Trane OA B D 000, OA G D 000, OA B E 000, OA G E 000, OA B D 036 Installation, Operation And Maintenance Manual
...
Installation, Operation,
and Maintenance
Horizon™ Outdoor Air Unit
Direct Gas-Fired
Model: OAB, OAG
Important: Proper execution of the tasks outlined in this Installation, Operation, and Maintenance manual
require and assume the technician has been certified as a start up technician for the Horizon Outdoor
Air unit. This includes working knowledge of the Tracer TU program.
SAFETY WARNING
Only qualified personnel should install and service the equipment. The installation, starting up, and servicing
of heating, ventilating, and air-conditioning equipment can be hazardous and requires specific knowledge and
training. Improperly installed, adjusted or altered equipment by an unqualified person could result in death or
serious injury. When working on the equipment, observe all precautions in the literature and on the tags,
stickers, and labels that are attached to the equipment.
AVERTISSEMENT DE SÉCURITÉ
L’installation et l’entretien de cet équipement doivent être assurés exclusivement par du personnel qualifié.
L’installation, la mise en service et l’entretien d’équipements de chauffage, de ventilation et de climatisation
(CVC) présentent un danger et requièrent des connaissances et une formation spécifiques. Une installation,
un réglage ou une modification inappropriés d’un équipement par une personne non qualifiée peut provoquer
des blessures graves, voire la mort. Lors de toute intervention sur l’équipement, respectez les consignes de
sécurité figurant dans la documentation, ainsi que sur les pictogrammes, autocollants et étiquettes apposés
sur l’équipement.
November 2019
OAU-SVX005C-EN
Introduction
Read this manual thoroughly before operating or servicing
this unit.
Warnings, Cautions, and Notices
Safety advisories appear throughout this manual as
required. Your personal safety and the proper operation of
this machine depend upon the strict observance of these
precautions.
The three types of advisories are defined as follows:
WARNING
Proper Field Wiring and Grounding
Required!
Failure to follow code could result in death or serious
injury. All field wiring MUST be performed by qualified
personnel. Improperly installed and grounded field
wiring poses FIRE and ELECTROCUTION hazards. To
avoid these hazards, you MUST follow requirements for
field wiring installation and grounding as described in
NEC and your local/state electrical codes.
WARNING
CAUTIONs
NOTICE:
Indicates a potentially hazardous
situation which, if not avoided, could
result in death or serious injury.
Indicates a potentially hazardous
situation which, if not avoided, could
result in minor or moderate injury. It
could also be used to alert against
unsafe practices.
Indicates a situation that could result in
equipment or property-damage only
accidents.
Important Environmental Concerns
Scientific research has shown that certain man-made
chemicals can affect the earth’s naturally occurring
stratospheric ozone layer when released to the
atmosphere. In particular, several of the identified
chemicals that may affect the ozone layer are refrigerants
that contain Chlorine, Fluorine and Carbon (CFCs) and
those containing Hydrogen, Chlorine, Fluorine and
Carbon (HCFCs). Not all refrigerants containing these
compounds have the same potential impact to the
environment. Trane advocates the responsible handli ng of
all refrigerants-including industry replacements for CFCs
and HCFCs such as saturated or unsaturated HFCs and
HCFCs.
AVERTISSEMENT
Câblage sur site et mise à la terre corrects
nécessaires!
Le non-respect de la réglementation peut entraîner des
blessures graves, voire mortelles. Il est IMPÉRATIF de
confier l’ensemble du câblage sur site à un électricien
qualifié. Un câblage sur site mal installé ou mal mis à la
terre constitue des risques D’INCENDIE et
D’ÉLECTROCUTION. Pour éviter ces risques, il est
IMPÉRATIF de respecter les obligations en matière de
pose de câblage sur site et de mise à la terre tel que
stipulé dans les règles du NEC et dans les
réglementations électriques locales/nationales.
Important Responsible Refrigerant
Practices
Trane believes that responsible refrigerant practices are
important to the environment, our customers, and the air
conditioning industry. All technicians who handle
refrigerants must be certified according to local rules. For
the USA, the Federal Clean Air Act (Section 608) sets forth
the requirements for handling, reclaiming, recovering and
recycling of certain refrigerants and the equipment that is
used in these service procedures. In addition, some states
or municipalities may have additional requirements that
must also be adhered to for responsible management of
refrigerants. Know the applicable laws and follow them.
© 2019 Ingersoll Rand OAU-SVX005C-EN
Introduction
WARNING
Personal Protective Equipment (PPE)
Required!
Failure to wear proper PPE for the job being undertaken
could result in death or serious injury. Technicians, in
order to protect themselves from potential electrical,
mechanical, and chemical hazards, MUST follow
precautions in this manual and on the tags, stickers,
and labels, as well as the instructions below:
• Before installing/servicing this unit, technicians
MUST put on all PPE required for the work being
undertaken (Examples; cut resistant gloves/sleeves,
butyl gloves, safety glasses, hard hat/bump cap, fall
protection, electrical PPE and arc flash clothing).
ALWAYS refer to appropriate Material Safety Data
Sheets (MSDS)/Safety Data Sheets (SDS) and OSHA
guidelines for proper PPE.
• When working with or around hazardous chemicals,
ALWAYS refer to the appropriate MSDS/SDS and
OSHA/GHS (Global Harmonized System of
Classification and Labelling of Chemicals) guidelines
for information on allowable personal exposure
levels, proper respiratory protection and handling
instructions.
• If there is a risk of energized electrical contact, arc, or
flash, technicians MUST put on all PPE in accordance
with OSHA, NFPA 70E, or other country-specific
requirements for arc flash protection, PRIOR to
servicing the unit. NEVER PERFORM ANY
SWITCHING, DISCONNECTING, OR VOLTAGE
TESTING WITHOUT PROPER ELECTRICAL PPE AND
ARC FLASH CLOTHING. ENSURE ELECTRICAL
METERS AND EQUIPMENT ARE PROPERLY RATED
FOR INTENDED VOLTAGE.
AVERTISSEMENT
Équipements de protection individuelle
(EPI) obligatoires!
En cas d’équipement de protection individuelle
inadapté au travail entrepris, les techniciens s’exposent
à des risques de blessures graves voire mortelles. Afin
de se prémunir d’éventuels risques électriques,
mécaniques et chimiques, les techniciens DOIVENT
respecter les consignes préconisées dans le présent
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes :
• Avant d’installer/réparer cette unité, les techniciens
doivent IMPÉRATIVEMENT porter tout l’équipement
de protection individuelle (EPI) recommandé pour le
travail entrepris (exemples: gants/manchons
résistants aux coupures, gants en caoutchouc butyl,
lunettes de protection, casque de chantier/antichoc,
protection contre les chutes, EPI pour travaux
électriques et vêtements de protection contre les arcs
électriques). Consulter SYSTÉMATIQUEMENT les
fiches de données de sécurité et les directives de
l’OSHA pour connaître la liste des EPI adaptés.
• Lors d’une intervention avec ou à proximité de
produits chimiques dangereux, consulter
SYSTÉMATIQUEMENT les fiches de données de
sécurité appropriées et les directives de l’OSHA/du
SGH (système général harmonisé de classification et
d’étiquetage des produits chimiques) afin d’obtenir
des renseignements sur les niveaux admissibles
d’exposition personnelle, la protection respiratoire
adaptée et les recommandations de manipulation.
• En cas de risque d’éclair, d’arc électrique ou de
contact électrique avec un équipement électrique
sous tension, et AVANT de réparer l’unité, les
techniciens doivent IMPÉRATIVEMENT porter tout
l’équipement de protection individuelle (EPI)
conformément à l’OSHA, à la norme NFPA 70E ou à
toute autre exigence propre au pays pour la
protection contre les arcs électriques. NE JAMAIS
COMMUTER, DÉBRANCHER ou EFFECTUER DE TEST
DE TENSION SANS PORTER UN EPI POUR TRAVAUX
ÉLECTRIQUES OU UN VÊTEMENT DE PROTECTION
APPROPRIÉ CONTRE LES ARCS ÉLECTRIQUES. IL
CONVIENT DE S’ASSURER QUE LES COMPTEURS ET
ÉQUIPEMENTS ÉLECTRIQUES CORRESPONDENT À
LA TENSION NOMINALE PRÉVUE.
OAU-SVX005C-EN 3
Introduction
WARNING
Follow EHS Policies!
Failure to follow instructions below could result in
death or serious injury.
• All Ingersoll Rand personnel must follow Ingersoll
Rand Environmental, Health and Safety (EHS)
policies when performing work such as hot work,
electrical, fall protection, lockout/tagout, refrigerant
handling, etc. All policies can be found on the BOS
site. Where local regulations are more stringent than
these policies, those regulations supersede these
policies.
• Non-Ingersoll Rand personnel should always follow
local regulations.
AVERTISSEMENT
Respecter les politiques EHS!
Le non-respect des consignes suivantes peut être à
l’origine de blessures graves, voire mortelles.
• Tous les membres du personnel du groupe Ingersoll
Rand sont tenus de respecter les règles établies par
Ingersoll Rand en matière d’environnement,
d’hygiène et de sécurité (EHS) lors d’une
intervention, notamment en cas de travaux à chaud,
de risque d’électrocution et de chute, de procédures
de verrouillage/mise hors service, de manipulation
de fluide frigorigène, etc. Toutes les politiques sont
disponibles sur le site BOS. Si les réglementations
locales sont plus strictes que les règles imposées par
le groupe, elles deviennent prioritaires.
• Le personnel extérieur au groupe Ingersoll Rand est,
quant à lui, systématiquement tenu d’observer les
réglementations en vigueur à l’échelle locale.
WARNING
Refrigerant under High Pressure!
Failure to follow instructions below could result in an
explosion which could result in death or serious injury
or equipment damage. System contains oil and
refrigerant under high pressure. Recover refrigerant to
relieve pressure before opening the system. See unit
nameplate for refrigerant type. Do not use nonapproved refrigerants, refrigerant substitutes, or
refrigerant additives.
AVERTISSEMENT
Fluide frigorigène sous haute pression!
Tout manquement aux instructions indiquées cidessous peut provoquer une explosion pouvant causer
des blessures graves voire mortelles ou des dommages
matériels. Le système contient de l’huile et du fluide
frigorigène sous haute pression. Avant d’ouvrir le
circuit, récupérez le fluide frigorigène pour éliminer
toute pression dans le circuit. Consultez la plaque
constructeur de l’unité pour connaître le type de fluide
frigorigène employé. Utilisez uniquement des fluides
frigorigènes, substituts et additifs agréés.
WARNING
Hazard of Explosion and Deadly Gases!
Failure to follow all proper safe refrigerant handling
practices could result in death or serious injury.
Never solder, braze or weld on refrigerant lines or any
unit components that are above atmospheric pressure
or where refrigerant may be present. Always remove
refrigerant by following the guidelines established by
the EPA Federal Clean Air Act or other state or local
codes as appropriate. After refrigerant removal, use dry
nitrogen to bring system back to atmospheric pressure
before opening system for repairs. Mixtures of
refrigerants and air under pressure may become
combustible in the presence of an ignition source
leading to an explosion. Excessive heat from soldering,
brazing or welding with refrigerant vapors present can
form highly toxic gases and extremely corrosive acids.
AVERTISSEMENT
Risque d’explosion et gaz mortels!
Le non-respect de toutes les consignes de manipulation
des fluides frigorigènes peut entraîner la mort ou des
blessures graves.
N’effectuez en aucune circonstance des opérations de
brasage ou de soudage sur des conduites de fluide
frigorigène ou des composants de l’unité sous pression
ou pouvant contenir du fluide frigorigène. Récupérez
systématiquement le fluide frigorigène en respectant
les directives de la loi américaine sur la propreté de l’air
(Agence fédérale pour l’environnement) ou toute autre
réglementation nationale ou locale en vigueur. Après la
récupération du fluide frigorigène, utilisez de l’azote
déshydraté pour ramener le système à la pression
atmosphérique avant de l’ouvrir pour procéder aux
réparations. Les mélanges de fluide frigorigène et d’air
sous pression peuvent devenir combustibles en
présence d’une source d’inflammation et provoquer
une explosion. La chaleur excessive découlant de
travaux de soudage ou de brasage associée à la
présence de vapeurs de fluide frigorigène peut entraîner
la formation de gaz hautement toxiques et d’acides
extrêmement corrosifs.
4 OAU-SVX005C-EN
Introduction
WARNING
Hazard of Explosion and Deadly Gases!
Failure to follow instructions could result in death or
serious injury.
If you smell gas:
1. Open windows.
2. Don’t touch electrical switches.
3. Extinguish any open flame.
4. Immediately call your gas supplier.
AVERTISSEMENT
Risque d’explosion et gaz mortels!
Le non-respect de toutes les consignes de sécurité cidessous peut entraîner la mort ou des blessures graves.
Si vous sentez une odeur de gaz:
1. Ouvrez les fenêtres.
2. Ne touches à aucun interrupteur.
3. Éteignez toute flamme nue.
4. Avertissez immédiatement votre fournisseur de gaz.
AVERTISSEMENT
Risque d’explosion et gaz mortels!
Le non-respect de toutes les consignes de sécurité cidessous peut entraîner la mort ou des blessures graves.
Il est dangereux d’utiliser ou d’entreposer de l’essence
ou autres liquides ou vapeurs inflammables dans des
récipients ouverts à proximité de cet appareil.
Copyright
This document and the information in it are the property of
Trane, and may not be used or reproduced in whole or in
part without written permission. Trane reserves the right
to revise this publication at any time, and to make changes
to its content without obligation to notify any person of
such revision or change.
Trademarks
All trademarks referenced in this document are the
trademarks of their respective owners.
Revision History
Added French language translations of warnings.
WARNING
Hazardous Service Procedures!
Improper installation, adjustment, alteration, service or
maintenance can cause property damage, injury or
death. Read the installation, operating and
maintenance instructions thoroughly before installing
or servicing this equipment.
AVERTISSEMENT
Procédures d’entretien dangereuses!
Une installation, un réglage, une modification, une
réparation ou un entretien incorrect peut entraîner des
dommages matériels, des blessures ou la mort. Lisez
attentivement les instructions d’installation, de
fonctionnement et d’entretien avant de procéder à
l’installation ou à l’entretien de cet équipement.
WARNING
Hazard of Explosion and Deadly Gases!
Failure to follow instructions could result in death or
serious injury.
The use and storage of gasoline or other flammable
vapors and liquids in open containers in the vicinity of
this appliance is hazardous.
