 RELAY OUTPUT 30 O OFF 1 O BO 31 RELAY OUTPUT 31 O OFF 1 BO 32 RELAY OUTPUT 32 O OFF 1 BO 33 RELAY OUTPUT 33 1 34 RELAY OUTPUT 34 O OFF 1 BO 35 RELAY OUTPUT 35 O OFF 1 BO 36 RELAY OUTPUT 36 O OFF 1 BO 37 RELAY OUTPUT 37 1 BO 38 RELAY OUTPUT 38 O OFF 1 BO 39 RELAY OUTPUT 39 O OFF 1 BO 40 RELAY OUTPUT 40 O OFF 1 O BO 4 RELAY OUTPUT 41 O OFF 1 BO 42 RELAY OUTPUT 42 1 43 RELAY OUTPUT 43 O OFF 1 BO 44 RELAY OUTPUT 44 O OFF 1 BO 45 RELAY OUTPUT 45 O OFF 1 BO 46 RELAY OUTPUT 46 1 47 RELAY OUTPUT 47 O OFF 1 BO
36. 2 x Appendix C Master Slave Networking QUAN ite QUANTA Elite Global Network Example See Termination Detail Below QUANTA Flite Slave 32 QUANTA Elite Slave 8 and Serial L AN Module and Serial LAN Module Module NODE 1 QUANTA Master Controller NODE 2 NODE 3 with Keypad and Serial LAN gu ri RS485 COMM Terminal on Serial LAN Card Detail 0 2 85 Data Line 2 18 AWG Shield Pair Carol Cable C2534 or Equal Serial LAN Module oo000000000000000 l00000000000000000 ee Protocol Jumper Configurations Positive Drain Negative ees DIP Switch A i ILC Most Switch Addressing er WARNING B Processor must be turned o o HEBHBEBBHEBB LC Protocol OFF before protocol jumper 5 changes 290 AN r 00 UO gt 2 m Ane MODBus Protocol oco Aad the value of each ON switch to determine the adaress 2 Protocol address 5 shown 0000 Data in from Data in from Node 1 00 NOT Node 3 DO NOT pum terminate center wire terminate center wire 5 e
37. 20 14 905 20 Speed Ratio 2 09 Down Product No 9274 4224 7719 2043 7719 2090 dN RPM 850 4 Top Width 1 44 1 44 Rated Load 123 27 hp Installed Weight 1 1 Ib 12 Ib 41 Ib Belt Pull 482 Ib Rim Belt Speed 3515 ft min 3464 ft min 3491 ft min RPM 341 7 1780 0 850 4 Center Distance 43 21 in Bushing Part No 2517 2 1 8 3525 2 15 16 Install Take Up Range 41 82 in to 43 26 in Bushing Product No 7858 3202 7858 5215 Bore 0 5in 2 6875in 1 1875 in 3 9375 in Noise 74 dB 1276 Hz Pitch Diameter 7 54 in 15 79 in Energy Savings 13327 14076 KWh yr for a savings of 932 92 985 33 yr TENSION New Belt Used Belt Static Tension Per rib strand 263 to 287 Ib 191 to 215 Ib Rib Strand Deflection Distance 0 7 in 0 7 in When planning to re install used belts measure Rib Strand Deflection Force 21 to 23 Ib 17 to 18 Ib record the tension before removing and Sonic Tension Meter 1169 to 1275 850 to 957 N re install at the recorded tension Belt Frequency 39 to 41 Hz 34 to 36 Hz 505C 507C Model STM Settings Weight 7 9 g m Width 20 mm R Span 1092 mm NOTES Drive over designed and efficiency may be reduced The DriveN pulley bushing weight exceeds 50 Ib Exercise care during installation This report 1 only applies to Gates products 2 contains confidential information 3 may only be disclosed to support the sale or maintenance of our products and 4 is not a guarantee of performance Buyer
38. 48 RELAY OUTPUT 48 O OFF 1 Table 1 Quanta Elite N2 Point Map Quanta Elite User Manual Version 1J 9 20 00 N 8 Appendix N N2 Commmunications QUAN gt Quanta Elite User Manual Version 1J 9 20 00 Attribute Region Attribute Bit Comments Analog Inputs Not supported Analog outputs Not supported Internal Float Not supported Internal Integer Not supported Internal Byte Not supported Binary Input 0 COS_enabled Always 0 COS is always 0 Binary Input Normal State Always Open 0 closed 1 Binary Input 3 Alarm_enabled Always 0 disabled Binary Input 2 0 Always reliable 0 Binary Input 2 Override Active Always 0 not active Binary Input 2 4 Normal 0 Binary Input 2 5 JCI use only Binary Input 3 JCI use only Binary Input 4 JCI use only Binary Output 0 COS_enabled Always COS is always enabled Binary Output Normal State Always 0 Binary Output 2 0 Always reliable 0 Binary Output 2 1 Override active Always not active Binary Output 2 4 JCI use only Binary Output 2 5 JCI use only Binary Output 3 Minimum ON time Always 0 Binary Output 4 Minimum OFF time Always 0 Binary Output 5 Maximum Cycles Hour Always 0 Binary Output 6 JCI use only Binary Output 7 JCI use only N 9 gt o 5 2 x This section is dedicated to each and every system that has a Building Distribution Schematic Diagram and wi
39. 5 5 2 I FOUND BOX OUT OF CONTROL NO HEAT POSSI BLE BAD STAT OR REHEAT VALVE 87 55 Retrocommissioning Team Division of Engineering Facilities and Services Page 2 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 3rd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES DESIGN AIRFLOW ROOM NUMBER NUMBER SQFT Max a us Min ao 0545421 315 158 10 10 5454 35 158 u2 3 33 10 315 158 10 1054642 315 158 p em 6 s os of 5 6 os fof 75 6 15 os 150 75 BOX WILL NOT CONTROL IF MIN SET ANY LOWER 10 315 158 L 2520 124 Retrocommissioning Team Division of Engineering Facilities and Services Page 3 of 4 VAV AIR OUTLETS PROJECT AHU SYSTEM LOCATION TEST DATE READINGS BY Agricultural Consumer and Environmental Sciences ACES AHU 2 3rd Floor VAV Boxes JAMES HUGHES AREA SERVED Cooling ROOM NUMBER BOX NUMBER DIA H w SQFT Mult a 3 30 04 3 50 150 150 150 150 150 150 50 150 150 150 150 Tuo 2191919 121912 91919 919 IN IO e S IN 48 2 220
40. 5 2 0 MENT 2 6 2 6 1 Controller Will Not 2 6 2 6 2 Lighting Reloy s WII Not Functfion 2 6 2 6 3 Switch Input Will Not Functfion rtr 2 6 2 6 4 Timers Will Not Function Properly 2 6 2 6 5 Entire I O Board Doesn t Work ees 2 6 Quanta Elite User Manual Version 1J 9 20 00 Installation Objectives This sections shows you how to install the QUANTA Elite Controller and how to perform required power up verification checks This section covers installation of the basic 48 stand alone controller For information on optional features or communication LAN systems consult the appropriate appendix Quanta Elite User Manual Version 1J 9 20 00 QUAN Overview This section covers the following topics e Pre installation checks e Mounting the controller e Wiring the controller e Pre power up checks e Power up and checkout e Troubleshooting 5 5 Installation 2 1 Pre Installation Checks Do the following before beginning the installation 1 3 Verify that you have received the proper equipment Check the packing slip against the materials you ordered and verify that the material is appropriate for the project Check to ensure that the voltages of the controller s transformers match the availabl
41. 63 SWITCH INPUT 32 OFF 0 1 CLOSED 64 SWITCH INPUT 32 0 1 CLOSED 65 SWITCH INPUT 33 OFF 0 1 CLOSED BI 66 SWITCH INPUT 33 1 CLOSED 67 SWITCH INPUT 34 OFF 0 1 CLOSED 68 SWITCH INPUT 34 ON 0 1 CLOSED 69 SWITCH INPUT 35 OFF 0 1 CLOSED 70 SWITCH INPUT 35 0 1 CLOSED 71 SWITCH INPUT 36 OFF O OPEN 1 CLOSED 72 SWITCH INPUT 36 1 CLOSED o 5 2 x BI 73 SWITCH INPUT 37 OFF O OPEN 1 CLOSED Table 1 Quanta Elite N2 Point Map Quanta Elite User Manual N 5 Version 1J 9 20 00 Appendix N 2 Commmunications QUANTA Table N 1 Quanta Elite N2 Point Map Quanta Elite User Manual Version 1J 9 20 00 NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES 74 SWITCH INPUT 37 ON 0 1 CLOSED 75 SWITCH INPUT 38 OFF 0 1 CLOSED 76 SWITCH INPUT 38 0 1 CLOSED 77 SWITCH INPUT 39 OFF 0 1 CLOSED 78 SWITCH INPUT 39 ON 0 1 CLOSED 79 SWITCH INPUT 40 OFF O OPEN 1 CLOSED 80 SWITCH INPUT 40 ON 0 1 CLOSED BI 81 SWITCH INPUT 41 OFF O OPEN 1 CLOSED 82 SWITCH INPUT 41 ON 0
42. CLOSED 16 SWITCH INPUT 8 ON O OPEN 1 CLOSED 17 SWITCH INPUT 9 OFF 0 1 CLOSED 18 SWITCH INPUT 9 1 CLOSED 19 SWITCH INPUT 10 OFF 0 1 CLOSED 20 SWITCH INPUT 10 ON 0 1 CLOSED 21 SWITCH INPUT 11 OFF 0 1 CLOSED 22 SWITCH INPUT 11 ON 0 1 CLOSED 23 SWITCH INPUT 12 OFF O OPEN 1 CLOSED 5 BI 24 SWITCH INPUT 12 ON 1 CLOSED 5 Table 1 Quanta Elite 2 Point Quanta Elite User Manual N 3 Version 1J 9 20 00 Appendix N 2 Commmunications QUANTA yy Table N 1 Quanta Elite N2 Point Map Quanta Elite User Manual Version 1J 9 20 00 NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES 25 SWITCH INPUT 13 OFF O OPEN 1 CLOSED 26 SWITCH INPUT 13 ON 0 1 CLOSED 27 SWITCH INPUT 14 OFF O OPEN 1 CLOSED 28 SWITCH INPUT 14 0 1 CLOSED 29 SWITCH INPUT 15 OFF 0 1 CLOSED 30 SWITCH INPUT 15 ON 0 1 CLOSED 31 SWITCH INPUT 16 OFF O OPEN 1 CLOSED 32 SWITCH INPUT 16 0 1 CLOSED 33 SWITCH INPUT 17 OFF O OPEN 1 CLOSED 34 SWITCH INPUT 17 0 1 CLOSED 35 SWITCH INPUT 18 OFF O OPEN 1 CLOSED 36 SWITCH INPUT 18 0 1 CLOSED 37 SWITCH INPUT 19
43. DO DO 1 From the Home screen press EDIT EDIT v RELAY STATUS RELAY OUTPUT SWITCH STATUS SWITCH INPUT 2 Press then press SWITCH INPUT 4 QUAN D 3 Press to select the switch input that controls the relay lt 1 INPUT 01 A TYPE ON OFF EXIT 4 4 Press gt TYPE then press A until the desired switch type appears on the screen Steps3 amp 4 5 Q 3 eJ 5 Press p gt EXIT then press and gt EXIT again to return to the Home screen Quanta Elite User Manual 3 9 Version 1J 9 20 00 Programming Type Physical QUANTA Operation Momentary ON OFF Momentary Pushbutton 3 wire momentary 2 wire momentary Momentary contact between ON and Common turn controlled relay outputs ON Momentary contact between OFF and Common turn controlled relay outputs OFF Momentary contact between ON and Common turn controlled relays ON and OFF alternately each time contact is made Maintained ON OFF Maintained Multi way 2 wire maintained 2 wire maintained When contact between ON and Common are made controlled relays turn ON When contact is broken controlled relays turn OFF When contact is made or broken between ON and Common the controlled relays will toggle from ON to OFF or OFF to ON similar to conventional 3 way switching Set Preset 2 wir
44. Description Table of Contents QUAN gt Section 1 Controller Description 1 1 l 1 1 2 SUIS PET m 1 2 E2 ANSON ET 1 2 iere UN EE 1 2 1 1 4 Additional 1 2 1 1 5 Programming Module cadena dm 1 3 1 3 pz Coonimoller 1 3 RIS s M 1 8 1 3 1 Telephone SWITCHING m o o 1 8 1 3 2 Pulsed Relay Output Operation 1 8 k Programming O t rn E tere 1 8 1 5 Exoonsion Communicotions Options tea 1 8 Ades MR TENE UU Um TT 1 8 1 7 Enhanced Open Close Time Control 1 8 1 8 N2 Communicqotions 1 8 Quanta Elite User Manual Version 1J 9 20 00 Section 1 0 Controller Description QUAN gt Objectives Overview In this Section you will learn about the struc The QUANTA Elite is a microprocessor based ture and configuration of the QUANTA Elite lighting controller You can program the Controller QUANTA Elite to control lighting relays in response to switch signals sensed by its inputs and or by time based scheduling The QUANTA Elite is UL approved and FCC certified for both commercial and residential applications 3 2 Jg 5 Quanta Elit
45. EXAMPLE PART 2 Program the controller to turn on lights 15 minutes before the store opens and turn them off 15 minutes after the store closes In this example the store hours are 9 AM to 9 PM Open Close times were defined in the example in 3 26 1 The next step is to assign timers to those Open Close times Since these timers are based on the Open Close times they will change along with a change in store hours without having to reset them 3 26 2 Define the Timers Assign specific timers to the Open Close Times previously defined 1 From the Home screen press EDIT then press W 3 times 2 Press TIMERS to access the top level Timer Definition screen 3 Press until the timer you wish to key to the store opening time appears in this example TIMER 02 4 Press TIME then press OPEN CLOSE 5 Press OPEN then W until OPN 15 MN appears 6 Press gt EXIT to return to the top level Timer Definition screen 7 Press amp until the timer you wish to key to the store close time appears in this example TIMER 03 8 Press TIME then press OPEN CLOSE 9 Press CLOSE then W until CLS 15 MN appears 10 Press EXIT to return to the top level Timer Definition screen Then EXIT again to return to the menu screens Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy TIMER 02 TIME 12 00 AM DAYS SMTWTFS EXIT y Top Level Timer Defin
46. NOT apply power to any circuits until instructed to do so 2 3 1 Wire the Control Transformer Run a dedicated 120 or 277 VAC circuit including grounding conductor and termi nate it to the primary of QUANTA Elite con trol transformer See Figure 2 1 2 3 2 Connect Line and Load Connect line and load wires of the line voltage circuits to the Lighting Relays 2 3 3 Wire Switch Inputs Wire the Class 2 Switch Circuits See Figure 2 2 Run the required wiring between the controller and the field installed switches Consult the programming worksheets and project documentation to determine the type and quantity of required switch circuits Check each switch run to ensure that there are no shorts between conductors or to ground Also verify that there are no opens 2 Make the connections at the switch end 3 Make the connections to the controller switch input terminals NOTE REFER TO SWITCH INPUT SCHEDULE FOR LANDING WIRES TO INPUTS OR FILL IN SWITCH SCHEDULE AS YOU PROCEED 2 3 4 Set Relay Response If you want all relays to respond to signal instantaneously rather than to stagger ON OFF one at a time add jumper WI on the CPU I O board See Figure 2 1 Installation Jumper W1 Relay response on Grounding Lug Green board under programming module Grounding Conductor B Brown r 277 VAC Hot f White Neutral 2 1 5 4 3 314s E
47. OFF for the relay action 10 Repeat steps 4 to 9 as required to define level 3 relays located in other controllers Quanta Elite User Manual Version 1J 9 20 00 QUANTA py QUANTA TIMER lt TIMER 01 A RELAY RELAY 01 01 ACTION NO ACTION Top Level Timer Relay Control Definition Screen Step 2 INPUT NODE 024 QUANTA ELITE 0 1 0 16 Node Selection Screen Step 4 D TIMER lt TIMER 02 A RELAY RELAY 06 02 ACTION TURN ON Top Level Screen After Step 6 40 5 Q 3 3 2 Programming 3 27 Firmware Revision View revision of firmware installed in unit QUANTA HOW DO I GET THERE 1 From the Home screen press EDIT 2 Then press W 16 times to access the Firmware Revision screen See Figure 3 20 WHAT IS IT This feature allows you to view the version of firmware currently installed in the controller It also displays the number of I O points in the controller ILC ELITE LIGHTING CONTROLLER REV 5 05 12 07 98 EXIT 08 1 0 POINTS Firmware Revision Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 16 times ILC ELITE LIGHTING CONTROLLER REV 5 05 12 07 98 EXIT 08 1 0 POINTS Figure 3 20 Quanta Elite User Manual Version 1J 9 20 00 Firmware Revision Defini
48. Sciences ACES AHU 2 3rd Floor VAV Boxes JAMES HUGHES DESI GN AI RFLOW CFM PRELI MI NARY Cooling Static Pressure 142 ue 22 04 so 618 75 75 75 75 75 75 55 550 150 150 150 150 150 150 40 04 150 150 150 150 150 Retrocommissioning Team Division of Engineering Facilities and Services 1240 t Mult 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 L 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 3600 FINAL AI RFLOW cfm pis 2 Clg Htg Min REMARKS CONTROLLER REPLACED MAIN AI R LEAK REPAI RED Page 1 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 3rd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES DESI GN AI RFLOW AREA SERVED CFM PRELI MI NARY FINAL AI RFLOW cfm ROOM NUMBER NUMBER Cooling Heating 7 Min 54 s 5 36 04 5 54 5 x 1474 58 ja o t MIN IS SET LOWER c y 9 N ala ala o o y 9 w B o b o W 5
49. a pressure transmitter on the fifth floor that is looking at the differential pressure DDC is also controlling the steam valve on the convertor and maintaining temperature set point The system is supposed to maintain a pressure differential of 20 PSID set point There have been problems with low system volume and make up water valve closure requiring the pump to run 100 when not necessary This needs to be avoided and any problem carefully reviewed to correctly fix the system Page 8 of 9Monday August 04 2008 DOMESTIC WATER BOOSTER PUMPS This packaged skid controls don t work and haven t worked for quite some time Therefore the unit doesn t work automatically This setup has been abandoned in place with the backflow preventer removed Page 9 of 9Monday August 04 2008 This section is dedicated to the Commissioning Projects that have taken place during the life of this building It holds the findings recommendations and links to improving even further the quality of life for the residents and the maintenance for the building systems
50. a timer in Astro time is espe cially useful in parking security and other out door lighting applications You can set the timer to occur either exactly at sunrise or sun set or from 15 to 120 minutes before or after These times in 15 minute increments See Figure 3 8 for ASTRO TIMER programming path Quanta Elite User Manual Version 1J 9 20 00 To execute ASTRO time timers you must pro gram the controller with the proper latitude longitude and time zone coordinates You do this by programming the SET ASTRO CLOCK feature discussed in Section 3 18 3 14 Programming QUAN gt 3 11 Timers Configure timers for automatic time scheduled activation QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 3 times SWITCH STATUS SWITCH INPUT INPUT RELAY CONTROL TIMERS TIMER 01 NORMAL TIMER O01 TIMER 01 TIME SMTWTFS ASTRO SUNRISE CASTRO DAYS OPEN CLOSE SUNSET SE 15 EXIT EXIT EXIT gt DAILY SUNDAY ACTIVE YES y TIMER 01 DAILY js HOLIDAY TIMER 01 MONTH lt CHOLIDAY DATE 01 01 EXIT Timer Definition Screens Astro Figure 3 8 Quanta Elite User Manual 3 15 Version 1J 9 20 00 ay 5 Q 3 3 eJ Programming 3 12 Define a Timer WHAT DO DO 1 From the Home screen press EDIT then press W 3 times 2 Press TIMERS 3 Press until the Timer to be defined appears on the screen 4 Press TIME
51. accurate equipment and relocated to a more suitable site for maintenance and troubleshooting located behind a steam main high in the air The steam meter resides in the basement mechanical room There are two 2 significant air handling units in the building one VAV unit located in the penthouse 63 000 CFM approx and one VAV unit located in the basement 25 000 CFM approx There are two 2 toilet exhaust air fans with a combined flow rate of approximately 14 000 CFM There are two 2 steam to heating water heat exchangers in the original building for the perimeter radiation system and the reheat system The heating water supply temperature is reset based upon the outdoor air temperature There is a good level of electronic automatic controls in the building The air handling units and heating water systems have Direct Digital Controls DDC while the VAV boxes and finned tube radiation are pneumatically controlled The pneumatic controllers are of an older vintage which should be replaced in the future ELECTRI CAL SYSTEMS The electrical systems in the building appear to be original equipment but have not been reviewed thoroughly There is a lighting control system installed to control daylight and regulate light fixture output to save energy This system was currently abandoned and the method to program had been lost Engineering has contacted the company received an installation manual and is awaiting a programmer or self motivated rou
52. associated with a particular ON or OFF time will activate The SCHEDULE MASTER node 0 processes these times Since store hours may not be the same on every day you must define the open and close times for each day Sunday Saturday You can also program open and close times for special dates to accommodate holiday hours You can program the system to execute a timer exactly at open or close time or at one of the following offsets either before or after opening or closing 5 10 15 30 45 minutes 1 1 5 2 3 4 4 5 5 hours Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy Example Program the control system to turn on lights 15 minutes before the store opens and turn them off 15 minutes after the store closes In this example the store opens at 10 AM and closes at 9 PM Monday Friday The open close times for Saturday Sunday are 10 AM and 5 PM Appendix E Master Scheduler 5 1 Set the Open Close Times E 5 1a Set the Open Close Times for Normal Days 1 From the Home screen press EDIT then W 15 times 2 Press OPEN CLOSE TIME 3 The SCHEDULE MASTER screen appears showing the current open and close times or the default time of 12 00 AM 4 Press EDIT then press NORMAL DAYS 5 The Normal Days screen appears for Sunday Press OPEN then press A or W until 10 00 AM appears Press B gt CLOSE then press or W until 5 00 appears 7 Press DAY then press A until
53. control transformer CPU board e additional I O boards e programming module e lighting relays Enclosure The enclosure is rated NEMA 1 It is divided into a line voltage section con taining the line voltage side of the control transformer and lighting relays and a low volt age section containing the Class 2 side of the lighting relays transformer secondaries and electronic components Enclosures are avail able in 6 sizes to accommodate 8 16 24 32 40 and 48 inputs outputs and lighting relays The QUANTA Elite is shipped to the job site as a complete assembly Transformer A 40 VA multi tap control trans former 120 or 277 24 VAC provides the 24 VAC input to power the controller electronics CPU I O Board The CPU board provides the controller s intelligence and memory and The first eight 8 of the controller inputs and outputs Major components include e Power Supply converts the 24 VAC input to the 5 5 and 12 VDC required by the controller logic and communications circuits A power switch provides the means of ener gizing de energizing all controller electronics Quanta Elite User Manual Version 1J 9 20 00 Micro Processor executes the computer code and coordinates all controller functions including the controller real time clock e PROM Chip contains the controller operating system and basic tasks e the EEPROM Chips store the user entered operating parameters e Super Cap
