6 dic 2023 — To prevent serious injury or death: 1- Lock-out/tag-out before performing maintenance. 2- If system power is required (e.g., smoke detector.
©2023 WARNING To prevent serious injury or death: 1- Lock-out/tag-out before performing maintenance. 2- If system power is required (e.g., smoke detector mainten ance), disable power to blower, remove fan belt where applicable, and ensure all controllers and thermostats are set to the "OFF" position before performing maintenance. 3- Always keep hands, hair, clothing, jewelry, tools, etc., away from moving parts. Table of Contents Dimensions . . . . . . . . . . . . . . . . . . . . . . . . .2 Parts Arrangement . . . . . . . . . . . . . . . . . . . . .3 Shipping and Packing List . . . . . . . . . . . . . . . . .4 General . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Unit Support . . . . . . . . . . . . . . . . . . . . . . . . .5 Duct Connection . . . . . . . . . . . . . . . . . . . . . .6 Rigging Unit for Lifting . . . . . . . . . . . . . . . . . . .6 Condensate Drains . . . . . . . . . . . . . . . . . . . . .6 Connect Gas Piping (Gas Units) . . . . . . . . . . . . . 8 Pressure Test Gas Piping (Gas Units) . . . . . . . . . . 9 High Altitude Derate . . . . . . . . . . . . . . . . . . . 10 Download Mobile Service App . . . . . . . . . . . . . 10 Electrical Connections - Power Supply . . . . . . . . . 10 Electrical Connections - Control Wiring . . . . . . . . 11 Electrical Connections - Control Wiring . . . . . . . . 13 Electrical Connections - Control Wiring . . . . . . . . 15 Cooling Start-Up . . . . . . . . . . . . . . . . . . . . . 18 INSTALLATION INSTRUCTIONS LGT/LCT092H (7.5 TON) LGT/LCT102H (8.5 TON) LGT/LCT120H (10 TON) LGT/LCT150H (12.5 TON) PACKAGED UNITS 508287-01 11/2023 Supersedes 10/2022 WARNING Improper installation, adjustment, alteration, service or maintenance can cause property damage, personal injury or loss of life. Installation and service must be performed by a licensed professional HVAC installer or equivalent, service agency, or the gas supplier. Diagnostic Sensors . . . . . . . . . . . . . . . . . . . . 24 Gas Heat Start-Up (Gas Units) . . . . . . . . . . . . . 26 Electric Heat Start-Up (Cooling Units) . . . . . . . . . 27 SCR Electric Heat Controller (LCT Units) . . . . . . . . 27 Cooling Operation . . . . . . . . . . . . . . . . . . . . 27 Modulating Hot Gas Reheat Start-Up and Operation . 29 Service . . . . . . . . . . . . . . . . . . . . . . . . . . . 31 Field-Installed Accessories . . . . . . . . . . . . . . . 37 Factory Unit Controller Settings . . . . . . . . . . . . . 37 RETAIN THESE INSTRUCTIONS FOR FUTURE REFERENCES Attention! Use this QR code to download the mobile service app. Follow the prompts to pair the app with the unit control system and configure the unit. Refer to the "Download Mobile App" section in this manual and the Setup Guide provided with this unit. The QR code is also available in the unit control area. The app can be downloaded from the appropriate iOS or Android store. Look for the following icon. CAUTION As with any mechanical equipment, contact with sharp sheet metal edges can result in personal injury. Take care while handling this equipment and wear gloves and protective clothing. LGT/LCT092, 102, 120, 150 DIMENSIONS in. - Gas heat section shown 6-1/8 (156) AA 5-5/8 (143) BOTTOM SUPPLY AIR OPENING BB 58-1/8 (1476) 6-1/8 (156) 24 (610) 10-3/4 28 (273) 20 (711) (508) 60-1/8 (1527) BASE BOTTOM POWER ENTRY 5-1/2 (140) Dia. 7 (178) 27 (686) BOTTOM RETURN AIR OPENING EE 6-5/8 (168) CENTER OF GRAVITY FF DD BOTTOM CC 7 (178) CONDENSATE 34-7/8 (886) 101-1/4 BASE (2572) TOP VIEW OPTIONAL DISCONNECT (FACTORY INSTALLED) 99-1/4 (2521) 60-1/8 (1527) END VIEW 46-7/8 (1191) 43-3/8 (1102) 3-1/2 (89) 1 (25) ELECTRIC INLETS 15-1/2 (394) CONDENSATE DRAIN (FRONT) GAS SUPPLY INLET 5-3/8 (137) 18-1/2 (470) FLUE OUTLET 46-7/8 (1191) 34-7/8 (886) 39-7/8 (1013) FORKLIFT SLOTS (BOTH SIDES) LIFTING HOLES (FOR RIGGING) 101-1/4 (2572) SIDE VIEW 15-1/2 (394) 1-5/8 (41) HORIZONTAL SUPPLY AIR OPENING HORIZONTAL RETURN AIR OPENING 30 (762) 12-1/8 (308) CONDENSATE 6-1/8 DRAIN (BACK) 5-3/8 (156) (137) 31-1/2 (800) 66-3/8 (1686) 30 (762) Important - Do not install horizontal economizers on this opening. Refer to SIDE VIEW (Horizontal Openings) economizer instructions for proper installation. Page 2 LGT092, 102, 120, 150 PARTS ARRANGEMENT FILTERS (FOUR - 20 X 25 X 2") EVAPORATOR COIL REHEAT COIL BLOWER (OPTIONAL) (DIRECT DRIVE) CONDENSER FANS CONDENSER COIL ECONOMIZER (OPTIONAL) WIFI ANTENNA UNIT CONTROLLER WIRELESS BOARD COMPRESSORS GAS VALVE CONDENSATE DRAIN COMBUSTION AIR INDUCER BURNERS IGNITION CONTROL LCT092, 102, 120, 150 PARTS ARRANGEMENT FILTERS (FOUR - 20 X 25 X 2") EVAPORATOR COIL REHEAT COIL (OPTIONAL) BLOWER (DIRECT DRIVE) CONDENSER FANS ECONOMIZER (OPTIONAL) WIFI ANTENNA UNIT CONTROLLER WIRELESS BOARD COMPRESSORS CONDENSATE DRAIN Page 3 ELECTRIC HEAT (OPTIONAL) CONDENSER COIL Shipping and Packing List Package 1 of 1 contains: 1 - Assembled unit Check unit for shipping damage. Receiving party should contact last carrier immediately if shipping damage is found. General These instructions are intended as a general guide and do not supersede local codes in any way. Authorities having jurisdiction should be consulted before installation. The LGT092H / 150H gas/electric packaged rooftop unit is available in 130,000, 180,000, or 240,000 Btuh heating inputs. The LCT092H / 150H cooling packaged rooftop unit is the same basic design as the LGT unit except for the heating section. Optional electric heat is factory- or field-installed in LCT units. Units are equipped with all-aluminum condenser coils. Units are available with an optional hot gas reheat coil which provides dehumidifying modes of operation. Refer to Reheat Operation section. Units are equipped with direct drive blowers. The blower will operate at lower speeds when demand is low and increase to higher speeds when demand is high. Refer to the Direct Drive Start-Up section. The following examples show the model numbers of ten ton units with blower options. LGT/LCT120H4E Single Zone MSAV Direct Drive LGT/LCT120H4P VAV Direct Drive All units are available using R410A, an ozone-friendly HFC refrigerant. Refer to the Cooling Start-Up section for precautions when installing unit. Safety See TABLE 1 for unit clearances. WARNING Electric shock hazard and danger of explosion. Can cause injury, death or product or property damage. Turn off gas and electrical power to unit before performing any maintenance or servicing operations on the unit. Follow lighting instructions attached to unit when putting unit back into operation and after service or maintenance. Optional Outdoor Air Hood UNIT CLEARANCES C B D A FIGURE 1 ¹ Unit Clearance Service Clearance Clearance to Combustibles Minimum Operation Clearance TABLE 1 UNIT CLEARANCES A B C D in.(mm) in.(mm) in.(mm) in.(mm) 60 36 (1524) (914) 36 60 (914) (1524) 36 1 1 1 (914) (25) (25) (25) 36 (914) 36 (914) 36 (914) 36 (914) Top Clearance Unobstructed Unobstructed Unobstructed NOTE - Entire perimeter of unit base requires support when elevated above mounting surface. ¹ Service Clearance - Required for removal of serviceable parts. Clearance to Combustibles - Required clearance to combustible material (gas units). On LCT units, see clearance to combustible materials as outlined on heater rating plate. Minimum Operation Clearance - Required clearance for proper unit operation. NOTICE Roof Damage! This system contains both refrigerant and oil. Some rubber roofing material may absorb oil, causing the rubber to swell. Bubbles in the rubber roofing material can cause leaks. Protect the roof surface to avoid exposure to refrigerant and oil during service and installation. Failure to follow this notice could result in damage to roof surface. IMPORTANT The Clean Air Act of 1990 bans the intentional venting of refrigerant (CFC's and HCFC's) as of July 1, 1992. Approved methods of recovery, recycling or reclaiming must be followed. Fines and/or incarceration may be levied for non-compliance. Page 4 Use of this unit as a construction heater or air conditioner is not recommended during any phase of construction. Very low return air temperatures, harmful vapors and operation of the unit with clogged or misplaced filters will damage the unit. If this unit has been used for heating or cooling of buildings or structures under construction, the following conditions must be met or the warranty will be void: · A room thermostat or zone air temperature sensor must control the unit. The use of fixed jumpers that will provide continuous heating or cooling is not allowed. · A pre-filter must be installed at the entry to the return air duct. · The return air duct must be provided and sealed to the unit. · Return air temperature range between 55°F (13°C) and 80°F (27°C) must be maintained. · Air filters must be replaced and pre-filters must be removed upon construction completion. · The input rate and temperature rise must be set per the unit rating plate. · The heat exchanger, components, duct system, air filters and evaporator coil must be thoroughly cleaned following final construction clean-up. · The unit operating conditions (including airflow, cooling operation, ignition, input rate, temperature rise and venting) must be verified according to these installation instructions. This appliance is not to be used by persons with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction. This appliance should not be used by children. Children should be supervised to ensure they do not play with the appliance. Unit Support In downflow discharge installations, install the unit on a non-combustible surface only. Unit may be installed on combustible surfaces when used in horizontal discharge applications or in downflow discharge applications when installed on an C1CURB7*B roof mounting frame. NOTE - Securely fasten roof frame to roof per local codes. CAUTION To reduce the likelihood of supply / return air bypass and promote a proper seal with the RTU, duct work / duct drops / diffuser assemblies must be supported independently to the building structure. Roof Mounting with C1CURB7*B 1 - The C1CURB7*B roof mounting frame must be installed, flashed and sealed in accordance with the instructions provided with the frame. 