Modine Manufacturing DBP, DCP Service Manual

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5-565.1

5H080644A

November, 2009

INSTALLATION AND SERVICE MANUAL

gas-fired indoor power vented duct furnace/make-up air units

models DBP/DCP

9900100

All models approved for use in California by the CEC

FOR YOUR SAFETY

IF YOU SMELL GAS:

1. Open windows.

2. Don’t touch electrical switches.

3. Extinguish any open flame.

4. Immediately call your gas supplier.

WARNING

Improper installation, adjustment, alteration, service or maintenance can cause property damage, injury or death, and could cause exposure to substances which have been determined by various state agencies to cause cancer, birth defects or other reproductive harm. Read the installation, operating and maintenance instructions thoroughly before installing or servicing this equipment.

CAUTION

To prevent premature heat exchanger failure do not locate ANY gas-fired units in areas where chlorinated, halogenated, or acid vapors are present in the atmosphere.

FOR YOUR SAFETY

The use and storage of gasoline or other flammable vapors and liquids in open containers in the vicinity of this appliance is hazardous.

IMPORTANT

The use of this manual is specifically intended for a qualified installation and service agency. A qualified installation and service agency must perform all installation and service of these appliances.

Inspection on Arrival

1. Inspect unit upon arrival. In case of damage, report it immediately to transportation company and your local factory sales representative.

Check rating plate on unit to verify that power supply meets available electric power at the point of installation.

3. Inspect unit upon arrival for conformance with description of product ordered (including specifications where applicable).

PLEASE BE SURE TO LEAVE IT WITH THE OWNER WHEN YOU LEAVE THE JOB.

THIS MANUAL IS THE PROPERTY OF THE OWNER.

SPECIAL PRECAUTIONS / TABLE OF CONTENTS

SPECIAL PRECAUTIONS

THE INSTALLATION AND MAINTENANCE INSTRUCTIONS IN THIS MANUAL MUST BE FOLLOWED TO PROVIDE SAFE, EFFICIENT AND TROUBLE-FREE OPERATION. IN ADDITION, PARTICULAR CARE MUST BE EXERCISED REGARDING THE SPECIAL PRECAUTIONS LISTED BELOW. FAILURE TO PROPERLY ADDRESS THESE CRITICAL AREAS COULD RESULT IN PROPERTY DAMAGE OR LOSS, PERSONAL INJURY, OR DEATH. THESE INSTRUCTIONS ARE SUBJECT TO ANY MORE RESTRICTIVE LOCAL OR

NATIONAL CODES.

HAZARD INTENSITY LEVELS

1. DANGER: Indicates an imminently hazardous situation which, if not avoided, WILL result in death or serious injury.

2. WARNING: Indicates a potentially hazardous situation which, if not avoided, COULD result in death or serious injury.

3. CAUTION: Indicates a potentially hazardous situation which, if not avoided, MAY result in minor or moderate injury.

4. IMPORTANT: Indicates a situation which, if not avoided, MAY result in a potential safety concern.

dANGER

Appliances must not be installed where they may be exposed to a potentially explosive or flammable atmosphere.

WARNING

1. Gas fired heating equipment must be vented - do not operate

unvented.

2. A built-in power exhauster is provided - additional external

power exhausters are not required or permitted.

3. If you are replacing an existing heater, it may be necessary to

resize the venting systems. Improperly sized venting systems can result in vent gas leakage or the formation of condensate. Refer to the National Fuel Gas Code ANSI Z223.1 or CSA B149.1 latest edition. Failure to follow these instructions can result in injury or death.

4. Under no circumstances should two sections of double wall

vent pipe be joined together within one horizontal vent system due to the inability to verify complete seal of inner pipes.

5. All field gas piping must be pressure/leak tested prior to

operation. Never use an open flame. Use a soap solution or equivalent for testing.

6. Gas pressure to appliance controls must never exceed 14"

W.C. (1/2 psi).

7. Disconnect power supply before making wiring connections

to prevent electrical shock and equipment damage.

8. All appliances must be wired strictly in accordance with

wiring diagram furnished with the appliance. Any wiring different from the wiring diagram could result in a hazard to persons and property.

9. To reduce the opportunity for condensation, the minimum

sea level input to the appliance, as indicated on the serial plate, must not be less than 5% below the rated input, or 5% below the minimum rated input of duel rated units.

10. Ensure that the supply voltage to the appliance, as indicated

on the serial plate, is not 5% greater than the rated voltage.

11. Any original factory wiring that requires replacement must

be replaced with wiring material having a temperature rating of at least 105°C.

12. When servicing or repairing this equipment, use only factory-

approved service replacement parts. A complete replacement parts list may be obtained by contacting Modine Manufacturing Company. Refer to the rating plate on the appliance for complete appliance model number, serial number, and company address. Any substitution of parts or controls not approved by the factory will be at the owners risk.

CAUTION

1. Purging of air from gas supply line should be performed as described in ANSI Z223.1 - latest edition “National Fuel Gas Code”, or in Canada in CAN/CGA-B149 codes.

2. Do not attempt to reuse any mechanical or electronic ignition controllers which has been wet. Replace defective controller.

3. Ensure that the supply voltage to the appliance, as indicated on the serial plate, is not 5% less than the rated voltage.

1. To prevent premature heat exchanger failure, do not locate ANY gas-fired appliances in areas where corrosive vapors (i.e. chlorinated, halogenated or acid) are present in the atmosphere.

2. To prevent premature heat exchanger failure, the input to the appliance, as indicated on the serial plate, must not exceed the rated input by more than 5%.

3. To prevent premature heat exchanger failure, observe heat exchanger tubes by looking at the heat exchanger through the field installed access openings in connecting ductwork in cooling package units or the unit access doors in blower package units. If the bottom of the tubes become red while blower and duct furnace are in operation, check to be sure the blower has been set to the proper rpm for the application. Refer to page 15 for Blower Adjustments.

4. Start-up and adjustment procedures should be performed by a qualified service agency.

5. To check most of the Possible Remedies in the troubleshooting guide listed in Table 50.1, refer to the applicable sections of the manual.

Table of Contents

Inspection on Arrival..................................1

Special Precautions ..................................2

SI (Metric) Conversion Factors..........................3

Unit Location........................................3

Combustible Material and Service Clearances ..........3

Unit Lifting and Unit Mounting ..........................4

Duct Installation .....................................5

Unit Installation......................................6

Venting ........................................6

Gas Connections................................ 8

Electrical Connections............................ 9

Cooling Coil Specifications and Installation........... 10

Start-Up Procedure................................. 12

Pilot Burner and Main Burner Adjustment .............13

Blower Adjustment.............................. 15

Lubrication Recommendations .................... 15

Damper Linkage Adjustment...................... 15

Control Operating Sequence...................... 15

Options .......................................... 18

General Performance Data........................... 26

Unit Selection ..................................... 28

Blower Performance Data ........................... 30

Blower Sheave Assembly Data ....................... 34

Electrical Data .................................... 38

Motor Data ....................................... 38

Dimensions Unit ................................... 43

Weights.......................................... 47

Maintenance...................................... 48

Service & Troubleshooting ........................... 50

Model Designations ................................ 52

Start-Up Checklist.................................. 54

Model Nomenclature ............................... 55

Commercial Warranty......................... Back Page

IMPORTANT

5-565.12

SI (METRIC) CONVERSION FACTORS / UNIT LOCATION

Access

Slide

SI (METRIC) CONVERSION FACTORS

Table 3.1

To Convert Multiply By To Obtain

"W.C. 0.24 kPa psig 6.893 kPa °F (°F-32) x 0.555 °C inches 25.4 mm feet 0.305 meters CFM 0.028 m3/min

To Convert Multiply By To Obtain

CFH 1.699 m3/min Btu/ft3 0.0374 mJ/m pound 0.453 kg Btu/hr 0.000293 kW/hr gallons 3.785 liters psig 27.7 "W.C.

UNIT LOCATION

dANGER

Appliances must not be installed where they may be exposed to a potentially explosive or flammable atmosphere.

IMPORTANT

To prevent premature heat exchanger failure, do not locate ANY gas-fired appliances in areas where corrosive vapors (i.e. chlorinated, halogenated or acid) are present in the atmosphere.

Location Recommendations

1. When locating the furnace, consider general space and heating requirements, availability of gas and electrical supply, and proximity to vent locations.

2. Unit must be installed on the positive pressure side of the circulating blower.

3. Be sure the structural support at the unit location site is adequate to support the weight of the unit. For proper operation the unit must be installed in a level horizontal position.

4. Do not install units in locations where the flue products can be drawn into the adjacent building openings such as windows, fresh air intakes, etc.

5. Be sure that the minimum clearances to combustible materials and recommended service clearances are maintained. Units are designed for installation on noncombustible surfaces with the minimum clearances shown in Figure 3.1 and Tables 3.2 and 3.3.

6. Units installed downstream of refrigeration systems, or exposed to inlet air temperatures of 40°F or less, may experience condensation, therefore, provisions should be made for disposal of condensate. Means have been provided in the bottom pan of the unit to accommodate a condensate drain line connection flange.

7. When locating units, it is important to consider that the exhaust vent piping must be connected to the outside atmosphere.

8. In garages or other sections of aircraft hangars such as offices and shops that communicate with areas used for servicing or storage, keep the bottom of the unit at least 7' above the floor unless the unit is properly guarded to provide user protection from moving parts. In parking garages, the unit must be installed in accordance with the standard for parking structures ANSI/NFPA 88A, and in repair garages the standard for repair garages NFPA #88B. In Canada, installation of heaters in airplane hangars must be in accordance with the requirements of the enforcing authority, and in public garages in accordance with the current CAN/CGA-B149 codes.

9. Do not install units in locations where gas ignition system is exposed to water spray, rain, or dripping water.

Figure 3.1 - Combustible Material and Service

Clearances

➀ A 3'' minimum clearance to combustible material is required from the vent collar.

Table 3.2 - Combustible Material Clearances

Model Access Size Side (A) Side (B) (C) (D)

75-175 12" 1" 3" 2"

200-400 12" 2" 3" 2"

Non-Access

Top Bottom

Table 3.3 - Recommended Service Clearances

Model Access Non-Access Top Bottom Size Side (A) Side (B) (C) (D)

75 18" 6" 10" 0" 100/125 20" 6" 10" 0" 150/175 25" 6" 10" 0" 200/225 27" 6" 10" 0" 250/300 30" 6" 10" 0" 350/400 41" 6" 10" 0"

Combustion Air Requirements

Units installed in tightly sealed buildings or confined spaces must be provided with two permanent openings, one near the top of the confined space and one near the bottom. Each opening should have a free area of not less than one square inch per 1,000 BTU per hour of the total input rating off all units in the enclosure, freely communicating with interior areas having, in turn adequate infiltration from the outside. For further details on supplying combustion air to a confined (tightly sealed) space or unconfined space, see the National Fuel Gas Code ANSI Z223.1 of CAN/CGA B149.1 or .2 Installation Code, latest edition.

Sound and Vibration Levels

All standard blower mechanical equipment generates some sound and vibration that may require attenuation. Libraries, private offices and hospital facilities will require more attenuation, and in such cases, an acoustical consultant may be retained to assist in the application. Locating the equipment away from the critical area is desirable within ducting limitations. Generally, a unit should be located within 15 feet of a primary support beam. Smaller deflections mean lesser vibration and

noise transmission.

5-565.1 3

UNIT LOCATION/UNIT LIFTING/UNIT MOUNTING

5/8 Dia. (4)

BLOWER SECTION

DOOR

ELECTRICAL

SECTION

DOOR

DUCT

FURNACE

3/4" SUSPENSION

RODS (BY OTHERS)

(2) 3/4" NUTS & LOCKWASHER

(1) 3/4" NUT &

LOCKWASHER

UNIT LIFTING

All standard blower system units are shipped fully crated with skid supports below the unit. The unit may be lifted from the bottom by means of a fork lift or other lifting device only if the shipping support skids are left in place. DO NOT attempt to lift the unit from the bottom unless the shipping skid supports are still in place. When lifting units, make sure the load is balanced. All extended cabinet systems are shipped without a crate and cannot be lifted with a fork truck. Use a crane or other overhead lifting device in conjunction with the lifting holes (refer to page 45 for base rail lifting hole locations) for safe unit relocation. If the unit must be lifted from the bottom for final installation of the unit be sure to properly support the unit over its entire length to

prevent damage.

UNIT MOUNTING

Be sure the method of unit support (suspension or floor mounting) is adequate to support the weight of the unit (see Weights for base unit and factory installed option weights). For proper operation, the unit must be installed in a level horizontal position. Combustible material and service clearances as specified in Figure 3.1 and Tables 3.2 and 3.3 must be strictly maintained. To assure that flames are directed into the center of the heat exchanger tubes, the unit must be level in a horizontal position. Use a spirit level to ensure that the unit is suspended

or floor mounted correctly.

Unit Suspension

3/4" diameter suspension hanging locations are provided in the base rail assembly of the unit. Refer to Figure 45.1 for Suspension Hanging Locations and Figure 4.1 demonstrates how the unit should be suspended and the suspension rods fastened to the unit base rail. If required, vibration isolators may

be added.

Figure 4.1 - Unit Suspension Method

Floor Mounted Units

For floor installations, the floor structure must be adequately designed to support the live weight load of the unit and any other required support structure. Additional reinforcement should be provided, if necessary. The floor should include threaded 5/8inch anchor bolts spaced according to Figure 4.2, for securing the unit in place. Anchor bolts should extend at least 1-1/2" above the surface of the floor to allow clearance for mounting washers, nuts and bolts (mounting washers, nuts, and bolts by others).

Figure 4.2 - Floor Mounted Units

Model Blower Type DBP Units DCP Units All Units DBP Units

Size (Digit 16) (A) (A) (B) (C)

75 All 86.27 115.48 33.85 -

100/25 All 86.37 115.48 36.36 -

150/175 All 86.37 115.48 40.61 -

200/225 All 86.37 115.48 42.71 -

250/300 E,F,G, or H 86.37 115.48 45.75 -

250/300 I,J, or K 112.12 151.34 45.75 -

350/400 E,F,G or H 86.37 115.48 57.27 -

350/400 I,J, or K 122.2 151.34 57.27 -

500/600 G or H 119.52 - 45.75 33.5

500/600 I,J, or K 155.38 - 45.75 33.5

700/800 G or H 119.52 - 57.27 33.5

700/800 I,J,K, or L 155.37 - 57.27 33.5

840/960 I,J,K, or L 184.61 - 57.27 62.73

Standard blower cabinet shown

5-565.14

DUCT INSTALLATION

*DIMENSION "B" SHOULD NEVER BE LESS THAN 1/2 OF DIMENSION "A".

AIR

FLOW

SIDE VIEW

PROVIDE LEAK TIGHT ACCESS PANELS IN SIDE OF DISCHARGE DUCT FOR HEAT EXCHANGER INSPECTION

*DIMENSION "B" SHOULD NEVER BE LESS THAN 1/2 OF DIMENSION "A".

AIR

FLOW

PROVIDE LEAK TIGHT ACCESS PANELS IN SIDE OF DISCHARGE DUCT FOR HEAT EXCHANGER INSPECTION

TOP VIEW

12" MINIMUM

3" MINIMUM

TURNING VANES

3" MAXIMUM

3" MINIMUM

TURNING VANES

3" MAXIMUM

12" MINIMUM

DUCT INSTALLATION

Furnace discharge duct connection

1. The furnace discharge is designed to accept straight ductwork. (See Figure 5.1.) Provide an airtight seal between the ductwork and the furnace. Seams with cracks in the ductwork should be caulked and/or taped and be of permanent type. All duct connections MUST be airtight to prevent air leakage.

2. Provide removable access panels on the downstream side of the ductwork. (See Figure 5.1.) This opening should be large enough to view smoke or reflect light inside the casing to indicate leaks in the heat exchanger and to check for hot spots on heat exchangers due to poor air distribution or lack of sufficient air (CFM).

Figure 5.1 - Furnace Discharge Duct Connection

Blower section and cooling cabinet discharge duct connections

The blower section back and bottom and cooling cabinet section discharge are designed to accept 90° flanged ductwork. (See Figure 5.3.) Provide an airtight seal between the ductwork and the unit. Seams with cracks in the ductwork should be caulked and/or taped and be of permanent type. All duct connections MUST be airtight to prevent air leakage.

Figure 5.3 - Blower Section and Cooling Cabinet Discharge Duct Connections

1/2"

DUCTWORK WITH 90° 1/2" FLANGE

BLOWER OR COOLING COIL SECTION

3. Provide uniform air distribution over the heat exchanger. Use turning vanes where required to obtain uniform air distribution. (See Figure 5.2).

Figure 5.2 - Recommended Field Installed Discharge Duct Configurations for Blower Package Units

5-565.1 5

INSTALLATION

Venting

WARNING

1. Gas fired heating equipment must be vented - do not operate unvented.

2. A built-in power exhauster is provided - additional external power exhausters are not required or permitted.

3. If you are replacing an existing heater, it may be necessary to resize the venting systems. Improperly sized venting systems can result in vent gas leakage or the formation of condensate. Refer to the National Fuel Gas Code ANSI Z223.1 or CSA B149.1 latest edition. Failure to follow these instructions can result in injury or death.

4. Under no circumstances should two sections of double wall vent pipe be joined together within one horizontal vent system due to the inability to verify complete seal of inner pipes.

NOTE: A vent is the vertical passageway used to convey flue gases from the unit or the vent connector to the outside atmosphere. A vent connector is the pipe which connects the unit to a vent or chimney. Vent connectors serving Category I appliances shall not be connected into any portion of mechanical draft systems operating under positive pressure.

General Venting Instructions

1. Installation of venting must conform with local building codes, or in the absence of local codes, with the National Fuel Gas Code, ANSI Z223.1 (NFPA 54) - Latest Edition. In Canada, installation must be in accordance with CAN/CGA-B149.1 for natural gas units and CAN/CGA-B149.2 for propane units.

2. All vertically vented units are Category I. All horizontally vented units are Category III. The installation must conform to the requirements from Table 6.2 in addition to those listed below.

3. For units vented as Category I, refer to Table 6.1 for vent sizing. Vent sizing for units vented as Category III are covered in a later section on page 7. Do not use a vent pipe smaller than the size of the outlet or vent transition of the appliance. The pipe should be suitable corrosion resistant material. Follow the National Fuel Gas Code for minimum thickness and composition of vent material. The minimum thickness for connectors varies depending on the pipe diameter.

Table 6.1 - Vertical Category I Vent Sizing Requirements

Vent Connector

Model Size

75-125

150-175 4" 5" ➀

200 6" 6"

225-400

➀ Requires a 4" to 5" adapter for the larger vent pipe diameter.

4. For Category I vent systems limit length of horizontal runs to 75% of vertical height. Install with a minimum upward slope from unit of 1/4 inch per foot and suspend securely from overhead structure at points no greater than 3 feet apart. For best venting, put vertical vent as close to the unit as possible. A minimum of 12" straight pipe is recommended from the power exhauster outlet before turns in the vent system. Fasten individual lengths of vent together with at least three corrosion-resistant sheet-metal screws.

5. It is recommended that vent pipes be fitted with a tee with a drip leg and a clean out cap to prevent any moisture in the vent pipe from entering the unit. The drip leg should be inspected and cleaned out periodically during the heating season.

6. The National Fuel Gas Code requires a minimum clearance of 6 inches from combustible materials for single wall vent pipe. The minimum distance from combustible materials is based on the combustible material surface not exceeding 160°F. Clearance from the vent pipe (or the top of the unit) may be required to be greater than 6 inches if heat damage other than fire (such as material distortion or discoloration) could result.

Diameter

4" 4"

6” 6”

Minimum Vent Pipe

Diameter

7. Avoid venting through unheated space. When venting does pass through an unheated space, insulate runs greater than 5 feet to minimize condensation. Inspect for leakage prior to insulating and use insulation that is noncombustible with a rating of not less than 350°F. Install a tee fitting at the low point of the vent system and provide a drip leg with a clean out cap as shown in Figure 7.1.

Table 6.2 - ANSI Venting Requirements

Appliance Venting Category Description Requirements

I Negative vent pressure Follow standard venting Non-condensing requirements.

II Negative vent pressure Condensate must be Condensing drained.

III Positive vent pressure Vent must be gastight. Non-condensing

IV Positive vent pressure Vent must be liquid and Condensing gastight. Condensate must be drained.

8. When the vent passes through a combustible wall or floor, a metal thimble 4 inches greater than the vent diameter is necessary. If there is 6 feet or more of vent pipe in the open space between the appliance and where the vent pipe passes through the wall or floor, the thimble need only be 2 inches greater than the diameter of the vent pipe. If a thimble is not used, all combustible material must be cut away to provide 6 inches of clearance. Any material used to close the opening must be noncombustible.

9. Do NOT use dampers or other devices in the vent pipes.

10. Precautions must be taken to prevent degradation of

building materials by flue products.

11. For category I vent systems the outlet of the vent should

extend as shown in Figure 7.1 and Table 7.1 if the following conditions are met:

• Vent diameter is less than 12 inches, vent is of double

wall construction and is a listed product, and the vent does not terminate within 2' of a vertical wall or similar obstruction.

• For vents that have a diameter of 12 inches or larger,

constructed of single wall, or terminate within 2' of a vertical wall or similar obstruction, the vent pipe shall extend at least 2' higher than any portion of a building within a horizontal distance of 10' (refer to Figure 7.1).

12. Use a listed vent terminal to reduce downdrafts and

moisture in vent.

13. For instructions on common venting refer to the National

Fuel Gas Code.

14. The vent must terminate no less than 5' above the vent

connector for Category I vent systems.

15. A unit located within an unoccupied attic or concealed space

shall not be vented with single wall vent pipe.

16. Single wall vent pipe must not pass through any attic, inside

wall, concealed space, or floor.

17. Do NOT vent this appliance into a masonry chimney.

18. When condensation may be a problem, the venting system

shall not terminate over public walkways or over an area where condensation or vapor could create a nuisance or hazard or could be detrimental to the operation of regulator relief openings or other equipment.

19. In cold ambient conditions, such as Canada, the following

items are recommended for proper operation and equipment life:

• The vent pipe must not pass through an unheated space

or interior part of an open chimney unless the vent pipe is insulated.

• Where the vent pipe may be exposed to extreme cold, or

come into contact with snow or ice, the entire vent must be insulated or double wall (includes outdoors). It is preferred that the double wall vent is one continuous piece but a joint is allowed outside the building.

• The heater system shall be checked at least once a year

by a qualified service technician.

5-565.16

12" MIN

RECOMMENDED

4" MIN

TEE WITH DRIP LEG AND CLEANOUT CAP

(SLOPE 1/4" PER FOOT DOWNWARD TOWARD DRIP LEG)

EXHAUST

"H" MIN*

12" MIN

RECOMMENDED

4" MIN

BACK VIEW

ROOF PITCH IS:

X / 12

TEE WITH DRIP LEG AND CLEANOUT CAP

(SLOPE 1/4" PER FOOT DOWNWARD TOWARD DRIP LEG)

ROOF FLASHING

USE LISTED THIMBLE THROUGH ROOF AND CEILING

EXHAUST

LISTED TERMINAL

* SIZE ACCORNING TO EXPECTED SNOW DEPTH.

TO WALL OR ADJOINING BUILDING

2' MIN

2' MIN* USE THIMBLE THROUGH

CELLING

ROOF FLASHING

TERMINAL

METAL

SLEEVE

FIBER GLASS

INSULATION

MIN. 2"

2" MIN.

VENT TERMINATION SUPPORT BRACKET

(where required)

(Make from 1" x 1" steel angle)

METAL

SLEEVE

2" MIN.

VENT PIPE DIAMETER

METAL FACE

PLATE

12" min

TEE WITH DRIP LEG

AND CLEANOUT CAP

AT LOW POINT OF

VENT SYSTEM

POWER EXHAUSTER OUTLET

PITCH VENT PIPE DOWNWARD

FROM UNIT 1/4" PER FOOT

12"

Min.

GARY STEEL

MODEL 1092 TERMINAL

INSTALLATION

Figure 7.1 - Vertical Category I Vent System

Table 7.1 - Minimum Height from Roof to Lowest Discharge Opening

Rise X (in) Roof Pitch Min Height H (ft) ➀

0-6 Flat to 6/12 1.00

6-7 6/12 to 7/12 1.25

7-8 7/12 to 8/12 1.50

8-9 8/12 to 9/12 2.00

9-10 9/12 to 10/12 2.50

10-11 10/12 to 11/12 3.25

11-12 11/12 to 12/12 4.00

12-14 12/12 to 14/12 5.00

14-16 14/12 to 16/12 6.00

16-18 16/12 to 18/12 7.00

18-20 18/12 to 20/12 7.50

20-21 20/12 to 21/12 8.00

➀ Size according to expected snow depth.

Additional Requirements for Horizontally Vented Category III Units

1. Seal the joints with a metallic tape or silastic suitable for temperatures up to 350°F. (3M tapes 433 or 363 are acceptable.) Wrap tape two full turns around the vent pipe.

2. Refer to Table 7.2 for total minimum and maximum vent lengths making the vent system as straight as possible. The equivalent length of a 90° elbow is 5 feet for 4" diameter and 7 feet for 6" diameter.

Table 7.2 - Horizontal Category III Vent Sizing Requirements

Vent Connector

Model Size

100-175

200

225 250-300 350-400

➀ Unit can be vented with 5" diameter pipe if a 6" to 5" reducer is used.

Otherwise, use 6" pipe.

Diameter

4" 4" 48' 4" 4" 55' 6" 6" 6" 6" 63' 6" 6" 70'

3. The vent terminal must be a Gary Steel 1092.

4. The vent must extend a minimum of 12" beyond the exterior wall surface as shown in Figure 7.2. The vent must be supported as shown in Figure 7.3. Precautions must be taken to prevent degradation of building materials by flue products.

5. The vent system shall terminate at least 3 feet above any

forced air inlet (except direct vent units) located within 10 feet,

and at least 4 feet below, 4 feet horizontally from, or 1 foot above any door, window, or gravity air inlet into any building. The bottom of the vent terminal shall be located above the snow line or at least 1 foot above grade; whichever is greater. When located adjacent to public walkways the vent system shall terminate not less than 7 feet above grade.

6. The venting system must be exclusive to a single unit, and no other unit is allowed to be vented into it.

7. Horizontally vented units must use single wall vent pipe although one continuous section of double wall vent pipe may be used with the vent system. Under no circumstances should two sections of double wall vent pipe be joined together within one vent system due to the inability to verify complete seal of inner pipes.

Minimum Vent Pipe Diameter

5" ➀ 70'

6" 70'

Maxium Vent

Length

Figure 7.2 - Horizontal Venting

Figure 7.3 - Venting Through Combustible Walls

5-565.1 7

UNIT INSTALLATION

GAS

SUPPLY LINE

GAS

SUPPLY LINE

GROUND

JOINT

UNION

W/ BRASS

SEAT

MANUAL GAS

SHUT-OFF V A LV E

MIN.

SEDIMENT

TRAP

PLUGGED

1/8" NPT TEST

GAGE CONNECTION

CONTROLS

Gas Connections

WARNING

1. All field gas piping must be pressure/leak tested prior to operation. Never use an open flame. Use a soap solution or equivalent for testing.

2. Gas pressure to appliance controls must never exceed 14" W.C. (1/2 psi).

3. To reduce the opportunity for condensation, the minimum

sea level input to the appliance, as indicated on the serial plate, must not be less than 5% below the rated input, or 5% below the minimum rated input of duel rated units.

CAUTION

Purging of air from gas supply line should be performed as described in ANSI Z223.1 - latest edition “National Fuel Gas Code”, or in Canada in CAN/CGA-B149 codes.

IMPORTANT

To prevent premature heat exchanger failure, the input to the appliance, as indicated on the serial plate, must not exceed the rated input by more than 5%.

1. Installation of piping must conform with local building codes, or in the absence of local codes, with the National Fuel Gas Code, ANSI Z223.1 (NFPA 54) - Latest Edition. In Canada, installation must be in accordance with CAN/CGA-B149.1 for natural gas units and CAN/CGA-B149.2 for propane units.

2. Piping to units should conform with local and national requirements for type and volume of gas handled, and pressure drop allowed in the line. Refer to Table 14.1 to determine the cubic feet per hour (cfh) for the type of gas and size of unit to be installed. Using this cfh value and the length of pipe necessary, determine the pipe diameter from Table 8.1. Where several units are served by the same main, the total capacity, cfh and length of main must be considered. Avoid pipe sizes smaller than

1/2". Table 8.1 allows for a 0.3" W.C. pressure drop in the supply pressure from the building main to the unit. The inlet pressure to the unit must be 6-7" W.C. for natural gas and 11-14" W.C. for propane gas. When sizing the inlet gas pipe diameter, make sure that the unit supply pressure can be met after the 0.3" W.C. has been subtracted. If the 0.3" W.C. pressure drop is too high, refer to the Gas Engineer’s Handbook for other gas pipe capacities.

3. The gas piping to the unit can enter the unit from the side of the unit or from below. Install a ground joint union with brass seat and a manual shut-off valve external of the unit casing, and adjacent to the unit for emergency shut-off and easy servicing of controls, including a 1/8" NPT plugged tapping accessible for test gauge connection (See Figure 8.1). Verify the manual shut-off valve is gas tight on an annual basis.

4. Provide a sediment trap before each unit in the line where low spots cannot be avoided. (See Figure 8.1).

5. When Pressure/Leak testing, pressures above 14" W.C. (1/2 psi), close the field installed shut-off valve, disconnect the appliance and its combination gas control from the gas supply line, and plug the supply line before testing. When testing pressures 14" W.C. (1/2 psi) or below, close the manual shut-off valve on the appliance before testing.

Figure 8.1 - Recommended Sediment Trap/Manual Shut-off Valve Installation - Side or Bottom Gas Connection

➀

➀ Manual shut-off valve is in the “OFF” position when handle is perpendicular

to pipe.

Table 8.1 - Gas Pipe Capacities

Gas Pipe Capacities (Up to 14” W.C. Gas Pressure through Schedule 40 Pipe)

Length Pipe Diameter Of Pipe 1/2" 3/4" 1" 1-1/4" 1-1/2" 2" (feet) Natural Propane Natural Propane Natural Propane Natural Propane Natural Propane Natural Propane

10 132 83 278 175 520 328 1050 662 1600 1008 3050 1922

20 92 58 190 120 350 221 730 460 1100 693 2100 1323

30 73 46 152 96 285 180 590 372 890 561 1650 1040

40 63 40 130 82 245 154 500 315 760 479 1450 914

50 56 35 115 72 215 135 440 277 670 422 1270 800

60 50 32 105 66 195 123 400 252 610 384 1150 725

70 46 29 96 60 180 113 370 233 560 353 1050 662

80 43 27 90 57 170 107 350 221 530 334 990 624

90 40 25 84 53 160 101 320 202 490 309 930 586

100 38 24 79 50 150 95 305 192 460 290 870 548

125 34 21 72 45 130 82 275 173 410 258 780 491

150 31 20 64 40 120 76 250 158 380 239 710 447

Cubic Feet per Hour with Pressure Drop of 0.3” W.C.

Natural Gas - Specific Gravity - 0.60

Propane Gas - Specific Gravity - 1.50

5-565.18

BLOWER SECTION

DOOR

ELECTRICAL

SECTION

DOOR

DUCT

FURNACE

ELECTRIC SUPPLY

COMPONENTS MUST BE

CLEAR OF SERVICE DOORS

DISCONNECT

SWITCH WIRING,

AND CONNECTOR

UNIT INSTALLATIONUNIT INSTALLATION

Electrical Connections

WARNING

1. Disconnect power supply before making wiring connections to prevent electrical shock and equipment damage.

2. All appliances must be wired strictly in accordance with wiring diagram furnished with the appliance. Any wiring different from the wiring diagram could result in a hazard to persons and property.