54. fact via the process the retrocommissioning team may find that the original specifications no longer apply The process may result in recommendations for capital improvements but its primary focus is to optimize the building systems via performing long needed maintenance and care for aged systems improving control strategies and allowing graphic displays tailoring the building s energy needs by its current tenants and by improving the very nature of operations and maintenance Details of this structured method are provided later in the report The retrocommissioning process began in May of 2008 It involved a coordinated effort between the RCx Team Director of Engineering and the willing building staff at ACES The process included reviewing documents conducting interviews with staff and inhabitants of the spaces performing field investigations monitoring and analyzing building systems developing a master findings list and assisting ACES with selecting measures for implementation Some of these findings were a mix of operation and maintenance repairs that had estimated paybacks of two years or less and energy saving projects that were more costly to implement and therefore longer paybacks Additional improvement measures are also sprinkled in that had potential energy saving and equipment maintenance impacts but the saving estimates were based more on experience rather than energy modeling or engineering estimates Overall the Retrocom
55. has sole responsibility for the selection and testing of products for any intended use which may not include flight related aircraft applications 6 11 2008 1 36 PM Page 1 of 1 1 32 1 30 1 29 PA 65 North America h Industrial Belt Design Drive Detail Report Shins Design Flex Pro by the Gates Corporation Designed For MIKE MONTGOMERY Provided By STEVE SMALL UNIVERSITY OF ILLINOIS GATES CORPORATION CHAMPAIGN Illinois 1359 Jeffco Blvd United States PO Box 707 mike montgomery motion ind com Arnold Missouri 63010 United States ssmall gates com 636 287 9100 Phone 303 744 4693 Fax Application ACES Library_AHU 2 SUPPLY FAN_Polychain Carbon Drive Information DriveN RPM 1030 1 4 Speed Ratio 1 74 Down Input Load Shaft Diameter 2 9375 in Service Factor Design Power Center Distance 38 28 to 46 79 in Bushings Checked Any Motor Standards NEMA Electric Motor 404T frame Belts Checked Poly Chain Carbon PowerGrip GT2 SELECTED DRIVE Belt Type Poly Chain Carbon 14M Belt DriveR DriveN Part No 14MGT 3136 37 14 455 37 14 80 37 Speed Ratio 1 78 Down Product No 9274 5224 7719 3045 7719 3080 dN RPM 1006 9 Top Width 2 11 in 2 11 in Rated Load 238 77 hp Installed Weight 2 0 Ib 16 Ib 49 Ib Belt Pull 1146 Ib Rim Belt Speed 3700 ft min 3648 ft min 3671 ft min RPM 359 6 1790 0 1006 9 Center Distance 44 40 in Bushing Part No 3020 2 7 8 3525 2 15 16 Install Take Up Range 42 27 in to 44 45 in Bu
56. keeps the controller real time clock functioning during power failures e Switch Inputs can accept input from either 2 or 3 wire momentary or maintained dry contact devices Each input has two associ ated LEDs light emitting diodes The ON LED lights when a closure is sensed between the ON and COMMON terminals The OFF LED lights when a closure is sensed between the OFF and COMMON terminals The inputs are noise and surge resistant A switch may be located up to 1500 feet from the con troller provided you use a minimum of 18 gauge wire Relay Outputs Each output switches its associated lighting relay ON and OFF Each output has an associated LED The LED lights when the output switches the relay ON Override Switches Each relay output is equipped with an ON and an OFF override switch These switches allow you to turn the associated lighting relay ON or OFF Stagger Start The controller switches those relays impacted by the same switch signal ON OFF one at a time Table of Contents QUANT 772 Section 1 Controller Description 1 0 Section Overview 1 1 Td Luru anan Qaqa hkias 1 2 1 2 Z KANSONO 1 2 LES VIE 1 2 1 1 4 Additional l O Booqrd s ados Ee tica Gare cda opis 1 2 1 3 5 Programming Mogul te
57. v 4 4 3 18 Programming 3 15 Blink Alerts Configure the Blink Alert duration and override times WHAT IS IT If any of the relays are subject to the Blink Alert HID delay or alarm function you must specify when the QUANTA Elite controller will execute the alert The choices are from 1 to 5 minutes before the OFF Timer 5 minutes is the default The controller supports an override feature QUANTAZ When the controller executes an alert you can activate any switch to override the OFF timer for the override time HOW DO I GET THERE 1 From the Home screen press EDIT then press W 5 times 2 From the menu press BLINK ALERTS to access the Blink Alert Settings screen See Figure 3 10 BLINK ALERT SETTINGS ALERT 05 MINUTES OVERRIDE 1 HOUR EXIT Parameter Key ALERT lead time of alert from 1 to 10 minutes in increments of 1 minute The default is 5 minutes OVERRIDE time that the OFF Timer will be postponed in response to the override switch signal From 1 to 6 hours in incre Blink Alert Settings Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT c 98 ILC EDIT then W 5 times INPUT RELAY CONTROL TIMERS TIMER RELAY CONTROL BLINK ALERTS p gt BLINK ALERTS BLINK ALERT SETTINGS ALERT 05 MINUTES OVERRIDE 1 HOUR EXIT ments of 1 hour The default is hour Blink Alerts Definition Screens Figure 3 10 Quanta Elite Use
58. 175 87 TOTAL 5 14 o so s 20 15 avo 20 1255 ms dus e _ 250 15 zvo 20 72 200 10 186 200 100 iss 58 u22s2 8 10 34907 ___ 200 yo 1 3 s 8 100 1 9 5 _________ 4 6 233 WATER FLOW a 03499 250 15 _________ _________ C _________ C i 994 15 P A M Hd 12 300 150 2800 Retrocommissioning Team Division of Engineering Facilities and Services Page 3 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 2nd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES DESIGN AIRFLOW ROOM NUMBER NUMBER DIA H w SQFT Mult Max Max Min Max Max Min SP i B o 211 8 211 9 N ka Ul O FOUND A LOT OF REHEAT 225 p foso 49 L 2 m FOUND A LOT OF REHEAT NOISE STAT NEEDS zb m Retrocommissioning Team Division of Engineering Facilities and Services Page 4 of 4 VAV AIR OUTLETS PROJECT AHU SYSTEM LOCATION TEST DATE READINGS BY Agricultural Consumer and Environmental
59. 3 Perform Initial Programming 2 5 2 5 4 Verify Switching Function rere Peres 2 5 2 5 5 Verify The Timer Functions 2 5 Quanta Elite User Manual Version 1J 9 20 00 Table of Contents QUAN gt Section 2 Installation continued 26 Tro bleshoofing 2 6 2 6 1 Controller Will Not icri opa ap eerta ea e hd 2 6 2 6 2 Lighting Relay s Will Not Functfion 2 6 2 6 3 Switch Input Will Not Funcfion it kie er 2 6 2 6 4 Timers Will Not Function Properly 2 6 2 6 5 Entire Boara s Doesn t 2 6 Section 3 Programming 3 0 SECTION OVerVieW uu deed nias du eia 3 1 EOE O 3 2 3 2 Controlling Relays From The rre 3 3 3 3 Relay 3 4 3 4 Set Relay Patramietels easi 3 5 35 TUS aca erobert Wapu e 3 6 3 6 View Current Switch Siqlus rr 3 7 AT a hues 3 8 3 8 Programming a Switch 3 9 3 11 3 10 q Switch to a Relay 3 12 ITMS S 3 13 3 12 Define G TIME 3 16 Te dimer Sel COMPO 3 17 3 14 the Timer to
60. 34907 200 00 ind 216 121 131 403 1 10 0 54542 285 42 286 110 110 98 MAX 97 MIN 403 2 10 0 54542 285 42 276 127 127 STAIRS 1 3 6 12 0 5 100 50 103 65 64 403 4 U2 4 9 10 0 54542 285 42 24 06 257 145 15 403 5 10 0 54542 285 42 295 138 138 403 6 6 12 0 5 100 50 100 65 65 TOTAL 1340 668 1317 650 519 Retrocommissioning Team Division of Engineering Facilities and Services Page 1 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 5th floor Mechanical Room TEST DATE READINGS BY JAMES HUGHES DESIGN AI RFLOW AREA SERVED OUTLET CFM PRELI MI NARY FINAL AI RFLOW cfm BOX Cooling Heating Static Pressure Cooling Clg Htg AHU ROOM NUMBER NUMBER DIA H w SQFT Mult Max Max Max Min Max Heating Max Min SP REMARKS 403 1 10 0 54542 150 75 156 60 RESET MIN S P TO 04 403 2 10 0 54542 150 75 147 58 403 3 10 0 54542 150 75 162 60 403 4 U2 4 10 10 0 54542 150 75 04 154 57 403 5 10 0 54542 150 75 146 61 403 6 10 0 54542 150 75 160 55 TOTAL 900 450 925 351 403 1 10 0 54542 300 50 273 94 BOX FOUND OUT OF 403 2 10 0 54542 300 50 298 110 CONT
61. A Elite 32 Controller Description 1 1 5 Programming Module See Figure 1 4 The programming module provides you with access to program and view con troller data It consists of a tactile response keypad and screen The programming module is either mounted to the CPU I O board or at your option can be a separate hand held portable device that you can temporarily connect during programming and then detach 1 1 6 Lighting Relays control the line volt age loads The lighting relays can control Model of Relays amp 1 O Points QUANTA iy 120 or 277 VAC loads rated up to 20 amps The Class 2 low voltage control part of each relay is terminated to a relay output on the controller CPU I O board See Figure 1 2 Each relay output controls only one lighting relay 1 2 Controller Capacity Unless you have ordered optional communi cations expansion features each QUANTA Elite can control up to 48 programmable switched inputs and 48 relay outputs Height Depth Elite 8 8 18 inches 15 inches 4 inches Elite 16 16 24 inches 18 inches 4 inches Elite 24 24 24 inches 36 inches 4 inches Elite 32 32 24 inches 36 inches 4 inches Elite 40 40 24 inches 48 inches 6 inches Elite 48 48 24 inches 48 inches 6 inches Table 1 1 QUANTA Elite Configurations Quanta Elite User Manual Version 1J 9 20 00 3 2 g Q E 5 Controller Description
62. AI RFLOW AREA SERVED OUTLET CFM PRELI MI NARY FINAL AI RFLOW cfm BOX Cooling Heating Static Pressure Cooling Clg Htg AHU ROOM NUMBER NUMBER DIA H w SOFT Mult Max Max Max Min Max Heating Max Min SP REMARKS 403 1 10 0 54542 300 50 301 113 THERMOSTAT LOCATED STAI R 2 3 6 12 0 5 100 50 99 33 BEHI ND BOOKS ON SHELF 403 3 10 0 54542 300 50 323 124 403 4 U2 4 14 10 0 54542 300 50 25 04 295 116 403 5 10 0 54542 350 75 325 136 403 6 6 12 0 5 100 50 85 30 TOTAL 1450 725 1428 552 403 1 14 8 0 77778 200 00 198 65 401 2 U2 4 15 8 0 34907 230 15 36 03 247 85 401 3 8 0 34907 230 15 259 87 TOTAL 660 330 704 237 412 1 8 0 34907 225 12 205 61 412 2 U2 4 16 8 0 34907 225 12 48 03 230 60 TOTAL 450 224 435 121 410 1 10 0 54542 315 57 302 139 410 2 10 0 54542 315 57 317 136 410 3 U2 4 17 10 0 54542 375 87 28 04 369 164 410 4 10 0 54542 315 57 311 133 TOTAL 1320 658 1299 572 410 1 6 48 2 150 75 164 68 410 2 150 75 150 65 410 3 150 75 159 63 410 4 U2 4 18 150 75 27 04 157 63 410 5 150 75 158 68 410 6 150 75 149 60 TOTAL 900 450 937 387 410 1 10 0 54542 315 158 294 102 410 2 10 0 54542 315 158 310 108 410 3 10 0 54542 315 158 315 117 410 4 10 0 54542 315 158 311 109 410 5 U2 4 19 10 0 54542 315 158 22 03 309 107 410 6 10 0 54542 315 158 304 97 410 7 10 0 54542 315 158 305 103 410 8 10 0 54542 315 158 315 104 TOTAL 2520 1264 2463 847 Retrocommissioning Team Division of Engineering Facilities and Services Page 3
63. AMES HUGHES DESIGN AIRFLOW preis b Clg Htg AHU ROOM NUMBER NUMBER SQFT Mult Min REMARKS MECH ROOM NO DUCT WORK c ERN DPI os Tu 5 es 45 3o 1 J J 32 aso 5 pao o 2 T ue xs j so pes osa 2 1s 216 C xs 22 S 2o 3 22 m w s exe 230 125 278 xs s 2 1s TL ae s 26 xs s 2 us x s z us s z us s z us 9 eo MAX p n x o o s x T gt s x T R 3 zo o T e Retrocommissioning Team Division of Engineering Facilities and Services Page 1 of 3 VAV AIR OUTLETS Agricultural Consumer and Environmental Sciences ACES AHU 1 Basement Mechanical Room PROJECT AHU SYSTEM LOCATION TEST DATE READINGS BY JAMES HUGHES DESI GN AI RFLOW CFM PRELI MI NARY AREA SERVED OUTLET FINAL AIR
64. ANTA yy QUANTA yy INPUT lt INPUT 01 01A RELAY RELAY 01 01 L ACTION ON AND OFF EXIT ON OFF M QUAN D 7 INPUT NODE 044 QUANTA ELITE Ke 1 0 08 Steps 3 4 gt COND INPUT lt INPUT 02 044 RELAY RELAY 01 01 ACTION ON AND OFF EXIT MNT ON OFF QUANT INPUT NODE 02A QUANTA ELITE UNUSED GLOBALS 195 1 0 08 Y INPUT INPUT 02 044 RELAY lt RELAY 03 02 ACTION ON AND OFF EXIT MNT ON OFF i Steps 9 11 40 4 4 gt 4 C 3 gt o 5 2 x Appendix D DMX Control Feature 0 1 Overview With the addition of a DMX 512 interface card the QUANTA Elite controller supports the control of non dimmed loads via stan dard USITT DMX 512 communications proto col The physical link is a standard USITT DMX 512 control cable 18 gauge shielded twisted pain that runs from the DMX output of the theatrical lighting controller to the QUANTA Elite DMX communications port The DMX 512 interface mounts on the QUANTA Elite CPU board See Figure D 1 You can program the QUANTA Elite with desired ON and OFF DMX signal levels and then select how the QUANTA Elite relay out puts will respond You set common ON and OFF DMX signal levels for all DMX 512 channels 1 to 512 channels However you can program relay action on an individual channel basis Quanta Elite User Manual Version 1J 9 20
65. ART RAMP REVERSE MATH DIFF CENAB AV P 10 FUNCT AINP1 AINP2 1 AHU 1 FAN SEQUENCE THE FAN IS NORMALLY COMMANDED ON AT ALL TIMES THE SMOKE PURGE DI WILL OVERRIDE ALL OTHER COMMANDS TO START THE FANS THE SUPPLY FAN STATIC PRESSURE SETPOINT WILL BE RESET TO 3 0 WC AND THE DRIVE WILL RAMP UP TO 10096 SPEED IN 3 MINUTES THE FREEZESTAT RETURN AIR LOW PRESSURE SWITCH MIXED AIR LOW PRESSURE SWITCH SUPPLY AIR HIGH PRESSURE SWITCH OR SMOKE DETECTOR WILL CAUSE A SAFETY SHUT DOWN THE FANS SUPPLY FAN VFD OPERATION OCCUPIED MODE IN THE OCCUPIED MODE IF SUPPLY AND RETURN FAN STATUS ARE PROVEN THE SUPPLY FAN VFD WILL RUN AT THE OCCUPIED STATIC PRESSURE SETPOINT OF 1 0 WC UNOCCUPIED MODE IN THE UNOCCUPIED MODE IF SUPPLY AND RETURN FAN STATUS ARE PROVEN THE SUPPLY FAN VFD WILL RUN AT THE OCCUPIED STATIC PRESSURE SETPOINT OF 0 7 WC RETURN FAN VFD OPERATION IF SUPPLY AND RETURN FAN STATUS ARE PROVEN THE RETURN FAN VFD WILL OPERATE AT 1096 LESS SPEED COMMAND THAN THE SUPPLY FAN MINIMUM OUTSIDE AIR DAMPER OPERATION IF THE FREEZESTAT IS NOT TRIPPED AND SUPPLY FAN STATUS IS PROVEN AND THE UNIT IS IN THE OCCUPIED MODE THE MINIMUM OUTSIDE AIR DAMPER WILL BE OPEN ACES LIBRARY AHU S S VFD AND MIN OA DAMPER AHU 1 _ dl i 7 10 2008 SHEET 10F4 SLECT FRZ_CLG CENAB AV RGCM LO LMT 1 1 00 04 DFTDV DV INSEL DIAGN CHILLED WATER VALVE OPERATION SLECT C
66. AT DO I DO 1 Press to select a number for the PRESET QUANTA y TEST EXIT Y 4 2 Press CAPTURE the controller will store the ON OFF states of each relay output Steps 1 2 3 3 Press EXIT to leave the screen Later after timers or switch signals have changed the relay outputs from the captured states you can access the Capture Relay screen again select the appropriate PRESET then press TEST The controller will set the relay outputs to that preset s states ay 5 Q 3 eJ Quanta Elite User Manual 3 35 Version 1J 9 20 00 Programming 3 26 Set Open Close Times Set Open and Close activation times WHAT IS IT This feature allows you to define timers in rela tion to the Open and Close Times of the store You first enter the Open and Close Times Then define one timer to occur keyed to opening and a second timer keyed to the store close QUAN time You can program the controller to exe cute the timer exactly at Open or Close Time or at one of the following offsets either before or after opening or closing 5 10 15 30 45 minutes 1 1 5 2 3 4 4 5 5 hours HOW DO I GET THERE 1 From the Home screen press EDIT 2 Then press W 15 times to access the Set Open Close Times screen See Figure 3 19 QUAN 1 OPEN CLOSE TIMES A SET OPEN SET CLOSE r EXIT Parameter Key SET OPEN the time you assign
67. AV AINP1 AINP2 INSEL NA AO RF VFD IPR2 CHTIM NCHGS AO SF_VFD CENAB AV IPR1 OVTIM IPR2 CAUSE DIAGN DI SF_STS DV CENAB DV 0 RMPST DINP1 ONDV 100 RMPFI DINP2 OFFDV 3 MIN RMPTI ENABL DI SMK_PURG DV AND HILO SMK_PURG CENAB AINP1 AINP2 LOVAL AINP4 AVG LOOP STATIC AV SUM SLECT PRG_SF CENAB AV NA AINP1 AINP2 DERF STS DI SMK PURG DV INSEL CENAB DV ONDV OFFDV DIAGN ONTIM CHTIM LOOP BLD PR RAENA SLECT RF VFD CENAB AV AINP1 AINP2 INSEL 3 WC NTYP USER DERINED stECT SP_sCH SP_SCH CENAB AV AINP1 AINP2 INSEL SLECT OCC ov SLECT SP_SFVFD CENAB AV LOOP BLD PR AV CENAB AV AINP CALSP DIAGN 05 SP HIFLG TR LOFLG NOACT COENA INTYP USER OUTMX DEFINED OUTMN RAENA STS DV RASEL SOFT START RAMP REVERSE VFD IPRS3 SLECT X1 ALRM AINP1 HILO SMK_PURG AINP2 SLECT SF_VFD AV SLECT RF_VFD AV RASEL SOFT START RAMP DIRECT AO RF_VFD CENAB AV OVTIM CAUSE DIAGN FAN SEQUENCE SUPPLY FAN THE FAN IS NORMALLY COMMANDED ON AT ALL TIMES BUT CAN BE SCHEDULED THE SMOKE PURGE DI WILL OVERRIDE ALL OTHER COMMANDS TO START THE FAN THE FREEZESTAT RETURN AIR LOW PRESSURE SWITCH MIXED AIR LOW
68. AY ACTION TURN OFF EXIT RELAY one of up to 48 relay out puts controlled by the timer ACTION how the relay responds to the timer The relay may go ON or OFF or take NO ACTION Timer Relay Control Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 4 times SWITCH INPUT T INPUT RELAY CONTROL TIMERS TIMER RELAY CONTROL i TIMER RELAY CONTROL lt INPUT 01 T RELAY RELAY 04 ACTION TURN OFF EXIT r Timer Relay Definition Screens Figure 3 9 Quanta Elite User Manual 3 17 Version 1J 9 20 00 Programming 3 14 Map the Timer to a Relay Output WHAT DO DO 1 From the Home screen press EDIT 2 Press W 4 times then press TIMER RELAY CONTROL 3 TIMER appears then press until the timer number you want appears 4 Press RELAY then press A until the relay to be controlled appears 5 Press ACTION then press A until the desired relay response appears 6 Press EXIT then press 4 times and EXIT again to return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUANTAZ QUANTA ELITE WED 10 14 98 07 50 54 PM 98 ILC EDIT SWITCH INPUT _ INPUT RELAY CONTROL TIMERS TIMER RELAY CONTROL i TIMER lt INPUT 01 RELAY RELAY 04 ACTION TURN OFF EXIT MNT i Steps 3 4 5 4
69. CHTIM IPR4 NCHGS IPRS IPRG IPR7 IPR8 DO HWP_4 CENAB DV FOVAL CAUSE DIAGN ONTIM CHTIM NORM OFFDV 0 0 NA LOGIC P3 4_STS DINP1 DO HWP_3 DV LOGIC P3_FLOW CENAB DV DINP1 ONDV DINP2 OFFDV AND RGCM RHT DIFF DFTAV AV DIAGN DO HWP_4 DV LOGIC P4_FLOW DI P4_STS DV CENAB DV DINP1 ONDV DINP2 OFFDV AND 20 PSI 0 0 NA SLECT HWP 3 CENAB AV AINP1 AINP2 INSEL LOOP HWPS CENAB AV AINP _ SP HIFLG RASEL NO RAMP REVERSE SLECT HWP_4 CENAB AV AINP1 AINP2 INSEL NCHGS AO HWP3 VFD CENAB IPR1 OVTIM IPR2 CAUSE DIAGN AO HWP4_VFD IPR8 AO HWP4_VFD CENAB AV IPR1 OVTIM IPR2 CAUSE IPR3 DIAGN IPR4 IPRS COS HWP_3 NORM LOGIC P3_FLOW DINP1 LOGIC P4 FLOW DINP1 REHEAT PUMP SEQUENCE ONE PUMP IS COMMANDED ON AT ALL TIMES IF EITHER PUMP IS COMMANDED ON AND STATUS IS LOST THE OTHER PUMP WILL BE COMMANDED ON IF EITHER PUMP S VFD SHOWS A FAULT THE OTHER PUMP WILL BE COMMANDED ON THE PUMPS WILL NORMALLY BE ROTATED EVERY 28 DAYS BY THE PROGRAM OR THE ROTATION CAN BE DONE BY THE MANUAL ROTATION COMMAND REHEAT PUMP VFD OPERATION IF THE PUMP IS NOT COMMANDED ON OR IF STATUS IS NOT PROVEN THE VFD WILL RECEIVE A 0 COMMAND IF THE PUMP IS COMMANDED ON AND STATUS IS PROVEN THE VFD WILL MODULATE TO MAINTAIN A 20 PSI DIFFERENTIAL PRESSURE LCM 5 REHEAT SYSTE
70. DIAGN EXPRESS idis CENAB AV SLECT PURG 40 AV TR LOFLG MARC En CENAB AV BILE CENAB AINP INTYP STANDARD BC 55 0 pas DIRECT INTYPZSTANDARD d RASEL NO RAMP AO HTGVLV_C IPR1 OVTIM IPR2 CAUSE RASEL NO RAMP DIAGN PR IPR7 pu 7 mue LCM 4 AHU 2 550 mm PREHEAT VALVES zm oe INTYP STANDARD OUTMX OUTMN ENCHG ACT DIRECT NO DWG NO RASEL NO RAMP cue 7 8 2008 SHEET 4 4 DI P4_STS CENAB DV ONDV OFFDV DIAGN CHTIM NCHGS DIP3 STS CENAB DV ONDV OFFDV DIAGN ONTIM CHTIM NCHGS LOGIC P4 FLOW DINP2 LOGIC P3 4_STS DINP2 FLT MTR HWP 34 28 DALIM DPT MANL ROT CENAB DV OFF DINP OVTIM OFF DO HWP 4 DV COS HWP 4 CENAB Sip DINP DSABL v NORM OFFDV DSABL ONDV NORM OFFDV CENAB STATE DINP DV OGIC ROTATE CENAB DV DINP1 DINP2 OR 55 0 SEQ HWPS CENAB DO HWP 3 DV DI P3_FLT CENAB DV COS P3 FLT CENAB STATE DINP DV DSABL ONDV COS HWP 3 CENAB STATE DINP DV DSABL ONDV NORM OFFDV DO HWP 4 IPR8 DO HWP 3 CENAB DV FOVAL OVTIM FOENA CAUSE IPR1 DIAGN IPR2 ONTIM IPR3
71. DINGS BY JAMES HUGHES DESIGN AI RFLOW AREA SERVED OUTLET CFM PRELI MI NARY FINAL AIRFLOW cfm BOX Cooling Heating Static Pressure Cooling Clg Htg AHU ROOM NUMBER NUMBER DIA H w SQFT Mult Max Max Max Min Max Heating Max Min SP REMARKS 504 CITES SERVER RM U2 5 2 10 0 54542 500 0 74 0 512 1 8 0 34907 250 125 277 145 109 EXH 352 CFM 506 2 10 0 54542 300 150 234 138 102 505 3 8 0 34907 150 75 158 93 71 TOTAL 700 350 669 376 282 508 1 8 0 34907 150 75 133 73 REPLACED CONTROLER 507 1 ELEVATOR RM U2 5 4 6 12 0 5 200 00 26 06 211 09 TOTAL 350 75 344 82 9896 MAX 8096 MIN 512 1 8 0 34907 150 75 144 90 62 106 MAX 97 MIN 512 2 8 0 34907 200 00 222 33 101 512 3 8 0 34907 200 00 205 24 95 512 4 U2 5 5 8 0 34907 200 00 51 08 230 36 103 512 5 8 0 34907 200 00 211 24 97 512 6 8 0 34907 200 00 210 29 100 TOTAL 1150 575 1222 736 558 510 1 8 0 34907 150 75 146 81 65 510 2 ES 8 0 34907 200 00 pr 182 95 78 510 3 8 0 34907 200 00 180 92 72 TOTAL 550 275 508 268 215 9296 max 64 MIN 9590 6496MIN EXH 511 MENS RM 17 10 1 18056 375 88 A05 357 210 156 463 TM 108 MAX 121 MIN 502 STORAGE 8 0