OAU-SVX005C-EN 5
Table of Contents
Model Number Descriptions . . . . . . . . . . . . . . 8
Horizon Outdoor Air Unit . . . . . . . . . . . . . . . 8
General Information . . . . . . . . . . . . . . . . . . . . 11
Overview of Manual . . . . . . . . . . . . . . . . . 11
Model Number Description . . . . . . . . . . . 11
Unit Nameplate . . . . . . . . . . . . . . . . . . . . 11
Compressor Nameplate . . . . . . . . . . . . . . 11
Unit Description . . . . . . . . . . . . . . . . . . . . 11
Indoor Fan Failure Input . . . . . . . . . . . . . 11
Low Pressure Control ReliaTel Control . 11
Refrigerant Circuits . . . . . . . . . . . . . . . . . 11
High Pressure Control ReliaTel Control . 11
Space Temperature / RH Sensor (Optional)
12
High Temperature Sensor . . . . . . . . . . . . 12
Outdoor Air Temperature and Relative Hu-
midity Sensor . . . . . . . . . . . . . . . . . . . . . . 12
Control Input (Occupied / Unoccupied) . 12
Hot Gas Reheat . . . . . . . . . . . . . . . . . . . . . 12
100 Percent Outdoor Air Hood with Damper
and Filters . . . . . . . . . . . . . . . . . . . . . . . . . 12
Through the Base Electrical with Disconnect
Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Hinged Access Doors . . . . . . . . . . . . . . . . 12
Unit Inspection . . . . . . . . . . . . . . . . . . . . . . . 12
First Aid Measures . . . . . . . . . . . . . . . . . . 13
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Unit Clearances . . . . . . . . . . . . . . . . . . . . 13
Filter Installation . . . . . . . . . . . . . . . . . . . . .19
Field Installed Power Wiring . . . . . . . . . . .20
Main Unit Power . . . . . . . . . . . . . . . . . . . . . .21
Standard Wiring . . . . . . . . . . . . . . . . . . . . .21
Voltage Imbalance . . . . . . . . . . . . . . . . . . .21
Electrical Phasing (Three-Phase Motors) .22
Compressor Crankcase Heaters . . . . . . . .23
Main Unit Display and ReliaTel Controls .23
Field-Installed Control Wiring . . . . . . . . . .23
Control Power Transformer . . . . . . . . . . .23
Controls Using 24 Vac . . . . . . . . . . . . . . . . 24
Controls Using DC Analog Input/Output
(Standard Low Voltage Multiconductor Wire)
24
DC Conductors . . . . . . . . . . . . . . . . . . . . . . . .25
System Configuration and Pre-Start . . . . . . .26
Startup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29
Direct Heating Startup . . . . . . . . . . . . . . . . .29
Direct Gas-Fired Heating Start-Up Procedure
30
Initiate . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
Standby . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
Normal Start-up Pre-purge . . . . . . . . . . . .33
Ignition Trials . . . . . . . . . . . . . . . . . . . . . . .33
Run . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
Settings and Adjustments . . . . . . . . . . . . .34
Operation of the Direct Spark Ignition Control
Gas Valve . . . . . . . . . . . . . . . . . . . . . . . . . .34
Unit Clearances, Curb Dimensions, and Dimensional Data
Direct-Fired OAB Units . . . . . . . . . . . . . . . 14
Direct-Fired OAG Units . . . . . . . . . . . . . . 15
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Unit Weight and Rigging . . . . . . . . . . . . . . . . 16
Unit Weight . . . . . . . . . . . . . . . . . . . . . . . . 16
Rigging . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Ductwork . . . . . . . . . . . . . . . . . . . . . . . . . . 18
General Unit Requirements . . . . . . . . . . . 18
Main Electrical Power Requirements . . . 19
Condensate Drain Configuration . . . . . . 19
6 OAU-SVX005C-EN
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . .36
Monthly Maintenance . . . . . . . . . . . . . . . . . .36
Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .36
Supply/Return Air Smoke Detector Mainte-
nance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Cooling Season . . . . . . . . . . . . . . . . . . . . .36
Heating Season . . . . . . . . . . . . . . . . . . . . .36
Condenser Coil Cleaning . . . . . . . . . . . . . .36
Direct-Fired Unit Maintenance Schedule . .38
Lubrication Requirements . . . . . . . . . . . . .39
Pillow Block Bearings . . . . . . . . . . . . . . . . 40
Frequency of Lubrication . . . . . . . . . . . . . .40
Dampers . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Air Filters . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Belt Tensions and Adjustments . . . . . . . 41
Suggested Belt Tension Method . . . . . . . 41
Gaskets . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
Annual Maintenance . . . . . . . . . . . . . . . . 41
Heater Maintenance . . . . . . . . . . . . . . . . . 41
Inspection and Maintenance of Gas Ports 43
Final Process . . . . . . . . . . . . . . . . . . . . . . . . . 43
Performance Data . . . . . . . . . . . . . . . . . . . . . . 45
Superheat and Refrigeration Circuit Data 49
Alarms and Troubleshooting . . . . . . . . . . . . 51
Microprocessor Control . . . . . . . . . . . . . . 51
System Alarms . . . . . . . . . . . . . . . . . . . . . 51
Sensor Failure Alarm Display . . . . . . . . . 51
RTRM Failure Modes . . . . . . . . . . . . . . . . 53
Airflow Troubleshooting . . . . . . . . . . . . . 53
Direct-Fired OAB and OAG Unit Flame Relays
£ 400 MBh . . . . . . . . . . . . . . . . . . . . . . . . . 54
Direct-Fired OAG Unit Flame Relays >
400 MBh . . . . . . . . . . . . . . . . . . . . . . . . . . 55
Table of Contents
Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
OAU Filter Guide . . . . . . . . . . . . . . . . . . . . . 59
OAU-SVX005C-EN 7
Model Number Descriptions
Horizon Outdoor Air Unit
Digit 1, 2 — Unit Type
OA = Outdoor Air
Digit 3 — Cabinet Size
B = 500 cfm–3,000 cfm
G = 1,250 cfm–7,500 cfm
Digit 4 — Major Design
Sequence
D = Revision 1
E = Heat Pump
Digit 5, 6, 7 — Normal Gross
Cooling Capacity (MBh)
000 = No Cooling
036 = 3 Tons High Efficiency
048 = 4 Tons High Efficiency
060 = 5 Tons High Efficiency
072 = 6 Tons High Efficiency
084 = 7 Tons High Efficiency
096 = 8 Tons High Efficiency
108 = 9 Tons High Efficiency
120 = 10 Tons High Efficiency
144 = 12 Tons High Efficiency
180 = 15 Tons High Efficiency
210 = 17 Tons High Efficiency
240 = 20 Tons High Efficiency
264 = 22 Tons High Efficiency
300 = 25 Tons High Efficiency
360 = 30 Tons High Efficiency
Digit 8 — Minor Design
Sequence
A = Vertical Discharge/Vertical Return
B = Vertical Discharge/
C = Horizontal Discharge/
D = Horizontal Discharge/
Horizontal Return
Vertical Return
Horizontal Return
Digit 9 — Voltage Selection
1 = 115/60/1
2 = 208-230/60/1
3 = 208-230/60/3
4 = 460/60/3
5 = 575/60/3
Digit 10 — Reserved for Future
Use
Digit 11 — Evaporator Type
0 = No Cooling
A = DX 3-Row
B = DX 4-Row
C = DX 4-Row Interlaced
D = DX 6-Row Interlaced
E = DX 8-Row
F = Glycol/Chilled Water Coil
G = DX 4-Row with
MSP
®
Technology
Digit 12 — Hot Gas Reheat
0= No HGRH
1 = Fin and Tube Modulating
2 = Fin and Tube On/Off
3 = Microchannel Modulating
4 = Microchannel On/Off
Digit 13 — Compressor
0= No Compressors
A = Scroll Compressors
B = Digital Scroll (1
C = Digital Scroll (1
D = Variable Speed Scroll (1
E = Variable Speed Scroll (1
Circuit Only)
nd
Circuit)
2
st
Circuit Only)
st
and 2nd Circuit)
st
st
and
Digit 14 — Condenser
0 = No Condenser
1 = Air-Cooled Fin and Tube
2 = Air-Cooled Fin and Tube
3 = Water-Cooled DX Condenser
4 = Air-Cooled Fin and Tube
5 = Air-Cooled Microchannel
6 = Air-Cooled Microchannel
7 = Air-Cooled Microchannel
8 = Water-Cooled DX Condenser
w/Head Pressure On/Off Control
Copper/Steel
w/Head Pressure Variable Speed
w/Head Pressure On/Off Control
Variable Speed
Copper/Nickel
Digit 15 — Refrigerant Capacity
Control
0 = No RCC Valve
A = RCC Valve on 1
B = RCC Valve on 1
C = ERCC Valve on 1
D = ERCC Valve on 1
E = HGBP Valve on 1
F = HGBP Valve on 1
nd
2
Circuit
st
Circuit
st
and 2nd Circuit
st
Circuit
st
and 2nd Circuit
st
Circuit
st
and
Digit 16 — Indoor Fan Motor
(IFM)
0 = ECM w/Backward Curved
1 = Direct Drive w/ VFD
2 = Belt Drive
3 = Belt Drive w/VFD
4 = Special Motor Option
Plenum Fan
Digit 17 — Indoor Fan Wheel
A = 355
B = 450
C = 450 X 2
D = 12/9 T2 (Single Fan—Belt Drive)
E = 12/9 BT (Dual Fan—Belt Drive)
Digit 18 — Indoor Fan Motor
Power (hp)
ECM Belt Drive
A = 1 kW 2 hp
B = 2 kW 3 hp
C = 3 kW 5 hp
D = 4 kW 7.5 hp
E = 10 hp
F = 15 hp
Digit 19 — Reserved for Future
Use
Digit 20 — Heat Type (PRI/SEC)
0 = No Heat
A = Indirect-Fired (IF)
B = No Primary Heat, Direct-Fired
(DF) Secondary
C = Electric—Stage
D = Electric—SCR Modulating
E = Dual Fuel (PRI-IF/SEC-DF)
F = Dual Fuel (PRI-ELEC/SEC-DF)
G = Dual Fuel (PRI-IF/SEC-ELEC)
H = Dual Fuel
(PRI-ELEC-SCR/SEC-ELEC)
J = Hot Water
K = Steam
L = No Primary Heat,
Secondary ELEC
M = Dual Fuel
(PRI-ELEC-STAGED/SEC-DF)
N = Dual Fuel
(PRI-ELEC-STAGED/SEC-ELEC)
Digit 21 — Primary Fuel Type
0 = No Heat
1= Natural Gas
2 = Propane
3 = Electric—Open Coil
4 = Electric—Sheathed Coil
5 = Hot Water
6 = Steam
8 OAU-SVX005C-EN
Model Number Descriptions
Digit 22 — Heat Capacity
(Primary Heat Source)
IF ELEC
0 = No Heat No Heat
A = 50 MBh 5 kW
B = 75 MBh 10 kW
C = 100 MBh 15 kW
D = 125 MBh 20 kW
E = 150 MBh 24 kW
F = 200 MBh 28 kW
G = 250 MBh 32 kW
H = 300 MBh 40 kW
J = 350 MBh 48 kW
K = 400 MBh 60 kW
L = 500 MBh 68 kW
M = 600 MBh 79 kW
N = 99 kW
O = 111 kW
P = 119 kW
X = Special Heater Option
Digit 23 — Heat Capacity
(Secondary Heat Source)
ELEC DF
0 = No Heat/No Secondary Heat
A = 5 kW 6-in. Burner—
Up to 300 MBh
B = 10 kW 12-in. Burner—
Up to 400 MBh
C = 15 kW 12-in. Burner—
Up to 600 MBh
D = 20 kW 18-in. Burner—
Up to 400 MBh
E = 24 kW 18-in. Burner—
Up to 900 MBh
F = 28 kW
Digit 24 — Corrosive
Environment Package
0 = No Corrosive Package
1 = S/S Interior, S/S Evap Coil Casing
2 = S/S Interior, Eco Coated Coils
3 = S/S Interior,
Copper/Copper Evap Coil
4 = S/S Coil Casing
5 = S/S Interior
6 = Eco-Coated Coils
7 = S/S Coil Casing with
Eco-Coated Coils
8 = Copper/Copper Evap,
HGRH Coils
Digit 25, 26 — Unit Controls
00 = Non-DDC—Electromechanical
AA = Trane—Discharge Air Control
AB = Trane—Space Control w/LON
AC = Trane—Discharge Air Control
AD = Trane—Space Control
AF = Trane—Discharge Air Control
AG = Trane—Space Control
AI = Trane—Discharge Air Control
AJ = Trane—Space Control
AK = Trane—Multi-Zone VAV Control
AL = Trane—Multi-Zone VAV Control
AM = Trane—Multi-Zone VAV Control
AN = Trane—Multi-Zone VAV Control
AO = Trane—Single-Zone VAV Control
AP = Trane—Single-Zone VAV Control
AQ = Trane—Single-Zone VAV Control
AR = Trane—Single-Zone VAV Control
XX = Control Special
w/LON Read-Write w/Display
Read-Write w/Display
®
w/BACnet
w/BACnet (No Display)
w/BACnet w/Display
w/BACnet w/Display
w/LON Read-Write (No Display)
w/LON Read-Write (No Display)
w/LON Read-Write w/Display
w/BACnet w/Display
w/LON Read-Write (No Display)
w/BACnet (No Display)
w/LON Read-Write w/Display
w/BACnet w/Display
w/LON Read-Write (No Display)
w/BACnet (No Display)
(No Display)
Digit 27 — Powered Exhaust Fan
Motor (PFM) and Exhaust
Dampers
0 = No Powered Exhaust
1 = Direct Drive w/VFD
2 = Direct Drive (VFD by Others)
3 = Belt Drive
4 = Belt Drive w/VFD
5 = Special Motor Option
6 = ECM w/Backward Curved
7 = ECM w/Backward Curved
8 = ECM w/Backward Curved
9 = Barometric Relief Dampers
Plenum Fan
Plenum Fan and Barometric
Relief Damper
Plenum Fan and Isolation
Dampers w/End Switch
(NO PFM)
Digit 28 — Powered Exhaust Fan
Wheel
0 = No Powered Exhaust
A = 355
B = 450
C = 450 X 2
D = 12/9 T2 (Single Fan—Belt Drive)
E = 12/9 BT (Dual Fan—Belt Drive)
Digit 29 — Powered Exhaust Fan
Motor Power
ECM Belt Drive
0 = No Powered Exhaust
A = 1 kW 2 hp
B = 2 kW 3 hp
C = 3 kW 5 hp
D = 4 kW 7.5 hp
E = 10 hp
F = 15 hp
Digit 30 — Reserved for Future
Use
Digit 31 — ERV (Requires
Powered Exhaust)
0= No ERV
A = ERV-Composite Construction
w/Bypass
B = ERV—Composite Construction
with Frost Protection w/VFD
C = ERV—Aluminum Construction
w/Bypass
D = ERV—Aluminum Construction
with Frost Protection w/VFD
Digit 32 — ERV Size
0= No ERV
1 = 3014
2 = 3622
3 = 4136
4 = 4634
5 = 5856
Digit 33 — Damper Options
0 = 100% OA 2-Position Damper
1 = 100% OA 2-Position Damper
w/RA 2-Position Damper
2 = Modulating OA and RA Dampers
w/Economizer
OAU-SVX005C-EN 9
Model Number Descriptions
Digit 34 — Filtration Options
A = No Filters
B = MERV-8,30%
C = MERV-13, 80%
D = MERV-14, 95%
E = MERV-8 30%, MERV-13 80%
F = MERV-8 30%, MERV-14 95%
G = MERV-8, 30% with UVC
H = MERV-13, 80% with UVC
J = MERV-14, 95% with UVC
K = MERV-8 30%, MERV-13 80%,
and UVC
L = MERV-8 30%, MERV-14 95%,
and UVC
M = MERV-8 30% and TCACS
N = MERV-13 80% and TCACS
P = MERV-14 95% and TCACS
Q = MERV-8 30%, MERV-13 80%,
and TCACS
R = MERV-8 30%, MERV-14 95%,
and TCACS
X = Special Filter Options
Digit 35 — Smoke Detector
(Factory-Installed)
0 = No Smoke Detector
1 = Supply Smoke Detector
2 = Return Smoke Detector
3 = Supply and Return Smoke
Detectors
Digit 36 — Electrical Options
0 = Terminal Block
A = Non-Fused Disconnect Switch
B = Fused Disconnect Switch
C = Non-Fused Disconnect Switch
w/Convenience Outlet
D = Fused Disconnect Switch
w/Convenience Outlet
E = Dual Point Power
F = Dual Point Power
w/Convenience Outlet
G = 65 SCCR Electrical Rating
w/Non-Fused Disconnect
H = 65 SCCR Electrical Rating
w/Fused Disconnect
J = 65 KAIC Electrical Rating
w/Non-Fused Disconnect
K = 65 KAIC Electrical Rating
w/Fused Disconnect
L = 65 KAIC Non-Fused
w/Convenience Outlet
M = 65 KAIC Fused
w/Convenience Outlet
N = 65 SCCR Non-Fused
w/Convenience Outlet
Digit 37 — Air Flow Monitoring
0 = No Airflow Monitoring
1 = Airflow Monitoring—IFM
Piezo Ring
2 = Airflow Monitoring—PE
Piezo Ring
3 = Airflow Monitoring—Outdoor Air
with Display and IFM
w/Piezo Ring
4 = Airflow Monitoring—IFM
Piezo Ring and PE Piezo Ring
5 = Airflow Monitoring—Outdoor Air
Monitoring w/Display Supply Air
and Exhaust Air w/Piezo Rings
6 = Airflow Monitoring—Outdoor Air
Monitoring for Direct-Fired
Heat Units
Digit 38 — Accessories
0 = No Options
A = Hailguards
B = Hailguards and LED Service
Light in Supply Fan Section
C = LED Service Light in Supply
Fan Section
D = Hailguards and LED Service
Light in
Exhaust Fan Section
E = Hailguards and LED Service
Light in Supply
and Exhaust
Fan Section
F = LED Service Light in Exhaust
Fan Section
G = LED Service Light in Supply and
Exhaust Fan Section
Digit 39 — Altitude
0 = Sea Level to 1,000 Feet
1 = 1,001 to 2,000 Feet
2 = 2,001 to 3,000 Feet
3 = 3,001 to 4,000 Feet
4 = 4,001 to 5,000 Feet
5 = 5,001 to 6,000 Feet
6 = 6,001 to 7,000 Feet
7 = Above 7,000 Feet
10 OAU-SVX005C-EN
General Information
Overview of Manual
Note: One copy of this document ships inside the control
panel of each unit and is customer property. It must
be retained by the unit’s maintenance personnel.
This booklet describes proper installation, operation, and
maintenance procedures for air cooled systems. By
carefully reviewing the information within this manual
and following the instructions, the risk of improper
operation and/or component damage will be minimized.
It is important that periodic maintenance be performed to
help assure trouble free operation. A maintenance
schedule is provided at the end of this manual. Should
equipment failure occur, contact a qualified service
organization with qualified, experienced HVAC techn icians
to properly diagnose and repair this equipment.
Model Number Description
All products are identified by a multiple-character model
number that precisely identifies a particular type of unit.
An explanation of the alphanumeric identification code is
provided (see the Model Number chapter). Its use will
enable the owner/operator, installing contractors, and
service engineers to define the operation, specific
components, and other options for any specific unit.
When ordering replacement parts or requesting service,
be sure to refer to the specific model number and serial
number printed on the unit nameplate.
Unit Nameplate
A Mylar® unit nameplate is located on the unit’s corner
support next to the control box. It includes the unit model
number, serial number, electrical characteristics,
refrigerant charge, as well as other pertinent unit data.
and RTRM receive information from sensors and
customer binary contacts to satisfy the applicable request
for ventilation, cooling, dehumidification and heating.
Indoor Fan Failure Input
The Indoor Fan Failure Switch (IFFS) is connected to verify
indoor fan operation.
When there is a call for the indoor fan to be energized, the
differential pressure switch, connected to the Main Unit
Display, must prove airflow within 60 seconds or the Main
Unit Display will shut off all mechanical operations, lock
the system out and send a diagnostic alarm to the Unit
Display. The system will remain locked out until a reset is
initiated through the MCM via the Alarm Reset Function on
the Unit Display.
Low Pressure Control ReliaTel Control
This input incorporates the compressor low pressure
control (CLP 1/2) of each refrigeration circuit and can be
activated by opening a field supplied contact installed on
the OAUTS.
If this circuit is open before the compressor is started, the
ReliaTel™ control will not allow the affected compressor to
operate. Anytime this circuit is opened for 1 continuous
second during compressor operation, the compressor is
immediately turned “Off.” The compressor will not be
allowed to restart for a minimum of 3 minutes should the
contacts close.
If four consecutive open conditions occur during the first
three minutes of operation, the compressor will be locked
out, and a manual reset will be required to restart the
compressor.
Refrigerant Circuits
Compressor Nameplate
The nameplate for the compressors are located on the side
of the compressor.
Unit Description
Before shipment, each unit is leak tested, dehydrated,
charged with refrigerant and compressor oil, and run
tested for proper control operation.
The condenser coils are aluminum fin, mechanically
bonded to copper tubing.
Direct-drive, vertical discharge condenser fans are
provided with built-in thermal overload protection.
The Outdoor Air Unit Main Unit Display and ReliaTel™
Control Module (RTRM) are microelectronic control
systems. The acronym RTRM is extensively throughout
this document when referring to the control system
network.
The optional Main Unit Display and the RTRM are
mounted in the Main Control Panel. The Main Unit Display
OAU-SVX005C-EN 11
Units shall incorporate a 4- or 6-row evaporator coil. All
circuits shall have thermal expansion valves (TXVs),
service pressure ports, sight glass, and refrigerant line
filter drier as standard. An area will be provided for
replacement suction line driers. Each refrigerant circuit is
equipped with a factory installed and preset refrigerant
capacity control (RCC) to prevent evaporator coil
temperatures below approximately 38°F (114 lb suction).
The refrigerant capacity device is not installed when the
unit is equipped with a digital scroll.
High Pressure Control ReliaTel Control
The compressor high pressure controls (CHP 1/2) are
wired in series between the compressor outputs on
RTRM1 (CHP 1/2) and the compressor contactor coils. If
one of the high pressure control switches opens, the RTRM
senses a lack of current while calling for cooling and locks
the compressor out.
General Information
Space Temperature / RH Sensor (Optional)
Field installed, wall mounted temperature sensor
(BAYSENS036A) and humidity to control space cooling,
heating and dew point.
High Temperature Sensor
The Discharge Air Temperature Sensor (DTC) supplies a
continuous signal to the MCM. If the MCM does not sense
a signal from the DTC, the unit will go into LOCKOUT and
require a manual restart once the proper operation of the
DTC has been confirmed. If DAT exceeds Discharge Air
High Temperature Cutoff (DHCS) of 125°F for 10 minutes,
the unit will shut down and require manual restart.
Outdoor Air Temperature and Relative Humidity Sensor
This factory installed combination outdoor air sensor
located in the outdoor air hood is designed to sense both
outdoor air temperature and relative humidity for use by
the microprocessor controller to make required
ventilation, cooling, dehumidification and heating
decisions.
Control Input (Occupied / Unoccupied)
Terminals are provided on the terminal strip labeled
OAUTS for a field installed dry contact or switch closure to
put the unit in the Occupied or Unoccupied modes.
Hot Gas Reheat
This option shall consist of a hot-gas reheat coil located on
the leaving air side of the evaporator.
100 Percent Outdoor Air Hood with Damper and Filters
Factory-installed and -integrated 100 percent outdoor air
hood with damper controlled by a direct coupled actuator.
Through the Base Electrical with Disconnect Switch
Factory installed 3-pole, molded case disconnect switch
with provisions for through the base electrical connections
will be included. The disconnect switch, with integral
overcurrent circuit breaker, will be installed in the unit in a
water tight enclosure with access through a hinged door.
Factory wiring will be provided from the switch to the unit
high voltage terminal block. The switch will be UL/CSA
agency recognized.
Hinged Access Doors
Hinged access doors with hold open brackets will be
factory-installed.
Unit Inspection
WARNING
Fiberglass Wool!
Product may contain fiberglass wool. Disturbing the
insulation in this product during installation,
maintenance or repair will expose you to airborne
particles of glass wool fibers and ceramic fibers known
to the state of California to cause cancer through
inhalation. Glass wool fibers may also cause
respiratory, skin or eye irritation.
AVERTISSEMENT
Laine de verre!
