supplemental installation instructions...have a fire extinguisher available. read these instructions...
TRANSCRIPT
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EnergyXR SystemFactory Installed Energy Recovery48/50HC WeatherMasterr Commercial Rooftop Units15 to 25 Nominal Tonswith Puronr (R---410A) Refrigerantand ComfortLINK Controls
Supplemental Installation Instructions
This document is a supplemental installation instruction for the EnergyX factoryinstalled Energy Recovery Ventilator. It is to be used with the base HC 15 to 25 Ton
rooftop unit Installation Instructions and ComfortLINK Controls Manual.
NOTE: Read the entire instruction manual before startingthe installation
TABLE OF CONTENTS
SAFETY CONSIDERATIONS 2. . . . . . . . . . . . . . . . . . . .
GENERAL 3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
INSTALLATION 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Install Roofcurb 6. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Vertical Airflow Configurations 6. . . . . . . . . . . . . . .
Horizontal Airflow Applications 6. . . . . . . . . . . . . .
Install Iso--Exhaust Accessory Hood (if applicable) 6. . .
Install Accessory Exhaust Damper (if applicable) 6. .
Rig and Place Unit on Curb 6. . . . . . . . . . . . . . . . . . . .
Install Hold Down Brackets 6. . . . . . . . . . . . . . . . . .
Positioning 7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Make Electrical Connections 9. . . . . . . . . . . . . . . . . . .
Main Power 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Power 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Base Unit Components 9. . . . . . . . . . . . . . . . . . . . . . .
START UP 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Start--Up Check List 9. . . . . . . . . . . . . . . . . . . . . . . . . .
Base Unit Evaporator Fan 9. . . . . . . . . . . . . . . . . . . . .
ERV Test Mode 9. . . . . . . . . . . . . . . . . . . . . . . . . . . .
ERV Configuration 10. . . . . . . . . . . . . . . . . . . . . . . .
ERV with Economizer Additional Configurations 10. . .
Adjusting ERV Options 10. . . . . . . . . . . . . . . . . . . . . .
OPERATING SEQUENCE 11. . . . . . . . . . . . . . . . . . . . . .
General 11. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Communications 11. . . . . . . . . . . . . . . . . . . . . . . . . . .
15--25 Ton Modulating ERV 15. . . . . . . . . . . . . . . . . . . .
Occupancy 16. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Modes of Operation 16. . . . . . . . . . . . . . . . . . . . . . . . .
Off Mode (OA.OP = 0) 16. . . . . . . . . . . . . . . . . . . . .
Test Mode (OA.OP = 5) 16. . . . . . . . . . . . . . . . . . . .
Free Cooling Mode (OA.OP = 3) 16. . . . . . . . . . . . .
Defrost Mode (OA.OP = 4) 16. . . . . . . . . . . . . . . . .
ERV (DCV) Mode (OA.OP = 1) 16. . . . . . . . . . . . . .
OA Tempering Mode (OA.OP = 3) 17. . . . . . . . . . .
Exhaust Control 17. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wheel Stop/Jog 18. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Status Points 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
TROUBLESHOOTING 18. . . . . . . . . . . . . . . . . . . . . . . . .
Complete ERV Stoppage 18. . . . . . . . . . . . . . . . . . . . . .
Check Alarms 18. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
T418 OAU Dirty Filter 18. . . . . . . . . . . . . . . . . . . . . .
T418 OAU Motor Failure 18. . . . . . . . . . . . . . . . . . . .
T418 OAU Low CFM 19. . . . . . . . . . . . . . . . . . . . . . .
T418 OAU General Alarm 19. . . . . . . . . . . . . . . . . . . .
Check Diagnostic LEDs 19. . . . . . . . . . . . . . . . . . . . . . .
Communications Failures 19. . . . . . . . . . . . . . . . . . . . . .
Comm Failure1 -- UPC to LEN Fail 19. . . . . . . . . . .
Comm Failure2 -- UPC to EXCB Fail 19. . . . . . . . .
On--board Pressure Transducers 19. . . . . . . . . . . . . . . . .
MAJOR SYSTEM COMPONENTS 20. . . . . . . . . . . . . . .
EnergyX Control Board (EXCB) 23. . . . . . . . . . . . . . .
Universal Protocol Converter (UPC) 25. . . . . . . . . . . .
User Interface 26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LCD Texts 26. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Enthalpy Wheel 26. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Modulating Fan 26. . . . . . . . . . . . . . . . . . . . . . . . . . . .
Modulating Outside Air Damper 26. . . . . . . . . . . . . . .
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Options and Accessories 26. . . . . . . . . . . . . . . . . . . . . . .
Economizer Damper (field install only) 26. . . . . . . . .
Frost Protection (field install only) 26. . . . . . . . . . . . .
Wheel Motor Status (field install only) 26. . . . . . . . . .
Filter Maintenance (field install only) 26. . . . . . . . . . .
Horizontal Transition Curb (field install only) 27. . . .
SERVICE & MAINTENANCE 27. . . . . . . . . . . . . . . . . .
Cleaning 27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wheel and Segment Cleaning 27. . . . . . . . . . . . . . . . .
Filters 27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Outdoor--Air Inlet Screens 27. . . . . . . . . . . . . . . . . . . .
Lubrication 27. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wheel Drive Adjustment 27. . . . . . . . . . . . . . . . . . . . . .
Wheel Air Seal Adjustment 27. . . . . . . . . . . . . . . . . . . .
Wheel and Segment Removal/Installation 28. . . . . . . . .
Wheel Segment Removal/Installation 28. . . . . . . . . . .
Whole Wheel Removal/Installation(36”& 46” wheels) 29. . . . . . . . . . . . . . . . . . . . . . . . . .
Outside Air and Exhaust Hood Removal 29. . . . . . . . . .
Outside Air Hood Removal 29. . . . . . . . . . . . . . . . . . .
Exhaust Air Hood Removal 29. . . . . . . . . . . . . . . . . . .
Outside Air Motorized Damper Removal 31. . . . . . . . .
Outside Air and Exhaust Fan Replacement 31. . . . . . . .
Outside Air Fan Removal 31. . . . . . . . . . . . . . . . . . . .
Exhaust Fan Removal 33. . . . . . . . . . . . . . . . . . . . . . .
APPENDIX 35. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Appendix A — Certified Dimension Drawings 36. . . . .
Appendix B — Exhaust Fan Performance 52. . . . . . . . .
EnergyX Modulating Volume 15--25 Ton Units 52. . .
Appendix C — Electrical Data 54. . . . . . . . . . . . . . . . . .
48HC -- with ERV:Unit Wire/Fuse or HACR Breaker Sizing Data 54. . . .
50HC -- with Electric Heat and ERV:Unit Wire/Fuse or HACR Breaker Sizing Data 56. . . .
ENERGYX UNIT START--UP CHECKLIST 61. . . . . . .
SAFETY CONSIDERATIONS
Improper installation, adjustment, alteration, service,maintenance, or use can cause explosion, fire, electricalshock or other conditions which may cause personal injuryor property damage. Consult a qualified installer, serviceagency, or your distributor or branch for information orassistance. The qualified installer or agency must usefactory--authorized kits or accessories when modifying thisproduct. Refer to the individual instructions packaged withthe kits or accessories when installing.
Follow all safety codes. Wear safety glasses and workgloves. Use quenching cloths for brazing operations andhave a fire extinguisher available. Read these instructionsthoroughly and follow all warnings or cautions attached tothe unit. Consult local building codes and appropriatenational electrical codes (in USA, ANSI/NFPA70,National Electrical Code (NEC); in Canada, CSA C22.1)for special requirements.
It is important to recognize safety information. This is the
safety--alert symbol . When you see this symbol on theunit and in instructions or manuals, be alert to thepotential for personal injury.
Understand the signal words DANGER, WARNING,CAUTION, and NOTE. These words are used with thesafety--alert symbol.
DANGER identifies the most serious hazards which willresult in severe personal injury or death. WARNINGsignifies hazards which could result in personal injury ordeath.
CAUTION is used to identify unsafe practices, whichmay result in minor personal injury or product andproperty damage.
NOTE is used to highlight suggestions which will result inenhanced installation, reliability, or operation.
EnergyX
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ELECTRICAL SHOCK HAZARD
Failure to follow this warning could cause personalinjury or death.
Before performing service or maintenance operationson unit, always turn off main power switch to unit andinstall lock(s) and lockout tag(s). Unit may have morethan one power switch. Ensure electrical service torooftop unit agrees with voltage an amperage listed onthe unit rating plate.
! WARNING
UNIT DAMAGE HAZARD
Failure to follow this caution may cause equipmentdamage.
This unit uses a microprocessor--based electroniccontrol system. Do not use jumpers or other tools toshort out components or to bypass or otherwise departfrom recommended procedures. Any short--to--groundof the control board or accompanying wiring maydestroy the electronic modules or electricalcomponents.
CAUTION!
CUT HAZARD
Failure to follow this caution may result in personalinjury.
Sheet metal parts may have sharp edges or burrs. Usecare and wear appropriate protective clothing, safetyglasses and gloves when handling parts and servicingair conditioning equipment.
CAUTION!
GENERAL
This publication contains Installation, Start--Up, Controls,Operation, Troubleshooting and Service information forthe EnergyX Energy Recovery System, factory installedon a 48/50HC (15 to 25 nominal ton) rooftop unit. Thisdocument is a supplemental installation instruction and isto be used in conjunction with the base rooftop unitInstallation Instructions and the ComfortLINK Controls,Start--Up, Operation and Troubleshooting Instructions.
The EnergyX Energy Recovery system is designed topre--condition the outside air prior to it entering therooftop unit evaporator using building exhaust air as aheat sink / source. The EnergyX system provides latentand sensible energy exchange between the outsideventilation air and the building exhaust air. Thispreconditioning of air allows higher operatingefficiencies, increased comfort control, potentialdownsizing of the base rooftop unit while still meeting theASHRAE ventilation requirements. Operational costsavings are realized by the high efficiency EnergyRecovery device meeting the cooling and heating call fora larger portion of the operating cycle than just a normaldamper or economizer device. This is demonstrated by theEnergyX AHRI Guideline--V Combined Efficiency Factor.
EnergyX HC17--28 units are shipped in the vertical supplyand return duct configurations only. A field installedhorizontal curb adapter kit is available for horizontalreturn and supply configuration.
The EnergyX Energy Recovery Wheel is rated inaccordance with AHRI 1060 and is ETL certified.
See Table 1 for Physical Data.
EnergyX
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Table 1 – Physical Data
Model 48/50HC 15 -17.5 Ton
EnergyX Size NON ECONO CFM ECONO CFM
EnergyX Unit Type Modulating Air Flow Capability
ERV WHEEL OA (CFM) Range 682---3675
ERV WHEEL EA (CFM) Range 682---3675
MAX ECONOMIZER OA (CFM)N/A
6000-7000
MAX ECONOMIZER EA (CFM) 6000-7000
ENERGY RECOVERY WHEEL
TYPE Enthalpy Lightweight Polymer with Silica Gel Desiccant Coating
MODEL (AirXchange) ERC-3628
SIZE (Dia. X Depth) (in.) 36--- in x 3--- in
NOMINAL DRIVE MOTOR HP 1/20
SUPPLY FAN #1
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE (DIAMETER) 15.75--- in
NOMINAL MOTOR HP 1.2
SUPPLY FAN #2
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 15.75--- in
NOMINAL MOTOR HP 1.2
EXHAUST FAN #1
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 19.68--- in
NOMINAL MOTOR HP 3.6
EXHAUST FAN #2
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 19.68--- in
NOMINAL MOTOR HP 3.6
FILTERS
TYPE 2-in. Pleated, 30% Efficiency
SUPPLY AIR (QTY) - SIZE (2) 20--- in x 16--- in x 2--- in
EXHAUST AIR (QTY) - SIZE (2) 20--- in x 16--- in x 2--- in
TYPE Aluminum Water Filter
Water Entrapment (QTY) - SIZE (2) 34.375--- in x 17.25--- in x 1--- in
EnergyX
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Table 1 -- Physical Data (cont)
Model 48/50HC 20 - 25 Ton
EnergyX Size NON ECONO CFM ECONO CFM
EnergyX Unit Type Modulating Air Flow Capability
ERV WHEEL OA (CFM) Range 1076---6000
ERV WHEEL EA (CFM) Range 1076---6000
MAX ECONOMIZER OA (CFM)NA
8000-10000
MAX ECONOMIZER EA (CFM) 8000-10000
ENERGY RECOVERY WHEEL
TYPE Enthalpy Lightweight Polymer with Silica Gel Desiccant Coating
MODEL (AirXchange) ERC-4646C
SIZE (Dia. X Depth) (in.) 46--- in x 3--- in
NOMINAL DRIVE MOTOR HP 1/6
SUPPLY FAN #1
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE (DIAMETER) 19.68--- in
NOMINAL MOTOR HP 3.6
SUPPLY FAN #2
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 19.68--- in
NOMINAL MOTOR HP 3.6
EXHAUST FAN #1
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 19.68--- in
NOMINAL MOTOR HP 3.6
EXHAUST FAN #2
QTY - TYPE 1 - Backward Curved
DRIVE TYPE Direct
BLOWER SIZE 19.68--- in
NOMINAL MOTOR HP 3.6
FILTERS
TYPE 2-in. Pleated, 30% Efficiency
SUPPLY AIR (QTY) - SIZE (2) 16--- in x 25--- in x 2--- in
EXHAUST AIR (QTY) - SIZE (2) 16--- in x 25--- in x 2--- in
TYPE Aluminum Water Filter
Water Entrapment (QTY) - SIZE (2) 34.375--- in x 24.5--- in x 1--- inEnergyX
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INSTALLATION
An EnergyX unit is installed as a single piece unit. Toinstall an EnergyX unit, follow the base rooftop unitinstallation instructions with the following exceptions andadditions:
Install Roofcurb
Vertical Airflow Configurations —
The EnergyX unit uses the standard HC base unitroofcurb. No extra curb support rails or extensions arerequired. See the unit nameplate for model numberdesignation. Refer to the base rooftop installation manualand “Install Hold Down Brackets” below for roofcurbinstructions. Ductwork must be attached to the curb.
Horizontal Airflow Applications —
EnergyX units with a horizontal return and supply airconfiguration require a field installed horizontal curbadapter kit. Refer to the base rooftop installation manualand the horizontal curb adaptor kit manual for roofcurbinstructions.
Install Iso--Exhaust Accessory Hood (if applicable) —
If an exhaust isolation hood has been ordered as anaccessory to isolate return air that must be exhausted (e.g.bathroom exhaust), install it in the return air portion of theroof curb prior to setting the rooftop unit. The iso--exhausthood should face with the opening out and the angledhood portion facing the interior of the curb. Refer to theaccessory installation instructions for further guidance.
Install Accessory Exhaust Damper (if applicable) —
See Two Position Exhaust Damper Accessory InstallationInstructions (Catalog # IIK--CREXDPR0304--01 or later)for details.