2 - The C1CURB7*B roof mounting frame should be square and level to 1/16" per linear foot (5mm per linear meter) in any direction. 3 - Duct must be attached to the roof mounting frame and not to the unit; supply and return plenums must be installed before setting the unit. Installer's Roof Mounting Frame Many types of roof frames can be used to install the unit depending upon different roof structures. Items to keep in mind when using the building frame or supports are: 1 - The base is fully enclosed and insulated, so an enclosed frame is not required. 2 - The frames or supports must be constructed with non-combustible materials and should be square and level to 1/16" per linear foot (5mm per linear meter) in any direction. 3 - Frame or supports must be high enough to prevent any form of moisture from entering unit. Recommended minimum frame height is 14" (356mm). 4 - Duct must be attached to the roof mounting frame and not to the unit. Supply and return plenums must be installed before setting the unit. 5 - Units require support along all four sides of unit base. Supports must be constructed of steel or suitably treated wood materials. NOTE - When installing a unit on a combustible surface for downflow discharge applications, an C1CURB7*B roof mounting frame is required. Page 5 B-Horizontal Discharge Applications 1 - Units installed in horizontal airflow applications must use a horizontal conversion kit K1HECK00. 2 - Specified installation clearances must be maintained when installing units. Refer to FIGURE 1. 3 - Top of support slab should be approximately 4" (102mm) above the finished grade and located so no run-off water from higher ground can collect around the unit. 4 - Units require support along all four sides of unit base. Supports must be constructed of steel or suitably treated wood materials. Duct Connection All exterior ducts, joints and openings in roof or building walls must be insulated and weather-proofed with flashing and sealing compounds in accordance with applicable codes. Any duct passing through an unconditioned space must be insulated. CAUTION In downflow applications, do not drill or punch holes in base of unit. Leaking in roof may occur if unit base is punctured. Rigging Unit for Lifting Rig unit for lifting by attaching four cables to holes in unit base rail. See FIGURE 2. 1 - Detach wooden base protection before rigging. NOTE - Remove all 7 (5 brackets on units with three outdoor fans) base protection brackets before setting unit. 2 - Connect rigging to the unit base using both holes in each corner. 3 - All panels must be in place for rigging. 4 - Place field-provided H-style pick in place just above top edge of unit. Frame must be of adequate strength and length. (H-style pick prevents damage to unit.) Condensate Drains Make drain connection to the 1" N.P.T. drain coupling provided on unit. NOTE - The drain pan is made with a glass reinforced engineered plastic capable of withstanding typical joint torque but can be damaged with excessive force. Tighten pipe nipple hand tight and turn an additional quarter turn. A trap must be installed between drain connection and an open vent for proper condensate removal. See FIGURE 3 or FIGURE 4. It is sometimes acceptable to drain condensate onto the roof or grade; however, a tee should be fitted to the trap to direct condensate downward. The condensate line must be vented. Check local codes concerning condensate disposal. Refer to page 1 and page 2 for condensate drain location. RIGGING Unit *Weight Lbs. Kg. All 1514 687 *Maximum weight with all available factory-installed accessories. CAUTION - Do not walk on unit. IMPORTANT - ALL PANELS MUST BE IN PLACE FOR RIGGING. LIFTING POINT SHOULD BE DIRECTLY ABOVE CENTER OF GRAVITY FIGURE 2 CONDENSATE SIDE DRAIN CONNECTION CAULK AROUND CONDENSATE COUPLING NOTE - Allow clearance to open doors when installing condensate piping. Minimum Pitch 1" (25 mm) per 10' (3 m) of line OPEN VENT UNIT FIGURE 3 MOUNTING FRAME Page 6 CONDENSATE BOTTOM DRAIN CONNECTION UNIT DRAIN PAN CAULK AROUND CONDENSATE COUPLING OPEN VENT MOUNTING FRAME Minimum Pitch 1" (25 mm) per 10' (3 m) of line FIGURE 4 Units are shipped with the drain coupling facing the front of the unit. Condensate can be drained from the back or bottom of the unit with the following modifications. The unit can be installed in either downflow or horizontal air discharge regardless of condensate drain location. Rear Drain Connection 1 - Open blower and heat access doors. See FIGURE 5. FILTER ACCESS DOOR BLOWER ACCESS DOOR 2 - Remove six screws from filter access door. Refer to FIGURE 6. UNITS WITH HINGED PANELS FILTER DOOR CONDENSATE DRAIN MULLION REMOVE THREE SCREWS (PER HINGE) FIGURE 6 3 - Open filter access door hinges and carefully remove door. 4 - Remove eight screws holding condensate drain mullion and remove mullion. 5 - Lift front edge of the drain pan (to clear bottom drain plug) and slide drain pan out of unit. See FIGURE 7. HEAT ACCESS DOOR CONDENSATE DRAIN MULLION FIGURE 5 DRAIN PAN FIGURE 7 6 - Make sure the cap over the unit bottom drain hole is secure. 7 - Rotate the drain pan until the downward slope is toward the back of the unit. Slide the drain pan back into the unit. Be careful not to dislodge the cap over the bottom drain hole. 8 - From the back side of the unit, pull the drain pan coupling through the rear condensate opening. 9 - Replace the condensate drain mullion and reinstall eight screws. 10 - Reinstall filter door on hinges. Page 7 Bottom Drain Connection 1 - Open blower and heat access doors. See FIGURE 5. 2 - Remove six screws from filter access door. Refer to FIGURE 6. 3 - Open filter access door hinges and carefully remove door. 4 - Remove eight screws holding condensate drain mullion and remove mullion. 5 - Lift front edge of the drain pan (to clear bottom drain plug) and slide drain pan out of unit. See FIGURE 7. 6 - Turn the drain pan upside down and drill a pilot hole through the bottom of the drain pan in the center of the coupling. See FIGURE 8. BOTTOM CONDENSATE DRAIN CAUTION: Be careful not to damage the coupling threads when drilling the hole. DRILL A PILOT HOLE IN CENTER OF COUPLING Connect Gas Piping (Gas Units) Before connecting piping, check with gas company or authorities having jurisdiction for local code requirements. When installing gas supply piping, length of run from gas meter must be considered in determining pipe size for 0.5" w.c. (.12kPa) maximum pressure drop. Do not use supply pipe smaller than unit gas connection. For natural gas units, operating pressure at the unit gas connection must be a minimum of 4.7" w.c. (1.17kPa) and a maximum of 10.5" (2.60kPa) w.c. For LP/propane gas units, operating pressure at the unit gas connection must be a minimum of 10.5" w.c. (2.61kPa) and a maximum of 13.0" w.c. (3.23kPa). When making piping connections a drip leg should be installed on vertical pipe runs to serve as a trap for sediment or condensate. A 1/8" N.P.T. plugged tap is located on gas valve for test gauge connection. Refer to Heating Start-Up section for tap location. Install a ground joint union between the gas control manifold and the main manual shut-off valve. See FIGURE 9 for gas supply piping entering outside the unit. FIGURE 10 shows bottom gas entry piping through the curb. FIGURE 11 shows bottom gas entry piping through the unit. Compounds used on threaded joints of gas piping shall be resistant to the action of liquefied petroleum gases. OUTSIDE OF UNIT GAS PIPE CONNECTION After drilling the pilot hole, drill a 7/8" hole from the inside of the pan. FIGURE 8 7 - From the inside of the pan, use a Vari-Bit® bit to enlarge the hole to 7/8". Do not damage coupling threads. 8 - Remove the cap over the unit bottom drain hole. 9 - Slide the drain pan back into the unit. 10 - From the back side of the unit, pull the drain pan coupling through the rear condensate opening. 11 - From the front side of the unit, move the drain pan until the bottom coupling settles into the unit bottom drain opening. Once in place, check to make sure the coupling is still positioned through the rear condensate drain hole. 12 - Use a field-provided 1" plug to seal side drain connection. 13 - Replace the condensate drain mullion and reinstall eight screws. 