Le produit peut contenir de la laine de verre. Des
interventions inappropriées sur l’isolation de ce produit
pendant les opérations d’installation, d’entretien ou de
réparation vous exposent à des particules aériennes de
fibres de verre ou de fibres céramiques, responsables
selon la législation américaine (état de Californie) de
risques de cancers par inhalation. Les fibres de verre
peuvent aussi provoquer des phénomènes d’irritation
au niveau du système respiratoire, de la peau ou des
yeux.
As soon as the unit arrives at the job site:
Verify that the nameplate data matches the data on
the sales order and bill of lading (including electrical
data).
Verify that the power supply complies with the unit
nameplate specifications.
Visually inspect the exterior of the unit, including the
roof, for signs of shipping damage.
Visually inspect the internal components for shipping
damage as soon as possible after delivery and before
it is stored. Do not walk on the sheet metal base pans.
If conce aled damage is discovered, notify the carrier’s
terminal of damage immediately by phone and by
mail. Concealed damage must be reported within
15 days.
Request an immediate joint inspection of the damage
by the carrier and the consignee. Do not remove
damaged material from the receiving location. Take
photos of the damage, if possible. The owner must
provide reasonable evidence that the damage did not
occur after delivery.
Notify the appropriate sales representative before
installing or repairing a damaged unit.
• Avoid breathing fiberglass dust.
• Use a NIOSH approved dust/mist respirator.
• Avoid contact with the skin or eyes. Wear long-sleeved,
loose-fitting clothing, gloves, and eye protection.
12 OAU-SVX005C-EN
• Wash clothes separately from other clothing: rinse
washer thoroughly.
• Operations such as sawing, blowing, tear-out, and
spraying may generate fiber concentrations requiring
additional respiratory protection. Use the appropriate
NIOSH approved respiration in these situations.
First Aid Measures
Eye Contact
Flush eyes with water to remove dust. If symptoms persist,
seek medical attention.
Skin Contact
Wash affected areas gently with soap and warm water
after handling.
Storage
Take precautions to prevent condensate from forming
inside the unit’s electrical compartments and motors if:
• the unit is stored before it is installed; or,
• the unit is set on the roof curb, and temporary heat is
provided in the building. Isolate all side panel service
entrances and base pan openings (e.g., conduit holes,
S/A and R/A openings, and flue openings) from the
ambient air until the unit is ready for startup.
Note: Do not use the unit’s heater for temporary heat
without first completing the startup procedure
detailed in “Startup,” p. 29.
The manufacturer will not assume any responsibility for
equipment damage resulting from condensate
accumulation on the unit’s electrical and/or mechanical
components.
General Information
Unit Clearances
Unit Clearances, Curb Dimensions, and Dimensional Data
chapter contains figures that illustrate the minimum
operating and service clearances for either a single or
multiple unit installation. These clearances are the
minimum distances necessary to assure adequate
serviceability, cataloged unit capacity, and peak operating
efficiency.
Providing less than the recommended clearances may
result in condenser coil starvation, “short-circuiting” of
exhaust or recirculation of hot condenser air.
OAU-SVX005C-EN 13
Unit Clearances, Curb Dimensions, and Dimensional
84
72
36
36
48
36
48.500
25.500
25.000
3.750
93.500
9.250
27.500
9.250
12.750
13.750
1.250
3.438
122.688
RETURN
SUPPLY
55.143
55.489
52.554
52.000
22.000
3.180
15.676
ELECTRIC
DISCONNECT
FRONT VIEW
12.979
18.149
144.349
126.200
97.000 29.200
RIGHT SIDE VIEW
3.250
12.000
SUPPLY
24.000
SUPPLY
16.000
26.500
RETURN
12.750
12.750
14.500
RETURN
32.450
22.000
4.498
THROUGH BASE
ELECTRIC
BOTTOM VIEW
Data
Curb Dimensions
WARNING
Combustible Materials!
Failure to maintain proper clearance between the unit
heat exchanger, vent surfaces and combustible
materials could cause a fire which could result in death
or serious injury or property damage. Refer to unit
nameplate and installation instructions for proper
clearances.
AVERTISSEMENT
Matériaux combustibles!
Tout manquement à l’obligation de maintenir une
distance appropriée entre l’échangeur de chaleur de
l’unité, les surfaces de ventilation et les matériaux
combustibles peut provoquer un incendie pouvant
résulter en des blessures corporelles graves, voire
mortelles, ou des dommages matériels. Reportez-vous
à la plaque signalétique de l’unité et aux instructions
d’installation pour connaître les distances appropriées.
Figure 2. Unit curb data for direct-fired OAB tons (in.)
Dimensional Data
Figure 3. Unit dimensional data for direct-fired OAB
(in.)
Direct-Fired OAB Units
Unit Clearances
Figure 1. Typical installation clearances for direct-fired
OAB unit (in.)
14 OAU-SVX005C-EN
Unit Clearances, Curb Dimensions, and Dimensional Data
72
84
36
36
48
36
70.500
22.625
21.000
8.750
15.000
25.000
RETURN
SUPPLY
53.000
8.750
117.500
23.375
35.375
11.875
121.371
66.096
ELECTRIC
DISCONNECT
SWITCH
THROUGH BASE
ELECTRIC
74.000
17.323
33.751
121
3.078
GAS INLET
5.5852
Direct-Fired OAG Units
Unit Clearances
Figure 4. Typical installation clearances for direct-fired
OAG unit (in.)
Dimensional Data
Figure 6. Unit dimensional data for direct-fired OAG
(in.)
Curb Dimensions
Figure 5. Unit curb data for direct-fired OAG tons (in.)
OAU-SVX005C-EN 15
Unit Weight and Rigging
WARNING
Heavy Objects!
Failure to follow instructions below or properly lift unit
could result in unit dropping and possibly crushing
operator/technician which could result in death or
serious injury, and equipment or property-only damage.
Ensure that all the lifting equipment used is properly
rated for the weight of the unit being lifted. Each of the
cables (chains or slings), hooks, and shackles used to
lift the unit must be capable of supporting the entire
weight of the unit. Lifting cables (chains or slings) may
not be of the same length. Adjust as necessary for even
unit lift.
AVERTISSEMENT
Objets lourds!
Le non-respect des instructions ci-dessous ou un levage
inapproprié de l’unité peut provoquer sa chute voire
écraser l’opérateur/le technicien, ce qui peut
occasionner des blessures graves voire mortelles, et
éventuellement endommager l’équipement ou
provoquer des dégâts matériels. Assurez-vous que
l’équipement de levage utilisé est adapté au poids de
l’unité à soulever. Chaque câble (chaîne ou élingue),
crochet ou manille utilisé pour le levage de l’unité doit
être assez robuste pour supporter le poids total de
l’unité. Les câbles, chaînes ou élingues de levage ne
doivent pas être de longueur identique. Procédez au
réglage afin de soulever l’unité de manière équilibrée.
Unit Weight
Table 1. Typical unit weight
Operating Weight (lb)
Model Number
OABD036* 1655 1839
OABD048* 1655 1839
OABD060* 1655 1839
OABD072* 1695 1879
OABD084* 1695 1879
OABD096* 1695 1879
OABD108* 1736 1920
OAGD120* 2912 3198
OAGD144* 2912 3198
OAGD180* 2913 3199
OAGD210* 3062 3348
OAGD240* 3134 3439
OAGD264* 3135 3439
OAGD300* 3175 3489
OAGD360* 3186 3500
Note: Minimum and maximum weights vary widely due to the highly
configurable nature of the product.
Min Max
WARNING
Improper Unit Lift!
Failure to properly lift unit could result in unit dropping
and possibly crushing operator/technician which could
result in death or serious injury, and equipment or
property-only damage. Test lift unit approximately
24 inches to verify proper center of gravity lift point. To
avoid dropping of unit, reposition lifting point if unit is
not level.
AVERTISSEMENT
Levage inapproprié de l’unité!
Le non-respect des instructions ci-dessous ou un levage
inapproprié de l’unité peut provoquer sa chute voire
écraser l’opérateur/le technicien, ce qui peut
occasionner des blessures graves voire mortelles, et
éventuellement endommager l’équipement ou
provoquer des dégâts matériels. Faites un test de
levage de l’unité d’environ 60 cm (24 po) afin de vérifier
que le point de levage correspond au centre de gravité
de l’appareil. Pour éviter une chute de celle-ci, ajustez
son point de levage si elle n’est pas à l’horizontale.
16 OAU-SVX005C-EN
Unit Weight and Rigging
A
DETAIL A
SCALE 1 : 12
SCREW PIN SHACKLE
4 LOCATIONS
SPREADER BARS
6-point lift
(Model: Direct-fired OAB)
SPREADER
BARS
A
SCALE 1 : 12
DETAIL A
SCREW PIN SHACKLE
4 LOCATIONS
4-point lift
(Model: Direct-fired OAG)
Rigging
Figure 7. Rigging
3. Test-lift the unit to ensure it is properly rigged and
balanced, make any necessary rigging adjustments.
4. Lift the unit and position it into place. Remove fork
pockets prior to setting on the curb.
5. Downflow units; align the base rail of the unit with the
curb rail while lowering the unit onto the curb. Make
sure that the gasket on the curb is not damaged while
positioning the unit.
Before proceeding, refer to Table 1, p. 16 for typical unit
operating weights and Figure 7, p. 17 for rigging drawing.
1. Rig the unit as shown in Figure 7, p. 17. Attach
adequate strength lifting slings to all four lifting
brackets in the unit base rail. Do not use cables, chains,
or slings except as shown.
2. Install a lifting bar, as shown in Figure 7, p. 17, to
protect the unit and to facilitate a uniform lift. The
minimum distance between the lifting hook and the
top of the unit should be 7 feet.
OAU-SVX005C-EN 17
Installation
48" Minimum
Airflow
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical hazards,
MUST follow precautions in this manual and on the
tags, stickers, and labels, as well as the following
instructions: Unless specified otherwise, disconnect all
electrical power including remote disconnect and
discharge all energy storing devices such as capacitors
before servicing. Follow proper lockout/tagout
procedures to ensure the power can not be
inadvertently energized. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been trained in
handling live electrical components perform these
tasks.
AVERTISSEMENT
Procédures d’entretien dangereuses!
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes : Sauf indication contraire,
coupez toute l’alimentation électrique y compris les
disjoncteurs à distance et déchargez tous les dispositifs
de stockage d’énergie comme les condensateurs avant
l’entretien. Respectez les procédures de verrouillage et
d’étiquetage appropriées pour éviter tout risque de
remise sous tension accidentelle. S’il est nécessaire de
travailler avec des composants électriques sous
tension, demandez à un électricien qualifié et agréé ou
à une autre personne ayant la formation nécessaire
pour manipuler des composants électriques sous
tension d’exécuter ces tâches.
Ductwork
Elbows with turning vanes or splitters are recommended
to minimize air noise due to turbulence and to reduce static
pressure.
When attaching the ductwork to the unit, provide a watertight flexible connector at the unit to prevent operating
sounds from transmitting through the ductwork.
All outdoor ductwork between the unit and the structure
should be weather proofed after installation is completed.
Note: For sound consideration, cut holes in the roof deck
only for the ductwork penetrations. Do not cut out
the roof deck within the entire curb perimeter. All
duct work must be installed and connected to top of
roof curb before the unit is set on curb.
If a Curb Accessory Kit is not used:
1. Be sure to use flexible duct connections at the unit.
2. Gaskets must be installed around the curb perimeter
flange and the supply and return air opening flanges.
Note: For units will electric heat in the primary heating
position, refer to Figure 8.
Figure 8.
Important: Bottom discharge units with open coil
electric heater in primary heat location
require discharge duct with 90° elbow. This
is a MANDATORY installation requirement.
Note: A minimum 48" of straight duct is required before
an elbow. This is a requirement for both vertical and
horizontal discharge regardless of heat type.
General Unit Requirements
The checklist listed below is a summary of the steps
required to successfully install a commercial unit. This
checklist is intended to acquaint the installing personnel
with what is required in the installation process. It does
not replace the detailed instructions called out in
the applicable sections of this manual.
Check the unit for shipping damage and material
shortage. File a freight claim and notify appropriate
sales representative if damage or shortage is
discovered.
Verify that the unit nameplate model, options, and
voltage are correct.
Verify that the installation location of the unit will
provide the required clearance for proper operation.
Assemble and install the roof curb (if applicable).
Refer to the latest edition of the curb installers guide
that ships with each curb kit. Check curb for level
installation; if not level, shim as required.
Rigging unit (refer to “Unit Weight and Rigging,”
p. 16).
18 OAU-SVX005C-EN
Installation
D" NPT FEMALE
CONNECTOR
CLEANOUT PLUG
D = PIPE DIAMETER
H = INTERNAL STATIC PRESSURE (IN W.G.) + 1"
J = H * 0.5
L = H + J + D
Set the unit onto the curb; check for level.
Ensure unit-to-curb seal is tight and without buckles
or cracks.
Install and connect proper condensate drain line to
the evaporator condensate pan drain connection (see
Figure 9, p. 19).
Main Electrical Power Requirements
Verify that the power supply complies with the unit
nameplate specifications.
Inspect all control panel components; tighten any
loose connections.
Connect properly sized and protected power supply
wiring to a field-supplied/-installed disconnect switch
and to the main power terminal block (HTB1) in the
unit control panel.
Connect properly-sized earth ground.
Note: All field-installed wiring must comply with NEC
and applicable local codes.
Condensate Drain Configuration
OAU units are selected based on dehumidification
capability. As such, condensate can form at a high rate.
Therefore, the OAU drain pan and condensate line are
sized and designed accordingly. However, an oftenoverlooked element of proper condensate drainage is
proper P-Trap and drain line sizing and installation. An
incorrectly-designed and -installed P-Trap can restrict
condensate flow or cause water in the condensate drain
pan to “spit” or “geyser” which may cause condensate
overflow. Carefully install and trap the drain pan to ensure
adequate condensate removal under all conditions.
An evaporator condensate drain connection is provided
on the unit. Refer to Figure 11, p. 20 for the drain location.
A condensate trap must be installed at the unit due to the
drain connection being on the “negative pressure” side of
the fan. Install the P-Trap using the guidelines in Figure 9.
Pitch drain lines connected to P-Trap at least 1/2 inch for
every 10 feet of horizontal run to assure proper
condensate flow. Do not allow the horizontal run to sag
causing a possible double-trap condition which could
result in condensate backup due to “air lock”.
Figure 9. Condensate trap installation
D = Pipe diameter (1 in.)
H = Internal static pressure (in wg) +1 in.
J = H x 0.5
L = H + J +D
Notes:
1. Pitch drain at least 1/2 in. per 10 ft horizontal run.
2. Condensate drain pan will not drain properly if P-trap is not primed
and of adequate height to allow for cabinet operating negative
pressure.
Filter Installation
WARNING
Do Not Install Filters or Flammable
Components Downstream of Direct-Fired
Burner!
Installing filters or flammable components downstream
of the direct-fired burner could cause a fire hazard and
result in death or serious injury.
AVERTISSEMENT
N’installez pas de filtre ou de composant
inflammable en aval du brûleur à feu
direct!
L’installation de filtres ou de composants inflammables
en aval du brûleur à feu direct peut provoquer un risque
d’incendie et résulter en des blessures graves, voire
mortelles..
OAU-SVX005C-EN 19
Each unit ships with 2-inch permanent filters (mist
eliminators) along with the specified MERV-rated pleated
filters installed in the air inlet hood. The quantity of filters
is determined by unit size. Access to the filters is through
the hinged filter access panel on the air intake hood. Filter
type, size, and quantity are determined by selected filter
option and unit size.
Note: Do not operate the unit without filters. Pleated
filters are installed in the inlet hood in the directfired unit.
Installation
ELECTRIC
DISCONNECT
SWITCH
GAS INLET
1.25 IN. MPT
CONDENSATE
DRAIN
0.5 IN. FPT
18.051
118.701
10.672
6.854
62.203
7.024
22.002
6.901
54.179
121.371
66.096
ELECTRIC
DISCONNECT
SWITCH
THROUGH BASE
ELECTRIC
74.000
17.323
33.751
121
3.078
GAS INLET
5.5852
6.000
62.268
5.044
HEIGHT OF INLET
TO BASE
Field Installed Power Wiring
WARNING
Proper Field Wiring and Grounding
Required!
Failure to follow code could result in death or serious
injury. All field wiring MUST be performed by qualified
personnel. Improperly installed and grounded field
wiring poses FIRE and ELECTROCUTION hazards. To
avoid these hazards, you MUST follow requirements for
field wiring installation and grounding as described in
NEC and your local/state electrical codes.
AVERTISSEMENT
Câblage sur site et mise à la terre corrects
nécessaires!
Le non-respect de la réglementation peut entraîner des
blessures graves, voire mortelles. Il est IMPÉRATIF de
confier l’ensemble du câblage sur site à un électricien
qualifié. Un câblage sur site mal installé ou mal mis à la
terre constitue des risques D’INCENDIE et
D’ÉLECTROCUTION. Pour éviter ces risques, il est
IMPÉRATIF de respecter les obligations en matière de
pose de câblage sur site et de mise à la terre tel que
stipulé dans les règles du NEC et dans les
réglementations électriques locales/nationales.
Figure 11. OAG utility connections (in.)
An overall dimensional layout for the standard field
installed wiring entrance into the unit is illustrated in
Figure 10 and Figure 11. To ensure that the unit’s supply
power wiring is properly sized and installed, refer to the
following guidelines.
Figure 10. OAB utility connections (in.)
Table 2. OAB/OAG unit
Maximum MBh Burner Size (in.) Pipe Connection (in.)
300 6 1
660 12 1
814 18 1-1/4
Note: All field installed wiring must conform to NEC
guidelines as well as State and Local codes.
Verify that the power supply available is compatible with
the unit’s nameplate ratings. The available supply power
20 OAU-SVX005C-EN
must be within 10 percent of the rated voltage stamped on
the nameplate. Use only copper conductors to connect the
power supply to the unit.
Installation
Main Unit Power
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
NOTICE:
Use Copper Conductors Only!
Failure to use copper conductors could result in
equipment damage as unit terminals are not designed
to accept other types of conductors.
Standard Wiring
WARNING
Proper Field Wiring and Grounding
Required!
Failure to follow code could result in death or serious
injury. All field wiring MUST be performed by qualified
personnel. Improperly installed and grounded field
wiring poses FIRE and ELECTROCUTION hazards. To
avoid these hazards, you MUST follow requirements for
field wiring installation and grounding as described in
NEC and your local/state electrical codes.
The electrical service must be protected from over current
and short circuit conditions in accordance with NEC
requirements. Protection devices must be sized according
to the electrical data on the nameplate.
1. Location of the electrical service entrance is illustrated
in Figure 11. Complete the unit’s power wiring
connections onto either; the main terminal block HTB1
inside the unit control panel, the factory mounted nonfused disconnect switch (UCD) or circuit breaker (UCB),
or the electric heat non-fused disconnect switch. Refer
to the customer connection diagram that shipped with
the unit for specific termination points.
2. Provide proper grounding for the unit in accordance
with local and national codes.
Use the following checklist in conjunction with the
checklist in “General Unit Requirements,” p. 18 to ensure
that the unit is properly installed and ready for operation.
Verify that the correct size and number of filters are in
place.
Inspect the interior of the unit for tools and debris and
install all panels in preparation for starting the unit.
Check all electrical connections for tightness and
“point of termination” accuracy.
Verify condenser airflow is unobstructed.
Verify that the condenser and indoor fans turn freely
without rubbing and are properly tightened on the
shafts.
Check motor mounting bolts and inlet cone for
tightness. Free spin wheel by hand to check for proper
alignment of motor, wheel, and inlet cone. Record
motor nameplate amps at unit-rated voltage.