Rig and Place Unit on Curb
Inspect the EnergyX system for damage. File a claim withthe shipping company if shipment is incomplete ordamaged.
Install Hold Down Brackets —
Units are shipped with hold down brackets for securingthe base unit with the ERV option to the roof curb. Installand secure the brackets as shown in Fig. 1.
NOTE: Hold down brackets must be affixed to the curband rooftop unit prior to removing rigging support.
See the rigging label on the exterior of the base unit andFig. 2. This label is provided for guidance purposesONLY. The unit’s actual weight and center of gravity willvary based on the specific combination of factory optionsincluded with the unit. Use prudent judgment whenrigging and lifting the unit to account for weight variancesand make adjustments for the actual center of gravity asnecessary.
UNIT DAMAGE HAZARD
Failure to follow this caution may result in equipmentdamage.
All panels must be in place when rigging. Unit is notdesigned for handling by fork truck.
CAUTION!
SUPPLYAIR
RETURNAIR
C11460
Fig. 1 -- MRT ERV Hold Down Brackets —Location and Installation (48HC*17 shown)
EnergyX
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50HE502615 C
MAX. WEIGHTPOIDS MAXIMUM A B C
LBLIVRES
KGKG
INPO
MMMM
INPO
MMMM
INPO
MMMM
UNIT
48HC17 WITH ERV48HC20 WITH ERV48HC24 WITH ERV48HC28 WITH ERV50HC17 WITH ERV50HC20 WITH ERV50HC24 WITH ERV50HC28 WITH ERV
36943904425943043567377741324177
16791775193619561621171718781899
127.8141.5141.5157.8127.8141.5141.5157.8
32493595359540073249359535954007
89.792.498.9
105.089.793.293.2
105.8
22772348251226672277236923682688
52.352.360.360.352.352.360.360.3
13281328153215321328132815321532
DETAIL "A"DÉTAIL «A «
SEE DETAIL "A"VOIR DÉTAIL «A «
DUCT ENDPASSAGES CONDUITES
PLACE ALL SEAL STRIPS IN PLACEBEFORE PLACING UNIT ON ROOF CURB
INSTALLER TOUTES LES BANDSD’ISOLATION EN PLACE AVANT DE
PLACER L’APPAREIL SUR LE REBORDDE TOIT.
"A"
"C"
"B"
1676(66")
MINIMUM
CAUTION - NOTICE TO RIGGERS:AVERTISSEMENT - REMARQUE ÀL’ATTENTION DES MONTEURS
UNIT IS NOT TO BE RIGGED WITH CHAINS THROUGH BASE RAIL HOLES.NE PAS PASSÉ LES CHAINES AU TRAVERS LES TROUS DU GLISSIÈRE DE BASE POUR GRÉE L'UNITÉ
ALL PANELS MUST BE IN PLACE WHEN RIGGING.TOUS LES CAPOTS DOIVENT ÊTRE EN PLACE AVANT LE LEVAGE
• Hook rigging shackles through holes in base rail, as shown in detail “A”.• Holes in base rails are centered around the unit center of gravity.• Use wooden top skid, when rigging, to prevent rigging straps from damaging unit.
• Accrocher les manilles des élingues de levages dans les trous situés dans le rail de base comme indiqué au détail « A ».• Les trous pratiqués dans le rail de base sont centrés autour de centre de gravité de l’appareil.• Utiliser des cales en bois lors du levage pour éviter que les élingues n’endommagent le haut de l’appareil.
C11415
Fig. 2 -- Rigging Label, 48--50HC Size 17--28 Units With ERV
Positioning
Maintain unit clearances as listed as shown in Fig. 3 and 4for minimum distance from combustible materials, properairflow, and service access. Follow all local codes for properclearances – the local code requirements take precedenceover any clearance listed in this document. Contact yourlocal Carrier representative for clearance obstructions andany potential resulting affect on unit warranty.
Follow all other curb, rigging, and positioning installationguidance in base rooftop unit installation instructions.
NOTE: Install Fan and Filter Status accessories at thispoint. Refer to the accessories Installation Instructions fordetails.
EnergyX
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36 in[914 mm]
36 in[914 mm]
75 in[1893 mm]
42 in[1067 mm]
60 in[1524 mm]
36 in[914 mm]
42 in[1067 mm]
C11461
Fig. 3 -- Clearances for ERV on Size 17 & 20 HC Base Units
51 in[1295 mm]
36 in[914 mm]
75 in[1893 mm]
36 in[914 mm]
60 in[1524 mm]
36 in[914 mm]
42 in[1067 mm]
C11462
Fig. 4 -- Clearances for ERV on Size 24 & 28 HC Base Unit
EnergyX
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9
Make Electrical Connections
See the base unit name plate for the ETL certifiedsinglepoint electrical values and component electricalinformation. See the base unit and EnergyX access doorsfor the electrical wiring diagrams specific to each section.
Main Power —
Follow all base unit installation instructions, usingelectrical values shown on unit nameplate; only one mainpower supply is required The EnergyX base rooftop unitand energy recovery module is ETL listed as a singlepoint power supply only.
On some voltage ERV’s, there is a step down transformerthat is factory supplied to power components that are notline side voltage. Field wiring or alteration of thesecomponents is neither required nor desired.
UNIT DAMAGE HAZARD
Failure to follow this caution may result in equipmentdamage.
Some electric heat modules require a dual--pointelectrical service connection independent from allother electrical circuits in the unit. Consult the unitinstallation instructions, unit wiring diagrams and/orelectric heater installation instructions for verification.
CAUTION!
Control Power —
Follow all base unit installation instructions for lowvoltage wiring. The ERV control board is factory wiredinto the base unit communications via the protocolconverter module. See Fig. 7. All external control wiresstill connect to the RTU terminal strip as in the base unitinstallation instructions.
EnergyX modulating units can be equipped with anoptional CO2 sensor for Demand Control Ventilation. Ifthe optional CO2 sensor is used, install and connect thesensor to the base unit ComfortLINK controller per CO2sensor installation instructions. See the base unitComfortLINK controls manual and the Configurationsection of this manual for specific CO2 sensorconfigurations.
Base Unit Components
Follow the base unit installation instructions to install allother base unit components, including (but not limited to)flue hoods, condensate trap and other accessory devices.
START UP
The EnergyX unit is operated in coordination with thebase rooftop unit. Follow the base unit instructions andControls book for proper start--up with addition of thefollowing:
Start--Up Check List
Use the EnergyX Start--Up checklist (see page 61) inconjunction with the base unit Start--Up checklist from thebase Controls book. Fill in all blank data entries that areapplicable to the exact unit being installed. The ERVmodel and serial numbers are printed in the ERV controlbox. Save the checklist for future service and maintenanceuse. It is recommended that a copy of the checklist be leftwith the unit in the literature slot on the base unit controlbox access door.
Base Unit Evaporator Fan
First follow the base unit instructions to balance the RTUindoor fan. The ERV fans should be off during base unitfan set--up. Before start--up and testing the ERV, verifythat the ComfortLINK minimum damper positions are setto 0 and if not change them to 0. Configuration →AIR.Q→AQ.MN = 0, and Configuration →ECON →MP.MX= 0. The ERVs communicate with ComfortLINK thereforethe scrolling marquee can be used for test mode andconfiguration of the ERV. The following sections explainERV testing and configuration. It is important that theseconfigurations are set correctly in order for the ERVmodule to properly control the air performance. Finally,with service test disabled run unit under normal operation,verify proper supply airflow with ERV and indoor fanrunning.
ERV Test Mode —
ERV Test points should be used when starting up anEnergyX unit to verify proper ERV component operation.It can also be used for troubleshooting. To test the ERV,use the Scrolling Marquee to put the ComfortLINK RTUinto test mode. Then go to Test Independent outputs(Service Test →INDP). Table 2 shows a list of test pointsthat can be tested as independent outputs. There are fiveERV tests which can be performed separately or togetherwhile in test mode. Use the scrolling marquee to changethe value of the test point. Follow the ComfortLINKControls, Start--Up, Operation, and Troubleshootingmanual for testing the base rooftop unit.
The 5 ERV specific test points are OAU 2--positionDamper, OAU Wheel Test, OAU OA Fan Speed test,OAU PE Fan Speed Test and OAU Tempering HeaterTest. The 2 position damper can be opened and closedwith the OA.DM point. The 2--position damper accessorycan be installed on the exhaust opening of the ERV. TheERV wheel motor can be turned on and off with the WHLpoint. The ERV’s outside air (OA.OF) and buildingexhaust air (OA.XF) motors can be ramped up and downduring test mode with their corresponding fan speed testpoints. Table 2 shows the test mode test points in the orderthey appear under test mode. Communication failures willno allow these ERV test points to be changed.ComfortLINK will show active alarms during test mode.
NOTE: If a 2 position damper is installed, it must beopened in test mode while operating the exhaust test.
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Table 2 – Service Test Mode Independent Test Points
ITEM EXPANSION RANGE
INDP Test Independent Outputs
ECON Economizer Position Test 0 to 100
E.CAL Calibrate Economizer Off/On
PE.1 Power Exhaust 1 Test Off/On
PE.2 Power Exhaust 2 Test Off/On
ALRM Alarm Relay Test Off/On
CCH Crankcase Heat Test Off/On
OA.DM OAU 2---position Damper Close/Open
WHL OAU Wheel Test 0 to 100
OA.OF OAU OA Fan Speed Test 0 to 100
OA.XF OAU PE Fan Speed Test 0 to 100
OA.HT OAU Tempring Heater Test 0 to 100
ERV Configuration —
The ERV configuration menu can be accessed using theScrolling Marquee. Enter the Outside Air UnitConfigurations (Configuration →OAU) menu. Table 5shows the list of complete outside air unit configurationsthat can be changed and the defaults from the factory. Thecritical job specific configurations are listed below andshould be changed at start up for the specific job site. Seethe operation section for details all configurations.
OAU Unoccupied Operation (U.RUN) — This allows theERV to run during the unoccupied period when therooftop fan is brought on.
Min DCV Outside Air CFM (DCV.M) — This sets thelowest setting for ventilation using outside air. Thisnumber sets the absolute minimum for ventilation ofcontaminants and CO2 generated by sources other thanpeople. This is only accessible if CO2 sensors are installedand ComfortLINK is configured properly.
NOTE: ERV must be equipped with optional economizerto operate with CO2 sensors.
Minimum Outside Air CFM (OA.MN) — This sets theoutside air ventilation rate when not using a CO2 sensor toremove contaminants and CO2 generated by all sources inthe building space. When using CO2 sensors and runningDCV, this sets the maximum amount of outside airallowed for ventilation.
Power Exhaust CFM Offset (PE.OF) — This sets theoffset for exhausting building air based on outside airbeing brought in. A negative setting causes a positivebuilding pressure, and a positive setting causes a negativebuild pressure.
ERV with Economizer Additional Configurations
There are seven important ComfortLINK configurations thatimpact the ERV operation when equipped with optionaleconomizer. To change these configuration use theComfortLINK Scrolling Marquee, Navigator, or a CCNcommunication tool. Refer to the base unit Controls,Start--up, Operation, and Troubleshooting manual for moreinformation on using these tools. Table 3 shows theseComfortLINK points that impact ERV operation, with briefdescriptions. These points can be found on the ScrollingMarquee under the economizer and air quality configurationmenus (Configuration → ECON and Configuration →AIR.Q). See operation section for details on individualconfigurations.
Adjusting ERV Options
The ERV can come with factory installed frost protectionand/or an economizer (wheel bypass) damper. Otheraccessories can be added to the ERV in the field includingbut not limited to filter status, wheel status, and buildingpressure control. Refer to the major components section ofthis manual or the specific accessory literature for moredetail on these.
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Table 3 – ComfortLINK Configurations
DISPLAYITEM EXPANDED TEXT DEFAULT RANGE DESCRIPTION
EC.EN Economizer Installed No: no FIOPYes: FIOP
Yes/No This tells the ERV that an optionaleconomizer is installed
MP.MX Econo Min at Max Fanspeed 0 0 to 100% Must be set to 0 so the base rooftop doesnot use the economizer for ventilation, onlyfree coolingAQ.MN Econo Min IAQ Position 0 0 to 100%
IA.CF IAQ Analog Input Config 0: no FIOP1: FIOP
0=No IAQ1=DCV2=Override3=Ctl Min Pos
This tells the ERV if a CO2 sensor isinstalled
IA.FN IAQ Analog Fan Config 0 0=Never1=Occupied2=Always
Tells the ERV if it can run duringunoccupied for high CO2 sensor
II.CF IAQ Switch Input Config 0 0=No IAQ1=DCV N/O2=DCV N/C3=Override N/O4=Override N/c
This tells the ERV if a switch is installed forCO2
II.FN IAQ Switch Fan Config 0 0=Never1=Occupied2=Always
Tells the ERV if it can run duringunoccupied for high CO2 switch
AQD.L AQ Differential Low 100 0 to 5000 These set the indoor air quality (IAQ) CO2DCV operating range. Differential is basedoff a 400PPM outside CO2 value.AQD.H AQ Differential High 700 0 to 5000
OVR.P IAQ Override Position 100% 0---100% Sets the speed fo the outside air fan duringoverride.
OPERATING SEQUENCE
General
An EnergyX unit is a 48/50HC rooftop unit and energyrecovery ventilator (ERV). It operates the ERV module inan integrated manner with the base rooftop unit. The baserooftop unit functions per the base unit sequence ofoperation, for information regarding ComfortLINKcontroller operation see the base rooftop unit Controls,Start--Up, Operations, and Troubleshooting manual. TheERV will operate based on communication from theComfortLINK controller. The following section discussesthe ERV operation in detail. In summary, the ERVoperates to provide pre--conditioned outside air forventilation requirements. If equipped with an optionaleconomizer the ERV can provide free cooling when theoutside air conditions are satisfactory.
In general the ERV monitors occupancy and indoor fanstate of the base unit to determine when to activate. Theoutside air fan(s) bring in the outside air pass it throughthe enthalpy wheel and into the rooftop mixing box. Thebuilding return air is pulled through the enthalpy wheel bythe exhaust fan(s) and released outside. During operationthe enthalpy wheel is rotating to use the building air topre--condition the outside air. When free cooling is desiredand allowed the wheel is not needed to pre--condition theair therefore an economizer damper (wheel bypass) isused to bring in the outside air directly to the mixing box.
Communication
The ERV relies on communication with ComfortLINK tooperate. The ERV monitors ComfortLINK points todetermine operation. The ERV writes to points inComfortLINK to provide the user with its running status.If communication is lost the ERV will shut down andremain in the Off mode until communication isestablished. Refer to the troubleshooting section fordetails on communication failures. Table 4 shows theComfortLINK points that the ERV monitors for operationand a brief description of their functions. Table 5 showsthe ComfortLINK points that the ERV uses for itsconfigurations and a brief description of each. Table 6shows the ComfortLINK points that the ERV writes tobased on its running status.