3. Any original factory wiring that requires replacement must

be replaced with wiring material having a temperature rating of at least 105°C.

4. Ensure that the supply voltage to the appliance, as

indicated on the serial plate, is not 5% greater than rated voltage.

CAUTION

Ensure that the supply voltage to the appliance, as indicated on the serial plate, is not 5% greater than rated voltage.

1. Installation of wiring must conform with local building codes, or in the absence of local codes, with the National Electric Code ANSI/NFPA 70 - Latest Edition. Unit must be electrically grounded in conformance to this code. In Canada, wiring must comply with CSA C22.1, Part 1, Electrical Code.

2. Two copies of the job specific wiring diagram are provided with each unit, one located in the duct furnace electrical junction box and one in the electrical section of the unit. Refer to this diagram for all wiring connections.

3. The wire gauge must be sized according to the National Electric Code or CSA code based on the power supply voltage, amp draw, and length of run. Refer to Table 9.1 for maximum wire lengths. Once the wire gauge has been determined, refer to Table 9.2 for the number of wires for which the low voltage terminal blocks in the unit are rated.

Table 9.1 - Low Voltage (24V) Maximum Wire Length (Feet)

NEC-1996, Table 310-17, Copper wire with 90°C insulation, conductors in free space (not in conduit), 86°F ambient. For other wire types, refer to the NEC of CSA code.

Wire Gauge

Model No. Trans.

Digit 15 VA 18 GA 16Ga 14 Ga 12 Ga 10 Ga

1 40 162 216 315 360 495

2 75 86 115 168 192 264

3 150 43 58 84 96 132

4 250 26 35 50 58 79

Table 9.2 - Number of Wires Per Terminal

Wire Gauge Number of Wires per Terminal

#10 AWG 1

#12 AWG 1 to 2

#14 AWG 1 to 3

#16 AWG 1 to 4

#18 AWG 1 to 5

#22 AWG 2 to 5

4. Make sure all multi-voltage components (motors, transformers, etc.) are wired in accordance with the power supply voltage.

Figure 9.1 - Recommended Accessory Field Installed Disconnect Switch Mounting Locations

5. The power supply to the unit must be protected with a fused or circuit breaker disconnect switch. Refer to the Factory Mounted Option Locations (Figure 18.1) for the factory mounted disconnect switch location and then review the unit to determine if a factory installed dead front disconnect switch was provided. Accessory field installed disconnect switches should be mounted where shown in Figure 9.1. For fusible disconnect switches, refer to the Model Identification plate for the fuse size and type.

6. The power supply must be within 5% of the voltage rating and each phase must be balanced within 2 percent of each other. If not, advise the utility company.

7. External electrical service connections that must be installed include:

a. Supply power connection (120, 208, 240, 480, or 600

volts).

b. Connection of thermostats, remote monitoring panels,

building pressure sensors, CO detectors, time clocks, or any other accessory control devices that may be supplied (24 volts).

8. Refer to the unit dimensional drawings on Figures 43.1 through 44.1 for the electrical knock-out locations.

9. All supply power electrical connections are made in the electrical section of the unit. The low voltage (thermostat and accessory control devices) can be wired to either the electrical section or the duct furnace electrical junction box. Refer to the wiring diagram for the terminal location of all low voltage wiring.

Cooling Coil Units

Models with a cooling section can be provided with either a factory installed direct expansion (DX) evaporator, a chilled fluid (for use with water, ethylene glycol, or propylene glycol fluids) coil, or the coil can be field supplied and installed by others. For units equipped with a factory installed cooling coil (Digit 23 = 1), refer to the packing slip to determine the coil type provided. The cooling section is located downstream of the duct furnace heat exchanger in a blow-through configuration, preventing condensation on the heat exchanger in the cooling mode. Thus, a stainless steel heat exchanger is not required when a cooling section is used. (However, a stainless steel heat exchanger is still recommended when the combined entering/ return air to the unit is below 40°F.)

5-565.1 9

UNIT INSTALLATIONUNIT INSTALLATION

Suctio n Line

Expansion Valve

Remot e Sens ing Bulb

Straps

Suctio n Connection

Coil

Suctio n Header

Distributor

Equali zer Line

Nozzle

Liquid Line

(By Others)

The cooling section includes a full coverage, 3-way sloping 409 stainless steel drain pan to remove condensate from coil headers, thermal expansion valves, and refrigerant piping. Insulation is standard on outdoor units and optional on indoor units and double wall construction is optional on all units. The cabinet includes two doors, a removable upper door for service access to the coil once the plumbing has been installed and a lower door which includes a factory supplied 1" stubbed drain connection to the exterior of the cabinet. Field connections for coil inlet and outlet piping can be made through the cabinet corner post or back of the unit. The cooling section duct transition includes 1-1/2" flanges for fastening the sides of the coil. The bottom duct transition is angled to remove any condensation that may be entrained in the supply air stream.

For field supplied coils, do not exceed the maximum coil dimensions listed in Literature 82-135. The dimensions listed are for the maximum coil dimensions. If the coil supplied is smaller than the listed dimensions, field supplied blank off plates are required to prevent air bypass around the coil. The coil is supported by two 14 gauge support rails which contain mounting provisions for fastening 4", 5", 6", 7.5", 8.5", and 10" deep coils. When obtaining the specifications from a coil manufacturer, it is important to obtain the pressure drop through

the coil so that the proper motor horsepower can be selected.

Figure 10.1 - Cooling Section

Optional double wall construction

DX single circuit (shown) and dual circuit coils available

Direct Expansion (DX) Piping

The refrigerant lines should be insulated to prevent warming or cooling of the refrigerant. If the suction line is allowed to be cooled, liquid will condense in the line and can severely damage the compressor. If the liquid line is warmed, the refrigerant can "flash" into a gas. This will cause erratic operation of the expansion device and impair the heat transfer ability of the cooling coil. Long runs of piping need to be periodically supported to prevent excess vibration that can damage the piping and joints. It is recommended to provide dampening supports at intervals of length equivalent to 15 tube diameters.

Figure 10.2 - General DX Piping

Optional Factory Installed DX or Chilled Water coil.

Fin spacings of 6,8,10,12 or 14 fins per inch

Adjustable mounting bracket for 2,3,4 and 6 row coils

Full coverage 3-way sloping 409 stainless steel drain pan

Right or left hand coil header access to

1” stubbed drain connection

match gas controls

For Both Chilled Water and Direct Expansion Coils: The condensate drain line needs to include a P-trap immediately downstream of the connection to the unit. This trap should extend at least two inches below the connection to prevent air pressure from forcing air into the unit. The trap should be primed with a water/glycol solution to prevent freezing. All points where refrigerant, water or condensate lines enter the structure should be sealed and vibration dampened. Include shut-off valves to isolate the cooling coil from the system in order to remove the coil for service or replacement without draining the entire system. For additional guidelines, refer to the ASHRAE Fundamentals Handbook section of piping recommendations.

1. Inspect the refrigerant distributor and verify that the nozzle is in place.

2. All field brazing and welding should be performed using high quality materials and an inert gas purge (such as nitrogen) to reduce oxidation of the internal surface of the coil.

3. Connect the suction line and suction connection.

4. Install the expansion valve (By Others). Follow the expansion valve manufacturer's recommendations for installation to avoid damaging the valve.

5. The expansion valve's remote sensing bulb should be securely strapped to the horizontal run of the suction line at the 3 or 9 o'clock position and insulated.

6. Connect the liquid line to the expansion valve. Pressurize the coil, expansion valve assembly and suction connection to 100 psig with dry nitrogen or other suitable gas. The coil should be left pressurized for a minimum of 10 minutes.

7. If the coil holds pressure, the hook-up can be considered leak free. If the pressure drops by 5 psi or less, repressurize the coil and wait another 10 minutes. If the pressure drops again, there are more than likely one or more small leaks, which should be located and repaired. Pressure losses greater than 5 psi would indicate a larger leak, which should be isolated and repaired. Be sure to check valves and fittings as potential sites for leakage or bleed. If the coil is found to be leaking, contact your local factory representative.

5-565.110

UNIT INSTALLATION

Air Vent

Gate Va lve

T e e

Vent Plug

Supply

Dirt Leg

Cap

Union

Drain Plug

Table 11.1 - Cooling Coil Performance Limits

DX - Single Circuit DX - Dual Circuit Chilled Water Max. Cooling Tons ② ③

Model

Max Coil Area Max Coil Area Max Coil Area DX Chilled

Size

CFM ➀ (Sq. Ft.) CFM ➀ (Sq. Ft) CFM ➀ (Sq. Ft.) Coils Water Coils

75 1891 3.44 1707 3.10 1676 3.05 609 ④ 9.38 10.56 100 2206 4.01 2048 3.72 2011 3.66 741 ⑤ 11.43 12.62

125 2206 4.01 2048 3.72 2011 3.66 926 11.43 12.62

150 2521 4.58 2416 4.39 2372 4.31 1111 13.42 14.77

175 2521 4.58 2416 4.39 2372 4.31 1296 13.42 14.77

200 3352 6.09 3165 5.76 3214 5.84 1481 18.12 19.28

225 3352 6.09 3165 5.76 3214 5.84 1667 18.12 19.28

250 3724 6.77 3538 6.43 3592 6.53 1852 20.24 21.33

300 3724 6.77 3538 6.43 3592 6.53 2222 20.24 21.33

350 5214 9.48 4996 9.08 5073 9.22 2593 27.26 29.25

400 5214 9.48 4996 9.08 5073 9.22 2963 27.26 29.25

Min

CFM

(All Units)

➀ Based on 550 feet per minute (FPM) coil face velocity. ➁ 1 Ton = 12,000 Btu/Hr ➂ Based on 95°F Entering Dry Bulb, 75°F Entering Wet Bulb. ➃ Model Size 75 CFM listed for Chilled Water - DX Single Circuit CFM minimum is 688 and DX Dual Circuit CFM min is 621. ➄ Model Size 100 CFM listed for Chilled Water - DX Single Circuit CFM minimum is 802 and DX Dual Circuit CFM min is 745.

8. Use a vacuum pump to evacuate the coil and any

Figure 11.1 - General Chilled Fluid Piping

interconnecting piping that has been open to atmosphere. Measure the vacuum in the piping using a micron gauge located as far from the pump as possible (the vacuum at the pump will be greater than the rest of the system). Evacuate the coil to 500 microns or less then close the valve between the pump and the system. If the vacuum holds to 500 microns or less for one minute, the system is ready to be charged or refrigerant pumped down in another portion of the system can be opened to the coil. A steady rise in microns would indicate that moisture is still present and that the coil should be further vacuumed until the moisture has been removed.

9. Failure to obtain a high vacuum is indicative of a great deal of moisture or a small leak. Break the vacuum with a charge of dry nitrogen or other suitable gas and recheck for leaks (soapy water works well). If no leaks are found, continue vacuuming the coil until the desired vacuum is reached.

10. All field piping must be self-supporting.

Chilled Fluid Piping

To prevent noise within a system, an air vent is necessary to bleed off the accumulated air in the system. The vent should be located on the top of the inlet manifold where the air collects. This vent should be opened twice a year. Air in the system will generate noise and may cause water hammer than can damage the joints of the piping and the cooling coil.

The outlet manifold should have a drain installed on the bottom of the manifold to allow for periodic flushing of the system to remove sediments and corrosion products from the cooling coil. This drain should be opened to allow some fluid to drain

twice a year. Check coloration and viscosity of the effluent for indications of corrosion in the system. The lines between the unit and the structure should be insulated to prevent freezing of the water.

1. Once installed, the coil should be pressurized to 100 psig with dry nitrogen or other suitable gas. The coil should be left pressurized for a minimum of 10 minutes. If the coil holds the pressure, the hook-up can be considered leak free. If the pressure drops by 5 psig or less re-pressurize the coil and wait another 10 minutes. If the pressure drops again, there is more than likely one or more small leaks which should be located and repaired. Pressure losses greater than 5 psig would indicate a larger leak that should be isolated and repaired. If the coil itself is found to be leaking, contact your local factory representative.

2. All field brazing and welding should be performed using high quality materials and an inert gas purge (such as nitrogen) to reduce oxidation of the internal surface of the coil.

3. All field piping must be self supporting. System piping should be flexible enough to allow for thermal expansion and contraction of the coil.

5-565.1 11

UNIT INSTALLATION / START-UP PROCEDURE

Operation

General - All coils

1. Proper air distribution is vital to coil performance. Air flow anywhere on the coil face should not vary by more than 20%.

2. Air velocities should be maintained between 200 and 550 feet per minute.

3. For chilled fluid coils, fluid velocities should be maintained within the recommended values of 1 to 8 fps for Water and 1 to 6 fps for Glycol solutions.

Chilled fluid coils - Initial Start-Up

1. Open all air vents so that air is eliminated from within the coil circuitry and headers. Verify that all vents and drains are not obstructed and do discharge a stream of water.

2. Fill the coil with water then close all vents.

3. Perform an initial hydrostatic leak test of all brazed, threaded or flanged joints, valves and interconnecting piping. Recheck the coil level and correct if necessary. When the setup is found to be leak free, discharge and discard initial water charge. It is important that all grease, oil, flux and sealing compounds present from the installation be removed.

Maintenance

General

1. Filters should be inspected on a regular basis and changed as needed. Maintaining clean filters is a costeffective way to help maintain maximum coil performance and service life.

2. Periodic inspection of the coil for signs of corrosion and for leaks is recommended. For DX coils, Small leaks can be detected using a Halide torch. Repair and replacement of the coil and the connecting piping, valves, etc., should be performed as needed by a qualified individual(s).

3. Should the coil surface need cleaning, caution should be exercised in selecting the cleaning solution as well as the cleaning equipment. Improper selection can result in damage to the coil and/or health hazards. Clean the coil from the leaving air-side so that foreign material will be washed out of the coil rather than pushed further in. Be sure to carefully read and follow the cleaning fluid manufacturer's recommendations before using any cleaning fluid.

4. For DX coils, the use of filter-dryers in the system piping is recommended along with a sight glass that has a moisture indicator. Replace the filter dryer(s) as needed.

5. For chilled fluid coils,

A) Maintain the circulated fluid free of sediment, corrosive products and biological contaminants. Periodic testing of the fluid followed by any necessary corrective measures along with maintaining adequate fluid velocities and proper filtering of the fluid will help to satisfy this goal.

B) Automatic air vents must be utilized to remove accumulated air.

C) Freeze Protection - During the winter, chilled water coils need to be protected against freezing. The two predominant protective measures are 1) Blowing-out the coils with air or 2) Flushing coils with inhibited glycol. It is recommended to use inhibited glycol designed for HVAC applications for corrosion protection. Select an inhibited glycol solution that will protect the coil from the lowest possible temperatures that can occur at the particular coil's locality.

Start-Up Procedure

IMPORTANT

1. To prevent premature heat exchanger failure, observe heat exchanger tubes by looking at the heat exchanger through the field installed access openings in connecting ductwork in blower package units or the unit access doors in cooling package units. If the bottom of the tubes become red while blower and duct furnace are in operation, check to be sure the blower has been set to the proper rpm for the application. Refer to page 15 for Blower Adjustments.

2. Start-up and adjustment procedures should be performed by a qualified service agency.

1. Turn off power to the unit at the disconnect switch. Check that fuses or circuit breakers are in place and sized correctly. Turn all hand gas valves to the “OFF” position.

2. Remove the blower exterior panels and open the electrical compartment door.

3. Check that the supply voltage matches the unit supply voltage listed on the Model Identification plate. Verify that all wiring is secure and properly protected. Trace circuits to insure that the unit has been wired according to the wiring diagram.

4. Check to insure that the venting system is installed and free from obstructions.

5. Check to see that there are no obstructions to the intake and discharge of the unit.

6. Check the belt tension and sheave alignment. Refer to Blower Adjustments for proper belt tension.

7. Check bearings for proper lubrication. For units provided with pillow block bearings (See Model Nomenclature), refer to Lubrication Recommendations for lubrication requirements.

8. Check to make sure that all filters are in place and that they are installed properly according to direction of air flow.

9. Perform a visual inspection of the unit to make sure no damage has occurred during installation.

10. Turn on power to the unit at the disconnect switch. Check to insure that the voltage between duct furnace electrical box terminals 1 and 2 is 24V.

11. Check the thermostat, ignition control, gas valve, and supply fan blower motor for electrical operation. If these do not function, recheck the wiring diagram. Check to insure that none of the Control Options have tripped.

12. For units with a return air damper, the return air damper linkage needs to be adjusted. Refer to Damper Linkage Adjustment.

13. Check to make sure that the damper opens properly without binding.

14. Check the blower wheel for proper direction of rotation when compared to the air flow direction arrow on the blower housing. Blower wheel rotation, not air movement, must be checked as some air will be delivered through the duct furnace with the blower wheel running backwards.

15. Check the blower speed (rpm). Refer to Blower Adjustments for modification.

16. Check the motor speed (rpm).

17. Check the motor voltage. On three phase systems, check to make sure all legs are in balance.

18. Check the motor amp draw to make sure it does not exceed the motor nameplate rating. On three phase systems, check all legs to insure system is balanced.

5-565.112

UNIT INSTALLATION / START-UP PROCEDURE

19. Recheck the gas supply pressure at the field installed manual shut-off valve. The minumum inlet pressure should be 6" W.C. on natural gas and 11" W.C. on propane gas. The maximum inlet pressure for either gas is 14" W.C. If inlet pressure exceeds 14" W.C., a gas pressure regulator must be added upstream of the combination gas valve.

20. Open the field installed manual gas shut-off valve.

21. Open the manual main gas valve on the combination gas valve. Call for heat with the thermostat and allow the pilot to light for intermitent pilot ignition. If the pilot does not light, purge the pilot line. If air purging is required, disconnect the pilot line at outlet of pilot valve. In no case should line be purged into heat exchanger. Check the pilot flame length (See Pilot Flame Adjustment).

22. Once the pilot has been established, check to make sure that the main gas valve opens. Check the manifold gas pressure (See Main Gas Adjustment) and flame length (See Air Shutter Adjustment) while the supply fan blower is operating.

23. Check to insure that gas controls sequence properly (See Control Operating Sequence). Verify if the unit has any additional control devices and set according to the instructions in the Control Options.

24. Once proper operation of the unit has been verified, remove any jumper wires that were required for testing.

25. Close the electrical compartment door.

26. Replace all exterior panels.

Refer to page 54 for the Start-up Checklist.

Pilot Burner Adjustment

The pilot burner is orificed to burn properly with an inlet pressure of 6-7" W.C. on natural gas and 11-14" W.C. on propane gas, but final adjustment must be made after installation. If the pilot flame is too long or large, it is possible that it may cause soot and/or impinge on the heat exchanger causing failure. If the pilot flame is shorter than shown, it may cause poor ignition and result in the controls not opening the combination gas control. A short flame can be caused by a dirty pilot orifice. Pilot flame condition should be observed periodically to assure trouble-free operation.

To Adjust the Pilot Flame

1. Create a call for heat from the thermostat.

2. Remove the cap from the pilot adjustment screw. For location,

see the combination gas control literature supplied with unit.

3. Adjust the pilot length by turning the screw in or out

to achieve a soft steady flame 3/4" to 1" long and encompassing 3/8"-1/2" of the tip of the thermocouple or flame sensing rod (See Figure 13.1).

4. Replace the cap from the pilot adjustment screw.

Figure 13.1 - Correct Pilot Flame

3/4" to 1"

Main Burner Adjustment

The gas pressure regulator (integral to the combination gas control) is adjusted at the factory for average gas conditions. It is important that gas be supplied to the duct furnace in accordance with the input rating on the serial plate. Actual input should be checked and necessary adjustments made after the duct furnace is installed. Over-firing, a result of too high an input, reduces the life of the appliance and increases maintenance. Under no circumstances should the input exceed that shown on the serial plate.

Measuring the manifold pressure is done at the tee in the manifold or at the pressure tap of the gas valve for standard gas string. (See Figure 14.1).

To Adjust the Manifold Pressure

1. Move the field installed manual shut-off valve to the “OFF” position.

2. Remove the 1/8" pipe plug in the pipe tee or gas valve and attach a water manometer of “U” tube type which is at least 12" high.

3. Move the field installed manual gas shut-off valve to the “ON” position.

4. Create a high fire call for heat from the thermostat.

5. Determine the correct high fire manifold pressure. For natural gas 3.5” W.C., for propane gas 10” W.C. Adjust the main gas pressure regulator spring to achieve the proper manifold pressure (for location, see the combination gas control literature supplied with unit).

6. If the unit has Electronic Modulation gas controls (determine from the Model Identification Digit 12), the low fire gas pressure needs to be adjusted. Using Figure 14.2 for item number locations, this is accomplished as follows:

a. Disconnect power. b. Remove all wires from Maxitrol Amplifier terminal “3” or

duct furnace terminal “43” (if available). c. Turn on power at the disconnect switch. d. Remove the maximum adjustment screw (4), spring

(5), and plunger (8). A small magnet is useful for this

purpose. CAUTION - The plunger is a precision part.

Handle carefully to avoid marring or picking up grease

and dirt. Do not lubricate. e. Using minimum adjusting screw (9), adjust low fire

manifold pressure to 0.56" W.C. for natural gas and

1.6" W.C. for propane gas.

f. Replace plunger and spring retainer, spring, and

maximum adjusting screw in proper order. g. Using maximum adjustment screw (4), adjust high fire

manifold pressure to 3.5" W.C. for natural gas and 10"

W.C. for propane gas. h. Disconnect power. i. Replace cover plate (2) and re-install all wires from

Maxitrol amplifier terminal “3” or duct furnace terminal “43”.

7. After adjustment, move the field installed manual shut-off

valve to the “OFF” position and replace the 1/8" pipe plug.

8. After the plug is in place, move the field installed manual

shut-off valve to the “ON” position and recheck pipe plugs

for gas leaks with soap solution.

5-565.1 13

START-UP PROCEDURE

Standard Controls

Premium Controls

Manifold Pressure Te st Point

Figure 14.1 - Checking Manifold Pressure with “U” Tube Manometer

Figure 14.2 - Maxitrol Modulating Valve Adjustments

Air Shutter Adjustment

Proper operation provides a soft blue flame with a well-defined inner core. A lack of primary air will reveal soft yellow-tipped flames. Excess primary air produces short, well-defined flames with a tendency to lift off the burner ports. For both natural and propane gas, the air shutters can be adjusted to control the burner flame height. The air shutters can be accessed by reaching behind the gas valve in Figure 14.1. The larger models may require the removal of the manifold (see Manifold Assembly Removal).

Natural Gas Flame Control

Control of burner flames on duct furnaces utilizing natural gas is achieved by resetting the primary air shutters (See Figure

48.4) to either increase or decrease primary combustion air. Prior to flame adjustment, operate duct furnace for about fifteen minutes. The main burner flame can be viewed after loosening and pushing aside the gas designation disc on the side of the burner box.

To increase primary air, loosen the air shutter set screws and move the air shutters closer to the manifold until the yellowtipped flames disappear. (See Figure 48.4 for air shutter and

heat exchanger support locations.) To decrease primary air, move the air shutters away from the manifolds until flames no longer lift from burner ports, but being careful not to cause yellow tipping. Retighten set screws after adjustment.

Propane Gas Flame Control

An optimum flame will show a slight yellow tip. Prior to flame adjustment, operate furnace for at least fifteen minutes. Loosen air shutter set screws and move the air shutters away from the manifold to reduce the primary air until the yellow flame tips appear. Then increase the primary air until yellow tips diminish and a clean blue flame with a well defined inner cone appears.

Table 14.1 - Manifold Pressure and Gas Consumption

Model Size Type of Gas Natural Propane

Btu/Cu. Ft. 1040 2500

Specific Gravity 0.60 1.53

High Fire Manifold Pressure No. of Inches of Water Column 3.5 10 Orifices

Cfh 72.1 30.0

Orifice Drill Size 20 37 Cfh 96.1 40.0

100

Orifice Drill Size 30 45 Cfh 120.2 50.0

125

Orifice Drill Size 25 42 Cfh 144.2 60.0

150

Orifice Drill Size 30 45 Cfh 168.3 70.0

175

Orifice Drill Size 27 43 Cfh 192.3 80.0

200

Orifice Drill Size 23 40 Cfh 216.3 90.0

225

Orifice Drill Size 20 37 Cfh 240.4 100.0

250

Orifice Drill Size 25 42 Cfh 288.7 120.0

300

Orifice Drill Size 20 37 Cfh 336.5 140.0

350

Orifice Drill Size 27 43 Cfh 384.6 160.0

400

Orifice Drill Size 23 40 Cfh 240.4 ➀ 100.0 ➀

500 ➀

Orifice Drill Size 25 42 Cfh 288.7 ➀ 120.0 ➀

600 ➀

Orifice Drill Size 20 37 Cfh 336.5 ➀ 140.0 ➀

700 ➀

Orifice Drill Size 27 43 Cfh 384.6 ➀ 160.0 ➀

800 ➀

Orifice Drill Size 23 40 Cfh 336.5 ➁ 140.0 ➁

840 ➁

Orifice Drill Size 27 43 Cfh 384.6 ➁ 160.0 ➁

960 ➁

Orifice Drill Size 23 40

➀ Model contains 2 furnaces. Values shown are per furnace. ➁ Model contains 3 furnaces. Values shown are per furnace.

➀

➁

5-565.114

START- UP PROCEDURE

To ward Motor

Set Screw

Adjustable Half

of Sheave

ROD

CONNECTING

JOINT

Blower Adjustments

If blower fan speed changes are required, adjust motor sheave as follows:

1. Refer to page 34 to determine correct blower speed according to job requirements, then proceed with steps 2 through 8.

2. Loosen motor base and take belt off of motor sheave.

3. Loosen set screw on outer side of adjustable motor sheave.

Figure 15.1 - Motor Sheave Adjustment

Damper Linkage Adjustment

If the unit is provided with a return air damper, to prevent shipping damage, the return air damper linkage is disconnected and the damper closed. Before operating the unit, the fresh and return air dampers must be connected. This is accomplished by the following:

1. The damper actuator should be de-energized and the fresh air damper in a fully closed position.

2. Open the return air damper in a fully open position.

3. Slide the connecting rod into the ball joint on the blade arm with the return air damper fully open. See Figure 15.3.

4. Tighten the 5/16" hex head screw on the ball joint.

Figure 15.3 - Damper Linkage Adjustment

4. Turn outer side of motor sheave clockwise until motor sheave is fully closed.

5. From fully closed position, turn outer side of motor sheave counterclockwise until the proper number of turns open are achieved.

6. Retighten motor sheave set screw, replace belt and retighten motor base. Motor base should be shifted for proper belt tension which is 3/4" deflection with about 5 lbs. of force.

Figure 15.2 - Belt Tension Adjustment

3/4" deflection with 5 lbs. of force

➪

7. Recheck blower rpm after adjustment.

NOTE: Do not fire unit until blower adjustment has been

made or unit may cycle on high limit control.

8. Check motor amps. Do not exceed nameplate amps shown

on motor nameplate.

Lubrication Recommendations

The blower can be provided with either spider or pillow block bearings. Spider bearings are permanently lubricated and do not require lubrication. Pillow block bearings are shipped greased from the factory but will require lubrication. The bearings should be checked and lubricated before each heating season but a more frequent lubrication schedule may be required based on the environment in which the unit is installed, and the frequency of the equipment operation. Shell Alvania #2 lubricant is recommended.

Control Operating Sequence

IMPORTANT

To prevent premature heat exchanger failure, with all control systems, a blower starting mechanism must be provided so that the blower is running or energized within 45 seconds of the gas control operation.

Indoor power vented duct furnaces are supplied with intermittent pilot systems with continuous retry as standard. On mechanical modulation systems the main burner is turned off 100% when the thermostat is satisified, but the pilot remains lit. For intermittent pilot systems, except mechanical modulation both the main burner and pilot burner are turned off 100% when the thermostat is satisfied. Intermittent pilot systems, for both natural and propane gas, the ignition controller is 100% shut-off with continuous retry. On a call for heat, the system will attempt to light the pilot for 70 seconds. If the pilot is not sensed for any reason, the ignition control will wait for approximately six minutes with the combination gas control closed and no spark. After six minutes, the cycle will begin again. After three cycles, some ignition controllers lockout for approximately one hour before the cycle begins again. This will continue indefinitely until the pilot flame is sensed or power is interrupted to the system.

NOTE: Gas Control Options (see page 16) could change the

listed sequence of operation based on their function. The descriptions given are for the basic duct furnace.

5-565.1 15

START-UP PROCEDURE

Single-Stage Gas Controls (intermittent pilot)

Utilizes a single-stage combination gas control, an ignition control, and a single-stage low voltage thermostat.

1. The thermostat calls for heat.

2. The power exhauster relay is energized starting the power exhauster motor. Once the motor has reached full speed, the differential pressure switch closes. The power exhauster relay pre-purge timer closes after 20 to 40 seconds energizing the gas control circuit.

3. The pilot valve opens and the spark ignitor sparks in an attempt to light the pilot. (If the unit was not provided with a time delay relay, the blower starts at this time.)

4. Once the pilot is lit, the flame sensor proves the pilot and stops the spark ignitor from sparking.

5. The main gas valve is opened and the main burner is lit to 100% full fire.

6. If the unit was provided with a time delay relay, the blower starts after 30 to 45 seconds.

7. The unit continues to operate until the thermostat is satisfied, at which time both the main and pilot valves close 100%. (If the unit was not provided with a time delay relay, the blower stops at this time).

8. If the unit was provided with a time delay relay, the blower stops after 30 to 45 seconds.

Two-Stage Gas Controls (intermittent pilot)

Utilizes a two-stage combination gas control, an ignition control, and a two-stage low voltage thermostat. The unit fires at 50% fire on low stage and 100% fire on high stage.

1. The thermostat calls for low stage heat.

3. The pilot valve opens and the spark ignitor sparks in an attempt to light the pilot. (If the unit was not provided with a time delay relay, the blower starts at this time.)

4. Once the pilot is lit, the flame sensor proves the pilot and stops the spark ignitor from sparking.

5. The main gas valve is opened and the main burner is lit to 50% fire.

6. If the unit was provided with a time delay relay, the blower starts after 30 to 45 seconds.

7. If the temperature at the thermostat continues to fall, the thermostat will call for high stage heat.

8. The main gas valve is opened completely and the main burner is lit to 100% full fire.

9. The unit continues to operate until the high stage of the thermostat is satisfied, at which time the main valve closes to 50% fire.

10. The unit continues to operate until the low stage thermostat is satisfied, at which time both the main and pilot valves close 100%. (If the unit was not provided with a time delay relay, the blower stops at this time.)

11. If the unit was provided with a time delay relay, the blower stops after 30 to 45 seconds.

Mechanical Modulating Gas Controls

Dial Number

Lo 1 2 3 4 5 6 7 8 Hi

Discharge Air Temp. 58 62 65 69 72 76 79 83 86 90 (°F)

Utilizes a mechanical modulating gas control and an ignition control. The mechanical modulating gas control is designed for use in constant blower applications. The discharge air temperature is maintained by setting the control dial of the

modulating gas valve in one of ten positions. A hydrostatic sensing bulb located in the discharge air stream controls the gas flow between 40% through 100% full fire. When the discharge air hydrostatic sensing bulb is satisfied, the modulating valve closes completely, but the pilot remains lit. This control cannot be used with a room override thermostat.

1. Power is supplied to the unit through either an exhaust fan interlock contact or a start/stop switch.

3. The pilot valve opens and the spark ignitor sparks in an attempt to light the pilot. (If the unit was not provided with a time delay relay, the blower starts at this time.)