Check proper indoor fan wheel rotation. Wheel
housing will be marked to indicate direction of proper
rotation.
With access doors closed and secured, operate
blower at 100 percent speed. Check amp readout of
amps output to indoor fan at VFD display to confirm
operation within motor amp capacity.
Voltage Imbalance
AVERTISSEMENT
Câblage sur site et mise à la terre corrects
nécessaires!
Le non-respect de la réglementation peut entraîner des
blessures graves, voire mortelles. Il est IMPÉRATIF de
confier l’ensemble du câblage sur site à un électricien
qualifié. Un câblage sur site mal installé ou mal mis à la
terre constitue des risques D’INCENDIE et
D’ÉLECTROCUTION. Pour éviter ces risques, il est
IMPÉRATIF de respecter les obligations en matière de
pose de câblage sur site et de mise à la terre tel que
stipulé dans les règles du NEC et dans les
réglementations électriques locales/nationales.
OAU-SVX005C-EN 21
Live Electrical Components!
Failure to follow all electrical safety precautions when
exposed to live electrical components could result in
death or serious injury. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been properly
trained in handling live electrical components perform
these tasks.
WARNING
Installation
AVERTISSEMENT
Composants électriques sous tension!
Le non-respect de toutes les consignes de sécurité lors
de la manipulation de composants électriques sous
tension peut entraîner des blessures graves, voire
mortelles. S’il est nécessaire de travailler avec des
composants électriques sous tension, demandez à un
électricien qualifié et agréé ou à une autre personne
ayant la formation nécessaire pour manipuler des
composants électriques sous tension d’exécuter ces
tâches.
Three phase electrical power to the unit must meet
stringent requirements for the unit to operate properly.
Measure each leg (phase-to-phase) of the power supply.
Each reading must fall within the utilization range stamped
on the unit nameplate. If any of the readings do not fall
within the proper tolerances, notify the power company to
correct this situation before operating the unit.
Excessive three phase voltage imbalance between phases
will cause motors to overheat and eventually fail. The
maximum allowable voltage imbalance is 2.0 percent.
Measure and record the voltage between phases 1, 2, and
3 and calculate the amount of imbalance as follows:
Electrical Phasing (Three-Phase Motors)
WARNING
Live Electrical Components!
Failure to follow all electrical safety precautions when
exposed to live electrical components could result in
death or serious injury. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been properly
trained in handling live electrical components perform
these tasks.
AVERTISSEMENT
Composants électriques sous tension!
Le non-respect de toutes les consignes de sécurité lors
de la manipulation de composants électriques sous
tension peut entraîner des blessures graves, voire
mortelles. S’il est nécessaire de travailler avec des
composants électriques sous tension, demandez à un
électricien qualifié et agréé ou à une autre personne
ayant la formation nécessaire pour manipuler des
composants électriques sous tension d’exécuter ces
tâches.
% Voltage Imbalance = 100 X
AV (Average Voltage) =
V1, V2, V3 = Line Voltage Readings
VD = Line Voltage reading that deviates the farthest from
the average voltage.
Example: If the voltage readings of the supply power
measured 221, 230, and 227, the average volts would be:
221 + 230 + 227
3
VD (reading farthest from average) = 221
The percentage of Imbalance equals:
100 X
The 2.2 percent imbalance in this example exceeds the
maximum allowable imbalance of 2.0 percent. This much
imbalance between phases can equal as much as a
20 percent current imbalance with a resulting increase in
motor winding temperatures that will decrease motor life.
If the voltage imbalance is over 2.0 percent, notify the
proper agencies to correct the voltage problem before
operating this equipment.
226 - 221
226
= 226 Avg.
= 2.2%
AV - VD
AV
Volt 1 + Volt 2 + Volt 3
where;
3
The compressor motor(s) and the supply fan motor are
internally connected for the proper rotation when the
incoming power supply is phased as A to L1, B to L2, and
C to L3.
Proper electrical supply phasing can be quickly
determined and corrected before starting the unit by using
an instrument such as an Associated Research Model 45
Phase Sequence Indicator and following these steps:
Turn off the main source feeding power to the unit
field-supplied or factory-installed main disconnect
device (switch or circuit breaker).
Close the unit disconnect device cover, leaving
disconnect switch in the off position, and turn main
source power on.
Observe the ABC and CBA phase indicator lights on
the face of the sequencer. The ABC indicator light will
glow if the phase is ABC. If the CBA indicator light
glows, turn main source power off and then open the
unit main disconnect device cover and reverse any
two power wires.
Restore the main source power and recheck the
phasing. If the phasing is correct, turn main source
power off then open the unit main disconnect device
cover, remove the phase sequence indicator, reinstall
disconnect device cover and, leaving disconnect
device in the off position, turn main power source to
unit on.
22 OAU-SVX005C-EN
Installation
Compressor Crankcase Heaters
WARNING
Live Electrical Components!
Failure to follow all electrical safety precautions when
exposed to live electrical components could result in
death or serious injury. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been properly
trained in handling live electrical components perform
these tasks.
AVERTISSEMENT
Composants électriques sous tension!
Le non-respect de toutes les consignes de sécurité lors
de la manipulation de composants électriques sous
tension peut entraîner des blessures graves, voire
mortelles. S’il est nécessaire de travailler avec des
composants électriques sous tension, demandez à un
électricien qualifié et agréé ou à une autre personne
ayant la formation nécessaire pour manipuler des
composants électriques sous tension d’exécuter ces
tâches.
To prevent injury or death from electrocution, it is the
responsibility of the technician to recognize this hazard
and use extreme care when performing service
procedures with the electrical power energized.
Each compressor shall be equipped with a crankcase
heater. The proper operation of the crankcase heater is
important to maintain an elevated compressor oil
temperature during the “Off” cycle to reduce oil foaming
during compressor starts. Oil foaming occurs when
refrigerant condenses in the compressor and mixes with
the oil. In lower ambient conditions, refrigerant migration
to the compressor could increase.
When the compressor starts, the sudden reduction in
crankcase pressure causes the liquid refrigerant to boil
rapidly causing the oil to foam. This condition could
damage compressor bearings due to reduced lubrication
and could cause compressor mechanical failures.
Before initial start up, or if main power has been off for an
extended period of time, compressor crankcase heater(s)
should be operated for a minimum of 8 hours prior to
compressor operation. With main power OFF, remove
jumper between OAUTS terminals 9 and 10 (E-Stop). Turn
main power to energize crankcase heater(s). At end of
warm up period turn main power off, install 9-10 jumper,
turn main power on, and resume normal operation.
Following crankcase heater warm-up, turn main power
disconnect off, and install jumper on E-Stop terminals 9
and 10.
Turn Main disconnect “On”.
Main Unit Display and ReliaTel Controls
When first powered “On”, the controls perform selfdiagnostic initialization to check that all internal controls
are functional. The Status LED located on the Main Unit
Display and the Liteport LED located on the RTRM module
is turned “On” within one second of power-up if internal
operation is okay.
Field-Installed Control Wiring
WARNING
Proper Field Wiring and Grounding
Required!
Failure to follow code could result in death or serious
injury. All field wiring MUST be performed by qualified
personnel. Improperly installed and grounded field
wiring poses FIRE and ELECTROCUTION hazards. To
avoid these hazards, you MUST follow requirements for
field wiring installation and grounding as described in
NEC and your local/state electrical codes.
AVERTISSEMENT
Câblage sur site et mise à la terre corrects
nécessaires!
Le non-respect de la réglementation peut entraîner des
blessures graves, voire mortelles. Il est IMPÉRATIF de
confier l’ensemble du câblage sur site à un électricien
qualifié. Un câblage sur site mal installé ou mal mis à la
terre constitue des risques D’INCENDIE et
D’ÉLECTROCUTION. Pour éviter ces risques, il est
IMPÉRATIF de respecter les obligations en matière de
pose de câblage sur site et de mise à la terre tel que
stipulé dans les règles du NEC et dans les
réglementations électriques locales/nationales.
An overall layout of the various control options available
with the required number of conductors for each control
device is illustrated in Figure 12, p. 25.
Note: All field wiring must conform to NEC guidelines as
well as state and local codes.
Control Power Transformer
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
OAU-SVX005C-EN 23
Installation
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
The 24-volt control power transformers are to be used only
with the accessories called out in this manual.
Transformers rated greater than 50 VA are equipped with
internal circuit breakers. If a circuit breaker trips, turn “Off”
all power to the unit before attempting to reset it.
The transformers are located in the control panel. The
circuit breaker is located on the left side of the
transformers and can be reset by pressing in on the black
reset button.
Note: Resistance in excess of 3 ohms per conductor
may cause component failure due to
insufficient AC voltage supply.
3. Be sure to check all loads and conductors for grounds,
shorts, and mis-wiring.
4. Do not run the AC low-voltage wiring in the same
conduit with the high-voltage power wiring.
Table 3. 24 Vac conductors
Distance from Unit to Control Recommended Wire Size
000–460 feet
000–140 m
461–732 feet
104–223 m
18 gauge
0.75 mm
16 gauge
1 mm
2
2
Controls Using DC Analog Input/Output (Standard Low Voltage Multiconductor Wire)
Controls Using 24 Vac
WARNING
Hazardous Voltage!
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
NOTICE:
Use Copper Conductors Only!
Failure to use copper conductors could result in
equipment damage as unit terminals are not designed
to accept other types of conductors.
Before installing any connecting wiring, refer to Figure 11,
p. 20 for the electrical access locations provided on the
unit and Table 3 for AC conductor sizing guidelines, and:
1. Use copper conductors unless otherwise specified.
2. Ensure that the AC control wiring between the controls
and the unit’s termination point does not exceed three
(3) ohms/ conductor for the length of the run.
24 OAU-SVX005C-EN
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
Before installing any connecting wiring between the unit
and components utilizing a DC analog input\output signal,
refer to Figure 11, p. 20 for the electrical access locations
provided on the unit.
1. Table 4 lists the conductor sizing guidelines that must
be followed when interconnecting the DC binary
output devices and the system components utilizing a
DC analog input/output signal to the unit.
Note: Resistance in excess of 2.5 ohms per conductor
can cause deviations in the accuracy of the
controls.
2. Ensure that the wiring between controls and the unit’s
termination point does not exceed 2.5 ohms/
conductor for the length of the run.
3. Do not run the electrical wires transporting DC signals
in or around conduit housing high voltage wires.
DC Conductors
Table 4. Zone sensor module wiring
Distance from Unit to Control Recommended Wire Size
000–150 feet
0–45.7 m
151–240 feet
46–73.1 m
241–385 feet
73.5–117.3 m
386–610 feet
117.7–185.9 m
611–970 feet
186.2–295.7 m
Figure 12. OAUTS Connection B
22 gauge
0.33 mm
20 gauge
0.50 mm
18 gauge
0.75 mm
16 gauge
1.3 mm
14 gauge
2.0 mm
2
2
2
2
2
Installation
OAU-SVX005C-EN 25
System Configuration and Pre-Start
The following procedure must be completed prior to
performing the procedure in the Start-up chapter. This
section describes procedures to navigate the various
displays on the Unit Display and configure the Outdoor Air
Unit Main Unit Display system setpoints and operating
parameters.
Important: This section is intended to provide
guidelines for navigation through the
remote operator display screens. For
additional control system information, refer
to Integration Guide: Tracer™ UC600
Programmable Controller for Packaged
Outdoor Air Unit (BAS-SVP18*-EN). The
unit is configured at the factory with the
default settings.
26 OAU-SVX005C-EN
System Configuration and Pre-Start
Table 5. Menu descriptions
Screen Menu Point List Min/Inactive Default Max/Active
Alarms
Reports
(continued
on next
page)
Active Alarms List of all active alarms
All Alarms List of all previous alarms
Custom Graphics *NOT USED*
Program Control Discharge Air Control Space ControlSpace ControlY
Heat Cool Mode Active Heat — Cool N
Occupancy Status Occupied|Unoccupied|Occupied Bypass|Occupied Standby|Unknown Y
Compressor 1 Command Off — On N
Compressor 2 Command Off — On N
Digital Scroll Command 0% — 100% N
Dehumidification Command Disabled Enabled N
Discharge Air Temperature Local Analog Input
Economizer Mode Disabled Enabled N
Evap Leaving Temp Local Analog Input
Heat Capacity 0% — 100% N
Heating Output Command 0% — 100% N
Heat 1 Command Off — On N
Heat 2 Command Off — On N
Inducer Command Off — On N
System Status
Gas Valve Status Binary Input
HGRH Command 0% — 100% N
OA Damper End Switch Binary Input
Outdoor Air Damper Command Closed — Open N
OAD Position Local Binary Input
Outdoor Air Relative Humidity Local Analog Input
Outdoor Air Temperature Local Analog Input
Space Dewpoint Active Analog Input
Space Temperature Local Analog Input
Supply Fan Start Stop Command Off — Off N
Filter Status Clean — Dirty N
System Lockout Normal Normal Lockout N
UNOCC Cooling Mode Off — On N
UNOCC Dehumid Mode Off — On N
UNOCC Heating Mode Off — On N
Discharge Airflow Local Analog Input
ERV Leaving Air Humidity Local Analog Input
BAS
Point?
OAU-SVX005C-EN 27
System Configuration and Pre-Start
Table 5. Menu descriptions (continued)
Screen Menu Point List Min/Inactive Default Max/Active
DAT High Temp Cutout 100°F 125°F 150°F Y
DAT Low Temp Cutout 35°F 35°F 50°F Y
DAT Temp Cutout Time 10 min. 10 min. 25 min. Y
Discharge Air Cooling Setpoint 55°F 55°F 75°F Y
Discharge Air Heating Setpoint 65°F 85°F 90°F Y
EVAP Leaving Temp Setpoint 45°F 53°F 70°F Y
IVFD Signal 50% 100% 100% Y
Maximum Discharge Air Temperature 70°F 90°F 100°F Y
Minimum Discharge Air Cooling Setpoint 40°F 50°F 65°F Y
Minimum Discharge Air Heating Setpoint 50°F 55°F 60°F Y
System Setpoints
Reports
(continued
from
previous
page)
System Setup
Override Summary List of active overrides - same as selecting Override button at top of screen
All Point Report List of all points (AO/AI/BO/BI/MS/etc …) in the configuration file
About Controller Name listed is the version of the program installed in the UC600
Expansion Modules Provides status of expansion modules
TGP2 Programs List of all TGP2 programs loaded on the UC600
Data Graphs *NOT USED*
Schedules - Refer to UC600 IOM for scheduling functions
Display Preferences
Settings
Language
Date and Time
Clean Touchscreen
Maximum OA Damper Position 0% 100% 100% Y
Minimum OA Damper Position 0% 100% 100% Y
Occupied Space Cooling Setpoint 65°F 74°F 90°F Y
Occupied Space Heating Setpoint 60°F 70°F 75°F Y
Outdoor Air Cooling Setpoint (OACS) 70°F 75°F 85°F Y
Outdoor Air Dewpoint Setpoint (OADS) 49°F 58°F 65°F Y
Outdoor Air Heating Setpoint (OAHS) 40°F 70°F 70°F Y
Space Dewpoint Setpoint (SPDS) 50°F 59°F 68°F Y
UNOCC Space Cooling Setpoint 60°F 80°F 90°F Y
UNOCC Space Dewpoint Setpoint 49°F 65°F 68°F Y
UNOCC Space Heating Setpoint 50°F 60°F 70°F Y
Program Control Discharge Air Control Space ControlSpace ControlY
Compressor Count 004N
Heater Count 002N
Split Manifold Burner Not Installed Installed Installed N
Return Air Damper Option Not Installed Installed Installed N
Space Temp/Humidity Sensor Installed Not Installed Installed Installed N
Heat Type No Heat|Gas Heat|Electric Heat|Other N
Alarm Reset Off Off On Y
Supply Fan Failure Reset Off Off On Y
BAS
Point?
28 OAU-SVX005C-EN
Startup
Direct Heating Startup
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
• Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical
hazards, MUST follow precautions in this manual and
on the tags, stickers, and labels, as well as the
following instructions: Unless specified otherwise,
disconnect all electrical power including remote
disconnect and discharge all energy storing devices
such as capacitors before servicing. Follow proper
lockout/tagout procedures to ensure the power can
not be inadvertently energized. When necessary to
work with live electrical components, have a
qualified licensed electrician or other individual who
has been trained in handling live electrical
components perform these tasks.
• Do not attempt the following procedures until all
electrical and gas connections to the unit have been
completed and the outdoor air damper and
evaporator fan operation have been verified and are
operating correctly.
AVERTISSEMENT
Procédures d’entretien dangereuses!
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
• Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi
que les instructions suivantes : Sauf indication
contraire, coupez toute l’alimentation électrique y
compris les disjoncteurs à distance et déchargez tous
les dispositifs de stockage d’énergie comme les
condensateurs avant l’entretien. Respectez les
procédures de verrouillage et d’étiquetage
appropriées pour éviter tout risque de remise sous
tension accidentelle. S’il est nécessaire de travailler
avec des composants électriques sous tension,
demandez à un électricien qualifié et agréé ou à une
autre personne ayant la formation nécessaire pour
manipuler des composants électriques sous tension
d’exécuter ces tâches.
• N’essayez pas de réaliser les procédures suivantes
avant d’avoir effectué tous les raccordements en gaz
et électricité sur l’unité, d’avoir inspecté le registre
d’air extérieur et le ventilateur d’évaporateur et
confirmé que leur fonctionnement est approprié.
WARNING
Hazard of Explosion!
Failure to follow proper safe leak test procedures could
result in death or serious injury or equipment or
property-only-damage. NEVER use an open flame to
detect gas leaks. You MUST use a leak test solution for
leak testing.
AVERTISSEMENT
Risque d’explosion!
Le non-respect des procédures d’essai d’étanchéité
sûres recommandées pourrait provoquer des accidents
graves, voire mortels, ou des dommages matériels. Ne
vérifiez JAMAIS la présence de fuites de gaz avec une
flamme nue. Vous devez IMPÉRATIVEMENT utiliser une
solution de test d’étanchéité pour vérifier l’étanchéité.
Notes:
1. BEFORE OPERATING, leak test all gas piping up to
heater gas valve. Smell around the unit area for gas. If
gas is smelled, do NOT attempt to place heater in
operation until source of gas leak is identified and
corrected.
OAU-SVX005C-EN 29
Startup
2. Use only hand force to operate the gas control lever to
the “ON” position. NEVER use tools. If lever does not
operate by hand, replace gas valve prior to staring the
unit. Forcing or attempting to repair the gas valve may
result in fire or explosion.
3. Do not attempt to operate unit, if there is indication that
any part or control has been under water. Any control
or component that has been under water must be
replaced prior to trying to start the unit.
Direct Gas-Fired Heating Start-Up Procedure
The following procedure must be followed for the unit
heating section to function properly. The following
procedures are to be performed after all electrical and gas
connections to the unit have been completed and the
outdoor air damper and evaporator fan operation have
been verified and are operating satisfactorily.
Refer to Alarms and Troubleshooting chapter for
additional information.
Tools Required
• Voltage Meter (A)
• Amp Meter
• Gas Pressure Gauge
•Tachometer
• Temperature Probe
• Anemometer
•Service Mirror
• Small Refrigeration Screwdriver
• 5/16-in. Nut Driver
• 1/2-in. Open End Wrench
1. Confirm Unit Airflow
Important: Accurate airflow readings require clean
inlet filters. If required clean or replace
filters before proceeding.
All Horizon direct gas-fired heaters are factoryadjusted to achieve design airflow pressure drop (P)
of -0.625 in. wc across the burner profile opening at
ordered unit SCFM airflow. The burner baffles should
not be adjusted. Outdoor Air conditions will cause the
measured P to vary. Refer to Table 6 to see the
acceptable measured pressures that may be read at
various outdoor air conditions. Measure and record
burner pressure drop.
Table 6. Acceptable measured pressures
OAT (°F) Burner Pressure Drop (in. wc)
0 0.720
5 0.712
10 0.705
15 0.697
20 0.690
25 0.683
30 0.676
35 0.669
40 0.663
45 0.656
50 0.650
55 0.643
60 0.637
65 0.631
70 0.625
75 0.619
80 0.613
85 0.608
90 0.602
95 0.597
100 0.592
(a)0.625-in. design pressure drop at standard air condi-
tions.
(a)
Note: If burner pressure drop is not within the range
shown in Table 6, refer to Airflow Troubleshooting
section of Alarms and Troubleshooting chapter.
2. Check Inlet Gas Pressure and Confirm Gas Flow
to Unit
WARNING
Hazard of Explosion!
Failed gas components could explode or leak
flammable gas which could cause a fire resulting in
death or serious injury or property damage. Do NOT
expose gas controls to pressures above 1/2 psi
(3.5 kPa). Refer to General Safety Information.
AVERTISSEMENT
Risque d’explosion!
Des composants au gaz défectueux peuvent exploser
ou entraîner des fuites de gaz inflammable pouvant
provoquer un incendie résultant en des blessures
graves, voire mortelles, ou des dommages matériels.
N’exposez PAS les régulations de gaz à des pressions
supérieures à 1/2 psi (3,5 kPa). Reportez-vous à General
Safety Information.
Confirm gas flow and gas supply pressure to heater.
The Manual Shut-Off valve (MSO1) can be used to
bleed the supply line as needed.
30 OAU-SVX005C-EN
Startup
MSO1
PG1
GV
MGV
PG2
MSO2
After confirming gas flow to unit , verify and record gas
pressure at PG1.
3. Heating Starting Sequence for Gas Input Rating
400 MBh
Important: Open shut off vales at MSO1, MSO2, and
Main Gas Valve (MGV) before proceeding.
Refer to Figure 13.
Figure 13. Burner gas train
• Starting Sequence
Note: In the event Outdoor Air Conditions or Unit
Controls are such that the unit will not
automatically enter the desired operating
modes, refer to Alarms and Troubleshooting
chapter for Control Override Procedures. For
initial heating start-up, it may be necessary to
remove and repeat the call for heat until the
internal gas piping system is bled.
– R1 ON—OA damper OPEN
– R2 ON—Indoor Fan ON
– R6 ON—Call for Heating ON
– R7 ON—Ignition Process begins and requires
proof of flame at burner to continue
– R8 ON—Ignition Process Proven
4. Test Operating Heating Modes
Note: Heating default control signal is 25 percent for
90 seconds following successful ignition.
Important:
• This test is designed to assure adequate stable gas
pressure is available when burner is firing at maximum
capacity. Refer to unit nameplate rating for “Minimum
Gas Supply Pressure Required to Achieve Maximum
Temperature Rise.”
• Depending on outdoor temperature, it may be
necessary to bypass the manual reset High
Temperature Limit control during this test.
a. High Fire Test Following Normal Burner Starting
Sequence
i. At ROD override, Heating Control Signal to
100 percent.
ii. When pressure at PG2 stabilizes, confirm PG1
Burner Gas Train
• Manual Shut-off Valves (2) (MSO1 and MSO2)
• Main Gas Valve—Automatic Safety On-Off with Main Gas Regulator
• Modulating Gas Valve (MGV)
• Gas Pressure Gauges
• Main Gas Inlet Pressure (PG1)
• Burner Inlet Pressure (PG2)
and PG2 pressures are within ±5 percent of the
pressures shown on Burner Data Plate.
WARNING
Hazard of Explosion!
• The Main Gas Valve/Pressure Regulator (GV) and
Modulating Gas Valve (MGV) have been factory set
to achieve both proper maximum and proper
minimum fuel input to the direct gas-fired burner.
• Gas supply train includes (2) factory installed
pressure gauges. Gauge 1 (PG1) reads the main gas
supply pressure. Gauge 2 reads the outlet pressure
to the burner from the MGV.
• See Heater Burner Data Plate for factory pressure
settings.
• Electrical control panel includes control relays with
pilot lights which, when illuminated, indicate the
relay is energized. For this starting sequence relays
controlling Outdoor Air Damper (R1), Indoor Fan
(R2), Heating Call (R6), Burner Proving (R7) and
Burner ON (R8) will be used.
OAU-SVX005C-EN 31
Failed gas components could explode or leak
flammable gas which could cause a fire resulting in
death or serious injury or property damage. To avoid
damage to unit if PG1 or PG2 exceed data plate
pressures +5 percent, disable incoming gas using the
manual shutoff valves and ensure incoming pressure is
within nameplate data BEFORE enabling the gas.
Startup
PGR
MSO1
GR
PGV
PG2
MGV
GV2
GV1
PG1
MSO2
PSO
AVERTISSEMENT
Figure 14. > 400 MBh Gas train
Risque d’explosion!
Des composants au gaz défectueux peuvent exploser
ou entraîner des fuites de gaz inflammable pouvant
provoquer un incendie résultant en des blessures
graves, voire mortelles, ou des dommages matériels.
Pour éviter d’endommager l’unité si PG1 ou PG2
dépasse les pressions nominales indiquées sur la
plaque signalétique de plus de 5 %, désactivez l’arrivée
en gaz au moyen des vannes d’arrêt manuel et assurezvous que la pression entrante est conforme aux valeurs
indiquées sur la plaque signalétique AVANT d’activer
l’arrivée en gaz.
iii. Record Gas Pressures
–PG1
–PG2
iv. At ROD, read and record
–Outdoor Air Temperature
–Discharge Air Temperature
–Burner P
v. Release Heating Control Signal Override
b. Low Fire Test Following Normal Burner Starting
Sequence
i. Override Heating Control Signal to 0 percent
ii. Confirm PG1 and PG2 pressures are within
±5 percent of the pressures shown on Burner
Data Plate
iii. Allow a minimum of 5 minutes of operation at
0 percent heating signal
iv. At ROD read and record
–Outdoor Air Temperature
–Discharge Air Temperature
–Burner P
v. Record Gas Pressures
–PG1
–PG2
c. Ignition Cycle Test
i. Release Heating Control Signal Override
ii. Complete at least (5) calls for heat
–At each call for heat default heating start-up,
signal is 25 percent
–Following each ignition test and before
attempting the next test monitor analogue
Heating Control Signal at ROD to be sure
heat signal is released at end of each
90-second warm-up period
5. Burner Gas Train, Ignition Controls and Starting
Sequence for Gas Input Rating > 400 MBh
Refer to Figure 14.
32 OAU-SVX005C-EN
a. Pilot Gas Train
i. Manual Shut-Off Valve (PSO)
ii. Pilot Gas Regulator (PGR)
iii. Pilot On-Off Valve (PGV)
b. Burner Gas Train
i. Manual Shut-off Valves (2) (MSO1 and MSO2)
ii. Main Gas Regulator (1) (GR)
iii. Main Gas Valves—Automatic Safety On-Off
Control (2) (GV1 and GV2)
iv. Modulating Gas Valve (MGV)
v. Gas Pressure Gauges
–Gas Supply Pressure (PG1)
–Burner Inlet Pressure (PG2)
c. Burner Control Operation
The RM7895, EC7895, and RM7896 have the
operating sequence as shown in Figure 15, p. 34
and Figure 16, p. 34. The LED provides positive
visual indication of the program sequence for
power, pilot, flame, main, and alarm.
Initiate
The relay module enters the initiate sequence when it is
powered. The RM7895A/B/C/D, EC7895A/C and RM7896A/
B/C/D can also enter the initiate sequence if the relay
module verifies voltage fluctuations of +10/-15 percent or
Startup
frequency fluctuations of ±10 percent during any part of
the operating sequence. The initiate sequence lasts for
10 seconds unless the voltage or frequency tolerances are
not met. When not met, a hold condition is initiated and
displayed on the optional KDM for at least five seconds.
When met, the initiate sequence restarts. If the condition is
not corrected and the hold condition exists for 4 minutes,
the flame relay module locks out.
Causes for a hold condition in the initiate sequence are as
follows:
• AC line dropout detection.
• AC line noise that can prevent a sufficient reading of
the line voltage inputs.
• Low line voltage brownouts.
Standby
The flame relay module is ready to start an operating
sequence when the operating control input determines a
call for heat is present. The burner switch, limits, operating
limit control and all microcomputer-monitored circuits
must be in the correct state for the relay module to
continue into the “pre-purge” sequence.
Normal Start-up Pre-purge
The module provides 30-second ”pre-purge” timing with
power applied and the operating control indicating a call
for heat.
• The airflow interlock, burner switch, and all
microcomputer-monitored circuits must also be in the
correct operating state.
• The pre-purge sequence begins on call for heating.
• Failure to establish airflow at unit airflow proving
switch within 15 seconds of indoor fan enable
discontinues ignition.
Ignition Trials
The pilot flame establishing period (PFEP) begins when:
• The pilot valve and ignition transformer, terminals 8
and 10, are energized. The RM7895A/B, EC7895A, and
RM7896A/B modules have an intermittent pilot valve,
(terminal 8). The RM7895C/D, EC7895C, and RM7896C/
D modules have an interrupted pilot valve (terminal 8).
• Flame must be proven by the end of the 15-second
PFEP (4 seconds if configuration jumper, JR1, is
clipped) to allow the sequence to continue. If a flame is
not proven by the end of PFEP, a safety shut down
occurs.
With flame proven, the ignition, terminal 10, is energized.
This main flame establishing period (MFEP) begins when:
• After ignition trials, and with the presence of flame, the
main fuel valve, terminal 9, is powered. If a flameout
occurs, the relay module locks out or recycles
(depending on status of jumper JR2) within 0.8 or
3 seconds, depending on the flame failure response
time (FFRT) of the amplifier.
• The RM7895C/D, EC7895C, and RM7896C/D modules
have a 10-second MFEP. After ignition trials and with
the presence of flame, the main fuel valve, terminal 9,
is powered. If the flameout occurs, the relay module
locks out within 0.8 or 3 seconds, depending on the
amplifier FFRT.
Run
The RM7895C/D, EC7895C, RM7896C/D has a delayed
main valve that is energized once the “run” period is
entered.
The relay module is now in “run” and remains in “run”
until the controller input, terminal 6, opens, indicating that
the demand is satisfied or a limit has opened.
Run/Test Switch (RM7895C/D, EC7895C, RM7896C/
D only)
The “run/test switch” is located on the top side of the relay
module. This switch allows the burner sequence to be
altered as follows:
• In the measured “pre-purge” sequence, the “run/test
switch,” placed in the “test” position, causes the
prepurge timing to stop.
• In the “pilot flame establishing period” sequence, the
“run/test switch,” placed in the “test” position, stops
the timer during the first 8 seconds of a 10-second
PFEP selection, or during the first 3 seconds of a
4-second PFEP.
• It also allows for pilot turn-down test and other burner
adjustments. This activates a 15-second flameout
timer that permits pilot flame adjustment without
nuisance safety shutdowns. The run/test/switch is
ignored during PFEP for the C and D relay modules if
terminals 8 and 9, or 9 and 21 are jumpered.
Note: When the relay module is switched to the “test”
mode, it stops and holds at the next run/test switch
point in the operating sequence. Ensure that the
run/test switch is in the “run” position before
leaving the installation.
OAU-SVX005C-EN 33
Startup
Figure 15. Sequence status LEDs
Figure 16. Selectable site-configurable jumpers
Notes:
• Clipping and removing a site-configurable jumper
enhances the level of safety.
• Clipping and removing a jumper after 200 hours of
operation causes a non-resettable fault 100. The relay
module must then be replaced.
Figure 17. Relay module plug-in diagram
Settings and Adjustments
The relay module has three site-configurable jumper
options.
Table 7. Jumper options
Jumper # Description Intact Clipped
JR1
JR2 Flame Failure Action Recycle Lockout
JR3 Airflow Switch (1LK) Failure Recycle Lockout
If necessary, clip the site-configurable jumpers with side
cutters and remove the resistors from the relay module.
Pilot Flame Establishing
Period (PFEP)
10 seconds 4 seconds
WARNING
Combustible Materials!
Failure to maintain proper clearance between the unit
heat exchanger, vent surfaces and combustible
materials could cause a fire which could result in death
or serious injury or property damage. Refer to unit
nameplate and installation instructions for proper
clearances.
AVERTISSEMENT
Matériaux combustibles!
Tout manquement à l’obligation de maintenir une
distance appropriée entre l’échangeur de chaleur de
l’unité, les surfaces de ventilation et les matériaux
combustibles peut provoquer un incendie pouvant
résulter en des blessures corporelles graves, voire
mortelles, ou des dommages matériels. Reportez-vous
à la plaque signalétique de l’unité et aux instructions
d’installation pour connaître les distances appropriées.
Operation of the Direct Spark Ignition Control Gas Valve
On a call for heat, a 30-second pre-purge is initiated. Upon
completion of the pre-purge, the gas valve and 60 Hz spark
are energized. When flame is detected, the control enters
the steady state heating condition. Steady state heating
will continue until the call for heat is satisfied.
34 OAU-SVX005C-EN
Startup
If ignition is not achieved within 10 seconds, the control
valve shuts off the gas and locks out. If the trial for ignition
has been accomplished without ignition, the control shuts
off all outputs and enters lockout. Reset is accomplished
by cycling the power off for a minimum of 5 seconds.
If flame is lost once it has been established, the control will
shut off the gas valve within 0.8 seconds and locks out.
If flame is sensed during a purge period when no flame
should be present, the control will remain in a purge with
the gas valve off until the false flame disappears.
If the gas valve is found to be powered when it should be
off, or not powered when it should be on, the control will
enter lockout with all outputs off. Reset is accomplished by
cycling the power off for a minimum of 5 seconds.
• High Fire Test Following Normal Burner Starting
Sequence
– At ROD override, Heating Control Signal to
100 percent.
– When pressure at PG2 stabilizes, confirm PG1 and
PG2 pressures are within ±5 percent of the
pressures shown on Burner Data Plate.
WARNING
Hazard of Explosion!
Failed gas components could explode or leak
flammable gas which could cause a fire resulting in
death or serious injury or property damage. To avoid
damage to unit if PG1 or PG2 exceed data plate
pressures +5 percent, disable incoming gas using the
manual shutoff valves and ensure incoming pressure is
within nameplate data BEFORE enabling the gas.
• Low Fire Test Following Normal Burner Starting
Sequence
– Override Heating Control Signal to 0 percent
– Confirm PG1 and PG2 pressures are within
±5 percent of the pressures shown on Burner Data
Plate
– Allow a minimum of 5 minutes of operation at
0 percent heating signal
– At ROD read and record
• Outdoor Air Temperature
• Discharge Air Temperature
• Burner P
– Record Gas Pressures
• PG1
• PG2
• Ignition Cycle Test
– Release Heating Control Signal Override
– Complete at least (5) calls for heat
• At each call for heat default heating start-up,
signal is 25 percent
• Following each ignition test and before
attempting the next test monitor, analogue
Heating Control Signal at ROD to be sure heat
signal is released at end of each 90-second
warm-up period
WARNING
Risque d’explosion!
Des composants au gaz défectueux peuvent exploser
ou entraîner des fuites de gaz inflammable pouvant
provoquer un incendie résultant en des blessures
graves, voire mortelles, ou des dommages matériels.
Pour éviter d’endommager l’unité si PG1 ou PG2
dépasse les pressions nominales indiquées sur la
plaque signalétique de plus de 5 %, désactivez l’arrivée
en gaz au moyen des vannes d’arrêt manuel et assurezvous que la pression entrante est conforme aux valeurs
indiquées sur la plaque signalétique AVANT d’activer
l’arrivée en gaz.
– Record Gas Pressures
• PG1
• PG2
– At ROD, read and record
• Outdoor Air Temperature
• Discharge Air Temperature
• Burner P
– Release Heating Control Signal Override
OAU-SVX005C-EN 35
Maintenance
Make sure all personnel are standing clear of the unit
before proceeding. The system components will start
when the power is applied.
Monthly Maintenance
Before completing the following checks, turn the unit OFF
and lock the main power disconnect switch open.
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
Filters
• Inspect the return air filters. Clean or replace them if
necessary. Refer to the unit Service Facts for filter
information.
Supply/Return Air Smoke Detector Maintenance
Airflow through the unit is affected by the amount of dirt
and debris accumulated on the indoor coil and filters.
To insure that airflow through the unit is adequate for
proper sampling by the return air smoke detector,
complete adherence to the maintenance procedures,
including recommended intervals between filter changes,
and coil cleaning is required.
Periodic checks and maintenance procedures must be
performed on the smoke detector to insure that it will
function properly.
For detailed instructions concerning these checks and
procedures, refer to the appropriate section(s) of the
smoke detector Installation and Maintenance Instructions
provided with the literature package for this unit.
• Inspect the evaporator and condenser coils for dirt,
bent fins, etc. If the coils appear dirty, clean them
according to the instructions described in “Condenser
Coil Cleaning,” p. 36.
• Manually rotate the condenser fan(s) to ensure free
movement and check motor bearings for wear. Verify
that all of the fan mounting hardware is tight.
• Inspect the F/A-R/A damper hinges and pins to ensure
that all moving parts are securely mounted. Keep the
blades clean as necessary.
• Verify that all damper linkages move freely; lubricate
with white grease, if necessary.
• Check supply fan motor bearings; repair or replace the
motor as necessary.
• Check the fan shaft bearings for wear. Replace the
bearings as necessary.
• Verify that all wire terminal connections are tight.
• Remove any corrosion present on the exterior surfaces
of the unit and repaint these areas.
• Generally inspect the unit for unusual conditions (e.g.,
loose access panels, leaking piping connections, etc.).
• Make sure that all retaining screws are reinstalled in
the unit access panels once these checks are complete.
• With the unit running, check and record the: ambient
temperature; compressor suction and discharge
pressures; superheat; Record this data on an
“operator’s maintenance log” like the one shown in
Table 11, p. 44. If the operating pressures indicate a
refrigerant shortage, measure the system superheat.
Note: Do NOT release refrigerant to the atmosphere! If
adding or removing refrigerant is required, the
service technician must comply with all federal,
state and local laws.
Heating Season
• Inspect the unit’s air filters. If necessary, clean or
replace them.
• Check supply fan motor bearings; repair or replace the
motor as necessary.
• Inspect both the main unit control panel and heat
section control box for loose electrical components
and terminal connections, as well as damaged wire
insulation. Make any necessary repairs.
• Refer to “Heater Maintenance,” p. 41 and “Inspection
and Maintenance of Gas Ports,” p. 43.
Condenser Coil Cleaning
Cooling Season
• Check the unit’s drain pans and condensate piping to
ensure that there are no blockages.
36 OAU-SVX005C-EN
Regular coil maintenance, including annual cleaning,
enhances the unit’s operating efficiency by minimizing:
compressor head pressure and amperage draw;
evaporator water carryover; fan brake horsepower, due to
increase static pressure losses; airflow reduction.
At least once each year, or more often if the unit is located
in a “dirty” environment, clean the condenser coils using
the instructions outlined below. Be sure to follow these
instructions as closely as possible to avoid damaging the
coils.
Microchannel (MCHE) Coils
NOTICE:
Coil Damage!
Failure to follow instructions below could result in coil
damage.
DO NOT use any detergents with microchannel
condenser coils. Use pressurized water or air ONLY,
with pressure no greater than 600psi.