72. ED message displays on the screen if the input or scan all switch inputs currently selected input is actuated WHAT IS IT HOW DO GET THERE You can view the current status of each switch 1 From the Home screen press p gt EDIT input The Switch Status screen will display maintained switch inputs as either OPEN or 2 Press B gt SWITCH STATUS to access the Switch CLOSED Momentary inputs are displayed as Status screen See Figure 3 4 INPUT 01 CLOSED OFF OPEN Switch Status Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT 98 ILC gt EDIT EXIT RELAY STATUS RELAY OUTPUT SWITCH STATUS B gt SWITCH STATUS HOLD INPUT 01 SCAN CLOSED OFF OPEN EXIT Switch Status Definition Screens Figure 3 4 Quanta Elite User Manual 3 6 Version 1J 9 20 00 Programming 3 6 View Current Switch Status WHAT DO DO 1 Press B gt HOLD then press A or W to select the input you want to check 2 If you press SCAN while viewing an input the controller will automatically display the input that has changed state 3 Press EXIT to leave the screen Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy HOLD INPUT 01 SCAN ON CLOSED 40 ay 5 Q 3 eJ Programming 3 7 Switch Input Configure the switch type for switch inputs WHAT IS
73. FACILITIES amp SERVICES Building Systems Manual E ACES Library Info amp Alumni Center Building No 377 1101 S Goodwin Urbana IL 61801 217 333 2416 This manual is an attempt at providing one source for building information as it relates to the overall M E Systems serving the building If any format suggestions or any ideas of improvement please send these to dmcfall illinois edu 217 244 6278 Created by the Retrocommissioning Team a division of Engineering at Facilities and Services Updated or revised information will be provided to the Maintenance Division with F amp S in the future ACES Library Info amp Alumni Center Building Systems Manual Revision Log This page is intended to be used to record revisions as they are made to this static manual Such revisions are included in the digital live document at the time they are included in this manual Rev No Revision By Whom Division Dept 0 Building Systems Manual issued 8 15 08 D McFall RCx Team Engineering Building Systems Manual Revision Log ACES Library Info amp Alumni Center Foreword The Building System Manual is meant to inform facilities staff route mechanics current or potential service contractors as well as facility occupants and users as to the basis for operating and maint
74. FLOW cfm ROOM NUMBER 1 1 6 2 7 3 Total U1 LL 11 U1 LL 12 8 10 NUMBER DIA U1 LL 7 A U1 LL 8 24 8 24 9 24 10 Total uus s x l L a 26 uueA 0550 x aq 2 uus s 39 s x jo lo e 054542 e fo e xoa e e fo im 248 im 246 12 oes T gt s T 26 xs s s us TL es s s pao e s 25 s o 196 s bao 15 s o 15 s 15 s 15 s 256 s o s o 256 s os 25 s 15 s 32 9 Retrocommissioning Team Division of Engineering Facilities and Services eue 2 E Min 5 R A 227 HOSES OFF HI amp LO BOX OUT OF CONTROL FI X CHANGED CONTROLLERS 2436 VAV s DIRECTLY ABOVE COMPUTER SERVERS COULD NOT GET TO INFORMED DAVI D TO WATCH FOR WATER REHEAT LEAKS IN FUTURE Page 2 of 3 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 1 LOCATION Basement Mechanical Room TEST DATE READINGS BY JAMES HUGHES DESIGN AIRFLOW m ROOM NUMBER NUMBER DIA SQFT Mult M
75. FLOW DINP2 CAUSE _ DSABL ONDV OFFDV LOGIC P1 2 STS DINP2 NORM OFFDV DE LOGIC P1 FLOW DINP1 DIAGN Inm CHTIM DEP2 NCHGS SUE CENAB DV COS P2_FLT ONDV OFFDV Mu DIAGN DSABL Sub OFF NORM OFFDV TSTAT RAD ENAB NCHGS i RGCM OATEMP weg ND DFTAV AV OFFDV DIAGN INDIF HIFLG REVERSE MTR HWP 112 MODE ON OFF CENAB DV CONTROL 28 DALIM SLECT P1 CENAB DV OFF DINP1 SEQ HWPS EE STS INSEL RADIATION PUMP SEQUENCE CENAB DPT MANL ROT DU 55 0 OFFDV CENAB DV OFF DP OVTIM ONE PUMP IS COMMANDED ON WHENEVER OUTSIDE AIR ONTIM DFTDV 55 omi OR TEMPERATURE IS ABOVE 55 DEG F COS HWP 1 CENAB STATE DINP V IF EITHER PUMP IS COMMANDED ON AND STATUS IS LOST THE OTHER PUMP WILL BE COMMANDED IF EITHER PUMP S VFD DSABL ONDV um SHOWS FAULT THE OTHER PUMP WILL BE COMMANDED ON TERES THE PUMPS WILL NORMALLY ROTATED EVERY 28 DAYS BY THE mw nuan PROGRAM OR THE ROTATION CAN BE DONE BY THE MANUAL OFFDV COS P1_FLT IPRS ROTATION COMMAND DIAGN CENAB STATE _ DINP DV OFF RADIATION PUMP VFD OPERATION IF THE PUMP IS NOT COMMANDED ON OR IF STATUS IS NOT FaEorPz PROVEN THE VFD WILL RECEIVE A 0 COMMAND IF THE PUMP IS COMMA
76. G NO 377 gt gt 2 x Qu 2 2 Z O lt lz 5 H 100 S lt PRELIMINARY pepper uel NN p ____ 4 Pneumatic Thermostat 4427189 162 A Controls Air System Reviewed Drawn DEM JTM R Controls Radiant System FOURTH LEVEL A R Controls Air amp Radiant System ua n CAL FOURTH FLOOR PLAN Variable Air Volume Box 0 8 16 24 32 FEET NEN 5 of 6 sheets F facilities amp SERVICES Retro Commissioning RCx Engineering Services BUILDING NO 377 o 2 2 gt gt 2 lt OE 5 9 c lt Pneumatic Thermostat um BU NOT NS Date 189 162 wed eviewed 7 A Controls Air System Drawn R Controls Radiant System FIFTH LEVEL a A R Controls Air amp Radiant System PT FIFTH FLOOR PLAN Variable Air Volume Box M05 0 8 16 24 32 FEET M 1 0 1 6 of 6 sheets 2 m This section is dedicated to the Building Facility Manager It allows space for noting experiences occupancy schedules and specific conditions that the Owner wishes to achieve in the building Equipment Inventory and Description ACES Library Info amp Alumni Center Page 1 of 9Monday August 04 2008 AIR HANDLING UNIT AHU 1 w RF 1 This air handling unit has a
77. HOW DO GET THERE 1 From the Home screen press EDIT then WHAT IS IT press W twice This is the feature used to select which relay 2 Then press J gt INPUT RELAY CONTROL output or outputs respond to a particular 3 6 switch input actuation You can program a switch input to control any or all of a QUANTA Elite controller s relay outputs The controller can have up to 48 relay outputs Each Relay Output s can be programmed to respond in one of the following ways NO ACTION ON ONLY OFF ONLY or ON AND OFF Parameter Key QUANTA INPUT the number of the INPUT INPUT 01 A controlling switch 1 48 RELAY RELAY 04 ACTION ON AND OFF EXIT MNT ON OFF v RELAY the number of the controlled Relay Output 1 48 ACTION how the relay responds to switch actuation NO ACTION is the default Input Relay Control Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT CC 98 ILC EDIT then W twice RELAY STATUS A RELAY OUTPUT SWITCH STATUS SWITCH RELAY CONTROL y gt SWITCH RELAY CONTROL INPUT lt INPUT 01 RELAY RELAY 04 ACTION ON AND OFF gt EXIT ON OFF Y 5 Q B eJ Input Relay Definition Screens Figure 3 6 Quanta Elite User Manual 3 11 Version 1J 9 20 00 Programming 3 10 Map a Switch to a Relay Output WHAT DO DO 1 From the Home screen press EDIT 2 Press W twice then press
78. IT Switch input is used to program the character istics of each QUANTA Elite controller input Each of the controller inputs can be connect ed to either a 2 wire and 3 wire momentary switch or to maintained switch s You can pro QUANT gram each input as one of the available switch types Consult Table 3 1 for a description of each switch type and the required physical characteristics of the switch used to trigger the switch type function HOW DO GET THERE 1 From the Home screen press EDIT then press W 2 Press SWITCH INPUT See Figure 3 5 lt 1 INPUT 01 ON OFF V EXIT Parameter Key INPUT Control switch input 1 of 48 TYPE switch type momentary ON OFF is the default Switch Input Screen ON OFF 3 WIRE MOMENTARY 00 O OFF MAINTAINED Physical Switch Configurations O O OFF 2 WIRE MOMENTARY ON QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W RELAY STATUS RELAY OUTPUT SWITCH STATUS SWITCH INPUT p gt SWITCH INPUT INPUT lt INPUT 01 TIMERS MNT ON OFF POWERUP NO ACTION EXIT Y Switch Definition Screens Figure 3 5 Quanta Elite User Manual Version 1J 9 20 00 Programming QUAN ite 3 8 Programming a Switch Input QUAN D QUANTA ELITE WED 10 14 98 07 50 54 PM c 98 ILC WHAT
79. J 22 Figure 2 1 Terminate Line to Control Transformer Primary Quanta Elite User Manual 2 3 Version 1J 9 20 00 5 5 Installation Typical maintained switch QUANTA Power LED ON Red 10N EXPANSION MODULE 1 EXPANSION MODULE 2 COM Yellow 6 20416 1m S ON Red Sie MERDE E Black 6 B Ep els gt o lel OU E Bd B isi 16 o Le 8 Big eo F IAM o 16 E B nm S QU d B 9 i me d Les Jn 99519
80. LG RASEL NO RAMP HILO MAD_1 CENAB HIVAL AINP1 HICAU AINP2 LOVAL AINP4 AVG SUM AO MAD_1 CENAB AV IPR1 OVTIM IPR2 CAUSE DIAGN MIXED AIR DAMPER OPERATION THE OUTSIDE AIR DAMPER NORMALLY CLOSED THE RETURN AIR DAMPER NORMALLY OPEN AND THE RELIEF AIR DAMPER NORMALLY CLOSED ARE CONTROLLED BY THE SAME SIGNAL THE SIGNAL CORRESPONDS TO THE POSITION OF THE OUTSIDE AIR DAMPER OR OPEN FOR THE OUTSIDE AIR DAMPER IF THE SMOKE PURGE DI IS ENERGIZED THE MIXED AIR DAMPERS WILL BE COMMANDED TO 100 IF THERE IS NO FAN STATUS OR IF THE FREEZESTAT IS TRIPPED THE MIXED AIR DAMPERS WILL GO TO 0 COMMAND WHEN THE UNIT IS IN THE OCCUPIED MODE BASED ON THE WEEKLY SCHEDULE AND FAN STATUS IS PROVEN THE FOLLOWING WILL OCCUR 1 WHEN THE OUTSIDE AIR ENTHALPY IS GREATER THAN THE RETURN AIR ENTHALPY THE MIXED AIR DAMPER WILL BE COMMANDED TO ITS MINIMUM POSITION 2 WHEN THE OUTSIDE AIR ENTHALPY IS LESS THAN THE RETURN AIR ENTHALPY THE MIXED AIR DAMPER WILL MODULATE TO MAINTAIN 55 DEG F AT THE MIXED AIR SENSOR WHEN THE UNIT IS IN THE UNOCCUPIED MODE BASED ON THE WEEKLY SCHEDULE THE ABOVE WILL OCCUR EXCEPT THE MINIMUM POSITION IS SET TO 0 AT NO TIME WILL THE MIXED AIR TEMPERATURE BE ALLOWED TO DROP BELOW 45 DEG F ACES LIBRARY AHU 1 GCM AHU 1 MIXED AIR DAMPERS FSCM NO pL 1 2008 304 30F4 A IPR2 AO HTGVL
81. LG FULL CENAB AV AINP1 AINP2 INSEL THE CHILLED WATER VALVE IS NORMALLY CLOSED THE COMMAND IS OPEN FOR THE VALVE RGCM CLG_FULL DFTDV DV DIAGN NA 100 l A TRIP OF THE FREEZESTAT WILL FORCE THE CHILLED WATER VALVE TO GO TO 100 OPEN UNTIL RESET DIAGN ONTIM IF THE COOLING FULL DPT COMMAND IS GIVEN THE CHILLED WATER VALVE TO GO 100 OPEN UNTIL RESET m AO CLGVLV IF COOLING IS NOT ENABLED OUTSIDE AIR TEMPERATURE IS INSEL PS LESS THAN 45 5 DEG F OR IF THE PURG FRZ DI IS ENERGIZED IPR3 THE COOLING VALVE WILL BE COMMANDED TO 0 OPEN IPRA Pa WHEN THE OUTSIDE AIR TEMPERATURE IS ABOVE 45 5 DEG F AND FAN STATUS IS PROVEN THE FOLLOWING SEQUENCE WILL AIDATEMP_1 OCCUR ce AV ae WHEN THE RETURN AIR HUMIDITY IS ABOVE THE HIGH HUMIDITY COENA SETPOINT 60 RH THE DISCHARGE AIR SETPOINT WILL BE SET ouma 55 DEG F IF THE RETURN AIR HUMIDITY IS BELOW THE HIGH HUMIDITY SETPOINT THE DISCHARGE AIR SETPOINT WILL BE SET TO 60 DEG F RASEL NO RAMP APT DAT_SP 55 0 DEG F AINP SLECT DAT_SP CENAB AV 60 0 DEG F AINP1 AINP2 ENG UNITS DEG F INSEL RGCM RAHUM_1 DFTDV DV DIAGN RGCM SF1 STS DFTDV DV DIAGN ACES LIBRARY 2 AHU 1 CHILLED WATER VALVE AHU 1 EA
82. LI LAN module that is jumpered for MOD BUS communications and addressed with unique node address See Figure M 1 The network cable is a two wire shielded twisted pair Consult the Automation system provider for the exact specifications Terminate the cable as shown in Figure 1 M 6 Required Parameter Entries After setting the Quanta Controller jumpers and adaress DIP switches you must power up the Quanta controller and define certain operational parameters for MODBUS com munication See Figure M 2 Quanta Elite User Manual Version 1J 9 20 00 QUANTA py Both ASCII and RTU transmission modes feature mechanisms to indicate the begin ning and end of a frame the node address a function code the type of information sought command signal a data field indicating the particular point or register accessed See Table M 1 for data field point designators for a Quanta Controller node M 7 Framing M 8 Supported Commands 01 Read coil status 02 Read Input status 05 Force single coil 15 Force multiple coils M 9 Additional Information Contact Modicon Inc if you would like more detailed information on MODBUS protocol or refer to Modcon Modbus Protocol Reference Guide M 3 o 5 2 x Appendix M MODBUS Communications Procedure Access the top level MODBUS Screen 2 Press CONFIGURE 3 When the Configuration screen Appears press gt PROTOCOL until the desired transmission mo
83. M REHEAT PUMPS AND VFDS ACES LIBRARY REHEAT SYSTEM FSCM NO 7 8 2008 SHEET 10F4 LOGIC P3 4_STS fea pis CENAB DV OFFDV ae EE E MEET screen 1 ae 1000 AORHIVLY REHEAT STEAM VALVE OPERATION DINP1 ONDV NA AINP2 ay pros DINP2 cause THE STEAM VALVE IS A NORMALLY OPEN VALVE COMMAND IS r Mm CLOSED LOOP RHT HWS HILO RHT_HWS Es 7 IF PUMP STATUS IS NOT PROVEN THE VALVE WILL BE Se DIAGN 1400 m COMMANDED TO 100 CLOSED AND THE REHEAT VALVE EP WILL SRENA ANPA AVG BE COMMANDED TO PLACE MAIN AIR ON THE VALVE ACTUATOR INTYP STANDARD ES DEG F TO CLOSE THE VALVE LED See IF PUMP STATUS IS PROVEN THE HEAT EXCHANGER VALVE WILL m ES BE RAMPED OPEN AND THEN MAINTAIN A SUPPLY WATER RAMP SETPOINT BASED ON OUTSIDE AIR TEMPERATURE OAT IF OAT IS 5 DEG F THE SUPPLY SETPOINT IS 180 DEG F IF OAT IS 55 DEG F OR GREATER THE SUPPLY SETPOINT IS 140 DEG F RAMP RHT HWS LOGIC P3 4_STS DV LOGIC RHTFLOW DV ACES LIBRARY LCM 5 REHEAT SYSTEM STEAM VALVE REHEAT SYSTEM EA EE DO HWP 1 5 2 IDI P2 575 gt CENAB STATE OVTIM CENAB DV 5 DINP V COS HWP 1 NORM LOGIC P2
84. MONDAY appears 8 Repeat steps 5 amp 6 to enter the Monday open and close times of 10 00 AM and 9 00 PM respectively 9 Repeat steps 7 amp 8 to program Tuesday to Saturday open and close times 10 Let the controller time out to save your entries Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy QUANT SCHEDULE MASTER TODAY T EDIT OP 12 00 AM EXIT CL 12 00 PM dm Step 3 Schedule Master screen yy NORMAL DAYS 4 SINGLE DATE EXIT DAY lt SUNDAY A OPEN 10 00AM CLOSE 05 00PM EXIT v Steps 5 and 6 Normal Days screen 40 4 4 5 gt o 5 2 x Appendix E Master Scheduler 5 1 Set the Open Close Times E 5 1b Set the Open Close Times for a Single Date 1 From the Home screen press EDIT then press W 15 times 2 Press OPEN CLOSE TIME 3 The SCHEDULE MASTER screen appears showing the current Open and Close Times or the default time of 12 00 AM 4 Press EDIT then press SINGLE DATE Note about Single Date programming When program ming a Single Date the year is not entered You must be aware that any time this Single Date occurs e g 4 12 the controller will execute the Open Close times that you had previously programmed You must remem ber to clear the programming before this date occurs the next year if you do not want this Single Date s event to reoccur 5 When the top l
85. N ONTIM CHTIM LOOP CFM RAENA NCHGS INTYP USER DEFINED SLECT OCG DV ALSA CENAB AV _ DIAGN INTYP USER DEFINED CENAB AM DIAGN NTYP USER DEFINED SLECT PRG SF CENAB AV AINP1 AINP2 INSEL 0 0 NA SLECT SF_VFD CENAB AINP1 AINP2 INSEL DI SF_STS OFFDV SLECT OCC DV DO SF_S S CENAB DV FOVAL OVTIM FOENA CAUSE IPR1 DIAGN IPR2 ONTIM IPR3 CHTIM IPR4 NcHes IPR1 DIAGN IPR2 ONTIM IPR3 CHTIM IPR4 Ncros IPR5 IPR6 IPR7 IPR8 LOOP CFM CENAB DO MIN OA CENAB DV FOVAL OVTIM AO RF VFD IPR2 IPR1 DIAGN IPR2 ONTIM IPR3 CHTIM IPR4 NCHGS IPR5 IPR6 IPR7 IPR8 AO SF_VFD CENAB AV IPR1 OVTIM IPR2 CAUSE SLECT RF_VFD CENAB 0 0 AINP1 NA AINP2 INSEL MATH CFM CENAB AV FUNCT AINP1 AINP2 SLECT SP SCH SLECT SP VFD STS DV LOOP CFM CENAB AV AINP _ SP HIFLG TR LOFLG RASEL SOFT START RAMP REVERSE AO RF VFD IPR3 HILO SMK PURG AINP2 SLECT SF VFD AV SLECT RF_VFD AV IPR3 DIAGN IPR4 IPRS AO RF_VFD CENAB AV IPR1 OVTIM IPR2 CAUSE IPR3 DIAGN IPR4 LOOP STATIC CENAB AV AINP _ SP HIFLG TR LOFLG NOACT COENA OUTMX OUTMN RAENA RASEL SOFT ST
86. NDED ON AND STATUS IS PROVEN THE VFD WILL MODULATE TO MAINTAIN A 10 PSI DIFFERENTIAL PRESSURE TSTAT RAD ENABL DV SEQ HWPS DV2 DO HWP 1 DV SLECT HWP 1 CENAB AV 0 0 AINP1 LOGIC P1 FLOW AINP2 DV INSEL AO HWP1 VFD DINP1 ONDV CENAB AV DINP2 OFFDV IPR1 OVTIM AND IPR2 CAUSE DIAGN IPR4 IPR5 LOOP HWPS 1 m LOOP HWPS RGCN RAD DIFF AV P DFTAV AV AINP CALSP DIAGN 10 PSI SP HIFLG TR LOFLG NOACT AO HWP2 VFD IPR8 COENA OUTMX OUTMN RAENA RASEL NO RAMP REVERSE LOGIC P2_FLOW CENAB DV SLECT HWP_2 OFFDY AOHWP2 VFD ACES LIBRARY AND 1 PRI OVTIM LCM 6 RADIATION SYSTEM Errem E RADIATION PUMPS AND VFDS RADIATION SYSTEM dit uta Al RAD SUP CENAB AV DIAGN INTYP STANDARD LOGIC RAD FLOW DV LOOP RAD HWS SLECT RADVLV 100 0 NA CENAB AV AINP1 AINP2 INSEL CENAB IPR1 IPR2 IPR3 IPR4 RGCM OATEMP AV RASEL NO RAMP LOGIC P1 2 STS CENAB DV DEP1 STS DV DINP1 ONDV DEP2 STS DV DINP2 OR CIS CENAB DV ONDV _ OFFDV LOGIC C S DIAGN x ONM CENAB DV CHTM DINP1 ONDV _ NCHGS IDI P2 C S DINP2 CENAB DV m OFFDV DIAGN ONTIM CHTIM NCHGS LOGIC RAD FLOW CENAB DV DINP1 ONDV DINP2 AND AV OVTIM
87. NK HID DISPLAY ALARM POWERUP how the relay responds to application or re application of controller power Default is NO ACTION Figure 3 3 Quanta Elite User Manual Version 1J 9 20 00 Programming QUAN gt 3 4 Set Relay Parameters WHAT DO DO NOTE The default parameters are for the relays to not blink alert an upcoming OFF timer and take no action on controller power up If these are appropriate for the application you can skip this section From the Home screen press EDIT then press p gt RELAY OUTPUT RELAY RELAY 01 TIMERS 0 BLINK POWERUP NO ACTION EXIT de 2 RELAY appears then press A until the relay you want to define appears 4 RELAY RELAY 01 TIMERS NO BLINK POWERUP NO ACTION EXIT i 3 Press TIMERS then press A until the desired response of the relay to an upcoming OFF timer appears 4 gt QUANTA RELAY RELAY 01 i TIMERS NO BLINK POWERUP lt NO ACTION EXIT i 5 Q 3 3 2 4 Press POWERUP until the desired relay response to controller powerup appears lt gt 5 Press gt EXIT twice to return to the Home screen Quanta Elite User Manual 3 5 Version 1J 9 20 00 Programming QUAN ite 3 5 Switch Status OPEN when the switch is in the neutral posi tion During actuation momentary OPEN or View current switch input status for any switch CLOS
88. OFF SWEEP EXIT 3 Relay Status Screen Flow Figure 3 2 Quanta Elite User Manual Version 1J 9 20 00 Programming 3 2 Controlling Relays From the Keypad WHAT DO DO 1 From the Home screen press EDIT 2 Press RELAY STATUS 3 Press until the relay to be overridden appears on The screen 4 Press either ON OFF to override the relay to the desired state 5 To turn all the relays ON or OFF press SWEEP then press either B gt ALL RELAYS ON ALL RELAYS OFF 6 Press gt EXIT to return to the top level Relay Status screen 7 Press EXIT to return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUANTAZ QUANTA ELITE WED 10 14 98 07 50 54 PM 98 ILC 4 EDIT RELAY STATUS RELAY OUTPUT SWITCH STATUS SWITCH INPUT i 4 gt QUANTA yy ALL RELAYS ON ALL RELAYS OFF EXIT 4 5 Q 3 eJ Programming QUANTA 3 3 Relay Output Configure relay output properties such as Blink functions and power up options WHAT IS IT Use relay output definition to determine the way each relay output responds to impending OFF timers and the application re application of power to the QUANTA Elite controller The controller blinks momentarily turns OFF ON each relay controlled by an upcoming OFF as a warning NO BLINK is the default entry Blinking is not ap
89. ON appears Repeat steps 4 to 6 as required until you have defined all the relays in each node turned on by TIMER 02 Press B gt TIMER until TIMER 03 appears Repeat steps 4 to 7 except that you select TURN OFF for the relay action Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy QUANTA TIMER lt 01 RELAY RELAY 01 01 ACTION NO ACTION I 1 Top Level Timer Relay Control Definition Screen Before Bk QUANTA OUTPUT NODE 03 a QUANTA ELITE 1 0 16 Node Selection Screen QUANTA lt INPUT 02 4 RELAY RELAY 06 03 ACTION TURN ON EXIT i 40 Top Level Screen After Step 6 E 8 Appendix M MODBUS Communications M 1 Overview MODBUS protocol is an industrial communi cations and distributive control system developed by Gould Modicon to integrate programmable logic controllers PLCs computers terminals and other monitoring sensing and control devices By setting the protocol jumpers on the Quanta Lighting Controller QSLI plug in LAN Module and set ting a unique address via the address DIP switches a Quanta Elite lighting controller can become a Slave NODE on the MODBUS Network See Figure M 1 M 2 Structure MODBUS is a Master Slave communications protocol One device the Master controls all serial activity by selectively polling one or more of the slave devices T