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Table 4 – Inputs -- Points the ERV Reads from ComfortLINK
CCN Point MarqueePoint Expanded Text Range Units Default Function
NVO_MODE nvoUnitStatus.mode xxxx Determine what mode RTU is in
OCCUPIED OCC Currently Occupied No/Yes Determine if RTU is occupied
IDFSTATE Indoor Fan State Off/On Determine if the RTU indoor fan isrunning
FANSPEED F.SPD Commanded Fan Speed xxx % Determine if the RTU indoor fan isrunning
ECONOCMD EC.CP Econo CommandedPosition
0 to 100 % Determine if the RTU commands freecooling
IAQ IAQ IAQ Level (sensor) xxxx Space CO2 sensor level (PPM)
IAQIN IAQ.S IAQ Level (switch) Low/High Determine if CO2 is high or low
SAT SAT Supply Air Temperature xxx.x ° F RTU supply air temp
OA_TEMP OAT Outdoor Air Temperature xxx.x ° F RTU Outdoor Temp
SPACE_T SPT Space Temperature xxx.x ° F Building Space Air Temp
RETURN_T RAT Return Air Temperature xxx.x ° F Building Return Air Temp
PE_1 PE.1 Power Exhaust 1 Relay Off/On N/A
PE_2 PE.2 Power Exhaust 2 Relay Off/On N/A
ECONO EC.EN Economizer Installed No/Yes No: no FIOPYes: FIOP
Determine if there is a Economizerdamper (wheel Bypass)
IAQANCFG IA.CF IAQ Analog Input Config 0=No IAQ1=DCV2=Override IAQ3=Ctrl Min Pos
0: no FIOP1: FIOP
Tells if a sensor is installed for DCV oroverride
IAQANFAN IA.FN IAQ Analog Fan Config 0=Never1=Occupied2=Always
0 Tells if the ERV can run duringunoccupied for high CO2
IAQINCFG II.CF IAQ Switch Input Config 0=No IAQ1=DCV N/O2=DCV N/C3=Override N/O4=Override N/C
0 Tells if a switch is installed for DCV oroverride
IAQINFAN II.FN IAQ Switch Fan Config 0=Never1=Occupied2=Always
0 Tells if the ERV can run duringunoccupied for high CO2
DAQ_LOW AQD.L AQ Differential Low 0 to 5000 100 Sets indoor/outdoor PPM differenceto start ventilating more
DAQ_HIGH AQD.H AQ Differential High 0 to 5000 700 Sets indoor/outdoor PPM at whichmax vent occurs
IAQOVPOS OVR.P IAQ Override Position 0 to 100 % 100 Sets OA fan speed during override
S_OADMPR OA.DM OAU 2---position Damper Close/Open Close Test damper while in test mode
S_WHEEL WHL OAU Wheel Test 0 to100 % 0 Test wheel while in test mode
S_OAFAN OA.OF OAU OA Fan Speed Test 0 to100 % 0 Test intake fan(s) while in test mode
S_EXFAN OA.XF OAU PE Fan Speed Test 0 to100 % 0 Test exhaust fan(s) while in test mode
S_OAHEAT OA.HT OAU Tempring Heater Test 0 to 100 % 0 Test tempering heater while in testmode
These can be viewed under a variety of menus on the Scrolling Marquee or Navigator
These can be viewed under a variety of CCN tables with a CCN device.
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Table 5 – Configurations -- ERV Configurations Read from ComfortLINK
CCN Point MarqueePoint Expanded Text Range Units Default Function
OAU_TYPE OA.TY Outdoor Air Unit Type 0=No OAU1=ERV Module2=Economizer3=Pwr Exhaust4=OA Monitor5=100% OA unit6=EXv1 ERV
0: no FIOP1: FIOP EXv2
Defines what kind of OAU isinstalled
OAFANCRV OA.FC Outside Air Fan Curve 0 to 999 1: 042: 05---063: 074: 08---125: 146: 17---207: 24---28
Determine what outside airfan curve to use
PEFANCRV PE.FC Exhaust Air Fan Curve 0 to 999 1: 04, 1ph, and econ2: 04, 3ph, and econ3: 04, 1ph, and no econ4: 04, 3ph, and no econ5: 05---06 1ph6: 05---06 3ph7: 078: 08---129: 1410: 17---20 and econ11: 17---20 and no econ12: 24---28
Determine what exhaust airfan curve to use
UNOCCRUN U.RUN OAU UnoccupiedOperation
No/Yes NO Tells OAU to run inunoccupied mode
FATALOAU OAU.F Shut Down on Fan Failure No/Yes YES Tells OAU to shut off if one ofit’s fans fail
MODWHEEL M.WHL Modulating Wheel Install No/Yes NO Determine if the OAU’s wheelis a modulating one
MINOACFM OA.MN Minimum Outside Air CFM 0 to 32000 CFM 375: 04800: 05---061000: 072500: 08---123000: 144000: 17---205000: 24---28
Sets Design OA CFM forventilation
MINDCVSP DCV.M Min DCV Outside Air CFM 0 to 32000 CFM 100: 04250: 05---06600: 071000: 08---121500: 14---242000: 24---28
Sets absolute minimum OACFM for ventilation
PEX_CTL PEX.C Power Exhaust Control 0=offset CFM1=BP
0 Determine how to control theexhaust fans
EXOFFSET PE.OF Power Exhaust CFMOffset
---17000 to 17000 CFM ---200 Sets offset CFM setpoint ofexhaust based on intake
OAU_BPSP BP.SP Building Pressure Setpnt ---0.25 to 0.25 inH2O 0.05 Sets required buildingpressure
OATEMPER OA.TM Outside Air Tempering Disable/Enable Disable Determine if there istempering heater installed
OATMPLOC TM.LO OA Tempring LockoutTemp
0 to 80 ° F 60 Sets the outside temp andbelow to allow tempering
OATMPSPT TM.SP OA Tempring SATSetpoint
35 to 80 ° F 55 Sets target Supply airtemperature during tempering
OACFM_K OAC.K Outside Air CFM k Factor 0.8 to 1.2 1.0 Sets outside air curvecorrection factor
EXCFM_K EXC.K Exhaust Air CFM k Factor 0.8 to 1.2 1.0 Sets exhaust air curvecorrection factor
EFB_ENBL EFBE ERV Fan Boost Enable No/Yes NO Tells RTU to adjust fan speedfor low outside air CFM
These can be viewed under Configuration→ OAU on the Scrolling Marquee or Navigator.
These can be viewed under the CCN Table OAU_CFG with a CCN device.
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Table 6 – Status Points -- ERV Writes these points to ComfortLINK
CCN Point MarqueePoint Expanded Text Range Units Function
OAU_RUN OA.RN OAU System Run State 1=AUTO2=OFF3=TEST
High level ERV state
OAU_MODE OA.OP OAU Operating Mode 0=Off1=ERV (DCV)2=Free Cooling3=OA Tempering4=Defrost5=Test6=Ext. Mode 17=Ext. Mode 28=Ext. Mode 3
ERV’s current operating mode
UPC_VER UPC UPC Software Version 0 to 9999 Active UPC software version
OAU_VER OAU OA Unit Software Version 0 to 9999 Active EXCB software version
ACTOACFM A.OA Actual Outside Air CFM 0 to 32000 CFM Real Time CFM being brought in
ACTEXCFM A.EX Actual Exhaust Air CFM 0 to 32000 CFM Real Time CFM being exhausted
CMDOACFM C.OA Command Outside Air CFM 0 to 32000 CFM Commanded CFM to bring in
CMDEXCFM C.EX Command Exhaust Air CFM 0 to 32000 CFM Commanded CFM to exhaust
OAU_LAT LAT OAU Leaving Air Temp xxx.x ° F Air temperature leaving the ERV (RTU intake)
OAU_EXAT EXAT OAU Exhaust Air Temp xxx.x ° F Air Temperature leaving the ERV (exhaust)
OAU_BP BP Building Pressure ---0.25 to 0.25 inH2O Current building pressure
OAUDMPR 2P.DM OAU 2---position Damper Close/Open Exhaust damper position status
OAUWHEEL WHL OAU Wheel Speed 0 to100 % Current ERV wheel speed
OAFANSPD OA.FS OAU OA Fan Speed 0 to100 % Current ERV’s intake fan(s) speed
OAUPESPD EX.FS OAU Exhaust Fan Speed 0 to100 % Current ERV’s exhaust fan(s) speed
OAHEATER OA.HT OAU Tempering Heater 0 to 100 % ERV’s SCR heater commanded capacity
OAUALRM1 ALM.1 OAU Motor Failure Alarm Off/On ERV’s motor failure alarm status
OAUALRM2 ALM.2 OAU Dirty Filter Alarm Off/On ERV’s dirty filter alarm status
OAUALRM3 ALM.3 OA Low CFM Alarm Off/On ERV’s low CFM alarm status
OAUALRM4 ALM.4 OAU Alarm Off/On ERV’s General Alarm status
These can be viewed under Run Status→ OAU or Operating Modes → OAU on the Scrolling Marquee or Navigator.
These can be viewed under the CCN tables OAUDISP or OAU_DIAG with a CCN device.
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15--25 Ton Modulating ERV
The modulating ERV is an intelligent ERV with variablespeed fan motors. The ERV can provide a variety ofvolumes of outside air and offset it with different exhaustspeeds. CO2 sensors can also be tied into it for Demand
control ventilation (DCV) operation. The modulating ERVwill operate based on occupancy and the rooftop’soperating mode, the following sections explain operationin detail. Refer to Figure 5 for the overview flow diagramof a modulating ERV operation.
YES
NO
YES
NO
YES
NO
Notes:* Min CFM represents the minimum outside air CFM requirement based on CO2 values and setpoints.
** Occupied also means being in the unoccupied period but configured to run.
NO
YES
Is there
frost on the
wheel?
YES
NO
Is unit
occupied**
and IDF on?
NO
YES
ERV Mode = OFF Wheel = off
ERV 2POS Damper = Closed
OA CFM = 0
Ex CFM = 0
ERV Mode = TestUser sets ERV to desired values for
testing purposes
OAU OA Fan Speed Test→OA.OF
OAU PE Fan Speed Test→OA.XF
OAU 2-position Damper Test→OA.DM
OAU Wheel Test→WHL
ERV Mode = Free CoolingWheel = stop-jog
ERV 2POS Damper = Open
OA CFM = Between Min CFM*
and 100 dependent on Econ Pos
Ex CFM = OA CFM - Ex CFM offset
ERV Mode = DefrostWheel = On
ERV 2POS Damper = Open
OA CFM = 0
Ex CFM = Min CFM* in effect
- Ex CFM offset
ERV Mode = ERV or DCV ModeWheel = On
ERV 2POS Damper = Open
OA CFM = Min CFM*
Ex CFM = OA CFM - Ex CFM offset
START
TEST(RTU in test
mode)
COOL(RTU in
Cool)
VENT(RTU in Heat,
or Vent)
Is economizeropen>than
5%?
C11463
Fig. 5 -- Modulating ERV Control & Operation Flow Chart
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Occupancy
The ERV will not be allowed to run unless it isdetermined to be occupied. The ERV monitors therooftop’s occupancy point (Run Status →MODE→OCC) to determine when it is occupied. The ERVwatches the rooftop’s indoor fan state point (CCN Point =IDFSTATE) to know when its indoor fan has started.When the rooftop is occupied and its indoor fan is on, theERV is considered to be occupied and allowed to run.
The ERV can also operate during the rooftop’s unoccupiedperiod. If the ERV is configured for unoccupied operation(Configurations →OAU→U.RUN = YES), then it willignore the building occupancy of ComfortLINK and allowoccupancy any time the rooftop fan is on. If notconfigured for unoccupied operation but there is a CO2sensor or switch installed and ComfortLINK is configuredto turn on its indoor fan for CO2 ventilation at any time(Configuration →AIR.Q →IA.FN = 2, or Configuration→AIR.Q →II.FN = 2), the ERV will be occupied anytime the CO2 needs the fan.
Modes of Operation
The ERV has 3 basic functions: Auto, Off, or Test. Theseare defined as System run states and displayed in the OAUrun status menu (Run Status →OAU →OA.RN). TheERV will always operate in one of the following operatingmodes depending upon the ComfortLINK mode andoutside conditions: Off, ERV (DCV) Free Cooling, OATempering, Defrost, or Test. The ERV monitors theComfortLINK CCN point NVO_MODE to determine therooftops operating mode. The NVO_MODE values tell theERV what the rooftop operating mode is in a numericform. The ERV’s operating mode is displayed numericallyas OAU Operating Mode (Run Status →OAU→OA.OP). These modes and their correspondingnumbers are described below.
Off Mode (OA.OP = 0) —
The ERV will be set to the Off mode whenever the rooftopindoor fan is turned off, ERV is unoccupied, NVO_MODEequals 6, or if communication fails. During Off Mode, theERV 2 position dampers will be closed and the wheel,outside air fans(s), and exhaust fan(s) will be off.
Test Mode (OA.OP = 5) —
If at any time during operation, the rooftop is put inService Test mode (NVO_MODE equals 7) the ERV willbe set to Test Mode. Refer to Start--Up section for Testmode operation.
Free Cooling Mode (OA.OP = 2) —
Free Cooling Mode is only available if an optionaleconomizer damper is factory installed in the ERV(Configuration →ECON →EC.EN = Yes). Free CoolingMode will be active when the rooftop unit is inUnoccupied Free Cooling Mode, Free Cooling Mode, orin Cooling Mode and the economizer damper position
(Outputs →ECON →EC.CP) is greater than 5%(NVO_MODE = 10 or 3). ERV occupancy tells thecontrol which speed to start the outside air fan(s) duringfree cooling, because the outside fan(s) are needed toassist the indoor fan in bringing in outside air.
When in Free Cooling Mode, the ERV’s 2 positiondamper will be open and the wheel will be set to stop/jogoperation. The rooftop unit will modulate the economizerdamper to provide free cooling as if an ERV was notinstalled. As the economizer damper opens the ERVoutside air fan(s) will maintain a speed that producesminimum outside air CFM. Once the economizer damperposition passes that percent fan speed of the outside airfan(s), the fan(s) speed will ramp up directly with theeconomizer damper position, up to 100%. The exhaustfan(s) will run at a speed equal to the required offsetCFM. Refer to Exhaust Control for details on determiningoffset CFM.
IMPORTANT: Refer to the base unit Controls, Start Up,operation, and Troubleshooting manual for details on howthe rooftop unit modulates the economizer damper for freecooling.
Defrost Mode (OA.OP = 4) —
Defrost Mode is only available when the optional FrostProtection is factory installed in the ERV. The ERV willbe set to defrost mode any time the ERV wheel is runningand frost is detected on the wheel. The EXCB D14 LEDwill turn on to indicate the frost switch is active. DefrostMode runs for at least 2 minutes but continues to run untilthe frost is removed. The frost protection device senses apressure differential across the wheel and trips when thatdifferential is greater than the setpoint (default 2.0 in wc).For information on the frost protection device, refer to theMajor Component section.