14 - Reinstall filter door on hinges. GROUND JOINT UNION TO GAS SUPPLY TO GAS VALVE GAS PIPING SUPPORT MANUAL MAIN SHUT-OFF VALVE DRIP LEG (REFER TO LOCAL CODES) FIGURE 9 Page 8 BOTTOM ENTRY GAS PIPING THROUGH THE CURB MULLION BETWEEN SOR SECTIONS 4" NIPPLE 4" NIPPLE TO GAS VALVE GROMMET ALL ELBOWS ARE 3/4" MANUAL MAIN SHUT-OFF VALVE 5" NIPPLE 7-1/2" NIPPLE GROUND JOINT UNION 4" NIPPLE TO GAS SUPPLY 10" NIPPLE ROOF MOUNTING FRAME FIGURE 10 3-1/2" NIPPLE 3" NIPPLE DRIP LEG BOTTOM GAS ENTRY THROUGH THE UNIT ALL ELBOWS ARE 3/4" MULLION BETWEEN 10" NIPPLE GROMMET GROMMET 7-1/2" NIPPLE SOR SECTIONS 5" NIPPLE 4" NIPPLE 4" NIPPLE 7" NIPPLE TO GAS SUPPLY ALTERNATE KNOCKOUTS ROOF MOUNTING FRAME DRIP LEG 3" NIPPLE TO GAS VALVE GROUND JOINT UNION 4" NIPPLE MANUAL MAIN SHUT-OFF VALVE 3-1/2" NIPPLE FIGURE 11 Pressure Test Gas Piping (Gas Units) When pressure testing gas lines, the gas valve must be disconnected and isolated. Gas valves can be damaged if subjected to more than 0.5 psig (3.48kPa). See FIGURE 12. NOTE - Codes may require that manual main shut-off valve and union (furnished by installer) be installed in gas line external to unit. Union must be of the ground joint type. After all connections have been made, check all piping connections for gas leaks. Also check existing unit gas connections up to the gas valve; loosening may occur during installation. Use a leak detection solution or other preferred means. Do not use matches candles or other sources of ignition to check for gas leaks. NOTE - In case emergency shut down is required, turn off the main manual shut-off valve and disconnect main power to unit. These devices should be properly labeled by the installer. PRESSURE TEST GAS LINE MANUAL MAIN SHUT-OFF VALVE GAS VALVE CAP FIGURE 12 CAUTION Some soaps used for leak detection are corrosive to certain metals. Carefully rinse piping thoroughly after leak test has been completed. Do not use matches, candles, flame or othe sources of ignition to check for gas leaks. WARNING Danger of explosion. Can cause injury or product or property damage. Do not use matches, candles, flame or other sources of ignition to check for leaks. Page 9 High Altitude Derate Locate the high altitude conversion sticker in the unit literature bag. Fill out the conversion sticker and affix next to the unit nameplate. High altitude kits are available for field-installation. Refer to TABLE 2 for high altitude adjustments. Altitude Ft.* 2000-4500 4500 and Above TABLE 2 Gas Manifold Pressure See Unit Nameplate Derate 4% / 1000 Ft. above Sea Level *Units installed at 0-2000 feet do not need to be modified. NOTE - This is the only permissible derate for these units. Download Mobile Service App A-Mobile Device Requirements · Android hardware requires 2GB RAM and a 2Ghz core processor. Tablets are supported. · Minimum Android 6.0 (Marshmallow) or higher. Recommend Android 10 and Apple products require iOS version 11 or higher. B-New Installations Once the app is downloaded, refer to the Setup Guide provided with this unit to pair the app to the unit control system. Follow the setup wizard prompts to configure the unit. See FIGURE 13 for the app menu overview. If a mobile device is unavailable or not pairing, refer to the Unit Controller Setup Guide for start-up instructions. Electrical Connections - Power Supply Route field wiring in conduit between bottom power entry disconnect. See FIGURE 14. This does not supersede local codes or authorities having jurisdiction. Do not apply power or close disconnect switch until installation is complete. Refer to start-up directions. Refer closely to unit wiring diagram. Refer to unit nameplate for minimum circuit ampacity and maximum fuse size. 1 - 230/460/575 volt units are factory wired. For 208V supply, disconnect the orange wire (230V) at all control power transformer(s). Reconnect the red wire (208V). Tape the exposed end of the 230V orange wire. 2 - Route power through the bottom power entry area. On gas units or units with electric heat, connect power wiring to TB2. On cooling only units, connect power to F4. If unit contains an optional factory-installed circuit breaker or disconnect switch, connect line voltage to CB10 or S48. See unit wiring diagram. 3 - Connect separate 120v wiring to optional field-powered GFCI outlet. Route field wiring in conduit between bottom power entry and GFCI. See FIGURE 14. For unit-powered GFCI, no additional field wiring is required. MOBILE SERVICE APP MENU OVERVIEW MENU RTU MENU SETUP INSTALL NETWORK INTEGRATION TEST AND BALANCE ALARM HISTORY DATA TRENDING FACTORY RUNTIMES SYSTEM DATA / SENSORS / OUTPUTS SERVICE SETTINGS FIGURE 13 COMPONENT TEST REPORT ADVANCED CONTROL FIRMWARE UPDATE RTU OPTION INSTALL FIELD WIRE ROUTING SIDE ENTRY KNOCKOUTS MAKE-UP BOX OPTIONAL 120V GFI SEAL WATERTIGHT RUN FIELD WIRING IN VIDED CONDUIT BOTTOM POWER ENTRY FIGURE 14 Page 10 Electrical Connections - Control Wiring NOTE - Optional wireless sensors are available for use with this unit. Refer to the instructions provided with each sensor. CAUTION Electrostatic discharge can affect electronic com ponents. Take precautions during unit installation and service to protect the electronic controls. Precautions will help to avoid control exposure to electrostatic discharge by putting the unit, the control and the technician at the same electrostatic potential. Neutralize electrostatic charge by touching hands and all tools on an unpainted unit surface, such as the gas valve or blower deck, before performing any service procedure. A-Thermostat Location Applied to units in default thermostat control mode only. Room thermostat mounts vertically on a standard 2" X 4" handy box or on any non-conductive flat surface. Locate thermostat approximately 5 feet (1524mm) above the floor in an area with good air circulation at average temperature. Avoid locating the room thermostat where it might be affected by: · drafts or dead spots behind doors and in corners · hot or cold air from ducts · radiant heat from sun or appliances · concealed pipes and chimneys B-Control Wiring The Unit Controller will operate the unit from a thermostat or zone sensor based on the System Mode. The default System Mode is the thermostat mode. Refer to the Unit Controller Setup Guide to change the System Mode. Use the mobile service app menu and select Settings > Install. Thermostat Mode 1 - Route thermostat cable or wires from subbase to control area above compressor (refer to unit dimensions to locate bottom and side power entry). IMPORTANT - Unless field thermostat wires are rated for maximum unit voltage, they must be routed away from line voltage wiring. Use wire ties located near the lower left corner of the controls mounting panel to secure thermostat cable. Use18 AWG wire for all applications using remotely installed electro-mechanical and electronic thermostats. 2 - Install thermostat assembly in accordance with instructions provided with thermostat. 3 - Connect thermostat wiring to Unit Controller on the lower side of the controls hat section. 4 - Wire as shown in FIGURE 15 for electromechanical and electronic thermostats. If using other temperature control devices or energy management systems see instructions and wiring diagram provided by manufacturer. IMPORTANT - Terminal connections at the Unit Controller must be made securely. Loose control wire connections may allow unit to operate but not with proper response to room demand. Zone Sensor Mode The Unit Controller will operate heating and cooling based on the Unit Controller internal setpoints and the temperature from the A2 room sensor. An optional Network Control Panel (NCP) can also be used to provide setpoints. A thermostat or return air sensor can be used as a back-up mode. Make room sensor wiring connections as shown in FIGURE 16. C-Hot Gas Reheat Units Only 1 - Install humidity sensor in accordance with instructions provided with sensor. A DDC input may be used to initiate dehumidification instead of a sensor. 2 - Make wiring connections as shown in FIGURE 15 for Thermostat Mode or FIGURE 16 for Zone Sensor Mode. In addition, connect either a humidity sensor or a dehumidification input. See FIGURE 18 or FIGURE 19 for humidity sensor wiring or FIGURE 17 for dehumidification input wiring. 24 VOLT FIELD WIRING IN THERMOSTAT MODE P262 J262C 24 V POWER J297A P297 R 1 A55 10 C 2 B 11 G 3 W1 4 W1 W2 5 W2 12 Y1 6 Y2 7 OCP 8 C 9 10 D FIGURE 15 Page 11 FIELD WIRING IN ZONE SENSOR MODE (Zone Sensor Mode) UNIT CONTROLLER 24VAC SENSOR SENSOR IAQ INPUTS R C AI1 HUM TMP AI2 C R J298 A2 SENSOR FIGURE 16 FIELD WIRING HOT GAS REHEAT UNITS (Using A Dehumidification Switch) J299 7 R DEHUMIDIFICATION SWITCH 8 DI-4 9 C 10 Use 24 VAC (R) from any terminal available on J299-2, -5, or -7. FIGURE 17 Humidity Sensor Cable Applications Wire runs of 50 feet (mm) or less Use two separate shielded cables containing 20AWG minimum, twisted pair conductors with overall shield. Belden type 8762 or 88760 (plenum) or equivalent. Connect both cable shield drain wires to the Unit Controller as shown in FIGURE 18. Wire runs of 150 feet (mm) or less Use two separate shielded cables containing 18AWG minimum, twisted pair conductors with overall shield. Belden type 8760 or 88760 (plenum) or equivalent. Connect both cable shield drain wires to the Unit Controller as shown in FIGURE 18. Wire runs over 150 feet (mm) Use a local, isolated 24VAC transformer such as Lennox cat #18M13 (20VA minimum) to supply power to RH sensor as shown in FIGURE 19. Use two shielded cables containing 20AWG minimum, twisted pair conductors with overall shield. Belden type 8762 or 88760 (plenum) or equivalent. FIELD WIRING HOT GAS REHEAT UNITS (Using A Humidity Sensor With Less Than 150 Ft. Wire Runs) NOT CONNECTED A91 VIN GND DRAIN VO J298A 1 A55 UNIT CONTROLLER P298 R 2 C B 3 AI1 4 C 5 HUM 6 7 TMP D 8 AI2 9 C 10 R NOT CONNECTED UNUSED WIRE FIGURE 18 FIELD WIRING HOT GAS REHEAT UNITS (Using A Humidity Sensor With More than 150Ft. Wire Runs) NOT CONNECTED ISOLATED 24V TRANSFORMER A55 UNIT CONTROLLER A91 VIN DRAIN NOT CONNECTED J298A 1 2 B 3 4 C 5 P298 R C AI1 HUM GND VO 6 7 TMP D 8 AI2 9 C 10 R FIGURE 19 Page 12 Blower Operation Units are equipped with variable speed, direct drive blowers. The supply CFM can be adjusted by changing the percentage of motor output using the Unit Controller settings. Measure the intake air CFM and adjust the RPM% to get design-specified supply air CFM. IMPORTANT Compressor two is the only component that must be checked to ensure proper phasing. Follow "COOLING START-UP" section of installation instructions to ensure proper compressor and blower operation. The Unit Controller checks the incoming power during start-up. If the voltage or phase is incorrect, the Unit Controller will display an alarm and the unit will not start. A-Blower Operation Refer to the Unit Controller Setup Guide to energize blower. Use the mobile service app menu; see: SERVICE > TEST In thermostat control mode, the Unit Controller will stage the blower between low and high speed. In zone sensor control mode, the Unit Controller will vary (VAV) the blower between low and high speed. WARNING 1- Make sure that unit is installed in accordance with the installation instructions and applicable codes. 