4. Once the pilot is lit, the flame sensor proves the pilot and stops the spark ignitor from sparking.

5. The hydrostatic sensing bulb, integral to the mechanical modulating gas valve, calls for heat. The main gas valve is opened and the main burner is lit. The burner modulates between 40% through 100% fire based on the call for heat.

6. If the unit was provided with a time delay relay, the blower starts after 30 to 45 seconds.

7. The unit continues to operate until the hydrostatic sensing bulb is satisfied, at which time the main valve closes 100%, but the pilot remains lit.

8. The unit blower (and pilot) continues to operate until either an exhaust fan interlock contact or a start/stop switch is opened. If the unit was provided with a time delay relay, the blower stops after 30 to 45 seconds.

Electronic Modulating Gas Controls Single Furnace - Model Sizes 75-400

Utilizes an electronic modulating/regulating gas control, combination gas valve, an ignition control, modulating amplifier, and either a modulating room thermostat or modulating duct thermostat with remote temperature set point adjuster. The thermostat controls can modulate the gas flow between 40% through 100% full fire. When the thermostat is satisfied, the amplifier cuts power to the combination gas valve which prevents gas flow to both the main and pilot burners.

When duct sensing is utilized, a room override thermostat can be added. When calling for heat, the room override thermostat provides full fire operation until the space temperature is satisfied. Control is then returned to the duct sensing control. In this situation, either the duct sensor or the room override thermostat can call for heat.

1. The thermostat calls for heat.

3. The pilot valve opens and the spark ignitor sparks in an attempt to light the pilot. (If the unit was not provided with a time delay relay, the blower starts at this time.)

4. Once the pilot is lit, the flame sensor proves the pilot and stops the spark ignitor from sparking.

5. The main gas valve is opened and the main burner is lit to 100% full fire.

6. If the unit was provided with a time delay relay, the blower starts after 30 to 45 seconds.

7. The modulating gas valve can be controlled by either an electronic modulating room or duct thermostat. The thermostat can modulate the firing rate between 40% through 100% full fire. The call for heat is created by a resistance signal (8000 to 12000 ohms) in the thermostat. The amplifier converts this resistance into a DC voltage (0 to 12 volts DC with 0 volts high fire and 12 volts low fire). The output voltage is applied to the modulating gas valve to control the gas flow to the

5-565.116

START-UP PROCEDURE

main burner. As the temperature drops, the voltage drops causing the modulating valve to open further. If the discharge air temperature increases, the voltage increases causing the modulating valve to close allowing less gas flow to the main burner. For further information regarding the operation of the electronic modulating system, consult the literature provided with the unit.

8. The unit continues to operate in this manner until the thermostat is satisfied, at which time both the main and pilot valves close 100%. (If the unit was not provided with a time delay relay, the blower stops at this time.)

9. If the unit was provided with a time delay relay, the blower stops after 30 to 45 seconds.

Electronic Modulating Gas Controls Two & Three Furnaces - Model Sizes 500-960

One Master furnace is provided with up to two Slave furnaces that utilize electronic modulating/regulating gas controls, combination gas valves, ignition controls, one multiple furnace modulating amplifier, and either a modulating room thermostat or modulating duct thermostat with remote temperature adjuster. The thermostat controls can modulate the gas flow of all the furnaces between 40% through 100% full fire. The amplifier sends a signal to all of the gas valves so that they modulate at the same percentage. When the thermostat is satisfied, the amplifier cuts power to the combination gas valves which prevents gas flow to both the main and pilot burners.

The sequence of operation for Electronic Modulating Gas Controls - Two & Three Furnaces is the same as Electronic Modulating Gas Controls - Single Furnace.

Electronic Modulating Gas Controls Building Management Control (0-10 Vdc or 4-20 mA Signal)

Utilizes an electronic modulating/regulating gas control, combination gas valve, an ignition control, modulating signal conditioner, and an inverted (0 Vdc or 4 mA being high fire and 10 Vdc or 20 mA being low fire) 0-10 Vdc or 4-20 mA input signal provided by a Building Management System (BMS).

The signal conditioner can modulate the gas flow between 40% through 100% full fire. When the BMS thermostat (field supplied) is satisfied, the BMS heat contact (field supplied) opens to cut power to the combination gas valve which prevents gas flow to both the main and pilot burners.

1. The BMS thermostat (field supplied) calls for heat and closes

the BMS heat contact (field supplied).

2. The power exhauster relay is energized starting the power

exhauster motor. Once the motor has reached full speed, the differential pressure switch closes. The power exhauster relay pre-purge timer closes after 20 to 40 seconds energizing the gas control circuit.

3. The pilot valve opens and the spark ignitor sparks in an

attempt to light the pilot. (If the unit was not provided with a time delay relay, the blower starts at this time.)

4. Once the pilot is lit, the flame sensor proves the pilot and

stops the spark ignitor from sparking.

5. The main gas valve is opened and the main burner is lit to

100% full fire.

6. If the unit was provided with a time delay relay, the blower

starts after 30 to 45 seconds.

7. The modulating gas valve is controlled by the BMS

thermostat. The thermostat can modulate the firing rate between 40% through 100% full fire by modulating the

input signal between either 0-10 Vdc or 4-20 mA (The signal conditioner can accept a 0-10 Vdc signal when all the dip switches are in the “OFF” position and 4-20 mA signal when all the dip switches are in the “ON” position). The signal conditioner converts the input signal into a DC voltage (0 to 12 volts DC with 0 volts high fire and 12 volts low fire). The output voltage is applied to the modulating gas valve to control the gas flow to the main burner. As the temperature drops, the voltage drops causing the modulating valve to open further. If the discharge air temperature increases, the voltage increases causing the modulating valve to close allowing less gas flow to the main burner. For further information regarding the operation of the electronic modulating system, consult the literature provided with the unit.

8. The unit continues to operate in this manner until the thermostat is satisfied, at which time the BMS heat contact opens resulting in both the main and pilot valves closing 100%. (If the unit was not provided with a time delay relay, the blower stops at this time.)

9. If the unit was provided with a time delay relay, the blower stops after 30 to 45 seconds.

Variable Air Movement Applications

Units may be supplied with variable frequency drives for applications where variable air volume is required. The minimum air flow may be varied between 30 and 100% of the full speed air flow depending on the controls selection of the unit. Due to the extra restrictions of the controller all selections must be performed with the AccuSpec configuration software. Within AccuSpec, three variable frequency drive speed control changeover options are available:

1. Two speed which may be controlled by a manual high/low

switch which may be factory mounted on the control panel or shipped loose for field installation or by exhaust fan interlocks.

2. Floating building pressure sensing which utilizes a photohelic

pressure controller to adjust the building pressure by varying the amount of makeup air supplied to the the space.

3. Building management control which allows for an external

signal of 0-10VDC of 4-20mA to adjust the unit airflow.

Additionally, when the air mover supplied by others can provide variable air movement (i.e. 2-speed or variable frequency drive units), the allowable minimum CFM of the duct furnace can be 66% of the minimum listed CFM in Table 26.1 if the unit is applied as follows:

1. The unit is provided with 2-stage, mechanical modulation,

or electronic modulating gas controls. (see Model Identification).

2. The unit is provided with a factory installed discharge air

controller.

3. The system does not include a room thermostat.

The factory installed discharge air thermostat will prevent the unit from firing above the allowable 100°F rise when the unit is at or above the minimum CFM by monitoring the discharge air and going to low fire. A room thermostat, because it is located remote from the unit, could cause the unit to over-fire.

5-565.1 17

OPTIONS

(Shown with cover removed)

Thermostat body

Box

Control

Electrical

Duct Furnace

RBW

WBR

Left

Right

Adjuster

Setpoint

Capillary

43 40

Units with Premium Control Box

32 30

9 46

52 51 55 47

20 22

44 42 39 37 35 33 31

Options - Factory Installed

Figure 18.1 - Factory Mounted Option Locations

1. Discharge Thermostat

2. Low Gas Pressure Switch

3. High Gas Pressure Switch

4. Power Exhauster

5. Timed Freeze Protection

6. Ignition Controller

8. Control Relay

9. Differential Pressure Switch

10. Furnace Low Voltage Terminal Strip

12. Furnace Supply Power Terminal Strip

13. Control Step Down Transformer

14. Control Relay

15. Blower Low Voltage Terminal Strip

16. Dead Front Disconnect Switch

17. Step Down Transformer Fuses

18. Step Down Transformer

19. Factory Installed Minimum Positioner

20. Extended Grease Line Zerk Fittings

21. Extended Grease Lines

22. Return Air Fire Stat

23. Blower Housing

24. Pillow Block Bearings

25. Blower Motor

26. Filters

27. Fresh Air Damper

30. Direct Drive Damper Actuator

31. Enthalpy Controller

32. Damper to Damper Linkage

33. Return Air Damper

34. Proportional Temp Controller Sensor

35. Motor and Blower Vibration Isolation

36. Blower Support

All units include the standard (STD) features. The unit must be reviewed to determine the optional (OPT) features that may have been supplied with the unit.

(1) Discharge Thermostat – (OPT)

The discharge thermostat is factory installed in the discharge air stream of the unit. For additional information, refer to the thermostat vendor literature provided in the literature packet with the unit.

NOTE: Model Sizes 500-960 contain multiple furnaces so multiple thermostats/sensors may be included. The thermostat(s) provided can be one of the following:

a) Two-stage Capillary Type Thermostat – The thermostat

includes a thermostat body that is factory installed for cooling package units below the unit junction box. For blower package units the thermostat is factory wired and capilary is to be field installed in duct work. The thermostat body contains the discharge air set point adjuster that must be field set.

5-565.118

37. Convenience Outlet

38. Blower Door Switch

39. Dirty Filter Switch

40. Motor Starter/VFD Control

42. Proportional Temp Controller

43. Warm-Up Stat

44. Blower Supply Power Terminal Strip

45. Service Switches

46. Electronic Modulating Amplifier

47. Electronic Modulating Gas Valve

48. Air Flow Proving Switch

49. High Limit Switch

50. Supply Air Fire Stat

51. Main Gas Valve

52. Burner Box

55. Time Delay Relay

Figure 18.2 - Two-stage Capillary Type Thermostat

Duct Furnace Electrical Control

Setpoint Adjuster

Box

Thermostat body

(Shown with cover removed)

Capillary

OPTIONS

Duct Furnace Electrical Control Box

Air flow

Mixing Tube

Discharge air Sensor T e rminals

Gas Control Knob

Hydrostatic Sensing Bulb

OFF

Control Dial

Box

Control

Electrical

Duct Furnace

Sensor

Pressure adjustment screw

(High Pressure Switch only)

Reset Switch

T o p: cover removed

b) Two-stage Electronic Type Thermostat - Includes a

factory installed discharge air sensor. The thermostat body is field installed remotely and includes the discharge air set point adjuster that must be field set. Refer to Literature 5-577 latest revision.

Figure 19.1 - Two-stage Electronic Type Thermostat Sensor

Duct Furnace Electrical Control Box

Sensor

c) Mechanical Modulating Sensing Bulb - The mechanical

modulating valve includes a hydrostatic sensing bulb that is factory installed in the discharge air stream for cooling package units. For blower package units the sensing bulb is temporarilly afixed to the side of unit to be field installation in duct work. The discharge air temperature is field set by the control dial on the modulating gas valve. Refer to Control Operating Sequence - Mechanical Modulating Gas Controls for set point temperatures.

Figure 19.2 - Mechanical Modulating Sensing Bulb

Hydrostatic Sensing Bulb

Gas Control Knob

Control Dial

d) Electronic Modulating Discharge Air Thermostat –

Includes a factory installed mixing tube and discharge air sensor for cooling package units. For blower package units, the air sensor is factory wired but field installed in duct work. The set point adjuster is field installed remotely and must be field set. Refer to Literature 5-578 latest revision.

(2) Low Gas Pressure Switch – (OPT)

The low gas pressure switch is factory installed in the duct furnace above the gas train. The switch monitors the gas pressure upstream of all the gas controls and shuts off the electric supply to the ignition controller and combination gas valve if low gas pressure is experienced. This will shut off all gas flow to the burner. The switch has an automatic reset so that if the gas pressure is interrupted and then is returned, the switch will automatically allow the unit to operate when gas conditions are returned to the allowable range of the pressure switch. The pressure switch range is 2" to 14" W.C. and should be set to insure that the minimum inlet gas pressure is available (6" W.C. for natural gas, 11" W.C. for propane gas).

Figure 19.4 - Low or High Gas Pressure Switch

Reset Switch

(High Pressure Switch only)

Pressure adjustment screw

Top cover removed

(3) High Gas Pressure Switch – (OPT)

The high gas pressure switch is factory installed in the duct furnace above the gas train. The switch monitors the gas pressure downstream of all the gas controls and shuts off the electric supply to the ignition controller and combination gas valve if high gas pressure is experienced right before the manifold. This will shut off all gas flow to the burner. The switch has a manual reset so that if the gas pressure is too high, a service person must check the unit to make sure that none of the gas controls have been damaged by the high gas pressure and then reset the switch to allow the unit to operate when gas conditions are returned to the allowable range of the pressure switch. The pressure switch range is 2" to 16" W.C. and should be set to insure that the maximum manifold gas pressure is not exceeded (3.5" W.C. for natural gas, 10" W.C. for propane gas).

(5) Timed Freeze Protection – (OPT)

The timed freeze protection system is factory installed in the duct furnace electrical junction box with the sensor (30°-75°F adjustable) factory installed in the discharge air stream. On initial start-up, the timed delay in the system allows the unit to go through the normal ignition sequence. The timed delay is an automatic reset switch and adjustable for 1-10 minutes. In the event that the unit fails to fire after this period, the discharge air sensor will sense the cold air and will shut down the entire unit.

Figure 19.5 - Timed Freeze Protection Module

Figure 19.3 - Electronic Modulating Discharge Air Thermostat

5-565.1 19

OPTIONS

Belimo

100

instruction lable

Handle opening

Stand-off Panel

Blower Electrical Section

(See warning)

Supply Power Terminals

(with door open)

T o override turn shaft 90 C.W.

(6) Ignition Controller – (OPT)

The ignition controller is factory installed in the duct furnace electrical junction box with the spark ignitor and sensor located on the burner.

For both natural and propane gas units, the ignition controller is 100% shut-off with continuous retry. On a call for heat, the system will attempt to light the pilot for 70 seconds. If the pilot is not sensed for any reason, the ignition control will wait for approx imately six minutes with the combination gas control closed and no spark. After six minutes, the cycle will begin again. After three cycles, some ignition controllers lockout for approximately one hour before the cycle begins again. This will continue indefinitely until the pilot flame is sensed or power is interrupted to the system.

(8) Control Relay – (OPT)

The control relay is factory installed in the duct furnace electrical junction box. The relay has a 24V coil with doublepole, double throw (DPDT) contacts. Refer to the unit wiring diagram for the function of the switching operation of the relay. The two normally open and two normally closed contacts are rated for a maximum of 30 amps @ 115V/1Ph.

(9) Time Delay Relay – (STD)

The time delay relay is factory installed in the duct furnace electrical junction box. The time delay relay allows the gas controls to operate for approximately 30 seconds before the blower starts. This allows the heat exchanger a warm up period so that the initial delivered air coming out of the ductwork is not cool. The time delay relay also keeps the motor running for approximately 30 seconds after the call for heat has been satisfied to remove the residual heat from the heat exchanger. For single phase units below 2 Hp, the time delay relay controls the motor directly. For single phase units 2 Hp and greater and all three phase units, the time delay relay controls the motor starter.

(10) Furnace Low Voltage Terminal Strip – (STD)

The furnace low voltage terminal strip is located in the duct furnace electrical junction box. The terminal strip is labeled to match the electrical wiring diagram provided with the unit. Low voltage labeling ranges from terminal numbers 1 to 79. All field wiring connections should be made to the top side of the terminals to prevent miswiring by modifying the factory wiring which is made to the bottom of the terminal strip.

(12) Furnace Supply Power Terminal Strip – (STD)

The furnace supply power terminal strip is located in the duct furnace electrical junction box. The terminal strip is labeled to match the electrical wiring diagram provided with the unit. Supply power labeling ranges from terminal numbers 80 to 99. All field wiring connections should be made to the bottom side of the terminals to prevent miswiring by modifying the factory wiring which is made to the top of the terminal strip.

(13) Control Step Down Transformer – (STD)

The control step down transformer is located in the duct furnace electrical junction box. The transformer is used to step down the supply power (115V, 208V, 230V, 460V, 575V) to 24V. This transformer is used to control the gas controls, damper actuator, motor starter, etc. Refer to the unit model number to determine the volt- amp (VA) capacity of the duct furnace. The 15th digit indicates the VA (See Model Nomenclature).

(14) Control Relay – (OPT)

The control relay is factory installed in the electrical section. See description of Option 8 for additional details.

(15) Blower Low Voltage Terminal Strip – (STD)

The blower low voltage terminal strip is located in the electrical section. The terminal strip is labeled to match the electrical wiring diagram provided with the unit. Low voltage labeling ranges from terminal numbers 1 to 79. All field wiring connections should be made to the right side of the terminals to prevent miswiring by modifying the factory wiring which is made to the left side of the terminal strip.

(16) Dead Front Disconnect Switch – (OPT)

WARNING

When the dead front disconnect switch is in the “OFF” position, supply power remains energized at the blower supply power terminal strip and the top of the dead front disconnect switch. When providing service on or near these terminals, building supply power to the unit should be de-energized.

Figure 20.1 - Dead Front Disconnect Switch Assembly

Supply Power Terminals (See Warning)

Handle opening instruction table

Pinch handle latch (A) & handle (B) together when opening and closing door

To override turn shaft 90° C.W. (with door open)

Blower Electrical Section Stand-off Panel

The dead front disconnect switch is factory installed in the electrical section. The disconnect switch is designed so that it must be turned “OFF” before entry to the electrical control cabinet can be obtained (See Figure 20.1). When in the “OFF” position, power is disconnected to all unit wiring electrically following the switch (See Warning). To open, see Figure 20.1. For servicing the unit, the disconnect switch can be manually overridden by using a wrench and turning the disconnect switch shaft 90° clockwise (See Figure 20.1). Fusible and circuit breaker switches available. For fusible switches, Class “J” time delay fuses must be field provided matching the fuse size listed on the Model Identification plate.

(17) Step Down Transformer Fuses – (OPT)

The transformer fuses are factory installed in the electrical section. The fuses are included to protect the transformer. Fuses included.

(18) Step Down Transformer – (OPT)

The step down transformer is factory installed in the eletrical section. The transformer is required for power exhausted units with a supply voltage of 460V/3Ph and 575V/3Ph.

(19) Factory Installed Minimum Positioner – (OPT)

The factory installed minimum positioner is installed in the electrical section and is used with a modulating damper actuator to set the minimum percentage of outside air. The minimum positioner dial is manually set between 0 to 100% resulting in a 2 to 10 VDC signal being sent to the damper actuator. When used in conjunction with the Proportional Temp Controller, the positioner sets the minimum outside air percentage and the Proportional Temp Controller then modulates between the minimum position and 100% outside air.

Figure 20.2 - Minimum Positioner

5-565.120

OPTIONS

set to angle of rotation

Adjustable end switch

50% rotation limit

Actuator clamp at

Lock down with screw as shown.

(20) Extended Grease Line Zerk Fittings – (OPT) The extended grease line zerk fittings are factory installed on the exterior corner post between the electrical and blower sections. The zerk fittings allow pillow block bearings to be lubricated with a grease gun. Refer to Lubrication Recommendations for lubricant recommendations.

(21) Extended Grease Lines – (OPT)

The extended grease lines are factory installed in the blower section from the Extended Grease Line Zerk Fittings to the Pillow Block Bearings. The grease lines allow the pillow block bearings to be lubricated without requiring the service personnel to remove both blower doors to access the bearings.

(22) Return Air Fire Stat – (OPT) The return air fire stat is factory installed in the electrical section

with the sensor in the return air stream. In case of elevated temperatures in the return air stream, the manual reset switch shuts down the entire unit. If the limit temperature is exceeded, a service person must inspect the unit for the cause of the high discharge temperature, take corrective action, and then reset the switch.

(23) Blower Housing – (STD) The blower housing is factory installed in the blower section.

The blower housing contains a double width, double inlet (DWDI) blower wheel so both sides of the blower must be free from obstructions for proper operation. For Right Hand units (Digit 9 = R), during operation the blower wheel should rotate in the clockwise direction when viewed from the service side of the unit. For Left Hand units (Digit 9 = L), during operation the blower wheel should rotate in the counterclockwise direction when viewed from the service side of the unit. If necessary, interchange supply power wiring to reverse blower rotation.

(24) Pillow Block Bearings – (OPT)

The blower bearings are factory installed in the blower section. The blower can be provided with either spider or pillow block bearings. Spider bearings are permanently lubricated and do not require lubrication. Pillow block bearings are shipped nongreased from the factory and require lubrication before start-up. For lubrication recommendations, see Lubrication Recommendations.

(25) Blower Motor – (STD)

The blower motor is factory installed in the blower section. The blower motor can be provided in a variety of supply voltages, frame types, and motor horsepowers. Refer to the model nomenclature to determine the type of motor provided. The blower motor is supplied with an adjustable sheave that can be used to increase/decrease the blower RPM. For instructions on changing the blower RPM, refer to Blower Adjustments.

provided, is controlled by the damper linkage between the two dampers. All damper actuators are low voltage (24V). For Right Hand units (Digit 9 = R), during operation the actuator should rotate in the counterclockwise direction when viewed from the service side of the unit. For Left Hand units (Digit 9 = L), during operation the actuator should rotate in the clockwise direction when viewed from the service side of the unit. Three different types of dampers actuators can be provided: Two-position, Modulating, and Floating.

Two-position Damper Actuator: A two-position damper actuator is provided with Air Control options DA, EA, EQ, and FA (Digits 20 & 21). The two-position damper actuator provides open/ closed operation of the fresh air damper. When the damper is energized, the fresh air damper is opened to 100% outside air in 75 seconds (For units with a two-position damper limiter, the outside air percentage would be the set by the damper limiter. See Two-Position Damper Limiter below). All two-position damper actuators are spring return, so when the damper is de-energized, the fresh air damper will spring closed. All twoposition dampers include auxiliary switches (one normally open and one normally closed) that reverse when the damper actuator is at 85° rotation (adjustable).

Two-Position Damper Limiter: The two-position damper limiter is factory set to prevent the outside air damper from opening 100%. The outside air percentage and the actuator end switch is set based on the unit order.

Field adjustment of the two-position damper limiter is accom plished by the following:

1. Determine the amount of damper rotation required (Percentage of outside air).

2. Locate the angle of rotation limiter on the actuator so that its edge lines up with the degree graduation on the actuator face which corresponds with the required rotation. (See Figure 21.1 which is shown at 50% rotation limit.)

3. Find the appropriate cross-hair location through the slot of the limiter. This is the screw mounting location.

4. Pierce through the label material to allow easy fastening of the retaining screw.

5. Position the limiter back to the desired position, making sure the locating “teeth” on the limiter are engaged into the locating holes on the actuator.

6. Fasten the limiter to the actuator using the self tapping screw provided.

7. Test the damper rotation either manually with the manual crank or apply power and if required, a control signal. Readjust if necessary.

Figure 21.1 - Two-position damper actuator and limiter

(26) Filters – (OPT)

When filters are supplied with the unit, a rack and the filters are factory installed in the blower section. The unit can be supplied with 1" or 2" permanent filters, 2" FARR® Aeropleat MERV 7 or 2" FARR® 30/30 MERV 8 filters. For filter replacement, refer to Maintenance.

(27) Fresh Air Damper – (OPT)

When a fresh air damper is supplied with the unit, the damper is factory installed in the blower section. The fresh air damper is used as an outside air shut-off damper, so ultra low leak, Class II leakage resistance (less than 10 CFM/ft2 at 1" W.C.) dampers with self-compensating stainless steel side seals and santoprene and galvanized steel blade seals are used.

(30) Direct Drive Damper Actuator – (OPT)

The direct drive damper actuator is factory installed in the blower section on the side of the fresh air damper. The actuator controls the position of the fresh air damper. The return air damper, if

5-565.1 21

OPTIONS

Modulating Damper Actuator: A modulating damper actuator is provided with Air Control options GA, GB, GC, GD, GE, GF, GG, GH, GJ, GK, GM, and GN (Digits 20 & 21). The modulating damper actuator provides incremental operation of the fresh air damper (The return air damper is controlled by the fresh air damper position). Full 90° rotation of the modulating actuator requires 150 seconds. All modulating damper actuators operate using a 0-10 Vdc input signal (Air Control GB utilizes a resistor to convert from a 4-20 mA to 0-10 Vdc) from a damper controller. All modulating damper actuators are spring return, so when the damper is de-energized, the fresh air damper will spring closed.

Floating Damper Actuator: A floating damper actuator is provided with Air Control option HP (Digits 20 & 21). The floating damper actuator provides forward and reversing damper operation in response to contact closures from the space pressure controller. When the space pressure is above the desired set point, a high pressure contact on the space pressure controller energizes the damper to drive the fresh air damper closed. When the space pressure is below the desired set point, a low pressure contact on the space pressure controller energizes the damper to drive the fresh air damper open. When the space pressure is between the high and low set points, the damper “floats” at the fresh air percentage that satisfied the space pressure controller. Full 90° rotation of the floating actuator requires 150 seconds. For additional information on the space pressure controller, refer to Literature 5-585.

The damper actuator is designed to “float” and therefore it is not spring return. When the unit is de-energized under normal operation, the fresh air damper is closed by a relay contact closure which electrically drives the damper closed. If the supply power to the unit is interrupted before the damper actuator can drive closed, the fresh air damper will remain open. The damper can be manually closed through the use of the manual override switch on the floating damper actuator.

(31) Enthalpy Controller – (OPT) An enthalpy controller is provided with Air Control option GJ (Digits 20 & 21) and factory installed in the blower section. The purpose of the enthalpy controller is to use outside air for cooling, whenever possible, to reduce compressor operation of the mechanical cooling system. The economizer functions as a true first stage of cooling and provides maximum fuel economy during the cooling cycle.

The enthalpy controller is used in conjunction with the Enthalpy Sensor (not shown and field installed) and a mixed air temperature sensor (not shown). The mixed air temperature sensor is factory installed in the blower section to sense the combined temperature of the fresh and return air streams. The sensor is non-adjustable and when in the free cooling mode, modulates the dampers to maintain between 50°F and 56°F at the sensor.

The enthalpy controller contains a minimum position adjustment and an enthalpy changeover set point that must be field set.

Figure 22.1 - Enthalpy Controller

Minimum Position Adjustment: The minimum position adjustment keeps the outdoor air damper from closing completely during system operation to provide ventilation in both the heating and cooling modes.

To set the minimum position adjustment:

1. Disconnect mixed air sensor from terminals T and T1 on the enthalpy controller.

2. Make sure the factory installed jumper is in place across terminals P and P1.

3. Connect 24 Vac across terminals TR and TR1.

4. Adjust the minimum position adjustor with a screwdriver for the desired minimum position.

Figure 22.2 - Enthalpy Changeover Set Point Control Points

An enthalpy sensor is provided with Air Control option GJ and field installed in the inlet air stream. The enthalpy sensor senses and combines the temperature and humidity of the outdoor air to provide the 4-20 mA input signal to the Enthalpy Controller.

HEATING and VENTILATING MODE When the space thermostat calls for heat or it is in the fan ON position without a call for cooling (ventilation mode), the economizer is automatically locked out. It holds the outdoor air damper at the minimum position setting.

COOLING MODE When the space thermostat calls for cooling, the system operates as follows:

Outdoor Air Enthalpy is Below Changeover Set Point

1. The outdoor air damper is proportioned open (and the return air damper is proportioned closed) to maintain between 50°F and 56°F at the mixed temperature air sensor.

2. During economizer operation, mechanical cooling is operated by the second stage of the cooling on the space thermostat.

Outdoor Air Enthalpy is Above Changeover Set Point

1. The outdoor air damper is closed to its minimum position.

2. A call for cooling from the space thermostat brings on mechanical cooling.

5-565.122

OPTIONS

NONC

COM

Operating Point

Rest position

"Cheat Interlock" Point

Outdoor Enthalpy Changeover Set Point The outdoor enthalpy changeover set point returns the outdoor air damper to the minimum position when the enthalpy rises above its set point. Enthalpy set point scale markings, located on the enthalpy controller, are A, B, C, and D. See Figure 24.2 for the corresponding control point. The factory installed 620ohm jumper placed across terminals SR and + is required for proper operation and should not be removed. Refer to suppliers literature supplied with the unit for additional information.

(32) Damper to Damper Linkage – (OPT)

Units with fresh and return air dampers include a damper actuator that controls the fresh air damper. The return air damper position is controlled by the fresh air damper through the connecting rod. For adjustment, refer to Damper Linkage Adjustment.

(33) Return Air Damper – (OPT) When a return air damper is supplied with the unit, the damper is factory installed in the blower section. The return air damper is used as an air balancing damper so low leak, Class III leakage resistance (less than 40 CFM/ft2 at 1" W.C.) dampers with selfcompensating stainless steel side seals and santoprene blade seals are used.

(34) Proportional Temperature Controller Sensor – (OPT)

A proportional temperature controller sensor is provided with Air Control options GF, GG, GH, GK, GM, or GN (Digits 20 & 21) and factory installed in the blower section. The sensor provides the mixed air temperature signal to the A350P Proportional Temperature Controller which is mounted in the electrical section.

(35) Motor and Blower Vibration Isolation – (OPT) The motor vibration isolation is factory installed in the blower section below the blower support bracket. The four (4) 13/32" neoprene vibration mount grommet provides isolation of the blower housing and motor from the blower support channels. The blower vibration isolation is factory installed in the blower section between blower discharge and the blower duct connection. The blower duct connection is not rigidly mechanically fastened and the 1/4'' thick gasketing around the duct transition provides vibration isolation.

(36) Blower Support – (STD)

The blower supports are factory installed in the blower section. The blower supports are used to rigidly support the weight of the blower and motor during operation and shipping.

(37) Convenience Outlet – (OPT)

WARNING

Do not perform service on the convenience outlet without disconnecting its power supply. The convenience outlet power supply is separate from main power supply to the unit. When the main disconnect switch is de-energized,

the convenience outlet power supply remains energized.

section door on the access side of the unit. When the blower section door is removed, the momentary switch is released and interrupts power to the low voltage circuit. For single phase units 1-1/2 Hp and less, the door switch de-energizes a relay that controls blower motor operation. For three phase units and single phase units 2 Hp and greater, the door switch deenergizes the motor starter that controls blower motor operation. For servicing, the switch is equipped with an override position that can be manually pulled out to override the switch. See

Figure 23.1

Figure 23.1 - Blower Door Switch with Manual Override

(39) Dirty Filter Switch – (OPT) The dirty filter pressure switch is factory installed in the electrical section. The dirty filter pressure switch monitors the pressure differential between the two sides of the filters. When the filters become dirty, the differential pressure increases and trips the pressure switch which energizes a light on the remote monitoring panel. The pressure differential switch must be field set because setting the switch requires the blower to be in operation and the ductwork to be installed.

Setting the Dirty Filter Switch

The range of the dirty filter pressure switch is adjustable between 0.17" to 5.0" W.C.

1. Ensure that the unit filters are clean. Clean or replace if necessary.

2. Connect the leads of a continuity tester to the NO and C terminals of the dirty filter pressure switch. See Figure 23.2

3. Set the thermostat so that there is a call for heat. This should fire the burner and the blower should start.

4. Turn the set screw of the pressure switch clockwise until it stops. This will set the pressure at 5.0" W.C. and the continuity tester should be sensing an open circuit.

5. Begin turning the screw counterclockwise until the continuity tester senses a closed circuit. This determines the base pressure of the system.