For additional information regarding the proper
microchannel coil cleaning procedure, refer to service
bulletin RT-SVB83*-EN.
Due to the soft material and thin walls of the MCHE coils,
the traditional field maintenance method recommended
for Round Tube Plate Fin (RTPF) coils does not apply to
microchannel coils.
Moreover, chemical cleaners are a risk factor to MCHE due
to the material of the coil. The manufacturer does not
recommend the use of chemical cleaners to clean
microchannel coils. Using chemical cleaners could lead to
warranty claims being further evaluated for validity and
failure analysis.
The recommended cleaning method for microchannel
condenser coils is pressurized water or air with a nonpinpoint nozzle and an ECU of at least 180 with pressure no
greater than 600 psi. To minimize the risk of coil damage,
approach the cleaning of the coil with the pressure washer
aimed perpendicular to the face of the coil during cleaning.
Optimum clearance between the sprayer nozzle and the
microchannel coil is 1 in.–3 in.
Round Tube Plate Fin (RTPF) Coils
To clean refrigerant coils, use a soft brush and a sprayer
(either a garden pump-up type or a high-pressure sprayer).
A high-quality detergent is also required; suggested
brands include “SPREX A.C.”, “OAKITE 161”, “OAKITE 166”
and “COILOX”. If the detergent selected is strongly alkaline
(pH value exceeds 8.5), add an inhibitor.
Maintenance
AVERTISSEMENT
Produits chimiques dangereux!
Le non-respect de toutes les consignes de sécurité
indiquées ci-après pourrait entraîner des blessures
graves voire mortelles. Les agents de nettoyage pour
serpentin peuvent être soit acides, soit fortement
alcalins et peuvent entraîner des brûlures graves au
contact de la peau. Manipulez les produits chimiques
avec prudence et évitez tout contact avec la peau.
Portez TOUJOURS un équipement de protection
individuel (EPI), y compris des lunettes ou un masque
facial, des gants résistant aux produits chimiques, des
bottes, un tablier ou une combinaison conformément
aux exigences. Pour la sécurité personnelle, voir les
fiches de données de sécurité du fabricant pour l’agent
de nettoyage et suivre toutes les pratiques de
manipulation préconisées.
1. Remove enough panels from the unit to gain access to
the coil.
2. Protect all electrical devices such as motors and
controllers from any over spray.
3. Straighten any bent coil fins with a fin comb.
WARNING
Hazardous Pressures!
Failure to follow safety precautions below could result
in coil bursting, which could result in death or serious
injury. Coils contain refrigerant under pressure. When
cleaning coils, maintain coil cleaning solution
temperature under 150°F to avoid excessive pressure in
the coil.
AVERTISSEMENT
Pressions dangereuses!
Tout manquement aux consignes de sécurité
préconisées ci-dessous risquerait d’entraîner un
éclatement du serpentin susceptible de provoquer des
blessures graves voire mortelles. Les serpentins
contiennent du fluide frigorigène sous pression. Lors
du nettoyage des serpentins, maintenez la température
de l’agent de nettoyage pour serpentin à moins de 65,5
°C (150 °F) pour éviter toute pression excessive dans le
serpentin..
WARNING
Hazardous Chemicals!
Failure to follow all safety instructions below could
result in death or serious injury. Coil cleaning agents
can be either acidic or highly alkaline and can burn
severely if contact with skin occurs. Handle chemical
carefully and avoid contact with skin. ALWAYS wear
Personal Protective Equipment (PPE) including goggles
or face shield, chemical resistant gloves, boots, apron
or suit as required. For personal safety refer to the
cleaning agent manufacturer’s Materials Safety Data
Sheet and follow all recommended safe handling
practices.
OAU-SVX005C-EN 37
4. Mix the detergent with water according to the
manufacturer’s instructions. If desired, heat the
solution BUT DO NOT EXCEED 150ºF maximum to
improve its cleansing capability.
5. Pour the cleaning solution into the sprayer. If a highpressure sprayer is used:
a. do not allow sprayer pressure to exceed 600 psi.
b. the minimum nozzle spray angle is 15°.
c. maintain a minimum clearance of 6 in. between the
sprayer nozzle and the coil.
Maintenance
d. spray the solution perpendicular (at 90°) to the coil
face.
6. Spray the leaving-airflow side of the coil first; then
spray the opposite side of the coil. Allow the cleaning
solution to stand on the coil for five minutes.
7. Rinse both sides of the coil with cool, clean water.
8. Inspect both sides of the coil; if it still appears to be
dirty, repeat Step 6 and Step 7.
9. Reinstall all of the components and panels removed in
Step 1 and any protective covers installed in Step 2.
Direct-Fired Unit Maintenance Schedule
Periodic maintenance is essential to the efficient operation
and extended service life of the direct fired equipment.
Failure to provide maintenance as recommended may
void the equipment warranty.
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical hazards,
MUST follow precautions in this manual and on the
tags, stickers, and labels, as well as the following
instructions: Unless specified otherwise, disconnect all
electrical power including remote disconnect and
discharge all energy storing devices such as capacitors
before servicing. Follow proper lockout/tagout
procedures to ensure the power can not be
inadvertently energized. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been trained in
handling live electrical components perform these
tasks.
AVERTISSEMENT
Procédures d’entretien dangereuses!
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes : Sauf indication contraire,
coupez toute l’alimentation électrique y compris les
disjoncteurs à distance et déchargez tous les dispositifs
de stockage d’énergie comme les condensateurs avant
l’entretien. Respectez les procédures de verrouillage et
d’étiquetage appropriées pour éviter tout risque de
remise sous tension accidentelle. S’il est nécessaire de
travailler avec des composants électriques sous
tension, demandez à un électricien qualifié et agréé ou
à une autre personne ayant la formation nécessaire
pour manipuler des composants électriques sous
tension d’exécuter ces tâches..
WARNING
Hazardous Gases and Flammable Vapors!
Failure to observe following instructions could result in
death or serious injury. Exposure to hazardous gases
from fuel substances have been shown to cause cancer,
birth defects or other reproductive harm. Improper
installation, adjustment, alteration, service or use of
this product could cause flammable mixtures or lead to
excessive carbon monoxide. To avoid hazardous gases
and flammable vapors follow proper installation and
set up of this product and all warnings as provided in
this manual.
AVERTISSEMENT
Vapeurs inflammables et gaz dangereux!
Le non-respect des instructions suivantes peut être à
l’origine de blessures graves, voire mortelles.
L’exposition à des gaz dangereux provenant de
substances combustibles est reconnue comme pouvant
causer le cancer, des anomalies congénitales ou
d’autres effets néfastes sur la reproduction. Des erreurs
dans l’installation, le réglage, les modifications, les
réparations ou la maintenance de ce produit peuvent
entraîner des mélanges inflammables ou la libération
excessive de monoxyde de carbone. Pour éviter des
vapeurs inflammables et gaz dangereux, installez et
mettez ce produits en service de manière appropriée et
respectez tous les avertissements indiqués dans le
présent manuel.
1. After 8 hours of operation:
a. Check that the fan belts are tight and sheaves are
aligned. The fan belts should be checked every
30 days after the first 60 days of new belt run-in.
38 OAU-SVX005C-EN
Maintenance
b. Check set-screws and bolts on the fan, bearings,
and burner assembly.
NOTICE:
Belt Over-Tension!
Over-tensioning the belt could result in equipment
damage as it reduces fan and motor bearing life,
accelerates belt wear, and can cause shaft failure.
2. Monthly:
a. Check all valves, piping and connections for leaks.
b. Check the flame setting.
c. Check the fuel pressure in the fuel supply line to
each heater.
d. Check the burner manifold pressure at full fire.
e. Clean the flame sensor(s) or UV sight tube(s).
f. Inspect filters. Clean or replace as necessary.
g. Inspect the main fan bearings.
h. Check all dampers, damper actuators and linkages.
Adjust and tighten if necessary.
i. Ensure that there are no obstruction blocking the air
supply to the heater or the air discharge from the
heater.
j. Inspect the area and make sure that no combustible
or hazardous material has been stored within the
clearances as shown on the unit nameplate.
3. Quarterly:
a. Complete the monthly maintenance schedule.
b. Check the belt tension for the main fan(s) and adjust
if necessary.
c. Check the alignment of the sheaves and adjust if
necessary.
d. Inspect all bearings, set-screws for tightness and
lubricate bearings if necessary.
e. Check the pilot electrical system. Adjust if
necessary.
f. Check the pilot assembly. Clean and adjust if
necessary.
g. Inspect the burner carefully. clean and adjust if
necessary.
h. Check voltages and amp draw on main fan motor.
i. Check the operation of all safety controls
individually.
j. Check the operation of the automatic gas shut-off
valves and check them for leakage at the pressure
test ports provided.
k. On vertical units, inspect burner drip leg and drain
if necessary.
4. Off-Season/Yearly:
a. Complete the monthly and quarterly maintenance
schedule.
b. Inspect all fan wheels and housings. Clean if
necessary.
c. Check that all fan wheels and sheaves are securely
set on the shaft.
d. Inspect all bearings and alignment. Adjust if
necessary.
e. Inspect all V-belts. Replace if necessary.
f. Inspect all electrical components, connections, and
terminals. Clean and tighten where necessary.
g. Test ignition spark. Adjust gap if necessary.
h. Clean ignition electrodes and check for cracks.
i. Test flame safeguard relay and replace components
if necessary.
j. Inspect all regulators, relief valves, motorized
valves, solenoid valves, vent valves, manual shutoff valves and safety shut-off valves. Check their
operation and clean as necessary.
k. Ensure all vents to the atmosphere are clean and
free from obstruction.
l. Inspect and clean all drip legs in the fuel line.
m. Lubricate fan motor as directed by motor
manufacturer.
n. Inspect fan motor wiring for loose connections.
o. Lightly oil all door latches.
p. Check that the cabinet is weather-tight. Replace
door gaskets and re-caulk as necessary.
Note: It is important to keep screened air intakes clear of
obstructions at all times.
Lubrication Requirements
Some blower motors require lubrication while others do
not. Those that require lubrication can be identified by the
presence of grease plugs in the motor casing at each end.
Motors that do not have grease plugs cannot be greased
and are lubricated for the life of the motor bearing.
Table 8. Lubrication instructions
Item Manufacturer Bearing Type
All 3-PH Fan Motors (1
HP to 100 HP) ODP,
TEFC
All 1-PH Motors
(Fractional HP) ODP,
TEFC or TEAO
Franctional HP 1-PH
ODP or TEFC
Fan Shaft Bearings Fafnir or Equal
Dampers Applied Air™ or Equal Sleeve
U.S., Bald or™ or Equal
Century™, G.E.™, or
Equal
Century , G.E. , or Equal
Single Row Ball
Bearings
Bronze Sleeve
Bearings
Bronze Sleeve
Bearings
Self-aligning, Single
Row or Double Row
Ball Bearings, Resilient
Mounted
OAU-SVX005C-EN 39
Maintenance
Lubrication of motors should be done while the motor is
warm and at a standstill. Remove and clean all grease
plugs and insert a grease fitting in the upper hole in the
motor casing at each end (viewed as if motor were sitting
horizontally on its base). There may be one or two plugs in
each end casing of the motor. Add a small amount of a
clean, good grade ball bearing grease (such as Exxon
Polyrex™ EM or equal, with a low pressure grease gun.
Run the motor five minutes before removing the grease
fittings and replacing the plugs.
®
NOTICE:
Bearing Overheating!
Excess grease could result in overheating the bearings
which could result in equipment damage.
Note: On totally enclosed fan cooled (TEFC) motors, the
rear end fan housing must be removed to expose
the grease plugs.
Pillow Block Bearings
Pillow block bearings are used on supply blower(s).
Bearings have been pre-lubricated with a number 2
lithium based greased. Re-lubrication should be done with
a similar grease using a low pressure grease gun. Wipe all
grease fittings clean before adding grease. Grease should
be added slowly, in small amounts at frequent intervals
while the shaft is being manually rotated.
A slight showing of grease at the seals with accompanying
normal bearing temperature indicates proper lubrication.
Normal temperature can range from “cool” to “hot to the
touch” depending on size, speed and surrounding
conditions. Excessive bearing temperature indicates
faulty lubrication. An insufficient amount of grease is
suggested by a bearing showing no grease at the seals,
and a higher than normal temperature and noise level.
Excessive leakage of grease at the seals, and a high
operating temperature suggest too much grease.
Important: Grease twin blower inner bearing on same
schedule as two outer bearings.
Frequency of Lubrication
Frequency of lubrication depends upon operating
conditions. The bearing operating temperature is the best
index for determining a re-lubrication schedule. Table 9
gives the frequency of re-lubrication based upon
continuous operation for various operating temperatures
and can be used as a satisfactory guide for determining
when all ball and roller bearings should be lubricated.
Table 9. Frequency of lubrication
Speed
(rpm)
100 Up to 125 Clean 6 Months
500 Up to 150 Clean 2 Months
1000 Up to 210 Clean 2 Weeks
1500 Over 150 Clean Weekly
Any Speed Up to 150 Dirty 1 Week
Any Speed Over 150 Dirty Daily to 1 Week
Any Speed Any Temp. Very Dirty Daily to 1 Week
Any Speed Any Te mp. Extreme Conditions Daily to 1 Week
Temp.
(°F) Cleanliness Interval
Dampers
Dampers should be inspected monthly (daily in icy
weather) for securely fastened linkages, and smooth
operation. If dampers are binding or excessively noisy,
then lubrication may be required. Place one drop of
#20 weight machine oil on each blade bearing, and linkage
ball joint. Do not over lubricate, and wipe any excess from
the area. Ensure to note that dampers over 49 inches long
have intermediate bearings which require lubrication.
Air Filters
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
All filter banks should be equipped with a manometer or
differential pressure switch to indicate when the filters are
dirty. Filters should be replaced when the differential
pressure across them reaches the manufacturer’s
recommended final value. Dirty filter elements should be
replaced with a clean element of the same type and size. In
addition, it is strongly advised that the air filters be
checked every 30 days and replaced with new filters
(throw-away type) or cleaned (washable type) as required.
Cleanable filters should be given new application of filter
coating after washing to maintain optimum performance.
40 OAU-SVX005C-EN
Maintenance
Belt Tensions and Adjustments
Belt tension is adjusted during the initial run-in and test
periods at the factory. However, belts are run as slack as
possible to prevent excessive damage to the bearings, yet
tight enough to prevent slippage.
If necessary, tighten all belts during the first few months of
operation, and verify proper tension weekly during the
first 60 days, after which, 30-day check intervals are
sufficient.
NOTICE:
Motor Failure!
Tightening any belt or belts by changing the pitch of an
adjustable pulley will change the speed of a driven
pulley. This could cause the unit to be rendered out of
air balance which could result in improper unit
operation or motor failure could result.
Suggested Belt Tension Method
1. Check tension frequently during the first 24 to 48-hours
of run-in operation. Ideal tension is the lowest tension
at which the belt will not slip under peak load
conditions. Over tensioning shortens belt and bearing
life.
2. To properly tension a conventional V-belt drive, use the
following method:
a. Measure the span length.
b. At the center of the span, apply a force
perpendicular to the span to deflect the belt
1/64 inch for every inch of span length. For example:
for a 40-inch span, apply a force that will deflect the
belt 40/64 in. or 5/8 in.
c. Compare the force applied with the values given in
Table 10. If the force is between the values for
normal tension and 1-1/2 times normal tension, the
belt tension should be satisfactory. If the belt
tension is not within this range, it can be adjusted
by loosening the motor mounting bolts and
adjusting the position of the motor along its base.
Note: A new drive can be tightened to two times the
minimum value shown to allow for normal drop in
tension during the run-in period.
Table 10. Belt tension specifications
Small pulley diameter range (in.) 3.4–4.2 4.4–4.6 5.8–8.6
Belt manufacture r and belt type Gates Hi-Power
Pounds of force for normal
tension
Pounds of force for 1-1/2 times
normal tension
Note: For recommendations of other belt types, consult respective
manufacturers.
4.4 4.9 5.8
6.6 7.4 8.7
Gaskets
Gaskets are used on doors, inspection covers, some filter
racks and some outdoor air dampers. Inspect gaskets
periodically and repair or replace as required.
WARNING
Check Gas Tightness of Safety Shut-Off
Valves Annually!
Gas tightness of the safety shut-off valves must be
checked at least on an annual basis. Failure to ensure
gas tightness of the safety shut-off valves could result
in an explosion which could result in death or serious
injury.
AVERTISSEMENT
Vérifiez l’étanchéité au gaz des vannes
d’arrêt de sécurité tous les ans!
L’étanchéité au gaz des vannes d’arrêt de sécurité doit
être vérifiée au moins une fois par an. Le non-respect de
l’obligation de garantir l’étanchéité des vannes d’arrêt
de sécurité peut entraîner une explosion pouvant
résulter en des blessures graves, voire mortelles.
Annual Maintenance
1. Inspect the tightness of the gas safety shut-off valves
for the furnace by turning off the manual valve
upstream of the appliance combination control.
2. Remove the 1/8 in. pipe plug on the inlet side of the
combination control and connect a manometer to the
tapping.
3. Turn the manual valve ON to apply pressure to the
combination control.
4. Record the pressure reading on the manometer, then
turn the valve OFF.
A loss of pressure indicates a leak. If a leak is detected, use
a soap solution to check all threaded connections. If no leak
is found, the combination control may be faulty and must
be replaced before placing the appliance back in service.
Heater Maintenance
At least a yearly inspection is recommended for heating
installations and more frequently for process applications
in year-round operation. Experience is the best guide in
determining frequency of inspection, but as a minimum,
the following procedure should be followed.
WARNING
Hazardous Voltage!
Failure to disconnect power before servicing could
result in death or serious injury. Disconnect all electric
power, including remote disconnects before servicing.
Follow proper lockout/tagout procedures to ensure the
power can not be inadvertently energized.
OAU-SVX005C-EN 41
Maintenance
AVERTISSEMENT
Risque d’électrocution!
Le non-respect de cette consigne peut entraîner des
blessures graves, voire mortelles. Avant toute
intervention, coupez l’alimentation électrique, y
compris aux sectionneurs à distance. Suivez
scrupuleusement les procédures de verrouillage/mise
hors service préconisées pour empêcher tout
rétablissement accidentel de l’alimentation électrique.
WARNING
Combustible Materials!
Failure to maintain proper clearance between the unit
heat exchanger, vent surfaces and combustible
materials could cause a fire which could result in death
or serious injury or property damage. Refer to unit
nameplate and installation instructions for proper
clearances.
AVERTISSEMENT
Matériaux combustibles!
Tout manquement à l’obligation de maintenir une
distance appropriée entre l’échangeur de chaleur de
l’unité, les surfaces de ventilation et les matériaux
combustibles peut provoquer un incendie pouvant
résulter en des blessures corporelles graves, voire
mortelles, ou des dommages matériels. Reportez-vous
à la plaque signalétique de l’unité et aux instructions
d’installation pour connaître les distances appropriées.
1. Shut the system down totally, disconnecting or locking
out power supply.
2. Inspect the burner carefully, including upstream and
downstream sides of mixing plates as well as burner
body face.
Note: The complete burner assembly may have to be
removed for proper inspection and cleaning. Any
accumulation of scale or foreign material on either
side of the mixing plates should be removed with
a wire brush. Visually check that no holes in the
mixing plates are blocked. If burner ports are
plugged (even partially) clear with a piece of wire.
See maintenance of gas ports.
NOTICE:
Equipment Performance!
Do not enlarge burner ports; doing so could adversely
affect equipment performance.
3. If any mixing plates are loose or missing fasteners,
tighten/replace as necessary. Always use zinc plated or
stainless fasteners
Note: The missing plates on the burner may display
hairline cracks. These cracks are normal and
caused by thermal stresses occurring during
combustion. The presence of these hairline cracks
in no significant way affects the combustion
efficiency or performance of the heater. Should a
large opening develop, the specific mixing plate or
plates must be replaced. Otherwise, it may cause
difficulties in cross ignition of flame across the face
of the burner.
4. Place the system back into operation and view burner
while cycling through full firing range. This will give a
visual check for blocked burner spots.
5. Inspect the flame rod and ignition electrode for dirt and
moisture. Wipe off if necessary. Examine for any
evidence of premature arcing. If in doubt, check
continuity of flame rod to be sure it is not grounding
out. Replace if required.
6. The porcelain on the ignition electrode must be intact
(not cracked). The spark gap should be 1/8 in.
7. Replace all access panels which have been removed
and operate the unit for a test period.
8. Check for normal response and function of all controls.
9. Check all gas piping for possible leaks using a soap
bubble solution.
WARNING
Hazardous Gases and Flammable Vapors!
Failure to observe following instructions could result in
death or serious injury. Exposure to hazardous gases
from fuel substances have been shown to cause cancer,
birth defects or other reproductive harm. Improper
installation, adjustment, alteration, service or use of
this product could cause flammable mixtures or lead to
excessive carbon monoxide. To avoid hazardous gases
and flammable vapors follow proper installation and
set up of this product and all warnings as provided in
this manual.
AVERTISSEMENT
Vapeurs inflammables et gaz dangereux!
Le non-respect des instructions suivantes peut être à
l’origine de blessures graves, voire mortelles.
L’exposition à des gaz dangereux provenant de
substances combustibles est reconnue comme pouvant
causer le cancer, des anomalies congénitales ou
d’autres effets néfastes sur la reproduction. Des erreurs
dans l’installation, le réglage, les modifications, les
réparations ou la maintenance de ce produit peuvent
entraîner des mélanges inflammables ou la libération
excessive de monoxyde de carbone. Pour éviter des
vapeurs inflammables et gaz dangereux, installez et
mettez ce produits en service de manière appropriée et
respectez tous les avertissements indiqués dans le
présent manuel..
10. Inspect the support means to be sure that everything is
firmly anchored in-place.
42 OAU-SVX005C-EN
Maintenance
Inspection and Maintenance of Gas Ports
Conduct initial inspection within the first month after
commissioning. Visually check the gas ports of the new
burner assemblies for any piping scale or debris. Use pin
vise with drill bit to remove.
Figure 18. Gas port inspection
Pin Vise
1“
Gas Manifold
Annual inspections are normally adequate once the initial
debris is removed. The operating conditions of the burner
will determine how frequently maintenance is actually
required. Use of an electric drill motor is not
recommended unless both pin vise and drill (see
Figure 18) can be chucked-up in a variable-speed drill unit.
Care should be given in this instance due to the nature of
drill bits and their ability to easily snap off in a port when
using a drill motor. Removal of broken bits from the gas
port is difficult.
Alternate drill sizes to be used are 5/64 in. (for #47) and
1/16 in. (for #50).
#45 Drill
_____________________________________________________
_____________________________________________________
_____________________________________________________
— connection(s)
_____________________________________________________
_____________________________________________________
_____________________________________________________
Final Process
For future reference, you may find it helpful to record the
unit data requested below in the blanks provided.
(1) Complete Unit Model Number:
_____________________________________________________
_____________________________________________________
_____________________________________________________
(2) Unit Serial Number:
_____________________________________________________
_____________________________________________________
_____________________________________________________
(3) Wiring Diagram Numbers (from unit control panel)
— schematic(s)
_____________________________________________________
_____________________________________________________
OAU-SVX005C-EN 43
Maintenance
Table 11. Sample maintenance log
Refrigerant Circuit #1 Refrigerant Circuit #2
Suct.
Press.
Date
Current
Ambient
Temp F/C
Compr.
Oil Level
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
Psig/kPa
Disch.
Press
Psig/kPa
Liquid
Press
Psig/kPa
Super-
heat F/C
Sub-cool
F/C
Compr.
Oil Level
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
- ok
- low
Suct.
Press.
Psig/kPa
Disch.
Press
Psig/kPa
Liquid
Press
Psig/kPa
Super-
heat F/C
Sub-cool
F/C
44 OAU-SVX005C-EN
Performance Data
Table 12. OABD General Data—Cooling 3–5 Tons High Efficiency
3 Tons 4 Tons 5 Tons
OABD036A OABD048A OABD060A
Cooling Performance
Gross Cooling Capacity, Btu (kW) 41,462 (12.15) 55,709 (16.33) 66,870 (19.60)
Nominal cfm (m
Compressor
Number 1 1 1
Type Scroll Scroll Scroll
Outdoor Coil
Type High Performance High Performance High Performance
Tube Size—OD, in. (mm) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5)
Face Area, ft
Rows 2 2 2
FPI 14 14 14
Indoor Coil
Type Propeller Propeller Propeller
Tube Size—OD, in. (mm) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7)
Face Area, ft
Rows 4 4 4
FPI 12 12 12
Refrigerant Control TXV TXV TXV
Drain Connection Size, in. (mm) 3/4 (20) 3/4 (20) 3/4 (20)
Outdoor Fan
Type Propeller Propeller Propeller
Number Used 1 1 1
Diameter, in. (mm) 27 27 27
Drive Type Direct Direct Direct
No. Speeds 1 1 1
CFM (m
Number Motors 1 1 1
Motor HP (kW), per motor 1.0 (0.75) 1.0 (0.75) 1.0 (0.75)
Motor RPM 1140 1140 1140
Indoor Fan
Type Backward Curved Backward Curved Backward Curved
Number Used 1 1 1
Diameter Varies Varies Varies
Drive Type Direct Drive Direct Drive Direct Drive
Number Motors 1 1 1
Motor HP (kW), Standard–Oversized 2.68–4.0 (2–3) 2.68–4.0 (2–3) 2.68–4.0 (2–3)
Motor RPM Varies Varies Varies
Filters
Type Furnished Varies Varies Varies
Evap Size, in. (Qty) 20 x 24 x 2 (2) 20 x 24 x 2 (2) 20 x 24 x 2 (2)
Type Furnished MERV-8 MERV-8 MERV-8
ERV Size, in. (Qty) 20 x 24 x 2 (4) 20 x 24 x 2 (4) 20 x 24 x 2 (4)
Refrigerant Charge, lb of R-410A
3
/h) 500–2000 (850–3398) 500–2000 (850–3398) 500–2000 (850–3398)
2
(m2) 11 (1.02) 11 (1.02) 11 (1.02)
2
(m2) 4.17 (0.39) 4.17 (0.39) 4.17 (0.39)
3
/h) 7,000 (11,893) 7,000 (11,893) 7,000 (11,893)
See Nameplate See Nameplate See Nameplate
OAU-SVX005C-EN 45
Performance Data
Table 13. OABD General Data—Cooling 6–9 Tons High Efficiency
6 Tons 7 Tons 8 Tons 9 Tons
OABD072A OABD084A OABD096A OABD108A
Cooling Performance
Gross Cooling Capacity, Btu (kW) 78,600 (23.04) 88,768 (26.02) 99,099 (29.04) 108,214 (31.71)
Nominal cfm (m
Compressor
Number 1111
Type Scroll Scroll Scroll Scroll
Outdoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5)
Face Area, ft
Rows 2222
FPI 14141414
Indoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 3/8 (12.7) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7)
Face Area, ft
Rows 46 46 46 46
FPI 12121212
Refrigerant Control TXV TXV TXV TX V
Drain Connection Size, in. (mm) 3/4 (20) 3/4 (20) 3/4 (20) 3/4 (20)
Outdoor Fan
Type Propeller Propeller Propeller Propeller
Number Used 1 1 1 1
Diameter, in. (mm) 27 27 27 27
Drive Type Direct Direct Direct Direct
No. Speeds 1111
CFM (m
Number Motors 1111
Motor HP (kW), per motor 1.0 (0.75) 1.0 (0.75) 1.0 (0.75) 1.0 (0.75)
Motor RPM 1140 1140 1140 1140
Indoor Fan
Type Backward Curved Backward Curved Backward Curved Backward Curved
Number Used 1 1 1 1
Diameter Varies Varies Varies Varies
Drive Type Direct Drive Direct Drive Direct Drive Direct Drive
Number Motors 1111
Motor HP (kW), Standard–Oversized 2.68–4.0 (2–3) 2.68–4.0 (2–3) 2.68–4.0 (2–3) 2.68–4.0 (2–3)
Motor RPM Varies Varies Varies Varies
Filters
Type Furnished Varies Varies Varies Varies
Evap Size, in. (Qty) 20 x 24 x 2 (2) 20 x 24 x 2 (2) 20 x 24 x 2 (2) 20 x 24 x 2 (2)
Type Furnished MERV-8 MERV-8 MERV-8 MERV-8
ERV Size, in. (Qty) 20 x 24 x 2 (4) 20 x 24 x 2 (4) 20 x 24 x 2 (4) 20 x 24 x 2 (4)
Refrigerant Charge, lb of R-410A
3
/h) 625–3000 (1061–5097) 625–3000 (1061–5097) 625–3000 (1061–5097) 625–3000 (1061–5097)
2
(m2) 11 (1.02) 11 (1.02) 11 (1.02) 11 (1.02)
2
(m2) 6.56 (167) 5.69 (145) 6.56 (167) 5.69 (145) 6.56 (167) 5.69 (145) 6.56 (167) 5.69 (145)
3
/h) 7,000 (11,893) 7,000 (11,893) 7,000 (11,893) 7,000 (11,893)
See Nameplate See Nameplate See Nameplate See Nameplate
46 OAU-SVX005C-EN
Performance Data
Table 14. OAGD General Data—Cooling 10–17 Tons High Efficiency
10 Tons 12 Tons 15 Tons 17 Tons
OAGD120A OAGD144A OAGD180A OAGD210A
Cooling Performance
Gross Cooling Capacity, Btu (kW) 150,692 (44.16) 165,990 (48.65) 206,544 (60.53) 230,212 (67.47)
CFM
Nominal cfm (m3/h) 1250–2500 (2124–4248) 1500–3000 (2549–5097) 1875–3750 (3186–6371) 2125–4250 (3610–7221)
Compressor
Number 2222
Type Scroll Scroll Scroll Scroll
Outdoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5)
Face Area, ft
Rows 2222
FPI 14141414
Indoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7)
Face Area, ft
Rows 46 46 46 46
FPI 12121212
Refrigerant Control TXV TXV TXV TXV
Drain Connection Size, in. (mm) 3/4 (19.1) 3/4 (19.1) 3/4 (19.1) 3/4 (19.1)
Outdoor Fan
Type Propeller Propeller Propeller Propeller
Number Used 2223
Diameter, in. (mm) 27 (685.8) 27 (685.8) 27 (685.8) 27 (685.8)
Drive Type Direct Direct Direct Direct
No. Speeds 1111
CFM (m
Number Motors 2223
Motor HP (kW), per motor 1 (0.75) 1 (0.75) 1 (0.75) 1 (0.75)
Motor RPM 1,140 1,140 1,140 1,140
Indoor Fan
Type Backward Curved Backward Curved Backward Curved Backward Curved
Number Used 1–2 1–2 1–2 1–2
Diameter Varies Varies Varies Varies
Drive Type Direct or Belt Drive Direct or Belt Drive Direct or Belt Drive Direct or Belt Drive
Number Motors 1–2 1–2 1–2 1–2
Motor HP (kW), Standard–Oversized 2–12 (1.49–8.95) 2–12 (1.49–8.95) 2–12 (1.49–8.95) 2–12 (1.49–8.95)
Motor RPM, Standard–Oversized Varies Varies Varies Varies
Filters
Type Furnished
Number Size Recommended
Refrigerant Charge, lb of R-410A
2
(m2) 25 (2.32) 25 (2.32) 25 (2.32) 25 (2.32)
2
(m2) 10.0 (0.93) 10.0 (0.93) 10.0 (0.93) 12.0 (1.11)
3
/h) 14,000 (23,786) 14,000 (23,786) 14,000 (23,786) 21,000 (35,679)
Refer to OAU Filter Guide
in the Aopendix
See Nameplate See Nameplate See Nameplate See Nameplate
Refer to OAU Filter Guide
in the Aopendix
Refer to OAU Filter Guide
in the Aopendix
Refer to OAU Filter Guide
in the Aopendix
OAU-SVX005C-EN 47
Performance Data
Table 15. OAGD General Data—Cooling 20–30 Tons High Efficiency
20 Tons 22 Tons 25 Tons 30 Tons
OAGD240A OAGD264A OAGD300A OAGD360A
Cooling Performance
Gross Cooling Capacity, Btu (kW) 286,302 (83.91) 319,026 (93.50) 368,012 (107.85) 395,596 (115.94)
CFM
Nominal cfm (m3/h)
2500–5000
(4248–8495)
Compressor
Number 2222
Type Scroll Scroll Scroll Scroll
Outdoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5) 3/8 (9.5)
Face Area, ft
Rows 2222
FPI 14141414
2
(m2) 37 (3.44) 37 (3.44) 37 (3.44) 37 (3.44)
Indoor Coil
Type High Performance High Performance High Performance High Performance
Tube Size—OD, in. (mm) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7) 1/2 (12.7)
Face Area, ft
Rows 46 46 46 46
FPI 12121212
Refrigerant Control TXV TXV TXV TXV
Drain Connection Size, in. (mm) 3/4 (19.1) 3/4 (19.1) 3/4 (19.1) 3/4 (19.1)
2
(m2) 12.0 (1.11) 12.0 (1.11) 15.0 (1.39) 15.0 (1.39)
Outdoor Fan
Type Propeller Propeller Propeller Propeller
Number Used 3333
Diameter, in. (mm) 27 (685.8) 27 (685.8) 27 (685.8) 27 (685.8)
Drive Type Direct Direct Direct Direct
No. Speeds 1111
3
CFM (m
Number Motors 3333
Motor HP (kW), per motor 1 (0.75) 1 (0.75) 1 (0.75) 1 (0.75)
Motor RPM 1,140 1,140 1,140 1,140
/h) 21,000 (35,679) 21,000 (35,679) 21,000 (35,679) 21,000 (35,679)
Indoor Fan
Type Backward Curved Backward Curved Backward Curved Backward Curved
Number Used 1–2 1–2 1–2 1–2
Diameter Varies Varies Varies Varies
Drive Type Direct or Belt Drive Direct or Belt Drive Direct or Belt Drive Direct or Belt Drive
Number Motors 1–2 1–2 1–2 1–2
Motor HP (kW), Standard–Oversized 2–12 (1.49–8.95) 2–12 (1.49–8.95) 2–12 (1.49–8.95) 2–12 (1.49–8.95)
Motor RPM, Standard–Oversized Varies Varies Varies Varies
Filters
Type Furnished
Number Size Recommended
Refrigerant Charge, lb of R-410A
Refer to OAU Filter Guide
in the Aopendix
See Nameplate See Nameplate See Nameplate See Nameplate
2750–5500
(4672–9345)
Refer to OAU Filter Guide
in the Aopendix
3125–6250
(5309–10619)
Refer to OAU Filter Guide
in the Aopendix
3750–7500
(6371–12743)
Refer to OAU Filter Guide
in the Aopendix
48 OAU-SVX005C-EN
Performance Data
Superheat and Refrigeration Circuit Data
Figure 19. Refrigeration diagram: Single compressor
without reheat
Figure 20. Refrigeration diagram: Single compressor
with reheat
OAU-SVX005C-EN 49
Performance Data
Figure 21. Refrigeration diagram: dual compressor
without reheat
Figure 22. Refrigeration diagram: dual compressor with
reheat
50 OAU-SVX005C-EN
Alarms and Troubleshooting
Microprocessor Control
The Main Unit Display and RTRM have the ability to
provide the service personnel with some unit diagnostics
and system status information.
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical hazards,
MUST follow precautions in this manual and on the
tags, stickers, and labels, as well as the following
instructions: Unless specified otherwise, disconnect all
electrical power including remote disconnect and
discharge all energy storing devices such as capacitors
before servicing. Follow proper lockout/tagout
procedures to ensure the power can not be
inadvertently energized. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been trained in
handling live electrical components perform these
tasks.
AVERTISSEMENT
Procédures d’entretien dangereuses!
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes : Sauf indication contraire,
coupez toute l’alimentation électrique y compris les
disjoncteurs à distance et déchargez tous les dispositifs
de stockage d’énergie comme les condensateurs avant
l’entretien. Respectez les procédures de verrouillage et
d’étiquetage appropriées pour éviter tout risque de
remise sous tension accidentelle. S’il est nécessaire de
travailler avec des composants électriques sous
tension, demandez à un électricien qualifié et agréé ou
à une autre personne ayant la formation nécessaire
pour manipuler des composants électriques sous
tension d’exécuter ces tâches.
• System status
• Cooling status
If a System failure is indicated, proceed to Step 4. If no
failures are indicated, proceed to Step 5.
4. If a System failure is indicated, recheck Step 1 and Step
2. If the LED is not lit in Step 1, and 24 Vac is present in
Step 2, the RTRM has failed. Replace the RTRM.
5. If no failures are indicated, use one of the override
options to start the unit. Following the Override
procedure will allow you to check all of the operating
modes, and all of the external controls (relays,
contactors, etc.) for each respective mode.
6. Refer to the sequence of operations for each mode, to
assist in verifying proper operation. Make the
necessary repairs and proceed to Step 7.
7. If no abnormal operating conditions appear in the
Override mode, release the override and turn the
power “Off” at the main power disconnect switch.
System Alarms
The Main Unit Display has built in alarms to help the
operator troubleshoot system failures. This section will
describe these alarms and provide a guide to
troubleshooting the all unit operating modes.
Comprehensive system alarms and diagnostics are
accessed through the Alarms icon at the unit display
discussed later in the section, or through Tracer TU
programming on connected computer. Sensor failures
may be viewed through the Alarms icon.
If an alarm is present, the main indicator light on the
UC600 will blink red. If the optional unit display is installed,
the Alarm icon on the display will register ALARM,
illuminate red and flash.
Important: The space temperature sensor (SPTC) and
space relative humidity sensor (SPHC) will
read failed if they are not connected; they
will Alarm as “In Fault.”
Sensor Failure Alarm Display
Press the Alarm button on the Home display of the Unit
Display to display system sensor status as described in
Table 16 and Table 17, p. 52.
1. Verify that the Liteport LED on the RTRM is burning
continuously. If the LED is lit, go to Step 3.
2. If the LED is not lit, verify that 24 Vac is presence
between J1-1 and J1-2. If 24 Vac is present, proceed to
Step 3. If 24 Vac is not present, check the unit main
power supply, check transformer (TNS1). Proceed to
Step 3 if necessary.