2- Inspect all electrical wiring, both field and factoryinstalled, for loose connections. Tighten as required. 3- Check to ensure that refrigerant lines do not rub against the cabinet or against other refrigerant lines. 4- Check voltage at disconnect switch. Voltage must be within range listed on nameplate. If not, consult power company and have voltage condition corrected before starting unit. 5- Make sure filters are new and in place before start-up. Initiate blower only (G) demand at thermostat according to instructions provided with thermostat. Unit will cycle on thermostat demand. The following steps apply to applications using a typical electro-mechanical thermostat. 1 - Blower operation is manually set at the thermostat subbase fan switch. With fan switch in ON position, blowers will operate continuously. 2 - With fan switch in AUTO position, the blowers will cycle with demand. Blowers and entire unit will be off when system switch is in OFF position. NOTE - Blower operation mode can also be initiated by the mobile service app. Direct-drive motor may not immediately stop when power is interrupted to the Unit Controller. Disconnect unit power before opening the blower compartment. The Controller's digital inputs must be used to shut down the blower. See Unit Controller manual for operation sequences. B-Blower Access The blower assembly is secured to a sliding frame which allows the blower assembly to be pulled out of the unit. See FIGURE 21. 1 - Loosen the reusable wire tie which secures the controls and high voltage blower wiring to the blower housing. Disconnect the pressure sensor low voltage wire harness. 2 - Remove and retain screws on either side (and on the front for direct drive) of sliding frame. Use the metal handle to pull frame toward outside of unit. 3 - Slide frame back into original position when finished servicing. Reattach the blower wiring in the previous location using the wire tie. Reconnect pressure sensor low voltage wire harness. 4 - Replace retained screws. Page 13 LOCATION OF STATIC PRESSURE READINGS INSTALLATIONS WITH DUCTWORK INSTALLATIONS WITH CEILING DIFFUSERS ROOFTOP UNIT ROOFTOP UNIT RETURN AIR READING LOCATION SUPPLY TURN MAIN DUCT RUN FIRST BRANCH OFF OF MAIN RUN SUPPLY AIR READING LOCATION SUPPLY AIR READING LOCATION FIGURE 20 SUPPLY TURN DIFFUSER DIRECT DRIVE BLOWER ASSEMBLY BLOWER HOUSING RETURN AIR READING LOCATION BLOWER MOTOR SECURED TO THIS SIDE OF HOUSING REMOVE TWO SCREWS ON EACH SIDE TO SLIDE BLOWER OUT OF UNIT INLET GRID FIGURE 21 Page 14 Direct Drive Blower Start-Up The supply CFM can be adjusted by changing the percentage of motor output using the Unit Controller settings Refer to TABLE 3 for menu paths and default settings.. Record any RPM% changes on the parameter settings label located on the inside of the compressor access panel. CAUTION The BLOWER CALIBRATION process starts the indoor blower at operational speeds and moves the economizer damper blades. Before starting this process, replace any access panels and close all unit doors except compressor compartment door. Blower calibration is required only on units that are newly installed or if there is a change in the duct work or air filters after installation. Use the mobile service app to navigate to the SETUP>TEST & BALANCE>BLOWER menu. After the new RPM% values are entered, select START CALIBRATION. The blower calibration status is displayed as a % complete. Upon successful completion, the mobile service app will display CALIBRATION SUCCESS and go back to the blower calibration screen. IMPORTANT - The default value for Cooling Low motor speed is lower than a traditional singe- or two-speed unit. If operating the unit with a 2- or 3-stage controller (2- or 3-stage thermostat, DDC controller, etc.), it is recommended to increase the Cooling Low CFM default value to a suitable level for part load cooling (typically 60% of full load CFM). TABLE 3 DIRECT DRIVE PARAMETER SETTING - 581102-01 Parameter Field Setting Description NOTE - Any changes to Smoke CFM setting must be adjusted before the other CFM settings. Use SETTINGS > RTU OPTIONS > EDIT PARAMETERS = 12 for EBM, 6 for ECM BLOWER SMOKE CFM % Percentage of RPM for blower smoke speed. SETUP > TEST & BALANCE > BLOWER BLOWER HEATING HIGH CFM % Percentage of RPM for blower heating high speed. BLOWER HEATING LOW CFM % Percentage of RPM for blower heating low speed (P volt gas heat only). BLOWER COOLING HIGH CFM % Percentage of RPM for blower cooling high speed. BLOWER COOLING LOW CFM % Percentage of RPM for blower cooling low speed and vent speed for standard static blowers. BLOWER VENTILATION CFM % Percentage of RPM for high static blower ventilation speed. SETUP > TEST & BALANCE > DAMPER BLOWER HIGH CFM DAMPER POS % % Minimum damper position for high speed blower operation. Default 0%. BLOWER LOW CFM DAMPER POS % % Minimum damper position for low speed blower operation. Default 0%. POWER EXHAUST DAMPER POS % % Minimum damper position for low power exhaust operation. Default 50%. SETTINGS > RTU OPTIONS > EDIT PARAMETERS = 216 POWER EXHAUST DEADBAND % % Deadband % for power exhaust operation. Default 10%. SETTINGS > RTU OPTIONS > EDIT PARAMETERS = 10 (Applies to Thermostat Mode ONLY) FREE COOLING STAGE-UP DELAY sec Number of seconds to hold blower at low speed before switching to blower at high speed. Default 300 seconds. Installer - Record any parameter changes under "Field Setting" column. Settings need to be recorded by installer for use when Unit Controller is replaced or reprogrammed. Page 15 BLOWER DATA BLOWER TABLE INCLUDES RESISTANCE FOR BASE UNIT ONLY (NO HEAT SECTION) WITH DRY INDOOR COIL AND AIR FILTERS IN PLACE. FOR ALL UNITS ADD: 1- Wet indoor coil air resistance of selected unit. 2- Any factory installed options air resistance (heat section, Economizer, etc.) 3- Any field installed accessories air resistance (duct resistance, diffuser, etc.) See page 17 for wet coil and option/accessory air resistance data. See page 30 for minimum air volume required for use with optional electric heat. Maximum Static Pressure With Gas Heat - 2.0 in. w.g. Minimum Air Volume Required For Different Gas Heat Sizes: Standard - 2150 cfm; Medium - 2250 cfm; High - 2600 cfm Total Air Volume cfm 0.2 RPM Watts 0.4 RPM Watts Total Static Pressure 0.6 0.8 1.0 RPM Watts RPM Watts RPM Watts 1.2 RPM Watts 1.4 RPM Watts 1750 759 223 864 298 961 359 1049 420 1128 508 1199 607 1260 704 2000 846 271 943 345 1035 410 1117 488 1189 598 1255 704 1313 804 2250 945 303 1030 391 1111 476 1184 577 1247 697 1310 806 1367 905 2500 1035 366 1109 476 1180 583 1245 688 1306 797 1368 903 1426 1008 2750 1113 476 1182 601 1248 715 1310 809 1371 902 1432 1011 1491 1129 3000 1195 596 1261 718 1324 827 1385 922 1444 1024 1503 1146 1559 1279 3250 1282 711 1346 827 1406 935 1464 1044 1521 1167 1576 1306 1629 1460 3500 1372 821 1432 940 1489 1060 1544 1192 1598 1337 1650 1494 1700 1663 3750 1461 949 1517 1081 1571 1221 1624 1373 1675 1532 1725 1700 1773 1875 4000 1549 1109 1602 1256 1653 1413 1703 1576 1753 1743 1801 1916 1847 2091 4250 1637 1298 1687 1458 1735 1625 1784 1795 1831 1966 1877 2139 1923 2310 4500 1724 1510 1772 1678 1818 1851 1864 2023 1910 2195 1955 2365 2000 2530 4750 1811 1738 1856 1910 1901 2083 1946 2254 1990 2423 2034 2587 2079 2746 5000 1897 1973 1941 2144 1985 2314 2028 2480 2071 2644 2114 2805 2158 2959 5250 1983 2205 2026 2373 2069 2538 2111 2699 2153 2860 2195 3017 - - - - - - 5500 2070 2428 2112 2595 2153 2756 2194 2912 - - - - - - - - - - - - - - - - - - 5750 2156 2643 2197 2809 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Total Air Volume cfm 1.6 RPM Watts 1.8 RPM Watts Total Static Pressure - in. w.g. 2.0 2.2 RPM Watts RPM Watts 2.4 RPM Watts 2.6 RPM Watts 1750 1316 793 1373 875 1432 963 1491 1064 1548 1175 1604 1300 2000 1368 894 1425 982 1483 1081 1540 1196 1596 1322 1650 1458 2250 1423 1001 1480 1101 1537 1216 1593 1344 1647 1483 1700 1629 2500 1483 1117 1539 1236 1594 1368 1648 1509 1700 1657 1752 1810 2750 1547 1256 1601 1394 1654 1539 1705 1690 1756 1846 1806 2004 3000 1612 1425 1664 1577 1715 1734 1765 1893 1815 2053 1864 2213 3250 1680 1623 1729 1787 1778 1949 1828 2110 1876 2269 1925 2426 3500 1748 1835 1796 2003 1844 2165 1893 2324 1942 2479 1991 2633 3750 1819 2048 1866 2214 1914 2374 1963 2530 2012 2684 2061 2837 4000 1893 2260 1940 2423 1988 2581 2036 2737 2084 2891 2134 3044 4250 1969 2475 2016 2634 2063 2790 2111 2945 2159 3098 - - - - - - 4500 2046 2689 2093 2844 2140 2998 2187 3153 - - - - - - - - - - - - 4750 2124 2900 2170 3053 - - - - - - - - - - - - - - - - - - - - - - - - 5000 2203 3111 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5250 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 5500 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Page 16 BLOWER DATA FACTORY INSTALLED OPTIONS/FIELD INSTALLED ACCESSORY AIR RESISTANCE - in. w.g. Air Volume cfm Wet Indoor Coil 092, 102 120, 150 Gas Heat Exchanger Standard Medium Heat Heat High Heat Electric Econo- Reheat Heat mizer Coil 1750 0.04 0.04 0.06 0.02 0.02 0.03 0.05 0.02 2000 0.05 0.05 0.07 0.05 0.06 0.03 0.06 0.02 2250 0.06 0.06 0.07 0.07 0.08 0.04 0.08 0.02 2500 0.07 0.07 0.09 0.10 0.11 0.04 0.11 0.03 2750 0.08 0.08 0.09 