6. Turn the screw clockwise until the continuity tester senses an open circuit and then one additional full turn (This is approximately 0.25" W.C.) This will allow for the increase in static

pressure due to dirty filters.

Figure 23.2 - Dirty Filter Pressure Switch and Air Flow Proving Switch

Positive pressure connector

Negative pressure connector

The convenience outlet is factory installed in the blower section for providing power for 115V service equipment (trouble light, power tools, etc.). The 115V ground fault circuit interrupter (GFCI) is rated for 15 amps and includes test and reset switches. A separate field supplied 115V/1Ph power supply must be routed through the electrical section wall into the back of the convenience outlet junction box.

(38) Blower Door Switch – (OPT)

The blower door switch is factory installed inside the blower

Pressure adjustment set screw

5-565.1 23

OPTIONS

DIAL

SET POINT

4 8 12 16 25

2 4 6 8 10

VOLT S

MILLIAMPS

CONTROLS

JOHNSON

A350 P

RESET

WINDOW

INDICATOR

TRIP

DIAL

SET POINT

CURRENT

R E S E T

96959798

T36T2

4T12

14NO6T34

T2T1

NO13L35L2

CONTACTOR

MODULE

OVERLOAD

MODULE

(40) Motor Starter – (OPT)

The motor starter is factory installed in the electrical section. A motor starter is required for all three phase motors and single phase motors 2 Hp and greater. The motor starter current set point dial is factory set to the motor full load amp draw listed on the motor nameplate.

(40) Variable Frequency Drive – (OPT)

The VFD controller adjusts the motor rpm to vary the unit air flow. The minimum air flow may be varied between 30 and 100% of the full speed air flow depending on the controls selection of the unit. The control changeover options are two speed, floating building pressure sensing, and building management control.

The overload module of the motor starter is designed to trip to protect the motor from exceeding the nameplate amps. If the motor exceeds the amp draw on the current set point dial, the trip condition is indicated by a red color in the trip indicator window. The motor starter can be placed in the automatic or manual reset positions. Automatic reset is accomplished by depressing the “RESET” button and turning the button 1/4 turn. When in the automatic reset position, if the overload module trips, the module will reset itself once the overload relay has cooled. In the manual reset position, if the overload module trips, the “RESET” button must be depressed before the blower can operate.

The contractor module includes one (1) normally open auxiliary contact. The contact rating is 10 amps.

If the factory installed motor starter option was not ordered with a unit that has a three phase motor or single phase motor 2 Hp or greater, a motor starter must be field supplied and installed.

Figure 24.1 - Motor Starter

Figure 24.2 - Proportional Temperature Controller

(44) Blower Supply Power Terminal Strip – (STD)

The blower supply power terminal strip is located in the electrical section. The terminal strip is labeled to match the electrical wiring diagram provided with the unit. Supply power labeling ranges from terminal numbers 80 to 99. All field wiring connections should be made to the bottom side of the terminals to prevent miswiring by modifying the factory wiring which is made to the top of the terminal strip.

(45) Service Switches – (OPT)

The service switches are factory installed in the electrical section. The service switches allow for service personnel to independently test operation of the damper, blower, and furnace without using jumper wires. The switches override the remote monitoring panel and/or thermostats to energize each component directly. All switches need to be reset to the “OFF” position after testing otherwise the components will remain energized.

(42) Proportional Temperature Controller – (OPT) A proportional temperature controller is provided with Air Control options GF, GG, GH, GK, GM, or GN (Digits 20 & 21) and factory installed in the electrical section. The controller compares the mixed air temperature set point and the mixed air temperature from the Proportional Temperature Controller Sensor. The controller sends a 2-10 Vdc signal to the modulating damper actuator in order to maintain the set point. The controller includes a set point dial that must be field set to the desired mixed air temperature (typically 55°F).

(43) Warm-Up Stat – (OPT)

A warm-up stat is provided with Air Control options GK, GM, or GN (Digits 20 & 21) and factory installed in the electrical section with the sensor in the return air stream. The warm-up thermostat monitors the return air temperature to the unit and prevents the fresh air dampers from opening until the temperature of the return air has reached the desired set point (typically 65°F or 5°F below the room temperature).

Figure 24.3 - Service Switches

(46) Electronic Modulation Amplifier – (OPT)

An electronic modulation amplifier is provided factory installed in the duct furnace electrical junction box when the unit is equip ped with Electronic Modulating Gas Controls (Digit 12 = 4 or 5). The amplifier processes the thermostat temperature and set point signals to modulate the firing rate between 40% to 100% full fire. For additional information, refer to Control Operating Sequence.

5-565.124

OPTIONS

(47) Electronic Modulating Gas Valve – (OPT)

An electronic modulating gas valve is provided factory installed in the duct furnace gas train when the unit is equipped with Electronic Modulating Gas Controls (Digit 12 = 4, 5, 6, 7, or 8). The gas valve modulates the firing rate between 40% to 100% full fire based on the input signal from the Electronic Modulation Amplifier or Signal Conditioner. For additional information, refer to Control Operating Sequence.

(48) Air Flow Proving Switch – (OPT)

The air flow proving switch is factory installed in the duct furnace electrical junction box. The air flow proving switch monitors the pressure differential between the duct furnace and the atmosphere. The purpose of the air flow proving switch is to cut power to the gas controls if a positive pressure is not measured by the switch. This could be caused by a lack of air movement through the heat exchanger.

NOTE: The air flow proving switch will prevent any heat

exchanger warm-up because the gas controls can not be energized until air flow is proven.

Setting the Air Flow Proving Switch

The range of the air flow proving switch is adjustable between 0.17" to 5.0" W.C.

1. Set the thermostat so that there is a call for heat. This should start the blower and then the burner ignition sequence.

2. Turn the set screw of the pressure switch clockwise until it stops. This will set the pressure at 5.0" W.C.

3. Turn the screw counter-clockwise until the gas controls light and then one additional full turn (This is approximately 0.25'' W.C.). This will allow for dirty filters or any other slight static pressure increases in the system.

(55) Differential Pressure Switch

A differential pressure switch is supplied on all power vented duct furnaces and is designed to prevent operation of the main burner in the event there is improper venting through the vent system. This may occur due to a restricted vent, inadequate vent draw, uninsulated vent pipe in cold ambient or long vent runs, excessive vent diameter, restricitve vent terminal, negative pressure within space, etc. See Troubleshooting section for more information.

(Not Shown) Circuit Analyzer – (OPT)

The circuit analyzer is factory installed on the door of the electrical section. The circuit analyzer is used to quickly assist service personnel in troubleshooting by monitoring the unit firing sequence and vital operating steps. Lights will come on as a point of electrical operation is passed and proven. If any light is not lit, that is the point where failure occurred.

Figure 25.1 - Circuit Analyzer

Circuit analyzer tagging will vary based on the unit ordered. Circuit analyzer shown is for reference only.

(49) High Limit Switch

Automatic – (STD) The automatic reset high limit switch is factory installed in the duct furnace electrical junction box. If the limit temperature is exceeded, the gas controls are de-energized until the switch is cooled.

Manual – (OPT) The manual reset high limit switch is factory installed in place of the standard automatic reset high limit switch located in the duct furnace electrical junction box. In case of a failure of the blower motor, blockage of the inlet air, etc., the manual reset switch prevents the unit from cycling on the high limit. If the limit temperature is exceeded, a service person must inspect the unit for the cause of the high discharge temperature, take corrective action, and then reset the switch.

(50) Supply Air Fire Stat – (OPT)

The supply air fire stat is factory installed in the duct furnace electrical junction box with the sensor in the discharge air stream. In case of elevated temperatures in the supply air stream, the manual reset switch shuts down the entire unit. If the limit temperature is exceeded, a service person must inspect the unit for the cause of the high discharge temperature, take corrective action, and then reset the switch.

(51) Main Gas Valve – (STD)

The main gas valve is factory installed in the duct furnace gas train. The main gas valve provides the pilot, regulator, main gas, and manual shutoff functions. For additional information, see the supplier literature included with the unit.

(52) Burner Box – (STD)

The burner box is located in the duct furnace section and contains the burner and pilot assembly. The burner box includes an access panel for removal of the burner for inspection and servicing.

5-565.1 25

GENERAL PERFORMANCE DATA

Table 26.1 - General Performance Data - Models With Blower

Model Size (Digits 4-6) 75 100 125 150 175

Btu/Hr Input ➀ 75,000 10,0000 125,000 150,000 175,000

Btu/Hr Output ➀ 60,000 80,000 100,000 120,000 140,000

Blower Style (Digit 16 Letter) A or B C or D C or D E or F C or D E or F C or D E or F C or D E or F

Max. Temp. Rise (°F) 100 100 100 85 100 100 100 100 100 100

Min. Temp. Rise (°F) 28 20 21 20 27 20 33 20 39 23

Max. CFM 1980 2778 3450 3704 3450 4630 3350 5556 3350 5556

Min. CFM ➁ 556 556 741 875 926 926 1111 1111 1296 1296

Model Size (Digits 4-6) 200 225 250

Btu/Hr Input ➀ 200,000 225,000 250,000

Btu/Hr Output ➀ 160,000 180,000 200,000

Blower Style (Digit 16 Letter) C or D E or F G or H C or D E or F G or H E or F G or H I, J, or K

Max. Temp. Rise (°F) 100 85 85 100 95 95 100 100 96

Min. Temp. Rise (°F) 44 28 23 49 32 26 31 26 20

Max. CFM 3400 5250 6500 3400 5250 6500 6000 7250 9259

Min. CFM ➁ 1481 1750 1750 1667 1750 1750 1852 1852 1925

Model Size (Digits 4-6) 300 350 400

Btu/Hr Input ➀ 300,000 350,000 400,000

Btu/Hr Output ➀ 240,000 280,000 320,000

Blower Style (Digit 16 Letter) E or F G or H I, J, or K E or F G or H I, J, or K E or F G or H I, J, or K

Max. Temp. Rise (°F) 100 100 100 100 100 100 100 100 100

Min. Temp. Rise (°F) 37 31 20 45 37 22 52 42 25

Max. CFM 6000 7250 11111 5700 7000 12000 5700 7000 12000

Min. CFM ➁ 2222 2222 2222 2593 2593 2593 2963 2963 2963

Model Size (Digits 4-6) 500 600 700

Btu/Hr Input ➀ 500,000 600,000 700,000

Btu/Hr Output ➀ 400,000 480,000 560,000

Blower Style (Digit 16 Letter) G or H I, J, or K L G or H I, J, or K L G or H I, J, or K L

Max. Temp. Rise (°F) 120 120 120 120 120 120 120 120 120

Min. Temp. Rise (°F) 53 40 40 63 40 40 76 40 40

Max. CFM 7000 9259 9259 7000 11111 11111 6850 12963 12963

Min. CFM ➁ 3086 3086 3086 3704 3704 3704 4321 4321 4321

Model Size (Digits 4-6) 800 840 960

Btu/Hr Input ➀ 800,000 1,050,000 1,200,000

Btu/Hr Output ➀ 640,000 840,000 960,000

Blower Style (Digit 16 Letter) G or H I, J, or K L I, J, or K L I, J, or K L

Max. Temp. Rise (°F) 120 120 120 120 120 120 120

Min. Temp. Rise (°F) 87 46 41 60 60 68 63

Max. CFM 6850 13000 14500 13000 13000 13000 14000

Min. CFM ➁ 4938 4938 4938 6481 6481 7407 7407

➀ Ratings are shown for elevations up to 2000 ft. For higher elevations the input rating should be reduced at the rate of 4% for each 1000 feet above sea level.

For Canada, in elevations between 2000 and 4500 feet, the unit must be derated to 90% of the rating listed above.

➁ For Variable Air Movement Applications, see page 17.

5-565.126

GENERAL PERFORMANCE DATA

Table 27.1 - Air Temperature Rise

Btu/Hr ➀ Air Temperature Rise through Unit (°F)

Input Output 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 Max CFM Min➁

75,000 60,000 2778 2222 1852 1587 1389 1235 1111 1010 926 855 794 741 694 654 617 585 556

100,000 80,000 3704 2963 2469 2116 1852 1646 1481 1347 1235 1140 1058 988 926 871 823 780 741

125,000 100,000 4630 3704 3086 2646 2315 2058 1852 1684 1543 1425 1323 1235 1157 1089 1029 975 926

150,000 120,000 5556 4444 3704 3175 2778 2469 2222 2020 1852 1709 1587 1481 1389 1307 1235 1170 1111

175,000 140,000 - 5185 4321 3704 3241 2881 2593 2357 2160 1994 1852 1728 1620 1525 1440 1365 1296

200,000 160,000 - 5926 4938 4233 3704 3292 2963 2694 2469 2279 2116 1975 1852 1743 1646 1559 1481

225,000 180,000 - 6667 5556 4762 4167 3704 3333 3030 2778 2564 2381 2222 2083 1961 1852 1754 1667

250,000 200,000 9259 7407 6173 5291 4630 4115 3704 3367 3086 2849 2646 2469 2315 2179 2058 1949 1852

300,000 240,000 11111 8889 7407 6349 5556 4938 4444 4040 3704 3419 3175 2963 2778 2614 2469 2339 2222

350,000 280,000 - 10370 8642 7407 6481 5761 5185 4714 4321 3989 3704 3457 3241 3050 2881 2729 2593

400,000 320,000 - 11852 9877 8466 7407 6584 5926 5387 4938 4558 4233 3951 3704 3486 3292 3119 2963

Btu/Hr ➀ Air Temperature Rise through Unit (°F)

Input Output 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 Max CFM Min➁

500,000 400,000 9259 8230 7407 6734 6173 5698 5291 4938 4630 4357 4115 3899 3704 3527 3367 3221 3086

600,000 480,000 11111 9877 8889 8081 7407 6838 6349 5926 5556 5229 4938 4678 4444 4233 4040 3865 3704

700,000 560,000 12963 11523 10370 9428 8642 7977 7407 6914 6481 6100 5761 5458 5185 4938 4714 4509 4321

800,000 640,000 14500 13000 11852 10774 9877 9117 8466 7901 7407 6972 6584 6238 5926 5644 5387 5153 4938

1,050,000 840,000 - - - - 12963 11966 11111 10370 9722 9150 8642 8187 7778 7407 7071 6763 6481

1,200,000 960,000 - - - - - 13675 12698 11852 11111 10458 9877 9357 8889 8466 8081 7729 7407

➀ Ratings are shown for elevations up to 2000 ft. For higher elevations the input rating should be reduced at the rate of 4% for each 1000 feet above sea level. For

Canada, in elevations between 2000 and 4500 feet, the unit must be derated to 90% of the rating listed above.

➁ For Variable Air Movement Applications, see page 17.

Air Temperature Limits

The maximum allowable discharge air temperature is 150°F. The maximum allowable air temperature rise per furnace for Low Air Temperature Rise Units is 60°F. All system units are designed for a maximum allowable total static pressure of

3.0" W.C.

5-565.1 27

UNIT SELECTION

Selection Procedure

In order to properly select an indirect-fired heating, ventilating, cooling or make-up air unit, it is necessary to have the following basic information.

1. Required air handling capacity (CFM).

The air capacity of the unit is usually determined by the

ventilation air requirements, exhaust load of the building, infiltration losses, or the air turns/changes of the space.

2. Outdoor and indoor design temperature.

The outdoor design temperature is determined by using

the ASHRAE Guide design temperatures for the city where the equipment is to be installed. For heating and ventilating units, the desired room temperature would be used as the indoor design temperature. In the case of 100% make-up air units, the discharge air temperature should be at least equal to the temperature of the air being exhausted.

3. Required heating output capacity (Btu/Hr).

The heating output capacity of the unit is determined by

using the formula:

BTU/HR = CFM x Temp. Rise (°F) x 1.08

4. External static pressure to unit.

The external static pressure (E.S.P.) is determined using

the ASHRAE Guide for duct losses, or may be provided by the design engineer.

5. Unit configuration with options and accessories (Filters or dampers).

The unit configuration is determined by the location

where the unit is to be installed. The critical options and accessories are those that add internal static pressure (I.S.P.) to the unit. Once these items are determined, the pressure drop curves would be used to calculate the total pressure drop (T.S.P.)

Total Static Pressure = Internal + External Static Pressure

6. Heat exchanger material.

The heat exchanger type is determined by the application.

The standard heat exchanger material is aluminized steel. A 409 stainless steel heat exchanger and burner is recommended when the unit is installed downstream of a cooling coil or evaporative cooler, and when the combined entering/return air to the unit is below 40°F.

7. Type of fuel.

Either natural or propane gas determined by the design

engineer.

8. Gas control staging method.

Either single stage, two stage, mechanical modulation, or

electronic modulation determined by the design engineer.

9. Main power supply voltage to unit.

10. Altitude at which unit is to be installed.

With this information a basic unit can be selected as shown in the following example.

Selection Example Conditions

Select an indirect-fired, 100% make-up air unit to meet the following conditions:

1. CFM at sea level = 5,000 cfm

2. Outdoor design temp. = 10°F Indoor design temp. = 70°F

3. Heating output capacity = 5000 cfm x (70°F -10°F) x 1.08 = 324,000 Btu/Hr

4. External Static Pressure = 0.65

5. The unit with the controls on the Right Hand Side is to be provided with the following:

2" Permanent Filters, and Fresh Air Damper.

6. Heat exchanger and burner = 409 Stainless Steel.

7. Gas Type = Natural

8. Gas Controls = Electronic Modulating with Duct Sensing.

9. Supply Voltage: 460V/60Hz/3Ph

10. Altitude: 1000 feet

With the information listed above, the basic model, using the Model Nomenclature shown on page 55, can be selected as shown in the following example:

1. Determine the Model Configuration and Venting:

The Model Configuration is determined by the required

sections of the unit (Blower only) and the venting style (power vented) that are obtained from item #5. Using the Model Nomenclature on page 55, the Model Configuration and Venting = DBP.

2. Determine the Furnace Input Rating (MBH):

Using the Heating output capacity, the Furnace Input

Rating is determined from Table 26.1. The closest model to 324,000 Btu/Hr output has an Btu/Hr Input rating of 400,000 Btu/Hr so the Furnace Input Rating = 400.

3. Determine the Heat Exchanger/Burner/Drip Pan

Material:

From item #2 in Selection Example Conditions, the Heat

Exchanger and Burner required are 409 Stainless Steel. Because the Drip Pan material is not specified, the standard Aluminized Steel drip pan will be used. Thus, the Heat Exchanger/Burner/Drip Pan Material = S.

4. Determine the Development Sequence:

From item #8 in Selection Example Conditions, the

modulating gas controls result in the Development Sequence = M.

5. Determine the Access Side:

From item #5 in Selection Example Conditions, the Right

Hand Gas controls result in the Access Side = R.

6. Determine the Air Temperature Rise:

From item #2 in Selection Example Conditions, the Air

Temperature Rise is 60°F (70°F - 10°F). However, using the output capacity of the DBP400 @ 5000 cfm, the resulting temperature rise is 59.3°F (320,000/(5000 x 1.08)). Since the rise is less than 60°F, the air baffle must remain in place.

7. Determine the Gas Type:

From item #7 in Selection Example Conditions, the Natural

Gas results in the Gas Type = N.

8. Determine the Gas Valve:

From item #8 in Selection Example Conditions, the

Electronic Modulating with Duct Sensing results in the Gas Valve = 4.

9. Determine the Additional Safety Switches:

Since no additional safety switches were specified, the

Additional Safety Switches = 0.

5-565.128

UNIT SELECTION

10. Determine the Supply Voltage:

From item #9 listed above, the 460V/60Hz/3Ph results in the

Supply Voltage = F.

11. Determine the Transformer:

For DBP/DCP models, a 75VA Transformer is required.

Thus, the Transformer = 2.

12. Determine the Blower Size and Bearing Type:

Using Table 26.1, the Model Size 400 has three available

blowers for which the performance tables are shown on pages 30-33. Since all of the blower performance curves can provide the required 5000 cfm, the total static pressure must be determined.

A) The Pressure Drop of an option or accessory is

determined by entering the right of the table at the desired cfm and reading up the table until the cfm intersects the desired item. For this example, in table

30.1 the 2'' Permanent Filter line is used. At the point of intersection, read across the table to the left and read the pressure drop, in inches of water column for the filters. For this example, the pressure drop is 0.06'' W.C. As a result:

For the Model Size 400 with Digit 16 = E,F,G, or H:

2'' Permanent Filters: 0.06" W.C. Internal Static Pressure Drop 0.06" W.C.

The Total Static Pressure for the system is determined by

Internal Static + External Static = Total Static Pressure

For this example 0.06'' + 0.65'' = 0.71'' W.C. T.S.P.

13. Determine the Motor Horsepower:

The motor horsepower determined in step 12 was a 3 Hp.

Since the supply voltage is 460V/60Hz/3Ph, a motor starter will need to be provided either with the unit or by others. For purposes of this selection, a motor starter by others will be

used so the Motor Horsepower = G.

14. Determine the Motor Type:

The motor type was not specified so for purposes of this

selection the standard open drip proof motor will be used so the Motor Type = 1.

15. Determine the Sheave Arrangement:

To establish the Sheave Arrangement, the motor frame size

must be determined. The Motor Data tables on pages 38 to 42 contain the motor frame size.

A) Using the Supply Voltage (460V/60Hz/3Ph), enter the

correct Motor Data table (Table 41.1). Using Model Nomenclature Digits 17 and 18 (G1) determined in steps

13 and 14, find the motor frame size (182T).

B) Using the Motor Frame Size enter the Sheave Selection

table for the selected blower determined by step 13 (Table 35.2). Using the rpm calculated in step 12 (870 rpm), select the sheave range that contains the required rpm. Find the intersection with the Motor Frame Size to determine the Sheave Selection. For this example with a 182T frame with 870 rpm, from Table

35.2, the Sheave Arrangement = I.

From page 30, for the Model Size 400 with Digit 16 = I, J, or K: 2'' Permanent Filters: 0.04'' W.C. Internal Static Pressure Drop 0.04'' W.C.

The Total Static Pressure for the system is determined by

Internal Static + External Static = Total Static Pressure

For this example 0.04'' + 0.65'' = 0.69'' W.C. T.S.P.

B) Using the total static pressure (T.S.P.) calculated in step

12a, use blower performance tables for the Model Size 400 (Table 32.1).

Using Table 32.1, enter the table at the required 5000

cfm for E, F blowers, and follow the cfm line up the right until it intersects with the T.S.P. line of 0.75'' W.C. which is shown at the top of the table. At the point of intersection of these two columns, read the required horsepower and blower rpm. Repeat this process for

1.00”T.S.P. and literate to determine the BHP and rpm for

0.89” W.C. For this example the horsepower is 5 and the blower rpm is 1280.

Following this procedure for G,H blowers (Using 5000

cfm and 0.89'' W.C. T.S.P), the horsepower is 5 hp and 920 rpm. Following this procedure for I,J,H blowers (Using 5000 cfm and 0.87'' W.C. T.S.P), the horsepower is 3hp and 700 rpm. Although I,J,H blowers results in a 3 hp motor, this blower requires the use of the extended cabinet length. As a result, for purposes of this selection example G,H will be used.

Since the Bearing Type was not specified, the standard

spider bearings will be used. Thus, using Table 32.1 with spider bearings, the Blower Size and Bearing Type = G.

16. Determine the Air Control: The Air Control option is selected based on the required

damper configuration. The available damper selections are detailed on page 21. For this selection, a 100% fresh air unit

without return air was required so the Air Control = DA.

17. Determine the Evaporative Cooler: An evaporative cooler is not available, so for purposes of

this selection the Evaporative Cooler = 0.

18. Determine the Cooling Coil: A cooling coil cabinet was not specified so for purposes of

this selection the Cooling Coil = 0.

Based on the previous steps, the model number for the base unit is the following:

DBP400SMRLN40F2GG1IDA00

Once the basic model has been determined, the additional options and accessories outlined on page 18 to 25 can be added to the unit.

5-565.1 29

OPTION & ACCESSORY PRESSURE DROP DATA

Table 30.1 - Option & Accessory Pressure Drop Tables (in ''W.C.) ➀

All Units Weatherproof Unit Only

Unit Size Digit 16 CFM

556 0.01 0.01 0.02 0.03 0.01 0.05 0.02 0.07 0.00 0.01 0.00 600 0.01 0.01 0.02 0.03 0.01 0.05 0.02 0.07 0.00 0.01 0.01 800 0.02 0.01 0.03 0.04 0.02 0.08 0.04 0.12 0.01 0.02 0.01 1000 0.02 0.02 0.04 0.05 0.03 0.11 0.06 0.17 0.01 0.03 0.01 1200 0.03 0.02 0.05 0.06 0.04 0.14 0.08 0.22 0.02 0.03 0.01

75 A,B,C,D

100/125 C,D,E,F

150/175 C,D,E,F

200/225 C,D,E,F,G,H

E,F,G,H

250/300 500/600

I,J,K,L

E,F,G,H

350/400 700/800 840/960

I,J,K,L

1400 0.03 0.03 0.06 0.07 0.06 0.17 0.11 0.29 0.03 0.04 0.02 1600 0.04 0.04 0.07 0.09 0.08 0.21 0.15 0.36 0.04 0.06 0.02 1800 0.04 0.04 0.08 0.10 0.10 0.25 0.19 0.44 0.05 0.07 0.03 2000 0.05 0.05 0.10 0.11 0.12 0.30 0.23 0.53 0.06 0.08 0.03 2300 0.06 0.07 0.11 0.13 0.16 0.37 0.31 0.68 0.08 0.11 0.04 2778 0.08 0.09 0.15 0.16 0.23 0.51 0.45 0.96 0.12 0.15 0.06 741 0.01 0.02 0.02 0.02 0.01 0.06 0.02 0.08 0.00 0.03 0.01 1000 0.02 0.02 0.03 0.04 0.02 0.08 0.04 0.12 0.01 0.05 0.01 1500 0.03 0.04 0.05 0.07 0.04 0.14 0.08 0.23 0.02 0.07 0.02 2000 0.05 0.06 0.07 0.10 0.08 0.21 0.15 0.36 0.04 0.10 0.03 2500 0.07 0.08 0.10 0.14 0.12 0.30 0.23 0.53 0.07 0.13 0.04 3000 0.09 0.11 0.13 0.19 0.17 0.40 0.34 0.73 0.11 0.16 0.05 3500 0.11 0.13 0.16 0.24 0.23 0.51 0.46 0.97 0.15 0.19 0.07 4000 0.14 0.16 0.20 0.30 0.30 0.63 0.60 1.23 0.19 0.22 0.09 4500 0.17 0.20 0.25 0.37 4000 Max CFM for Evap 0.25 0.25 0.11 4630 0.17 0.21 0.26 0.39 0.26 0.26 0.11 1111 0.01 0.02 0.03 0.04 0.01 0.07 0.03 0.09 0.02 0.02 0.01 1500 0.02 0.03 0.04 0.05 0.03 0.10 0.05 0.15 0.02 0.03 0.01 2000 0.03 0.04 0.06 0.08 0.04 0.15 0.09 0.24 0.04 0.05 0.02 2500 0.05 0.06 0.09 0.11 0.07 0.20 0.14 0.34 0.05 0.08 0.02 3000 0.06 0.08 0.11 0.15 0.10 0.27 0.20 0.46 0.07 0.10 0.04 3500 0.08 0.11 0.14 0.18 0.14 0.34 0.27 0.61 0.10 0.14 0.05 4000 0.11 0.13 0.18 0.23 0.18 0.41 0.35 0.77 0.13 0.18 0.06 4500 0.13 0.16 0.21 0.27 0.23 0.50 0.45 0.95 0.17 0.22 0.08 5000 0.16 0.19 0.25 0.32 0.28 0.59 0.55 1.15 0.21 0.27 0.10 5200 0.17 0.21 0.27 0.34 0.30 0.63 0.60 1.23 0.23 0.29 0.11 5556 0.19 0.23 0.30 0.38 5200 Max CFM for Evap 0.26 0.33 0.13 1481 0.01 0.02 0.03 0.03 0.02 0.08 0.04 0.12 0.02 0.03 0.01 2000 0.01 0.02 0.04 0.04 0.03 0.12 0.07 0.19 0.03 0.05 0.01 2500 0.02 0.04 0.05 0.06 0.05 0.17 0.10 0.27 0.04 0.08 0.02 3000 0.03 0.05 0.07 0.08 0.08 0.22 0.15 0.36 0.06 0.10 0.04 3500 0.03 0.06 0.09 0.10 0.10 0.27 0.20 0.47 0.09 0.14 0.05 4000 0.05 0.08 0.11 0.12 0.13 0.33 0.27 0.60 0.11 0.18 0.06 4500 0.06 0.10 0.13 0.15 0.17 0.40 0.34 0.73 0.14 0.22 0.08 5000 0.07 0.11 0.16 0.18 0.21 0.47 0.42 0.89 0.18 0.27 0.10 5500 0.09 0.14 0.19 0.21 0.25 0.55 0.50 1.05 0.21 0.32 0.12 6000 0.11 0.16 0.22 0.25 0.30 0.63 0.60 1.23 0.26 0.38 0.14 6500 0.13 0.18 0.25 0.28 6000 Max CFM for Evap 0.30 0.45 0.16 1852 0.03 0.02 0.05 0.05 0.02 0.10 0.05 0.15 0.02 0.07 0.02 2000 0.03 0.03 0.05 0.06 0.03 0.11 0.06 0.17 0.02 0.08 0.02 2500 0.04 0.04 0.07 0.09 0.04 0.15 0.09 0.24 0.03 0.09 0.03 3000 0.05 0.06 0.10 0.11 0.06 0.19 0.13 0.32 0.04 0.12 0.04 3500 0.07 0.08 0.12 0.15 0.09 0.24 0.17 0.41 0.06 0.14 0.06 4000 0.08 0.10 0.15 0.18 0.11 0.29 0.23 0.52 0.08 0.16 0.07 4500 0.10 0.13 0.18 0.22 0.15 0.35 0.29 0.64 0.10 0.19 0.09 5500 0.14 0.19 0.25 0.31 0.22 0.48 0.43 0.91 0.15 0.25 0.13 6500 0.19 0.26 0.34 0.42 0.30 0.63 0.60 1.23 0.21 0.31 0.18 7250 0.23 0.32 0.41 0.51 6500 Max CFM for Evap 0.27 0.37 0.23 1925 0.02 0.01 0.03 0.03 0.01 0.05 0.02 0.08 0.02 0.07 0.02 3000 0.03 0.03 0.05 0.05 0.03 0.10 0.05 0.15 0.04 0.12 0.04 4000 0.05 0.05 0.08 0.09 0.04 0.15 0.09 0.23 0.08 0.16 0.07 5000 0.08 0.08 0.11 0.12 0.07 0.20 0.14 0.34 0.12 0.22 0.11 6000 0.11 0.11 0.15 0.16 0.10 0.26 0.20 0.46 0.18 0.28 0.16 7000 0.15 0.15 0.19 0.21 0.14 0.34 0.27 0.61 0.25 0.35 0.21 8000 0.19 0.20 0.24 0.27 0.18 0.41 0.35 0.77 0.33 0.42 0.28 9000 0.24 0.25 0.30 0.33 0.23 0.50 0.45 0.95 0.42 0.51 0.35 10400 0.32 0.33 0.38 0.42 0.30 0.64 0.60 1.23 0.57 0.64 0.47 11111 0.36 0.38 0.43 0.47 10400 Max CFM for Evap 0.66 0.71 0.53 2593 0.02 0.02 0.04 0.04 0.03 0.10 0.05 0.16 0.02 0.03 0.01 3000 0.02 0.02 0.05 0.05 0.04 0.13 0.07 0.20 0.03 0.04 0.01 3500 0.03 0.03 0.06 0.06 0.05 0.16 0.10 0.25 0.04 0.05 0.01 4000 0.03 0.04 0.07 0.08 0.06 0.19 0.13 0.32 0.05 0.07 0.01 4500 0.04 0.05 0.09 0.10 0.08 0.23 0.16 0.39 0.06 0.09 0.02 5000 0.05 0.06 0.10 0.12 0.10 0.27 0.20 0.47 0.07 0.11 0.02 5500 0.06 0.07 0.12 0.14 0.12 0.31 0.24 0.55 0.09 0.14 0.03 6000 0.06 0.08 0.14 0.17 0.15 0.36 0.29 0.64 0.10 0.17 0.04 6500 0.07 0.10 0.16 0.19 0.17 0.40 0.34 0.74 0.12 0.20 0.04 7000 0.08 0.11 0.18 0.22 0.20 0.45 0.39 0.85 0.14 0.23 0.05 2593 0.02 0.01 0.02 0.02 0.02 0.08 0.03 0.11 0.02 0.03 0.01 3000 0.02 0.02 0.02 0.03 0.02 0.09 0.04 0.14 0.03 0.04 0.01 4000 0.03 0.03 0.04 0.04 0.04 0.14 0.08 0.22 0.05 0.07 0.01 5000 0.04 0.04 0.05 0.06 0.06 0.19 0.12 0.31 0.07 0.11 0.02 6000 0.06 0.05 0.07 0.08 0.09 0.25 0.18 0.42 0.10 0.17 0.04 7000 0.07 0.07 0.10 0.11 0.12 0.31 0.24 0.55 0.14 0.23 0.05 8000 0.09 0.09 0.12 0.13 0.16 0.38 0.32 0.70 0.19 0.30 0.08 9000 0.11 0.12 0.15 0.16 0.20 0.46 0.40 0.86 0.24 0.38 0.10 10000 0.13 0.14 0.18 0.19 0.25 0.54 0.50 1.04 0.30 0.48 0.14 11050 0.15 0.17 0.22 0.23 0.31 0.64 0.61 1.24 0.36 0.58 0.17 12000 0.18 0.20 0.26 0.27 0.43 0.69 0.21 13000 0.20 0.24 0.30 0.31 0.51 0.81 0.26

1'' Permanent

Filters

2'' Permanent

Filters

2'' Farr

Aeropleat

Filters

2'' Farr 30/30

Filters

Evap Cooler

6'' Media

Evap Cooler

6'' Media

w/Prefilter

4000 Max CFM for Evap

11050 Max CFM for Evap

Evap Cooler

12'' Media

Evap Cooler

12'' Media

w/Prefilter

Downturn

Plenum

➀ Accesssory / Option static pressure losses are approximate values only. Please consult the Accuspec selection software for static

pressure losses at other than listed CFM.