When in Defrost Mode, the ERV 2 position damper willbe open and the wheel will be rotating. The outside airfan(s) will ramp down to 0% speed (shut--off). Theexhaust fan(s) will run at a speed equal to the requiredoffset CFM. Refer to Exhaust Control for details ondetermining offset CFM.
ERV (DCV) Mode (OA.OP = 1) —
General ERV Mode – ERV Mode is the basic operatingmode of the ERV. With no options installed on the ERVthis will be the only operating mode besides off and test.ERV Mode will be active when the rooftop ComfortLINKmode is Heating, Cooling, Fan Only, or Dehumidification(NVO_MODE = 1, 3, 9, or 14) and the ERV is occupied.
When in ERV mode, the ERV 2 position damper will beopen and the wheel will be rotating. The outside air fan(s)will run at a speed that produces a CFM equal to theminimum outside air CFM setpoint (Configuration→OAU →OA.MN). The exhaust fan(s) will run at aspeed equal to the required offset CFM. Refer to ExhaustControl for details on determining offset CFM.
ERV Mode with DCV – If an optional economizer isfactory installed in the ERV (Configuration →ECON→EC.EN = Yes) and an optional CO2 sensor or switch is
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installed (Configuration →AIR.Q →IA.CF = 1 or 2) or(Configuration →AIR.Q →II.CF = 1 or 2), DCV ERVMode will be active when the rooftop ComfortLINKmode is Heating, Cooling, Fan Only, or Dehumidification(NVO_MODE = 1, 3, 9, or 14) and the ERV is occupied.
When in DCV ERV mode, the ERV 2 position damperwill be open and the wheel will be rotating. The outsideair fan(s) will run at a speed that produces a CFM equal tothe minimum outside air CFM determined by DemandControl Ventilation (DCV). The exhaust fan(s) will run ata speed equal to the required offset CFM. Refer toExhaust Control for details on determining offset CFM.
Sensor Demand Control Ventilation (DCV) uses theindoor air quality levels (CO2 PPM) to determine howmuch outside air is required for ventilation. The ERVmonitors the IAQ (Inputs →AIR.Q →IAQ) reading fromthe rooftop’s installed CO2 sensor and compares it to ahard coded outside air value of 400PPM. The difference isthen weighed on scale between AQ Differential Low(Configuration →AIR.Q →AQD.L) and AQ DifferentialHigh (Configuration →AIR.Q →AQD.H) to determinethe minimum outside air CFM required for ventilation.The minimum outside air CFM can be equal to or betweenthe Min DCV outside air CFM (Configuration →OAU→DCV.M) setpoint and the minimum outside air CFM(Configuration →OAU →OA.MN) setpoint. As the CO2differential rises from AQD.L to AQD.H, the ERV outsideair CFM requirement will rise from DCV.M to OA.MN.The outside air fan(s) will ramp its speed % up or down toproduce the required CFM. If at any time the CO2 sensorfails or IAQ reads 0ppm, the DCV minimum outside airrequirement will be forced to the maximum value(OA.MN). Fig. 6 shows the DCV minimum outside airCFM determination curve.
VENTILATION FOR PEOPLE
VENTILATION FOR SOURCES
INC
REA
SIN
G V
ENTI
LATI
ON
MinimumOutside Air CFM(Min Outside Air CFM)
DCV Outside AirCFM Setpoint(DCV OA SP CFM)
100 700 INSIDE OUTSIDECO2 DIFFERENTIAL
AQDIFFERENTIALLOW (AQD.L)
AQDIFFERENTIALHIGH (AQD.H)
C11464
Fig. 6 -- IAQ DCV Control
Switch Demand Control Ventilation (DCV) uses theindoor air quality levels (High/Low) to determine howmuch outside air is required for ventilation. The ERVmonitors the IAQ switch (Inputs →AIR.Q →IAQ.S)
reading from the rooftop’s installed CO2 switch. Theminimum outside air CFM will be equal to one of thefollowing: Min DCV outside air CFM (Configuration→OAU →DCV.M) setpoint, or the minimum outside airCFM (Configuration →OAU →OA.MN) setpoint. If theCO2 switch reads low the outside air CFM requirementwill be DCV.M. If the switch reads high the outside airCFM requirement will be OA.MN. The outside air fan(s)will ramp its speed % up or down to produce the requiredCFM.
OA Tempering Mode (OA.OP = 3) —
OA Tempering Mode is only available when the optionalelectric heater is field installed in the ERV and enabled(Configuration →OAU →OA.TM = Enable). The ERVcan only be set to OA Tempering mode when the ERV isoccupied and the rooftop is not running cooling orheating. The rooftop must be in Ventilation (Fan--Only)mode (NVO_MODE = 9) and the outside air temperature(Inputs →AIR.T →OAT) must be less than the OATempering Lockout Temp (Configuration →OAU→TM.LO) to allow the ERV to run OA Tempering Mode.The electric heater will then be turned on and modulated0--100% based on the supply air temperature (Inputs→AIR.T →SAT) relative to the OA Tempering SATsetpoint (Configuration →OAU →TM.SP).
When in OA Tempering Mode, the ERV runs as standardERV (DCV) mode: 2 position damper will be open andthe wheel will be rotating. The outside air fan(s) will rampto maintain correct outside air CFM. The exhaust fan(s)will ramp for the required offset CFM. Additionally theERV’s Electric Heater will ramp up 1% every 2 secondsand ramp down 2% every 1 second based on how far theSAT is away from the setpoint. If the SAT equals thesetpoint then the Electric heater will remain at currentpercentage.
Exhaust Control
When the Power Exhaust control is set of Offset CFM(Configuration →OAU →PEX.C = 0), the ERV exhaustfan(s) operate to offset the outside air being introduced tothe building. The required exhaust offset CFM isdetermined based on the exhaust offset setpoint(Configuration →OAU →PE.OF). The exhaust offsetsetpoint can be set as a negative or positive number toaccommodate a requirement of positive or negativebuilding pressure. A positive setpoint will produce anegative building pressure. A negative setpoint willproduce a positive building pressure.
The ERV will determine the required amount of outsideair CFM based on setpoints and current mode ofoperation. The commanded exhaust air CFM (Run Status→OAU →C.EX) is then calculated by the sum of theactual outside air CFM (Run Status →OAU →A.OA)and the exhaust air offset setpoint (PE.OF). During defrostmode the exhaust will run the same as if the outside airfan(s) were still running.
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When the Power Exhaust Control is set for Buildingpressure control (Configuration →OAU →PEX.C = 1),the ERV exhaust fan(s) operate to maintain a buildingpressure. A building pressure transducer must bepurchased separately and properly field installed in theERV. A desired building pressure is set as BuildingPressure Setpoint (Configuration →OAU →BP.SP). Theactual building pressure (Run Status →OAU →BP) iscompared to the setpoint (BP.SP). The exhaust fan willthen be ramped up and down at the rate of 1% every 2seconds to try and maintain the desired building pressure.The exhaust fan(s) will slow to increase the buildingpressure and speed up to decrease the building pressure.
Wheel Stop/Jog
During free cooling the wheel utilizes a “stop--jog”operation to periodically rotate the wheel and minimizepotential dirt build--up and excess wear on one section ofthe wheel. The wheel will rotate for 5 seconds then stopfor 5 minutes.
Status Points
The ERV updates points within ComfortLINK to representits running status. These points are shown in Table 6 andcan be viewed on the scrolling marquee or handheldnavigator under the run status outside air menu (RunStatus →OAU). These points include but not limited to:commanded and actual outside air CFM, commanded andactual exhaust air CFM, ERV outputs, software versions,and internal ERV air temperatures.
TROUBLESHOOTING
EnergyX units are a combination of the base rooftop unitand an integrated ERV. The ERV requires communicationfrom the rooftop for operation. This section covers ERVtroubleshooting only. For rooftop troubleshooting refer tothe base unit’s Service manual.
Complete ERV Stoppage
There are several conditions that can cause the ERV toshutdown or appear to be shutdown:
S General power failure.
S Transformer’s circuit breaker tripped.
S ERV main power fuses blown.
S Communication failures.
S Active alarm on the base rooftop unit or the ERVpreventing operation. Review alarms.
S Programmed occupancy schedule. Rooftop Unoccupied
S Rooftop indoor fan is off.
S The airflow sensor tubing connected to the incorrecthigh/low sensor ports in the outside air.
Check Alarms
The ERV has 4 possible alarms based on options installedin the ERV. These alarms are described in detail below.They all show up as a T418 alarm in ComfortLINK.Pressing enter and escape together on the scrollingmarquee or navigator will expand the text and provide thespecific alarm condition. There are 4 status points viewedunder Operating Modes on the Scrolling Marquee orNavigator (Operating Modes → OAU) for each alarm tohelp diagnose which alarm caused the T418 inComfortLINK. These will all reset automatically when thesituation has been resolved.
T418 OAU Filter Dirty
The ERV’s dirty filter alarm should only occur if theoptional Filter Maintenance Switch is installed on theERV. The dirty filter alarm activates due to an increase indifferential pressure across the filters. The EXCB’s D16LED will be turn on and the OAU Dirty Filter Alarmpoint will be turned to on (Operating Modes → OAU →ALM.2 = On). The alarm does not affect unit operationbut serves as a warning to replace the filters. It willautomatically reset when the pressure differential fallsbelow setpoint. Verify proper operation by partiallyblocking airflow through the ERV filters and confirmingthat the alarm does trip.
T418 OAU Motor Failure
This alarm indicates a motor problem in the ERV, any oneof the motors can trip this alarm (outside intake, exhaustand/or the wheel motor). The intake and exhaust motorshave build in motor diagnostics and the wheel motorstatus is a field accessory. Since these are feed into thesame alarm, it is important to determine which one ishaving the problem. In test mode run the componentsindividually to determine which is causing the problem. Ifthe Shut Down on fan failure configuration is set to Yes(Configuration → OAU → OAU.F = Yes), the ERV willshutdown with this alarm active. If set to no, the ERV willcontinue to run as if the alarm did not occur, outside airCFM, exhaust CFM, or pre--conditions might not beachievable if a motor fails. The two classes of motorstatus are explained below.
Intake and Exhaust Motor Status – If any one of theERV’s outside or exhaust motors detects a problem, it willclose its build in normally open alarm contact, which willbe seen as 24vac at EXCB J8--3. The EXCB’s D18 LEDwill be turn on and the OAU Motor Failure Alarm pointwill be turned to on (Operating Modes → OAU →ALM.1 = On). This alarm will automatically reset whenthe motor opens its alarm relay. This alarm is tripped byone of the following: phase loss, locked rotor, thermaloverload, communication error, incorrect signal, or a fanfailure.
Wheel Status – This alarm will occur when the ERVwheel is turned on and the wheel proxy sensor does notdetect wheel motion within the set time. It will open its
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contact which energizes the normally closed rotationmonitor relay. This is seen as 24vac at EXCB J5--3 andcauses the alarm. The EXCB’s D12 LED will be turned onand the OAU Motor Failure Alarm point will be turned toon (Operating Modes → OAU → ALM.1 = On). Thisalarm will automatically reset when motion is detected.Possible causes of this alarm are: the wheel belt breakingor slipping, wheel motor failure, proxy sensor failure orincorrect setting, or wiring error.
T418 OAU Low CFM
This alarm indicates that the ERV cannot bring in thedesired amount of outside air. The alarm occurs when theactual outside air CFM (Operating Modes → OAU →A.OA) is less than 10% of the commanded outside airCFM (Operating Modes → OAU → C.OA) after 10minutes. This alarm will not occur in test mode or defrostmode. The Rooftop unit might be able to help by rampingits indoor fan up. Refer to the base controls, start up,operation, and troubleshooting manual for details. TheOAU Low CFM Alarm point will be turned to on(Operating Modes → OAU → ALM.3 = On). This alarmwill automatically reset if the actual CFM is within 10%of the commanded CFM. Possible causes of this are:outside air CFM setpoint set too high, dirty filter orplugged screen, pressure tubing wrong or disconnected,wrong OA CFM curve programmed, or RTU indoor fanspeed running too low.
T418 OAU General Alarm
This alarm is not currently used by the ERV.
Check Diagnostic LEDs
Use the on board LEDs to assist in troubleshooting theEnergyX system. The EnergyX Control Board (EXCB)and the Universal Protocol Converter (UPC) each haveLEDs that can help in the troubleshooting process. SeeTables 7 to 9.
The EXCB has five green LEDs and one red LED. Thered LED is for power indication and the green LEDs arestatus indicators.
The UPC has seven LEDs. There are four communicationLEDs and three status LEDs. The communication LEDsindicate if the translator is speaking to the devices on thenetwork and should reflect communication traffic basedon the baud rate set. The higher the baud rate, the LEDswould become more solid.
Communication Failures
Communication is critical for ERV operation. It can fail ontwo different paths; between the UPC and the rooftop(LEN), or between the UPC and the EXCB. This makes theUPC critical to ERV operation. Make sure the UPC DIPswitches and rotary switches are set correctly. Make sure theboard hardware jumpers are set on EIA 485 and 2W. Duringnormal operation the 4 communication LEDs will flashinterchangeably. If all 4 LEDs are not flashing then there is acommunication problem. Check connections between Port1a and rooftop’s LEN connection and Port 2 and the EXCBJ23 (verify with the proper unit schematic).
The ERVs, LCD screen will show specific communicationfailures when they occur. Use the LCD screen to helptroubleshoot communications failures. If communicationis established, the LED shows “communicationconnected”.
Comm Failure1 – UPC to LEN Fail —
This will be displayed if the EXCB can communicate withthe UPC, but the UPC does not receive information fromComfortLINK. This will occur if the cable is pinched ordisconnected, wired wrong or loose, or if the UPC isconfigured wrong.
Comm Failure2 – UPC to EXCB Fail —
This will be displayed if the EXCB cannot communicatewith the UPC. This will occur if the connection betweenthem is disconnected or pinched. This will also occur ifthe UPC does not have power or software, or if it has anerror or configured wrong.
On--board Pressure Transducers
The EXCB uses on--board pressure transducers to measurethe air pressure of the incoming outside air and thebuilding exhaust air. The CFM values are then calculatedbased on these readings and the fan speed. There is apressure transducer for the outside air and one for theexhaust air. These are screwed into the EXCB board toJ24 and J25 respectively. They have three pins: IN, GND,and OUT. The IN pin is 5vdc input power and GND is thecommon or ground pin. The OUT pin will be 0.26 to4.5vdc based on the pressure reading. There are twodifferent transducers used, two inch of water column(inWC) and 5 inWC. Table 10 shows the voltage/pressurecharacteristics of each.
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Table 7 – EXCB LED Indicators
LED COLOR DESCRIPTION STATUS IF LIGHT IS LIT
D9 Red 24vAC board power Board has power
D2 Green Run light Flashing ERV is Running
D12 Green ERV Wheel Status Alarm ERV Wheel not rotating when it should be
D14 Green ERV Wheel Frost Protection ERV detects frost on the wheel and running in Frost Mode
D16 Green ERV Dirty Filter Alarm Dirty Filter
D18 Green ERV Blower Status Alarm Fan Failure
Table 8 – EXUPC LED Indicators
LED COLOR DESCRIPTION STATUS IF LIGHT IS LIT
Power Green Power Indicator Lights when power is being supplied to the translator.