0.11 0.12 0.05 0.12 0.03 3000 0.10 0.09 0.11 0.12 0.13 0.06 0.13 0.03 3250 0.11 0.10 0.12 0.15 0.16 0.06 0.15 0.04 3500 0.12 0.11 0.12 0.16 0.17 0.09 0.15 0.04 3750 0.14 0.13 0.14 0.19 0.20 0.09 0.15 0.05 4000 0.15 0.14 0.14 0.21 0.22 0.09 0.19 0.05 4250 0.17 0.15 0.14 0.24 0.28 0.13 0.19 0.06 4500 0.19 0.17 0.15 0.26 0.32 0.14 0.22 0.07 4750 0.20 0.18 0.16 0.29 0.37 0.17 0.25 0.07 5000 0.22 0.20 0.16 0.34 0.43 0.20 0.29 0.08 5250 0.24 0.22 0.16 0.37 0.47 0.22 0.32 0.08 5500 0.25 0.23 0.18 0.44 0.54 0.25 0.34 0.09 5750 0.27 0.25 0.19 0.49 0.59 0.31 0.45 0.10 6000 0.29 0.27 0.20 0.54 0.64 0.33 0.52 0.10 Filters MERV 8 MERV 13 MERV 16 0.01 0.03 0.06 0.01 0.03 0.08 0.01 0.04 0.09 0.01 0.05 0.10 0.02 0.05 0.11 0.02 0.06 0.12 0.02 0.06 0.13 0.03 0.07 0.15 0.03 0.08 0.16 0.04 0.08 0.17 0.04 0.09 0.19 0.04 0.09 0.20 0.05 0.10 0.21 0.06 0.10 0.23 0.06 0.11 0.24 0.07 0.12 0.25 0.07 0.12 0.27 0.08 0.13 0.28 Return Air Adaptor Plate 0.00 0.00 0.00 0.00 0.00 0.02 0.02 0.04 0.07 0.09 0.11 0.12 0.16 0.18 0.19 0.22 0.25 0.27 POWER EXHAUST FAN PERFORMANCE Return Air System Static Pressure in. w.g. 0 0.05 0.10 0.15 0.20 0.25 0.30 0.35 Air Volume Exhausted cfm 3175 2955 2685 2410 2165 1920 1420 1200 MINIMUM AIR VOLUME REQUIRED FOR USE WITH OPTIONAL ELECTRIC HEAT Electric Heat kW Minimum cfm 7.5 1750 15 2250 22.5 2250 30 2750 45 2750 60 3500 Page 17 Cooling Start-Up IMPORTANT-The crankcase heater must be energized for 24 hours before attempting to start compressor. Set thermostat so there is no demand to prevent compressors from cycling. Apply power to unit. A-Start-Up Initiate full load cooling operation using the following mobile service app menu path: RTU MENU > SERVICE > COMPONENT TEST > COOLING > COOLING STAGE 1 - Refer to Cooling Operation section for cooling startup. 2 - Units have two refrigerant circuits. See FIGURE 22. 3 - Each refrigerant circuit is charged with R410A refrigerant. See unit rating plate for correct amount of charge. 4 - Refer to Refrigerant Check and Charge section for proper method to check refrigerant charge. REFRIGERANT STAGES TRADITIONAL FIN/TUBE COIL (BOTH FANS ARE ENERGIZED WITH A Y1 DEMAND) CONDENSER COIL STAGE 1 CONDENSER COIL STAGE 2 EVAPORATOR COIL STAGE 2 B4 B5 2 1 FIGURE 22 EVAPORATOR COIL STAGE 1 B-R410A Refrigerant Units charged with R410A refrigerant operate at much higher pressures than R22. The expansion valve and liquid line drier provided with the unit are approved for use with R410A. Do not replace them with components designed for use with R22. R410A refrigerant is stored in a pink cylinder. Manifold gauge sets used with systems charged with R410A refrigerant must be capable of handling the higher system operating pressures. The gauges should be rated for use with pressures of 0-800 on the high side and a low side of 30" vacuum to 250 psi with dampened speed to 500 psi. Gauge hoses must be rated for use at up to 800 psi of pressure with a 4000 psi burst rating. IMPORTANT Mineral oils are not compatible with R410A. If oil must be added, it must be a polyol ester oil. C-Compressor Controls See unit wiring diagram to determine which controls are used on each unit. 1 - High Pressure Switch (S4, S7) The compressor circuit is protected by a high pressure switch which opens at 640 psig + 10 psig (4413 kPa + 70 kPa) and automatically resets at 475 psig + 20 psig (3275kPa + 138 kPa). 2 - Low Pressure Switch (S87, S88) The compressor circuit is protected by a loss of charge switch. Switch opens at 40 psig + 5 psig (276 + 34 kPa) and automatically resets at 90 psig + 5 psig (621 kPa + 34 kPa). 1 - Crankcase Heater (HR1, HR2) Compressors have belly band compressor oil heaters which must be on 24 hours before running compressors. Energize by setting thermostat so that there is no cooling demand, to prevent compressor from cycling, and apply power to unit. 2 - Diagnostic Sensors (RT46-RT49) Four thermistors are located on specific points in the refrigeration circuit. The thermistors provide constant temperature feedback to the Unit Controller to protect the compressor. Thermistors take the place of the freezestat and low ambient pressure switch. Page 18 D-Refrigerant Charge and Check WARNING - Do not exceed nameplate charge under any condition. This unit is factory charged and should require no further adjustment. If the system requires additional refrigerant, reclaim the charge, evacuate the system, and add required nameplate charge. NOTE - System charging is not recommended below 60°F (15°C). In temperatures below 60°F (15°C) , the charge must be weighed into the system. If weighing facilities are not available, or to check the charge, use the following procedure: IMPORTANT - Charge unit in standard cooling mode at full load. 1 - Make sure outdoor coil is clean. Attach gauge manifolds and operate unit at full CFM in cooling mode with economizer disabled until system stabilizes (approximately five minutes). Make sure all outdoor air dampers are closed. Mobile service app: RTU MENU > COMPONENT TEST > COOLING > COOLING STAGE 3 2 - Check each system separately with all stages operating. Compare the normal operating pressures to the pressures obtained from the gauges. Check unit components if there are significant differences. 3 - Measure the outdoor ambient temperature and the suction pressure. Refer to the charging curve to determine a target liquid temperature. NOTE - Pressures are listed for sea level applications. 4 - Use the same thermometer to accurately measure the liquid temperature (in the outdoor section). · If measured liquid temperature is higher than the target liquid temperature, add refrigerant to the system. · If measured liquid temperature is lower than the target liquid temperature, recover some refrigerant from the system. 5 - Add or remove charge in increments. Allow the system to stabilize each time refrigerant is added or removed. 6 - Continue the process until measured liquid temperature agrees with the target liquid temperature. Do not go below the target liquid temperature when adjusting charge. .Note that suction pressure can change as charge is adjusted. 7 - Example: At 95F outdoor ambient and a measured suction pressure of 130psig, the target liquid temperature is 96F. For a measured liquid temperature of 106F, add charge in increments until measured liquid temperature agrees with the target liquid temperature. Page 19 Circuit 1 Circuit 2 65°F Suct (psig) Disc (psig) 101 230 108 233 126 238 147 244 120 236 129 239 147 245 168 252 Circuit 1 120 Circuit 2 TABLE 4 581114-01 LGT/LCT092 Normal Operating Pressures Outdoor Coil Entering Air Temperature 75°F 85°F 95°F Suct (psig) Disc (psig) Suct (psig) Disc (psig) Suct (psig) Disc (psig) 103 266 106 312 108 361 111 268 113 313 116 366 128 271 131 315 133 371 149 275 152 317 154 376 122 273 124 315 126 364 131 275 133 318 135 366 150 281 153 323 155 370 171 287 174 328 177 376 Charging Curves 105°F Suct (psig) Disc (psig) 111 436 119 435 136 433 157 431 128 418 137 420 157 424 179 429 115°F Suct (psig) Disc (psig) 114 514 122 512 139 508 159 505 129 478 139 480 160 484 182 488 Outdoor Temperature (°F) 115° 110 105° 100 95° 90 85° 80 75° 70 65° 60 100 110 120 130 140 150 160 170 180 Suction Pressure (psig) Page 20 Circuit 1 Circuit 2 65°F Suct (psig) Disc (psig) 109 228 117 231 133 239 151 250 124 243 132 249 150 261 170 271 120 Circuit 1 Circuit 2 TABLE 5 581115-01 LGT/LCT102 Normal Operating Pressures Outdoor Coil Entering Air Temperature 75°F 85°F 95°F Suct (psig) Disc (psig) Suct (psig) Disc (psig) Suct (psig) Disc (psig) 111 266 114 312 116 362 119 267 122 312 125 363 137 272 140 314 143 366 155 280 159 319 163 373 126 280 128 327 130 383 134 285 136 331 139 385 153 294 155 337 158 388 173 301 176 341 179 390 105°F Suct (psig) Disc (psig) 118 430 127 427 146 423 166 423 132 448 142 449 161 449 183 448 115°F Suct (psig) Disc (psig) 119 502 129 497 148 490 169 487 135 523 144 522 164 520 186 515 Charging Curves Outdoor Temperature (°F) 115° 110 105° 100 95° 90 85° 80 75° 70 65° 60100 110 120 130 140 150 160 170 180 190 Suction Pressure (psig) Page 21 Circuit 1 Circuit 2 65°F Suct (psig) Disc (psig) 98 234 105 236 122 242 140 249 118 249 127 252 145 261 164 274 Circuit 1 120 Circuit 2 110 TABLE 6 581116-01 LGT/LCT120 Normal Operating Pressures Outdoor Coil Entering Air Temperature 75°F 85°F 95°F Suct (psig) Disc (psig) Suct (psig) Disc (psig) Suct (psig) Disc (psig) 100 274 103 320 106 369 107 275 110 320 113 372 124 279 127 323 130 374 143 285 145 327 149 378 120 286 122 330 124 381 129 288 131 331 133 382 147 295 150 336 153 385 167 307 170 346 173 393 Charging Curves 105°F Suct (psig) Disc (psig) 109 431 116 430 133 429 152 430 126 440 135 439 155 441 176 447 115°F Suct (psig) Disc (psig) 113 496 120 494 137 491 157 491 128 505 138 504 158 504 179 508 Outdoor Temperature (°F) 115° 105° 100 95° 90 85° 80 75° 70 65° 6095 105 115 125 135 145 155 165 175 185 Suction Pressure (psig) Liquid Temperature (F) Page 22 Circuit 1 Circuit 2 65°F Suct (psig) Disc (psig) 100 238 107 240 123 249 137 263 112 264 119 268 132 280 144 297 130 Circuit 1 Circuit 120 2 TABLE 7 581117-01 LGT/LCT150 Normal Operating Pressures Outdoor Coil Entering Air Temperature 75°F 85°F 95°F Suct (psig) Disc (psig) Suct (psig) Disc (psig) Suct (psig) Disc (psig) 103 274 106 317 108 365 111 276 114 318 117 366 127 284 131 325 135 373 143 298 148 338 152 385 115 302 118 345 120 393 122 307 126 350 129 398 136 319 141 363 145 411 150 337 155 381 161 429 Charging Curves 105°F Suct (psig) Disc (psig) 111 420 120 421 138 427 157 439 123 446 132 451 149 464 166 483 115°F Suct (psig) Disc (psig) 113 481 122 482 142 487 161 498 125 503 134 508 153 522 171 542 Outdoor Temperature (°F) 115° 110 105° 100 95° 90 85° 80 75° 70 65° 60100 110 120 130 140 150 160 170 180 Suction Pressure (psig) Page 23 Diagnostic Sensors Units are equipped with four factory-installed thermistors (RT46 - RT49) located on different points on the refrigerant circuit. The thermistors provide the Unit Controller with constant temperature readings of four specific locations on the refrigeration circuit. These temperatures are used as feedback in certain modes of unit operation. In addition, the Unit Controller uses these temperatures to initiate alarms such as loss of condenser or evaporator airflow and loss of charge. Each thermistor must be specifically placed for proper unit operation and to initiate valid alarms. See FIGURE 23 and FIGURE 24 proper locations. THERMISTOR LOCATION - EVAPORATOR COIL RT46, RT47 22J06 BLUE RT47 22J06 YELLOW RT46 FIGURE 23 Page 24 THERMISTOR LOCATION - CONDENSER COIL RT48, RT49 23V50 YELLOW RT48 23V50 BLUE RT49 FIGURE 24 Page 25 DETAILS NOT TO SCALE Gas Heat Start-Up (Gas Units) FOR YOUR SAFETY, READ BEFORE LIGHTING WARNING Electric shock hazard. Can cause injury or death. Do not use this unit if any part has been under water. Immediately call a qualified service technician to inspect the unit and to replace any part of the control system and any gas control which has been under water. WARNING Danger of explosion. Can cause injury or product or property damage. If overheating occurs or if gas supply fails to shut off, shut off the manual gas valve to the appliance before shutting off electrical supply. WARNING Electric shock hazard. Can cause injury or death. Before attempting to perform any service or maintenance, turn the electrical power to unit OFF at disconnect switch(es). Unit may have multiple power supplies. WARNING SMOKE POTENTIAL The heat exchanger in this unit could be a source of smoke on initial firing. Take precautions with respect to building occupants and property. Vent initial supply air outside when possible. BEFORE LIGHTING smell all around the appliance area for gas. Be sure to smell next to the floor because some gas is heavier than air and will settle on the floor. Use only your hand to push in or turn the gas control knob. Never use tools. If the knob will not push in or turn by hand, do not try to repair it, call a qualified service technician. Force or attempted repair may result in a fire or explosion. WARNING Danger of explosion. Can cause injury or death. Do not attempt to light manually. Unit has a direct spark ignition system. This unit is equipped with an automatic spark ignition system. There is no pilot. In case of a safety shutdown, move thermostat switch to OFF and return the thermostat switch to HEAT to reset ignition control. A-Placing Unit In Operation WARNING Danger of explosion and fire. Can cause injury or product or property damage. You must follow these instructions exactly. Gas Valve Operation for Honeywell VR8205Q/VR8305Q and White Rodgers 36H54 (FIGURE 25 and FIGURE 26). WHITE RODGERS 36H54 GAS VALVE INLET PRESSURE TAP Two-Stage MANIFOLD PRESSURE TAP HIGH FIRE ADJUSTMENT LOW FIRE ADJUSTMENT GAS VALVE SWITCH SHOWN IN ON POSITION. FIGURE 25 HONEYWELL VR8205Q/VR8305Q GAS VALVE HIGH FIRE ADJUSTMENT LOW FIRE ADJUSTMENT MANIFOLD PRESSURE TAP INLET PRESSURE TAP GAS VALVE KNOB IS SHOWN IN OFF POSITION. FIGURE 26 1 - Set thermostat to lowest setting. 2 - Turn off all electrical power to appliance. 3 - This appliance is equipped with an ignition device which automatically lights the burner. Do not try to light the burner by hand. 4 - Open or remove the heat section access panel. Page 26 5 - Turn gas valve switch to OFF. See FIGURE 25. On Honeywell VR8305Q gas valves, turn the knob on the gas valve clockwise to OFF. Do not force. See FIGURE 26. 6 - Wait five (5) minutes to clear out any gas. If you then smell gas, STOP! Immediately call your gas supplier from a neighbor's phone. Follow the gas supplier's instructions. If you do not smell gas, go to the next step. 7 - Turn gas valve switch to ON. See FIGURE 25. On Honeywell VR8305Q gas valves, turn the knob on the gas valve counterclockwise to ON. Do not force. See FIGURE 26. 8 - Close or replace the heat section access panel. 9 - Turn on all electrical power to appliance. 10 - Set thermostat to desired setting. 11 - The ignition sequence will start. 12 - If the appliance does not light the first time (gas line not fully purged), it will attempt up to two more ignitions before locking out. 13 - If lockout occurs, repeat steps 1 through 10. 14 - If the appliance will not operate, follow the instructions "Turning Off Gas to Appliance" and call your service technician or gas supplier. Turning Off Gas to Unit 1 - If using an electromechanical thermostat, set to the lowest setting. 2 - Before performing any service, turn off all electrical power to the appliance. 3 - Open or remove the heat section access panel. 4 - Turn gas valve switch to OFF. On Honeywell VR8305Q gas valves, turn the knob on the gas valve clockwise to OFF. Do not force. 5 - Close or replace the heat section access panel. WARNING Danger of explosion and fire. Can cause injury or product or property damage. You must follow these instructions exactly. Heating Operation and Adjustments (Gas Units) A-Heating Sequence of Operation 1 - On a heating demand the combustion air inducer starts immediately. 2 - Combustion air pressure switch proves inducer operation. After a 30-second pre-purge, power is allowed to ignition control. Switch is factory set and requires no adjustment. 3 - Spark ignitor energizes and gas valve solenoid opens. 4 - Spark ignites gas, ignition sensor proves the flame and combustion continues. 5 - If flame is not detected after first ignition trial, ignition control will repeat steps 3 and 4 two more times before locking out the gas valve. 6 - For troubleshooting purposes, an ignition attempt after lock out may be re-established manually. Move thermostat to OFF and return thermostat switch to HEAT position. B-Limit Controls Limit controls are factory-set and are not adjustable. The primary limit is located on the blower deck to the right of the blower housing. C-Heating Adjustment Main burners are factory-set and do not require adjustment. The following manifold pressures are listed on the gas valve. Natural Gas Units - Low Fire - 1.6" w.c. (not adjustable) Natural Gas Units - High Fire - 3.7" w.c. LP Gas Units - Low Fire - 5.5" w.c. (not adjustable) LP Gas Units - High Fire - 10.5" w.c. Electric Heat Start-Up (Cooling Units) Factory or Field-Installed Option Electric heat will stage on and cycle with thermostat demand. Number of stages of electric heat will vary depending on electric heat assembly. See electric heat wiring diagram on unit for sequence of operation. SCR Electric Heat Controller (LCT Units) Optional factory-installed SCR (A38) will provide small amounts of power to the electric heat elements to efficiently maintain warm duct air temperatures when there is no heating demand. The SCR maintains duct air temperature based on input from a field-provided and installed thermostat (A104) and duct sensor (RT20). SCR is located in the electric heat compartment in front of the elements. Use only with a thermostat. Use the instructions provided with the thermostat to set DIP switches as follows: S1 On, S2 Off, S3 Off. Use the instructions provided with the duct sensor to install sensor away from electric element radiant heat and in a location where discharge air is a mixed average temperature. Once power is supplied to unit, zero SCR as follows: 1 - Adjust thermostat (A104) to minimum position. 2 - Use a small screwdriver to slowly turn the ZERO potentiometer on the SCR until the LED turns solid red. 3 - Very slowly adjust the potentiometer the opposite direction until the LED turns off. Page 27 Cooling Operation This is a summary of cooling operation. Refer to the sequence of operation provided in the Engineering Handbook or Service Manual for more detail. NOTE - Free cooling is locked-out during reheat operation. Refer to hot gas reheat start-up and operation section for details. A-Two-Stage Thermostat 1 - Economizer With Outdoor Air Suitable Y1 Demand - Compressors Off Blower Cooling Low Dampers modulate Y2 Demand - Compressors Off Blower Cooling High Dampers Modulate NOTE - If dampers are at maximum open for three minutes, compressor 1 is energized and runs at full load, blower stays on cooling high. 2 - No Economizer or Outdoor Air Not Suitable Y1 Demand - Compressor 1 on Full Load Blower Cooling Low Dampers Minimum Position Y2 Demand - Compressors On Blower Cooling High Dampers Minimum Position B-Room Sensor 1 - Economizer With Outdoor Air Suitable Compressors Off Blower Modulates Dampers modulate NOTE - If dampers are at maximum open for five minutes, compressors are energized and the blower modulates. 2 - No Economizer or Outdoor Air Not Suitable Compressors Modulate Blower Modulates Dampers Minimum Position C-Three-Stage Thermostat 1 - Economizer With Outdoor Air Suitable Y1 Demand - Compressors Off Blower Cooling Low* Dampers Modulate Y2 Demand - Compressors Off Blower Cooling High* Dampers Modulate NOTE - If dampers are at maximum open for three minutes, compressor 1 is energized and runs at full load, blower stays on cooling high. Y3 Demand - Compressors On Blower Cooling High* Dampers Maximum Open Compressors On *In discharge air control (DAC) mode, blower operates to maintain duct static pressure. 2 - Economizer With Outdoor Air Not Suitable Y1 Demand - Compressor 1 On Part Load, Compressor 2 On (in DAC mode, Compressor 2 Off) Blower Cooling Low* Y2 Demand - Compressor 1 On Part Load, Compressor 2 On Blower Cooling Medium* Dampers Minimum Position Y3 Demand - Compressors On (in DAC mode, Compressor 1 on Full Load, Compressor 2 On) Blower Cooling High* Dampers Minimum Position Compressors On *In discharge air control (DAC) mode, blower operates to maintain duct static pressure Page 28 Modulating Hot Gas Reheat Start-Up and Operation General Hot gas reheat units provide a dehumidifying mode of operation. These units contain a reheat coil adjacent to and downstream of the evaporator coil. Reheat coil solenoid valve, L14, routes hot discharge gas from the compressor to the reheat coil. Return air pulled across the evaporator coil is cooled and dehumidified; the reheat coil adds heat to supply air. See FIGURE 27 for reheat refrigerant routing and FIGURE 28 for standard refrigerant routing. L14 Reheat Coil Solenoid Valve When Unit Controller input (Unit Controller J298-5 or J2998) indicates room conditions require dehumidification, L14 reheat valve is energized (Unit Controller J394-1) and refrigerant is routed to the reheat coil. Reheat Setpoint Reheat is factory-set to energize when indoor relative humidity rises above 60% (default). The reheat setpoint can be adjusted by changing mobile service app Settings - Control menu. A setting of 100% will operate reheat from an energy management system digital output. The reheat setpoint can also be adjusted using an optional Network Control Panel (NCP). Reheat will terminate when the indoor relative humidity falls 3% (57% default) or the digital output de-energizes. The reheat deadband can be adjusted at Settings - Control menu. Check-Out Test hot gas reheat operation using the following procedure. 1 - Make sure reheat is wired as shown in wiring section. 2 - Make sure unit is in local thermostat mode. 3 - Select: RTU MENU > SERVICE > COMPONENT TEST > DEHUMIDIFICATION The blower and compressor 1 (reheat) should be operating. DEHUMIDIFIER 1 ON will appear. 4 - Press STOP to discontinue the testing mode. Compressor 1 (reheat) and blower should deenergize. REHEAT MODE REFRIGERANT ROUTING FIGURE 27 Page 29 COOLING MODE REFRIGERANT ROUTING FIGURE 28 Default Reheat Operation TABLE 8 Reheat Operation - Two Cooling Stages - Default T'stat & Humidity Demands Operation Reheat Only Compressor 1 Full Load Reheat ON Blower Low Reheat & Y1 Compressor 1 & 2 Full Load Reheat ON Blower High Compressor 1 & 2 Full Load Reheat & Y1 & Y2 Reheat OFF Blower High *If there is no reheat demand and outdoor air is suitable, free cooling will operate. **If there is no reheat demand and outdoor air is suitable, free cooling and compressor 1 will operate. TABLE 9 Reheat Operation - Three Cooling Stages - Default T'stat & Humidity Demands Operation Reheat Only Compressor 1 Full Load Reheat ON Blower Low Reheat & Y1 Compressor 1 & 2 Full Load Reheat ON Blower Medium Reheat & Y1, Y2 Compressor 1 & 2 Full Load Reheat ON Blower High Reheat & Y1, Y2, Y3 Compressor 1 & 2 Full Load No Reheat OFF Blower High *If there is no reheat demand and outdoor air is suitable, free cooling will operate. **If there is no reheat demand and outdoor air is suitable, free cooling and compressor 1 will operate. Page 30 Service The unit should be inspected once a year by a qualified service technician. CAUTION Label all wires prior to disconnection when servic ing controls. Wiring errors can cause improper and dangerous operation. Verify proper operation after servicing. A-Filters Units are equipped with four 20 X 25 X 2" filters. Filters should be checked monthly and replaced when necessary with filters of like kind and size. Take note of air flow direction marking on filter frame when reinstalling filters. See FIGURE 29. NOTE - Filters must be U.L.C. certified or equivalent for use in Canada. B-Lubrication All motors are lubricated at the factory. No further lubrication is required. C-Burners (Gas Units) Periodically examine burner flames for proper appearance during the heating season. Before each heating season examine the burners for any deposits or blockage which may have occurred. Clean burners as follows: 1 - Turn off both electrical power and gas supply to unit. 2 - Remove burner compartment access panel. 3 - Remove screws securing burner assembly to burner support and remove assembly. See FIGURE 30. Clean as necessary. 4 - Locate the ignitor under the left burners. Check ignitor spark gap with appropriately sized twist drills or feeler gauges. See FIGURE 31. 5 - Check the alignment of the ignitor and the sensor as shown in FIGURE 32 and TABLE 10. REMOVE FILTERS PULL TO REMOVE FILTERS GAS VALVE FIGURE 29 BURNER BOX ASSEMBLY 240KBTUH SHOWN BURNER ASSEMBLY SECURED WITH MULTIPLE SCREWS GAS MANIFOLD FIGURE 30 IGNITOR SPARK GAP SHOULD BE 1/8" (3mm) Page 31 FIGURE 31 Replace burners and screws securing burner. Replace access panel. Restore electrical power and gas supply. Follow lighting instructions attached to unit and use inspection port in access panel to check flame. Dimension A B C TABLE 10 Unit Btuh Input Length - in. (mm) Ignitor Sensor 130K 7-3/4 (197) 11 (279) 180K 5 (127) 5-1/2 (140) 240K 2-1/4 (57) 2-3/4 (70) WARNING Danger of explosion. Can cause injury or death. Do not overtighten main burner mounting screws. Snug tighten only. D-Combustion Air Inducer (Gas Units) A combustion air proving switch checks combustion air inducer operation before allowing power to the gas controller. Gas controller will not operate if inducer is obstructed. Under normal operating conditions, the combustion air inducer wheel should be checked and cleaned prior to the heating season. However, it should be examined periodically during the heating season to establish an ideal cleaning schedule. With power supply disconnected, the condition of the inducer wheel can be determined by looking through the vent opening. Clean combustion air inducer as follows: 1 - Shut off power supply and gas to unit. 2 - Disconnect pressure switch air tubing from combustion air inducer port. 3 - Remove and retain screws securing combustion air inducer to flue box. Remove vent connector. See FIGURE 33. 4 - Clean inducer wheel blades with a small brush and wipe off any dust from housing. Clean accumulated dust from front of flue box cover. 5 - Return combustion air inducer motor and vent connector to original location and secure with retained screws. It is recommended that the combustion air inducer gasket be replaced during reassembly. 6 - Clean combustion air inlet louvers on heat access panel using a small brush. IGNITOR A B C IGNITOR AND SENSOR POSITION TOP VIEW SENSOR A B C 1-3/8" (35mm) SIDE VIEW IGNITOR Gas Flow SIDE VIEW SENSOR Gas Flow 13/16" (21mm) BURNER BOX FIGURE 32 1-3/4" (45mm) 3/8" (10mm) Page 32 HEAT EXCHANGER ASSEMBLY HEAT EXCHANGER TUBE COMBUSTION AIR INDUCER VENT CONNECTOR GAS VALVE BURNER FIGURE 33 E-Flue Passageway and Flue Box (Gas Units) 1 - Remove combustion air inducer assembly as described in section D. 2 - Remove flue box cover. Clean with a wire brush as required. 3 - Clean tubes with a wire brush. 4 - Reassemble the unit. The flue box cover gasket and combustion air inducer gasket should also be replaced during reassembly. F-Evaporator Coil Inspect and clean coil at beginning of each cooling season. Clean using mild detergent or commercial coil cleaner. Flush coil and condensate drain with water taking care not to get insulation, filters and return air ducts wet. G-Supply Air Blower Wheel Annually inspect supply air blower wheel for accumulated dirt or dust. Turn off power before attempting to remove access panel or to clean blower wheel. H-Condenser Coil Clean condenser coil annually with detergent or commercial coil cleaner and inspect monthly during the cooling season. Access panels are provided on front and back of condenser section. J-Needlepoint Bipolar Ionizer The ionizer was designed for low maintenance. The device should be checked semi-annually to confirm the brushes are clean for maximum output. The ionizer is located on the blower deck. See FIGURE 34. BIPOLAR IONIZER IONIZER ASSEMBLY FIGURE 34 Page 33 UVC ASSEMBLY UVC LAMP UVC ASSEMBLY DOOR SWITCH ASSEMBLY SECURED WITH 3 SCREWS FIGURE 35 K-UVC Light When field-installed, use only UVC Light Kit assembly 106882-01 (21A93) with this appliance. Factory-Installed UVC Light When the UVC light is factory installed, the lamp is shipped in a foam sleeve. The lamp is attached to the UVC light assembly on the blower deck. See FIGURE 35. Remove the lamp and install into the UVC light assembly as shown in steps 2 through 11. Annual Lamp Replacement WARNING Personal Burn Hazard. Personal injury may result from hot lamps. During replacement, allow lamp to cool for 10 minutes before removing lamp from fixture. The lamp should be replaced every 12 months, as UVC energy production diminishes over time. 1 - Obtain replacement lamp 101087-01 for your germicidal light model. 2 - Disconnect power to the rooftop unit before servicing the UVC kit. Page 34 3 - Open the blower access door. 4 - Remove the screw in wire tie from the UVC assembly and disconnect the 4-pin connector from the lamp end. 5 - Remove and retain the (3) screws securing the UVC assembly. Carefully slide the complete UVC assembly out through the blower access door. See FIGURE 35. INSTALL LAMP IN HOLDER CLIPS UVC Sub-Assembly BANDS (see Note below) DETAIL A SHEET METAL END STOP LAMP FLANGE 4-PIN CONNECTOR LAMP HOLDER CLIPS (2) NOTE - The bands around the lamp should be evenly spaced as shown in the diagram. FIGURE 36 6 - Allow 10 minutes before touching the lamps. Then, carefully remove the old lamp from the lamp holder clips. 7 - Wear cotton gloves or use a cotton cloth when handling the new lamp. Place the new lamp in the holder clips of the UVC assembly. Verify that the lamp flange at the connector end is sandwiched between the lamp holder clip and the sheet-metal end stop (see FIGURE 36). 8 - Carefully place the UVC assembly on the blower deck. Line up the mounting holes on the UVC assembly with the mounting holes on the blower deck See FIGURE 35. Use the retained screws provided to attach the UVC assembly in place. 