5-565.130

Rainhood and

Birdscreen

Discharge

Damper

BLOWER PERFORMANCE DATA

Table 31.1 - Unit Performance Tables

Air Digit Temp. Unit Size 16 Rise CFM

100/125 C,D Start 125

100/125 E,F

End 100

150/175 C,D Start 175

150/175 E,F

200/225 C,D Start 225

200/225 E,F

200/225 G,H

A,B

C,D

100°F / -

79°F / 69°F / 56°F / 46°F / 40°F / 35°F / 31°F / 69°F / 56°F / 46°F / 40°F / 35°F / 31°F / 28°F / 24°F / 20°F / -

100°F / 80°F/100°F 62°F/77°F 53°F/66°F 41°F/51°F 34°F/42°F 28°F/36°F 25°F/31°F 41°F/51°F 34°F/42°F 28°F/36°F 25°F/31°F 22°F/27°F 20°F/25°F

- / 23°F

- / 20°F 100°F/117°F 86°F/100°F 79°F/93°F 62°F/72°F 51°F/59°F 43°F/50°F 37°F/43°F 86°F/100°F 79°F/93°F 62°F/72°F 51°F/59°F 43°F/50°F 37°F/43°F 33°F/38°F 29°F/34°F 26°F/31°F 24°F/28°F 21°F/25°F 100°F/113°F 89°F/100°F 85°F/95°F 74°F/83°F 66°F/74°F 59°F/67°F 54°F/61°F 49°F/56°F 85°F/95°F 74°F/83°F 59°F/67°F 49°F/56°F 42°F/48°F 37°F/42°F 33°F/37°F 30°F/33°F 85°F/95°F 74°F/83°F 59°F/67°F 49°F/56°F 42°F/48°F 37°F/42°F 33°F/37°F 30°F/33°F 27°F/30°F 25°F/28°F

➀ Total static pressure should include external static pressure and accessory / option static pressure from Table 30.1. Unit internal resistance has

been included in the unit performance tables.

➁ Brake Horsepower and RPM values are approximate values only. Please consult the AccuSpec selection software for values at other than listed

CFM / static pressures.

0.25 0.50 0.75 1.00 1.25 1.50 2.00 2.50 3.00

BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM

556 0.09 679 0.15 871 0.22 1031 0.29 1170 0.37 1296 0.45 1411 0.63 1617 0.81 1800 1.01 1968 700 0.14 747 0.21 924 0.29 1074 0.37 1206 0.46 1327 0.55 1438 0.75 1638 0.95 1818 1.17 1982 800 0.18 801 0.26 966 0.35 1109 0.44 1237 0.54 1354 0.64 1462 0.84 1658 1.06 1832 1.30 1996 1000 0.29 917 0.39 1062 0.50 1192 0.60 1310 0.72 1419 0.83 1522 1.07 1709 1.32 1879 - 1200 0.45 1042 0.57 1171 0.69 1289 0.82 1397 0.94 1499 1.08 1595 1.35 1773 - - - 1400 0.66 1173 0.80 1288 0.94 1395 1.08 1495 1.23 1589 1.38 1680 - - - - - 1600 0.93 1308 1.09 1412 1.25 1509 1.42 1601 - - - - - - - - - 1800 1.28 1445 1.46 1539 - - - - - - - - - - - - - 800 - - 0.15 795 0.21 960 - - - - - - - - - - - 1000 - - 0.20 822 0.28 975 0.36 1112 - - - - - - - - - 1200 0.19 705 0.27 862 0.35 1003 0.44 1131 0.54 1250 0.65 1361 - - - - - 1400 0.27 770 36.00 912 0.45 1041 0.55 1161 0.66 1273 0.77 1377 1.00 1572 - - - 1600 0.37 839 0.47 968 0.57 1087 0.68 1199 0.80 1304 0.92 1403 1.17 1589 1.44 1760 1.72 1920 1800 0.49 912 0.60 1030 0.72 1139 0.84 1244 0.96 1343 1.09 1437 1.36 1613 1.65 1777 1.94 1931 2000 0.65 987 0.77 1095 0.90 1197 1.03 1295 1.16 1388 1.30 1477 1.59 1645 1.89 1802 2.20 1950 2300 0.94 1104 1.08 1200 1.22 1292 1.37 1380 1.52 1465 1.67 1547 1.98 1703 2.31 1850 2.65 1990 2778 1.59 1296 1.75 1377 1.92 1456 2.09 1532 2.26 1606 2.44 1679 2.80 1818 - - - 741 - - 0.15 808 0.23 962 0.30 1093 0.38 1212 0.47 1320 0.60 1514 0.86 1686 1.07 1840 926 0.13 670 0.21 846 0.29 993 0.38 1121 0.47 1236 0.56 1342 0.77 1532 0.99 1702 1.22 1856 1200 0.22 758 0.31 916 0.41 1052 0.52 1173 0.62 1282 0.74 1384 0.97 1568 1.22 1733 1.48 1884 1400 0.30 828 0.41 975 0.53 1103 0.64 1218 0.76 1323 0.89 1422 1.15 1600 1.42 1762 1.70 1910 1800 0.55 982 0.69 1108 0.83 1220 0.98 1325 1.12 1422 1.27 1513 1.58 1681 1.90 1834 2.23 1976 2200 0.93 1145 1.10 1254 1.27 1354 1.44 1449 1.61 1537 1.79 1621 2.15 1778 2.52 1923 2.90 2057 2600 1.45 1315 1.65 1410 1.85 1500 2.05 1585 2.25 1666 2.46 1744 1.35 1638 - - - 3000 2.16 1489 2.39 1573 2.61 1654 2.84 1731 - - - - - - - - - 1800 0.28 497 0.41 622 0.56 735 0.72 837 - - - - - - - - - 2200 0.43 553 0.58 662 0.75 762 0.93 855 1.12 942 1.33 1025 - - - - - 2600 0.63 614 0.81 710 1.00 800 1.20 885 1.41 965 1.63 1042 - - - - - 3000 0.91 680 1.11 766 1.32 847 1.54 1731 1.77 997 2.01 1068 2.51 1202 3.04 1328 3.60 1446 3400 1.26 748 1.48 825 1.72 899 1.96 970 2.21 1038 2.47 1104 3.01 1229 3.58 1347 4.17 1459 3704 1.58 802 1.83 873 2.08 942 2.34 1008 2.60 1072 2.88 1135 3.45 1254 4.04 1367 4.67 1474 4100 2.09 873 2.35 938 2.63 1001 2.91 1062 3.20 1122 3.49 1180 4.10 1291 4.74 1398 - 4630 2.93 969 3.23 1028 3.53 1085 3.84 1140 4.16 1194 4.48 1247 - - - - - 1111 0.19 727 0.28 884 0.38 1023 0.48 1148 0.59 1262 0.70 1369 0.94 1563 1.21 1738 1.48 1899 1296 0.27 793 0.37 937 0.47 1066 0.59 1184 0.71 1293 0.83 1395 1.09 1582 1.37 1752 1.66 1909 1400 0.32 832 0.42 970 0.54 1093 0.66 1208 0.78 1313 0.91 1412 1.18 1596 1.47 1763 1.78 1917 1800 0.59 994 0.72 1109 0.86 1216 1.00 1316 1.15 1410 1.30 1500 1.62 1667 1.95 1823 2.29 1967 2200 1.00 1166 1.16 1264 1.32 1356 1.49 1444 1.66 1529 1.84 1610 2.20 1762 2.57 1906 2.96 2041 2600 1.58 1344 1.76 1429 1.95 1510 2.14 1589 2.34 1664 2.54 1737 2.95 1877 - - - 3000 2.35 1526 2.57 1600 2.78 1673 3.00 1743 - - - - - - - - - 1296 - - 0.25 609 0.37 734 - - - - - - - - - - - 1400 0.17 474 0.28 615 0.40 737 - - - - - - - - - - - 1800 0.28 526 0.41 650 0.55 760 0.70 859 0.85 952 - - - - - - - 2200 0.44 588 0.59 697 0.75 796 0.91 887 1.09 972 1.27 1052 1.67 1201 - - - 2600 0.67 657 0.83 753 1.01 842 1.19 925 1.39 1004 1.59 1078 2.02 1218 2.47 1348 2.96 1469 3000 0.96 729 1.15 815 1.35 895 1.55 972 1.76 1044 1.98 1114 2.45 1245 2.94 1368 3.45 1483 3400 1.35 804 1.55 881 1.77 955 2.00 1025 2.23 1092 2.47 1157 2.96 1280 3.49 1396 4.03 1505 3800 1.82 880 2.05 951 2.29 1018 2.53 1083 2.79 1146 3.04 1206 3.58 1322 4.14 1431 4.72 1535 4200 2.40 959 2.66 1023 2.92 1085 3.18 1145 3.45 1204 3.73 1260 4.30 1369 4.90 1472 - 4700 3.30 1058 3.58 1116 3.87 1172 4.16 1227 4.46 1281 4.76 1333 - - - - - 5200 4.40 1158 4.71 1212 - - - - - - - - - - - - - 1481 0.36 871 0.48 1016 0.60 1144 0.73 1259 0.85 1366 0.99 1465 1.26 1646 1.54 1808 1.84 1958 1667 0.48 943 0.61 1078 0.75 1198 0.88 1309 1.03 1411 1.17 1507 1.47 1682 1.77 1842 2.09 1988 1750 0.54 975 0.68 1106 0.82 1224 0.96 1332 1.11 1433 1.26 1527 1.57 1700 1.88 1857 2.21 2003 2000 0.76 1077 0.92 1197 1.08 1306 1.24 1407 1.40 1502 1.57 1592 1.91 1758 2.26 1910 2.62 2051 2250 1.04 1181 1.21 1291 1.39 1393 1.57 1488 1.75 1577 1.94 1663 2.31 1822 2.69 1969 - 2500 1.38 1288 1.57 1389 1.77 1484 1.97 1573 2.17 1658 2.37 1739 2.78 1892 - - - 2750 1.79 1396 2.00 1490 2.22 1579 2.44 1663 2.66 1743 2.88 1820 - - - - - 3000 2.28 1506 2.51 1593 2.75 1677 2.98 1756 - - - - - - - - - 1750 0.29 594 0.43 723 0.58 838 0.75 944 0.94 1042 1.14 1134 1.58 1303 2.07 1458 2.60 1600 2000 0.40 642 0.54 759 0.71 866 0.88 966 1.08 1058 1.28 1146 1.74 1309 2.23 1458 2.78 1595 2500 0.68 746 0.85 845 1.04 938 1.23 1025 1.45 1108 1.67 1188 2.15 1337 2.67 1475 3.24 1604 3000 1.09 857 1.29 942 1.50 1024 1.72 1101 1.95 1176 2.19 1248 2.71 1384 3.27 1511 3.86 1632 3500 1.66 972 1.88 1047 2.12 1119 2.36 1188 2.61 1255 2.88 1320 3.43 1455 4.03 1563 - 4000 2.40 1091 2.65 1157 2.91 1221 3.18 1284 3.46 1345 3.75 1404 4.35 1518 4.98 1628 - 4500 3.34 1211 3.62 1270 3.91 1329 4.21 1385 4.51 1441 4.82 1495 - - - - - 5000 4.52 1332 4.82 1387 - - - - - - - - - - - - - 1750 0.20 425 0.33 546 0.48 653 - - - - - - - - - - - 2000 0.26 449 0.40 562 0.56 662 0.74 754 - - - - - - - - - 2500 0.42 507 0.58 603 0.75 692 0.94 774 1.16 851 1.38 925 - - - - - 3000 0.65 571 0.83 654 1.02 732 1.23 807 1.45 877 1.69 944 2.21 1071 - - - 3500 0.97 639 1.17 713 1.38 782 1.60 850 1.84 914 2.10 975 2.64 1093 3.23 1202 3.86 1307 4000 1.38 710 1.60 776 1.83 839 2.08 899 2.34 958 2.60 1014 3.18 1123 3.80 1226 4.46 1324 4500 1.90 783 2.14 842 2.40 899 2.66 955 2.94 1008 3.23 1061 3.84 1161 4.48 1258 - 5000 2.54 858 2.81 911 3.08 963 3.37 1014 3.67 1064 3.98 1112 4.62 1206 - - - 5500 3.32 933 3.61 982 3.91 1030 4.22 1077 4.54 1123 4.87 1168 - - - - - 6000 4.25 1009 4.57 1054 4.89 1099 - - - - - - - - - - - -

➀ ➁

Total Static Pressure, ''W.C.

5-565.1 31

BLOWER PERFORMANCE DATA

Table 32.1 - Unit Performance Tables

Air Digit Temp. Unit Size 16 Rise

250/300 E,F Start 300

250/300 Start 300

250/300

End 250

350/400 E,F

Start 400

350/400 G,H Start 40

350/400 I,J,K Start 400

G,H

I, J, K

0.25 0.50 0.75 1.00 1.25 1.50 2.00 2.50 3.00

CFMM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM

100°F / 120°F 83°F / 100°F 74°F / 89°F 62°F / 74°F 53°F / 63°F 46°F / 56°F 41°F / 49°F 37°F / 44°F 34°F / 40°F 100°F / 120°F 83°F / 100°F 74°F / 89°F 62°F / 74°F 53°F / 63°F 46°F / 56°F 41°F / 49°F 37°F / 44°F 34°F / 40°F 31°F / 37°F 28°F / 34°F 46°F / 56°F 37°F / 44°F 31°F / 37°F 26°F / 32°F 23°F / 28°F 20°F / 24°F

- / 22°F

- / 20°F 100°F / 96°F / 87°F / 100°F 74°F / 85°F 65°F / 74°F 58°F / 66°F 52°F / 59°F 47°F / 54°F 100°F / 87°F / 100°F 74°F / 85°F 65°F / 74°F 58°F / 66°F 52°F / 59°F 47°F / 54°F 43°F / 49°F 40°F / 46°F 100°F / 87°F / 100°F 65°F / 74°F 52°F / 59°F 43°F / 49°F 37°F / 42°F 32°F / 37°F 29°F / 33°F 26°F / 30°F 24°F / 27°F 23°F / 26°F

1852 0.26 532 0.39 665 0.54 782 0.69 887 0.85 985 1.03 1074 1.39 1239 1.79 1387 2.21 1523 2222 0.39 582 0.54 703 0.70 810 0.87 909 1.05 1000 1.24 1085 1.64 1242 2.06 1385 2.52 1517 2500 0.51 625 0.68 736 0.85 836 1.04 930 1.23 1016 1.43 1099 1.85 1250 2.30 1389 2.78 1517 3000 0.80 706 0.99 803 1.19 893 1.40 978 1.62 1058 1.84 1133 2.31 1275 2.81 1406 3.33 1529 3500 1.19 793 1.41 878 1.64 959 1.87 1036 2.12 1109 2.36 1179 2.88 1312 3.42 1435 3.99 1552 4000 1.69 882 1.94 958 2.20 1032 2.46 1102 2.73 1170 3.01 1234 3.58 1358 4.17 1474 4.78 1584 4500 2.34 974 2.62 1043 2.90 1109 3.19 1174 3.49 1236 3.79 1296 4.41 1412 - - - 5000 3.14 1067 3.44 1130 3.76 1191 4.08 1250 4.40 1308 4.73 1364 - - - - - 5500 4.11 1161 4.44 1219 4.78 1275 - - - - - - - - - - - 1852 - - 0.34 519 0.49 623 0.66 713 0.85 795 1.05 870 1.47 1005 1.94 1126 2.44 1237 2222 0.28 424 0.43 537 0.61 634 0.79 721 0.99 800 1.20 872 1.65 1005 2.14 1123 2.67 1231 2500 0.35 447 0.52 553 0.71 646 0.90 730 1.11 806 1.33 877 1.81 1006 2.32 1123 2.87 1230 3000 0.53 492 0.72 588 0.93 674 1.15 752 1.38 824 1.62 892 2.13 1016 2.68 1129 3.27 1232 3500 0.76 542 0.98 878 1.21 707 1.45 780 1.71 848 1.97 912 2.52 1031 3.11 1140 3.74 1240 4000 1.07 594 1.31 673 1.57 746 1.83 814 2.11 878 2.39 939 2.99 1052 3.62 1156 4.28 1253 4500 1.45 649 1.72 721 2.00 789 2.29 852 2.59 912 2.90 969 3.54 1077 4.22 1177 4.92 1270 5000 1.92 706 2.22 771 2.52 834 2.84 894 3.16 950 3.50 1004 4.18 1107 4.90 1202 - 5500 2.50 767 2.81 824 3.14 882 3.49 938 3.83 991 4.19 1042 4.93 1140 - - - 6000 3.16 822 3.52 878 3.87 933 4.24 984 4.61 1035 5.00 1084 - - - - - 6500 3.96 881 4.34 934 4.72 984 - - - - - - - - - - - 4000 - - 0.97 507 1.25 583 1.56 654 1.89 719 2.24 781 - - - - - 5000 - - 1.51 560 1.84 626 2.19 688 2.56 748 2.95 804 3.77 908 4.67 1005 - 6000 1.94 559 2.29 620 2.66 679 3.06 734 3.46 787 3.89 838 4.79 935 5.75 1025 6.77 1110 7000 2.93 632 3.33 686 3.75 738 4.19 788 4.64 836 5.11 882 6.09 971 7.13 1055 8.22 1134 8000 4.24 707 4.69 755 5.16 802 5.64 847 6.14 891 6.65 933 7.72 1015 8.83 1093 10.00 1167 9259 6.40 804 6.91 846 7.45 887 7.99 927 8.55 966 9.12 1004 10.30 1079 11.52 1150 12.79 1218 10000 7.97 862 8.52 901 9.09 939 9.67 977 10.27 1014 10.87 1050 12.12 1120 13.41 1187 14.74 1252 11111 10.79 949 11.40 985 12.03 1020 12.66 1054 13.31 1087 13.97 1121 - - - - - 2593 0.61 668 0.80 781 1.01 882 1.22 975 1.45 1061 1.69 1142 2.19 1290 2.73 1425 3.30 1550 2700 0.67 686 0.87 796 1.08 895 1.30 986 1.53 1071 1.78 1151 2.29 1297 2.84 1431 3.42 1555 2963 0.85 730 1.06 834 1.28 928 1.52 1015 1.76 1097 2.02 1174 2.56 1316 3.13 1446 3.74 1568 3500 1.30 826 1.54 917 1.80 1002 2.07 1081 2.34 1157 2.62 1228 3.22 1362 3.84 1486 4.50 1602 4000 1.86 918 2.13 1000 2.42 1078 2.71 1151 3.01 1221 3.32 1288 3.97 1414 4.65 1531 - 4500 2.57 1012 2.87 1087 3.18 1158 3.51 1226 3.84 1291 4.18 1353 4.88 1472 - - - 5000 3.44 1109 3.78 1177 4.12 1242 4.47 1305 4.84 1366 - - - - - - - 5500 4.50 1206 4.87 1269 - - - - - - - - - - - - - 2593 0.43 479 0.62 585 0.84 679 1.09 764 1.35 841 1.64 1142 2.26 1046 2.94 1165 3.68 1275 2963 0.57 516 0.79 614 1.02 702 1.28 782 1.56 856 1.86 926 2.50 1053 3.20 1170 3.96 1277 3500 0.85 574 1.09 662 1.35 742 1.63 815 1.93 885 2.25 951 2.93 1072 3.66 1183 4.45 1287 4000 1.19 631 1.45 710 1.74 784 2.04 853 2.36 918 2.70 980 3.41 1096 4.19 1202 - 4500 1.61 690 1.91 762 2.22 830 2.55 895 2.89 956 3.25 1014 4.00 1124 4.81 1226 - 5000 2.22 767 2.46 817 2.80 880 3.15 940 3.52 998 3.90 1053 4.70 1157 - - - 5500 2.77 813 3.12 874 3.49 933 3.87 989 4.25 1042 4.66 1095 - - - - - 6000 3.53 876 3.91 933 4.30 987 4.70 1040 - - - - - - - - - 6500 4.42 939 4.82 992 - - - - - - - - - - - - - 2593 - - - - 0.77 561 1.04 639 1.34 709 1.66 774 2.36 891 3.14 995 4.00 1090 2963 - - - - 0.89 571 1.18 646 1.49 715 1.81 779 2.54 894 3.34 997 4.20 1091 4000 - - 1.07 533 1.37 609 1.69 679 2.03 742 2.40 802 3.18 910 4.04 1009 4.96 1099 5000 1.37 515 1.69 590 2.04 658 2.41 721 2.79 779 3.19 835 4.05 937 4.98 1030 5.96 1117 6000 2.20 588 2.58 654 2.97 715 3.39 772 3.82 826 4.26 877 5.20 973 6.21 1061 7.26 1144 7000 3.34 665 3.77 723 4.22 778 4.68 830 5.16 879 5.65 927 6.68 1016 7.77 1099 8.90 1178 8000 4.84 744 5.33 796 5.83 845 6.34 893 6.87 938 7.41 982 8.53 1066 9.70 1144 10.92 1219 9000 6.75 824 7.29 871 7.85 917 8.41 960 8.99 1002 9.58 1043 10.80 1121 12.07 1194 13.37 1265 10000 9.13 906 9.72 948 10.33 990 10.95 1030 11.58 1069 12.22 1107 13.54 1180 14.90 1249 - 11000 12.01 988 12.66 1027 13.32 1065 14.00 1103 14.68 1139 - - - - - - - 11500 13.66 12.09 14.34 1067 - - - - - - - - - - - - - -

➀ ➁

Total Static Pressure, ''W.C.

➀ Total static pressure should include external static pressure and accessory / option static pressure from Table 30.1. Unit internal resistance has been

included in the unit performance tables.

➁ Brake Horsepower and RPM values are approximate values only. Please consult the AccuSpec selection software for values at other than listed

CFM / static pressures.

5-565.132

BLOWER PERFORMANCE DATA

Table 33.1 - Unit Performance Tables

➀ ➁

Air Total Static Pressure Inches "W.C.

Unit Temp 0.25 0.50 0.75 1.00 1.25 1.50 2.00 2.50 3.00 Size Digit 16 Rise CFM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM

500/600 G or H

Start 600

500/600 I, J, K Start 600

End 500

500/600 L

Start 500

700/800 G or H

Start 800

700/800 I, J, K Start 800

700/800 L

End 700

840/960 I, J, K

End 840

840/960 L

End 840

➀ Total static pressure should include external static pressure and accessory / option static pressure from Table 30.1. Unit internal resistance has been included in the

unit performance tables.

➁ Brake Horsepower and RPM values are approximate values only. Please consult the AccuSpec selection software for values at other than listed CFM / static

pressures.

120°F / - 3086 0.62 529 0.82 620 1.03 703 1.26 779 1.50 849 1.75 916 2.28 1038 2.84 1149 3.44 1252 106°F / - 3500 0.84 575 1.06 658 1.30 736 1.54 807 1.80 874 2.07 937 2.63 1054 3.23 1162 3.86 1262 100°F / 120°F 3704 0.97 598 1.20 678 1.45 753 1.70 822 1.97 887 2.25 949 2.83 1064 3.44 1170 4.09 1268 93°F / 111°F 4000 1.18 633 1.43 709 1.69 779 1.96 846 2.24 908 2.53 968 3.14 1080 3.78 1183 4.45 1279 82°F / 99°F 4500 1.61 693 1.88 762 2.17 827 2.46 889 2.77 948 3.09 1001 3.74 1110 4.43 1208 - 74°F / 89°F 5000 2.13 755 2.43 818 2.75 878 3.07 936 3.40 991 3.74 1044 4.44 1145 - - - 67°F / 81°F 5500 2.77 818 3.10 876 3.44 932 3.79 986 4.15 1038 4.51 1088 - - - - - 62°F / 74°F 6000 3.53 882 3.89 936 4.25 988 4.63 1038 - - - - - - - - - 57°F / 68°F 6500 4.41 946 4.80 996 - - - - - - - - - - - - - 120°F / - 3086 0.46 401 0.69 496 0.95 580 1.23 657 - - - - - - - - - 100°F / 120°F 3704 0.69 443 0.95 527 1.23 604 1.54 675 - - - - - - - - - 93°F / 111°F 4000 0.82 464 1.09 544 1.39 618 1.71 686 2.05 749 2.42 810 - - - - - 74°F / 89°F 5000 1.43 542 1.75 609 2.09 673 2.46 733 2.84 790 3.24 844 4.09 946 5.01 1041 - 62°F / 74°F 6000 2.31 624 2.68 682 3.07 738 3.48 791 3.91 842 4.35 891 5.29 984 6.28 1072 7.33 1155 53°F / 63°F 7000 3.51 709 3.94 760 4.38 809 4.84 857 5.31 903 5.80 947 6.82 1032 7.90 1113 9.03 1191 46°F / 56°F 8000 5.09 797 5.57 842 6.07 886 6.58 928 7.10 970 7.64 1010 8.75 1089 9.92 1163 11.13 1235 41°F / 49°F 9000 7.11 885 7.65 926 8.20 965 8.76 1001 9.33 1042 9.92 1079 11.13 1151 12.38 1220 13.69 1287

- / 44°F 10000 9.62 975 10.21 1012 10.81 1048 11.43 1083 12.05 1118 12.69 1152 14.00 1218 15.35 1283 - -

- / 43°F 10400 10.77 1011 11.38 1046 12.01 1081 12.64 1115 13.29 1149 13.95 1182 15.30 1247 - - - -

- / 40°F 11000 12.66 1065 13.31 1099 13.97 1132 14.64 1164 15.32 1197 16.01 1228 17.42 1290 - - - -

- / 40°F 11111 13.04 1075 13.69 1109 14.36 1141 15.03 1174 15.72 1205 16.41 1237 17.83 1298 - - - 62°F / 74°F 6000 1.69 512 1.97 565 2.26 615 2.57 664 2.89 710 3.23 755 - - - - - 53°F / 63°F 7000 2.57 580 2.89 626 3.22 671 3.56 714 3.92 756 4.29 797 5.06 874 - - - 46°F / 56°F 8000 3.73 650 4.09 691 4.46 731 4.84 770 5.23 808 5.64 845 6.47 916 7.35 984 - 41°F / 49°F 9000 5.21 721 5.60 758 6.01 795 6.43 830 6.86 864 7.30 898 8.21 964 9.16 1027 10.14 1088

- / 44°F 10000 7.04 793 7.48 827 7.93 860 8.39 892 8.85 924 9.33 955 10.31 1016 11.33 1074 12.38 1131

- / 43°F 10400 7.88 823 8.34 855 8.80 887 9.28 918 9.76 949 10.25 979 11.26 1038 12.31 1095 13.38 1150

- / 40°F 11000 9.27 866 9.75 897 10.24 927 10.74 957 11.24 986 11.76 1015 12.81 1071 13.90 1126 - -

- / 40°F 11111 9.54 874 10.03 905 10.52 935 11.02 964 11.53 993 12.05 1022 13.12 1078 14.21 1132 - 120°F / - 4321 1.51 685 1.80 760 2.11 830 2.43 896 2.77 958 3.13 1018 3.88 1131 4.69 1236 - 115°F / - 4500 1.68 708 1.98 780 2.30 847 2.63 912 2.98 973 3.34 1032 4.11 1142 4.94 1245 - 105°F / 120°F 4938 2.15 763 2.48 89 2.82 893 3.17 953 3.54 1011 3.93 1066 4.74 1172 - - - 104°F / 119°F 5000 2.23 770 2.55 836 2.90 899 3.26 959 3.63 1016 4.02 1072 4.83 1176 - - - 94°F / 108°F 5500 2.89 834 3.25 895 3.62 953 4.00 1009 4.40 1063 4.81 1116 - - - - - 86°F / 99°F 6000 3.68 900 4.06 956 4.46 1010 4.87 1062 - - - - - - - - - 80°F / 91°F 6500 4.61 965 - - - - - - - - - - - - - - - 120°F / - 4321 0.87 443 1.14 421 1.42 591 1.72 657 2.04 717 2.37 774 3.08 879 3.84 974 4.65 1063 104°F / 119°F 5000 1.26 488 1.55 558 1.87 623 2.20 683 2.54 740 2.90 794 3.66 894 4.47 985 5.33 1071 86°F / 99°F 6000 2.02 558 2.36 619 2.73 677 3.10 731 3.49 782 3.89 832 4.73 924 5.62 1010 6.55 1091 65°F / 74°F 8000 4.44 707 4.89 755 5.35 801 5.82 845 6.30 888 6.79 930 7.81 1009 8.87 1085 9.96 1156 58°F / 66°F 9000 6.19 784 6.69 827 7.20 869 7.72 909 8.25 949 8.79 987 9.90 1061 11.04 1131 12.23 1199 52°F / 59°F 10000 8.36 861 8.91 901 9.47 939 10.04 976 10.62 1012 11.21 1048 12.42 1117 13.66 1183 14.93 1246 47°F / 54°F 11000 11.00 940 11.60 976 12.22 1011 12.84 1045 13.47 1079 14.11 1112 15.41 1176 16.74 1238 - 43°F / 49°F 12000 14.16 1019 14.81 1052 15.48 1085 16.15 1117 16.83 1148 17.52 1179 18.92 1239 - - - 40°F / 46°F 13000 17.88 1098 18.59 1129 19.30 1159 - - - - - - - - - - - 65°F / 74°F 8000 3.26 566 3.60 611 3.95 654 4.31 696 4.67 736 5.05 774 5.84 848 6.66 918 7.51 984 58°F / 66°F 9000 4.54 626 4.92 667 5.30 706 5.70 744 6.10 780 6.52 816 7.37 885 8.25 950 9.17 1012 52°F / 59°F 10000 6.13 687 6.54 724 6.97 760 7.40 794 7.85 828 8.30 861 9.22 925 10.17 987 11.15 1046 47°F / 54°F 11000 8.06 749 8.52 782 8.98 815 9.45 847 9.93 879 10.42 910 11.41 969 12.43 1027 13.48 1083 47°F / 54°F 11050 8.17 752 8.62 785 9.09 818 9.56 850 10.04 881 10.53 912 11.53 972 12.56 1029 13.61 1084 43°F / 49°F 12000 10.37 811 10.86 842 11.37 872 11.88 902 12.40 931 12.92 960 13.99 1016 15.08 1070 16.20 1123 40°F / 46°F 13000 13.09 873 13.63 902 14.17 930 14.72 958 15.27 986 15.83 1013 16.98 1065 18.14 1116 19.33 1166

- / 42°F 14000 16.26 936 16.83 963 17.41 989 18.00 1015 18.59 1041 19.19 1066 - - - - - -

- / 41°F 14500 18.02 968 18.61 994 19.21 1019 19.82 1045 - - - - - - - - - 120°F / - 6481 2.72 630 3.09 685 3.48 736 3.88 785 4.30 832 4.72 876 5.60 960 6.52 1038 7.48 1112 111°F / - 7000 3.36 672 3.76 723 4.17 772 4.60 818 5.04 863 5.49 905 6.42 986 7.38 1061 8.39 1133 105°F / 120°F 7407 3.93 705 4.35 754 4.79 800 5.23 845 5.69 888 6.16 929 7.13 1007 8.13 1081 9.17 1151 97°F / 111°F 8000 4.87 754 5.33 799 5.90 843 6.27 885 6.76 926 7.26 965 8.28 1040 9.33 1111 10.43 1179 86°F / 99°F 9000 6.80 837 7.31 878 7.83 918 8.36 956 8.90 994 9.44 1030 10.56 1100 11.71 1166 12.90 1230 78°F / 89°F 10000 9.20 921 9.76 958 10.33 995 10.91 1030 11.50 1065 12.10 1099 13.32 1164 14.56 1226 - 70°F / 80°F 11050 12.28 1010 12.89 1044 13.52 1078 14.16 1110 14.80 1142 15.45 1173 16.77 1234 - - - 65°F / 74°F 12000 15.60 1091 16.27 1123 16.95 1154 17.63 1184 18.32 1214 19.02 1243 - - - - - 62°F / 71°F 12500 17.58 1134 18.27 1164 18.97 1194 19.69 1224 - - - - - - - - - 60°F / 68°F 13000 19.71 1177 - - - - - - - - - - - - - - - 86°F / 99°F 9000 5.01 675 5.40 715 5.80 753 6.21 789 6.62 825 7.05 859 7.91 925 8.81 988 9.73 1048 78°F / 89°F 10000 6.78 742 7.21 778 7.64 812 8.09 846 8.54 879 9.00 911 9.95 973 10.91 1032 11.91 1088 70°F / 80°F 11050 9.04 812 9.51 845 9.99 877 10.48 908 10.97 939 11.47 968 12.50 1026 13.54 1081 14.61 1135 65°F / 74°F 12000 11.48 876 12.00 907 12.51 937 13.04 966 13.57 994 14.11 1022 15.20 1076 16.32 1129 17.46 1179 60°F / 68°F 13000 14.50 945 15.05 973 15.62 1000 16.18 1028 16.75 1054 17.33 1081 18.50 1132 19.70 1181 - -

- / 63°F 14000 18.02 1013 18.61 1039 19.21 1065 19.82 1091 - - - - - - - - - -

5-565.1 33

BLOWER SHEAVE ASSEMBLY DATA

Adjusting the Blower Drive Setting

Based on the Sheave Arrangement, Tables 34.1 through 35.5 give the Sheave Assembly numbers used on units that include a blower. The Sheave Arrangement is Digit 19 and is found on the unit Model Identification Plate. The Sheave Assembly describes the motor and blower sheave size and bore as well as the belt provided.