3. Utilizing “Method 1” in the RTRM “System Status
Checkout Procedure”, check the following:
OAU-SVX005C-EN 51
Alarms and Troubleshooting
Table 16. TOAU UC600 alarms
Point Diagnostic Possible Cause
VFD not operating
Outdoor and/or Return Air Dampers not
Operating Properly
Indoor Fan
1
Failure
OAD Proving
3
Switch
Discharge Air
6
Temp Source
Failure
8 Fire Shutdown BAS ONLY
Low Temp
10
Lockout
Space Temp
11
Source Failure
OA Temp Source
13
Failure
OA Humidity
14
Source Failure
High Temp
15
Lockout
17 System Lockout
Space RH Source
19
Failure
Indoor Fan Motor Failure
Indoor Fan Failure Switch IFFS (pressure)
Failure
IFFS Tubing damaged or not properly
connected
Refer to startup procedure
No voltage at actuator
Failed OAD power transformer
No continuity thru end switch (check at UC)
Note: If unit optional RA damper is
installed, send switch on OAD is always
proven
BAS communication down
Failed sensor or improper sensor
installation
Heat Overridden OFF
Compressor(s) Overridden ON
Setpoint Failures Incorrect
DAT sensor malfunction
Reference Table 17, p. 52 for heat failure
issues
BAS communication down
Failed sensor or improper sensor
installation
BAS communication down
Failed sensor or improper sensor
installation
BAS communication down
Failed sensor or improper sensor
installation
Humidity Wiring is polarity sensitive
Heat Overridden ON
Low discharge air volume
Dirty air filters
High gas heater manifold pressure
OA/RA damper position incorrect
High temp limit not properly installed or
wired
DAT sensor malfunction
Check all Alarms
External safety device failed open
BAS communication down
Failed sensor or improper sensor
installation
Humidity Wiring is polarity sensitive
Table 16. TOAU UC600 alarms (continued)
Point Diagnostic Possible Cause
Applies to 5:1 and 10:1 Gas Heaters Only
T rips after heat command “ON” and no GV
status offer 1 minute
Refer to unit “Service Facts” heat control
LED status legend
42 Heat Failure
No gas, low gas pressure or high gas
pressure to unit
Unit Manual shutoffs closed
Heater inducer failure
Heat relay failure
Loose or incorrect wiring
Table 17. TOAU UC600 troubleshooting
Trouble Possible Cause
No power supply to unit disconnect switch
Power disconnect tripped
Lockout alarm mode
Unit Not Running
No Heat
No Compressor
Wide Discharge
Temp Swings
Space too Hot,
Cold or Humid
IFM or PEX VFD OC
Trip
EX VFD only run to
Min HZ Setting
Emergency Stop condition exists
Unit in Unoccupied mode
Discharge air sensor failed or not installed and
connected to unit
No gas supply to unit
Unit manual gas valve(s) closed
Heater high limit tripped
Heat relay not energized
Conditions do not warrant call for heat
Heater control module malfunction
Roll out switch trip
Main gas on-off switch OFF
Inducer fan failure
Heater air proving switch not making or failed
Compressor limit switch(es) open
Compressor relay not energized or failed
Conditions do not warrant call for cooling or
dehumidification
Discharge air sensor position must be at least
4 ft.-0 in. away from unit outlet
Min and Max gas heater manifold pressures not set
correctly
Setpoints not adjusted properly
Space sensors not correctly located or wired
Malfunctioning space sensor
Overcurrent alarm requires max Hz sett ing on VFD
be checked and set to not exceed motor
nameplate amps
If supplied with RA pressure transducer and
modulating damper setup is not installed or
properly wired.
52 OAU-SVX005C-EN
Alarms and Troubleshooting
Table 17. TOAU UC600 troubleshooting (continued)
Trouble Possible Cause
High fire gas manifold pressure too high
Supply fan speed too low
Unit Trips Heater
High Limit
Protonode Not
Communicating
Dirty or clogged filters
Restricted discharge air duct
Temperature of air entering heater too high
Defective high limit
Change Baud rate on UC600 to 38,400
RTRM Failure Modes
WARNING
Live Electrical Components!
Failure to follow all electrical safety precautions when
exposed to live electrical components could result in
death or serious injury. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been properly
trained in handling live electrical components perform
these tasks.
AVERTISSEMENT
Composants électriques sous tension!
Le non-respect de toutes les consignes de sécurité lors
de la manipulation de composants électriques sous
tension peut entraîner des blessures graves, voire
mortelles. S’il est nécessaire de travailler avec des
composants électriques sous tension, demandez à un
électricien qualifié et agréé ou à une autre personne
ayant la formation nécessaire pour manipuler des
composants électriques sous tension d’exécuter ces
tâches.
Following is the listing of RTRM failure indication causes.
System Failure
Check the voltage between RTRM terminals 6 and 9 on J6,
it should read approximately 32 Vdc. If no voltage is
present, a System failure has occurred. Refer to Step 4 in
“Microprocessor Control,” p. 51 for the recommended
troubleshooting procedure.
Cooling Failure
• CLP1 has opened during the 3 minute minimum “on
time” during four consecutive compressor starts,
check CLP1 by testing voltage between the J1-8 and
J3-2 terminals on the RTRM and ground. If 24 Vac is
present, the CLP has not tripped. If no voltage is
present, CLP has tripped.
Cool Failure
Measure the voltage between terminals J6-8 and J6-6.
Cool Operating = approximately 32 Vdc
Cool Off = less than 1 Vdc, approximately 0.75 Vdc
Cooling Failure = voltage alternates between 32 Vdc and
0.75 Vdc
Airflow Troubleshooting
Table 18. Airflow troubleshooting
Profile Opening Width (in.)
Airflow
500 6.5
750 7.5
1000 9
1250 10
1500 11-1/4
1750 12-1/2
2000 13-3/4
2250 14-3/4
2500 16 14
2750 17-1/4 15
3000 18-1/2 15-3/4 14-1/4
3250 19-3/4 16-3/4 15
3500 21 17-1/2 15-1/2
3750 22 18-1/4 16-1/4
4000 23-1/4 19-1/4 17
4250 24-1/2 20 17-1/2
4500 25-3/4 21 18-1/4
4750 27 21-3/4 18-3/4
5000 22-1/2 19-1/2
5250 23-1/2 20-1/4
5500 24-1/4 20-3/4
5750 25 21-1/2
6000 26 22
6250 26-3/4 22-3/4
6500 27-3/4 23-1/2
6750 28-1/2 24
7000 29-1/4 24-3/4
7250 30-1/4 25-1/4
7500 31 26
6-in. Burner 12-in. Burner 18-in. Burner
System Failure
Measure the voltage between terminals J6-9 and J6-6.
Normal Operation = approximately 32 Vdc
System Failure = less than 1 Vdc, approximately 0.75 Vdc
OAU-SVX005C-EN 53
Alarms and Troubleshooting
Direct-Fired OAB and OAG Unit Flame
Relays 400 MBh
Procédures d’entretien dangereuses!
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical hazards,
MUST follow precautions in this manual and on the
tags, stickers, and labels, as well as the following
instructions: Unless specified otherwise, disconnect all
electrical power including remote disconnect and
discharge all energy storing devices such as capacitors
before servicing. Follow proper lockout/tagout
procedures to ensure the power can not be
inadvertently energized. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been trained in
handling live electrical components perform these
tasks.
Table 19. Lockout models B, H D, and J only—Green LED status codes
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes : Sauf indication contraire,
coupez toute l’alimentation électrique y compris les
disjoncteurs à distance et déchargez tous les dispositifs
de stockage d’énergie comme les condensateurs avant
l’entretien. Respectez les procédures de verrouillage et
d’étiquetage appropriées pour éviter tout risque de
remise sous tension accidentelle. S’il est nécessaire de
travailler avec des composants électriques sous
tension, demandez à un électricien qualifié et agréé ou
à une autre personne ayant la formation nécessaire
pour manipuler des composants électriques sous
tension d’exécuter ces tâches.
AVERTISSEMENT
Green LED Flash
(a)
Code
OFF No “Call for Heat” Not applicable None
Flash Fast Power up - internal check Not applicable None
Heartbeat Normal startup - ignition
4 Seconds ON
then “x” flashes
2 Lockout - Failed trial for
3Recycle
4 Flame sensed out of
6 Control Internal Error Control remains in wait mode. When the fault
7 Flame rod shorted to
8 Low secondary voltage
(a)Flash Code Descriptions:
- Flash Fast: Rapid blinking.
- Heartbeat: Constant 1/2 second bright, 1/2 second dim cycles.
- 4 second solid on pulse followed by “x” 1 second flashes indicates flame current to the nearest
- A single flash code number signifies that the LED flashes X times at 2 Hz, remains off for two seconds, and then repeats the sequence.
Indicates Next System Action Recommended Service Action
sequence started
(including prepurge)
Device in run mode.
“x” = flame current to the
nearest μA.
ignition
- Flame failed during run
sequence
ground
supply
Not applicable None
Not applicable None
Remain in lockout until “Call for Heat” is cycled. Check gas supply , pilot burner , spark and flame
Initiate new trial for ignition. Flash code will remain
through the ignition trial until flame is proved.
If situation self corrects within 10 seconds, control
returns to normal sequence. If flame out of
sequence remains longer than 10 seconds, control
will resume normal operation 1 hour after error is
corrected.
corrects, control resumes normal operation.
Control remains in wait mode. When the fault
corrects, control resumes normal operation.
Control remains in wait mode. When the fault
corrects, control resumes normal operation.
sense wiring, flame rod contaminated or out of
position, burner ground connection.
If system fails to light on next trial for ignition,
check gas supply, pilot burner, flame sense
wiring, contamination of flame rod, burner
ground connection.
Check for pilot flame. Replace gas valve if pilot
flame present. If no pilot flame, cy cle “C all for
Heat.” If error repeats, replace control.
Cycle “Call for Heat”. If error repeats, replace
control.
Check flame sense lead wire for damage or
shorting. Check that flame rod is in proper
position.Check flame rod ceramic for cracks,
damage or tracking.
Check transformer and AC line for proper i nput
voltage to the control. Check with full system
load on the transformer.
μA. This is only available in run mode.
54 OAU-SVX005C-EN
Flame Current Measurement
Flame current of the device can be measured using a
standard micro-ammeter by simply inserting the meter
probes into the holes labeled FLAME CURRENT.
• Flame current must be measured with pilot valve lit but
no main gas flowing.
• Disconnect MV leadwire from the control before
measuring flame current.
• Set meter to DC µAmp scale.
• Ensure meter leads are positioned correctly [+/-].
Note: Trying to measure the pilot flame current in series
with the wiring will not be accurate.
Recommended Minimum Pilot Only Flame Current:
• Must read steady 1 µAmp DC minimum.
• Flame current should be 2 µAmp or greater for reliable
appliance operation.
Direct-Fired OAG Unit Flame Relays > 400 MBh
Alarms and Troubleshooting
AVERTISSEMENT
Procédures d’entretien dangereuses!
Le non-respect de toutes les précautions contenues
dans ce manuel ainsi que sur les étiquettes et les
autocollants peut entraîner des blessures graves voire
mortelles.
Les techniciens, afin d’être protégés des éventuels
risques électriques, mécaniques et chimiques,
DOIVENT suivre les précautions contenues dans ce
manuel, sur les étiquettes et les autocollants, ainsi que
les instructions suivantes : Sauf indication contraire,
coupez toute l’alimentation électrique y compris les
disjoncteurs à distance et déchargez tous les dispositifs
de stockage d’énergie comme les condensateurs avant
l’entretien. Respectez les procédures de verrouillage et
d’étiquetage appropriées pour éviter tout risque de
remise sous tension accidentelle. S’il est nécessaire de
travailler avec des composants électriques sous
tension, demandez à un électricien qualifié et agréé ou
à une autre personne ayant la formation nécessaire
pour manipuler des composants électriques sous
tension d’exécuter ces tâches.
WARNING
Hazardous Service Procedures!
Failure to follow all precautions in this manual and on
the tags, stickers, and labels could result in death or
serious injury.
Technicians, in order to protect themselves from
potential electrical, mechanical, and chemical hazards,
MUST follow precautions in this manual and on the
tags, stickers, and labels, as well as the following
instructions: Unless specified otherwise, disconnect all
electrical power including remote disconnect and
discharge all energy storing devices such as capacitors
before servicing. Follow proper lockout/tagout
procedures to ensure the power can not be
inadvertently energized. When necessary to work with
live electrical components, have a qualified licensed
electrician or other individual who has been trained in
handling live electrical components perform these
tasks.
Table 20. Troubleshooting guide for flame relays during problem of safety shutdown (lockout)
Occurs In Occurs If
Initiate Period
Standby Period
• Purge card is not installed or removed
• Purge card is bad
• Configuration jumpers have been changed (after 200 hours)
• AC line power errors occurred
• Four minute INITIATE period has been exceeded
• Airflow lockout feature is enabled and the airflow switch does not close after ten seconds or within the
specified purge card timing
• Flame signal is detected after 30 seconds
• Ignition/pilot valve/intermittent pilot valve terminal is energized
• Main valve terminal is energized
• Delayed (2
• Internal system fault occurred
• Purge card is removed
• Purge card is bad
nd
stage) main valve terminal is energized (RM7895C, D/EC7895C, RM7896C/D)
OAU-SVX005C-EN 55
Alarms and Troubleshooting
Table 20. Troubleshooting guide for flame relays during problem of safety shutdown (lockout) (continued)
Occurs In Occurs If
Prepurge Period
Pilot Flame Establishing Period (PFEP)
Main Flame Establishing Period (MFEP)
-RM7895C/D, EC7895C, RM7896C/D
Run Period
• Airflow lockout feature is enabled and the airflow switch opens
• Ignition/pilot valve terminal is not energized
• No flame present at end of PFEP
• Main valve terminal is energized
• Delayed main valve terminal is energized (RM7895C/D)
• Internal system fault occurred
• Purge card is removed
• Purge card is bad
• Airflow lockout feature is enabled and the airflow switch does not close after 10 seconds or within the
specified purge card timing
• Flame signal is detected after 30 seconds
• Ignition/pilot valve/intermittent pilot valve terminal is energized
• Main valve terminal is energized.
• Delayed (2
• Internal system fault occurred
• Purge card is removed
• Purge card is bad
• Airflow lockout feature is enabled and the airflow switch opens
• Ignition terminal is energized
• Ignition/pilot valve terminal is not energized
• Main valve terminal is not energized
• Delayed main valve terminal is energized
• No flame present at end of MFEP
• Internal system fault occurred
• Purge card is removed
• Purge card is bad
• No flame present
• Airflow lockout feature is enabled and the airflow switch opens
• Interrupted pilot valve terminal is energized (RM7895C/D,EC7895C, RM7896C/D)
• Main valve terminal is not energized
• Delayed (2
• Internal system fault occurred
• Purge card is removed
• Purge card is bad
nd
stage) main valve terminal is energized (RM7895C/D, EC7895C, RM7896C/D)
nd
stage) main valve terminal is not energized (RM7895C/D,EC7895C, RM7896C/D)
Figure 23. Wiring subbase and sequence chart for RM7895A/B, EC7895A, RM7896A/B
Q7800
Line Voltage Alarm
Blower Motor (Blower)
Burner Controller/Limits
Lockout Interlock
Including Airflow Sw.
Intermittent Pilot Ignition
Main Fuel Valve(s)
Ignition
Flame Detector
(See Note 4)
G
L2
3
4
5
6
7
8
9
10
F
(See Note 3)
12
13
14
15
16
L1
17
18
19
20
21
22
1. RM7895, RM7896; 120 Vac, 50/60 Hz; EC7895; 220–
240 Vac, 50/60 Hz Power Supply. Provide disconnect
means and overload protection as required.
2. Do not connect any wires to unused terminals.
3. For EC7895, A 220 to 240 Vac to 120 Vac, 10 VA
minimum stepdown transformer (not provided) must
be used to drive the shutter.
For Direct Spark Ignition
(Oil or Gas)
10
8
(See Note 2)
Ignition Transformer
Main Valve
Master
Switch
(See Note 1)
L2
L1 (Hot)
L2
4. See flame detector specifications for correct wiring.
5. For RM7896A1048 (only), Ignition Terminal 1 is deenergized when flame is proven.
6. Airflow switch check feature is for the RM7895,
RM7896B.
7. RM7896A,B (only).
56 OAU-SVX005C-EN
Alarms and Troubleshooting
LED Display
Initiate Standby Start Time Purge
PFEP
4-10 Sec.
Run
Post Purge
7
15 Sec.
Standby
Power Power Power Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Burner Start
7 etoNrotoM rewolB/renruB
Ignition
5
Ignition/Pilot
Main Valve
Operating
Controls and
Interlocks
Limits and Burner Controller Closed to
Airflow Switch Check
6
CSFA ot desolC kcolretnI tuokcoL
CSSgnivorP emalFkcehC tratS efaSlangiS emalF
4
10
8
8
L1 6
6 7
G
L2
3
4
5
6
7
8
9
10
F
10
8
9
L2
12
13
14
15
16
17
18
19
20
21
22
Q7800
Line Voltage Alarm
Blower Motor (Blower)
10-Sec. Interupt Pilot Ignition
Main Fuel Valve(s)
Ignition
Flame Detector
Master
Switch
L1 (Hot)
L2
(See Note 1)
Burner Controller/Limits
Lockout Interlock
Including Airflow Sw.
(See Note 4)
(See Note 3)
(See Note 2)
Ignition Transformer
Main Valve
For Direct Spark Ignition
(Oil or Gas)
L1
Delayed
(2-Stage)
Main Valve
Figure 24. Wiring subbase and sequence chart for RM7895C/D, EC7895C/D, RM7896C/D
1. RM7895, RM7896; 120 Vac, 50/60 Hz; EC7895; 220–
2. Do not connect any wires to unused terminals.
3. For EC7895, A 220 to 240 Vac to 120 Vac, 10 VA
4. See flame detector specifications for correct wiring.
5. Airflow switch check feature is for the RM7895D,
6. RM7896C,D (only).
7. RM7895C1020, RM7896C1036 PFEP 10 seconds (only).
8. RM7895C1020, RM7896C1036; during first 8 seconds
OAU-SVX005C-EN 57
240 Vac, 50/60 Hz Power Supply. Provide disconnect
means and overload protection as required.
minimum step down transformer (not provided) must
be used to drive the shutter.
RM7896D.
of PFEP. When a flame signal is detected, Terminal 10 is
de-energized. If flame signal is lost, Terminal 10 will reenergize.
Alarms and Troubleshooting
LED Display
Initiate Standby Start Time Purge
PFEP
7
4-10 Sec.
MFEP Run
Post Purge
6
15-Sec
Standby
Power Power Power Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Power
Pilot
Flame
Main
Alarm
Burner Start
6 etoNrotoM rewolB/renruB
Ignition
8
Ignition/Pilot
Main Valve
2nd Stage Main
Operating
Controls and
Interlocks
Limits and Burner Controller Closed to
Airflow Switch Check
5
CSFA ot desolC kcolretnI tuokcoL
CSSgnivorP emalFkcehC tratS efaSlangiS emalF
4
10
8
9
L1 6
6 7
21
58 OAU-SVX005C-EN
Appendix
OAU Filter Guide
Table 21. OAB units
Thickness MERV Qty Height Width
2 in. Mist Eliminators 2 16 25
2 in. 8, 13 2 16 25
Table 22. OAG units
Thickness MERV Qty Height Width
2 in. Mist Eliminators 6 16 24
2 in. 8, 13 6 16 24
Note: 2 in. mist eliminators and 2 in. MERV 8 filters are standard; MERV 13
filter is optional.
OAU-SVX005C-EN 59
Ingersoll Rand (NYSE:IR) advances the quality of life by creating comfortable, sustainable and efficient
ingersollrand.com
environments. Our people and our family of brands—including Club Car®, Ingersoll Rand®, Thermo King® and
Trane®—work together to enhance the quality and comfort of air in homes and buildings; transport and protect
food and perishables; and increase industrial productivity and efficiency. We are a global business committed to a
world of sustainable progress and enduring results.
Ingersoll Rand has a policy of continuous product and product data improvement and reserves the right to change design and specifications
without notice.
We are committed to using environmentally conscious print practices.
OAU-SVX005C-EN 30 Nov 2019
Supersedes OAU-SVX005B-EN (Jan 2018)
©2019 Ingersoll Rand
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