Rx1 Green Port 1 Receiving Data Lights when the translator receives data from ComfortLINK MBB via LEN
Rx2 Green Port 2 Receiving Data Lights when the translator receives data from the Modbus EXCB
Tx1 Green Port 1 Transmitting Data Lights when the translator transmits data to the ComfortLINK MBB via LEN
Tx2 Green Port 2 Transmitting Data Lights when the translator transmits data to the Modbus EXCB
Run Green Run indicator Lights based on translator health. See Table 9.
Error Red Internal Error indicator Lights based on translator health, See Table 9.
Table 9 – EXUPC LED Flash Code Diagnostics
Run LED Status Error LED Status ERV Module Status
2 flashes per second Off Normal
2 flashes per second 2 flashes, alternating with Run LED 5 minute auto--- restart delay after system error
2 flashes per second 3 flashes then off Module has just been formatted
2 flashes per second 4 flashes then pause Two or more devices on this network have the sameARC156 network address
2 flashes per second 1 flash per second Module is alone on the network
2 flashes per second On Operation halted after frequent system errors orcontrol programs halted
5 flashes per second On Operation start---up aborted. Boot is running
5 flashes per second Off Firmware transfer in progress. Boot is running
7 flashes per second 7 flashes per second, alternating with Run LED Ten second recovery period after brownout
14 flashes per second 14 flashes per second, alternating with Run LED Brownout
Alternating with Error Alternating with Run Restoring memory from Archive
Table 10 – Transducer/Voltage vs. Pressure
Voltage(vDC)
Pressure (inWC)
2” transducer 5” transducer
<=0.26 0 0
0.5 0.12 0.28
1 0.34 0.87
1.5 0.53 1.46
2 0.82 2.05
2.5 1.06 2.64
3 1.30 3.23
3.5 1.52 3.82
4 1.76 4.41
4.5 2.00 5.00
MAJOR SYSTEM COMPONENTS
An EnergyX unit has a factory installed energy recovery(ERV) device on a 48/50HC rooftop unit. The EnergyXenergy recovery unit is integrated into the base rooftopunit construction and is factory wired. The energyrecovery unit contains a control box, supply fan(s),exhaust fan(s), and an enthalpy wheel assembly. Allcontrol operations of the ERV are based on the rooftopunits operation through communication with ComfortLINK.See Fig. 7 and 8 for ERV wiring schematic and componentarrangement.
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C11466
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C11465
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EnergyX Control Board (EXCB)
See Fig. 9 and Table 11.
The EXCB board is the muscle of the ERV control system.It acts as just an I/O board that does what the UPCcommands. The EXCB continuously monitors input/outputchannel information received from its inputs and from theUniversal Protocol Converter (UPC). The EXCB receives
inputs from transducers and discrete inputs. See Options andAccessories section. The EXCB has relay analog outputs,and is equipped with a LCD screen. The EXCBcommunicates with a Modbus protocol and is not a CCNdevice. The EXCB is a reset button that is used to force allthe outputs and reset communication.
NOTE: There are hardware jumpers set throughout the.Do not change these jumpers.
C11467
Fig. 9 -- EnergyX Control Board (EXCB)
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Table 11 – EXCB Input/Output Connections
POINT DESCRIPTION SENSOR LOCATION Input/Output TYPE OFInput/Output
CONNECTIONPIN NUMBER
Download N/A Both Communication J1
LCD Low voltage control box Both Communication J2
Power from TRANS Control box Input 24VAC J3, 1---2
Power to Relays Low voltage control box Output 24VAC J4, 1
Power to UPC Low voltage control box Output 24VDC J4, 3---4
Wheel Rotation Sensor Attached to scoop Input Switch J5, 2---4
Frost Switch Attached to scoop Input Switch J6, 3---4
Filter Status Switch Attached to scoop and in Exhaustair section Input Switch J7, 3---4
Motor Status Switches Integrated in motors Input Switch J8, 3---4
Leaving Air Temp Scoop section Input 10K J15, 1---2
Exhaust Air Temp Exhaust air section Input 10K J16, 1---2
Wheel Relay High voltage control box Output Relay J17, 4
2---position Exhaust damper relay Exhaust damper assembly Output Relay J19, 4
OA fan speed signal N/A Output 2---10vdc J21, 1---3
OA Modulating Damper Intake damper assembly Output 2---10vdc J21, 1---4
EX fan speed signal N/A Output 2---10dvc J22, 1---3
Modbus to UPC Control box Both Communication J23, 1---3
Outside Air pressure Transducer Low voltage control box Input Digital 0---5vdc J24
Exhaust Air pressure Transducer Low voltage control box Input Digital 0---5vdc J25
Building Pressure Sensor Low voltage control box Input 4---20mA J10, 1---6
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Universal Protocol Converter (UPC)
See Fig. 10 and Table 12.
The UPC board is required to convert CCN into Modbus.It is also the brains behind the ERV. It contains theoperating software that runs the ERV logically. The UPC
is connected to the ComfortLINK LEN bus on the rooftopunit.
NOTE: The DIP switches should be set as follows: 1=off,2=off, 3=on, 4=on, 5=off, 6=off, 7=on, and 8=off. Theaddress rotary switches should be set to 01 (10’s=0 and1’s=1). Do not change these settings.
C11468
Fig. 10 -- Universal Protocol Converter (UPC)
Table 12 – UPC Input/Output Connections
TERMINAL NAME DESCRIPTION Input/Output TYPE OFInput/Output
CONNECTIONPIN NUMBER
24VAC Supply power to UPC Input 24VAC 1---2
Port 2 UPC Modbus both Communication 1---2
Port 1a UPC LEN both Communication 1---3
Port 1b Not used N/A N/A N/A
Rnet BACview User Interface orDownload Connection
both Communication 1---4
Local Access both Communication 1---5
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User Interface
All ERV set point adjustment, service tests, and monitoringare accomplished through the ComfortLINK scrollingmarquee interface. See the ComfortLINK Controls,Start--Up, Operation and Troubleshooting Instructions forfurther details on ComfortLINK operation. The ERVEXCB board has a LCD screen that can be used to helptroubleshoot communication problems. The following areexamples of the text that can be seen on the EXCB’s LCDscreen.
LCD Texts —
Initialize_LEN Communication – This will occur whenthe ERV is turned on from a power reset.
Communication Connected – This will be displayedwhen correct communication is established between theRTU and ERV and within the ERV.
Comm Failure1 UPC_to_LEN_Fail – This occurs ifthere is a communication problem between the UPC andComfortLINK MBB.
Comm Failure2 UPC_to_EXCB_Fail – This will occurif there is a communication problem between the UPC andthe EXCB.
Warning UPC TestMODE_Enabled – This will occur ifthe UPC was left in a factory Test mode a BACviewHandheld is needed to pull the ERV out of this mode backto normal running mode.
Enthalpy Wheel
The enthalpy wheel is the “heat exchangers” of the ERV.It consists of several wheel segments aligned in a cassetteassembly. These are not “filters” but made of a desiccantmaterial. The wheel is rotated by a motor and belt, noadjustments required. When the wheel rotates it uses thebuilding exhaust air to pre--conditions the outside air as itpasses through the wheel.
Modulating Fan
The modulating ERV is equipped with direct drivevariable speed plenum fans for outside air intake andexhaust air. The motors have built in VFDs that accept a2--10vdc signal from the EXCB. This 2--10vdc signal isused by the VFD to determine the speed to run the motorat (0--100%). Some ERV models are equipped withmultiple outside air and/or exhaust air fans. The additionalmotor’s signal is parallel off the first motor through thecoupling signal plug. Motor status switches are alsoparalleled for additional motors.
Each motor is capable of diagnosing problems within themotor to provide fan status. The fan status switches arebuilt into each motor and provide a feedback to the EXCBif a problem is detected. The feedback signal is a discreteinput that is normally open, when closed the EXCB willinitiate the motor status alarm.
Modulating Outside Air Damper
ERV units include a factory installed modulating outside airdamper. This damper is controlled in parallel with themodulating intake fan(s). This damper adds static to theoutside air and will be open to the same percentage as theoutside air fan(s) is running. The modulating outside airdamper will also close in the unoccupied mode to preventunwanted air from being introduced to the rooftop unit.
Options and Accessories
The modulating ERV has several optional factory installedoptions and field installed accessories: Frost Protection,Economizer, Wheel Motor Status, Filter Maintenance,horizontal adaptor curb, building pressure sensor, OutsideAir Tempering Kit, and 2--Position Exhaust Damper. Referto Table 11 for where these options wire into the EXCB.
Economizer Damper (factory installed only)
The economizer damper is a factory installed option thatprovides a wheel bypass damper. This damper is controlledby the base unit rooftop as an economizer for the purpose offree cooling. The damper is installed adjacent to the ERVwheel to allow outside air to flow through it when openedinstead of the wheel. The ERV’s outside air fan(s) will runas this damper is opened to allow proper airflow.
Frost Protection (factory installed only)
Frost protection is a factory installed pressure sensor devicewhich senses a differential pressure across the wheel. Thisoccurs if frost builds up on the wheel. The sensor closes itscontact when the pressure differential is greater than thesetpoint. When the EXCB reads the contact closer it willactivate defrost mode. The setpoint is a dial on the sensor, isadjustable from 0.2 to 2.0 inWC, and is factory preset to 2.0inWC. Changing this setting may cause false signal causingdefrost mode when not needed.
Wheel Motor Status (field install only)
The wheel motor status accessory can be installed in thefield and consists of a wheel motion proxy sensor and arelay. The wheel motion sensor is aimed at the wheel todetect rotation. If the wheel does not rotate at the appropriatespeed the sensor will open causing the rotation monitor relayto close a contact to initiate the wheel status alarm. Themotion sensor is factory set at the highest speed (clockwiseuntil stop) and should not be changed. Refer to thetroubleshooting section for details on the alarms.
Filter Maintenance (field install only)
Filter maintenance consists of two field installed pressuresensor devices which sense differential pressure across theERV filters. This occurs if dirt builds up on the filters.There is a separate pressure sensor for each filter (outsideair and exhaust air). The sensor closes its contact when the
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pressure differential is greater than the setpoint. Thesensors are wired in parallel, so when the EXCB reads acontact closer from either sensor it will activate the filteralarm. The setpoint is a dial on the sensor, is adjustablefrom 0.2 to 2.0 inWC, and is factory preset to 2.0 inWC.Changing this setting may cause false signal causing falsedirty filter alarms.
Horizontal Transition Curb (field install only)
EnergyX units must receive vertical return. If theapplication requires horizontal return then a horizontaltransition curb must be used. The 15--25 ton units cannotbe field converted to horizontal supply. To accomplishhorizontal supply on a 15--25 ton unit a horizontaltransition curb must be used.
SERVICE & MAINTENANCE
Refer to base unit’s Service manual for base unit service andmaintenance. This section contains service and maintenancefor just the ERV unit.
Cleaning
Wheel and Segment Cleaning
Wheel cleaning periodicity is application dependent. Fieldexperience shows that offices, schools and other “clean”environments will often go 10 years before any build upof dust and dirt is noticed. Other applications such asrestaurants, casinos and factory environments mayexperience fairly rapid build--up of contaminants and mayrequire multiple cleanings per year to maintain airflowand recovery efficiencies.
All air--to--air energy recovery devices will become dirtyover time, even with well--maintained filtration. Properfiltration usage and changes will improve the life of thewheel transfer segments. Once the wheel is exposed tooils, tars or greases in either the supply or exhaust airstreams, these pollutants deposit on the rotary surfacewhich they become “sticky” and begin to attract and holdthe dust particles that previously passed thru the wheel.Over time this particle build up can lead to blockedairflow passages, loss of recovery, excessive pressure dropthrough the wheel and loss of energy savings.
1. Follow steps for wheel and segment removal toremove the affected energy transfer matrix segments.
2. Gently brush the wheel face to remove looseaccumulated dirt.
3. Wash the segments with a non--acid based(evaporator) coil cleaner or alkaline detergentsolution. Non--acid based coil cleaner such as KMPActi--Clean AK--1 concentrate in a 5% solution hasbeen demonstrated to provide excellent results. DONOT use acid based cleaners, aromatic solvents,temperatures in excess of 170_F or steam! Damage tothe wheel will result.
4. Soak the wheel and/or segments in the cleaningsolution until all grease and tar deposits are loosened.
An overnight soak may be required to adequatelyloosen heavy deposits of tar and oil basedcontaminants.
5. Internal heat exchange surfaces may be examined byseparating the polymer strips by hand. (Note: somestaining of the desiccant may remain and is not harm-ful to performance.)
6. After soaking, rinse the dirty solution from the wheelsegments until the water runs clear.
7. Allow excess water to drain prior to replacing seg-ments in the wheel. A small amount of water remain-ing in the wheel will be dried out by the airflow.
Filters
Clean or replace at start of each heating and coolingseasons, or more often if operating conditions require(based on filter manufacture recommendation or filterstatus alarm indication). Refer to Tables 1 and 2 for typeand size of filters.
Outdoor--Air Inlet Screens
Clean screens with steam or hot water and a milddetergent at the beginning of each heating and coolingseason. Do not use throwaway filters in place of screens.
Lubrication
All component bearings are sealed and do not requirelubrication.
Wheel Drive Adjustment
The wheel motor and drives do not require adjustment.The wheel drive pulley is secured to the drive motor shaftby a set screw. The set screw is secured with removablelocktite to prevent loosening. Annually confirm set screwis secure. The wheel drive belt is a urethane stretch beltdesigned to provide constant tension throughout the life ofthe belt. Inspect the drive belt annually for proper trackingand tension. A properly tensioned belt will turn the wheelimmediately after power is applied with no visibleslippage during start--up.
Wheel Air Seal Adjustment
Diameter seals are provided on each wheel cassette tominimize transfer of air between the counter flowingairstreams. Follow below instructions if adjustment isneeded.
1. Loosen diameter seal adjusting screws and back sealsaway from the wheel surface. See Fig. 11.
2. Rotate the wheel clockwise until two opposing spokesare hidden behind the bearing support beam.
3. Using a folded piece of paper as a feeder gauge, posi-tion the paper between the seal and wheel surface.
4. Adjust the seal towards wheel surface until a slightfriction on the feeder gauge (paper) is detected whilemoving the gauge along the length of the spoke.
5. Re--tighten adjustment screws and re--check clearancewith the feeder gauge.
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Rotation
Adjusting Screws
Feeler Gauge
ToAdjust
C11469
Fig. 11 -- Diameter Seal Adjustment
Wheel and Segment Removal / Installation
The wheel and segments represent a substantial portion ofthe value of the cassette therefore must be handled withcare and never be dropped. Use a suitable crate or harnessto lift wheel and segments to a roof surface, never use theshipping cartons for this purpose. Wheel and segmentsmay require “slight” persuasion during installation andremoval but never forced or impacted with a hammer orsimilar tool. The wheel assembly can be removed andinstalled or the wheel or segments can be removed fromthe assembly.