To determine how many turns open the motor sheave should be set for:

1. Follow the Selection Procedure found on pages 28 and 29 to determine what blower rpm is required to meet the job specifications.

Figure 34.1 - Blower Section

EXTENDED

GREASE

LINES

EXTENDED

GREASE LINE

ZERK FITTINGS

1/4" PERIMETER

GASKETED

BLOWER

CONNECTION

2. Locate the unit Model Identification Plate and note Digit 16 and Digit 19 of the model number. Digit 16 is the Blower Size and Type and Digit 19 is the Sheave Arrangement.

3. Once the Blower Size and Type (Digit 16) is known, enter the proper Sheave Arrangement table.

4. Use the Sheave Arrangement (Digit 19) to determine the Sheave Assembly provided.

5. Use Table 36.1 and the Sheave Assembly number to determine the required turns open to achieve the desired blower rpm.

6. Set the motor sheave as described in Blower Adjustments.

ADJUSTABLE

MOTOR

SHEAVE

5 HP

TWO-SPEED

MOTOR

FILTER

RACK

CONVENIENCE

OUTLET

BLOWER DOOR

SAFETY SWITCH

BOTTOM

SUPPORTED

BLOWER AND

MOTOR

DIRECT

DRIVE

DAMPER

ACTUATOR

Blower Sheave Assembly Numbers

Table 34.1 - Digit 16 = A or B (9-7 Blower Units)

RPM Range

Motor Frame 656-1001 978-1265 1150-1561 1526-1858 1763-2147

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

48 A 3H35125B1 C 3H35125B3 56 B 3H35125B2 D 3H35125B4 F 3H35125B6 H 3H35125B8 J 3H35125B10 143 or 145 E 3H35125B5 G 3H35125B7 I 3H35125B9 K 3H35125B11

Table 34.2 - Digit 16 = C or D (9-9 Blower Units)

RPM Range

Motor Frame 656-1001 978-1265 1150-1561 1526-1858 1763-2147

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

48 A 3H35126B1 C 3H35126B3 56 B 3H35126B2 D 3H35126B4 F 3H35126B6 I 3H35126B9 L 3H35126B12 143 or 145 E 3H35126B5 G 3H35126B7 J 3H35126B10 M 3H35126B13 182 or 184 H 3H35126B8 K 3H35126B11 N 3H35126B14

5-565.134

BLOWER SHEAVE ASSEMBLY DATA

Blower Sheave Assembly Numbers (Con’t)

Table 35.1 - Digit 16 = E or F (12-12 Blower Units)

RPM Range

Motor Frame 468-715 644-874 863-1078 1029-1332 1150-1438 1327-1659

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

48 A 3H35127B1 56 B 3H35127B2 C 3H35127B3 F 3H35127B6 Q 3H35127B17 143 to 145 D 3H35127B4 G 3H35127B7 I 3H35127B9 L 3H35127B12 182 or 184 E 3H35127B5 H 3H35127B8 J 3H35127B10 M 3H35127B13 O 3H35127B15 213 or 215 K 3H35127B11 N 3H35127B14 P 3H35127B16

Table 35.2 - Digit 16 = G or H (15-15 Blower Units)

RPM Range

Motor Frame 410-625 568-771 767-958 934-1136 1136-1380

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

48 A 3H35128B1 56 B 3H35128B2 D 3H35128B4 G 3H35128B7 O 3H35128B15 143 to 145 C 3H35128B3 E 3H35128B5 H 3H35128B8 J 3H35128B10 182 or 184 F 3H35128B6 I 3H35128B9 K 3H35128B11 M 3H35128B13 213 or 215 L 3H35128B12 N 3H35128B14

Table 35.3 - Digit 16 = I or J (18-18 Blower Units under 15 Hp motor)

RPM Range

Motor Frame 491-649 586-744 682-821 821-1009 995-1161 1101-1285

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

56 A 3H35129B1 D 3H35129B4 143 or 145 B 3H35129B2 E 3H35129B5 H 3H35129B8 182 to 184 C 3H35129B3 F 3H35129B6 I 3H35129B9 K 3H35129B11 O 3H35129B15 213 or 215 G 3H35129B7 J 3H35129B10 L 3H35129B12 P 3H35129B16 S 3H35129B19 254 M 3H35129B13 Q 3H35129B17 T 3H35129B20

256 N 3H35129B14 R 3H35129B18 U 3H35129B21

Table 35.4 - Digit 16 = K (18-18 Blower Units with 15 Hp motor & up)

RPM Range

Motor Frame 826-1009 995-1161 1101-1285 1232-1438

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

254 A 3H35130B1 C 3H35130B3 E 3H35130B5

256 B 3H35130B2 D 3H35130B4 F 3H35130B6 284 G 3H35130B13 I 3H35130B15 K 3H35130B17 M 3H35130B19 286 H 3H35130B14 J 3H35130B16 L 3H35130B18 N 3H35130B20

Table 35.5 - Digit 16 = L (20-18 Blower Units)

RPM Range

Motor Frame 491-649 626-765 765-901 901-1059 995-1161 1101-1285

Size Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly Digit 19 Sheave Assembly

143 or 145 A 3H36622B1 C 3H36622B3 182 to 184 B 3H36622B2 D 3H36622B4 F 3H36622B6 L 3H36622B12 213 or 215 E 3H36622B5 G 3H36622B7 M 3H36622B13 R 3H36622B18 25 4 H 3H36622B8 N 3H36622B14 S 3H36622B19 W 3H36622B23

256 I 3H36622B9 O 3H36622B15 T 3H36622B20 X 3H36622B24 284 J 3H36622B10 P 3H36622B16 U 3H36622B21 Y 3H36622B25 286 K 3H36622B11 Q 3H36622B17 V 3H36622B22 Z 3H36622B26

5-565.1 35

BLOWER SHEAVE ASSEMBLY DATA

Table 36.1 - Blower Sheave Assembly Settings

Turns Open

Sheave Assembly

3H35125B1-2 1001 966 932 897 863 828 794 759 725 690 656

3H35125B3-5 1265 1236 1208 1179 1150 1121 1093 1064 1035 1006 978

3H35125B6-7 1561 1520 1479 1438 1396 1355 1314 1273 1232 1191 1150

3H35125B8-9 1858 1825 1791 1758 1725 1692 1659 1625 1592 1559 1526

3H35125B10-11 2147 2108 2070 2032 1993 1955 1917 1878 1840 1802 1763

3H35126B1-2 1001 966 932 897 863 828 794 759 725 690 656

3H35126B3-5 1265 1236 1208 1179 1150 1121 1093 1064 1035 1006 978

3H35126B6-8 1561 1520 1479 1438 1396 1355 1314 1273 1232 1191 1150

3H35126B9-11 1858 1825 1791 1758 1725 1692 1659 1625 1592 1559 1526

3H35126B12-14 2147 2108 2070 2032 1993 1955 1917 1878 1840 1802 1763

3H35127B1-2 715 690 665 641 616 591 567 542 518 493 468

3H35127B3-5 874 851 828 805 782 759 736 713 690 667 644

3H35127B6-8 1078 1057 1035 1013 992 970 949 927 906 884 863

3H35127B9-11 1332 1301 1271 1241 1211 1180 1150 1120 1089 1059 1029

3H35127B12-14 1438 1409 1380 1351 1323 1294 1265 1236 1208 1179 1150

3H35127B15-16 1659 1625 1592 1559 1526 1493 1460 1426 1393 1360 1327

3H35127B17 1332 1301 1271 1241 1211 1180 1150 1120 1089 1059 1029

3H35128B1-3 625 604 582 561 539 518 496 474 453 431 410

3H35128B4-6 771 751 731 710 690 670 649 629 609 589 568

3H35128B7-9 958 939 920 901 882 863 843 824 805 786 767

3H35128B10-12 1136 1116 1096 1076 1055 1035 1015 994 974 954 934

3H35128B13-14 1380 1355 1331 1306 1281 1257 1232 1208 1183 1158 1136

3H35128B15 1136 1116 1096 1076 1055 1035 1015 994 974 954 934

3H35129B1-3 649 633 617 601 586 570 554 538 522 506 491

3H35129B4-7 744 728 712 696 681 665 649 633 617 601 586

3H35129B8-10 821 807 793 779 765 751 737 723 709 696 682

3H35129B11-14 1009 991 973 954 936 918 899 881 863 844 821

3H35129B15-18 1161 1144 1128 1111 1095 1078 1062 1045 1028 1012 995

3H35129B19-21 1285 1266 1248 1230 1211 1193 1174 1156 1138 1119 1101

3H35130B1-2 1009 991 973 954 936 918 899 881 863 844 826

3H35130B3-4 1161 1144 1128 1111 1095 1078 1062 1045 1028 1012 995

3H35130B5-6 1285 1266 1248 1230 1211 1193 1174 1156 1138 1119 1101

3H35130B13-14 974 960 946 932 918 904 890 876 863 849 835

3H35130B15-16 1161 1144 1128 1111 1095 1078 1062 1045 1028 1012 995

3H35130B17-18 1285 1266 1248 1230 1211 1193 1174 1156 1138 1119 1101

3H35130B19-20 1438 1417 1396 1376 1355 1335 1314 1294 1273 1253 1232

3H36622B1-2 649 633 617 601 586 570 554 538 522 506 491

3H36622B3-5 765 751 737 723 709 696 682 668 654 640 626

3H36622B6-11 901 888 875 863 850 837 824 811 798 785 765

3H36622B12-17 1059 1044 1029 1014 999 984 968 953 938 923 901

3H36622B18-22 1161 1144 1128 1111 1095 1078 1062 1045 1028 1012 995

3H36622B23-26 1285 1266 1248 1230 1211 1193 1174 1156 1138 1119 1101

0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5

Blower RPM

5-565.136

BLOWER SHEAVE ASSEMBLY DATA

Table 37.1 - Blower Sheave Assembly Numbers and Size

Sheave

Assembly

3H35125B1 2.9 0.5 5 0.75 A30

3H35125B2 2.9 0.625 5 0.75 A31

3H35125B3 4.4 0.5 6 0.75 A34

3H35125B4 4.4 0.625 6 0.75 A35

3H35125B5 4.4 0.875 6 0.75 A35

3H35125B6 3.8 0.625 4.2 0.75 A31

3H35125B7 3.8 0.875 4.2 0.75 A31

3H35125B8 5.6 0.625 5.2 0.75 A35

3H35125B9 5.6 0.875 5.2 0.75 A35

3H35125B10 5.6 0.625 4.5 0.75 A34

3H35125B11 5.6 0.875 4.5 0.75 A34

3H35126B1 2.9 0.5 5 0.75 A33

3H35126B2 2.9 0.625 5 0.75 A34

3H35126B3 4.4 0.5 6 0.75 A37

3H35126B4 4.4 0.625 6 0.75 A38

3H35126B5 4.4 0.875 6 0.75 A38

3H35126B6 3.8 0.625 4.2 0.75 A34

3H35126B7 3.8 0.875 4.2 0.75 A34

3H35126B8 3.8 1.125 4.2 0.75 A36

3H35126B9 5.6 0.625 5.2 0.75 A38

3H35126B10 5.6 0.875 5.2 0.75 A38

3H35126B11 5.6 1.125 5.2 0.75 A40

3H35126B12 5.6 0.625 4.5 0.75 A37

3H35126B13 5.6 0.875 4.5 0.75 A37

3H35126B14 5.6 1.125 4.5 0.75 A39

3H35127B1 2.9 0.5 7 1 A42

3H35127B2 2.9 0.625 7 1 A43

3H35127B3 3.8 0.625 7.5 1 A46

3H35127B4 3.8 0.875 7.5 1 A45

3H35127B5 3.8 1.125 7.5 1 A47

3H35127B6 5 0.625 8 1 A48

3H35127B7 5 0.875 8 1 A48

3H35127B8 5 1.125 8 1 A50

3H35127B9 4.4 0.875 5.7 1 A43

3H35127B10 4.4 1.125 5.7 1 A45

3H35127B11 5.2 1.375 6.7 1 A49

3H35127B12 5 0.875 6 1 A45

3H35127B13 5 1.125 6 1 A47

3H35127B14 5.2 1.375 6.2 1 A49

3H35127B15 5 1.125 5.2 1 A45

3H35127B16 5.6 1.375 5.7 1 A48

3H35127B17 4.4 0.625 5.7 1 A43

3H35128B1 2.9 0.5 8 1 A47

3H35128B2 2.9 0.625 8 1 A48

3H35128B3 2.9 0.875 8 1 A48

3H35128B4 3.8 0.625 8.5 1 A50

3H35128B5 3.8 0.875 8.5 1 A50

3H35128B6 3.8 1.125 8.5 1 A52

3H35128B7 5 0.625 9 1 A53

3H35128B8 5 0.875 9 1 A52

3H35128B9 5 1.125 9 1 A54

3H35128B10 5.6 0.875 8.5 1 A53

3H35128B11 5.6 1.125 8.5 1 A54

3H35128B12 5.2 1.375 8 1 A54

3H35128B13 5.6 1.125 7 1 A52

3H35128B14 5.2 1.375 6.5 1 A52

3H35128B15 5.6 0.625 8.5 1 A53

Motor Sheave Blower Sheave

Pitch

Diameter Bore

Pitch

Diameter Bore

Browning

Belt No.

Sheave

Assembly

3H35129B1 4.1 0.625 10.9 1 B71

3H35129B2 4.1 0.875 10.9 1 B71

3H35129B3 4.1 1.125 10.9 1 B70

3H35129B4 4.7 0.625 10.9 1 BX71

3H35129B5 4.7 0.875 10.9 1 BX71

3H35129B6 4.7 1.125 10.9 1 BX71

3H35129B7 5.5 1.375 12.4 1 BX71

3H35129B8 5.9 0.875 12.4 1 BX77

3H35129B9 5.9 1.125 12.4 1 BX75

3H35129B10 5.9 1.375 12.4 1 BX75

3H35129B11 5.3 1.125 8.9 1 BX68

3H35129B12 5.5 1.375 9.4 1 BX68

3H35129B13 5.5 1.625 9.4 1 BX75

3H35129B14 5.5 1.625 9.4 1 BX75

3H35129B15 7 1.125 10.4 1 B73

3H35129B16 7 1.375 10.4 1 B72

3H35129B17 7 1.625 10.4 1 B78

3H35129B18 7 1.625 10.4 1 B78

3H35129B19 7 1.375 9.4 1 B70

3H35129B20 7 1.625 9.4 1 B77

3H35129B21 7 1.625 9.4 1 B77

3H35130B1 5.5 1.625 9.4 1.44 Qty (2) B74

3H35130B2 5.5 1.625 9.4 1.44 Qty (2) B74

3H35130B3 7 1.625 10.4 1.44 Qty (2) B78

3H35130B4 7 1.625 10.4 1.44 Qty (2) B78

3H35130B5 7 1.625 9.4 1.44 Qty (2) B77

3H35130B6 7 1.625 9.4 1.44 Qty (2) B77

3H35130B13 7 1.875 12.4 1.44 Qty (2) B82

3H35130B14 7 1.875 12.4 1.44 Qty (2) B82

3H35130B15 7 1.875 10.4 1.44 Qty (2) B79

3H35130B16 7 1.875 10.4 1.44 Qty (2) B79

3H35130B17 7 1.875 9.4 1.44 Qty (2) B77

3H35130B18 7 1.875 9.4 1.44 Qty (2) B77

3H35130B19 7 1.875 8.4 1.44 Qty (2) B75

3H35130B20 7 1.875 8.4 1.44 Qty (2) B75

3H36622B1 4.1 0.875 10.9 1.44 B75

3H36622B2 4.1 1.125 10.9 1.44 BX73

3H36622B3 4.1 0.875 8.9 1.44 B72

3H36622B4 4.1 1.125 8.9 1.44 B70

3H36622B5 5.5 1.375 12.4 1.44 BX78

3H36622B6 4.7 1.125 8.9 1.44 B74

3H36622B7 5.5 1.375 10.4 1.44 BX75

3H36622B8 6 1.625 11.4 1.44 Qty (2) BX82

3H36622B9 6 1.625 11.4 1.44 Qty (2) BX82

3H36622B10 7 1.875 13.4 1.44 Qty (2) B86

3H36622B11 7 1.875 13.4 1.44 Qty (2) B86

3H36622B12 5.3 1.125 8.4 1.44 B71

3H36622B13 5.9 1.375 9.4 1.44 BX74

3H36622B14 6 1.625 9.4 1.44 Qty (2) BX79

3H36622B15 6 1.625 9.4 1.44 Qty (2) BX79

3H36622B16 7 1.875 11.4 1.44 Qty (2) B83

3H36622B17 7 1.875 11.4 1.44 Qty (2) B83

3H36622B18 7 1.375 10.4 1.44 B77

3H36622B19 7 1.625 10.4 1.44 Qty (2) B82

3H36622B20 7 1.625 10.4 1.44 Qty (2) B82

3H36622B21 7 1.875 10.4 1.44 Qty (2) B81

3H36622B22 7 1.875 10.4 1.44 Qty (2) B81

3H36622B23 7 1.625 9.4 1.44 Qty (2) B80

3H36622B24 7 1.625 9.4 1.44 Qty (2) B80

3H36622B25 7 1.875 9.4 1.44 Qty (2) B80

3H36622B26 7 1.875 9.4 1.44 Qty (2) B80

Motor Sheave Blower Sheave

Pitch

Diameter Bore

Pitch

Diameter Bore

Browning

Belt No.

5-565.1 37

ELECTRICAL DATA / MOTOR DATA

Total Unit Amp Draw

The total unit amp draw is a combination of the motor, the control step down transformer, and the power exhauster amp draw. The control step down transformer includes damper actuators, ignition controllers, gas valves, control relays, amplifiers, and motor starters.

Unit Amp Draw (Table 38.1) = Motor Amp Draw (Tables 38.2 to 42.1) =

Total Amp Draw =

Table 38.1 - Unit Amps

Digit 14

Supply Voltage

A 115/60/1 0 0.35 0.65 1.3 2.17 1.4 2.4 4.8 7.2

B 208/60/1 0 0.19 0.36 0.72 1.2 0.7 1.4 2.8 4.2 C 230/60/1 0 0.17 0.33 0.65 1.09 0.6 1.3 2.6 3.9 D 208/60/3 0 0.19 0.36 0.72 1.2 0.7 1.4 2.8 4.2 E 230/60/3 0 0.17 0.33 0.65 1.09 0.6 1.3 2.6 3.9

F 460/60/3 ➅ 0 0.09 0.16 0.33 0.54 0.30 ➁ 0.65 ➂ 1.3 ➃ 2.0 ➄

G 575/60/3 ➅ 0 0.07 0.13 0.26 0.43 0.24 ➁ 0.52 ➂ 1.1 ➃ 1.6 ➄

Control Step Down

Transformer Amp Draw

Digit 15 - Transformer Model Size

0 ➀ 1 2 3 4 75-175 200-400 500-800 840-960

Power Exhauster Amp Draw

Table 38.2 - Motor Data for Digit 14 = A - 115V/60Hz/1Ph

Digits Motor Motor Frame Amp. Service Thermal Weight Efficiency 17&18 Size (HP) Type ➀ Size Draw Factor Overload (lbs) ➁ (%)

A1 1/3 ODP 56 6.6 1.35 Yes 25 N/A A5 1/3 TEFC 48 5.0 1.00 Yes 25 N/A B1 1/2 ODP 56 9.0 1.20 Yes 23 N/A B5 1/2 TEFC 56 8.0 1.15 Yes 28 N/A C1 3/4 ODP 56 11.0 1.25 Yes 25 N/A C5 3/4 TEFC 56 11.0 1.00 Yes 30 N/A D1 1 ODP 56 13.4 1.15 Yes 32 N/A D5 1 TEFC 56 13.4 1.15 Yes 37 N/A E1 1-1/2 ODP 56 18.0 1.15 Yes 40 N/A E5 1-1/2 TEFC 56 15.2 1.15 Yes 45 N/A F1 or R1 2 ODP 145T 21.0 1.15 No 49 N/A F5 or R5 2 TE 182T 20.0 1.15 No 54 N/A G1 or S1 3 ODP 184T 34.0 1.15 No 81 N/A G5 or S5 3 TEFC 184T 32.0 1.00 No 83 N/A

➀ Unit controls amp draw is included in master unit amp draw. ➁ Requires a 250 VA transformer. ➂ Requires a 500 VA transformer. ➃ Requires a 750 VA transformer. ➄ Requires a 1000 VA transformer. ➅ For Digits F (460V) and G (575V), amp draw shown is on

primary (line) side of required step-down transformer.

Table 38.3 - Motor Data for Digit 14 = B - 208V/60Hz/1Ph

Digits Motor Motor Frame Amp. Service Thermal Weight Efficiency 17&18 Size (HP) Type ➀ Size Draw Factor Overload (lbs) ➁ (%)

A1 1/3 ODP 56 3.0 1.35 Yes 25 N/A B1 1/2 ODP 56 4.1 1.20 Yes 23 N/A B5 1/2 TEFC 56 4.0 1.15 Yes 28 N/A C1 3/4 ODP 56 5.5 1.25 Yes 25 N/A C5 3/4 TEFC 56 5.4 1.00 Yes 30 N/A D1 1 ODP 56 6.8 1.15 Yes 32 N/A D5 1 TEFC 56 6.8 1.15 Yes 37 N/A E1 1-1/2 ODP 56 9.3 1.15 Yes 40 N/A E5 1-1/2 TEFC 56 8.2 1.15 Yes 45 N/A F1 or R1 2 ODP 145T 11.3 1.15 No 49 N/A F5 or R5 2 TE 182T 10.8 1.15 No 54 N/A H1 or T1 5 ODP 184T 23.0 1.15 No 87 N/A H5 or T5 5 TEFC 184T 22.8 1.00 No 86 N/A

5-565.138

MOTOR DATA

Table 39.1 - Motor Data for Digit 14 = C - 230V/60Hz/1Ph

Digits Motor Motor Frame Amp. Service Thermal Weight Efficiency 17&18 Size (HP) Type ➀ Size Draw Factor Overload (lbs) ➁ (%)

A1 1/3 ODP 56 3.3 1.35 Yes 25 N/A A5 1/3 TENV 48 2.5 1.00 Yes 25 N/A B1 1/2 ODP 56 4.5 1.20 Yes 23 N/A B5 1/2 TEFC 56 4.0 1.15 Yes 28 N/A C1 3/4 ODP 56 5.5 1.25 Yes 25 N/A C5 3/4 TEFC 56 5.5 1.00 Yes 30 N/A D1 1 ODP 56 6.7 1.15 Yes 32 N/A D5 1 TE 56 6.7 1.15 Yes 37 N/A E1 1-1/2 ODP 56 9.0 1.15 Yes 40 N/A E5 1-1/2 TE 56 7.6 1.15 Yes 45 N/A F1 or R1 2 ODP 145T 10.5 1.15 No 49 N/A F5 or R5 2 TE 182T 10.0 1.15 No 54 N/A G1 or S1 3 ODP 184T 17.0 1.15 No 81 N/A G5 or S5 3 TE 184T 16.0 1.00 No 83 N/A H1 or T1 5 ODP 184T 22.0 1.15 No 87 N/A H5 or T5 5 TE 184T 20.2 1.00 No 86 N/A

➀ Refer to page 42 for Motor Type abbreviations. ➁ Motors manufacturers do not rate single-phase motors for efficiency.

Table 39.2 - Motor Data for Digit 14 = D - 208V/60Hz/3Ph ①

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) ( %)

A1 or L1 1/3 ODP 56 1.5 1.35 17 N/A

A5 or L5 1/3 TE 48 1.2 1.00 15 N/A B1 or M1 1/2 ODP 56 2.1 1.25 18 N/A B5 or M5 1/2 TEFC 56 2.1 1.15 18 N/A C1 or N1 3/4 ODP 56 2.7 1.25 21 N/A C5 or N5 3/4 TEFC 56 2.7 1.15 30 N/A D1 or P1 1 ODP 143T 3.1 1.15 40 82.5% D2 or P2 1 ODP HE 143T 3.2 1.15 30 84.0% D3 or P3 1 ODP 18/9 143T 3.5/1.5 1.15 26 76.0 / 59.0% D4 or P4 1 ODP 18/12 145T 3.4/2.0 1.15 42 74.0 / 60.0% D5 or P5 1 TEFC 56 3.5 1.15 28 N/A D6 or P6 1 TE HE 143T 3.5 1.15 68 84.5% D7 or P7 1 TEFC 18/9 143T 3.5/1.5 1.00 29 76.0 / 58.0%

D8 or P8 1 TEFC 18/12 145T 3.2/1.8 1.00 31 74.0 / 60.0% E1 or Q1 1 1/2 ODP 145T 5.9 1.15 43 80.0%

E2 or Q2 1 1/2 ODP 145T 4.8 1.00 35 89.5% E3 or Q3 1 1/2 ODP 18/9 145T 5.0/2.1 1.15 29 80.0 / 65.0% E4 or Q4 1 1/2 ODP 18/12 145T 5.0/2.9 1.15 49 80.0 / 71.0% E5 or Q5 1 1/2 TEFC 56 4.8 1.15 33 N/A E6 or Q6 1 1/2 TE HE 145T 4.9 1.15 62 84.0% E7 or Q7 1 1/2 TEFC 18/9 145T 4.3/1.9 1.00 38 83.0 / 71.0% E8 or Q8 1 1/2 TEFC 18/12 145T 5.0/2.9 1.00 38 80.0 / 72.0% F1 or R1 2 ODP 145T 7.2 1.15 43 82.0% F2 or R2 2 ODP 145T 5.8 1.00 74 89.5% F3 or R3 2 ODP 18/9 145T 6.2/2.6 1.15 33 81.0 / 67.0% F4 or R4 2 ODP 18/12 182T 6.5/3.5 1.15 78 81.0 / NA% F5 or R5 2 TE 145T 7.0 1.15 52 84.0% F6 or R6 2 TE HE 145T 6.5 1.15 66 86.5% F7 or R7 2 TEFC 18/9 145T 6.4/2.5 1.00 41 84.0 / 70.0% F8 or R8 2 TE 18/12 182T 6.4/3.9 1.15 65 84.0 / 77.0% G1 or S1 3 ODP 182T 10.0 1.15 78 81.5% G2 or S2 3 ODP HE 182T 8.9 1.15 83 89.5% G3 or S3 3 ODP 18/9 182T 10.1/4.1 1.15 66 82.0 / 72.0% G4 or S4 3 ODP 18/12 184T 9.3/4.9 1.15 79 81.0 / 75.0% G5 or S5 3 TE 182T 10.0 1.15 83 87.5% G6 or S6 3 TE HE 182T 9.4-9.1 1.15 92 88.5% G7 or S7 3 TE 18/9 182T 9.3/3.5 1.00 64 84.0 / 70.0% G8 or S8 3 TE 18/12 184T 9.2/5.4 1.15 84 84.0 / 82.0% H1 or T1 5 ODP 184T 16.0 1.15 76 84.0% H2 or T2 5 ODP HE 182T 15.7 1.15 94 89.5% H3 or T3 5 ODP 18/9 184T 16.0/6.2 1.15 81 85.0 / 77.0% H4 or T4 5 ODP 18/12 215T 16.0/9.7 1.15 117 86.0 / 78.0% H5 or T5 5 TE 184T 14.2 1.15 90 87.5% H6 or T6 5 TE HE 184T 15.0 1.15 99 88.5% H7 or T7 5 TE 18/9 184T 15.0/5.3 1.00 85 85.0 / 85.0% H8 or T8 5 TE 18/12 213T 15.0/8.5 1.15 107 85.0 / 80.0% I1 or W1 7 1/2 ODP 213T 26.9 1.15 106 81.5%

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) (%)

I2 or W2 7 1/2 ODP HE 213T 22.3 1.15 141 91.7% I3 or W3 7 1/2 ODP 18/9 213T 23.0/9.3 1.15 108 85.0 / 72.0% I4 or W4 7 1/2 ODP 18/12 215T 22.0/12.3 1.15 167 89.0 / 85.0% I5 or W5 7 1/2 TE 213T 24.0 1.15 126 89.5% I6 or W6 7 1/2 TE HE 213T 22.0 1.15 158 90.2% I7 or W7 7 1/2 TE 18/9 213T 21.0/8.8 1.15 106 87.0 / 75.0% I8 or W8 7 1/2 TE 18/12 215T 21.8/12.0 1.15 124 86.0 / 80.0% J1 or X1 10 ODP 215T 32.6 1.15 120 84.0% J2 or X2 10 ODP HE 215T 29.0 1.15 126 91.7% J3 or X3 10 ODP 18/9 215T 27.7/11.2 1.15 118 88.0 / 77.0% J4 or X4 10 ODP 18/12 256T 27.0/14.5 1.15 196 88.0 / 80.0% J5 or X5 10 TE 215T 29.0 1.15 130 87.5% J6 or X6 10 TE HE 215T 27.6 1.15 200 90.2% J7 or X7 10 TE 18/9 215T 29.0/11.5 1.15 118 87.0 / 77.0% J8 or X8 10 TE 18/12 254T 30.0/17.0 1.15 212 88.0 / 80.0% K1 or Y1 15 ODP 254T 45.6 1.15 147 87.5% K2 or Y2 15 ODP HE 254T 43.4 1.15 220 93.0% K3 or Y3 15 ODP 18/9 256T 42.5/16.5 1.15 244 90.2 / 84.0% K5 or Y5 15 TE 254T 42.0 1.15 250 91.0% K6 or Y6 15 TE HE 254T 40.3 1.15 259 91.7% K7 or Y7 15 TE 18/9 256T 44.0/16.0 1.15 218 88.0 / 82.0% K8 or Y8 15 TE 18/12 256T 42.0/23.0 1.15 219 88.0 / 84.0% V1 or Z1 20 ODP 256T 61.6 1.15 200 87.5% V2 or Z2 20 ODP HE 256T 57.0 1.15 250 93.6% V3 or Z3 20 ODP 18/9 284T 56.0/21.0 1.15 221 90.2 / 82.5% V4 or Z4 20 ODP 18/12 286T 54.0/28.0 1.15 270 89.0 / 86.0%

V6 or Z6 20 TE HE 256T 54.0 1.15 290 91.7% V7 or Z7 20 TE 18/9 284T 59.0/20.0 1.15 346 89.0 / 88.0%

① Motors have no thermal overload. ② Refer to page 42 for Motor Type abbreviations.