9 - Close the blower access door. 10 - Reconnect power to the rooftop unit. 11 - Open the filter access door and look through the view port in the triangular sheet-metal panel to verify that the UVC light is on. If UVC lamp does not come on: 1 - Check Power Wiring: Disconnect 1/4" QC (quick connects) of the UVC cable near the UVC assembly. With Power ON, use multimeter to test 110-230V at the 1/4"QC quick connects from the control panel. 2 - Check Lamp: Carefully remove the UVC assembly out of the rooftop unit. Use multimeter to test for continuity across each pair of pins at each end of the lamp. 3 - Check Lamp Installation: Make sure that lamp's pins snap properly into the lamp holder. LED(s) not illuminated Power status LED not lit - Check that the lamp unit is connected to the proper power source and is wired correctly. Lamp status LED(s) not lit - 1 - Check that lamp 4-pin connectors are properly engaged. 2 - Ohm-check across the lamp pins to check for continuity of lamp filaments (see FIGURE 38). Troubleshooting charts are provided to aid in determining the cause of any problems encountered (FIGURE 37 and FIGURE 38). Lamp Disposal Hg-LAMP Contains Mercury - Manage in accordance with local, state and federal disposal laws. Refer to www. lamprecycle.org or call 800-953-6669. Proper Clean-up Technique in Case of Lamp Breakage Wear protective gloves, eye wear and mask. Sweep the broken glass and debris into a plastic bag, seal the bag, and dispose of properly. Contact your local waste management office for proper disposal. Do not use a vacuum cleaner. Do not incinerate. Maintenance · For all maintenance, contact a qualified HVAC tech- nician. · Read the maintenance instructions before opening unit panels. · Unintended use of the unit or damage to the unit housing may result in the escape of dangerous UVC radiation. UVC radiation may, even in small doses, cause harm to the eyes and skin. · Do not operate units that are obviously damaged. · Do not discard the triangular UVC light shield or any barriers with an ultraviolet radiation symbol. · Do not override the door interlock switch that interrupts power to the UVC light. · Do not operate the UVC light outside of the unit. Page 35 WARNING Ultraviolet (UVC) Radiation hazard. Any exposure will cause significant eye damage and may cause skin damage. DO NOT look into UVC light source. Access panels must be in place during appliance operation. UVC LIGHT TROUBLESHOOTING - POWER UVC LAMP NOT OPERATING POWER LED LIT? NO YES CHECK LAMP LEDS DONE YES NO LAMP LEDS LIT? USE MULTIMETER TO TEST 110-230V AT BALLAST INPUT LEADS CORRECT VOLTAGE PRESENT? NO YES CHECK POWER LEDS FIRST TURN THE POWER OFF; CHECK THE WIRING TURN POWER BACK ON GO TO LAMP LED TROUBLESHOOTING POWER LED YES LIT NOW? NO FIGURE 37 REPLACE BALLAST LAMP LEDS NOT LIT UVC LIGHT TROUBLESHOOTING - LAMP FIRST TURN THE POWER OFF. BE SURE THAT THE 4-PIN CONNECTORS FOR ALL THE LAMPSEANRGEAGPREO.DPERLY TURN POWER ON; CHECK LAMP LEDS DETAIL A CALL LENNOX TECH SUPPORT 1-800-453-6669 NO DONE LAMPS BLACK ON ENDS? YES NO YES LAMP LEDS LIT? CHECK FOR CONTINUITY TWO PAIR, PIN TO PIN ON EACH PAIR (SEE DETAIL A) CONTINUITY YES PRESENT? NO REPLACE LAMPS; TURN POWER ON YES LAMP LEDS LIT? NO BANDS AROUND LAMP YES INTACT? NO BANDS NOTE - CHECK FOR CONTINUITY ON THE SETS OF PINS CLOSEST TOGETHER CHECK FOR CONTINUITY DETAIL B FIGURE 38 Page 36 Field-Installed Accessories When field-installing the following accessories, refer to the latest online installation instruction. Accessory Economizer Outdoor Air Damper Electric Heat Smoke Detector TABLE 11 Instruction # 507227-XX 506340-XX 507250-XX 506437-XX Factory Unit Controller Settings Use the mobile service app to adjust parameters; menu paths are shown in each table. Refer to the Unit Controller manual provided with each unit. TABLE 12 through TABLE 14 show control options. When applicable, record field-specific information on the label located inside the compressor access panel. When field installing optional kits and accessories, the Unit Controller must be configured to identify the option before it will function. Refer to FIGURE 39 and FIGURE 40 to determine whether the Unit Controller configuration I.D. must change. To configure the option, use RTU MENU > SETUP > INSTALL menu path. Press NEXT until CONFIGURATION ID 1 or 2 appears depending on the option installed. Change the appropriate character in the configuration I.D. For example, when an economizer is installed using a single enthalpy sensor, change configuration I.D. 1, the second character, to "S". TABLE 12 581024-01 Units With Hot Gas Reheat RTU Menu > Settings "RTU Options" > Dehumidifier Param- Factory Field eter Setting Setting Description 105 7 Factory Setting 7: Reheat mode en abled without prerequisite conditions. Controlled by RH sensor (A91) con nected to input A55_P298_5 and set point set at parameter 106 (default 60%). TABLE 13 581037-01 Units With LonTalk Settings Use menu RTU Menu > Network Integration > Network Setup Wizard > Set "LONTALK" TABLE 14 581038-01 Units With BACnet Settings RTU Menu > Network Integration > Network Setup Wizard > BACnet MS/TP > See BACnet MAC Address BACNET MAC ADDRESS: Units With Room Sensor, CPC/LSE Gateway Settings RTU Menu > Network Integration > Network Setup Wizard > SBUS > Set SBUS Address LCONN ADDRESS: Page 37 Configuration ID 1 1 2 3 4 5 6 7 8 Humiditrol [1] Not Installed = N Humiditrol Installed = H Unconfigured = U Economizer [2] Not Installed = N Motorized Outdoor Air Damper Only = M Economizer - Temperature = T Economizer Global = G Economizer - Single Enthalpy = S Economizer - Dual Enthalpy = D Unconfigured = U Power Exhaust [3] Not Installed = N Single-Stage = S Dual-Stage = D Unconfigured = U Power Exhaust Control 4] Not Installed = N Damper Position = A A34 Pressure Sensor = C [8] Outdoor Air Velocity Control N = Not applicable (for future use) L = Outdoor Air Control Installed with A24 Sensor set for low range. M = Outdoor Air Control Installed with A24 Sensor set for medium range. H = Outdoor Air Control Installed with A24 Sensor set for high range. [7] System Blower Sub-type N = Not Applicable. B = VFD Belt Drive Blower (MODBUS). H = Direct Drive Blower (MODBUS). L = ECM Direct Drive Blower (PWM). U = Unconfigured. D = Direct Drive Blower. [6] Blower Variable Frequency Drive Bypass N = Not Installed A = Automatic Bypass M = Manual Bypass U = Electronic Bypass Field Unconfigured [5] Network Module N = Not Installed L = LonTalk (Lennox) FIGURE 39 Page 38 Configuration ID 2 1 2 3 4 5 6 7 8 9 10 Air Flow Proving [1] Switch (S52) Not Installed = N Installed on M4 = C Installed on DDC Controller = D Dirty Filter Switch (S27) [2] Not Installed = N Installed on M4 = C Installed on DDC Controller = D Overflow Switch (S149 / S179) [3] Not Installed = N Installed = Y Reserved [4] Reserved = N [10] Reserved N = Reserved [9] Electric Heat (Field-Installed) N = Not Installed Y = Installed [8] Load Shedding N = Not Installed G = Global (P297 - pin 9) 2 = Installed on DI-2 3 = Installed on DI-3 [7] Zone Bypass Damper N = Not Installed Y = Installed Phase/Voltage Detection * [5] N = Not Installed 1 = Enabled Internal (Lennox) 2 = External (A42) Phase Detection on DI-2 3 = External (A42) Phase Detection on DI-3 * When phase detection and voltage monitoring is enabled and wired incorrectly, the system will go into demand hold status and restart after six minutes. [6] IAQ Options N = Not Installed 1 = UV Lamp Installed 2 = Bipolar Ionizer Installed 3 = UV Lamp and Bipolar Ionizer Installed 4 = Wireless IAQ Filter Sensors 5 = UV Lamp and Wireless IAQ Filter Sensors Installed 6 = Bipolar Ionizer and Wireless IAQ Filter Sensors Installed 7 = UV Lamp and Bipolar Ionizer and Wireless IAQ Filter Sensors Installed FIGURE 40 Page 39 START-UP REPORT Job Name:___________________________________ Inspections and Checks Store No.___________Start-Up Date:______________ Damage? Yes No R22 R410A Address:_____________________________________ If yes, reported to:____________________________ City:______________________________State:______ Start-Up Contractor:____________________________ Technician:___________________________________ Model No.:___________________________________ Serial No.:____________________________________ RTU No.:________ Catalog No.:__________________ Verify factory and field-installed accessories. Check electrical connections. Tighten if necessary. Supply voltage: L1-L2______L1-L3_____L2-L3_____ If unit contains a 208-230/240 volt transformer: Check primary transformer tap Transformer secondary voltage: __________ Cooling Checks Compressor Rotation Ambient Temp.________Return Air Temp.________ Supply Air Temp.________ Compressor Amps Compressor Volts Pressures Condenser Fan Amps CC Heater Amps L1 L2 L3 L1-L2 L1-L3 L2-L3 Disch. Suct. L1 L2 L3 L1 1 2 3 4 Blower Checks Pulley/Belt Alignment Set Screws Tight Blower Rotation Belt Tension Nameplate Amps:_________ Volts:_______________ Motor Amps L1_________ L2_________ L3_________ Volts L1-L2_____________ L1-L3_____________ L2-L3_____________ Heating Checks - Gas Fuel type: Nat. LP Inlet Pressure:_____in. w.c. Return Air Temp.:______ Supply Air Temp.:_____ Altitude:____________ Primary Limits Operate: CO2%: Gas Valve GV1 GV2 Manifold Pressure Low Fire High Fire Control Type Heating Checks - Electric Return Air Temp.:______ Supply Air Temp.:______ Limits Operate: Amps L1 L2 L3 L1 L2 L3 1 10 2 11 3 12 4 13 5 14 6 15 7 16 8 17 9 18 Accessory Checks Power Exhaust Amps 1 _____________ 2 ____________ None Min. Pos. Economizer Operation Motor travel full open/close Page 40Adobe PDF Library 17.0 Adobe InDesign 19.0 (Windows)