90. PRESSURE SWITCH SUPPLY AIR HIGH PRESSURE SWITCH OR SMOKE DETECTOR WILL CAUSE A SAFETY SHUT DOWN OF THE FAN RETURN FAN THE FAN IS NORMALLY COMMANDED ON WITH THE SUPPLY FAN LOSS OF SUPPLY FAN STATUS WILL CAUSE THE RETURN FAN TO SHUT DOWN THE FREEZESTAT RETURN AIR LOW PRESSURE SWITCH MIXED AIR LOW PRESSURE SWITCH SUPPLY AIR HIGH PRESSURE SWITCH OR SMOKE DETECTOR WILL CAUSE A SAFETY SHUT DOWN OF THE FAN THE SMOKE PURGE DI WILL CAUSE A SHUTDOWN OF THE RETURN FAN SUPPLY FAN VFD OPERATION A LOSS OF THE X1 ALARM SIGNAL WILL CAUSE THE DRIVE TO OPERATE TO MAINTAIN LOOP STATIC SETPOINT A LOSS OF FAN STATUS WILL CAUSE A ZERO COMMAND TO THE DRIVE ON A COMMAND FOR SMOKE PURGE WITH FAN STATUS PROVEN THE DRIVE WILL MAINTAIN DISCHARGE STATIC SETPOINT OF 3 0 WC UNTIL THE RAMP SIGNAL FROM THE 3 MINUTE RAMP HAS A HIGHER OUTPUT THE OUTPUT WILL BE 10096 AT THE END OF THE 3 MINUTE RAMP IF RETURN FAN STATUS IS NOT PROVEN THE SUPPLY FAN WILL RECEIVE A 026 COMMAND IF NOTE OF THE ABOVE IS IN CONTROL THE DRIVE WILL MAINTAIN A STATIC PRESSURE SETPOINT OF 1 2 WC WHEN IN THE OCCUPIED MODE OR 0 7 WC WHEN IN THE UNOCCUPIED MODE RETURN FAN VFD OPERATION IF SUPPLY AND RETURN FAN STATUS ARE PROVEN THE RETURN FAN VFD WILL OPERATE TO MAINTAIN A BUILDING PRESSURE SETPOINT OF 0 05 WC ACES LIBRARY AHU 2 42 7 11 2008 SHEET 10F4 LCM 3 AHU 2 AHU S S AND VFD SLECT FRZ CLG CENAB AV RGCM LO LMT_2 ects ES DF
91. ROL WIDE OPEN 403 3 10 0 54542 300 50 101 REPLACED CONTROLLER 403 4 10 0 54542 300 50 103 403 5 10 0 54542 300 50 104 403 6 10 0 54542 300 50 100 403 7 U2 4 11 10 0 54542 300 50 45 04 98 403 8 10 0 54542 300 50 92 403 9 10 0 54542 300 150 94 403 10 10 0 54542 300 150 109 403 11 10 0 54542 300 50 104 403 12 10 0 54542 300 50 TOTAL 3600 1800 571 1109 403 1 10 0 54542 350 75 362 141 403 2 10 0 54542 50 75 53 62 403 3 10 0 54542 50 75 46 59 403 4 10 0 54542 50 75 51 65 403 5 U2 4 12 10 0 54542 50 75 37 04 45 75 403 6 10 0 54542 50 75 41 59 403 7 10 0 54542 50 75 63 72 403 8 10 0 54542 350 175 331 129 TOTAL 1600 800 1230 662 403 1 6 48 2 50 75 61 75 403 2 6 48 2 50 75 43 62 403 3 6 48 2 50 75 39 62 403 4 U2 4 13 6 48 2 50 75 27 04 42 60 403 5 6 48 2 50 75 48 63 403 6 6 48 2 50 75 62 64 TOTAL 900 450 895 386 Retrocommissioning Team Division of Engineering Facilities and Services Page 2 of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 5th floor Mechanical Room TEST DATE READINGS BY JAMES HUGHES DESIGN
92. SHUT OFF SOFTENER THAT SERVES 26 Water Station 00377 SOFTENER SHUT OFF 365 1 2 HUMIDIFIERS Continues on following page Operating amp Maintenance Plan 3 TM Operating amp Maintenance Plan Tih PERFORM 5 YEAR FULL LOAD SAFETY TEST EE 00377 E1 5YR SAFETY TEST 5YR 00377 E1 ANNL SFTY TEST 00377 E2 PRESSURE TEST 00377 ROOF INSPECTION Refrigeration 00377 AC 1 MAINTENANCE Refrigeration 00377 CW COILS SUMMER STARTUP Refrigeration 00377 CWCOILS WINTER OPERATN Temperature 41 Control 00377 AIR COMP BA 1 AIR COMP YEARLY 030 Electric Utility Systems amp Controls 00377 CHW SENSOR TEST SENSOR Systems amp 55 Controls 00377 VFD VFD MAINTENANCE ANNUAL SAFETY TEST AS PER A17 1 AND ANNUAL CABLE INSPECTION EE ANNUAL HYD PRESSURE RELIEF TEST PER A17 1 CHANGE BATTERY IN CONTROLLER INSPECT ALL RUBBER ROOFS FOR DAMAGE REPORT FINDINGS TO STEVE MAST OR MAINTAIN LIEBERT ROOM IS IN A SECURED AREA CONTACT JEANA MCALLISTER PREPARE CHILL WATER COILS FOR AHU S FOR SUMMER OPERATION JS PREPARE CHILL WATER COILS FOR AHU S FOR WINTER OPERATION JS COMPRESSOR MAINTENANCE DDC CHECK amp CALIBRATE CHILLED WATER SUPPLY amp RETURN SENSORS SM VFD MAINTENANCE Operating amp Maintenance 4 TM Operating amp Maintenance Plan Recommended Preventive Maintenance Tasks Each time these are completed it should be noted at the front of the Systems Manu
93. SM OAT AND 62 DEF F AT THE DISCHARGE AIR TEMPERATURE puc eh SENSOR AT 70 DEG F OAT IPRS LOOP 2 3VLV CENAB AV AINP cCaAtsP SP HIFLG TR NOACT COENA OUTMX OUTMN ENCHG WHEN COOLING IS ENABLED THE VALVES WILL BE COMMANDED TO 10096 CLOSED 2 AV 65 0 LOFLG 100 0 IF THE PURG FRZ DI IS ENERGIZED AND THE OUTSIDE AIR TEMPERATURE IS LESS THAN 40 DEG F THE 2 3 VALVE WILL BE MODULATED TO MAINTAIN A 65 DEG SETPOINT AT THE DISCHARGE AIR TEMPERATURE SENSOR RAMP RGCM 40DEG HEATING COIL VALVES A THRU D OPERATION ccc coup perpe WHEN COOLING IS DISABLED OUTSIDE AIR TEMPERATURE IS S uel Phi OVTM LESS THAN 45 5 DEG F THE FOLLOWING WILL OCCUR che E ciere ER IF THE PURG FRZ DI IS ENERGIZED AND THE OUTSIDE AIR a Er TEMPERATURE IS LESS THAN 40 DEG F PREHEAT VALVES A THRU D WILL BE COMMANDED TO FULL OPEN ree LOOP HTG_A CENAB GN AINP cls IF THE PURG FRZ DI IS NOT ENERGIZED OR THE OUTSIDE AIR m tono TEMPERATURE IS ABOVE 40 DEG F PREHEAT VALVES A THRU D RAENA WILL MODULATE TO MAINTAIN 55 DEG F AT THEIR PREHEAT m DISCHARGE SENSOR LOCATIONS AO HTGVLV_B RASEL NO RAMP CENAB med IPR2 CAUSE AO HTGVLV D CENAB IPR5 IPR2 ia PRT SEECEHTGAV gt IPRS
94. T X1 ALARM CENAB AM 0 0 NA MIXED AIR DAMPER OPERATION LECT PRG MAD2 CENAB AV 100 0 THE OUTSIDE AIR DAMPER NORMALLY CLOSED THE RETURN AIR DAMPER NORMALLY OPEN AND THE RELIEF AIR DAMPER NORMALLY CLOSED ARE CONTROLLED BY THE SAME SIGNAL THE SIGNAL CORRESPONDS TO THE POSITION OF THE OUTSIDE AIR DAMPER OR OPEN FOR THE OUTSIDE AIR DAMPER SLECT MAD 2 AV CENAB LOGIC MINOA 2 DINP3 LOOP MAT 2 RAENA IF THE X1 ALARM SIGNAL IS LOST THE DAMPERS WILL BE COMMANDED TO 0 LOGIC MAD2 CENAB DV DINP1 ONDV DINP2 OFFDV DINP3 AND IF THE SMOKE PURGE DI IS ENERGIZED THE DAMPERS WILL BE COMMANDED RAMP MINOA2 TO 100 RMPOF AV RMPST LOGIC OCC UNO IF THERE IS NO SUPPLY FAN STATUS OR IF THE FREEZESTAT IS TRIPPED THE MIXED AIR DAMPERS WILL GO TO 0 COMMAND CENAB DV DINP1 ONDV DINP2 OFFDV DINP3 AND RMPFI RMPTI ENABL RLCM AHU2OCC DFTAV DV DIAGN DFTAV DV WHEN THE UNIT IS IN THE OCCUPIED MODE BASED ON THE WEEKLY SCHEDULE AND FAN STATUS IS PROVEN THE FOLLOWING WILL OCCUR 1 WHEN THE OUTSIDE AIR ENTHALPY IS GREATER THAN THE RETURN AIR ENTHL RA_2 LOGIC MINOA 2 SLECT MINOA 2 CENAB AM DBULB om Eu ENTHALPY THE MIXED AIR DAMPER WILL BE COMMANDED TO ITS MINIMUM CENAB DV PIN eI POSITION cmd AND 2
95. TDV DV INSEL DIAGN CHILLED WATER VALVE OPERATION SLECT CLG FULL THE CHILLED WATER VALVE IS NORMALLY CLOSED THE COMMAND IS OPEN FOR THE VALVE CENAB AV CENAB AV AINP1 AINP2 INSEL RGCM CLG FULL NA 100 OVTIM CAUSE DFTDV DV ses A TRIP OF THE FREEZESTAT WILL FORCE THE CHILLED WATER VALVE TO GO TO 100 OPEN UNTIL RESET TSTAT CLG PSOne spear 2 899 IF THE COOLING FULL COMMAND IS GIVEN THE CHILLED mr INDIE arts 00 ANM WATER VALVE GO TO 100 OPEN UNTIL LOFLG INSEL IF OUTSIDE AIR TEMPERATURE IS LESS THAN 55 0 DEG F COOLING VALVE WILL BE COMMANDED TO 0 OPEN WHEN THE OUTSIDE AIR TEMPERATURE IS ABOVE 55 0 DEG F AND FAN STATUS IS PROVEN THE FOLLOWING SEQUENCE WILL 2 LOOP DATEMP OCCUR ome AV AV WHEN THE RETURN AIR HUMIDITY IS ABOVE THE HIGH HUMIDITY SP SETPOINT 60 RH THE DISCHARGE AIR SETPOINT WILL BE SET DM TO 55 DEG F IF THE RETURN AIR HUMIDITY IS BELOW THE HIGH ome HUMIDITY SETPOINT THE DISCHARGE AIR SETPOINT WILL BE RAENA SET TO 62 0 DEG F APT DAT SP AV 55 0 DEG F AINP RASEL NO RAMP ENG UNITS DEG F 62 0 DEG F RGCM RAHUM_2 DFTDV DV DIAGN RGCM SF2_STS DFTDV DV DIAGN ACES LIBRARY LCM 4 AHU 2 CHILLED WATER VALVE AHU 2 LEC
96. TOO HI GH CAN T 118 GL 38 0 34907 129 65 133 97 ADJ UST NUTS DID STROKE 88 MAX REPLACED 117 GL 39 0 34907 184 92 162 CONTROLLER Retrocommissioning Team Division of Engineering Facilities and Services Page 3 of 3 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 2nd Floor VAV Boxes TEST DATE READINGS BY JAMES HUGHES AREA SERVED ROOM NUMBER NUMBER U2 2 41 rora TOTAL U2 2 42 ora TOTAL U2 2 43 DESI GN AI RFLOW CFM PRELI MI NARY FINAL AI RFLOW cfm Cooling Static Pressure 7 Clg Htg Min 142 39 x9 142 so 103 12 20 123 142 50 97 1340 668 1277 ses 75 5 j 75 2 5 j 75 os 75 s 75 450 350 139 125 145 26 04 133 159 842 150 zs us 150 228 32 150 220 m 150 227 150 150 zo 150 127 150 222 150 228 150 230 12 150 262 179 150 2 0 3600 2780 1430 STAT NEEDS CHECKED REHEAT RUNS A LOT sz lt t 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542 0 54542
97. UAN 1 PRESET PRESET 0014 RELAY RELAY 01 L ACTION TURN ON EXIT Steps 1 2 3 40 ay 5 Q 3 eJ Programming 3 25 Capture Preset Capture current output relay status and store as preset scene WHAT IS IT The QUANTA Elite supports the ability to save the current states of the relay outputs You can use this stored information to set the relay outputs to the same pre determined states anytime in the future You can capture up to 256 presets QUANTA PRESET CAPTURE TEST EXIT Capture Preset Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT 98 ILC EDIT then W 14 times DMX RECEIVER PANEL NAME EDIT PRESETS CAPTURE PRESET gt CAPTURE PRESET PRESET 001 CAPTURE TEST EXIT QUANTA py HOW DO GET THERE 1 From the Home screen press EDIT 2 Then press W 14 times to access the Capture Preset screen See Figure 3 18 Parameter Key PRESET the number you assign to a set of relay ON OFF states that you have commanded the controller to capture CAPTURE the command to save the current relay ON OFF states TEST the command to set the relays to the preset states Capture Preset Definition Screens Figure 3 18 Quanta Elite User Manual Version 1J 9 20 00 Programming QUAN gt 3 25 Capture Preset Capture current output relay states and save them as preset scene WH
98. UAN 1 executes the computer code and coordinates all controller func tions including the controller real time clock PROM Chip contains the controller oper ating system and basic tasks EEPROM Chips store the user entered operating parameters Super Cap keeps the controller real time clock functioning during power failures Switch Inputs can accept input from either 2 or 3 wire momentary or maintained dry contact devices Each input has two asso ciated LEDs The ON LED lights when a clo sure is sensed on the ON and COMMON terminals The OFF LED lights when a closure is sensed on the OFF and COMMON termi nals The inputs are noise and surge resis tant A switch may be located up to 1500 feet from the controller provided a mini mum of 18 gauge wire is used Relay Outputs Each output switches its associated lighting relay ON and OFF Each output has an associated LED light emitting diode The LED lights when the output switches the relay ON Override Switches Each relay output is equipped with an ON and an OFF override switch These switches allow you to turn the associated lighting relay ON or OFF 1 1 4 Additional 1 Board s Additional boards composed of 8 inputs and 8 out puts can be added to the appropriate size enclosure to expand the controller capacity up to 48 switch inputs and 48 switch relay outputs See Figure 1 3 which illustrates QUANT
99. V_B IPR2 LOGIC HTG SLECT HTG CENAB AV RGCM CLG_ENBL 100 0 AINP1 AO 2 3VLV NA AINP2 CENAB INSEL LOOP 2 3VLV AV CENAB SLECT PURGIFRZ 75 0 SP HIFLG LOFLG CENAB AV AINP1 AINP2 INSEL 100 0 DI PURGIFRZ DV RASEL NO RAMP RGCM 40DEG DFTDV DV DIAGN PREHEAT VALVES OPERATION THE PREHEAT VALVES ARE NORMALLY OPEN THE COMMAND IS CLOSED FOR THE VALVES WHEN COOLING IS ENABLED THE VALVES WILL BE COMMANDED SLECT PURGMO AO HTGVLV A TO 10096 CLOSED END CENAB AV IPR2 CAUSE WHEN COOLING IS DISABLED OUTSIDE AIR TEMPERATURE IS DIAGN 5 LESS THAN 45 5 DEG F THE FOLLOWING WILL OCCUR IPR6 IF THE PURG FRZ DI IS ENERGIZED AND THE OUTSIDE AIR LOOPHTG A TEMPERATURE IS LESS THAN 40 DEG F PREHEAT VALVES A AND no B WILL BE COMMANDED TO FULL OPEN AND THE 2 3 VALVE WILL Tm BE MODULATED TO MAINTAIN A 74 DEG SETPOINT AT THE RAENA DISCHARGE AIR TEMPERATURE SENSOR pom IF THE PURG FRZ DI IS NOT ENERGIZED OR THE OUTSIDE AIR RIGEN NENNT TEMPERATURE IS ABOVE 40 DEG F THE 2 3 VALVE WILL BE CLOSED AND PREHEAT VALVES A AND B WILL MODULATE TO MAINTAIN 53 DEG F AT THEIR PREHEAT DISCHARGE SENSOR LOCATIONS SLECT HTG AV AO HTGVLV_B AV IPR2 CAUSE SLECT PURGI40 AV DIAGN LOOP HTG_B CENAB AV AINP CALSP 53 0 SP HIFLG TR LOFLG NOACT
100. Version 1J 9 20 00 QUANTA LATITUDE 045 LONGITUDE 090 TIME ZONE CENTRAL EXIT R 06 37 16 47 4 gt LONGITUDE 090 4 TIME ZONE CENTRAL EXIT Programming 3 19 Daylight Savings Time Enable or disable automatic Daylight Savings Time adjustments WHAT IS IT The QUANTA Elite controller supports automatic adjustment of the system clock for Daylight Savings Time The default is for automatic adjustment between Standard and Daylight Savings on the currently established dates If the controller is installed in an area where Daylight Savings Time is not implemented you can disable this feature HOW DO I GET THERE 1 To disable Daylight Savings Time from the Home screen press EDIT 2 Then press W 8 times and then DAYLIGHT SAVINGS to access the Daylight Savings screen See Figure 3 13 AUTO ENABLE DISABLE EXIT DST ENABLED CURRENT STD Daylight Savings Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT Cc 98 ILC EDIT then W 8 times BLINK ALERTS SET TIME AND DATE SET ASTRO CLOCK DAYLIGHT SAVINGS T gt DAYLIGHT SAVINGS AUTO DST ENABLED ENABLE DISABLE EXIT CURRENT STD Daylight Savings Definition Screens Figure 3 13 Quanta Elite User Manual Version 1J 9 20 00 ay 5 Q B eJ Programming QUAN ite 3 19 Daylight Savings Time Enable or d
101. WHEN THE OUTSIDE AIR ENTHALPY IS LESS THAN THE RETURN AIR MODE ON OFF INDIF ENTHALPY THE MIXED AIR DAMPER WILL MODULATE TO MAINTAIN 55 DEG F AT THE MIXED AIR SENSOR A MODE ON OFF AO MAD 2 prc CONTROL E WHEN THE UNIT IS IN THE UNOCCUPIED MODE BASED ON THE WEEKLY DBULB CAUSE RA m zoo THE ABOVE WILL OCCUR EXCEPT THE MINIMUM POSITION IS SET LOFLG 0 AT NO TIME WILL THE MIXED AIR TEMPERATURE ALLOWED TO DROP BELOW 45 DEG F MODE ON OFF LOOP MAT 2 CONTROL CENAB AM AINP _ S HIFLG HILO MAD 2 59 0 DEGF CENAB AINP1 HICAU AINP2 LOVAL AINP3 AINP4 RASEL SOFT START RAMP LOOP MALL 2 CENAB AV AINP _ 45 0 DEG F SP HIFLG TR LOFLG ACES LIBRARY GCM AHU 2 RASEL NO RAMP MIXED AIR DAMPERS AHU 2 T LOOP X1 ALRM PREHEAT VALVES OPERATION 2 AV THE PREHEAT VALVES ARE NORMALLY OPEN THE COMMAND IS RGCM OATEMP 96 CLOSED FOR THE VALVES DFTAV AM DIAGN SLECT X1 ALARM CENAB AM AINP1 AINP2 INSEL RGCM X1 ALRM DFTDV DV 2 3 VALVE OPERATION RASEL NO RAMP WHEN THE X1 ALARM SIGNAL IS LOST THE 2 3 VALVE WILL pere oe a MODULATE TO MAINTAIN 72 DEG F AT THE DISCHARGE AIR AOHTGVLV TEMPERATURE SENSOR 0 DEG OUTSIDE TEMPERATURE AOHTGNEV E
102. a Relay Output 3 18 seca 3 19 Set Time and 3 21 3 22 9 18 SSLASIIO qi 3 23 249 Daylight Savings Sy 3 25 9 20 SENG 3 27 3 21 Telephone InterfgaCe 3 28 9 22 DMX T 3 29 3 23 FONE NAME 3 30 3 24 M 3 32 3 25 Capture PLS SET 3 34 2 20 Set Open Close TIMES 3 36 3 26 1 Example Set Open Close 3 37 3 26 2 Example Define the Timers 3 38 3 26 3 Example Lighting Relays to Timers 3 39 3 27 Firmware Revision 3 40 Quanta Elite User Manual Version 1J 9 20 00 Table of Contents QUANT ype Section 4 Appendix A Telephone Add On Module seem 1 WEG UI A 2 Telephone Control Features A 2 Telephone Control Setup A 2 A 4 Remote Modem Programming Control WIGAN OMIA Me un EH A 2 A 5 Remote Modem Control Setup A 2 B PC Addon Module u uuu lan snanta 1 T 1 B2 PC AJJ ON GSP 1 C Masten 1 C SPW e 1 C 2 SETUD
103. adaress address 5 shown Termination Detail connections to Serial LAN card with RS485 Data Cable 0000 Data line in from 0000 Data line in from 0000 Node 1 DO NOT mooom Node 3 DO NOT moomoo terminate center wire terminate center wire drain drain ooo m wr mj Data line out to Node 2 terminate center wire drain termir NODE 1 NODE 2 Data line ou t to Node 3 center wire drain NODE S Figure M 1 MODBUS Set Up Quanta Elite User Manual Version 1J 9 20 00 M 2 Appendix M MODBUS Communications 4 Transmission Mode Characteristics ASCII printable characters are easy to view when trouble shooting and this mode is suit ed to PLC masters and computer masters programmed in a high level language such as VISCOM BASIC In RTU mode data is sent in 8 bit binary characters ASCII mode data is divided into two 4 bit parts and then represented by the hexadecimal equivalent ASCII mode uses twice as many characters as RTU mode but decoding is easier In mode data must be transmitted in continuous stream In ASCII mode breaks of up to one second can occur between characters to allow for a relatively slow master M 5 Hardware Setup The Quanta Elite must be equipped with QS
104. aining the facility s systems to reduce energy consumption and provide a better work environment now It is intended to be useful in the day to day operations of this facility It also forms the essential basis of transferring important system knowledge from one party to the next The following information is encouraged to be included in this manual e General facility description with the locations of major equipment new and old A definition of current facility objectives functional uses special services including emergency response and desired level of control including any energy efficiency or load management priorities design intent e Operating standards or procedures for major use and critical space special needs areas including indoor environmental quality requirements and occupancy requirements and schedules Include a basic understanding of what NOT to touch and who is recommended to touch it e A description of each major HVAC system including designed capabilities limitations usage instructions location pictures as needed and acceptable performance for each major system identifying key performance metrics benchmarks and accountability follow up requirements Sequence of operation control for each major HVAC system including setpoints schedules energy efficiency features and seasonal changeover procedures As well as the web graphics site to monitor energy performance and scheduling e Identification of overal
105. al on the Site Event Log for recording purposes Task to be performed Frequency Time Requires a Allotment Shutdown Review plumbing fixtures amp equipment for water or Monthly 2 hours No waste leaks Fix or repair as soon as possible Review operation of return outdoor and exhaust air Annually 1 hour Yes dampers at each air handling unit for proper stroking AHU tight closing and full range operability Review the pneumatic actuators at each valve and Annually 1 5 hours No damper associated with each air handling unit AHU AHU for proper actuation Review and calibrate each sensor transmitter Annually 3 hours No pneumatic transducer and pilot positioner at each AHU respective air handling unit AHU Review and calibrate the static sensors on supply Annually 2 hours No fans and the building pressure sensor Review filters conditions Filters should be Semi Annually 2 hours Yes constructed of glass fibers NOT synthetic and have a minimum MERV rating of 13 These should be changed per manufacturer s recommendations Review the pressure drop across the water and Annually 16 hours Yes steam coils Inspect the cleanliness by spraying a portion with compressed air Visual inspection is NOT sufficient Clean coils with compressed air or by vacuuming if dirty Calibrate the chilled water metering system Annually 1 hour No Visually inspect the steam entrance v
106. alves and Annually 1 hour No condensate metering system Check for leaks and repair Calibrate the meter Review the heat exchangers for proper operation Annually 1 hour No Review the steam condensate traps throughout the Annually 4 hours No facility for leaks and steam loss Repair all faulty traps as soon as possible Review the insulation on the chilled water heating Annually 2 hours No water and steam piping If lacking or deteriorating replace Clean the tubes in the heat exchanger s bundles once Decadally 8 hours Yes every ten years minimum Review the efficiency of the plumbing fixtures in Decadally 1 hour No comparison with new products Consider replacing the fixtures with higher efficient fixtures if reasonable Operating amp Maintenance Plan 5 Operating amp Maintenance Plan Task to be performed Frequency Time Requires a Allotment Shutdown Review the air handling units and associated Decadally 2 hours No equipment Many problems Many calls High amount of maintenance Recommend replacing Submit request to Facilities and Services for a proper review and recommendation from engineering Test the fire alarm system Annually 1 hour No Review and test operation of each VAV controller 5 years 0 5 hour No VAV Inspect and replace as necessary Hawkeye current Annually 8 hours No sensors isoverters and relays
107. and allow the transfer of pertinent information to the next party The first line below is an example Date Site Event By Whom Company 1 25 2008 Calibrated Controls in Room 1056 John Smith TC Route Mechanic Site Event Log Operating amp Maintenance Plan Purpose of Operation and Maintenance Building O amp M is the ongoing process of sustaining the performance of building systems according to design intent the owner s or occupants changing needs and optimum efficiency levels The O amp M process helps sustain a building s overall profitability by addressing tenant comfort equipment reliability and efficient operation Efficient operation in the context of O amp M refers to activities such as scheduling equipment and optimizing energy and comfort control strategies so that equipment operates only to the degree needed to fulfill its intended function Maintenance activities involve physically inspecting and caring for equipment These O amp M tasks when performed systematically increase reliability reduce equipment degradation and sustain energy efficiency These are vital for energy savings to continue over the life of the building It is the intent of this document to be dynamic used to perform the building operation and preventative maintenance PM for functionality and sustainability If there is a suggestion plea