UNIT DAMAGE HAZARD
Failure to follow this caution may result in equipmentdamage.
The weight of the wheel assembly must be supportedwhen the assembly is extended from the unit chassisto avoid damage to wheel or unit.
CAUTION!
ERV wheels on 15 to 25 ton units are segmented wheelassemblies. To remove or installed the whole assembly,simply side in or out the assembly noting the motor powerplug.
Wheel Segment Removal / Installation
1. Turn off, lockout and tag--out electrical power to unit.2. Open access door to the EnergyX module on back
side of the unit.3. Slide the entire wheel assembly out until the necessary
segment(s) of the wheel can be accessed. Support theweight of the wheel assembly as necessary to avoiddamage to wheel or unit.
PERSONAL INJURY HAZARD
Failure to follow this caution may result in personalinjury.
Weight of the installed segment will cause the wheelto accelerate in rotation as segments are removed.Failure to maintain control of the wheel rotation whileinstalling all segments could cause severe injury tofingers or hand caught between revolving spokes andthe bearing support beam. The handle of a tool such asa hammer, should be inserted through spokes andabove or below bearing support beams to limitrotation of unbalanced wheel. See Fig. 12.
CAUTION!
Hammer usedas a “stop”
C11470
Fig. 12 -- Wheel Stop
4. Position one segment opening at the top of the cassette.5. Unlock and open the segment retaining brackets on both
sides of the selected segment opening. See Fig. 13.
Catch Pull Tab
C11471
Fig. 13 -- Segment Retaining Brackets
6. Gently lift segment outward.7. Close segment retaining latches and rotate wheel
180_ to remove next segment. Follow this pattern toremove all segments and keep wheel balanced.
8. To install the wheel segments, hold the segment asvertically as possible and centered between spokes,insert nose of segment downward between the hubplates. See Fig. 14.
NOTE: The face of the segment, with the imbedded stiffener(vertical support between nose and rim end of segment) mustface the motor side of the cassette. See Fig. 15.
EnergyX
![Page 29: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/29.jpg)
29
C11472Fig. 14 -- Segment Removal
Imbedded Stiffeners
C11473
Fig. 15 -- Imbedded Wheel Stiffeners(shown from motor side of wheel assembly)
9. Ease the segment downward until its outer rim clearsthe inside of the wheel rim. Press the segment inwardagainst the spoke flanges.
10. Close and latch segment retaining brackets to the pos-ition shown in Fig. 13 Make certain the retainingbracket is fully engaged under the catch.
11. Slowly rotate, by hand, the first installed segment tothe bottom of the cassette, and then install the secondsegment opposite the first. Repeat this sequence withthe two installed segments rotated to the horizontalposition to balance the weight of installed segments.
12. Continue this sequence with the remaining segmentsas necessary.
13. When complete, close access door and remove lock-out and tag--out to apply power to unit.
Whole Wheel Removal/Installation(36” & 46” wheels)
These wheels include the shaft and are secured to tow wheelsupport beams by two flange bearings with locking collars.
Follow the steps below for removal and reverse forinstallation. See Fig. 16.
1. Loosen the two set screws on each to the two wheelbearings.
2. Remove belt from pulley and position temporarilyaround wheel rim.
3. Remove pulley side wheel support beam with bear-ing, by removing four support beam screws.
4. Pull the wheel with the shaft straight out of the motorside wheel support beam and bearing. Handle wheelwith care.
5. When replacing wheel be certain to tighten four bear-ing set screws. Premature bearing failure can occur ifnot set tightly.
WHEEL,HUB &SHAFT
SETSCREWS(2 EACH)
FLANGEBEARINGS(2)
WHEEL SUPPORT BEAMS
C11474Fig. 16 -- 36” & 46” Wheel Mount
Outside Air and Exhaust Air Hood Removal
Outside Air Hood Removal
1. Turn off, lockout and tag--out electrical power to unit.2. Remove the hood by removing the seal--tek screws
along the perimeter of the hood. See Fig. 17.NOTE: Even after all screws have been removed fromentire perimeter of hood, it will still be difficult to removedue to the gasket applied from original installation. Takecare not to damage the gasket. If damage occurs use9430--2300 gasket to replace before reattaching the hood.
3. Disconnect the green (HIGH) and yellow (LOW)tubes attached to the quick connects located inside theERV. Do NOT damage the tubes.
Exhaust Air Hood Removal
1. Turn off, lockout and tag--out electrical power to unit.2. Remove the hood by removing the seal--tek screws
along the perimeter of the hood.NOTE: Even after all screws have been removed fromentire perimeter of hood, it will still be difficult to removedue to the gasket applied from original installation. Takecare not to damage the gasket. If damage occurs use9430--2300 gasket to replace before reattaching the hood.
EnergyX
![Page 30: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/30.jpg)
30
Detail “A”High and Low
Quick Connects
A
C11491
Fig. 17 -- Outside Air Hood Removal
C11492
Fig. 18 -- Exhaust Air Hood Removal
EnergyX
![Page 31: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/31.jpg)
31
Outside Air Motorized Damper Removal1. Turn off, lockout and tag--out electrical power to unit.2. Remove the outside air motorized damper access
panel by removing the seal--tek screws around theperimeter (see Fig. 19).
NOTE: Even after all of the screws have been removedfrom the panel it still may be difficult to remove due tothe gasket applied from the original installation. Take carenot to damage the gasket. If damage occurs use9430--2300 gasket to replace before reattaching the panel.
3. Disconnect the connector labeled PL06 for thedamper motor from the wiring harness inside the airchamber of the EnergyX unit.
4. Slide out the outside air motorized damper by pullingit along the track guides. See Fig. 19.
Outside Air and Exhaust Fan Replacement
Outside Air Fan Removal
1. Turn off, lockout and tag--out electrical power to unit.2. Remove outside air hood (see procedure on page 29).3. Remove outside air motorized damper (see procedure
on page 31).
4. Remove the lower and upper guides for the outsideair motorized damper by removing the screws alongthe length of the flanges connecting them to theinside fo the ERV unit.
5. Disconnect the connector PL121, PL123 and thepower wires for the exhaust fan motor from thewiring harness inside the air chamber fo the EnergyX.
6. Remove the fasteners at each corner of the outside airfan that secure the outside air fan front panel to thedividing wall by access through the hood opening ofthe ERV. See Fig. 20.
NOTE: See instructions for removing the wheel andsupply filters if more room is needed to access the outsideair fan through the door for better maneuverability.
7. Remove the four bolts holding the front fan panelonto the rest of the outside air fan assembly.Completely remove this panel from the EVR.
NOTE: Tilt the fan assembly front panel to fit it throughthe hood opening.
8. Pull the outside air fan out through the hood opening.See Fig. 21.
NOTE: Tilt the fan assembly to fit its back panel throughthe opening in the dividing wall.
OutsideAir DamperAccess Panel
MotorizedOutside Air Damper
C11493
Fig. 19 -- Outside Air Motorized Damper Removal
EnergyX
![Page 32: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/32.jpg)
32
Detail “A” -Outside Air Fan Assembly
Remove Bolts: 4 - Places
Outside Air Fan Assembly,see Detail A(access panelnot shown)
Remove Fasteners: 4 - Places
C11495
Fig. 20 -- Remove Fasteners from Corners of Outside Air Fan Assemble
C11496
Fig. 21 -- Outside Air Fan Removal
EnergyX
![Page 33: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/33.jpg)
33
Exhaust Fan Removal
1. Turn off, lockout and tag--out electrical power to unit.2. Remove the exhaust fan access panel by removing
the seal--tek screws around the perimeter (see Fig.19).
NOTE: Even after all of the screws have been removedfrom the panel it still may be difficult to remove due tothe gasket applied from the original installation. Take carenot to damage the gasket. If damage occurs use9430--2300 gasket to replace before reattaching the panel.
3. Open the door to the EnergyX unit in order to gainaccess to the exhaust fan front panel.
NOTE: See instructions for removing the wheel andexhaust filters if more room is needed to access theexhaust fan front panel.
4. If installed, remove the exhaust motorized damper.5. Remove the fasteners around the perimeter of the
exhaust fan that secure the exhaust fan front panel tothe dividing wall by access through the door of theunit. See Fig. 22.
6. Disconnect connectors PL120 and PL122 as well as thepower wires for the exhaust fan motor from the wiringharness inside the air chamber of the EnergyX unit.
7. Remove the exhaust fan by moving it back and thenout the side of the unit through the exhaust motorizeddamper access panel. See Fig. 23.
Detail “A” -Exhaust Fan Assemblysecured to Dividing Wall
Remove Fasteners: 8 - Places
C11497
Fig. 22 -- Exhaust Fan Assembly -- Fastener Locations
EnergyX
![Page 34: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/34.jpg)
34
Exhaust Fan Assembly
C11498
Fig. 23 -- Exhaust Fan Assembly -- Removal
EnergyX
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35
APPENDIX
Appendix A —Certified Dimension Drawings
Appendix B — Exhaust Fan PerformanceCurves
EnergyX Modulating Volume 15--25 Ton Units
Appendix C — Electrical Data:
48HC -- with ERV: Unit Wire/Fuse or HACR BreakerSizing Data
50HC -- with Electric Heat and ERV: Unit Wire/Fuseor HACR Breaker Sizing Data
EnergyX
![Page 36: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/36.jpg)
36
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11416
Fig
.24
--48
HC
--17
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et1
of2)
EnergyX
![Page 37: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/37.jpg)
37
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11417
Fig
.25
--48
HC
--17
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et2
of2)
EnergyX
![Page 38: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/38.jpg)
38
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11418
Fig
.26
--48
HC
--20
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et1
of2)
EnergyX
![Page 39: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/39.jpg)
39
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11419
Fig
.27
--48
HC
--20
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et2
of2)
EnergyX
![Page 40: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/40.jpg)
40
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11420
Fig
.28
--48
HC
--24
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et1
of2)
EnergyX
![Page 41: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/41.jpg)
41
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11421
Fig
.29
--48
HC
--24
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et2
of2)
EnergyX
![Page 42: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/42.jpg)
42
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11422
Fig
.30
--48
HC
--28
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et1
of2)
EnergyX
![Page 43: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/43.jpg)
43
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11423
Fig
.31
--48
HC
--28
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Gas
Hea
tan
dE
RV
(She
et2
of2)
EnergyX
![Page 44: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/44.jpg)
44
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11424
Fig
.32
--50
HC
--17
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
1of
2)
EnergyX
![Page 45: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/45.jpg)
45
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11425
Fig
.33
--50
HC
--17
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
2of
2)
EnergyX
![Page 46: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/46.jpg)
46
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11426
Fig
.34
--50
HC
--20
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
1of
2)
EnergyX
![Page 47: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/47.jpg)
47
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11427
Fig
.35
--50
HC
--20
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
2of
2)
EnergyX
![Page 48: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/48.jpg)
48
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11428
Fig
.36
--50
HC
--24
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
1of
2)
EnergyX
![Page 49: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/49.jpg)
49
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11429
Fig
.37
--50
HC
--24
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
2of
2)
EnergyX
![Page 50: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/50.jpg)
50
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11431
Fig
.38
--50
HC
--28
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
1of
2)
EnergyX
![Page 51: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/51.jpg)
51
AP
PE
ND
IXA
—C
ER
TIF
IED
DIM
EN
SIO
ND
RA
WIN
GS
C11432
Fig
.39
--50
HC
--28
Sing
leZ
one
Ele
ctri
cC
oolin
gw
ith
Ele
ctri
cH
eat
and
ER
V(S
heet
2of
2)
EnergyX
![Page 52: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/52.jpg)
52
APPENDIX B — EXHAUST FAN PERFORMANCE
Many applications that utilize energy recovery incorporateducted return/exhaust air paths. In these applications it isimportant to consider the duct pressure of thereturn/exhaust just as a designer would consider theeffects of the supply duct static pressure on the airflow ofthe rooftop unit itself.
EnergyX Modulating Volume 15--25 Ton Units
The exhaust fan in the Modulated Volume EnergyX unitwill assist the rooftop unit fan in pulling air through the
exhaust/return duct. These exhaust fans are backwardscurved impeller designs which are capable of significantmore static pressure operation than typical forward curvedfan designs. The following exhaust fan performancecurves are provided for additional guidance whenconsidering return/exhaust duct design.
NOTE: If application designs require two separate ducts(one for exhaust air, one for return air) contact yourCarrier Sales Engineer for additional guidance prior tospecification or ordering.
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
0.00 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00
EMP - ECONOMIZER MODE
EMP - ERV MODE
External Static Pressure (in H20)
CFM
C11437
Fig. 26 -- 15 Ton MRT Unit ERV Supply and Exhaust Fan Performance Curves
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
0.00 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00
EMR - ECONOMIZER MODE
EMR - ERV MODE
External Static Pressure (in H20)
CFM
C11438
Fig. 27 -- 17.5 Ton MRT Unit ERV Supply and Exhaust Fan Performance Curves
EnergyX
![Page 53: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/53.jpg)
53
00.00 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00
External Static Pressure (in H20)
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000EMS - ECONOMIZER MODE
EMS - ERV MODE C
FM
C11439
Fig. 28 -- 20 Ton MRT Unit ERV Supply and Exhaust Fan Performance Curves
00.00 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 4.50 5.00
External Static Pressure (in H20)
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000EMT - ECONOMIZER MODE
EMT - ERV MODE
CFM
C11440
Fig. 29 -- 25 Ton MRT Unit ERV Supply and Exhaust Fan Performance Curves
EnergyX
![Page 54: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/54.jpg)
54
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
48H
C--
wit
hE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a
48HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
NOC.O.orUNPWRC.O.
w/PWRDC.O.
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
17
208/230---3---60
STD
84.4
100
90409
92.2
100
99417
89.2
100
95414
97.0
110
104
422
MED
87.1
100
93426
94.9
110
102
434
91.9
100
99431
99.7
110
107
439
HIGH
91.9
100
99435
99.7
110
107
443
96.7
110
104
440
104.5
125
113
448
460---3---60
STD
42.1
5045
241
45.5
5049
245
44.3
5047
243
47.7
6051
247
MED
43.5
5046
250
46.9
6050
254
45.7
5049
252
49.1
6053
256
HIGH
46.1
5049
254
49.5
6053
258
48.3
6052
256
51.7
6056
260
575---3---60
STD
33.4
4036
191
36.8
4540
195
35.1
4038
193
38.5
4541
197
MED
33.4
4036
191
36.8
4540
195
35.1
4038
193
38.5
4541
197
HIGH
36.2
4539
205
39.6
4543
209
37.9
4541
207
41.3
5045
211
20
208/230---3---60
STD
91.9
100
98456
99.6
125
107
464
96.7
110
103
461
104.4
125
112
469
MED
96.7
110
103
465
104.4
125
112
473
101.5
125
109
470
109.2
125
118
478
HIGH
98.8
125
106
467
106.5
125
115
475
103.6
125
111
472
111.3
125
120
480
460---3---60
STD
43.8
5047
252
47.2
6051
256
46.0
5049
254
49.4
6053
258
MED
46.4
5050
256
49.8
6054
260
48.6
6052
258
52.0
6056
262
HIGH
47.6
6051
257
51.0
6055
261
49.8
6054
259
53.2
6057
263
575---3---60
STD
33.4
4036
193
36.8
4540
197
35.1
4038
195
38.5
4541
199
MED
36.2
4539
207
39.6
4543
211
37.9
4541
209
41.3
5045
213
HIGH
38.2
4541
205
41.6
5045
209
39.9
4543
207
43.3
5047
211
EnergyX
![Page 55: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/55.jpg)
55
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
48H
C--
wit
hE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a(c
ont)
48HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
NOC.O.orUNPWRC.O.
w/PWRDC.O.
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
24
208/230---3---60
STD
121.0
150
131
577
121.0
150
131
577
125.8
150
136
582
125.8
150
136
582
MED
123.1
150
133
579
123.1
150
133
579
127.9
150
138
584
127.9
150
138
584
HIGH
134.5
150
146
658
134.5
150
146
658
139.3
150
152
663
139.3
150
152
663
460---3---60
STD
62.7
7067
292
62.7
7067
292
64.9
8070
294
64.9
8070
294
MED
63.9
8069
293
63.9
8069
293
66.1
8071
295
66.1
8071
295
HIGH
69.6
8075
333
69.6
8075
333
71.8
8078
335
71.8
8078
335
575---3---60
STD
49.6
6054
219
49.6
6054
219
51.3
6055
221
51.3
6055
221
MED
51.6
6056
217
51.6
6056
217
53.3
6058
219
53.3
6058
219
HIGH
53.5
6058
244
53.5
6058
244
55.2
6060
246
55.2
6060
246
28
208/230---3---60
STD
149.7
175
158
617
149.7
175
158
617
154.5
200
164
622
154.5
200
164
622
MED
151.8
175
161
619
151.8
175
161
619
156.6
200
166
624
156.6
200
166
624
HIGH
163.2
200
174
698
163.2
200
174
698
168.0
200
179
703
168.0
200
179
703
460---3---60
STD
68.1
8073
318
68.1
8073
318
70.3
8076
320
70.3
8076
320
MED
69.3
8074
319
69.3
8074
319
71.5
9077
321
71.5
9077
321
HIGH
75.0
9081
359
75.0
9081
359
77.2
9083
361
77.2
9083
361
575---3---60
STD
54.5
6058
243
54.5
6058
243
56.2
6060
245
56.2
6060
245
MED
56.5
7061
241
56.5
7061
241
58.2
7063
243
58.2
7063
243
HIGH
58.4
7063
268
58.4
7063
268
60.1
7065
270
60.1
7065
270
EnergyX
![Page 56: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/56.jpg)
56
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
50H
C--
Wit
hE
lect
ric
Hea
tan
dE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a
50HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
ELEC.HTR
NOC.O.orUNPWRC.O.
w/PWRDC.O.
CRHEATER
Nom(kW)
FLA
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
17
208/230---3---60
STD
NONE
------
84.4
100
90409
92.2
100
99417
89.2
100
95414
97.0
110
104
422
279A00
18.8/25.0
52.1/60.1
94.7/104.7
100/110
90/96
409/409
104.4/114.4
110/125
99/105
417/417
100.7/110.7
110/125
95/102
414/414
110.4/120.4
125/125
104/111
422/422
280A00
37.6/50.0
104.2/120.3
159.8/149.9
175/175
147/166
409/409
169.6/159.6
175/175
156/175
417/417
165.8/155.9
175/175
153/171
414/414
175.6/165.6
200/175
162/180
422/422
281A00
56.3/75.0
156.4/180.4
186.0/210.0
200/225
207/235
409/409
195.7/219.7
200/225
216/244
417/417
192.0/216.0
200/225
213/240
414/414
201.7/225.7
225/250
222/249
422/422
MED
NONE
------
87.1
100
93426
94.9
110
102
434
91.9
100
99431
99.7
110
107
439
279A00
18.8/25.0
52.1/60.1
98.1/108.1
100/110
93/99
426/426
107.8/117.8
110/125
102/108
434/434
104.1/114.1
110/125
99/105
431/431
113.8/123.8
125/125
107/114
439/439
280A00
37.6/50.0
104.2/120.3
163.2/153.3
175/175
150/169
426/426
172.9/163.0
175/175
159/178
434/434
169.2/159.3
175/175
156/174
431/431
178.9/169.0
200/175
165/183
439/439
281A00
56.3/75.0
156.4/180.4
189.4/213.4
200/225
210/238
426/426
199.1/223.1
200/250
219/247
434/434
195.4/219.4
200/225
216/243
431/431
205.1/229.1
225/250
225/252
439/439
HIGH
NONE
------
91.9
100
99435
99.7
110
107
443
96.7
110
104
440
104.5
125
113
448
279A00
18.8/25.0
52.1/60.1
104.1/114.1
110/125
99/105
435/435
113.8/123.8
125/125
107/114
443/443
110.1/120.1
125/125
104/110
440/440
119.8/129.8
125/150
113/119
448/448
280A00
37.6/50.0
104.2/120.3
169.2/159.3
175/175
156/174
435/435
178.9/169.0
200/175
165/183
443/443
175.2/165.3
200/175
161/180
440/440
184.9/175.0
200/175
170/189
448/448
281A00
56.3/75.0
156.4/180.4
195.4/219.4
200/250
216/243
435/435
205.1/229.1
225/250
225/252
443/443
201.4/225.4
225/250
221/249
440/440
211.1/235.1
225/250
230/258
448/448
460---3---60
STD
NONE
------
42.1
5045
241
45.5
5049
245
44.3
5047
243
47.7
6051
247
282A00
25.0
30.1
50.8
6047
241
55.1
6051
245
53.6
6049
243
57.8
6053
247
283A00
50.0
60.1
73.3
8081
241
77.5
8085
245
76.1
8084
243
80.3
9088
247
284A00
75.0
90.2
103.4
110
116
241
107.6
110
120
245
106.2
110
118
243
110.4
125
122
247
MED
NONE
------
43.5
5046
250
46.9
6050
254
45.7
5049
252
49.1
6053
256
282A00
25.0
30.1
52.6
6048
250
56.8
6052
254
55.3
6051
252
59.6
6055
256
283A00
50.0
60.1
75.1
8083
250
79.3
8087
254
77.8
8085
252
82.0
9089
256
284A00
75.0
90.2
105.2
110
117
250
109.4
125
121
254
107.9
125
120
252
112.1
125
124
256
HIGH
NONE
------
46.1
5049
254
49.5
6053
258
48.3
6052
256
51.7
6056
260
282A00
25.0
30.1
55.8
6051
254
60.1
7055
258
58.6
6054
256
62.8
7058
260
283A00
50.0
60.1
78.3
8086
254
82.5
9090
258
81.1
9088
256
85.3
9092
260
284A00
75.0
90.2
108.4
125
120
254
112.6
125
124
258
111.2
125
123
256
115.4
125
127
260
575---3---60
STD
NONE
------
33.4
4036
191
36.8
4540
195
35.1
4038
193
38.5
4541
197
285A00
24.8
23.9
42.3
4539
191
46.6
5043
195
44.5
4541
193
48.7
5045
197
286A00
49.6
47.7
72.1
8066
191
76.3
8070
195
74.2
8068
193
78.4
8072
197
287A00
74.4
71.6
84.1
9094
191
88.3
9098
195
86.2
9096
193
90.4
100
100
197
MED
NONE
------
33.4
4036
191
36.8
4540
195
35.1
4038
193
38.5
4541
197
285A00
24.8
23.9
42.3
4539
191
46.6
5043
195
44.5
4541
193
48.7
5045
197
286A00
49.6
47.7
72.1
8066
191
76.3
8070
195
74.2
8068
193
78.4
8072
197
287A00
74.4
71.6
84.1
9094
191
88.3
9098
195
86.2
9096
193
90.4
100
100
197
HIGH
NONE
------
36.2
4539
205
39.6
4543
209
37.9
4541
207
41.3
5045
211
285A00
24.8
23.9
45.8
5042
205
50.1
6046
209
48.0
5044
207
52.2
6048
211
286A00
49.6
47.7
75.6
8070
205
79.8
8073
209
77.7
8071
207
81.9
9075
211
287A00
74.4
71.6
87.6
9097
205
91.8
100
101
209
89.7
9099
207
93.9
100
103
211
EnergyX
![Page 57: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/57.jpg)
57
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
50H
C--
Wit
hE
lect
ric
Hea
tan
dE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a(c
ont.
)
50HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
ELEC.HTR
NOC.O.orUNPWRC.O.
w/PWRDC.O.
CRHEATER
Nom(kW)
FLA
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
20
208/230---3---60
STD
NONE
------
91.9
100
98456
99.6
125
107
464
96.7
110
103
461
104.4
125
112
469
279A00
18.8/25.0
52.1/60.1
98.1/108.1
100/110
98/99
456/456
107.8/117.8
125/125
107/108
464/464
104.1/114.1
110/125
103/105
461/461
113.8/123.8
125/125
112/114
469/469
280A00
37.6/50.0
104.2/120.3
163.2/153.3
175/175
150/169
456/456
172.9/163.0
175/175
159/178
464/464
169.2/159.3
175/175
156/174
461/461
178.9/169.0
200/175
165/183
469/469
281A00
56.3/75.0
156.4/180.4
189.4/213.4
200/225
210/238
456/456
199.1/223.1
200/250
219/247
464/464
195.4/219.4
200/225
216/243
461/461
205.1/229.1
225/250
225/252
469/469
MED
NONE
------
96.7
110
103
465
104.4
125
112
473
101.5
125
109
470
109.2
125
118
478
279A00
18.8/25.0
52.1/60.1
104.1/114.1
110/125
103/105
465/465
113.8/123.8
125/125
112/114
473/473
110.1/120.1
125/125
109/110
470/470
119.8/129.8
125/150
118/119
478/478
280A00
37.6/50.0
104.2/120.3
169.2/159.3
175/175
156/174
465/465
178.9/169.0
200/175
165/183
473/473
175.2/165.3
200/175
161/180
470/470
184.9/175.0
200/175
170/189
478/478
281A00
56.3/75.0
156.4/180.4
195.4/219.4
200/250
216/243
465/465
205.1/229.1
225/250
225/252
473/473
201.4/225.4
225/250
221/249
470/470
211.1/235.1
225/250
230/258
478/478
HIIGH
NONE
------
98.8
125
106
467
106.5
125
115
475
103.6
125
111
472
111.3
125
120
480
279A00
18.8/25.0
52.1/60.1
106.7/116.7
125/125
106/107
467/467
116.4/126.4
125/150
115/116
475/475
112.7/122.7
125/125
111/113
472/472
122.4/132.4
125/150
120/122
480/480
280A00
37.6/50.0
104.2/120.3
171.8/161.9
175/175
158/177
467/467
181.6/171.6
200/175
167/186
475/475
177.8/167.9
200/175
164/182
472/472
187.6/177.6
200/200
173/191
480/480
281A00
56.3/75.0
156.4/180.4
198.0/222.0
200/250
218/246
467/467
207.7/231.7
225/250
227/255
475/475
204.0/228.0
225/250
224/251
472/472
213.7/237.7
225/250
233/260
480/480
460---3---60
STD
NONE
------
43.8
5047
252
47.2
6051
256
46.0
5049
254
49.4
6053
258
282A00
25.0
30.1
52.6
6048
252
56.8
6052
256
55.3
6051
254
59.6
6055
258
283A00
50.0
60.1
75.1
8083
252
79.3
8087
256
77.8
8085
254
82.0
9089
258
284A00
75.0
90.2
105.2
110
117
252
109.4
125
121
256
107.9
125
120
254
112.1
125
124
258
MED
NONE
------
46.4
5050
256
49.8
6054
260
48.6
6052
258
52.0
6056
262
282A00
25.0
30.1
55.8
6051
256
60.1
7055
260
58.6
6054
258
62.8
7058
262
283A00
50.0
60.1
78.3
8086
256
82.5
9090
260
81.1
9088
258
85.3
9092
262
284A00
75.0
90.2
108.4
125
120
256
112.6
125
124
260
111.2
125
123
258
115.4
125
127
262
HIGH
NONE
------
47.6
6051
257
51.0
6055
261
49.8
6054
259
53.2
6057
263
282A00
25.0
30.1
57.3
6053
257
61.6
7057
261
60.1
7055
259
64.3
7059
263
283A00
50.0
60.1
79.8
9087
257
84.0
9091
261
82.6
9090
259
86.8
9094
263
284A00
75.0
90.2
109.9
125
122
257
114.1
125
126
261
112.7
125
124
259
116.9
125
128
263
575---3---60
STD
NONE
------
33.4
4036
193
36.8
4540
197
35.1
4038
195
38.5
4541
199
285A00
24.8
23.9
42.3
4539
193
46.6
5043
197
44.5
4541
195
48.7
5045
199
286A00
49.6
47.7
72.1
8066
193
76.3
8070
197
74.2
8068
195
78.4
8072
199
287A00
74.4
71.6
84.1
9094
193
88.3
9098
197
86.2
9096
195
90.4
100
100
199
MED
NONE
------
36.2
4539
207
39.6
4543
211
37.9
4541
209
41.3
5045
213
285A00
24.8
23.9
45.8
5042
207
50.1
6046
211
48.0
5044
209
52.2
6048
213
286A00
49.6
47.7
75.6
8070
207
79.8
8073
211
77.7
8071
209
81.9
9075
213
287A00
74.4
71.6
87.6
9097
207
91.8
100
101
211
89.7
9099
209
93.9
100
103
213
HIGH
NONE
------
38.2
4541
205
41.6
5045
209
39.9
4543
207
43.3
5047
211
285A00
24.8
23.9
48.3
5044
205
52.6
6048
209
50.5
6046
207
54.7
6050
211
286A00
49.6
47.7
78.1
8072
205
82.3
9076
209
80.2
9074
207
84.4
9078
211
287A00
74.4
71.6
90.1
100
99205
94.3
100
103
209
92.2
100
101
207
96.4
100
105
211
EnergyX
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58
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
50H
C--
Wit
hE
lect
ric
Hea
tan
dE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a(c
ont.
)
50HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
ELEC.HTR
NOC.O.orUNPWRC.O.
w/PWRDC.O.
CRHEATER
Nom(kW)
FLA
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
24
208/230---3---60
STD
NONE
------
121.0
150
131
577
121.0
150
131
577
125.8
150
136
582
125.8
150
136
582
279A00
18.8/25.0
52.1/60.1
124.3/134.3
150/150
131/131
577/577
124.3/134.3
150/150
131/131
577/577
130.3/140.3
150/150
136/136
582/582
130.3/140.3
150/150
136/136
582/582
280A00
37.6/50.0
104.2/120.3
189.4/179.5
200/200
174/193
577/577
189.4/179.5
200/200
174/193
577/577
195.4/185.5
200/200
180/198
582/582
195.4/185.5
200/200
180/198
582/582
281A00
56.3/75.0
156.4/180.4
215.6/239.6
225/250
234/262
577/577
215.6/239.6
225/250
234/262
577/577
221.6/245.6
225/250
240/267
582/582
221.6/245.6
225/250
240/267
582/582
MED
NONE
------
123.1
150
133
579
123.1
150
133
579
127.9
150
138
584
127.9
150
138
584
279A00
18.8/25.0
52.1/60.1
126.9/136.9
150/150
133/133
579/579
126.9/136.9
150/150
133/133
579/579
132.9/142.9
150/150
138/138
584/584
132.9/142.9
150/150
138/138
584/584
280A00
37.6/50.0
104.2/120.3
192.0/182.1
200/200
177/195
579/579
192.0/182.1
200/200
177/195
579/579
198.0/188.1
200/200
182/201
584/584
198.0/188.1
200/200
182/201
584/584
281A00
56.3/75.0
156.4/180.4
218.2/242.2
225/250
237/264
579/579
218.2/242.2
225/250
237/264
579/579
224.2/248.2
225/250
242/270
584/584
224.2/248.2
225/250
242/270
584/584
HIGH
NONE
------
134.5
150
146
658
134.5
150
146
658
139.3
150
152
663
139.3
150
152
663
279A00
18.8/25.0
52.1/60.1
141.2/151.2
150/175
146/146
658/658
141.2/151.2
150/175
146/146
658/658
147.2/157.2
150/175
152/152
663/663
147.2/157.2
150/175
152/152
663/663
280A00
37.6/50.0
104.2/120.3
206.3/196.3
225/200
190/208
658/658
206.3/196.3
225/200
190/208
658/658
212.3/202.3
225/225
195/214
663/663
212.3/202.3
225/225
195/214
663/663
281A00
56.3/75.0
156.4/180.4
232.4/256.4
250/300
250/277
658/658
232.4/256.4
250/300
250/277
658/658
238.4/262.4
250/300
255/283
663/663
238.4/262.4
250/300
255/283
663/663
460---3---60
STD
NONE
------
62.7
7067
292
62.7
7067
292
64.9
8070
294
64.9
8070
294
282A00
25.0
30.1
64.6
7067
292
64.6
7067
292
67.3
8070
294
67.3
8070
294
283A00
50.0
60.1
87.1
9094
292
87.1
9094
292
89.8
9096
294
89.8
9096
294
284A00
75.0
90.2
117.2
125
129
292
117.2
125
129
292
119.9
125
131
294
119.9
125
131
294
MED
NONE
------
63.9
8069
293
63.9
8069
293
66.1
8071
295
66.1
8071
295
282A00
25.0
30.1
66.1
8069
293
66.1
8069
293
68.8
8071
295
68.8
8071
295
283A00
50.0
60.1
88.6
9095
293
88.6
9095
293
91.3
100
98295
91.3
100
98295
284A00
75.0
90.2
118.7
125
130
293
118.7
125
130
293
121.4
125
132
295
121.4
125
132
295
HIGH
NONE
------
69.6
8075
333
69.6
8075
333
71.8
8078
335
71.8
8078
335
282A00
25.0
30.1
73.2
8075
333
73.2
8075
333
76.0
8078
335
76.0
8078
335
283A00
50.0
60.1
95.7
100
102
333
95.7
100
102
333
98.4
100
104
335
98.4
100
104
335
284A00
75.0
90.2
125.8
150
136
333
125.8
150
136
333
128.5
150
139
335
128.5
150
139
335
575---3---60
STD
NONE
------
49.6
6054
219
49.6
6054
219
51.3
6055
221
51.3
6055
221
285A00
24.8
23.9
54.6
6054
219
54.6
6054
219
56.7
6055
221
56.7
6055
221
286A00
49.6
47.7
84.3
9078
219
84.3
9078
219
86.5
9080
221
86.5
9080
221
287A00
74.4
71.6
96.3
100
105
219
96.3
100
105
219
98.4
100
107
221
98.4
100
107
221
MED
NONE
------
51.6
6056
217
51.6
6056
217
53.3
6058
219
53.3
6058
219
285A00
24.8
23.9
57.1
6056
217
57.1
6056
217
59.2
6058
219
59.2
6058
219
286A00
49.6
47.7
86.8
9080
217
86.8
9080
217
89.0
9082
219
89.0
9082
219
287A00
74.4
71.6
98.8
100
107
217
98.8
100
107
217
100.9
110
109
219
100.9
110
109
219
HIGH
NONE
------
53.5
6058
244
53.5
6058
244
55.2
6060
246
55.2
6060
246
285A00
24.8
23.9
59.5
6058
244
59.5
6058
244
61.6
7060
246
61.6
7060
246
286A00
49.6
47.7
89.2
9082
244
89.2
9082
244
91.3
100
84246
91.3
100
84246
287A00
74.4
71.6
101.2
110
110
244
101.2
110
110
244
103.3
110
112
246
103.3
110
112
246
EnergyX
![Page 59: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/59.jpg)
59
AP
PE
ND
IXC
—E
LE
CT
RIC
AL
DA
TA
50H
C--
Wit
hE
lect
ric
Hea
tan
dE
RV
:U
nit
Wir
e/F
use
orH
AC
RB
reak
erSi
zing
Dat
a(c
ont.
)
50HC
SIZE
NOM.V---Ph---Hz
IFM
TYPE
ELEC.HTR
NOC.O.orUNPWRC.O.
w/PWRDC.O.
CRHEATER
Nom(kW)
FLA
w/ERVw/oEconomizer
w/ERVw/Economizer
w/ERVw/oEconomizer
w/ERVw/Economizer
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
MCA
FUSE
orHACR
BRKR
DISC.SIZE
FLA
LRA
FLA
LRA
FLA
LRA
FLA
LRA
28
208/230---3---60
STD
NONE
------
149.7
175
158
617
149.7
175
158
617
154.5
200
164
622
154.5
200
164
622
279A00
18.8/25.0
52.1/60.1
149.7/149.7
175/175
158/158
617/617
149.7/149.7
175/175
158/158
617/617
154.5/154.5
200/200
164/164
622/622
154.5/154.5
200/200
164/164
622/622
280A00
37.6/50.0
104.2/120.3
189.4/179.5
200/200
174/193
617/617
189.4/179.5
200/200
174/193
617/617
195.4/185.5
200/200
180/198
622/622
195.4/185.5
200/200
180/198
622/622
281A00
56.3/75.0
156.4/180.4
215.6/239.6
225/250
234/262
617/617
215.6/239.6
225/250
234/262
617/617
221.6/245.6
225/250
240/267
622/622
221.6/245.6
225/250
240/267
622/622
MED
NONE
------
151.8
175
161
619
151.8
175
161
619
156.6
200
166
624
156.6
200
166
624
279A00
18.8/25.0
52.1/60.1
151.8/151.8
175/175
161/161
619/619
151.8/151.8
175/175
161/161
619/619
156.6/156.6
200/200
166/166
624/624
156.6/156.6
200/200
166/166
624/624
280A00
37.6/50.0
104.2/120.3
192.0/182.1
200/200
177/195
619/619
192.0/182.1
200/200
177/195
619/619
198.0/188.1
200/200
182/201
624/624
198.0/188.1
200/200
182/201
624/624
281A00
56.3/75.0
156.4/180.4
218.2/242.2
225/250
237/264
619/619
218.2/242.2
225/250
237/264
619/619
224.2/248.2
225/250
242/270
624/624
224.2/248.2
225/250
242/270
624/624
HIGH
NONE
------
163.2
200
174
698
163.2
200
174
698
168.0
200
179
703
168.0
200
179
703
279A00
18.8/25.0
52.1/60.1
163.2/163.2
200/200
174/174
698/698
163.2/163.2
200/200
174/174
698/698
168.0/168.0
200/200
179/179
703/703
168.0/168.0
200/200
179/179
703/703
280A00
37.6/50.0
104.2/120.3
206.3/196.3
225/200
190/208
698/698
206.3/196.3
225/200
190/208
698/698
212.3/202.3
225/225
195/214
703/703
212.3/202.3
225/225
195/214
703/703
281A00
56.3/75.0
156.4/180.4
232.4/256.4
250/300
250/277
698/698
232.4/256.4
250/300
250/277
698/698
238.4/262.4
250/300
255/283
703/703
238.4/262.4
250/300
255/283
703/703
460---3---60
STD
NONE
------
68.1
8073
318
68.1
8073
318
70.3
8076
320
70.3
8076
320
282A00
25.0
30.1
68.1
8073
318
68.1
8073
318
70.3
8076
320
70.3
8076
320
283A00
50.0
60.1
87.1
9094
318
87.1
9094
318
89.8
9096
320
89.8
9096
320
284A00
75.0
90.2
117.2
125
129
318
117.2
125
129
318
119.9
125
131
320
119.9
125
131
320
MED
NONE
------
69.3
8074
319
69.3
8074
319
71.5
9077
321
71.5
9077
321
282A00
25.0
30.1
69.3
8074
319
69.3
8074
319
71.5
9077
321
71.5
9077
321
283A00
50.0
60.1
88.6
9095
319
88.6
9095
319
91.3
100
98321
91.3
100
98321
284A00
75.0
90.2
118.7
125
130
319
118.7
125
130
319
121.4
125
132
321
121.4
125
132
321
HIGH
NONE
------
75.0
9081
359
75.0
9081
359
77.2
9083
361
77.2
9083
361
282A00
25.0
30.1
75.0
9081
359
75.0
9081
359
77.2
9083
361
77.2
9083
361
283A00
50.0
60.1
95.7
100
102
359
95.7
100
102
359
98.4
100
104
361
98.4
100
104
361
284A00
75.0
90.2
125.8
150
136
359
125.8
150
136
359
128.5
150
139
361
128.5
150
139
361
575---3---60
STD
NONE
------
54.5
6058
243
54.5
6058
243
56.2
6060
245
56.2
6060
245
285A00
24.8
23.9
54.6
6058
243
54.6
6058
243
56.7
6060
245
56.7
6060
245
286A00
49.6
47.7
84.3
9078
243
84.3
9078
243
86.5
9080
245
86.5
9080
245
287A00
74.4
71.6
96.3
100
105
243
96.3
100
105
243
98.4
100
107
245
98.4
100
107
245
MED
NONE
------
56.5
7061
241
56.5
7061
241
58.2
7063
243
58.2
7063
243
285A00
24.8
23.9
57.1
7061
241
57.1
7061
241
59.2
7063
243
59.2
7063
243
286A00
49.6
47.7
86.8
9080
241
86.8
9080
241
89.0
9082
243
89.0
9082
243
287A00
74.4
71.6
98.8
100
107
241
98.8
100
107
241
100.9
110
109
243
100.9
110
109
243
HIGH
NONE
------
58.4
7063
268
58.4
7063
268
60.1
7065
270
60.1
7065
270
285A00
24.8
23.9
59.5
7063
268
59.5
7063
268
61.6
7065
270
61.6
7065
270
286A00
49.6
47.7
89.2
9082
268
89.2
9082
268
91.3
100
84270
91.3
100
84270
287A00
74.4
71.6
101.2
110
110
268
101.2
110
110
268
103.3
110
112
270
103.3
110
112
270
EnergyX
![Page 60: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/60.jpg)
6060
Copyright 2011 Carrier Corp. D 7310 W. Morris St. D Indianapolis, IN 46231 Printed in U.S.A. Edition Date: 11/11
Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations.
Catalog No: ERV1---01SI
Replaces: New
EnergyX
![Page 61: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/61.jpg)
61
ENERGYX UNIT START-UP CHECKLIST(To be used in conjunction with base Rooftop Unit Start--Up Checklist. Remove and Store in Job File)
RTU MODEL NO.: RTU SERIAL NO.:
ERV MODEL NO.: ERV SERIAL NO.:
DATE: TECHNICIAN:
I. PRE-START-UP (insert checkmark in box as each item is completed)
j VERIFY THAT ALL PACKAGING MATERIALS HAVE BEEN REMOVED FROM UNIT
j VERIFY INSTALLATION OF OUTDOOR AIR HOODS
j CHECK THAT AIR FILTERS ARE CLEAN AND IN PLACE ON SUPPLY AND EXHAUST OF ERV WHEEL
j CHECK THAT OUTDOOR AIR INLET SCREENS ARE IN PLACE
j VERIFY CONFIGURAITON VALUES FOR ELECTRONIC CONTROLS
II. START-UP (REFER TO UNIT SERVICE/MAINTENANCE MANUAL FOR START--UPINSTRUCTIONS)
ELECTRICAL
SUPPLY VOLTAGE* L1-L2 L2-L3 L3-L1
ERV SUPPLY FAN--1 AMPS L1-L2 L2-L3 L3-L1
ERV SUPPLY FAN--2 AMPS L1-L2 L2-L3 L3-L1
ERV EXHAUST FAN--1 AMPS L1-L2 L2-L3 L3-L1
ERV EXHAUST FAN--2 AMPS L1-L2 L2-L3 L3-L1
*Distribution Block on 575v units will be 460v
TEMPERATURES
OUTDOOR-AIR TEMPERATURE (OAT) F dB (Dry Bulb)
RETURN-AIR TEMPERATURE (SPT or RAT) F dB/F wB (Dry Bulb/Wet Bulb)
ERV INTAKE LEAVING AIR TEMPERATURE (LAT) F
ERV EXHAUST AIR TEMPERATURE (EXAT) F
GENERAL
j COMFORTLINK MINIMUM DAMPER POSITION SET TO “0”
j ERV MINIMUM VENTILATION POSITION PER JOB REQUIREMENTS
j VERIFY ENERGY RECOVERY WHEEL IS ROTATING
j VERIFY SUPPLY AND EXHAUST BLOWER FANS ROTATING IN PROPER DIRECTION
j VERIFY ALL EXTERNAL PANELS FULLY SHUT AND LATCHED
j VERIFY NO ACTIVE ALARMS
j FOLLOW ALL ACCESSORY START--UP PROCEDURES
III. CONFIGURATION (Used in conjunction with Base Unit start--up configurations)
Minimum DCV Outside Air CFM (DCV.M)
Minimum Outside Air CFM (OA.MN)
Exhaust Air Offset CFM (PE.OF)
Building Pressure Setpoint (BP.SP)
Frost Protection Dial Setpoint
EnergyX
![Page 62: Supplemental Installation Instructions...have a fire extinguisher available. Read these instructions thoroughly and follow all warnings or cautions attached to the unit. Consult local](https://reader030.vdocuments.net/reader030/viewer/2022040916/5e902eb92d770f4c33258473/html5/thumbnails/62.jpg)
62
Copyright 2011 Carrier Corp. D 7310 W. Morris St. D Indianapolis, IN 46231 Printed in U.S.A. Edition Date: 11/11
Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations.
Catalog No: ERV1---01SI
Replaces: New
EnergyX