5-565.1 39

MOTOR DATA

Table 40.1 - Motor Data for Digit 14 = E - 230V/60Hz/3Ph ①

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) (%)

A1 or L1 1/3 ODP 56 1.6 1.35 17 N/A

A5 or L5 1/3 TE 48 1.2 1.00 15 N/A B1 or M1 1/2 ODP 56 2.2 1.25 18 N/A B5 or M5 1/2 TEFC 56 2.2 1.15 18 N/A C1 or N1 3/4 ODP 56 2.8 1.25 21 N/A C5 or N5 3/4 TEFC 56 2.8 1.15 30 N/A D1 or P1 1 ODP 143T 3.1 1.15 36 82.5% D2 or P2 1 ODP HE 143T 3.2 1.15 30 84.0% D3 or P3 1 ODP 18/9 143T 3.4/1.6 1.15 26 76.0 / 59.0% D4 or P4 1 ODP 18/12 145T 3.4/2.2 1.15 42 74.0 / 60.0% D5 or P5 1 TEFC 56 3.6 1.15 28 N/A D6 or P6 1 TE HE 143T 3.0 1.15 68 85.5% D7 or P7 1 TEFC 18/9 143T 3.4/1.6 1.00 29 76.0 / 58.0% D8 or P8 1 TEFC 18/12 145T 3.4/2.2 1.00 31 74.0 / 60.0% E1 or Q1 1 1/2 ODP 145T 4.4 1.15 42 84.0% E2 or Q2 1 1/2 ODP 145T 5.6 1.00 35 89.5% E3 or Q3 1 1/2 ODP 18/9 145T 4.8/2.7 1.15 29 80.0 / 65.0% E4 or Q4 1 1/2 ODP 18/12 145T 4.9/2.8 1.15 49 80.0 / 71.0% E5 or Q5 1 1/2 TEFC 56 4.8 1.15 33 N/A E6 or Q6 1 1/2 TE HE 145T 5.0 1.15 62 86.5% E7 or Q7 1 1/2 TEFC 18/9 145T 4.0/1.7 1.00 38 83.0 / 71.0% E8 or Q8 1 1/2 TEFC 18/12 145T 4.9/2.8 1.00 38 80.0 / 72.0% F1 or R1 2 ODP 145T 5.8 1.15 43 84.0% F2 or R2 2 ODP 145T 5.8 1.00 74 89.5% F3 or R3 2 ODP 18/9 145T 6.4/2.7 1.15 33 81.0 / 67.0% F4 or R4 2 ODP 18/12 182T 6.3/3.5 1.15 78 81.0 / NA% F5 or R5 2 TE 145T 5.8 1.15 52 84.0% F6 or R6 2 TE HE 145T 6.0 1.15 64 85.5% F7 or R7 2 TEFC 18/9 145T 6.4/2.6 1.00 41 84.0 / 70.0% F8 or R8 2 TE 18/12 182T 6.4/4.2 1.15 65 84.0 / 77.0% G1 or S1 3 ODP 182T 9.4 1.15 81 86.5% G2 or S2 3 ODP HE 182T 8.6 1.15 74 89.5% G3 or S3 3 ODP 18/9 182T 11.6/4.4 1.15 66 82.0 / 72.0% G4 or S4 3 ODP 18/12 184T 8.5/4.6 1.15 79 81.0 / 75.0% G5 or S5 3 TE 182T 8.2 1.15 83 87.5% G6 or S6 3 TE HE 182T 8.0 1.15 110 89.5% G7 or S7 3 TE 18/9 182T 10.0/3.6 1.00 64 84.0 / 70.0% G8 or S8 3 TE 18/12 184T 8.8/5.5 1.15 84 84.0 / 82.0% H1 or T1 5 ODP 184T 14.0 1.15 87 87.5% H2 or T2 5 ODP HE 184T 13.6 1.15 94 89.5% H3 or T3 5 ODP 18/9 184T 17.7/6.2 1.15 81 85.0 / 77.0% H4 or T4 5 ODP 18/12 215T 15.5/10.2 1.15 117 86.0 / 78.0% H5 or T5 5 TE 184T 13.0 1.15 90 87.5% H6 or T6 5 TE HE 184T 13.0 1.15 117 90.2% H7 or T7 5 TE 18/9 184T 16.0/5.3 1.00 85 85.0 / 85.0% H8 or T8 5 TE 18/12 213T 14.0/8.8 1.15 107 85.0 / 80.0%

① Motors have no thermal overload. ② Refer to page 42 for Motor Type abbreviations.

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) (%)

I1 or W1 7 1/2 ODP 213T 19.6 1.15 121 88.5% I2 or W2 7 1/2 ODP HE 213T 19.4 1.15 160 91.7% I3 or W3 7 1/2 ODP 18/9 213T 22.5/8.2 1.15 108 85.0 / 72.0% I4 or W4 7 1/2 ODP 18/12 215T 19.5/12.3 1.15 167 89.0 / 85.0% I5 or W5 7 1/2 TE 213T 20.0 1.15 126 89.5% I6 or W6 7 1/2 TE HE 213T 19.2 1.15 194 91.7% I7 or W7 7 1/2 TE 18/9 213T 21.0/8.8 1.15 106 87.0 / 75.0% I8 or W8 7 1/2 TE 18/12 215T 20.0/12.4 1.15 124 86.0 / 80.0% J1 or X1 10 ODP 215T 26.8 1.15 138 89.5% J2 or X2 10 ODP HE 215T 25.2 1.15 220 91.7% J3 or X3 10 ODP 18/9 215T 32.4/11.6 1.15 118 88.0 / 77.0% J4 or X4 10 ODP 18/12 256T 24.0/13.0 1.15 196 88.0 / 80.0% J5 or X5 10 TE 215T 26.0 1.00 138 89.5% J6 or X6 10 TE HE 215T 25.0 1.15 213 90.2% J7 or X7 10 TE 18/9 215T 29.0/11.5 1.15 118 87.0 / 77.0% J8 or X8 10 TE 18/12 254T 28.0/17.5 1.15 212 88.0 / 80.0% K1 or Y1 15 ODP 254T 38.6 1.15 215 91.0% K2 or Y2 15 ODP HE 254T 37.8 1.15 217 93.0% K3 or Y3 15 ODP 18/9 256T 40.0/17.0 1.15 244 90.2 / 84.0% K5 or Y5 15 TE 254T 40.0 1.15 250 91.0% K6 or Y6 15 TE HE 254T 38.0 1.15 322 92.4% K7 or Y7 15 TE 18/9 256T 39.0/15.0 1.15 218 88.0 / 82.0% K8 or Y8 15 TE 18/12 256T 38.0/22.0 1.15 219 88.0 / 84.0% V1 or Z1 20 ODP 256T 50.0 1.15 233 91.0% V2 or Z2 20 ODP HE 256T 49.0 1.15 250 93.6% V3 or Z3 20 ODP 18/9 284T 51.0/21.5 1.15 221 90.2 / 82.5% V4 or Z4 20 ODP 18/12 286T 48.0/26.0 1.15 270 89.0 / 86.0% V5 or Z5 20 TEFC 256T 51.0 1.15 287 91.0% V6 or Z6 20 TE HE 256T 48.2 1.15 368 93.0% V7 or Z7 20 TE 18/9 284T 52.0/18.0 1.15 346 89.0 / 88.0%

5-565.140

MOTOR DATA

Table 41.1 - Motor Data for Digit 14 = F - 460V/60Hz/3Ph ➀

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) (% )

A1 or L1 1/3 ODP 56 0.8 1.35 17 N/A

A3 or L3 1/3 TE 48 0.6 1.00 15 N/A B1 or M1 1/2 ODP 56 1.1 1.25 18 N/A B5 or M5 1/2 TEFC 56 1.1 1.15 18 N/A C1 or N1 3/4 ODP 56 1.4 1.25 21 N/A C5 or N5 3/4 TEFC 56 1.4 1.15 30 N/A D1 or P1 1 ODP 143T 1.6 1.15 36 82.5%

D2 or P2 1 ODP HE 143T 1.5 1.15 30 84.0% D3 or P3 1 ODP 18/9 143T 1.8/0.8 1.15 26 76.0 / 59.0%

D4 or P4 1 ODP 18/12 145T 1.7/1.1 1.15 39 74.0 / 60.0% D5 or P5 1 TEFC 56 1.8 1.15 28 N/A D6 or P6 1 TE HE 143T 1.5 1.15 68 85.5% D7 or P7 1 TEFC 18/9 143T 1.8/0.8 1.00 28 73.0 / 58.0% D8 or P8 1 TEFC 18/12 145T 1.7/1.1 1.00 31 74.0 / 60.0% E1 or Q1 1 1/2 ODP 145T 2.2 1.15 42 84.0% E2 or Q2 1 1/2 ODP 145T 2.4 1.00 35 89.5% E3 or Q3 1 1/2 ODP 18/9 145T 2.3/1.0 1.15 29 80.0 / 65.0% E4 or Q4 1 1/2 ODP 18/12 145T 2.4/1.4 1.15 32 75.0 / 71.0% E5 or Q5 1 1/2 TEFC 56 2.4 1.15 33 N/A E6 or Q6 1 1/2 TE HE 145T 2.5 1.15 62 86.5% E7 or Q7 1 1/2 TEFC 18/9 145T 2.0/0.9 1.00 39 83.0 / 71.0% E8 or Q8 1 1/2 TEFC 18/12 145T 2.5/1.4 1.00 37 80.0 / 72.0%

F1 or R1 2 ODP 145T 2.9 1.15 43 84.0% F2 or R2 2 ODP 145T 2.9 1.00 74 89.5% F3 or R3 2 ODP 18/9 145T 3.0/1.3 1.15 33 79.0 / 62.0% F4 or R4 2 ODP 18/12 182T 3.0/2.0 1.15 61 80.0 / 70.0% F5 or R5 2 TE 145T 2.9 1.15 52 84.0% F6 or R6 2 TE HE 145T 3.0 1.15 64 85.5% F7 or R7 2 TEFC 18/9 145T 3.2/1.3 1.00 42 84.0 / 70.0% F8 or R8 2 TE 18/12 182T 3.1/1.9 1.15 68 81.0 / 77.0%

G1 or S1 3 ODP 182T 4.5 1.15 81 86.5% G2 or S2 3 ODP HE 182T 4.3 1.15 74 89.5% G3 or S3 3 ODP 18/9 182T 4.5/1.8 1.15 60 80.0 / 66.0% G4 or S4 3 ODP 18/12 184T 4.6/2.7 1.15 71 82.5 / NA% G5 or S5 3 TE 182T 4.1 1.15 83 87.5% G6 or S6 3 TE HE 182T 4.0 1.15 110 89.5% G7 or S7 3 TE 18/9 182T 4.6/1.7 1.15 65 84.0 / 70.0% G8 or S8 3 TE 18/12 184T 4.3/2.6 1.15 73 82.5 / 75.5%

H1 or T1 5 ODP 184T 7.0 1.15 87 87.5% H2 or T2 5 ODP HE 184T 6.8 1.15 94 89.5% H3 or T3 5 ODP 18/9 184T 9.1/3.2 1.15 94 84.0 / 73.0% H4 or T4 5 ODP 18/12 215T 7.1/4.8 1.15 117 78.0 / 71.0% H5 or T5 5 TE 184T 6.5 1.15 90 87.5%

➀ Motors have no thermal overload. ➁ Refer to page 42 for Motor Type abbreviations.

Motor Digits Size Motor Frame Amp. Service Weight Efficiency 17&18 (HP) Type ➁ Size Draw Factor (lbs) (%)

H6 or T6 5 TE HE 184T 6.5 1.15 117 90.2%

H7 or T7 5 TE 18/9 184T 7.0/2.5 1.15 83 86.0 / 83.0% H8 or T8 5 TE 18/12 213T 6.9/4.1 1.15 107 85.0 / 75.5% I1 or W1 7 1/2 ODP 213T 9.8 1.15 121 88.5% I2 or W2 7 1/2 ODP HE 213T 9.7 1.15 160 91.7% I3 or W3 7 1/2 ODP 18/9 213T 11.8/4.2 1.15 125 85.0 / 72.0% I4 or W4 7 1/2 ODP 18/12 215T 10.0/6.0 1.15 131 87.0 / 80.0% I5 or W5 7 1/2 TE 213T 10.0 1.15 126 89.5% I6 or W6 7 1/2 TE HE 213T 9.6 1.15 194 91.7% I7 or W7 7 1/2 TE 18/9 213T 10.0/4.1 1.15 83 84.0 / 74.0% I8 or W8 7 1/2 TE 18/12 215T 10.3/5.6 1.15 128 85.0 / 80.0% J1 or X1 10 ODP 215T 13.4 1.15 138 89.5% J2 or X2 10 ODP HE 215T 12.6 1.15 220 91.7% J3 or X3 10 ODP 18/9 215T 15.0/5.3 1.15 116 83.0 / 71.0% J4 or X4 10 ODP 18/12 256T 12.0/6.3 1.15 192 87.0 / 82.0% J5 or X5 10 TE 215T 13.0 1.00 138 89.5% J6 or X6 10 TE HE 215T 12.5 1.15 213 90.2% J7 or X7 10 TE 18/9 215T 13.0/5.4 1.15 107 86.5 / 77.0% J8 or X8 10 TE 18/12 254T 13.5/7.5 1.15 222 87.0 / 82.0% K1 or Y1 15 ODP 254T 19.3 1.15 215 91.0% K2 or Y2 15 ODP HE 254T 18.9 1.15 217 93.0% K3 or Y3 15 ODP 18/9 256T 19.3/7.8 1.15 203 88.5 / 81.5% K4 or Y4 15 ODP 18/12 256T 18.0/9.5 1.15 298 86.0 / 81.0% K5 or Y5 15 TE 254T 20.0 1.15 250 91.0% K6 or Y6 15 TE HE 254T 19.0 1.15 322 92.4%

K7 or Y7 15 TE 18/9 256T 19.5/7.5 1.15 218 88.0 / 82.0% K8 or Y8 15 TE 18/12 256T 19.5/11.0 1.15 223 88.0 / 84.0%

V1 or Z1 20 ODP 256T 25.0 1.15 233 91.0% V2 or Z2 20 ODP HE 256T 24.5 1.15 250 93.6% V3 or Z3 20 ODP 18/9 256T 25.2/10.0 1.15 208 89.5 / 82.5% V4 or Z4 20 ODP 18/12 286T 24.0/13.0 1.15 270 90.0 / 84.0% V5 or Z5 20 TEFC 256T 25.5 1.15 287 91.0% V6 or Z6 20 TE HE 256T 24.1 1.15 368 93.0% V7 or Z7 20 TE 18/9 284T 26.0/8.7 1.15 331 89.0 / 88.0% V8 or Z8 20 TE 18/12 284T 24.7/14.0 1.15 361 90.0 / 86.0%

5-565.1 41

MOTOR DATA

Table 42.1 - Motor Data for Digit 14 = G - 575V/60Hz/3Ph ➀

Digits Motor Motor Frame Amp. Service Weight Efficiency 17&18 Size (HP) Type ➁ Size Draw Factor (lbs) (%)

A5 or L5 1/3 TEFC 56 0.6 1.15 16 N/A B1 or M1 1/2 ODP 56 0.9 1.25 25 N/A B5 or M5 1/2 TEFC 56 0.9 1.15 24 N/A C1 or N1 3/4 ODP 56 0.9 1.25 28 N/A C5 or N5 3/4 TEFC 56 1.1 1.15 33 N/A D1 or P1 1 ODP 143T 1.1 1.15 41 82.5% D5 or P5 1 TEFC 56 1.5 1.15 28 77.0% D6 or P6 1 TE HE 143T 1.2 1.15 68 85.5% E1 or Q1 1 1/2 ODP 145T 1.8 1.15 48 84.0% E5 or Q5 1 1/2 TEFC 145T 2.0 1.15 72 84.0% E6 or Q6 1/12 TE HE 145T 1.7 1.15 66 85.5% F1 or R1 2 ODP 145T 2.3 1.15 50 84.0% F5 or R5 2 TEFC 145T 2.3 1.15 65 84.0% F6 or R6 2 TE HE 145T 2.4 1.15 66 86.5% G1 or S1 3 ODP 182T 3.4 1.15 72 86.5% G5 or S5 3 TEFC 182T 3.4 1.15 98 87.5% G6 or S6 3 TE HE 182T 3.2 1.15 100 89.5% H1 or T1 5 ODP 184T 5.2 1.15 91 87.5% H5 or T5 5 TEFC 184T 5.2 1.15 89 87.5% H6 or T6 5 TE HE 184T 5.2 1.15 117 89.5% I1 or W1 7 1/2 ODP 213T 7.8 1.15 113 88.5% I5 or W5 7 1/2 TEFC 213T 8.0 1.15 142 89.0% I6 or W6 7 1/2 TE HE 213T 7.6 1.15 192 90.2% J1 or X1 10 ODP 215T 10.3 1.15 123 89.5% J5 or X5 10 TE 215T 10.4 1.15 154 89.5% J6 or X6 10 TE HE 215T 9.6 1.15 200 90.2% K1 or Y1 15 ODP 254T 15.4 1.15 184 91.0% K5 or Y5 15 TE 254T 16.0 1.15 250 91.0% K6 or Y6 15 TE HE 254T 15.2 1.15 326 92.4% V1 or Z1 20 ODP 256T 20.8 1.15 255 91.0% V5 or Z5 20 TEFC 256T 20.4 1.15 287 91.0% V6 or Z6 20 TE HE 256T 19.5 1.15 368 93.0%

➀ Motors have no thermal overload ➁ Motor Type Abbreviations

ODP Open Drip Proof ODP HE Open Drip Proof, High Efficiency ODP 18/9 Open Drip Proof, 2-speed 1800/900 RPM ODP 18/12 Open Drip Proof, 2-speed 1800/1200 RPM TE Totally Enclosed TEFC Totally Enclosed, Fan Cooled TE HE Totally Enclosed, High Efficiency TE 18/9 Totally Enclosed, 2-speed 1800/900 RPM TE 18/12 Totally Enclosed, 2-speed 1800/1200 RPM TENV Totally Enclosed, Non-Ventilating

5-565.142

BOTTOM ELECTRICAL CONNECTION KNOCKOUTS, IDENTICAL SIZE AS SIDE CONNECTIONS (ONLY ON ACCESS SIDE)

QTY 2 - 1.06 DIA. & QTY 2 - 0.88 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

43.23

24.00

9.21

3.00

5.295.29

1.50

OVER ROOF

30.07

1.98

2.00

10.26 (APPROX)

23.07 (HEIGHT) X C (WIDTH)

17.40

1.36

8.97

30.48

5.65 (APPROX)

6" VENT

CONNECTOR

24.00

2.17

9.21

34.00

37.80

4.35

51.20

120.90

BOTTOM ELECTRICAL CONNECTION KNOCKOUTS, IDENTICAL SIZE AS SIDE CONNECTIONS (ONLY ON ACCESS SIDE)

QTY 2 - 1.06 DIA. & QTY 2 - 0.88 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

24.00

9.21

3.00

5.295.29

1.50

OVER ROOF

1.98

2.00

1.36

30.48

51.20

24.00

2.17

9.21

34.00

4.35

116.98

114.11

32.43

19.23

F (HEIGHT)

E (WIDTH)

7.65

DIMENSIONS - UNIT

Figure 43.1 - DBP Indoor Power Vented Blower Package Unit Dimensions

500 - 800 Model Shown

Figure 43.2 - DCP Indoor Power Vented Cooling Package Unit Dimensions

Table 43.1 - DBP/DCP Indoor Power Vented Unit Dimensions (All dimensions in inches)

Model Blower Type Qty. of Gas

Size (Digit 16) Furnaces A B C D E F G H J K L N P S Conn.

75 All 1 37.75 19.07 15.21 28.75 18.00 25.00 20.02 39.23 32.06 38.37 12.65 5 40.80 87.77 1/2

100/125 All 1 37.75 19.07 17.70 28.75 21.00 25.00 20.02 39.23 34.56 38.37 15.14 6 40.80 87.77 1/2

150/175 All 1 37.75 19.07 21.96 28.75 24.00 25.00 23.99 39.23 38.82 38.37 19.41 7 40.80 87.77 1/2

200/225 All 1 37.75 23.07 24.09 32.75 27.00 28.00 23.99 43.23 40.94 42.37 21.60 7 44.80 87.77 1/2 / 3/4

250/300 E, F, G, or H 1 3775 23.07 27.13 32.75 30.00 28.00 29.96 43.23 44.05 42.37 24.60 8/10 44.80 87.77 3/4

350/400 E, F, G, or H 1 37.75 23.07 38.63 32.75 42.00 28.00 41.90 43.23 55.57 42.37 36.14 10 44.80 87.77 3/4

500/600 G or H 2 37.75 23.07 27.13 32.75 n/a n/a 29.96 43.23 44.05 42.37 24.60 8/10 44.80 120.90 3/4

700/800 G or H 2 37.75 23.07 38.63 32.75 n/a n/a 41.90 43.23 55.57 42.37 36.14 10 44.80 120.90 3/4

➀ For Right Hand Access Units - Location of electrical connection knock-outs are identical sizes as side electrical connections. ➁ For Left Hand Access Units - Location of electrical connection knock-outs are identical sizes as side electrical connections.

Dimensions

5-565.1 43

BOTTOM ELECTRICAL CONNECTION KNOCKOUTS, IDENTICAL SIZE AS SIDE CONNECTIONS (ONLY ON ACCESS SIDE)

QTY 2 - 0.88 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

QTY 2 - 1.06 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

43.23

24.00

9.21

3.00

5.295.29

1.50

OVER ROOF

34.00

36.68

37.85

2.17

24.00

9.21

24.00 4.35

34.00

50.3730.07

156.76

1.98

2.00

10.26 (APPROX)

23.07 (HEIGHT) X C (WIDTH)

17.40

1.36

8.97

30.48

147.59

5.65 (APPROX)

6" VENT

CONNECTOR

29.74

6.44

41.62

BOTTOM ELECTRICAL CONNECTION KNOCKOUTS, IDENTICAL SIZE AS SIDE CONNECTIONS (ONLY ON ACCESS SIDE)

QTY 2 - 0.88 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

QTY 2 - 1.06 DIA. ELECTRICAL CONNECTION KNOCKOUTS (ACCESS SIDE ONLY)

43.23

24.00

9.21

3.00

5.295.29

1.50

OVER ROOF

34.00

36.68

37.85

2.17

24.00

9.21

24.00 4.35

34.00

50.37

1.98

2.00

1.36

32.54

19.23

30.5 (HEIGHT) X

E (WIDTH)

7.65

30.48

152.83

DIMENSIONS - UNIT

Figure 44.1 - DBP Indoor Power Vented Blower Package Unit Dimensions with Blower Type I, J, K, or L

500 - 800 Model Shown

Figure 44.2 - DCP Indoor Power Vented Cooling Package Unit Dimensions with Blower Type I, J, K, or L

Table 44.1 - DBP/DCP Indoor Power Vented Unit Dimensions with Blower Type I, J, K, or L (All dimensions in inches)

Model Blower Type Qty. of Gas

Size (Digit 16) Furnaces C E G J L N S U ➂ W ➂ X ➂ Conn.

250/300 I, J, or K 1 27.13 30.00 29.96 44.05 24.60 8/10 123.35 n/a n/a n/a 3/4

350/400 I, J, or K 1 38.63 42.00 41.90 55.07 36.14 10 123.35 n/a n/a n/a 3/4

500/600 I, J, K, or L 2 27.13 n/a 29.96 44.05 24.60 8/10 156.76 29.74 6.5 41.62 3/4

700/800 I, J, K, or L 2 38.63 n/a 41.90 55.57 36.14 10 156.76 29.74 6.5 41.62 3/4

840/960 I, J, K, or L 3 38.63 n/a 41.90 55.57 36.14 10 185.99 29.74 6.5 41.62 3/4

Dimensions

5-565.144

DIMENSIONS - BASE

0.75" Suspensio

Hanging Location

(Typical 4 Corners

)

0.63

1.4

Return Air Openin

4.3

24.00 Insid

E Insi

To end of uni

Lifting Point

Suspension Point

Lifting

Point

Figure 45.1 - Unit Base Dimensions

Table 45.1 - Indoor Power Vented Blower Package Units (All dimensions in inches)

Model Blower Type

Size (Digit 16) A B C D E N K L J M

75 All 87.77 34.85 81.30 19.52 32.00 6.23

100/125 All 87.77 37.36 81.30 19.52 34.50 7.49

150/175 All 87.77 41.61 81.30 23.49 38.75 7.63

200/225 All 87.77 43.71 81.30 23.49 40.85 8.69

250/300 E,F,G, or H 87.77 46.75 81.30 29.46 43.89 7.21

250/300 I, J, or K 123.35 46.75 117.26 29.46 43.89 7.21

350/400 E,F,G, or H 87.77 58.27 81.30 41.40 55.41 7.00

350/400 I, J, or K 123.35 58.27 117.26 41.40 55.41 7.00

500/600 G, or H 120.90 46.75 111.68 34.12 29.46 89.14 34.12 43.89 7.21

500/600 I, J, K, or L 156.76 46.75 147.53 34.12 29.46 117.82 82.27 43.89 7.21

700/800 G, or H 120.90 58.27 111.68 34.12 41.40 89.14 34.12 55.41 7.00

700/800 I, J, K, or L 156.76 58.27 147.53 34.12 41.40 117.82 82.27 55.41 7.00

840/960 I, J, K, or L 185.99 58.27 176.75 30.31 41.40 147.06 63.36 147.06 55.41 7.00

Dimensions

Table 45.2 - Indoor Power Vented Cooling Package Units (All dimensions in inches)

Model Blower Type

Size (Digit 16) A B C E F G J M

75 All 116.98 34.85 114.07 19.52 81.88 56.96 32.00 6.23

100/125 All 116.98 37.36 114.07 19.52 81.88 56.96 34.50 7.49

150/175 All 116.98 41.61 114.07 23.49 81.88 56.96 38.75 7.63

200/225 All 116.98 43.71 114.07 23.49 81.88 56.96 40.85 8.69

250/300 E, F, G, or H 116.98 46.75 114.07 29.46 81.88 56.96 43.89 7.21

250/300 I, J, or K 152.84 46.75 149.93 29.46 117.73 92.81 43.89 7.21

350/400 E, F, G, or H 116.98 58.27 114.07 41.40 81.88 56.96 55.41 7.00

350/400 I, J, or K 152.84 58.27 149.93 41.40 117.73 92.81 55.41 7.00

Dimensions

5-565.1 45

1.5

Airflow

Direction

TOP VIEW

Airflow Direction

1.8

2.25

Supply Water Line

Connection turned 90° in

direction of airflow

Return Water Line

Connection turned 90° in

direction of airflow

Coil for Right Hand Units

(Digit 9 = R)

Headers on opposite side for

Left Hand Units

FRONT VIEW

SIDE VIEW

DIMENSIONS - COOLING COILS

1.5

Airflow

Direction

TOP VIEW

Airflow Direction

Coil for Right Hand Units

(Digit 9 = R)

Headers on opposite

side for Left Hand Units

Suction Line Connections in direction

of airflow

(Second Inlet on Dual Circuit Coils)

Distributor Inlet (Liquid

Line) Connection(s)

(Second Inlet on Dual

Circuit Coils)

FRONT VIEW

SIDE VIEW

Figure 46.1 - DX Coil Drawing (All dimensions in inches)

Rows 2 3 4 6 W 7.5 6 7.5 10

Table 46.1 - DX Coil Dimensions

DX - Single Circuit DX - Dual Circuit

Model Cooling Suction Liquid Suction Liquid Size MBH Line (Qty) Line (Qty) Line (Qty) Line (Qty) 75 All 27.5 30.5 1.5 18 25 21 (1) 1.625 (1) 1.375 16.25 26.5 19.25 (2) 1.625 (2) 0.875 100/125 All 27.5 30.5 1.5 21 28 24 (1) 1.625 (1) 1.375 19.5 29.75 22.5 (2) 1.625 (2) 0.875

150/175 All 27.5 30.5 1.5 24 31 27 (1) 1.625 (1) 1.375 23 33.25 26.0 (2) 1.625 (2) 0.875

200/225

250/300

350/400

Below 185

MBH

185 MBH

& Up

Below 185

MBH

185 MBH

& Up

Below 185

MBH

185 MBH

& Up

32.5 34.5 0.5 27 34 30 (1) 1.625 (1) 1.375

32.5 34.5 0.5 27 34.5 30 (1) 2.125 (1) 1.375

32.5 34.5 0.5 30 37 33 (1) 1.625 (1) 1.375

32.5 34.5 0.5 30 37.5 33 (1) 2.125 (1) 1.375

32.5 34.5 0.5 42 49 45 (1) 1.625 (1) 1.375

32.5 34.5 0.5 42 49.5 45 (1) 2.125 (1) 1.375

25.5 35.75 28.5 (2) 1.625 (2) 0.875

28.5 38.75 31.5 (2) 1.625 (2) 0.875

40.25 50.5 43.25 (2) 1.625 (2) 0.875

Figure 46.2 - Chilled Water Coil Drawing (All dimensions in inches)

Table 46.2 - Chilled Water Coil Dimensions

Model Size FH H S V FL I L Supply Line Return Line

75 27 30 1.5 1.5 16.25 25.50 19.25 1.50 MPT 1.50 MPT

100/125 27 30 1.5 1.5 19.50 28.75 22.50 1.50 MPT 1.50 MPT

150/175 27 30 1.5 1.5 23.00 32.25 26.00 1.50 MPT 1.50 MPT

200/225 33 34.5 0.5 1 25.50 34.75 28.50 1.50 MPT 1.50 MPT

250/300 33 34.5 0.5 1 28.50 37.75 31.50 1.50 MPT 1.50 MPT

350/400 33 34.5 0.5 1 40.25 49.50 43.25 1.50 MPT 1.50 MPT

5-565.146

Rows 4 6 W 7.5 10

DIMENSIONS/WEIGHTS

3.38

2.13

3.53

5.57

2.56

1.50

NOTES:

1. Holes visable on right side are also on left side in the same location.

2. Holes on top are also on the back in the same location horizontally, 1" down vertically.

Figure 47.1 - Remote Panel Dimensions

Table 47.3 - Remote Panel Dimensions (All dimensions in inches)

Remote Panel Type A B C

Light and Switch Panels Only 7.06 - 2.81

Light and Switch Panels with Single Stage Thermostat or Electronic Set Point Adjustor

Light and Switch Panels with Two Stage Thermostat

Table 47.1 - Blower Package Unit Operating Weights (All weights in pounds)

Model Blower Type Dampers Dampers Double Wall

Size (Digit 16) Unit Fresh Air F & RA (All Sections)

75 All 236 6 26 46 5 38

100/125 All 272 6 26 46 5 38

150/175 All 308 6 29 52 5 43

200/225 All 365 6 29 52 7 46

250/300 E,F,G, or H 396 8 33 60 7 46

250/300 I, J, or K 645 15 33 60 14 93

350/400 E,F,G, or H 482 12 38 70 7 53

350/400 I, J, or K 763 17 38 70 14 96

500/600 G or H 577 8 33 60 7 46

500/600 I, J, K, or L 826 15 33 60 14 93

700/800 G or H 733 12 38 70 7 53

700/800 I, J, K, or L 1014 17 38 70 14 96

840/960 I, J, K, or L 1265 17 38 70 14 96

Motor

Filters

See Motor Data

Insulation

10.60 3.53 4.58

13.09 6.03 5.82

Table 47.2 - Cooling Package Unit Operating Weights (All weights in pounds)

Blower Dampers Model Type Dampers Fresh & Double Wall Size (Digit 16) Unit Motor Filters Fresh Air Return Air Insulation (All Sections)

75 All 343 6 26 46 10 72

100/125 All 382 6 26 46 10 72

150/175 All 423 6 29 52 10 77

200/225 All 491 6 29 52 12 85

250/300 E,F,G, or H 526 8 33 60 12 87

250/300 I, J, or K 775 15 33 60 19 134

350/400 E,F,G, or H 631 12 38 70 12 101

350/400 I, J, or K 912 17 38 70 19 144

See Motor

Data

5-565.1 47

MAINTENANCE

WARNING

When servicing or repairing this equipment, use only factoryapproved service replacement parts. A complete replacement parts list may be obtained by contacting Modine Manufacturing Company. Refer to the rating plate on the appliance for complete appliance model number, serial number, and company address. Any substitution of parts or controls not approved by the factory will be at the owner’s risk.