108. andling equipment had a difficult time maintaining building pressure thereby preventing the outside doors from closing completely Analysis of Data At each step along the way the findings were noted and discussed at the weekly progress meetings Decisions were made at many of these meetings and the actions were followed through with the varying parties Therefore the list below is generated in the form of tables showing the 1 finding 2 Proposed RCx Solution 3 The implicated cost estimate and payback expected if any 4 If the implementation took place or not and 5 Which party is was responsible for actions Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 5 of 14 Facilities amp Services August 5 2008 The implementation of solutions was dependent upon the costs and responsibility factors associated with such deficiencies many cases the RCx Team went ahead and resolved the findings listed with direction from Facilities and Services Engineering Director These im
109. anta Elite Controller Note that only BI binary input and BO binary output point types are used When writing to a BO point the normal state is always OFF The completed point map will serve as the control schedule used to determine how Quanta Elite relay out puts will be controlled N 4 Unsupported Attributes Se Table N 2 for a list of unsupported attributes o 5 2 x Appendix Commmunications QUAN ite QUANTA Elite N2 Network Example See Termination Detail Below QUANTA Elite N2 32 and AN Module N2 COMM Terminal on Serial LAN Card Detail Data Line 2 18 AWG Shield Pair A ad 2 Hef N2 EE to other network node from other network node s Serial LAN Module 100000000000000000 00000000000000000 Protocol jumper configuration 0 1 2 Switch Addressing m N2 Protocol o 20000 WARNING r 00 u O gt T ay OEE Es rS Frocessor must be turned OFF umma before protocol jumper changes the value of each ON switch to determine the adaress address 5 shown Termination Detail connections to Serial LAN card with RS485 Data Cable 0000 Data line in fro
110. anual Version 1J 9 20 00 QUANTA yy 7 Verify that the CPU is seeing the switch input by viewing the current switch status This can be done with the keypad by going to the Switch Status screen and scrolling to the individual input or scanning all of the inputs to verify that a switch clo sure is being seen by the controller step by step procedure is on page 3 6 Also the outputs of the CPU and boards can be tested through the keypad Relays can be forced individually or all swept ON or OFF using the keypad a step by step pro cedure can be followed on page 3 3 8 If the switch input or affected relay doesn t respond or no response is viewed through the keypad the affect ed CPU or I O may be defective 2 6 4 Timers Will Not Function Properly 1 Check your programming 2 Verify the affected output integrity by mapping a switch input to the output and triggering it with a test switch If the relay doesn t react you may have a defective I O board Consult factory 2 6 5 Entire Board s Doesn t Work 1 Check to ensure that the data and power cables linking the I O boards are connected properly and are free of opens and shorts 2 Check to ensure that the power LED on the I O board is lit 3 Verify that the CPU sees the expansion boards using the keypad This can done by going to the Relay Status screen and scrolling through the outputs to see if the CPU sees all of the outputs a step b
111. are and preventative maintenance Sometimes years or decades go by before a building is approached with the idea of restoring or even improving upon its efficiency Retrocommissioning puts the building back on the path to success giving the Owner pride to own that real estate After the Team leaves the building is once again under the jurisdiction of the Facility Operators It is you the reader who must continue on the legacy of maintaining the building system in its best condition possible operating at its peak efficiency or better To maintain the building at its peak efficiency it will require help from mechanics specifically trained route mechanics who know the building and its method of operation It will require following up on preventative maintenance tasks or creating new ones to take care of repetitive causes contributing to system inefficiencies This may require additional funds but much less than the inefficiencies will Control systems will need to be calibrated and checked Utility data should be trended kept monthly for seasonal comparisons to review and alert the operator to any deviations The operator will then need to understand what to do to maintain the energy savings and if not to be able to speak with someone who can assist The Engineering Division of Facilities and Services is available when the need arises The Facility Operator and assistants are in the positions to improve upon or optimize the work performed by t
112. ariable Air Volume Box 4 9 4 T o E iili NA FIRST FLOOR PLAN facilities amp SERVICES Retro Commissioning RCx Engineering Services BUILDING NO 377 o 2 i IE Za 2 lt 5 X 9 lt PRELIMINARY Date Revision Description Pneumatic Thermostat T T A Controls Air System L l Proj No Date 4427189 162 R Controls Radiant System iewed Drawn A R Controls Air amp Radiant System SECOND LEVEL MECHANICAL PLAN Variable Air Volume Box NORTH SECOND FLOOR PLAN 0 8 16 24 32 FEET 3 of 6 sheets ji I NORTH THIRD FLOOR PLAN 0 8 16 24 32 FEET Pneumatic Thermostat A Controls Air System R Controls Radiant System A R Controls Air amp Radiant System Variable Air Volume Box amp ities SERVICES facil Retro Commissioning RCx Engineering Services BUILDING NO 377 E 2 Z O 9 2 2 O lt 5 dm L 09 6 lt PRELIMINARY j j p 22 xm 7 Proj No Date 4427189 162 06 03 08 Drawn THIRD LEVEL MECHANICAL PLAN 4 of 6 sheets 1 Retro Commissioning RCx Engineering Services NI BUILDIN
113. aton Temp T Water Teme TT 003 Water Teme T7 Figure 1 Example of Trend Data Operating amp Maintenance Plan 2 TM Operating amp Maintenance Plan Preventive Maintenance Tasks These Maintenance Tasks are currently scheduled work orders which are sent to respective shops for completion Please note when these are completed on the Site Event Log at the beginning of this section Currently Scheduled Preventative Maintenance PM Tasks EST EST CREW EQUIPMENT TASK ID MEN HRS Electric Repair amp Maintenance 00377 HMDFR AHU1 CLEAN PROBE CLEAN PROBE Electric Repair amp Maintenance 00377 HMDFR AHU2 CLEAN PROBE 365 CLEAN PROBE CHECK COUPLING MOTOR MOUNTS Electric Repair amp OVERLOAD HEATERS Maintenance 00377 MOTORS OIL MOTORS PMPS 182 1 2 FUSE SIZE ELECTRICAL DIESEL OIL FILTER 51792 2 GAL OIL 17 5 13 Garage 31006 01 GENERATOR MAINT 182 2 FUEL 33674 23 00377 ACTIVATE ACTIVATE HUMIDIFIER SHUT OFF AND CLEAN 23 Pipefitter 00377 HMDFR AHU1 SHUT OFF 365 1 14 HUMIDIFIER Pipefitter 00377 HMDFR AHU2 ACTIVATE ACTIVATE HUMIDIFIER SHUT OFF AND CLEAN Electric High as vasse ow Mowracenanrenence Electric High INSPECT AND CLEAN Electric High INSPECT AND MAINTAIN ACTIVATE SOFTENER THAT SERVES HUMIDIFIERS AND 26 Water Station 00377 SOFTENER ACTIVATE 365 1 24 MAINTAIN FOR THE
114. ax Tezes no 9 u ee 9 x REED oa 9 ADJUST OR READ GRILLES 52 9 1 L s o 230 745 8 2 us s oe 20 us 222 a fosso 20 15 275 0 2 s bao z us 0 us 9 Je 20 us zs s f ao 2 s bao us s 20 us TL uz 2 forsa 207 uus L2 207 _ 2 So 46 46 NOT WORKI Retrocommissioning Team Division of Engineering Facilities and Services Page 3 of 3 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 1 LOCATION FIRST FLOOR TEST DATE READINGS BY JAMES AREA SERVED ROOM NUMBER NUMBER 114 1 Womens RR 114 2 Womens RR GL 17 109 1 109 2 109 3 109 4 GL 18 107 1 107 2 GL 19 107 3 105 1 105 2 GL 21 105 3 HUGHES DESI GN AIRFLOW OUTLET CFM 2 1 w SQFT Mult ese 349 L esae
115. cility Manager gentzir illinois edu 217 244 1924 Site Contact Information This section is dedicated to the ever evolving history of the building in general including remodels additions building uses etc It is here to introduce a stranger and a friend to the building under care The Isaac Funk Family Library Funk Library or Funk ACES Library for short is in an octagonal shaped brick building located southeast of the old ACES Library which was in Mumford Hall It occupies the 2 51 floor of the ACES Library Information Alumni Center LIAC ACES Agriculture Consumer and Environmental Sciences Library Info amp Alumni Center is a relatively new building opening in 2002 The overall size of the building is approximately 82 000 square feet The ACES College is responsible for the lower two levels of this building while the Funk Library occupies the upper three levels This Library was dedicated to Isaac and Cassandra Funk important early settlers of the McLean County Isaac Funk used to drive his livestock over land to markets in Galena and Chicago Illinois He bought and sold livestock and land and when he died in 1865 he was a millionaire as well as an Illinois State Senator The ACES Library houses some of the collections that include agricultural economics agricultural engineering animal genetics floriculture forestry and many others The newest computers were made available as well as
116. connected to a line as deter mined by the total RENs contact the local telephone company If your telephone equipment causes harm to the telephone network the telephone company will notify you in advance that temporary discontinuance of service may be required But if advance isn t practical you will be notified as soon as possible You will be advised of your right to file a complaint with the FCC if you believe it is necessary Your telephone company may make changes in your facilities equipment operations or procedures that could affect he operation of your equipment If they do you will be given advance notice so as to give you an opportunity to maintain uninterrupted service If you experience trouble with this telephone equipment please contact Intelligent Lighting Controls Inc Reliant Relay Co Technical Support Department at 1 800 922 8004 for repair and warranty information If your equipment is causing harm to the telephone network the telephone company may request that you disconnect the equipment until the problem is resolved This equipment may not be used on public coin service provided by the telephone company Connection to party lines is subject to state tariffs Contact your local state public utility commission or corporation commission for information Appendix A Telephone Add on Module NOTICE The Industry Canada label identifies certain equipment This certification means that the equipment meets certain
117. controller 2 5 1 Power Up the Controller Connect a handheld programming module if working with a QUANTA Elite that doesn t have an onboard keypad 2 Turn the power switch located on the CPU I O board ON See Figure 1 2 3 Verify that the controller keypad screen displays the default time and date 4 Verify that the power light on each I O board is lit See Figure 2 2 2 5 2 Verify the Lighting Relays Switch each relay ON and OFF pushing the override switches located on the CPU I O and the other I O boards There are sepa rate ON and OFF switches for each lighting relay See Figure 2 2 Verify that the relay status LED goes ON and OFF and that the relay itself changes state Verify that the relay controls the proper circuit 2 5 3 Perform Initial Programming Procedures See Section 3 1 Set the correct date amp time on the controller 2 Program the switch inputs amp timers 2 5 4 Verify the Switching Function Operate each switch 2 Verify that each switch controls the correct lighting relays in the manner you have programmed 2 5 5 Verify the Timer Functions 1 Set the controller clock 10 minutes prior to the times required for each programmed timer to occur 2 Verify that the relays respond as programmed 3 Reset the controller clock to the correct date and time 5 zs 5 Installation 2 6 Troubleshooting In the event of trouble use the following
118. curate Proposed Replace GCS Controller with GCM Controller to allow accurate readings of digital Solution control devices Handed Off Implemented Completed by Maintenance To Maintenance Yes No Completed by RCx To Engineering Will Be Completed by Facility Operations amp Maintenance Project 2 Finding Steam condensate meter was at location but not wired Proposed Wire the meter Solution Handed Off To Maintenance To Engineering Implemented Yes No Will Be Completed by Maintenance Completed by Completed by Facility Operations 6 Maintenance Project 3 Finding Steam condensate is found to be draining to the floor drain rather than pumped back to system as designed Proposed Valve off drain to sanitary and inspect condensate pump for proper operation Solution Handed Off To Maintenance To Engineering Implemented Yes No Will Be Completed by Maintenance DJ Completed by RCx Completed by Facility Operations amp Maintenance Project 4 Finding Service light is active on the department water softener which serves the building s humidifiers Proposed Investigate why and let Maintenance and Building Staff know of situation Solution Handed Off Implemented Completed by Maintenance To Maintenance Yes No Completed by RCx To E
119. d Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open SO 00 BS Go NO 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2O
120. d anywhere in the chain as long as you address it as controller 1 CAUTION AFTER INSTALLATION VERIFY THAT THE CABLING IS FREE OF SHORTS BETWEEN CONDUCTORS AND GROUND AND ALSO THAT THERE ARE NO OPENS SHORTS CAN DAMAGE THE NETWORK Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy C 4 Power Up Power up each of the slave controllers one at a time following the instructions in Section 2 DO NOT POWER UP THE MASTER YET Do not attempt to program the slave controllers you will do the pro gramming at the master controller after power up After all slave controllers are powered up power up the master controller A mes sage indicating that the master is scan ning the network will appear on the screen Then the transmit receive and drive LEDs on the master controller s Serial LAN Module will start blinking and the Horne screen will appear Verify that the transmit receive and drive LEDs are blinking on each of the slave controller networking caras Set the date and time at the master See Section 3 for details Setting the clock at the master will set the clocks of the slave controllers Program the switch timer and other functions Program the functions is as described in Section 3 except that you will have to select the controller address node as an additional parameter After programming the switch and timer functions verify them as described in Section 2 o 5
121. de appears 4 Press P gt BAUD RATE until the desired baud rate appeared 5 Press PARITY until the desired parity appears Press EXIT or let the controller time out to save the entries Figure M 2 Quanta Elite User Manual Version 1J 9 20 00 QUANTA MODBUS PROTOCOL REV 5 10 2 17 99 CONFIGURE EXIT MODBUS Top Level Screen QUANTA y PROTOCOL ASCII BAUD RATE 19200 PARITY ODD EXIT ADDRESS 002 MODBUS Top Configuration Screen QUANTA py UANTA Appendix M MODBUS Communications us lite Quanta Input ON OFF Closed Open 1 49 1 Input Closed Input Open 2 2 50 1 Input Closed 0 Input Open 3 3 51 1 Input Closed Oz Input Open 4 4 52 1 Input Closed Oz Input Open 5 5 53 2 Input Closed O Input Open 6 6 54 1 Input Closed Oz Input Open 7 7 55 1 Input Closed 0 Input Open 8 8 56 1 Input Closed Oz Input Open 9 9 57 2 Input Closed O Input Open 10 10 58 2 Input Closed Oz Input Open 11 11 59 1 Input Closed Input Open 12 12 60 Input Closed 0 Input Open 13 13 61 1 Input Closed Input Open 14 14 62 2 Input Closed Oz Input Open 15 15 63 2 Input Closed Oz Input Open 16 16 64 2 Input Closed Oz Input Open 17 17 65 1 Input Closed Inpu
122. e Momentary 2 wire momentary When momentary contact between ON and Common is made the controlled relay outputs will go to their programmed states Contact between ON and Common will turn relay outputs on for a programmed time At the end of this time the controlled relays will turn OFF Two Step Pattern Four Step Pattern 2 wire momentary 2 wire momentary Upon switch activation Group A relays turn ON and Group B turn OFF The following activation causes Group A to turn OFF and Group B to turn ON The pattern repeats with each switch activation On the first activation Group A relays turn ON and Group B turn OFF On the second activation Group A turns OFF and B turns ON The third activation causes both A and B to go ON On the fourth activation both A and B go OFF Then the pattern repeats Input Disable Timer Disable 2 wire maintained 2 wire maintained As long as the switch is closed other selected inputs are disabled As long as the switch is closed selected timers are disabled Network Disable Output Override 2 wire maintained 2 wired maintained As long as the switch is closed all network commands are disabled As long as the switch is closed selected relay output s will ignore all input timer or network commands Table 3 1 QUANTA Elite Switch Types Quanta Elite User Manual Version 1J 9 20 00 3 10 Programming QUAN gt 3 9 Input Relay Control
123. e Number REN assigned to each terminal device provides an indication of the maximum number of ter minals allowed to be connected to a telephone interface The termination on an interface may consist of any combination of devices subject only to the requirement that the sum of the Ringer Equivalence Numbers of all the devices does not exceed 5 A 1 Overview The telephone Add On Module is an option al board that is easily added to the QUANTA Elite controller This module supports either remote modem programming and control or dual tone multi frequency DTMF touch tone telephone control and monitoring The Quanta Elite User Manual Version 1J 9 20 00 module plugs into either of the expansion slots provided on the QUANTA Elite controller CPU board See Figure A 1 The telephone Add On Module can auto matically switch between remote modem and DTMF control gt o 5 2 x Appendix A Telephone Add on Module A 2 Telephone Control Features The Add On module supports the following touchtone telephone control features e Get the current status of the controller s relay outputs e Turn ON or OFF single relays or groups of relays e Get the current status of the controller s switch inputs e Activate preset scenes e Override timer events DTMF commands and control functions are supported by voice prompts that guide you through operational commands and give you instructions on how to use the system
124. e User Manual 1 1 Version 1J 9 20 00 Controller Description 1 1 Controller Architecture The major components making up the controller are See Figure 1 1 e enclosure e control transformer e CPU I O board e additional I O boards e programming module e lighting relays 1 1 1 Enclosure The enclosure is rated NEMA 1 It is divided into line voltage sec tion containing the line voltage side of the control transformer and lighting relays and low voltage section containing the Class 2 side of the lighting relays transformer sec ondary and electronic components Enclosures are available in 6 sizes to accom modate 8 16 24 32 40 and 48 inputs out puts and lighting relays See Table 1 1 The QUANTA Elite is shipped to the job site as a complete assembly See Figure 1 1 which illustrates QUANTA Elite 8 1 1 2 Transformer A 40 VA multi tap control transformer 120 or 277 24 VAC provides the 24 VAC input to power the controller electronics 1 1 3 CPU I O Board See Figure 1 2 The CPU board provides the controller s intelli gence and memory and the first eight 8 of the controller inputs and outputs Major components include e Power supply converts the 24 VAC input to the 5 5 and 12 required the controller logic and communications circuits A power switch provides the means of energizing de energizing all controller electronics Quanta Elite User Manual Version 1J 9 20 00 Q
125. e expected annual savings are approximated to approach 75 000 This also represents an energy savings of 896 over last year Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 13 of 14 Facilities amp Services August 5 2008 The Path to Success Maintenance of Savings A brand new vehicle that leaves the factory is perfect in every way it s been tested proven crashed and trashed When the proud new owner drives away there is an air of confidence that the pieces will work in harmony and deliver the satisfaction they expect However this satisfaction will only continue as long as the Owner is responsible and learns to maintain its parts Proud automobile ownership comes from a commitment to keep the auto in shape and tuned per the manufacturer s instructions Retrocommissioning has a very similar path A brand new building although having its quirks still possess new equipment new parts and new warranties However the following year the equipment in the building needs c
126. e power Report any discrepancies or visible damage at once Review submittal programming work sheets electrical prints and other project documentation Ensure that you have a digital multi meter 2 2 Mounting the Controller Consider the following when selecting a site for the QUANTA Elite 2 2 1 Location Typically the QUANTA Elite controller is mounted near the lighting panel containing the circuits to be con trolled by the lighting relays The enclosure is manufactured with pre drilled mounting holes located near the four corners of the rear wall of the enclosure Secure the enclo sure to the mounting surface with hardware appropriate for the application 2 2 2 Environmental Considerations The QUANTA Elite is designed to operate in temperatures between 0 and 50 degrees C 32 112 F and 1096 9096 humidity non condensing CAUTION THE QUANTA ELITE SERIES CONTROLLER IS HOUSED IN A NEMA 1 ENCLOSURE DO NOT INSTALL IN SITUATIONS REQUIRING SPECIAL PURPOSE ENCLOSURES OR IN AREAS WHERE THE CONTROLLER WILL BE SUBJECT TO CONDITIONS OUTSIDE ITS DESIGNED OPERATING RANGES Quanta Elite User Manual Version 1J 9 20 00 QUANTA py 2 2 3 Distance From Control Devices Switches and other control devices can be located up to 1500 feet from the QUANTA Elite controller using 18 gauge wire 2 3 Wiring the Controller Perform the following procedures to wire the line and control circuits of the QUANTA Elite Do
127. een DEFAULT PANEL NAME MY BUILDING SAVE PANEL NAME Panel Name Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT c 98 ILC EDIT then W 12 times SERIAL INTERFACE TELEPHONE PORT DMX RECEIVER PANEL gt PANEL NAME DEFAULT PANEL NAME MY BUILDING SAVE PANEL NAME Panel Name Definition Screens Figure 3 16 Quanta Elite User Manual 3 30 Version 1J 9 20 00 Programming 3 23 Panel Name View and edit panel name WHAT DO DO 1 Press lt then press B gt to move the cursor to the first position you want to place the first letter number or symbol of the panel name Then press or V until the alpha numeric appears Repeat this process until you have entered the panel name on the screen Press SAVE PANEL to load the name into the controller memory Note You can press DEFAULT PANEL NAME then j gt SAVE PANEL if you want to delete a customized panel name and re instate the default name QUANTA Elite Quanta Elite User Manual Version 1J 9 20 00 Steps 1 2 8 QUANTAZ DEFAULT PANEL NAME A MY BUILDING SAVE PANEL NAME 5 Q 3 eJ Programming 3 24 Edit Presets Edit or create preset scenes for activation WHAT IS IT You can change any of the captured presets using this feature You can change any or all
128. evel Single Date screen appears press p gt MONTH and then press or W until the desired month appears 6 Press DATE and then press A or W until the desired day of the month appears 7 Press EDIT to access the Single Date Open Close screen 8 Press OPEN and then press A or W to enter the desired store opening time 9 Press CLOSE and then press or V to enter the desired closing time 10 Press EXIT to view the Special Date Open and Close Times 11 Let the controller time out and save the entries Quanta Elite User Manual Version 1J 9 20 00 QUANTA QUANTA MONTH lt 12 31 a DATE 12 00 AM EDIT CL 12 00 PM EXIT Steps 5 and 6 QUAN D CLEAR 12 31 lt 10 00 AM CLOSE 05 00 PM EXIT Steps 8 and 9 QUANTA yg MONTH lt 12 31 A DATE 10 00 CLOSE 05 00 EXIT Step 10 4 4 4 E 6 Appendix E Master Scheduler E 5 2 Define the Timers 1 From the Home screen press EDIT then press W 3 times 2 Press TIMERS to access the top level Timer Definition screen 3 Press until the Timer you wish to program to the store opening times appears in this example TIMER 02 4 Press TIME then press A OPEN CLOSE 5 Press OPEN then W until OPN 15 MN appears This sets the timer to turn lights ON 15 minutes before the opening time 6 Press gt EXIT to retur
129. for store open SET CLOSE the time you assign for store close Set Open Close Time Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT Cc 98 ILC EDIT then W 15 times OPEN CLOSE TIMES SET OPEN 12 00 SET CLOSE 12 00 EXIT Y Set Open Close Time Definition Screens Figure 3 19 Quanta Elite User Manual Version 1J 9 20 00 Programming EXAMPLE PART 1 Program the controller to turn on lights 15 minutes before the store opens and turn them off 15 minutes after the store closes In this example the store hours are 9 AM to 9 PM 3 26 1 Set Open Close Times Set facility Open and Close activation times 1 From the Home screen press EDIT then W 15 times 2 Press SET OPEN CLOSE TIMES 3 Press SET OPEN then press HOUR 4 Press or W until 09 appears Be sure that AM also appears on the screen 5 Press MINUTE then A or W until 00 appears Now you have set the Open Time to 09 00 AM 6 Press EXIT to return to the top level screen 7 Press SET CLOSE and set the Close Time at 9 00 PM 8 Press EXIT to return to the menu screens Quanta Elite User Manual Version 1J 9 20 00 QUANTA py 9 00 4 HOUR lt L MINUTE EXIT i Steps 3 5 QUAN 1 OPEN CLOSE TIMES SET OPEN 09 00 AM SET CLOSE 09 00 PM EXIT After Step 7 4 4 ay 5 Q 3 eJ Programming
130. g The steam condensate line leaving this building appears to have a leak per Joe Roberts of Steam Distribution Metering data may be biased Proposed Repair leak to allow accurate reliable metered data Solution E 5 000 Payback NA Implemented m Handed Off 54 To Maintenance Completed by RCx Completed by Maintenance To Engineering Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 7 of 14 Facilities amp Services August 5 2008 Energy Savings Project Proposal 7 Finding Both air handling units were running at 10096 fan speed with few patrons in the building 33 of 47 Floor VAV s were not modulating 3 Floor VAVs have similar problem Proposed Search and find mission to see and fix air leak in pneumatic line Solution EL Minimal Payback IMMED Implemented s NO L Handed Off To Maintenance To Engineering 4 Completed by RCx Completed by Maintenance Energy Savings Project Proposal 8 Finding Supply Fan static pressures are set constant during occupied and unoccupied hours Proposed Reduce supply fan static pressures during unoccupied hours while maintaining Solution building setback conditions Cost Yes No Estimate FREE Payback IMMED Implemented L Will Be L Handed Off To Maintenance To Engineering Completed b
131. gt INPUT RELAY CONTROL 3 INPUT is displayed then press until the controlling input you want appears 4 Press RELAY then press A until the relay to be controlled appears 5 Press ACTION then press A until the desired relay response appears 6 Press gt EXIT then press twice and EXIT again to return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUANT QUANTA ELITE WED 10 14 98 07 50 54 PM 98 ILC EDIT 4 QUANTA RELAY STATUS A RELAY OUTPUT SWITCH STATUS INPUT RELAY CONTROL 4 lt INPUT 01 RELAY RELAY 04 ACTION ON AND OFF gt EXIT MNT ON OFF 4 Steps 3 4 5 3 12 Programming 3 11 Timers Configure timers for automatic time sched uled activation WHAT IS IT Timers are time based events that impact selected relay outputs The QUANTA Elite con troller supports up to 48 different timers Each timer can control any or all of the relay out puts You can program the timer to turn relay s ON or OFF or not impact the relay s at all You can set the controller to execute a timer on one or more days of the week or a QUANTA py particular holiday The controller supports the definition of up to 48 Holidays You can pro gram the timer to occur at an actual time of day for example 10 30 PM or you can define the occurrence in Astro time Astro time is time defined in relati
132. he Retrocommissioning Team There are many other opportunities for savings That event was a turning point The operators should consider implementing steps outlined in the publication LEED for Existing Buildings which is available online at www usgbc org Since there are many other buildings on campus to attend to it may well be the only visit during this decade Therefore operator assistants and route mechanics take your stewardship seriously Treat the building and its systems as a brand new automobile Commitment will lead the building and its caretakers on the Path to Success Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 14 of 14 Facilities amp Services August 5 2008 OPERATI ONS amp MAI NTENANCE PLAN 05 This section is dedicated to the men and women operating and maintaining the facility as well as the folks at F amp S who assist in the building s systems functioning smoothly and efficiently This section shall contain all items required to operate and maintain the building less the occupancy schedules which are in the Owner s realm of activity ACES Library Info amp Alumni Center Site Event Log This page is intended to be used to record site events such as water testing maintenance visits re calibration of the controls and all such events that affect the building s systems overall performance Accurate records produce energy and economic savings
133. he maximum number of slave devices is 247 per network Each device node is assigned a unique address to distinguish it from all the other nodes Only the Master initiates a transaction Transactions are either a query response only single slave is addressed or a broadcast no response all slaves are addressed A transaction comprises a sin gle query and single response frame or single broadcast frame Certain characteristics of the MODBUS pro tocol are fixed frame format frame sequences communications error handling exception conditions and the functions performed Other characteristics are selectable transmission media baud rate character parity number of stop bits communications error handling exception conditions and functions performed Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy M 3 Transmission Modes The transmission mode is the structure of the individual units of information within a mes sage and the numbering system used to transmit the data Two transmission modes are available Both provide the same com munication capabilities The mode slected depends on the equipment used as the MODBUS master Only one transmission mode may be selected per network Mixing modes on a single network is not allowed The two available tranbsmission modes are ASCII American Standard Code For Information Interchange and RTU Remote Terminal Unit M 3 1 ASCII Coding System ASCII 7 Bit
134. he steam entrance line There is discussion of replacing the meter and relocating it to the supply side on top of AHU 1 and be of the ABB type PERIMETER RADIATION CONVERTOR amp PUMPS P 1 P 2 Convertor controls are direct digital with pneumatic actuation There are two pumps for this convertor that are run via VFD s of the ABB type The pumps are controlled by the DDC system DDC will start stop get a status DI and send an AO for speed reference control run times and do redundancy control The pumps speed will vary according to the differential pressure in the system There is a pressure transmitter on the fifth floor that is looking at the differential pressure DDC is also controlling the steam valve on the convertor and maintaining temperature set point The set point for this system is 10 PSID There have been problems with low system volume and make up water valve closure requiring the pump to run 10096 when not necessary This needs to be avoided and any problem carefully reviewed to correctly fix the system REHEAT COIL CONVERTOR amp PUMPS P 3 P 4 Convertor controls are direct digital with pneumatic actuation There are two pumps for this convertor that are run via VFD s of the ABB type The pumps are controlled by the DDC system DDC will start stop get a status DI and send an AO for speed reference control run times and do redundancy control The pumps speed will vary according to the differential pressure in the system There is
135. internet hookups at every table and desk The new building s large study rooms are very popular with students seeking a place to meet with groups and study partners The instructional lab on the fifth floor provides a valuable service to the campus Also temperature and humidity are under fine tuned control and the collection will last much longer in the new facility The following is a current timeline of the building and its systems 1924 ACES Library moved to Mumford Hall o 1995 ACES Library acquires the Home Economics Collection forcing it to divide its materials in two different buildings Mumford Hall and Bevier Hall o 2001 Current building and systems originally designed and constructed o Aug 2001 Occupied by the Library o June 2008 building was visited by the Retrocommissioning Team Division of Engineering with Facilities and Services of the University of Illinois Information cited above is credited to http www library uiuc edu agx virtual tour about index htm and other internet sites at the University of Illinois website featuring ACES Library 1 Building Narrative 1 PLUMBING SYSTEMS No investigation has been made of the plumbing systems as of the time of this narrative HVAC SYSTEMS The building is connected to the central campus chilled water loop and has a functioning chilled water meter presently in the basement mechanical room even though this needs to be replaced with more
136. ioning process began by collecting and evaluating data pertaining to facility equipment and current operation The primary tasks for this project are outlined below Documentation Review The first step of the investigative process consisted of obtaining as much building documentation as possible to allow the Team to become familiar with the building and its Systems Blueprints control shop drawings and energy data were gathered and reviewed by the RCx Team Site Assessment The next step was to conduct the site assessment First on the agenda was interviewing the directors and assistants of the operations and maintenance staff at ACES Questions were asked to ascertain the facility s operating condition where specific known challenges were what maintenance has been performed and so forth The retrocommissioning process was also explained and the rewards for assisting were discussed Many weeks were spent in the building investigating each HVAC piece of equipment and its role in using energy Each of its components was reviewed including ductwork coils control sequences control valves pneumatic hardware and temperature and pressure sensors Occupancy schedules were noted space pressures were trended and tenants were interviewed Discussions took place with the route mechanics to gain a more in depth understanding of the building HVAC equipment conditions over the last couple of years Amongst the panoply it was noted that the air h
137. isable automatic Daylight Savings Time adjustments WHAT DO DO 1 Press DISABLE to disable Daylight Savings Time implementation or if Daylight Savings is currently dis abled and you want to enable it press ENABLE Note that the screen displays whether controller is Daylight Savings or Standard Time current QUANTA yg AUTO DST ENABLED ENABLE DISABLE EXIT CURRENT STD Steps 1 amp 2 2 Press EXIT to save the data and leave the screen Quanta Elite User Manual 3 26 Version 1J 9 20 00 Programming 3 20 Serial Interface View and edit Serial Interface properties See Appendices for specific programming and operating instructions WHAT IS IT This feature displays the current communica tions firmware and the controller s node address In certain non LC protocols it also allows you to edit certain communications parameters QUANTA HOW DO I GET THERE 1 From the Home screen press EDIT then press W 9 times See Figure 3 14 2 Press SERIAL INTERFACE EXIT SERIAL INTERFACE MASTER SLAVE REV 5 08 01 28 99 ADDRESS 001 Serial Interface Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EXIT C 98 ILC EDIT then W 9 times SERIAL INTERFACE MASTER SLAVE REV 5 08 01 28 99 EXIT ADDRESS 001 Serial Interface Definition Screens Figure 3 14 Quanta Elite User Manual Version 1J 9 20 00 5 Q B
138. isala Type The system also uses enthalpy control for modulation of the mixed air dampers and the economizer cycle Page 5 of 9Monday August 04 2008 Page 6 of 9Monday August 04 2008 EXHAUST AIR FANS EAF 1 amp EAF 2 These fans are controlled by the building DDC They serve the bathroom exhaust Both of the current sensors are set up to indicate belt loss The DI point is coming directly from the current sensor to the DI point on the GCS controller Gold contact relays are not installed at this time If they were installed it would be a more reliable indication of fan status A DO point issues a start stop command to both fans These fans now run based upon an occupancy schedule 06 02 2008 A lt Page 7 of 9Monday August 04 2008 STEAM CONDENSATE METER amp PUMPS A new meter has been installed within the last year The condensate pumps are started and stopped by DDC The data is also sent via the DDC system for billing CHILLED WATER METER Before the central campus chilled water loop this building was fed from the Library Loop with building pumps These pumps still exist and are wired to run even though not necessary The bypass valve has been opened and the pumps shut off The meter itself is an Anubar type flow meter It is not the type that are typically used on the chilled water entrances and it is located on the chilled water return pipe and is hiding behind a large steam pressure regulator valve on t
139. ition Screen Step 2 QUANTA yy TIMER 02 4 OPEN OPN 15 MN CLOSE Time Setting Screen Step 3 TIMER 02 4 TIME OPN 15 MN DAYS SMTWTFS EXIT Top Level Timer Definition Screen Step 6 40 4 gt 40 Programming EXAMPLE PART 3 Program the controller to turn on lights 15 minutes before the store opens and turn them off 15 minutes after the store closes In this example the store hours are 9 AM to 9 PM Open Close times were defined in the example in 3 26 1 The Timers were defined in 3 26 2 The next step is to map relays controlling the desired lighting circuits to those timers 3 26 3 Map the Lighting Relays to the Timers 1 From the Home screen press B gt EDIT then W 4 times 2 Press TIMER RELAY CONTROL to access the top level Control Definition screen 3 Press gt TIMER until TIMER 02 appears 4 If necessary press and HOLD RELAY then until node controller containing relays controlling level 3 circuits appear Then press OK to return to the top level Control Definition screen 5 Press RELAY then until the first relay to be controlled appears Press B gt ACTION then until TURN ON appears 7 Repeat steps 5 and 6 as required until you have defined all the relays turned on by TIMER O2 8 Press J gt TIMER then until TIMER 03 appears 9 Repeat steps 5 to 7 except that you select TURN
140. l energy performance trends for each system if known and recommended techniques to aid in verifying performance or troubleshooting problems e An itemized list of all equipment to be maintained including known maintenance requirements procedures best practices e Alist of any necessary training requirements or issues e Alist of pertinent contact references A log of events including dates and relevant issues and contact information audits or surveys maintenance energy lighting purchases replacement of equipment or new installations building modifications maintenance or testing staff or contract changes and problems identified and corrected A questionnaire that guides new supervisors in acquiring relevant information from the departing supervisor A reference to important as built drawings and their location s A copy of a recent HVAC load calculation and TAB reports The current annual utilities usage report Relevant information from any commissioning report and updates if completed the problem log and correction plan pertinent checks and tests a list of improvements made and sensor calibration data e Reference to location of Equipment Manuals Shop Drawings and O amp M Manuals Foreword ACES Library Info amp Alumni Center Site Contact nformation Maintenance Division F amp S Service Office 217 333 0340 Ralf Moller Director of Operations rmoller illinois edu 217 333 0242 Darren Gentzler Fa
141. lation of the mixed air dampers and the economizer cycle Page 2 of 9Monday August 04 2008 SERVES LOWER LEVEL GROUND FLOOR CFM 27 564 RPM 1 250 06 02 2008 RF 1 SERVES LOWER LEVEL GROUND FLOOR 06 02 2008 Page 3 of 9Monday August 04 2008 Humidifier Page 4 of 9Monday August 04 2008 AIR HANDLING UNIT AHU 2 w RF 2 This air handling unit has an external relief return fan It is a custom built Buffalo air handling unit with the following in order outdoor return air intake plenum air blender 3096 pleated pre filters 9596 bag filters split steam heating coils humidifier dispersion tubes offset chilled water cooling coils double inlet centrifugal supply fan Fan controls are direct digital with pneumatic actuation The Retrocommissioning Team calibrated all the DDC transducers DDC transmitters and the pneumatic pilot positioners for the damper and valve actuators There were repairs made to the return and relief damper linkages for AHU 1 to obtain better control of these dampers These two fans run via VFD s that are of the ABB 600 type The fans are totally controlled by the BAS which is all of the Barber Coleman Network 8000 type The DDC controllers are composed of LCM s and GCS s There really isn t any room for expansion on theses controllers The supply fan is controlling building static and the return fan is controlling building pressure The return and humidity sensors are the Va
142. loyees The desired relative humidity is 5096 with a tolerance level of 1096 The use of outdoor air is encouraged for adequate ventilation and free cooling as long as the relative humidity levels are not compromised UTILITY COST ENERGY SAVING GOALS The primary energy saving goals for this site are to limit energy use where possible taking full advantage of economizer function by maximizing the use of outdoor air for cooling and to limit air conditioning and lighting functions during unoccupied hours except where needed DOCUMENTATI ON AND TRAINING NEEDS The building operations director assistants building mechanics and any route mechanics who will adjust troubleshoot or work on the air handling units or their associated parts MUST be trained in accessing the DDC control system information They MUST be able to understand setpoints schedules and diagnosing minor system upsets using trend reports This system manual must be provided to staff for the successful daily operations and maintenance of the facility to preserve the facility in its best condition PERFORMANCE ACCEPTANCE CRITERIA The primary criterion used to define acceptable performance for this facility is the requirement to limit occupant complaints while maintaining reasonable utility bills The systems should rarely be forced out of service Occupied space should be kept inside the 68F 75F zone year round and hot and cold calls minimize To provide this perfor
143. ltiple open and closed times Quanta Elite User Manual Version 1J 9 20 00 QUANTA py E 2 Overview This section covers the following topics Master Scheduler description function Programming Operations gt o 5 2 x Appendix E Master Scheduler QUAN gt Master Scheduler Serial LAN Add On Module Control Transformer powered by a Programming dedicated Keypad Screen 120 or 277 VAC circuit LAN Master Serial LAN Add On Module Figure E 1 Master Scheduler Quanta Elite User Manual E 2 Version 1J 9 20 00 Appendix E Master Scheduler E 3 Description The Master Scheduler is a special controller containing processor whose purpose is to support the entry of multiple OPEN CLOSE times The standard controller firmware sup ports the entry of only one set of OPEN CLOSE times The Master Scheduler is usually housed in an enclosure that also contains the LAN Master Controller See Figure E 1 Quanta Elite User Manual Version 1J 9 20 00 E A Installation You install the Master Scheduler like any other controller See Section 1 and Appendix C A dedicated 120 or 277 VAC circuit must be run to power the controller electronics The node adaress must be set as node 0 E 3 o 5 2 x Appendix E Master Scheduler E 5 How to Program OPEN CLOSE Time Schedules The store open and close times define when the lights
144. m ne in from 0000 Node 1 DO NOT VADE Node 3 DO NOT asss terminate center wire terminate center wire arain drain ooo m wr mj Data line out to Node 2 Data line out to Node 3 terminate center wire drain terminate center wire drain NODE 1 NODE 2 NODE S Figure N 1 N2 Set Up Quanta Elite User Manual N 2 Version 1J 9 20 00 Appendix Commmunications QUAN gt NETWORK NETWORK POINT TYPE POINT ADDRESS UNITS POINT DESCRIPTION RANGE VALUE NOTES 1 SWITCH INPUT 1 OFF 0 1 CLOSED 2 SWITCH INPUT 1 ON O OPEN 1 CLOSED 3 SWITCH INPUT 2 OFF 0 1 CLOSED 4 SWITCH INPUT 2 ON 1 CLOSED 5 SWITCH INPUT 3 OFF 1 CLOSED 6 SWITCH INPUT 3 ON 1 CLOSED 7 SWITCH INPUT 4 OFF 0 1 CLOSED 8 SWITCH INPUT 4 ON O OPEN 1 CLOSED 9 SWITCH INPUT 5 OFF 1 CLOSED 10 SWITCH INPUT 5 ON 0 1 CLOSED 11 SWITCH INPUT 6 OFF 0 1 CLOSED 12 SWITCH INPUT 6 ON O OPEN 1 CLOSED 13 SWITCH INPUT 7 OFF 0 1 CLOSED 14 SWITCH INPUT 7 ON 1 CLOSED 15 SWITCH INPUT 8 OFF 0 1
145. mance the HVAC control system must function properly and be viewable through graphical information The operators must be able to adjust setpoint temperatures humidity levels and building pressure Building Narrative 4 This section is dedicated to floor plans identifying locations throughout the building This can be useful for noting equipment control panel locations elevator numbering fire extinguishers or other such essential items that require knowledge of the layout of the building RAMP DOWN RAMP DOWN A RAMP DOWN RAMP DOWN RAMP DOWN ORTH N BASEMENT PLAN 0 8 16 24 32 FEET Pneumatic Thermostat A Controls Air System R Controls Radiant System A R Controls Air amp Radiant System Variable Air Volume Box Retro Commissioning RCx Engineering Services BUILDING NO 377 84 lt 7 2 Oo 2 Za Z lt 5 Y 9 lt PRELIMINARY pz poe L Proj No Date Reviewed Drawn LOWER LEVEL MECHANICAL PLAN M 100 1 of 6 sheets 44 SJ AS INWNTY ONY SOY 29 SoHE 2 of 6 sheets M 101 Date Drawn JTM FIRST LEVEL 4427189 162 MECHANICAL PRELIMINARY Date Revision Description A Controls Air System R Controls Radiant System A R Controls Air amp Radiant System KA V
146. mediate adjustments helped facilitate the energy savings that are observed currently Some solutions are quick paybacks others of longer duration and yet others that are based on qualified engineering principles and experience Energy Saving Projects Proposed Energy Savings Project Proposal 1 Finding There are two existing toilet exhaust fans 14 000 which appear to run 24 7 Proposed DDC should be added to take control of the exhaust fans to turn them off during Solution unoccupied hours and thereby save energy ES 2 000 Payback lt 1 Implemented MT E NO Handed Off To Maintenance Completed by RCx Completed by Maintenance To Engineering Additional Notes Energy Savings Project Proposal 2 Finding Minimum settings on the VAV boxes is greater than required Proposed Reduce the minimums at each box to allow slower supply fan and return fan speeds Solution E NA Payback IMMED Implemented s E NO Handed Off To Maintenance Completed by RCx Completed by Maintenance To Engineering Additional Notes Energy Savings Project Proposal 3 Finding Fan belts currently use multiple thin belts Proposed Could install the Gates motor sprockets and polychain belt to increase energy Solution savings and reduce the amount of annual maintenance to the fan E 1 500 Payback 8 m
147. missioning Team has reduced the energy consumption 1396 at ACES This is an estimated annual savings of 75 000 Such results are rewarding and will continue to accrue monetarily each month This report shows the results of these persistent efforts Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 3 of 14 Facilities amp Services August 5 2008 Purpose The University of Illinois has educated thousands of students over a period of a century Many of the existing buildings on campus were designed and constructed during an era of abundance when energy was abundant and economical Buildings were designed around a certain space intent which over the years has dramatically changed with new departments and space shifting Operations and maintenance funding has not grown in proportion with the expansion of the real estate of the university Maintenance folks have been stretched thin assigned to care for 10 to 15 or more buildings at one time Therefore existing heating ventilating and air conditioning equipment and associated equipment has been neglected These factors have compounded to reduce the efficiencies and operation strategies of the hundreds of pieces of equipment throughout campus requiring increased expenditures on energy utility costs and decreased tenant comfort The future is showing an ever increasing utility market and therefore the essential need for improvi
148. n external relief return fan It is a custom built Buffalo air handling unit with the following in order outdoor return air intake plenum air blender 3096 pleated pre filters 9596 bag filters split steam heating coils humidifier dispersion tubes offset chilled water cooling coils double inlet centrifugal supply fan Fan controls are direct digital with pneumatic actuation The Retrocommissioning Team calibrated all the DDC transducers DDC transmitters and the pneumatic pilot positioners for the damper and valve actuators There were repairs made to the return and relief damper linkages for AHU 1 to obtain better control of these dampers These fans were supposed to be controlled by using the CFM flow monitors that are installed in the supply duct and the return duct However the supply CFM monitor is installed to close to the discharge of the supply fan and is unreliable So now the supply fan is maintaining a static pressure in the duct via a control loop in the LCM Controller that is putting a 0 10096 output to the VFD The return fan is running 1096 behind the supply fan at all times via a math block in the LCM that is taking the supply fan loop 0 10096 and subtracting 1096 from that value and putting the new value in an AO block going to the return fan VFD So if the supply fan is running 7096 the return fan would be running at 6096 This fan is supposed to maintain a static pressure of 1 in w c The system also uses enthalpy control for modu
149. n to the top level Timer screen 7 Press until the timer you wish to key to the store close time appears in this example TIMER 03 8 Press TIME then press OPEN CLOSE 9 Press Close then W until CLS 15 MN appears This sets the timer to turn lights OFF 15 minutes after the closing time 10 Let the controller time out and save the entries Quanta Elite User Manual Version 1J 9 20 00 QUANTA py yg TIMER 02 4 TIME 12 00 AM DAYS SMTWTFS EXIT Top Level Timer Definition Screen Step 2 QUAN 1 02 15 CLOSE Time Setting Screen QUANTA yy TIMER 02 4 TIME OPN 15 MN DAYS SMTWTFS Level Timer Definition Screen after Step 6 40 40 4 7 gt o 5 2 gt x lt Appendix E Master Scheduler E 5 3 Map the Lighting Relays to the Timers 1 From the Home screen press EDIT then press W 4 times Press TIMER RELAY CONTROL to access the top level Control Definition screen Press TIMER until 02 appears If necessary press and HOLD RELAY then press A until the node controller containing the relays to be controlled appears Then press O K to return to the top level Control Definition screen Press RELAY then A until the first relay to be controlled appears Press ACTION then A until TURN
150. ng the way energy is used For this very reason the Retrocommissioning Project was funded to assist the University to lower energy consumption educate building tenants and give direction in using energy in a sustainable way Methodology What is retrocommissioning It is a process whereby a team of engineers and technical individuals approach an existing building with the goal of saving energy and improving tenant comfort The process requires a review of the operations and maintenance currently conducted in the facility During field investigations the team meets weekly and brainstorms on methods to improve the building s performance and efficiency The basic process requires five fundamental procedures Investigation and data collection Analysis of data Implementation of solutions Larger Projects Delegated Verification of savings These steps all occur concurrently However the report below shows in detail how the investigation and data collection takes place The remaining procedures are placed in a table together to logically show the process at each point in time The last part will discuss the verification of savings that resulted from the decisions made by the Retrocommissioning Team Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 4 of 14 Facilities amp Services August 5 2008 I nvestigation and Data Collection The retrocommiss
151. ngineering L Will Be 1 Completed by Facility Retrocommissioning Team Division of Engineering Facilities amp Services ACES Library Info amp Alumni Center Retrocommissioning Final Report 10 of 14 August 5 2008 Operations amp Maintenance Project 5 Finding Steam valves were found to be leaking Proposed Repair leaking valves Solution Handed Off Implemented Completed by Maintenance 54 To Maintenance Yes No Completed by RCx To Engineering L Will Be 1 Completed by Facility Operations 6 Maintenance Project 6 Finding Chilled water valve was leaking through on AHU 2 Proposed Fix leaking valve Solution Handed Off Implemented Completed by Maintenance 54 To Maintenance Yes No Completed by RCx To Engineering L Will Be 1 Completed by Facility Operations amp Maintenance Project 7 Finding Water chemistry samples have not been taken recently Proposed Ask Ken Madsen to gather data and adjust chemical properties of water for pipe Solution safety Handed Off Implemented Completed by Maintenance 54 To Maintenance Yes No Completed by RCx To Engineering L Will Be 1 Completed by Facility Operations amp Maintenance Project 8 Finding Reheat system has been found low on water and re circulating pump running at 10096 The automatic fill was disabled
152. o I mplemented Wm No Handed Off 54 To Maintenance Completed by RCx 54 Completed by Maintenance To Engineering Additional Notes Retrocommissioning Team ACES Library Info amp Alumni Center Division of Engineering Retrocommissioning Final Report 6 of 14 Facilities amp Services August 5 2008 Energy Savings Project Proposal 4 Finding Building outside air humidity sensor did not give accurate readings The mixed air damper control is based on enthalpy control referencing the humidity sensor reading Proposed Investigate and replace the 3 humidity sensors with more accurate models per Solution Campus Standards Check programming on enthalpy control for optimization E Pu 1 500 Payback lyr Implemented ND O Handed Off To Maintenance Completed by RCx Completed by Maintenance To Engineering Additional Notes Energy Savings Project Proposal 5 Finding Reheat heating water was being circulated at 180 deg F in the summer mode of operation Pump with VFD was running 10096 Proposed Check the reset schedule if there is one or add one to reduce required temperature Solution and pump volume Minimum Payback IMMED Implemented s NS Handed Off To Maintenance Completed by RCx Completed by Maintenance To Engineering Energy Savings Project Proposal 6 Findin
153. o access the Astro Clock screen See Figure 3 12 LATITUDE 045 LONGITUDE 090 TIME ZONE CENTRAL EXIT R 06 37 S 16 47 Parameter Key Latitude latitude north south position of controller site Longitude longitude east west position of controller site Time Zone controller site time zone Note Default values are for Minneapolis MN Astro Clock Screen QUANTA ELITE WED 10 14 98 07 50 54 PM CC 98 ILC EDIT then W 7 times TIMER RELAY CONTROL BLINK ALERTS SET TIME AND DATE SET ASTRO CLOCK gt SET ASTRO CLOCK LATITUDE LATITUDE 045 LONGITUDE 090 P LONGITUDE TIME ZONE CENTRAL EXIT R 06 37 S 16 47 TIME ZONE Astro Clock Definition Screens LATITUDE LONGITUDE EXIT TIME ZONE CENTRAL EXIT Figure 3 12 Quanta Elite User Manual Version 1J 9 20 00 5 Q 3 3 gt Programming QUANTA py 3 18 Set Astro Clock Configure Astro Clock for automated sunrise and sunset activation WHAT DO DO 1 Press p gt LATITUDE then press or W until the proper latitude appears 2 Press B gt LONGITUDE then press W until the proper longitude appears 3 Press TIME ZONE then press A or W until the proper time zone appears Note that the current sunrise and sunset times for the entered coordinates are also dis played on the screen 4 Then press EXIT to save the entries Quanta Elite User Manual
154. of 4 VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 2 LOCATION 5th floor Mechanical Room TEST DATE READINGS BY JAMES HUGHES DESIGN AI RFLOW AREA SERVED OUTLET CFM PRELI MI NARY FINAL AI RFLOW cfm BOX Cooling Heating Static Pressure Cooling Clg Htg AHU ROOM NUMBER NUMBER DIA H w SQFT Mult Max Max Max Min Max Heating Max Min SP REMARKS 410 1 10 0 54542 350 175 321 128 410 2 6 48 2 50 75 45 72 410 3 6 48 2 50 75 58 51 410 4 6 48 2 50 75 50 56 410 5 6 48 2 50 75 44 63 410 6 6 48 2 50 75 57 60 410 7 U2 4 20 6 48 2 50 75 29 04 52 66 410 8 10 0 54542 350 175 303 134 410 9 6 48 2 50 75 56 60 410 10 6 48 2 50 75 49 51 410 11 6 48 2 50 75 142 60 410 12 6 48 2 150 75 151 57 TOTAL 2200 1100 2128 858 410 1 10 0 54542 315 158 308 120 410 2 10 0 54542 315 158 315 125 410 3 10 0 54542 315 158 325 124 410 4 U2 4 21 10 0 54542 315 158 27 03 330 126 410 5 10 0 54542 315 158 347 127 410 6 10 0 54542 375 187 357 137 TOTAL 1950 977 1982 759 409 U2 4 22 12 0 7854 430 215 41 04 405 147 408 1 8 0 34907 225 112 224 78 408 2 U2 4 23 8 0 34907 225 112 64 05 217 74 TOTAL 450 224 441 152 406
155. on to sunrise or sunset See 3 26 if you are using the OPEN CLOSE feature HOW DO GET THERE 1 From the Home screen press EDIT then press W 3 times 2 Press TIMERS from the menu to access the top level Timer Definition screen QUANTA yg lt TIMER 01 TIME 7 15 AM DAYS SMTWTFS Parameter Key TIMER a time based event that impacts one or more relays TIME when the TIMER occurs expressed in either NORMAL or ASTRO TIME NORMAL TIME is defined in HOUR s and MINUTE s AM or PM ASTRO TIME is defined Top Level Timer Definition Screen in relation to SUNRISE or SUNSET DAYS DAILY the day s of the week of TIMER occurrence or HOLIDAY the holiday date of occurrence Figure 3 7 Quanta Elite User Manual Version 1J 9 20 00 3 13 5 Q 3 Programming 3 11 Timers QUAN 1 Configure timers for automatic time scheduled activation QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 3 times SWITCH STATUS SWITCH INPUT INPUT RELAY CONTROL TIMERS gt TIMERS ASTRO DAYS EXIT TIMER 01 TIME SMTWTFS L V EXIT DAILY HOLIDAY EXIT NORMAL TIMER 01 OPEN CLOSE gt NORMAL TIMER 01 gt DAILY HOLIDAY TIMER 01 MONTH lt CHOLIDAY DATE 01 01 EXIT Figure 3 7 b ASTRO TIME WHAT MORE MUST I KNOW Astro time is the time relative to sunrise and sunset Defining
156. ond cu Meridie ord M 2 M 3 Transmission MOdES l Transmission Mode Characteristics M S Hardware SSMU M 6 Required Parameter Enfries Iu 8 Additional Informdfion n nn N LES CCP Hardware Sell N 3 Point MAD Quanta Elite User Manual Version 1J 9 20 00 QUANTA yg www OOOO0O00 1 1 1 1 1 rn rn rn mm 9999 KR QUANTAZ The FCC requires that the following statement be included in this manual FCC Registration 6 USA 35522 DM N Ringer Equivalence 0 4B Connecting to the telephone company This equipment complies with Part 68 of the FCC rules On the back plate near the RJ 11 jack of this equipment is a label that contains among other information the FCC registration number and ringer equivalence REN for this equipment If request ed provide this information to your telephone company The REN is useful to determine the quantity of devices that may be connected to the telephone line Excessive RENs on the telephone line may result in devices not ringing in response to an incoming call In most but not all areas the sum of RENs of all devices should not exceed five 5 To be certain of the number of devices that may be
157. procedures to identify the problem 2 6 1 Controller Will Not Power Up 1 Verify that there is 120 277 VAC on the primary and 24 VAC on the secondary of the control transformer 2 Verify that the power LED on the CPU I O board is lit 3 If there is proper primary and secondary voltage on the transformer but the power LED is not lit and the keypad screen doesn t come up the controller CPU I O board may be defective 2 6 2 Lighting Relay s Will Not Function 1 Verify that there is 24 VAC on Control Transformer secondary 2 Make sure that lighting control wiring is landed properly on the relay output of the CPU I O or other I O boards Blue is common red is ON black is OFF orange is status See Figure 1 1 3 Override the affected relay ON OFF with the override switches located on the I O board See Figure 1 2 4 If the relay doesn t respond replace the relay 2 6 3 Switch Input Will Not Function 1 Check your programming 2 Verify proper connections at field and controller end 3 Verify that there is only one maintained switch connected per input 4 Unhook field connections from affected input Connect test switch of same type as field switch 5 Work the test switch Observe whether the switch input status LED lights when it senses switch closure 6 If the switch input status LED lights and the relays function properly there is prob ably a problem with the field wiring Quanta Elite User M
158. propriate for some types of lighting such as HID As an alternative to a blink alert you can program one of the relay outputs to energize an ALARM external to the controller The alarm sounds when a relay defined for an HID DELAY is about to be turned OFF by a timer You can program how each relay output responds to the application or re application of AC power to the controller The default set ting is NO ACTION relay will not change state on controller power up The other choic es are for the relay to TURN ON or TURN OFF on controller power up There are two additional choices available You can program the relay output to turn ON if switch input number 1 is ON ON IN 1 or turn OFF OFF IN 1 if switch input 1 is ON at time of power up HOW DO I GET THERE 1 From the Home screen press EDIT 2 Press RELAY OUTPUT from the Menu screen See Figure 3 3 QUANTA RELAY lt RELAY 01 TIMERS NO BLINK POWERUP NO ACTION EXIT QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC gt EDIT EXIT RELAY STATUS RELAY OUTPUT SWITCH STATUS RELAY OUTPUT Relay Output Definition Screen lt RELAY 01 TIMERS BLINK A POWERUP NO ACTION gt EXIT Relay Output Definition Screen Parameter Key TIMER relay output to be defined 1 48 TIMERS how the relay will respond to an impending timer Default is NO BLINK Other possible entries BLI
159. r Manual Version 1J 9 20 00 3 19 5 Q B eJ Programming 3 15 Blink Alerts Configure Blink Alert duration and override times WHAT DO DO 1 Press ALERT until the desired lead time appears 2 Press gt OVERRIDE until the desired override duration appears 3 Press EXIT to leave the Blink Alert Settings screen Quanta Elite User Manual Version 1J 9 20 00 Steps 1 amp 2 QUANTAZ QUAN Due BLINK ALERT SETTINGS ALERT 05 MINUTES OVERRIDE 1 HOUR EXIT Programming QUAN gt 3 16 Set Time and Date HOW DO GET THERE I e From the Home screen press EDIT then Set system clock date and time press W 6 times Then press SET TIME AND DATE from the WATIS menu of screen choices See Figure 3 11 This is how you set the QUANTA Elite con troller s clock to the proper time and date This operation is necessary to implement the time based control features of the controller QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT C 98 ILC EDIT then W 6 times TIMERS TIMER RELAY CONTROL BLINK ALERTS SET TIME AND DATE TIME 08 26 45 PM HOUR 08 35 PM THU 10 29 98 MINUTE THU 10 29 98 ay 5 Q B gt MONTH lt 10 29 98 THURSDAY Time and Date Definition Screens Figure 3 11 Quanta Elite User Manual 3 21 Version 1J 9 20 00 Programming 3 17 Set the Controller Clock WHAT DO I DO 2 1 From the Home screen pres
160. relay outputs you can convert the output from a maintained output to a pulsed output required for control of mechanically latching contactors and other devices that operate on a momentary rather than maintained application of power Consult factory for details 1 4 Programming with a PC If you want to program the controller with personal computer equipped with QUANTA Pro software see Appendix B 1 5 Expansion Communications Options With the addition of enhanced software and interface hardware you can develop LAN local area network composed of up to 256 nodes each node controlling up to 48 I O points Consult Appendix C in this manual if your application requires expan sion networking If you want to program the controller over phone lines a remote personal comput er equipped with QUANTA Pro software see Appendix A Quanta Elite User Manual Version 1J 9 20 00 1 6 DMX Option You can equip the QUANTA Elite with a DMX interface to control the non dimmed loads that are part of a theatrical lighting control system Consult factory if this option is applicable to your situation 1 7 Enhanced Open Close Time Control If your control requirements call for time based control keyed to multiple sets of Open Close times see Appendix E Master Scheduler 1 8 N2 Communications You can configure the QUANTA Elite as a node on a Building Automation System BAS N2 Communications Network See
161. s EDIT then press W 6 times 2 Press SET TIME AND DATE 3 Press TIME 4 Press B gt HOUR then press W until the proper hour is displayed Be sure that AM PM setting is correct 5 Press MINUTE then press or W until the correct minute is displayed 6 Press SAVE 7 Press DATE 8 MONTH is displayed then press or V until the month you want is displayed 9 Press gt DATE then press or W until the correct day of the month is displayed 10 Press B YEAR then press or W until the correct year is displayed 11 Press SAVE 12 Press DAY then press or W until the correct day of the week is displayed 13 Press SAVE 14 Press EXIT then press 6 times and then EXIT to return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUANTA QUANTA nour lt 07 08 PM t SAVE v Step4 QUANT 40 nouns 10 18 98 SAVE v Steps 8 11 QUANTA lt wEDNESDAY A Step 12 3 22 Programming 3 18 Set Astro Clock Configure Astro Clock for automated sunrise and sunset activation WHAT IS IT You must enter the latitude longitude and time zone coordinates of the controller site if you want the controller to execute timers in Astro Time QUANTA HOW DO I GET THERE 1 From the Horne screen press EDIT then press W 7 times 2 Press B gt SET ASTRO CLOCK t
162. sa qat 1 3 6 1 3 1 2 Controller Capacity ch D Sansapa ya sis 1 3 TOVO OPHION 1 8 1 3 1 Telephone 1 8 1 3 2 Pulsed Relay Output Operqltion ne rpm 1 8 14 Programming With A ccm 1 8 1 5 Exoonsion Communicotions ODIIOIS trea Bea rab 1 8 1 6 DMX d oo c tates 1 8 1 7 Enhanced Open Close Time Control 1 8 1 6 N2 TD rm 1 8 Section 2 Installation 20 SECTION 2 1 2 1 Pre Instollotion Checks Pm 2 2 2 2 Mounting the Controller 2 2 2 2 2 2 2 2 2 Environmental Considerations e ripae maa 2 2 2 2 3 Distance From Control Devices 2 2 29 WIG TNS 2 2 2 3 1 Wire the Control Trqnsformer rires 2 2 2 3 2 Connect Line 2 2 2 9 9 Wire SIE IOUS uu uu u onini abb s Rp eve b a ds 2 2 2 3 4 Set Relay RESPONSE 2 2 WSN Checks oat addas 2 5 2 4 1 Check Controller Power 2 5 242 Verify Controllers Supply Volloge 2 5 2 4 3 Double Check Connections 2 5 2 5 Power Up and Check 2 5 2 5 PowerUp the Controler saisis pa ra brad REP ninaqa yapaykuq 2 5 2 5 2 Verify the Lighting 2 5 2 5
163. se revise this form and submit the improvement to the Operations and Maintenance Staff at Facilities and Services That information could be included on future editions of this document and in other facilities on campus ACES Library Info amp Alumni Center is a building dedicated to the preservation of invaluable collections of mixed media and rare book collections This facility requires optimum temperature and humidity control over the varying facility activities With these ultimate objectives in mind the necessity is laid upon the operations and maintenance staff to follow through in all required responsibilities throughout the facility This may well require additional part time or full time assistance from a third party or by in house means and an investment in the required tools or computers The primary energy savings goals for this site are to limit energy use where possible taking full advantage of economizer function by maximizing the use of outdoor air for cooling and to limit air conditioning during unoccupied hours except where needed An O amp M service plan for each piece of equipment should eventually be included in this evolving document stating the tasks to be performed the frequency and the expected time to perform them Prerequisites The air handling units at this facility are employing DDC controls with pneumatic actuation Therefore it is imperative that the call made to F amp S requests the proper mechanics otherwise
164. sed expansion slot on the con troller CPU board See Figure 2 2 Connect a phone cord to the module RJ11 jack and connect the other end to the telephone outlet The telephone line must be an analog line and have its own phone number The line must be direct and not switched through a PBX or any type of extension system 3 Using QUANTA Pro dial the controller phone number 4 When your PC and the controller link per form the desired QUANTA Pro operations A 2 Appendix A Telephone Add on Module QUAN gt QUANTA Elite Controller Touchtone Telephone Unused Expansion Slot Telephone System HJ11 Phone Jack 8711 Phone Jack Telephone Add On Module Figure 1 DTMF Phone Control o 5 2 x Quanta Elite User Manual A 3 Version 1J 9 20 00 Appendix A Telephone Add on Module QUAN gt QUANTA Elite Controller Personal Computer equipped with modem and QUANTA Pro software Unused Expansion Slot System I 11 Phone Jack RJ11 Phone Jack Telephone Add On Module Figure A 2 Remote Modem Control Quanta Elite User Manual A 4 Version 1J 9 20 00 Appendix B PC Add on Module 1 Overview The PC Add On Module allows you to program the QUANTA Elite controller using personal computer PC equipped with QUANTA Pro software Consult the QUANTA Pro User Manual for installation and operat ing instructions
165. shes it to be included in the manual It is here to assist the engineer route mechanic or facility personnel to see the big picture of all related systems and parts
166. shing Product No 7859 6214 7858 5215 Bore 0 875in 3 25in 1 1875 in 3 9375 in Noise 79 dB 1343 Hz Pitch Diameter 7 90 in 14 04 in Energy Savings 32968 34417 KWh yr for a savings of 2 307 75 2 409 18 yr TENSION New Belt Used Belt Static Tension Per rib strand 620 to 676 Ib 451 to 507 Ib Rib Strand Deflection Distance 0 7 in 0 7 in When planning to re install used belts measure Rib Strand Deflection Force 48 to 52 Ib 38 to 41 Ib and record the tension before removing and Sonic Tension Meter 2758 to 3009 N 2006 to 2257 N re install at the recorded tension Belt Frequency 43 to 45 Hz 37 to 39 Hz 505C 507C Model STM Settings Weight 7 9 g m Width 37 mm R Span 1125 mm NOTES The DriveR pulley bushing requires a shallow keyseat The DriveN pulley bushing weight exceeds 50 Ib Exercise care during installation This report 1 only applies to Gates products 2 contains confidential information 3 may only be disclosed to support the sale or maintenance of our products and 4 is not a guarantee of performance Buyer has sole responsibility for the selection and testing of products for any intended use which may not include flight related aircraft applications 6 11 2008 1 45 PM Page 1 of 1 1 32 1 30 1 29 PA 65 North America VAV AIR OUTLETS PROJECT Agricultural Consumer and Environmental Sciences ACES AHU SYSTEM AHU 1 LOCATION Basement Mechanical Room TEST DATE READINGS BY J
167. t Open 18 18 66 2 Input Closed Oz Input Open 19 19 67 1 Input Closed 0 Input Open 20 20 68 2 Input Closed Oz Input Open 21 21 69 1 Input Closed Input Open 22 22 70 1 Input Closed 0 Input Open 23 23 71 1 Input Closed 0 Input Open 24 24 72 2 Input Closed Oz Input Open 25 25 73 1 Input Closed Input Open 26 26 74 2 Input Closed Oz Input Open 27 27 75 1 Input Closed 0 Input Open 28 28 76 2 Input Closed Oz Input Open 29 29 77 1 Input Closed Input Open 30 30 78 1 Input Closed 0 Input Open 31 31 79 1 Input Closed 0 Input Open 32 32 80 1 Input Closed Input Open 33 33 81 1 Input Closed Input Open 34 34 82 1 Input Closed Input Open 35 35 83 1 Input Closed Input Open 36 36 84 2 Input Closed Oz Input Open 37 37 85 1 Input Closed Input Open 38 38 86 1 Input Closed 0 Input Open 39 39 87 1 Input Closed 0 Input Open 40 40 88 2 Input Closed Oz Input Open 41 41 89 1 Input Closed Input Open 42 42 90 2 Input Closed Oz Input Open 43 43 9 2 Input Closed Oz Input Open 44 44 92 1 Input Closed 0 Input Open 45 45 93 1 Input Closed O Input Open 46 46 94 1 Input Closed 0 Input Open S 47 47 95 1 Input Closed 0 Input Open 2 48 48 96 1 Input Closed Input Open Table 1 Quanta Elite Data Field Input Point Designators Quanta Elite User Manual M 5 Version 1J 9 20 00 Appendix M MODBUS Communications QUANTA py Quanta Output Close
168. te technician to investigate The lighting controls manuals are included in this document under Electrical OTHER SYSTEMS No other systems were noted or investigated at the time of this writing Building Narrative 2 Building Narrative SITE PLOT PLAN Edward Madigan Lab Jonathan Baldwin Turner Turner Hall Greenhouses Figure 1 Site Plot Plan OCCUPANCY REQUI REMENTS amp SCHEDULING This building is used by students on a regular basis and by others on campus for the meeting spaces in the Lower Level and the 5 Floor There are hours of operation for the facility and the HVAC controls have been programmed to run according to those schedules Any changes desired should be referred to Facilities and Services DDC Programmers EMERGENCY RESPONSE This facility is not an emergency command center and is not currently used as a staging area In case of an emergency refer to http www dps uiuc edu erg pdf to locate telephone numbers and methods to safely encounter many emergency situations 1 Building Narrative 3 INDOOR ENVIRONMENTAL QUALITY REQUIREMENTS This facility requires optimum humidity and temperature control in each of the spaces where collections are stored The desired occupied temperature should be kept between 68 deg F and 74deg F depending on the season A setpoint of 72 deg F is preferred to meet the thermal comfort for the majority of the visitors and emp
169. then press NORMAL to select conventional AM PM time 5 HOUR is displayed then press A or V until the desired hour AM or PM appears 6 Press MINUTE then press or W until the desired minute appears then press EXIT 7 Press DAYS then press DAILY 8 Press or W and as each day appears press either p gt YES or NO to select whether or not the Timer is to be active on that day 9 Press gt EXIT twice then press 3 times and EXIT once more to return to the Home screen Quanta Elite User Manual Version 1J 9 20 00 QUAN 1 QUAN D TIMER 01 4 EXIT TIMER 01 HOUR 10 31 AM MINUTE EXIT Steps5 amp 6 TIMER 01 DAILY SUNDAY ACTIVE YES y TIME 10 31 AM DAYS SMTWTFS 40 3 16 Programming QUAN ite 3 13 Timer Relay Control HOW DO GET THERE 1 From the Home screen press EDIT then Program timers to control relay outputs press W 4 times 2 Press TIMER RELAY CONTROL AMAT See Figure 3 9 This is the feature used to determine how relay output s respond to the timers you have defined Each timer can control any where from one to all 48 relay outputs Each controlled relay can be turned ON or turned OFF or can be set to not respond at all The default response is NO ACTION Parameter Key QUANTA Plite TIMER one of up to 48 time TIMER INPUT 01 based events impacting a relay RELAY REL
170. tion Screens QUAN Section 4 Appendix QUANTA QUANTA ELITE WED 02 28 01 07 50 54 PM C 01 ILC o 5 2 x Quanta Elite User Manual Version 1J 9 20 00 Appendix Table of Contents Section 4 Appendix A Telephone Add On Module seen WES Ui T A 2 Telephone Control Features Telephone Control Setup A 4 Remote Modem Programming Control A 5 Remote Modem Control Setup B PC Acdcd m veris etx PC HORNO DRY bad tts T B 2 neat C Master Slave Netlworking rete C OVvervieW RN C 2 SETUD I OD a a rta beret Cri besseres dad dtque abd D DMX Control D TL VEG W BXRgs e TT D 3 Programming Exomple tnter tint E Master Scheduler acer Ke a Ras ER x RE rid E RSIS CNV SS E 2 CVE MEW EA ASTANO ON E 5 Programming OPEN CLOSE Schedules M MODBUS coorta bl
171. utput Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open 1 Output Closed O Output Open 2Output Closed O Output Open 2Output Closed O Output Open Output Closed OzOutput Open Table M 1 1 Quanta Elite Data Field Output Point Designators Quanta Elite User Manual Version 1J 9 20 00 Appendix N 2 Commmunications N 1 Overview The Quanta Elite Controller s can be inte grated into a Building Automation System BAS that uses the N2 communications pro tocol The host system can then pole the status of the Quanta Elite Controller inputs and outputs and issue ON OFF commands to the Elite s relay outputs If the N2 network is not running all local control features supported by the individual controller nodes will continue to operate N 2 Hardware Setup The Quanta Elite must be equipped with serial LAN module that is jumpered for N2 communications and addressed with unique node adaress See Figure N 1 The network cable is a two wire shielded twisted pair Consult the BAS system documentation for the exact specifications Terminate the cable as shown in Figure N 1 Quanta Elite User Manual Version 1J 9 20 00 QUANTA yy N 3 Point Map Fill out the point map for the Qu
172. without understanding the systems can regress to operating inefficiently When the route mechanic or other is called he she must possess these two prerequisites to work on the DDC systems e MUST have access to a laptop or personal computer which is connected to the DDC System in the building e MUST have experience in working with DDC software and have password access to the logic Operating amp Maintenance Plan 1 Operations Tasks Operations of this building are dependent upon sequences of operation found in the tab Control Diagrams and Sequences of Operation These sequences were developed or reviewed and improved by the Retrocommissioning Team during their visit to the building in June 2008 Any questions as to the operations can be directed to the DDC Controls Group or Retrocommissioning for assistance Unique to DDC systems is the ability to trend data This operation allows the computer to take snap shots of the system or sensor at specified time intervals down to each minute This data can then later be observed in excel format or by graphical display This trending is very valuable to review system performance and to reveal non optimal conditions Reviewing this data will assist the building operators in providing a more responsive zone and increased energy savings Trending can always be added to a system upon request to the DDC Controls Group at Facilities and Services Mixing Station Temperature Trend Water R
173. y step procedure is on page 3 3 4 If the I O board is not recognized by the CPU you may have a defective board or data cable QUAN 1 Section 3 Programming QUANTA QUANTA ELITE WED 02 28 01 07 50 54 PM C 01 ILC ay 5 Q 3 3 eJ Quanta Elite User Manual Version 1J 9 20 00 Programming Table of Contents QUAN gt Section 3 Programming 3 0 SECTION Overview 3 1 gT Relay STATUS t T 3 2 3 2 Controlling Relays From the Keypad 3 3 Relay OUTPUT T TT 3 4 3 4 Relay Porometsers eer rrt ri toS 3 5 3 6 3 6 VIEW Current Switch ii ice crebra a ce aac 3 7 SER 3 8 3 8 Programiming a Switch 3 9 CONTO 3 11 3 10 Switch a Relay Oulpul 3 12 CRM T 3 13 3 12 Define TIME 3 16 a 3 17 3 14 Mop the Timer to a Relay 3 18 SM osi de E 3 19 3 16 Set Time Dot e cT 3 21 3 17 Set the Controller Clock l deer evtl 3 22 3 18 SET Astro a RE 3 23 3 19 Daylight Savings Time o o 3 25 e rm 3 27 3 2 Telephone SS eerta bu ae d 3 28 3 22 DMX
174. y RCx Completed by Maintenance Energy Savings Project Proposal 9 Finding Existing finned tube radiation pump was operational at 10096 during summer months Proposed Shut down building when outside temperature is above 50 deg F Solution Cost Yes No Estimate 3 500 Payback lyr I mplemented Will Be Handed Off 54 To Maintenance To Engineering Completed by RCx Completed by Maintenance Energy Savings Project Proposal 10 Finding Building has a domestic water booster pump in operation Proposed Sufficient water pressure in lines from the City Pump and system can be shutdown Solution and backflow preventer can be removed Cost L4 Yes No Estimate 500 Payback lt 1 Implemented Will Be Handed Off To Maintenance To Engineering Completed by RCx Completed by Maintenance Retrocommissioning Team Division of Engineering Facilities amp Services ACES Library Info amp Alumni Center Retrocommissioning Final Report 8 of 14 August 5 2008 Energy Savings Project Proposal 11 Finding Chilled water pump was found to be operational in the building even though it is fed off of the Campus Central Chilled Water Loop Proposed Shut down pump and open bypass valve Solution Cost T Yes 2 Estimate Minimal Payback IMMED Implemented Will Be
175. y preprogrammed at you can save entries simply by stopping ine factory In many cases the default may be keystrokes or by entering the proper keyword appropriate for your application making field usually j gt EXIT or p gt SAVE programming unnecessary For example momentary ON OFF is the default switch type therefore if 3 wire momentary switches are used exclusively at your facility switch input definition will not be necessary QUAN QUANTA ELITE WED 02 28 01 07 50 54 PM C 01 ILC as 5 Q 3 3 eJ Figure 3 1 QUANTA Elite Home Screen Quanta Elite User Manual 3 1 Version 1J 9 20 00 Programming 3 1 Relay Status View current relay status or turn relay s ON or OFF directly from the keypad WHAT IS IT This feature permits you to view the current ON OFF state of the relay outputs In addition you can turn selected relay ON or OFF or you can turn all the relays ON or OFF QUAN 1 HOW DO GET THERE 1 From the Home screen press EDIT 2 Then press RELAY STATUS to access the top level Relay Status screen See Figure 3 2 QUAN 57 Parameter Key ON turn the selected relay ON OFF turn the selected relay OFF SWEEP turn ALL RELAYS ON or ALL RELAYS OFF Top Level Relay Status Screen QUANTA ELITE WED 10 14 98 07 50 54 PM EDIT 98 ILC gt EDIT EXIT RELAY STATUS SWITCH STATUS RELAY STATUS ON RELAY 01 A OFF IS
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