CAUTION

Do not attempt to reuse any mechanical or electrical controllers which have been wet. Replace defective controller.

IMPORTANT

To check most of the Possible Remedies in the troubleshooting guide listed in Table 50.1, refer to the applicable sections of the manual.

All heating equipment should be serviced before each heating season to assure proper operations. The following items may be required to have more frequent service schedule based on the environment in which the unit is installed, and the frequency of the equipment operation.

Blower Assembly

The blower assembly includes the bearings, drive sheaves and belts. Blower bearings should be checked and lubricated based on the

blower manufacturer’s recommendations. Bearings should also be checked for any unusual wear and replaced if needed.

Drive sheaves should be checked at the same time the bearings are inspected. Check to make sure the sheaves are in alignment and are securely fastened to the blower and motor shafts.Belt tension should be rechecked shortly after the unit has been installed to check for belt stretching. After the initial start-up, monthly checks are recommended.

Figure 48.2 - Filter Replacement Arrangement for Blower Size (Digit 16) I, J, K, and L

NON-ACCESS SIDE

350/400 700/800 840/960

FILTER SPACER

NON-ACCESS SIDE

A = 20'' x 25'' B = 16'' x 25'' C = 20'' x 16'' D = 15'' X 25''

FILTER SPACER

250/300 500/600

Manifold Assembly Removal

To remove the manifold

1. Shut off gas and electric supply.

2. Disconnect gas manifold at ground union joint.

3. Remove the two screws holding the manifold to the heat exchanger support.

4. Slide the manifold through the manifold bracket.

5. Clean the orifices and adjust the air shutters as necessary.

6. Follow steps 3-6 in reverse order to install the manifold assembly.

7. Turn on the electric and gas supply.

8. Check the ground union joint for leaks with a soap solution. Tighten if necessary.

Figure 48.3 - Manifold Assembly Removal

Filters

If the unit is supplied with a dirty filter switch and light, clean or replace the filters any time the dirty filter light comes on.

Units which do not have a dirty filter warning light should have the filters checked monthly. Clean or replace if necessary. In dirty atmospheres, filter maintenance may be required more often.

Figure 48.1 - Filter Replacement Arrangement for Blower Size (Digit 16) A, B, C, D, E, F, G and H

FILTER SPACER

▼

A = 20" X 25" FILTER B = 16" X 25" FILTER

C = 15" X 25" FILTER Filter Spacer to be inserted on non-access side of unit

200/225

100/125

250/300 500/600

FILTER SPACER

150/175

350/400 700/800

ELECTRICAL

JUNCTION

BOX

MANIFOLD

SERIAL PLATE

BURNER SIDE

ACCESS PANEL

5-565.148

MAINTENANCE

Burner and Pilot Assembly Removal

To remove the burner

1. Shut off gas and electric supply.

2. Disconnect the pilot supply line from the gas valve.

3. Disconnect the ignition cable from the ignition controller (located in the electrical junction box). Feed the cable through the bushing in the bottom of the electrical junction box.

4. Remove the screws holding the burner side access panel. Attached to the panel are the burner retaining pins that align the burner.

5. Slide the burner assembly out. The pilot is attached to the burner assembly.

6. Examine the burner and pilot assembly for cleanliness and/or obstructions as necessary (see Duct Furnace for cleaning instructions).

7. Replace the burner assembly in reverse order. In replacing the burner, be certain that the rear burner slots are located properly on the burner retaining pins. Do not force the burner side access panel, it will not fit if the burner is not properly aligned.

8. Reconnect the ignition cable and pilot gas supply line.

9. Turn on the electric and gas supply.

Figure 49.1 - Burner and Pilot Assembly Removal

AIR SHUTTERS

(NOT SHOWN) ARE LOCATED

ON THE

MANIFOLD

PILOT

ASSEMBLY

IGNITION

CABLE

PILOT

SUPPLY

LINE

5-565.1 49

SERVICE & TROUBLESHOOTING

Table 50.1 - Troubleshooting

Trouble Possible Cause Possible Remedy

Power Exhauster Motor will not start 1. Power supply is off.

2. No 24V power to thermostat.

3. Thermostat malfunction.

4. Defective power exhauster relay.

5. Defective power exhauster motor.

Pilot does not light/stay lit 1. Main gas is off.

2. Power supply is off.

3. Air in gas line.

4. Dirt in pilot orifice.

5. Gas pressure out of proper range.

6. Pilot valve does not open.

a. Defective ignition controller. b. Defective gas valve.

7. No spark at ignitor. a. Loose wire connections. b. Pilot sensor is grounded. c. Defective ignition controller.

8. Safety device has cut power.

9. Excessive drafts.

10. Pilot orifice fitting leak.

1. Turn on main power.

2. Check control transformer.

3. Check/replace thermostat.

4. Replace power exhauster relay.

5. Replace power exhauster motor.

1. Open manual gas valve.

2. Turn on main power.

3. Purge gas line.

4. Check for plugged pilot orifice and clean

with compressed air if necessary.

5. Adjust to a maximum of 14" W.C. Minimum for Natural Gas - 6" W.C. Minimum for Propane Gas - 11" W.C.

6. Check wiring for 24 volts to valve. a. Replace ignition controller. b. Replace gas valve.

7. a. Check all ignition controller wiring. b. Replace sensor if cracked or worn. c. Replace ignition controller.

8. Check all safety devices (High limit, air flow proving switch, differential pressure switch, gas pressure switches, etc.) Determine and correct problem. Reset if necessary.

9. Find source and re-direct airflow away from unit.

10. Tighten pilot orifice. Flame impingment on pilot sensor may cause pilot sensor to become inoperative.

Main burners do not light (Pilot is lit)

Lifting Flames (See Figure 51.1)

Yellow Tipping

(With propane gas, some yellow tipping is always present.)

Flashback 1. Too much primary air.

Floating Flames (See Figure 51.2)

Flame Rollout (See Figure 51.3)

1. Defective valve.

2. Loose wiring.

3. Defective pilot sensor.

4. Defective ignition controller.

5. Improper thermostat wiring.

1. Too much primary air.

2. Main pressure set too high.

3. Orifice too large.

1. Insufficient primary air.

2. Dirty orifice.

3. Misaligned orifice.

2. Main pressure set too high.

3. Orifice too large.

1. Insufficient primary air.

2. Main pressure set too high.

3. Orifice too large.

4. Blocked vent.

1. Main pressure set too high.

2. Orifice too large.

3. Blocked vent.

1. Replace valve.

2. Check wiring to gas valve.

3. Replace pilot sensor.

4. Replace ignition controller.

5. Verify wiring compared to wiring diagram.

1. Reduce primary air.

2. Adjust to a maximum of 14" W.C.

3. Check orifice size with those listed on the

serial plate.

1. Increase primary air.

2. Check orifices and clean with compressed

air if necessary.

3. Check manifold, replace if necessary.

1. Reduce primary air.

2. Adjust to a maximim of 14” W.C.

3. Check orifice size with those listed on

the serial plate.

1. Increase primary air.

2. Adjust to a maximum of 14" W.C.

3. Check orifice size with those listed on

the serial plate.

4. Clean/correct venting system.

1. Adjust to a maximum of 14" W.C.

2. Check orifice size with those listed on

the serial plate.

3. Clean/correct venting system.

5-565.150

SERVICE & TROUBLESHOOTING

Trouble Possible Cause Possible Remedy

Not Enough Heat

1. Unit cycling on high limit.➀

a. Obstructions/leaks in duct system. b. Main pressure set too high. c. Blower motor not energized.

d. Loose belt e. Blower speed too low.

f. Blocked/damaged venting system. g. Air distribution baffle removed (high

temperature rise units only). h. Defective high limit switch.

2. Main pressure set too low.

3. Too much outside air.

4. Thermostat malfunction.

5. Gas controls wired incorrectly.

6. Unit undersized.

a. Clean/correct duct system. b. Adjust to a maximum of 14" W.C. c. Check/correct to insure blower motor

operates within 45 seconds of when

- gas controls are energized. d. Adjust belt tension. e. Check/correct blower drive settings for

proper rpm. f. Check/correct venting system. g. Replace air distribution baffle.

h. Replace high limit switch.

2. Adjust main gas pressure. Minimum for Natural Gas — 6" W.C. Minimum for Propane Gas — 11" W.C.

3. Adjust outside air damper to decrease

outside air percentage (if possible).

4. Check/replace thermostat.

5. Check unit wiring against the wiring

diagram.

6. Check design conditions. If unit is

undersized, an additional unit(s) or other

heat source must be added.

Too Much Heat

1. Thermostat malfunction.

2. Gas controls do not shut-off.

a. Gas controls wired incorrectly. b. Short circuit.

3. Main gas pressure set too high.

4. Defective gas valve.

➀ Automatic Reset High Limit

The duct furnace comes standard with an automatic reset high limit switch that will shut-off the gas should the discharge air temperature become excessive. See Figure 14.1, indicator ➆ for the location of either the standard automatic or optional manual reset high limit switch. The switch should operate only when something is seriously wrong with the unit operation. Anytime the switch operates, correct the difficulty immediately or serious damage may result. If the switch cuts off the gas supply during normal operation, refer to the “Not Enough Heat” section of Service & Troubleshooting.

1. Check/replace thermostat.

2. a. Check unit wiring against the wiring

diagram.

b. Check for loose or worn wires.

3. Adjust to a maximum of 14" W.C.

4. Replace gas valve.

Figure 51.1 Lifting Flame Condition

Figure 51.2 Floating Flame Condition

Figure 51.3 Flame Rollout Appearance

5-565.1 51

MODEL DESIGNATIONS

Modine Manufacturing Company 1500 DeKoven Ave., Racine, WI 53403 Phone: 800.828.4328

Access

Slide

Model Identification

Duct furnace/make-up air units contain an ETL/ETL Canada certified indoor duct furnace. This duct furnace is combined with either a blower section or a blower and cooling section to make a complete make-up air or heating/ventilating/ cooling unit that is ETL/ETL Canada certified. For this reason, two identification plates are used on these models. The Serial Plate is used to identify the duct furnace and its components. The Model Identification Plate is used to identify the complete model, including blower and cooling sections.

Figure 52.1 - Serial Plate

Ordering

When servicing, repairing or replacing parts on these units, locate the model identification plate of the unit and always give the complete Model Number and Serial Number from the model identification plate. The model identification plate is located on the door of the electrical control box or on the side of unit. The part number for some common replacement parts are listed on the serial plate (See Figure 52.1) and the model identification plate (See Figure 53.1). For a complete description of the model number, see Model Identification.

5-565.152

MODEL DESIGNATIONS

Figure 53.1 - Model Identification Plate

DBP 75AFRHN10A1AA1AAA1A

115/208-230 60

115

1 8.47 10.00

Modine Manufacturing Company 1500 DeKoven Ave., Racine, WI 53403 Phone: 800.828.4328

01101010109-0002

6.6/3.0-3.3

9F20218 5H63081-20 5H76183-31

5H71790- 5H58064-3

Figure 53.2 - Serial Number Designation Figure 53.3 - Serial Number Designations

101 01 02 - 1000

SERIES IDENTITY NUMBER

Identifies which series of controls were furnished on the unit.

SEQUENCE NUMBER

YEAR OF MANUFACTURE

01 – 2001 02 – 2002 etc.

WEEK OF MANUFACTURE

01 – 1st week of year 26 – 26th week of year

01 10 201 01 02 - 1000

MOTOR VENDOR CODE

01 – Century 15 – Marathon etc.

FAN OR BLOWER VENDOR CODE

10 – Lau 20 – Morrison etc.

SERIES IDENTITY NUMBER

Identifies which series of controls were furnished on the unit.

Serial Number Designations

SEQUENCE NUMBER

YEAR OF MANUFACTURE

01 – 2001 02 – 2002 etc.

WEEK OF MANUFACTURE

01 – 1st week of year 26 – 26th week of year

5-565.1 53

START-UP CHECKLIST

INDIRECT GAS-FIRED HEATING EQUIPMENT

Job Name: Date:

Address: Model No.:

City & State: Order No.:

Start-Up Check List “ALL ITEMS MUST BE CHECKED” Serial No.:

1. All shipping straps, braces, tie downs removed? ____ Yes ___ No

2. Unit installed level and secure? ____ Yes ___ No

3. Gas burner properly located and aligned? ____ Yes ___ No

4. Blower and motor alignment okay? ____ Yes ___ No

5. Bearings aligned and tight on shaft/bearing supports? ____ Yes ___ No

6. Electrical connections checked and secure? ____ Yes ___ No

7. Gas piping checked and tightened if necessary? ____ Yes ___ No

8. Any visible damage to unit? ____ Yes ___ No Describe: ______________________________________________ If damaged, was the damage repaired? ____ Yes ___ No

9. Air inlet and discharge checked for obstructions? ____ Yes ___ No

10. Bearings checked for proper lubrication? ____ Yes ___ No

11. Filters in place and correct to direction of air flow? ____ Yes ___ No

12. Belt tension checked? ____ Yes ___ No

13. Electric supply to unit: ______ Volts, ______ Hz, ______ Phase

14. Gas supply to unit: ______ Natural, ______ Propane

15. Gas supply pressure to unit: ______ " W.C., ______ PSIG

16. Inlet and/or discharge dampers operating correctly? ____ Yes ___ No

17. Blower rotation correct? ____ Yes ___ No

18. Blower speed: Hi Speed ______ RPM, Lo Speed ______ RPM

19. Motor speed: Hi Speed ______ RPM, Lo Speed ______ RPM

20. Is unit noisy? Excessive vibration? ____ Yes ___ No

21. Motor voltage: L1 ______ V, L2 ______ V, L3 ______ V

22. Motor amps: L1 ______ Amp, L2 ______ Amp, L3 ______ Amp

23. High temperature limit control continuity checked? ____ Yes ___ No

24. Burner light off Low Fire: Does entire burner light off? ____ Yes ___ No Hi Fire: Burner pressure reading? ______ " W.C. Is flame clean and stable? ____ Yes ___ No Does flame modulate in response to temperature control(s)? ____ Yes ___ No

25. Gas input checked? ____ Yes ___ No Input at maximum firing rate: __________ Btu/Hr Input at minimum firing rate: -__________ Btu/Hr

26. Gas piping checked for and free of leaks? ____ Yes ___ No

27. Has wiring been verified to match the unit wiring diagram? ____ Yes ___ No

28. Have all the modes of the sequence of operation been verified and tested? ____ Yes ___ No

29. What optional and/or accessory control devices have been set? Device: _______________ Setting: ___________ (°F/psi/Inches W.C./etc.) ____ Yes ___ No Device: _______________ Setting: ___________ (°F/psi/Inches W.C./etc.) ____ Yes ___ No Device: _______________ Setting: ___________ (°F/psi/Inches W.C./etc.) ____ Yes ___ No

Customer/Owner instructed in operation and maintenance of unit? ____ Yes ___ No

Name of Person(s) Instructed: ______________________________________________________________

Comments: ____________________________________________________________________________

____________________________________________________________________________

Start-Up Company Name: _______________________________ Phone: __________________________

Signature: _______________________________________________________ Date: ________________

5-565.154

MODEL NOMENCLATURE FOR SYSTEM UNITS

Indoor Duct Furnace Model Nomenclature

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

PT UC V MBH HE DS AS ATR GT GV SS SV TR BB HP MT SA AC EC CC

1 - Product Type (PT)

I - Indoor HVAC Unit

2 - Unit Configuration (UC)

F - Furnace B - Blower Package - Furnace & Blower C - Cooling Package - Furnace, Blower & Cooling

3 - Venting (V)

P - Power

4,5,6 - Furnace Input Rating (MBH) (Output on 840 & 960) 75 - 75,000 Btu/Hr Input 350 - 350,000 Btu/Hr Input

100 - 100,000 Btu/Hr Input 400 - 400,000 Btu/Hr Input 125 - 125,000 Btu/Hr Input 500 - 500,000 Btu/Hr Input 150 - 150,000 Btu/Hr Input 600 - 600,000 Btu/Hr Input 175 - 175,000 Btu/Hr Input 700 - 700,000 Btu/Hr Input 200 - 200,000 Btu/Hr Input 800 - 800,000 Btu/Hr Input 225 - 225,000 Btu/Hr Input 840 - 1,050,000 Btu/Hr Input 250 - 250,000 Btu/Hr Input 960 - 1,200,000 Btu/Hr Input 300 - 300,000 Btu/Hr Input

7 - Heat Exchanger/Burner/Drip Pan Material (HE)

A - Aluminized Steel S - 409 Stainless Steel Heat Exchanger/Burner T - 409 Stainless Steel Heat Exchanger/Burner/Drip Pan

8 - Development Sequence Designation (DS)

F - Single Stage M - 2-stage or Modulating

9 - Access Side (AS)

R - Right Hand L - Left hand

10 - Air Temperature Rise (ATR)

H - High 60°-100°F

11 - Gas Type (GT)

N - Natural with ignition controller P - Propane with ignition controller

12 - Gas Valve (GV)

1 - Single Stage 5 - Electronic Modulation Master 2 - Two Stage 6 - Electronic Modulation Slave 3 - Mechanical Modulation 7 - Electronic Modulation 0-10 Vdc External Input 4 - Electronic Modulation 8 - Electronic Modulation 4-20 mA External Input

13 - Additional Safety Switches (SS)

4 - No Switches (Standard) 1 - Low Gas Pressure Switch (Premium) 0 - No Switches (Premium) 2 - High Gas Pressure Switch (Premium) 3 - High and Low Gas Pressure Switch (Premium)

14 - Supply Voltage (SV)

A - 115/60/1 E - 230/60/3 B - 208/60/1 F - 460/60/3 C - 230/60/1 G - 575/60/3 D - 208/60/3

15 - Transformer (TR)

1 - 40 VA 4 - 250 VA 2 - 75 VA 0 - None 3 - 150 VA

16 - Blower Size & Bearing Type (BB)

A - 9-7 Spider Bearings G - 15-15 Spider Bearings B - 9-7 Pillow Block Bearings H - 15-15 Pillow Block Bearings C - 9-9 Spider Bearings I - 18-18 Spider Bearings under 15 Hp D - 9-9 Pillow Block Bearings J E - 12-12 Spider Bearings K F - 12-12 Pillow Block Bearings L - 20-18 Pillow Block Bearings

17 - Motor Horsepower (HP)

A - 1/3 Hp L - 1/3 Hp with Motor Starter B - 1/2 Hp M - 1/2 Hp with Motor Starter C - 3/4 Hp N - 3/4 Hp with Motor Starter D - 1 Hp P - 1 Hp with Motor Starter E - 1-1/2 Hp Q - 1-1/2 Hp with Motor Starter F - 2 Hp R - 2 Hp Hp with Motor Starter G - 3 Hp S - 3 Hp with Motor Starter H - 5 Hp T - 5 Hp with Motor Starter I - 7-1/2 Hp W - 7-1/2 Hp with Motor Starter J - 10 Hp X - 10 Hp with Motor Starter K - 15 Hp Y - 15 Hp with Motor Starter V - 20 Hp Z - 20 Hp with Motor Starter

18 - Motor Type (MT)

1 - ODP 5 - TE 2 - ODP - High Eff. 6 - TE - High Eff. 3 - ODP, 1800/900 RPM 7 - TE, 1800/900 RPM 4 - ODP, 1800/1200 RPM 8 - TE, 1800/1200 RPM

19 - Sheave Arrangement (SA)

A - (See Sheave Tables 34.1 to 35.5)

20,21 - Air Control (AC)

AA - RA Opening BA - FA Opening CA - FA & RA Openings DA - FA Dampers w/ 2 pos motor (No RA) EA - FA & RA Dampers w/ 2 pos motor EQ - ASHRAE Cycle I - (“EA” with Warm-up Stat) FA - FA Damper & RA Opening w/ 2 pos motor GA - FA & RA Mod motor w/ 0-10 Vdc External Input GB - FA & RA Mod motor w/ 4-20 mA External Input GC - FA & RA Mod motor w/ Minimum Position GD - FA & RA Mod motor w/ Remote Position (On Remote Panel) GE - FA & RA Mod motor w/ 3 pos. damper (100% RA, Variable, 100% OA) GF - FA & RA Mod motor w/ A350P Proportional Temp Controller GG - FA & RA Mod motor w/ Minimum Position & Prop. Temp Controller GH - FA & RA Mod motor w/ Remote Position & Prop. Temp Controller GJ - FA & RA Mod motor w/ FA Enthalpy Controller GK - ASHRAE Cycle II - (“GG” with Warm-up Stat) GM - ASHRAE Cycle II - (“GH” with Warm-up Stat) GN - ASHRAE Cycle III - (“GF” with Warm-up Stat) HP - FA & RA Floating motor w/ Space Pressure Controller JA - Manual FA & RA Dampers KA - Manual FA Damper with Return Air Opening

22 - Evaporative Cooling (EC)

0 - None

23 - Cooling Coil (CC)

0 - None 1 - Factory Installed Coil

18-18 Pillow Block Bearings under 15 Hp 18-18 Pillow Block Bearings for 15 Hp & up

5-565.1 55

COMMERCIAL WARRANTY

Seller warrants its products to be free from defects in material and workmanship, EXCLUSIVE, HOWEVER, of failures attributable to the use of materials substituted under emergency conditions for materials normally employed. This warranty covers replacement of any parts furnished from the factory of Seller, but does not cover labor of any kind and materials not furnished by Seller, or any charges for any such labor or materials, whether such labor, materials or charges thereon are due to replacement of parts, adjustments, repairs, or any other work done. This warranty does not apply to any equipment which shall have been repaired or altered outside the factory of Seller in any way so as, in the judgment of Seller, to affect its stability, nor which has been subjected to misuse, negligence, or operating conditions in excess of those for which such equipment was designed. This warranty does not cover the effects of physical or chemical properties of water or steam or other liquids or gases used in the equipment.

BUYER AGREES THAT SELLER’S WARRANTY OF ITS PRODUCTS TO BE FREE FROM DEFECT IN MATERIAL AND WORKMANSHIP, AS LIMITED HEREIN, SHALL BE IN LIEU OF AND EXCLUSIVE OF ALL OTHER WARRANTIES, EITHER EXPRESS OR IMPLIED, WHETHER ARISING FROM LAW, COURSE OF DEALING, USAGE OF TRADE, OR OTHERWISE,

THERE ARE NO OTHER WARRANTIES, INCLUDING WARRANTY OF MERCHANTABILITY OR FITNESS FOR PURPOSE, WHICH EXTEND BEYOND THE PRODUCT DESCRIPTION CONFIRMED BY BUYER AND SELLER AS OF THE DATE OF FINAL AGREEMENT.

This warranty is void if the input to the product exceeds the rated input as indicated on the product serial plate by more than 5% on gas-fired and oil-fired units, or if the product in the judgment of SELLER has been installed in a corrosive atmosphere, or subjected to corrosive fluids or gases, been subjected to misuse, negligence, accident, excessive thermal shock, excessive humidity, physical damage, impact, abrasion, unauthorized alterations, or operation contrary to SELLER’S printed instructions, or if the serial number has been altered, defaced or removed.

BUYER’S REMEDY FOR BREACH OF WARRANTY, EXCLUSIVE OF ALL OTHER REMEDIES PROVIDED BY LAW, IS LIMITED TO REPAIR OR REPLACEMENT AT THE FACTORY OF SELLER, ANY COMPONENT WHICH

SHALL, WITHIN THE APPLICABLE WARRANTY PERIOD DEFINED HEREIN AND UPON PRIOR WRITTEN APPROVAL, BE RETURNED TO SELLER WITH TRANSPORTATION CHARGES PREPAID AND WHICH THE EXAMINATION OF SELLER SHALL DISCLOSE TO HAVE BEEN DEFECTIVE; EXCEPT THAT WHEN THE PRODUCT IS TO BE USED BY BUYER AS A COMPONENT PART OF EQUIPMENT MANUFACTURED BY BUYER, BUYER’S REMEDY FOR BREACH, AS LIMITED HEREIN, SHALL BE LIMITED TO ONE YEAR FROM DATE OF SHIPMENT FROM SELLER. FOR GAS-FIRED PRODUCTS INSTALLED IN HIGH HUMIDITY APPLICATIONS AND UTILIZING STAINLESS STEEL HEAT EXCHANGERS, BUYER’S REMEDY FOR BREACH, AS LIMITED HEREIN, SHALL BE LIMITED TO TEN YEARS FROM DATE OF SHIPMENT FROM SELLER.

These warranties are issued only to the original owner-user and cannot be transferred or assigned. No provision is made in these warranties for any labor allowance or field labor participation. Seller will not honor any expenses incurred in its behalf with regard to repairs to any of Seller’s products. No credit shall be issued for any defective part returned without proper written authorization (including, but not limited to, model number, serial number, date of failure, etc.) and freight prepaid.

OPTIONAL SUPPLEMENTAL WARRANTY Provided a supplemental warranty has been purchased, Seller extends the warranty herein for an additional four (4) years on certain compressors. Provided a supplemental warranty has been purchased, Seller extends the warranty herein for an additional four (4) years or nine (9) years on certain heat exchangers.

EXCLUSION OF CONSUMABLES & CONDITIONS BEYOND SELLER’S CONTROL The above referenced warranty shall not be applicable to any of the following items: refrigerant gas, belts, filters, fuses and other items consumed or worn out by normal wear and tear or conditions beyond Seller’s control, including (without limitation as to generality) polluted or contaminated or foreign matter contained in the air or water utilized for heat exchanger (condenser) cooling or if the failure of the part is caused by improper air or water supply, or improper or incorrect sizing of power supply.

Component

Applicable Models

Heat Exchangers

Gas-Fired Units except PSH/BSH

Heat Exchangers

Low Intensity Infrared Units

Compressors

Condensing Units for Cassettes

Burners

Low Intensity Infrared Units

Other

Components excluding Heat Exchangers, Coils, Condensers, Burners, Sheet Metal

Heat Exchangers/Coils

Indoor and Outdoor Duct Furnaces and System Units, PSH/BSH, Steam/Hot Water Units, Oil-Fired Units, Electric Units, Cassettes,

Vertical Unit Ventilators

Compressors

Vertical Unit Ventilators

Burners

High Intensity Infrared Units

Sheet Metal Parts

All Products

TEN YEARS FROM DATE OF FIRST BENEFICIAL USE BY BUYER OR ANY OTHER USER, WITHIN TEN YEARS FROM DATE OF RESALE BY BUYER OR ANY OTHER USER, WITHIN TEN YEARS FROM DATE OF RESALE BY BUYER IN ANY UNCHANGED CONDITION, OR WITHIN ONE HUNDRED TWENTY-SIX MONTHS FROM DATE OF SHIPMENT FROM SELLER, WHICHEVER OCCURS FIRST

FIVE YEARS FROM DATE OF FIRST BENEFICIAL USE BY BUYER OR ANY OTHER USER, WITHIN FIVE YEARS FROM DATE OF RESALE BY BUYER OR ANY OTHER USER, WITHIN FIVE YEARS FROM DATE OF RESALE BY BUYER IN ANY UNCHANGED CONDITION, OR WITHIN SIXTY-SIX MONTHS FROM DATE OF SHIPMENT FROM SELLER, WHICHEVER OCCURS FIRST

TWO YEARS FROM DATE OF FIRST BENEFICIAL USE BY BUYER OR ANY OTHER USER, WITHIN TWO YEARS FROM DATE OF RESALE BY BUYER IN ANY UNCHANGED CONDITION, OR WITHIN THIRTY MONTHS FROM DATE OF SHIPMENT FROM SELLER, WHICHEVER OCCURS FIRST

ONE YEAR FROM DATE OF FIRST BENEFICIAL USE BY BUYER OR ANY OTHER USER, WITHIN ONE YEAR FROM DATE OF RESALE BY BUYER IN ANY UNCHANGED CONDITION, OR WITHIN EIGHTEEN MONTHS FROM DATE OF SHIPMENT FROM SELLER, WHICHEVER OCCURS FIRST

“APPLICABLE WARRANTY PERIOD”

As Modine Manufacturing Company has a continuous product improvement program, it reserves the right to change design and specifications without notice.

Commercial Products Group

Modine Manufacturing Company 1500 DeKoven Avenue Racine, WI 53403 Phone: 1.800.828.4328 (HEAT) www.modine.com

Litho in USA

Modine Manufacturing DBP, DCP Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual