York PREDATOR BP120 Specifications

INSTALLATION

INSTRUCTION

TABLE OF CONTENTS

GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

SAFETY CONSIDERATIONS . . . . . . . . . . . . . . 6

NOTES CAUTIONS AND WARNINGS . . . . . . . 6

APPROVALS . . . . . . . . . . . . . . . . . . . . . . . . . . 6

REFERENCE . . . . . . . . . . . . . . . . . . . . . . . . . . 6

INSPECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . 6

ACCESSORIES . . . . . . . . . . . . . . . . . . . . . . . 19

START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

COOLING OPERATION INSTRUCTIONS . . . 30

SEQUENCE OF OPERATIONS . . . . . . . . . . . 28

NORMAL MAINTENANCE . . . . . . . . . . . . . . . 33

TROUBLESHOOTING . . . . . . . . . . . . . . . . . . 33

COOLING OPERATIONS . . . . . . . . . . . . . . . . 36

HEATING OPERATION . . . . . . . . . . . . . . . . . 39

BP

SINGLE PACKAGE HEAT PUMP

HIGH EFFICIENCY

BP078, 090,102, 120 AND 150

6-1/2 TO 12-1/2 TON)

Complete Table of Contents on following pages.

-078

-090

-102

-120

-150

Tested in accordance with:

SAVE THIS MANUAL

035-17275-000 REV B (0101)

035-17275-000 REV B (0101)

TABLE OF CONTENTS

GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . . 6

NOTES CAUTIONS AND WARNINGS . . . . . . . . . . . . . . 6

APPROVALS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

REFERENCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

INSPECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

PRECEDING INSTALLATION . . . . . . . . . . . . . . . . . . . . 6

LIMITATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

LOCATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

RIGGING AND HANDLING . . . . . . . . . . . . . . . . . . . . . . 8

CLEARANCES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

DUCTWORK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

DUCT COVERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

CONDENSATE DRAIN . . . . . . . . . . . . . . . . . . . . . . . . 13

COMPRESSORS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

FILTERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

THERMOSTAT WIRING . . . . . . . . . . . . . . . . . . . . . . . 14

POWER AND CONTROL WIRING . . . . . . . . . . . . . . . 14

POWER WIRING DETAIL . . . . . . . . . . . . . . . . . . . . . . 14

ACCESSORIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

ELECTRIC HEAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

ECONOMIZERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

RAIN HOOD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

SET POINT ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . 20

START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

PHASING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20

SUPPLY AIR INSTRUCTIONS . . . . . . . . . . . . . .20

CHECKING SUPPLY AIR CFM . . . . . . . . . . . . . 20

BLOWER ROTATION . . . . . . . . . . . . . . . . . . . . .20

BELT TENSION . . . . . . . . . . . . . . . . . . . . . . . . . .20

AIR BALANCE . . . . . . . . . . . . . . . . . . . . . . . . . . .26

SUPPLY AIR DRIVE ADJUSTMENT . . . . . . . . .27

COOLING OPERATION INSTRUCTIONS . . . . . . . . . . . 28

COOLING SYSTEM PRELIMINARY OPERATION . . . 28

TURN ON THE POWER TO THE UNIT . . . . . . . . . . . 28

POST START CHECK LIST . . . . . . . . . . . . . . . . . . . . 28

VERIFY PROPER SYSTEM PRESSURES FOR BOTH

CIRCUITS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

SHUT DOWN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

SEQUENCE OF OPERATIONS . . . . . . . . . . . . . . . . . 28

OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

SAFETY CONTROLS . . . . . . . . . . . . . . . . . . . . . . . . . 28

PROTECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29

CONTINUOUS BLOWER . . . . . . . . . . . . . . . . . . . . . . 29

INTERMITTENT BLOWER . . . . . . . . . . . . . . . . . . . . . 29

COOLING SEQUENCE OF OPERATION . . . . . . . . . . 29

COOLING OPERATION ERRORS . . . . . . . . . . . . . . . 29

HIGH-PRESSURE LIMIT SWITCH . . . . . . . . . . . . . . . 29

LOW-PRESSURE LIMIT SWITCH . . . . . . . . . . . . . . . . 29

FREEZESTAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

FLASH CODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

RESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

LOW AMBIENT COOLING . . . . . . . . . . . . . . . . . . . . . 30

SUPERHEAT CHARGING METHOD . . . . . . . . . . . . . 30

NORMAL MAINTENANCE . . . . . . . . . . . . . . . . . . . . . 33

GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

FILTERS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

MOTORS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

OUTDOOR COIL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . 33

PREDATOR FLASH CODES . . . . . . . . . . . . . . . . . . . 33

COOLING OPERATIONS . . . . . . . . . . . . . . . . . . . . . . 36

HEATING OPERATION . . . . . . . . . . . . . . . . . . . . . . . 39

FIGURES

UNIT SHIPPING BRACKET . . . . . . . . . . . . . . . . . . . . . . 6

CONDENSER COVERING . . . . . . . . . . . . . . . . . . . . . . 7

COMPRESSOR SECTION . . . . . . . . . . . . . . . . . . . . . . 7

PREDATOR™ COMPONENT LOCATION . . . . . . . . . . 8

UNIT 4 POINT LOAD . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

UNIT 6 POINT LOAD . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

UNIT CENTER OF GRAVITY . . . . . . . . . . . . . . . . . . . . 9

UNIT DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

HORIZONTAL ECONOMIZER . . . . . . . . . . . . . . . . . . . 11

DOWNFLOW ECONOMIZER HOOD DETAIL . . . . . . . 11

BOTTOM AIR DUCT OPENINGS . . . . . . . . . . . . . . . . 12

SIDE PANELS WITH HOLE PLUGS . . . . . . . . . . . . . . 13

RETURN DOWNFLOW PLENUM WITH PANEL. . . . . 13

DISCHARGE PANEL IN PLACE . . . . . . . . . . . . . . . . . 13

CONDENSATE DRAIN . . . . . . . . . . . . . . . . . . . . . . . . 13

ELECTRONIC THERMOSTAT FIELD WIRING . . . . . . 14

FIELD WIRING 24 VOLT THERMOSTAT . . . . . . . . . . 15

FIELD WIRING DISCONNECT . . . . . . . . . . . . . . . . . . 15

ENTHALPY SET POINT CHART . . . . . . . . . . . . . . . . . 19

BELT ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . 21

BASIC TROUBLESHOOTING FLOWCHART . . . . . . . 37

TRIP FAILURE FLOW CHART . . . . . . . . . . . . . . . . . . 38

HEAT PUMP UNIT WITH OR WITHOUT ELECTRIC

HEAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43

2 Unitary Products Group

035-17275-000 REV B (0201))

TABLES

1 PRODUCT NOMENCLATURE . . . . . . . . . . . . . . . . . . . 5

2 AIRFLOW ABBREVIATIONS . . . . . . . . . . . . . . . . . . . . 5

3 INSTALLATION ABBREVIATIONS. . . . . . . . . . . . . . . . . 5

4 ADDITIONAL OPTIONS ABBREVIATIONS . . . . . . . . . . 5

5 UNIT VOLTAGE LIMITATIONS . . . . . . . . . . . . . . . . . . 7

6 UNIT VOLTAGE LIMITATIONS . . . . . . . . . . . . . . . . . . 7

7 UNIT TEMPERATURE LIMITATIONS . . . . . . . . . . . . . 7

8 UNIT WEIGHTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

9 4 POINT LOAD WEIGHT . . . . . . . . . . . . . . . . . . . . . . . 9

10 6 POINT LOAD WEIGHT . . . . . . . . . . . . . . . . . . . . . . . 9

11 UNIT CLEARANCES. . . . . . . . . . . . . . . . . . . . . . . . . . 10

12 CONTROL WIRE SIZES . . . . . . . . . . . . . . . . . . . . . . . 14

13 ELECTRICAL DATA 6-1/2 TON . . . . . . . . . . . . . . . . . . 16

14 ELECTRICAL DATA 7-1/2 TON . . . . . . . . . . . . . . . . . 16

15 ELECTRICAL DATA 8-1/2 TON . . . . . . . . . . . . . . . . . . 17

16 ELECTRICAL DATA 10 TON . . . . . . . . . . . . . . . . . . . 17

17 ELECTRICAL DATA 12-1/2 TON . . . . . . . . . . . . . . . . 18

18 PHYSICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

19 ACCESSORY STATIC RESISTANCE . . . . . . . . . . . . 19

20 SUPPLY AIR LIMITATIONS . . . . . . . . . . . . . . . . . . . . 20

21 6-1/2 TON STANDARD MOTOR DOWN SHOT . . . . . . .

BLOWER PERFORMANCE . . . . . . . . . . . . . . . . . . . . . 22

22 7-1/2 TON STANDARD MOTOR

DOWN SHOT BLOWER PERFORMANCE . . . . . . . 22

23 7-1/2 TON OPTIONAL MOTOR

DOWN SHOT BLOWER PERFORMANCE . . . . . . . 22

24 8-1/2 TON STANDARD MOTOR DOWN SHOT


25 8-1/2 TON OPTIONAL MOTOR DOWN SHOT


26 10 TON STANDARD MOTOR DOWN SHOT BLOWER

PERFORMANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23

27 10 TON OPTIONAL MOTOR

DOWN SHOT BLOWER PERFORMANCE . . . . . . . . . 24



29 12-12-1/2 TON OPTIONAL MOTOR



SIDE SHOT PERFORMANCE . . . . . . . . . . . . . . . . . . . 25


SIDE SHOT BLOWER PERFORMANCE . . . . . . . . . . . 26


SIDE SHOT BLOWER PERFORMANCE . . . . . . . . . . 26



34 8-1/2 STANDARD MOTOR


35 8/12 OPTIONAL MOTOR


36 10 TON STANDARD MOTOR


37 10 TON OPTIONAL MOTOR






40 INDOOR BLOWER SPECIFICATIONS . . . . . . . . . . . . 29

41 MOTOR SHEAVE DATUM DIAMETERS . . . . . . . . . . 230

42 SUPERHEAT CHARGING . . . . . . . . . . . . . . . . . . . . . . 33

43 COOLING SUPERHEAT6-1/2 & 7-1/2 TON

HEAT PUMP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

44 COOLING SUPERHEAT8-1/2 & 10 TON

HEAT PUMP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

45 COOLING SUPERHEAT 12.5 TON

HEAT PUMP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35

46 UNIT CONTROL BOARD FLASH CODES. . . . . . . . . . 36

Unitary Products Group 3

035-17275-000 REV B (0101)

FIGURES

1 UNIT SHIPPING BRACKET . . . . . . . . . . . . . . . . . 6

2 CONDENSER COVERING . . . . . . . . . . . . . . . . . 7

3 COMPRESSOR SECTION. . . . . . . . . . . . . . . . . . 7

4 PREDATOR™ COMPONENT LOCATION . . . . . 8

5 UNIT 4 POINT LOAD . . . . . . . . . . . . . . . . . . . . . . 9

6 UNIT 6 POINT LOAD . . . . . . . . . . . . . . . . . . . . . . 9

7 UNIT CENTER OF GRAVITY. . . . . . . . . . . . . . . . 9

8 UNIT DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . 10

9 HORIZONTAL ECONOMIZER . . . . . . . . . . . . . . 11

10 DOWNFLOW ECONOMIZER HOOD DETAIL . . 11

11 BOTTOM AIR DUCT OPENINGS . . . . . . . . . . . 12

12 SIDE PANELS WITH HOLE PLUGS . . . . . . . . . 13

13 RETURN DOWNFLOW PLENUM WITH PANEL 13

14 DISCHARGE PANEL IN PLACE . . . . . . . . . . . . 13

15 CONDENSATE DRAIN . . . . . . . . . . . . . . . . . . . 13

16 ELECTRONIC THERMOSTAT FIELD WIRING . 14

17 FIELD WIRING 24 VOLT THERMOSTAT . . . . . 15

18 FIELD WIRING DISCONNECT . . . . . . . . . . . . . 15

19 ENTHALPY SET POINT CHART . . . . . . . . . . . . 19

20 BELT ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . 21

21 BASIC TROUBLESHOOTING FLOWCHART . . 37

22 TRIP FAILURE FLOW CHART . . . . . . . . . . . . . .38

23 HEAT PUMP UNIT WITH OR WITHOUT

ELECTRIC HEAT . . . . . . . . . . . . . . . . . . . . . . . . 43


035-17275-000 REV B (0201)

B P 120 N 15 A 2 A AA 1 A

TABLE 1: PRODUCT NOMENCLATURE

Model #

Model Number

Description

B Product Category

P

120

C

Product Identifier

Nominal Cooling Capacity

MBH

Heat Type

Options

B = Single Package Heat Pumps

P = High Efficiency

078 = 6-1/2 Ton

090 = 7-1/2 Ton

C = Cooling Only

102 = 8-1/2 Ton

120= 10 Ton

00

Nominal Heating

Capacity

00 = No Heat Installed

A

2

A

AA

1

A

Airflow

Voltage

Installation Options

Additional Options

Product Generation

Product Style

A = SM

B = SM/EC/BR

C = SM/EC/PE

2 = 208/230-3-60

A= None

B = 1

C = 2

D = 1 & 2E = 3

F = 4

AA = None

AB = PM

AC = CG

AD = DFS

AE = PM & CG

AF = PM & DFS

1 = First Generation

A = Style A

D = SM/MD/SR

N = High Static Motor

P = High Static Motor/EC/BR

4 = 460-3-60

G = 1 & 3

H = 1 & 4

J = 1, 2 & 3

K = 1, 2 & 4

L = 1, 3 & 4

AG = CG & DFS

AH = PM, CG & DFS

TA = TCC

TB = TCC & PM

TC = TCC & CG

TABLE 2: AIRFLOW ABBREVIATIONS

ABBREVIATION MEANING

Barometric Relief BR

EC

MD

PE

SM

Economizer

Motorized Damper

Power Exhaust

Standard Motor

150 = 12-1/2 Ton

Q = High Static Motor/EC/PE

R = High Static Motor/MD

5 = 575-3-60

M = 1, 2, 3 & 4

N = 2 & 3

P = 2 & 4

Q = 2, 3 & 4

R = 3 & 4

TD = TCC & DFS

TE = TCC, PM & CG

TF = TCC, PM & DFS

TG = TCC, CG & DFS

TH = TCC, PM, CG & DFS

If the information in this manual is not followed exactly, a fire or explosion may result causing property damage, personal injury or loss of life.

Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any other appliance.

TABLE 3: INSTALLATION ABBREVIATIONS


1 Disconnect

Convenience Outlet 2

3

4

Smoke Detector Supply Air

Smoke Detector Return Air

TABLE 4: ADDITIONAL OPTIONS ABBREVIATIONS


CG Coil Guard

Dirty Filter Switch DFS

PM

TCC

Phase Monitor

Technicoat Condenser Coil


035-17275-000 REV B (0201)

GENERAL

YORK



Predator

 heat pump units are single package reverse cycle air conditioners designed for outdoor installation on a rooftop or slab and for non-residential use. These units can be equipped with field installed electric heaters for heating applications.

These units are completely assembled on rigid, permanently attached base rails. All piping, refrigerant charge, and electrical wiring is factory installed and tested. The units require electric power and duct connections. The electric heaters have nickel-chrome elements and utilize single-point power connection.

SAFETY CONSIDERATIONS

Due to system pressure, moving parts, and electrical components, installation and servicing of air conditioning equipment can be hazardous. Only qualified, trained service personnel should install, repair, or service this equipment. Untrained personnel can perform basic maintenance functions of cleaning coils and filters and replacing filters.

Observe all precautions in the literature, labels, and tags accompanying the equipment whenever working on air conditioning equipment. Be sure to follow all other applicable safety precautions and codes including ANSI Z223.1 - latest edition. Wear safety glasses and work gloves. Use quenching cloth and have a fire extinguisher available during brazing operations.

NOTES, CAUTIONS AND WARNINGS

Installer should pay particular attention to the words: NOTE,

CAUTION, and WARNING. Notes are intended to clarify or make the installation easier. CAUTIONS are given to prevent equipment damage. WARNINGS are given to alert installer that personal injury and/or equipment damage may result if installation procedure is not handled properly.

APPROVALS

Design certified by CSA as follows:

1.

For use as a cooling only unit or cooling unit with supplemental electric heat forced air furnace.

2.

For outdoor installation only.

3.

For installation on combustible material and may be installed directly on combustible flooring or, in the U.S., on wood flooring or Class A, Class B or Class C roof covering materials.

REFERENCE

Additional information is available in the following reference forms:

• - Technical Guide

• - General Installation

• - Pre-start & Post-start Check List

• - Economizer Accessory

• - Motorized Outdoor Air Damper

• - Manual Outdoor Air Damper (0-100%)

• - Manual Outdoor Air Damper (0-35%)

• - Electric Heater Accessory

• - Unit Renewal Parts List

All forms referenced in this instruction may be ordered from:

Standard Register

2101 West Tecumseh Road

Norman, OK 73069

Toll Free Fax: (877) 379-7920

Toll Free Phone: (877) 318-9675

INSPECTION

As soon as a unit is received, it should be inspected for possible damage during transit. If damage is evident, the extent of the damage should be noted on the carrier’s freight bill. A separate request for inspection by the carrier’s agent should be made in writing.

This unit is not to be used for temporary heating of buildings or structures under construction.

Before performing service or maintenance operations on unit, turn off main power switch to unit.

Electrical shock could cause personal injury.

Improper installation, adjustment, alteration, service or maintenance can cause injury or property damage. Refer to this manual. For assistance or additional information consult a qualified installer or service agency.

INSTALLATION

PRECEDING INSTALLATION

1.

Remove the two screws holding the brackets in the front, rear and compressor side fork-lift slots.

Bracket

Screws Turn down

FIGURE 1 : UNIT SHIPPING BRACKET

2.

Turn each bracket toward the ground and the protective plywood covering will drop to the ground.


035-17275-000 REV B (0201)

3.

Remove the condenser coil external protective covering prior to operation.

Condenser

Coil External

Protective

Covering

Barometric

Relief Hood in

Shipping Location (if included)

FIGURE 2 : CONDENSER COVERING

4.

Remove the toolless doorknobs and instruction packet prior to installation.

FIGURE 3 : COMPRESSOR SECTION

LIMITATIONS

Toolless

Doorknobs

Installation

Instruction

Packet

3.

Local electric utility requirements.

In Canada:

1.

Canadian Electrical Code, CSA C22.1,

2.

Canadian installation codes, CSA-B149,

3.

Local plumbing and waste water codes, and

4.

Other applicable local codes.

Refer to Tables 6 & 7 for unit application data.

If components are to be added to a unit to meet local codes, they are to be installed at the dealer’s and/or customer’s expense.

Size of unit for proposed installation should be based on heat loss/heat gain calculation made according to the methods of

Air Conditioning Contractors of America (ACCA), American

Society of Heating, Refrigeration, and Air Conditioning Engineers (ASHRAE) or any other recognized authority.

TABLE 5: UNIT VOLTAGE LIMITATIONS

Power Rating

* Minimum Maximum

380/415-3-50 342 456

*

Rated in accordance with ARI Standard 110, utilization range

“A”.

TABLE 6: UNIT VOLTAGE LIMITATIONS

Power Rating

* Minimum Maximum

208/230-3-60

460-3-60

575-3-60

187

432

540

252

504

630

*

Rated in accordance with ARI Standard 110, utilization range

“A”.

TABLE 7: UNIT TEMPERATURE LIMITATIONS

Temperature Min.

Max.

Wet Bulb Temp (

°

F) of Air on Evap Coil

Dry Bulb Temp (

°

F) of Air on Cond Coil

57

0

72

125

This product must be installed in strict compliance with this installation instruction and any applicable local, state and national codes including, but not limited to, building, electrical, and mechanical codes.

These units must be installed in accordance with the following:

In U.S.A.:

1.

National Electrical Code, ANSI/NFPA No. 70 - Latest

Edition

2.

Local building codes, and


035-17275-000 REV B (0201)

Terminal block for hi-voltage connection

Control board w/screw connector for T-stat wiring

Disconnect location

(optional disconnect switch)

Filter access (2” throw-away)

Filter drier (solid core)

Second model nameplate inside hinged access panel

Condenser section

Slideout motor

& blower assembly for easy access adjustment & service

Belt-drive blower motor

Compressor #2 access (highefficiency compressor)

Compressor #1 access (high efficiency compressor)

Base rails w/forklift slots (3 sides) and lifting holes)

Tool-less door latch

Side entry power and control wiring knockouts

FIGURE 4 : PREDATOR™ COMPONENT LOCATION

LOCATION

Use the following guidelines to select a suitable location for these units:

1.

Unit is designed for outdoor installation only.

2.

Condenser coils must have an unlimited supply of air.

Where a choice of location is possible, position the unit on either north or east side of building.

3.

Suitable for mounting on roof curb.

4.

Roof structures must be able to support the weight of the unit and its options/accessories. Unit must be installed on a solid, level roof curb or appropriate angle iron frame.

5.

Maintain level tolerance to 1/2-inch across the entire width and length of unit.

Slide-out drain pan with steel 3/4” FPT

Roof curbs in eight- and fourteen-inch heights. Roof curbs for transitioning from connection

York Sunline™ footprint to the BP Series footprint are also available

(field-installed accessory)

RIGGING AND HANDLING

Exercise care when moving the unit. Do not remove any packaging until the unit is near the place of installation. Rig the unit by attaching chain or cable slings to the lifting holes provided in the base rails. Spreader bars, whose length exceeds the largest dimension across the unit, MUST be used across the top of the unit.

If a unit is to be installed on a roof curb other than a YORK roof curb, gasketing must be applied to all surfaces that come in contact with the unit underside.

Before lifting, make sure the unit weight is distributed equally on the rigging cables so it will lift evenly.


035-17275-000 REV B (0201)

Units may be moved or lifted with a forklift. Slotted openings in the base rails are provided for this purpose.

Length of forks must be a minimum of 48 inches.

Remove the nesting brackets from the four, top corners of the unit. All screws that are removed when taking off these rackets must be replaced on the unit.

TABLE 9: 4 POINT LOAD WEIGHT

Location (lbs.)

Model

A B C

BP078

BP090

BP102

BP120

BP150

241

242

257

265

263

206

207

220

226

224

300

301

321

330

327

D

352

353

375

386

383

FIGURE 5 : UNIT 4 POINT LOAD

All panels must be secured in place when the unit is lifted.

The condenser coils should be protected from rigging cable damage with plywood or other suitable material.

TABLE 8: UNIT WEIGHTS

Model Shipping Weight (lb.)

BP078

BP090

BP102

BP120

BP150

Econ.

w/ PE

Elec. Heat

*

*

54kW heater.

1104

1108

1178

1212

1202

85

150

49

Operating Weight

(lb.)

1099

1103

1173

1207

1197

84

148

49

FIGURE 6 : UNIT 6 POINT LOAD

TABLE 10: 6 POINT LOAD WEIGHT

Location (lbs.)

Model

A B C D

BP078

BP090

BP102

BP120

BP150

165

166

176

181

180

148

149

158

163

161

134

134

143

147

146

195

196

208

214

213

E

216

217

231

237

235

F

241

242

257

264

262

FIGURE 7 : UNIT CENTER OF GRAVITY


035-17275-000 REV B (0201)

CLEARANCES

All units require particular clearances for proper operation and service.

Do not permit overhanging structures or shrubs to obstruct condenser air discharge outlet.

TABLE 11: UNIT CLEARANCES

Top

*

72” Right

Front 36” Left

Rear

†

36” Bottom

‡

*

†

‡

Units must be installed outdoors. Overhanging structure or shrubs should not obstruct condenser air discharge outlet.

To remove the slide-out drain pan, a rear clearance of sixty inches is required. If space is unavailable, the drain pan can be removed through the front by separating the corner wall.

Units may be installed on combustible floors made from wood or class A, B or C roof covering materials.

12”

36”

0”

FIGURE 8 : UNIT DIMENSIONS

NOTE:A one-inch clearance must be provided between any combustible material and the supply ductwork for a distance of 3 feet from the unit.

DETAIL A

DETAIL B


035-17275-000 REV B (0201)

FIGURE 9 : HORIZONTAL ECONOMIZER

FIGURE 10 : DOWNFLOW ECONOMIZER HOOD DETAIL


035-17275-000 REV B (0201)

FIGURE 11 : BOTTOM AIR DUCT OPENINGS

DUCTWORK

Ductwork should be designed and sized according to the methods in Manual D of the Air Conditioning Contractors of

America (ACCA) or as recommended by any other recognized authority such as ASHRAE or SMACNA.

A closed return duct system should be used. This will not preclude use of economizers or outdoor fresh air intake. The supply and return air duct connections at the unit should be made with flexible joints to minimize noise.

The supply and return air duct systems should be designed for the CFM and static pressure requirements of the job. They should NOT be sized to match the dimensions of the duct connections on the unit.

Refer to Figure 11 for bottom air duct openings. Refer to

Figure 10 for side air duct openings.

DUCT COVERS

Units are shipped with the side duct openings covered and a covering over the bottom of the unit. For bottom duct application, no duct cover changes are necessary. For side duct application, remove the side duct covers and install over the bottom duct openings. The panels removed from the side duct connections are designed to be reused by securing each panel to its respective downflow opening. But keep in mind that the supply panel is installed with the painted surface UP, facing the heat exchanger, while the return panel is installed with the painted surface DOWN, facing the downflow duct opening. The supply panel is secured with a bracket (already in place from the factory) and two screws. It’s a snug fit for the panel when sliding it between the heat exchanger and unit bottom, but there is room. The return panel is secured with four screws .

When fastening ductwork to side duct flanges on unit, insert screws through duct flanges only. DO

NOT insert screws through casing. Outdoor ductwork must be insulated and water-proofed.


FIGURE 12 : SIDE PANELS WITH HOLE PLUGS

Note orientation. Panel is “insulation” side up.

035-17275-000 REV B (0201)

CONDENSATE DRAIN

The side condensate drain is reversible and maybe re-oriented to the rear of the cabinet to facilitate condensate piping. A condensate drain connection is available through the base pan for piping inside the roof curb. Trap the connection per Figure 15. The trap and drain lines should be protected from freezing.

Plumbing must conform to local codes. Use a sealing compound on male pipe threads. Install condensate drain line from the 3/4 inch NPT female connection on the unit to an open drain.

FIGURE 13 : RETURN DOWNFLOW PLENUM WITH

PANEL

FIGURE 15 : CONDENSATE DRAIN

COMPRESSORS

The compressors are mounted on elastomer insulators. The mounting bolts have been fully tightened for shipping. Do not loosen the compressor mounting bolts.

FILTERS

Two-inch filters are supplied with each unit. One-inch filters may be used with no modification to the filter racks. Filters must always be installed ahead of evaporator coil and must be kept clean or replaced with same size and type. Dirty filters reduce the capacity of the unit and result in frosted coils or safety shutdown. All units use four (4) 20”x25”x2” filters.

The unit should not be operated without filters properly installed.

FIGURE 14 : DISCHARGE PANEL IN PLACE

Note Bracket and orientation. Panel is face up.

Make sure that panel latches are properly positioned on the unit to maintain an airtight seal.


035-17275-000 REV B (0201)

THERMOSTAT WIRING

The thermostat should be located on an inside wall approximately 56 inches above the floor where it will not be subject to drafts, sun exposure or heat from electrical fixtures or appliances. Follow the manufacturer's instructions enclosed with thermostat for general installation procedure. Colorcoded, insulated wires should be used to connect the thermostat to the unit. Refer to Table 12 for control wire sizing and maximum length.

TABLE 12: CONTROL WIRE SIZES

Wire Size Maximum Length

*

18 AWG 150 Feet

*

From the unit to the thermostat and back to the unit.

POWER AND CONTROL WIRING

Field wiring to the unit, fuses, and disconnects must conform to provisions of National Electrical Code (NEC), ANSI/NFPA

70 – Latest Edition, and/or local ordinances. The unit must be electrically grounded in accordance with NEC ANSI/NFPA

– Latest Edition and/or local codes. In Canada, the unit must conform to CSA C22.1.

Voltage tolerances which must be maintained at the compressor terminals during starting and running conditions are indicated on the unit Rating Plate and Table 6.

When connecting electrical power and control wiring to the unit, water-proof connectors must be used so that water or moisture cannot be drawn into the unit during normal operation. The above water-proofing conditions will also apply when installing a field supplied disconnect switch.

POWER WIRING DETAIL

Units are factory wired for the voltage shown on the unit nameplate. Refer to Electrical Data Tables 14 through 17 to size power wiring, fuses, and disconnect switch.

Power wiring is brought into the unit through the side of the unit or the basepan inside the curb.

Avoid damage to internal components if drilling holes for disconnect mounting.

The internal wiring harnesses furnished with this unit are an integral part of the design certified unit. Field alteration to comply with electrical codes should not be required. If any of the wire supplied with the unit must be replaced, replacement wire must be of the type shown on the wiring diagram and the same minimum gauge as the replaced wire.

A disconnect must be utilized for these units. Factory installed disconnects are available. If installing a disconnect

(field supplied), refer to Figure 4 for the recommended mounting location.

NOTE: Since not all local codes allow the mounting of a disconnect on the unit, please confirm compliance with local code before mounting a disconnect on the unit.

Electrical line must be sized properly to carry the load. USE

COPPER CONDUCTORS ONLY. Each unit must be wired with a separate branch circuit fed directly from the meter panel and properly fused.

Refer to Figures 16, 17 and 18 for typical field wiring and to the appropriate unit wiring diagram mounted inside control doors for control circuit and power wiring information.

FIGURE 16 : ELECTRONIC THERMOSTAT FIELD

WIRING

The thermostat must provide a “G” signal when there is a call for “W1.”The unit control board will energize the indoor blower when the compressors are energized; however, if the thermostat calls for

“W2” during the anti-short-cycle delay, the electric heat (when installed) will be energized immediately upon the call for “W2.”


035-17275-000 REV B (0201)

NOTE: This unit does NOT REQUIRE a heat pump thermostat. It is designed to work with a standard two-stage cool, two-stage heat thermostat; however, the thermostat must provide a “G” signal when there is a call for “W1”.

The thermostat must provide a “G” signal when there is a call for “W1.”The unit control board will energize the indoor blower when the compressors are energized; however, if the thermostat calls for “W2” during the anti-short-cycle delay, the electric heat (when installed) will be energized immediately upon the call for “W2.”

FIGURE 17 : FIELD WIRING 24 VOLT THERMOSTAT

FIGURE 18 : FIELD WIRING DISCONNECT


035-17275-000 REV B (0201)

TABLE 13: ELECTRICAL DATA 6-1/2 TON

Voltage

208

230

460

575

Compr essors

RLA LRA

21.2

21.2

10.6

8.5

146

146

73

58

OD Fan

Motors

FLA

Blower

Motor, Supply FLA

1.5 HP 2 HP

Pwr Exh

Motor

FLA

1.6

6.2

8.2

5.5

Electric Heater

Model No.

Min. Circuit

Ampacity

(Amps)

MCA w/ Power

Exhaust Amps

Max Fuse

Size *Amps

Max Fuse Size w/ Pwr. Exh.

*Amps

Rated kW

Heater

Amps

1.5 HP 2 HP 1.5 HP 2 HP 1.5 HP 2 HP 1.5 HP 2 HP

None -

2TP04510925 6.8

2TP04511825 13.5

2TP04512425 18.0

-

18.9

37.5

50.0

35.9

59.5

82.7

37.9

61.5

84.7

41.4

65.0

88.2

43.4

67.0

90.2

98.4

100.4

103.9

105.9

50

70

90

100

50

70

90

110

60

70

90

110

60

70

100

110

1.6

0.8

0.6

6.2

3.1

2.4

8.2

4.1

3.6

5.5

2.2

1.8

2TP04513625 25.5

None -

2TP04510925 9.0

2TP04511825 18.0

2TP04512425 24.0

2TP04513625 34.0

None -

2TP04510946 9.0

2TP04511846 18.0

2TP04512446 24.0

2TP04513646 34.0

None -

2TP04510958 9.0

2TP04511858 18.0

2TP04512458 24.0

2TP04513658 34.0

70.8

-

21.7

43.3

57.7

81.8

-

10.8

21.7

28.9

40.9

-

8.7

17.3

23.1

32.7

124.4

126.4

129.9

131.9

35.9

37.9

41.4

43.4

63.0

65.0

68.5

70.5

90.0

92.0

95.5

97.5

108.1

110.1

113.6

115.6

138.1

140.1

143.6

145.6

18.0

31.5

45.0

54.0

69.1

14.2

25.1

35.9

43.1

55.1

19.0

32.5

46.0

55.0

70.1

15.4

26.3

37.1

44.3

46.3

20.2

33.7

47.2

56.2

71.3

16.0

26.9

37.7

44.9

56.9

21.2

34.7

48.2

57.2

72.3

17.2

28.1

38.9

46.1

58.1

125

50

70

100

110

150

25

35

50

60

70

20

30

40

45

60

150

50

70

100

125

150

25

35

50

60

80

20

30

40

45

60

30

35

50

60

80

150

60

70

100

125

150

20

30

40

45

60

30

40

50

60

80

150

60

80

100

125

150

25

30

40

50

60


Voltage

208

230

460

575

Compressors

RLA LRA

OD

Fan

Motors

FLA

Blower Motor

Supply FLA

1.5 HP 2 HP

Pwr Exh

Motor

FLA

14.1

110 1.5

6.2

8.2

5.5

Electric Heater

Model No.

Rated kW

Heater

Amps

None -

2TP04510925 6.8

2TP04511825 13.5

-

18.9

37.5

14.1

110 1.5

6.2

8.2

5.5

2TP04512425 18.0

2TP04513625 25.5

None -

2TP04510925 9.0

2TP04511825 18.0

50.0

70.8

-

21.7

43.3

7.1

5.8

54

44

0.8

0.6

3.1

2.4

4.1

3.6

2.2

1.8

2TP04512425 24.0

2TP04513625 34.0

None -

2TP04510946 9.0

2TP04511846 18.0

2TP04512446 24.0

2TP04513646 34.0

None -

2TP04510958 9.0

2TP04511858 18.0

2TP04512458 24.0

2TP04513658 34.0

40.9

-

8.7

17.3

23.1

32.7

57.7

81.8

-

10.8

21.7

28.9

Min. Circuit

Ampacity(Amps)

1.5 HP 2 HP

MCA w/Power

Exhaust Amps

55.0

16.7

16.7

24.7

31.9

43.9

40.9

40.9

54.6

70.2

96.2

40.9

40.9

61.9

42.9

42.9

57.1

46.4

70.0

93.3

48.4

72.0

95.3

72.7

108.9

110.9

98.7

134.9

136.9

42.9

46.4

48.4

42.9

73.5

75.5

64.4

100.6

102.6

79.9.1

82.4

118.6

120.6

110.0

112.5

148.7

150.7

20.7

21.7

22.9

23.9

20.7

30.9

40.0

21.7

32.2

41.2

36.4

49.9

59.0

37.4

50.9

60.0

56.2

17.9

17.9

26.2

33.4

45.4

74.0

18.5

29.3

75.0

19.7

30.5

40.1

47.3

41.3

48.5

59.3 60.5

Max Fuse

*

Size (Amps)

Max Fuse Size w/ Pwr. Exh.

*Amps

1.5 HP 2 HP 1.5 HP 2 HP

50

70

90

110

150

50

70

100

125

150

25

35

50

60

80

20

30

40

40

60

125

150

25

40

50

60

50

70

90

110

150

50

70

100

40

50

60

80

20

30

20

30

40

50

60

150

25

40

50

60

80

60

70

100

110

150

60

80

110

125

25

35

40

50

70

175

30

40

60

60

80

60

80

100

125

150

60

80

110

125

*

Maximum HACR breaker of the same amp size is applicable.


035-17275-000 REV B (0201)


Voltage

208

230

460

575

Compressors

RLA LRA

OD Fan

Moto

FLA

Blower

Motor, Supply FLA

Power

Exhaust

Motor FLA

2 HP 3 HP

14.7

14.7

7.1

6.4

130

130

64

52

3.5

3.5

1.6

1.3

8.2

8.2

4.1

3.6

10.9

10.9

5.3

4.1

5.5

5.5

2.2

1.8

None

2TP04510925

2TP04511825

2TP04512425

2TP04513625

None

2TP04510925

2TP04511825

2TP04512425

2TP04513625

None

2TP04510946

2TP04511846

2TP04512446

2TP04513646

None

2TP04510958

2TP04511858

2TP04512458

2TP04513658

Rated kW

-

6.8

13.5

18.0

25.5

-

9.0

18.0

24.0

34.0

-

9.0

18.0

24.0

34.0

-

9.0

18.0

24.0

34.0

Electric Heater

Model No.

Min.Circuit

Ampacity

Amps

MCA w/Power

Exhaust

Amps

Max Fuse

Size

Max Fuse

Size w/ Pwr.

Exh. * Amps

Heater

Amps

2 HP 3 HP 2 HP 3 HP 2 HP 3 HP 2 HP 3 HP

-

18.9

37.5

50.0

70.8

-

21.7

43.3

57.7

81.8

-

10.8

21.7

28.9

40.9

-

8.7

17.3

23.1

32.7

48.3

51.0

53.8

56.5

71.9

74.6

77.4

80.1

60

80

95.1

97.8

100.6 103.3

100

110.7

113.4

116.2

118.9

125

136.8 139.5

142.3 145.0

150

48.3

51.0

53.8

56.5

60

75.3

78.0

80.8

83.5

80

102.4 105.1

107.9 110.6

110

120.4 123.1

125.9 128.6

125

150.5 153.2

156.0 158.7

175

23.3

24.5

25.5

26.7

36.8

38.0

39.0

40.2

50.3

51.5

52.5

53.7

30

40

60

59.4

60.6

61.6

62.8

74.4

75.6

76.6

77.8

20.6

21.1

22.4

22.9

31.4

31.9

33.2

33.7

42.3

42.8

44.1

44.6

49.5

50.0

51.3

51.8

61.5

62.0

63.3

63.8

45

50

70

60

80

25

35

125

175

30

40

60

150

60

80

110

60

80

100

125

45

50

70

70

80

25

35

150

175

30

40

60

150

60

90

110

60

80

110

125

45

60

70

70

80

25

35

70

90

110

125

150

70

90

125

150

175

30

45

60

45

60

70

70

80

25

35

TABLE 16: ELECTRICAL DATA 10 TON

Voltage

208

230

460

575

Compressor

RLA LRA

OD Fan

Motor

FLA

Blower Motor

Supply FLA Power

Exhaust

Motor FLA

2 HP 3 HP

16.0

16.0

8.3

6.4

167

167

69

58

3.5

3.5

1.6

1.3

8.2

8.2

4.1

3.6

10.9

10.9

5.3

4.1

5.5

5.5

2.2

1.8

Electric Heater

Model No.

None

2TP04511825

2TP04512425

2TP04513625

2HP04505425

†

None

2TP04511825

2TP04512425

2TP04513625

2HP04505425

†

None

2TP04511846

2TP04512446

2TP04513646

2HP04505446

C

None

2TP04511858

2TP04512458

2TP04513658

2HP04515458

†

Rated kW

54.0

-

18.0

24.0

34.0

54.0

-

18.0

24.0

34.0

54.0

-

18.0

24.0

34.0

-

13.5

18.0

25.5

40.6

Min. Circuit

Ampacity

(Amps)

MCA w/Power

Exhaust

Amps

Max Fuse

*

Size (Amps)

Max Fuse

Size w/ Power

Exhaust

Heater

Amps

2 HP 3 HP 2 HP 3 HP 2 HP 3 HP 2 HP 3 HP

65.0

-

17.3

23.1

32.7

52.0

-

37.5

50.0

51.2

53.9

56.7

59.4

60 60

57.1

60.5

64.0

67.3

100 100

72.7

76.1

79.6

83.0

125 125

70

70

80

70.8

98.7

102.1

105.6 109.0

150 150 110

112.7

151.1

154.5

158.0 161.4

175 175 175

-

43.3

57.7

81.8

51.2

53.9

56.7

59.4

60

64.4

67.8

71.3

74.6

110

60

110

70

80

82.4

85.8

89.3

92.7

125 125 90

112.5

115.9

119.4 122.7

175 175 125

129.9

140.2

143.5

147.0 150.4

175 175 150

-

21.7

28.9

40.9

26.0

32.2

41.2

56.2

27.2

33.7

42.7

57.7

28.2

34.9

44.0

59.0

29.4

44.0

45.5

60.5

30

60

70

80

35

60

70

80

35

35

45

60

70.1

71.6

72.8

74.3

20.6

21.1

22.4

22.9

26.2

26.8

28.4

29.0

33.4

34.0

35.6

36.2

45.4

46.0

47.6

48.3

56.5

57.1

58.7

59.3

80

25

45

60

70

70

80

25

45

60

70

70

80

25

30

40

50

70

80

25

30

40

50

70

70

80

100

125

175

35

40

50

70

70

70

90

110

175

*

Maximum HACR breaker of the same AMP size is applicable.


035-17275-000 REV B (0201)


Voltage

208

230

460

575

Compressors

MPM

PS)

18.9

18.9

9.5

7.6

LRA

146

146

73

58

OD

Fan

Moto

FLA

3.5

3.5

1.6

1.3

Blower Motor

Supply FLA

3 HP

10.9

10.9

5.3

4.1

5 HP

17.3

17.3

8.6

6.8

Electric Heater

Model No.

None

2TP04511825

2TP04512425

2TP04513625

2HP04505425

†

None

2TP04511825

2TP04512425

2TP04513625

2HP04505425

†

None

2TP04511846

2TP04512446

2TP04513646

2HP04515446

†

None

2TP04511858

2TP04512458

2TP04513658

2HP04515458

†

Heater

Amps

-

37.5

50.0

70.8

112.7

-

43.3

57.7

81.8

129.9

-

21.7

28.9

40.9

65.0

-

17.3

23.1

32.7

52.0

Rated kW

-

13.5

18.0

25.5

40.6

-

18.0

24.0

34.0

54.0

-

18.0

24.0

34.0

54.0

-

18.0

24.0

34.0

54.0

Min. Circuit

Ampacity

(Amps)

MCA w/ Power

Exhaust

(Amps)

3 HP 5 HP 3 HP 5 HP

60.4

66.8

107.3

113.7

122.9

129.3

65.9

67.3

83.0

72.3

75.3

91.0

148.9

155.3

109.0

117.0

154.5

162.5

161.4

169.4

60.4

66.8

65.9

114.6

121.0

7406

132.6

139.0

92.7

72.3

85.6

100.7

162.7

169.1

122.7

130.7

23.8

45.5

52.7

64.7

64.7

162.7

169.1

150.4

158.4

29.9

56.9

66.0

81.0

81.0

33.2

60.2

69.3

84.3

84.3

32.1

36.4

45.5

60.5

74.3

35.4

40.6

49.6

64.6

78.5

26.5

48.2

55.4

67.4

67.4

25.6

29.0

36.2

48.3

59.3

28.3

32.4

39.6

51.6

62.7

Max Fuse

*

Size (Amps)

3 HP

175

35

35

45

60

80

30

30

35

50

70

70

70

80

110

175

70

70

90

125

*

†

Maximum HACR breaker of the same AMP size is applicable.

Only 34kW of electric heat can be simultaneously energized with the mechanical heating. The full 54kW operates only if both compressors are lockedout.

5 HP

175

40

40

50

70

90

30

35

40

50

70

80

80

90

125

175

80

80

100

125

Max Fuse*

Size w/ Power

Exhaust* (A

MPS

3 HP

175

40

40

50

70

80

30

30

40

50

70

80

80

90

110

175

80

80

100

125

5 HP

175

40

45

50

70

90

35

35

40

60

70

90

90

100

125

175

90

90

110

150

TABLE 18: PHYSICAL DATA

Evaporator Blower

Evaporator Coil

Condenser Fan

(2 per Unit)

Condenser Coil

(2 per unit)

Refrigerant

Charge

Compressors

Air Filters

Component

Blower, Centrifugal (Dia. X Wd. in.)

Motor, Standard (HP)

Motor, Optional (HP)

Rows

Fins per Inch

Height (in.)

Face Area (ft.

2

each)

Propeller Dia. (in., each)

Motor (HP, each)

CFM, Nominal (each)

Rows (each)

Fins per Inch

Height (in., each)

Face Area (ft.

2

each)

System 1 (lb./oz.)

System 2 (lb./oz.)

Quantity

Type

Size (Wd. x Ht. x Thickness in.)

Number Per Unit

078

15 x 15

1-1/2

2

3

15

40

13.2

24

1/3

3400

1

20

44

14.5

18

N/A

1

Scroll

25x20x2

4

090

15 x 15

1-1/2

2

3

15

40

13.2

24

1/3

3400

2

20

44

14.5

13/8

13/6

2

Recip

25x20x2

4

Models

102

15 x 15

2

3

3

15

40

13.2

24

3/4

4400

2

20

44

14.5

TBD

TBD

2

Recip

25x20x2

4

120

15 x 15

2

3

4

15

40

13.2

24

3/4

4400

2

20

44

14.5

15/4

15/4

2

Recip

25x20x2

4

150

15 x 15

3

5

4

15

40

13.2

24

3/4

4400

2

20

44

14.5

12/12

12/12

2

Scroll

25x20x2

4


035-17275-000 REV B (0201)

ACCESSORIES

ELECTRIC HEAT

Electric heaters are available for field installation. Refer to electric heat instructions for installation. These heaters mount in the heat compartment with the heating elements extending into the supply air chamber. All electric heaters are fused and intended for use with single point power supply.

ECONOMIZERS

The downflow economizer can be factory or field installed. If factory installed, refer to the instructions included with the outdoor air hood to complete the assembly. Field installed economizers include complete instructions for installation.

Horizontal economizer is available only as a field installed accessory.

RAIN HOOD

The following procedure should be used when assembling the economizer rain hood onto a unit. The outdoor and return air dampers, the damper actuator and gears, the outdoor and return air divider baffles, and all chosen control sensors are factory mounted as part of the economizer option.

All of the hood components, including the filters, the gasketing, and the hardware for assembling, are packaged and located between the condenser coil section and the main unit cabinet.

To assemble the rain hood:

1.

Remove the hood components, filters, gasketing, and assembly hardware from the area between the coils and main cabinet. Follow the instructions included with the hood to complete the installation.

FIGURE 19 : ENTHALPY SET POINT CHART

TABLE 19: ACCESSORY STATIC RESISTANCE

*

Description

Economizer

External Static Pressure Drop - Resistance, IWG

CFM

2250

0.03

3000

0.03

4000

0.04

5000

0.07

6000

0.09

*

Deduct these resistance values from the available external static pressure shown in the respective Blower Performance

Table.


035-17275-000 REV B (0201)

SET POINT ADJUSTMENT

Extreme care must be exercised in turning both the setpoint and minimum position adjusting screws to prevent twisting them off.

1.

The enthalpy set point for the dampers may now be set by selecting the desired setpoint. Adjust as follows:

• For a single enthalpy carefully turn the set point adjusting screw to the “A”, “B”, “C” or “D” setting corresponding to the lettered curve.

• For a dual enthalpy carefully turn the set point adjusting screw fully clockwise past the “D” setting.

To check that the damper blades move smoothly without binding carefully turn the minimum position adjusting screw fully clockwise and then energize and de-energize terminals

“R” to “G”. With terminals “R” to “G” energized, turn the minimum position screw counterclockwise until the desired minimum position has been attained

START-UP

PHASING

Predator



units are properly phased at the factory. Check for proper compressor rotation. If the blower or compressors rotate in the wrong direction at start-up, the electrical connection to the unit is misphased. Change the incoming line connection phasing to obtain proper rotation. (Scroll compressors operate in only one direction. If the scroll is drawing low amperage, has similar suction and discharge pressures, or producing a high noise level, the scroll is misphased). Units with scroll compressors have a phase monitor as standard equipment. This phase monitor will prevent unit operation under misphased conditions by breaking the 24 volt power.

SUPPLY AIR INSTRUCTIONS

CHECKING SUPPLY AIR CFM

The RPM of the supply air blower will depend on the required

CFM, the accessory static resistance pressure of the unit accessories, and the static pressure resistance of the air duct system. With this information, the RPM for the supply air blower can be determined from the blower performance data

(see Tables 23 - 31). Table 32 provides drive information for the sheaves supplied with the unit.

The supply air CFM must be within the limitations shown in

Table 20.

BLOWER ROTATION

Check for proper supply air blower rotation. If the blower is rotating backwards, the line voltage at the unit point of power connection is misphased (See ‘PHASING’).

TABLE 20: SUPPLY AIR LIMITATIONS

Unit Size Minimum Maximum

078

090

102

120

150

1950

2250

2250

3000

3750

3250

3750

4250

5000

6250

BELT TENSION

The tension on the belt should be adjusted as shown in Figure 20 .

Scroll compressors require proper rotation to operate correctly. Units are properly phased at the factory. Do not change the internal wiring to make the blower condenser fans, or compressor rotate correctly.


035-17275-000 REV B (0201)

Procedure for adjusting belt tension:

1. Loosen six nuts (top and bottom) A.

2. Adjust by turning (B).

3. Never loosen nuts (C).

4. Use belt tension checker to apply a perpendicular force to one belt at the midpoint of the span as shown.

Deflection distance of 4mm (5/32”) is obtained.

To determine the deflection distance from normal position, use a straight edge from sheave to sheave as reference line. The recommended deflection force is as follows:

Tension new belts at the max. deflection force recommended for the belt section. Check the belt tension at least two times during the first 24 hours of operation. Any retensioning should fall between the min. and max. deflection force values.

5. After adjusting retighten nuts (A).

FIGURE 20 : BELT ADJUSTMENT


035-17275-000 REV B (0201)

TABLE 21: 6-1/2 TON STANDARD MOTOR DOWN SHOT BLOWER PERFORMANCE

* †

TURNS OPEN **

ESP

‡ 0 1 2 3 4

CFM W

†† BHP CFM W




††

5

BHP CFM W

††

0.2

-

BHP

3291 1191 1.28

3096 1059 1.14

2963 948 1.02

2757 831 0.89

3168 1225 1.31

2969 1085 1.16

2658 939 1.01

2535 834 0.89

2255 718 0.77

0.4

0.6

0.8

1.0

3223 1273 1.37

2732 1084 1.16

2500 947 1.02

2110 803 0.86

1923 699 0.75

1608 596 0.64

2541 1091 1.17

2168 925 0.99

1882 793 0.85

-

1859 908 0.97

-

*

†

‡

**

††

Blower performance for gas heat includes maximum number of heat tubes available for each tonnage.

Blower performance includes two-inch throwaway filters.

ESP (External Static Pressure) given is that available for the supply and return air duct system. All internal resistances have been deducted from the total static pressure of the blower.

“Turns Open” refers to the setting of the variable pitch motor sheave, where “0 Turns Open” is fully closed.

W = Watts

0.6

0.8

1.0

1.2

1.4

1.6

1.8

TABLE 22: 6-1/2 TON OPTIONAL MOTOR DOWN SHOT BLOWER PERFORMANCE

* †

TURNS OPEN

**

ESP

‡ 0 1 2 3 4

CFM W





††

5

BHP CFM W

††

0.4

-

BHP

3489 1553 1.67

3394 1641 1.76

3101 1407 1.51

-

-

-

-

-

-

3623 2009 2.15

3323 1742 1.87

2971 1477 1.58

2607 1241 1.33

3643 2150 2.31

3224 1820 1.95

2889 1569 1.68

2466 1306 1.40

2009 1071 1.15

3613 2238 2.40

3143 1917 2.06

2748 1621 1.74

2369 1385 1.49

1879 1141 1.22

3099 2039 2.19

2636 1711 1.83

2195 1424 1.53

-

2586 1833 1.97

2124 1532 1.64

2073 1621 1.74

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†



‡


**

††


W = Watts


035-17275-000 REV B (0201)


*

TURNS OPEN ‡

ESP

† 0 1 2 3 4

CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

**

0.2

-

5

BHP CFM W

** BHP

3715 1573 1.69

3634 1434 1.54

3431 1265 1.36

3218 901 0.97

3024 976 1.05

3650 1657 1.78

3510 1490 1.60

3320 1313 1.41

3079 1145 1.23

2832 810 0.87

2586 860 0.92

0.4

0.6

0.8

1.0

3334 1522 1.63

3146 1351 1.45

2910 1169 1.25

2621 1005 1.08

2307 706 0.76

2903 1352 1.45

2622 1167 1.25

2404 1013 1.09

2054 858 0.92

-

2356 1159 1.24

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

**

-

BHP CFM W

‡

-

BHP CFM W

‡

-

BHP CFM W

**

-

5

BHP CFM W

**

-

BHP CFM W

** BHP

3992 1904 2.04

3798 1679 1.80

0.2

0.4

0.6

-

-

-

-

-

-

-

-

-

-

-

-

3930 2017 2.16

3734 1786 1.92

3486 1552 1.66

3947 2176 2.33

3670 1895 2.03

3394 1641 1.76

3084 1401 1.50

0.8

1.0

1.2

1.4

1.6

4138 2384 2.56

3623 2009 2.15

3323 1742 1.87

2971 1477 1.58

2591 1236 1.33

4126 2430 2.61

3643 2145 2.30

3224 1820 1.95

2889 1569 1.68

2466 1306 1.40

-

3613 2238 2.40

3143 1921 2.06

2748 1621 1.74

2369 1385 1.49

3099 2039 2.19

2636 1714 1.84

2195 1424 1.53

-

2586 1833 1.97

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)


* †

TURNS OPEN **

ESP

‡ 0 1 2 3 4

CFM W





††

5

BHP CFM W

††

0.2

-

BHP

4090 1816 1.95

3872 1613 1.73

3681 1448 1.55

3420 1271 1.36

3217 1125 1.21

3783 1778 1.91

3782 1685 1.81

3548 1489 1.60

3334 1325 1.42

3026 1149 1.23

2796 1010 1.08

0.4

0.6

0.8

1.0

3648 1720 1.84

3387 1529 1.64

3123 1340 1.44

2874 1176 1.26

2495 1002 1.08

3317 1583 1.70

2903 1354 1.45

2599 1175 1.26

-

2788 1385 1.49

-

-

-

-

-

-

-

-

-

-

*

†

‡

**

††





W = Watts

0.6

0.8

1.0

1.2

1.4

1.6

1.8


* †

TURNS OPEN **

ESP ‡ 0 1 2 3 4

0.4

CFM W

††

-

BHP CFM W

††

-

BHP CFM W

††

-

5

BHP CFM W

††

-

BHP CFM W


†† BHP

4257 2325 2.49

4117 2079 2.23

3878 1816 1.95

-

-

-

-

-

-

4363 2596 2.78

4114 2248 2.41

3876 1961 2.10

3556 1676 1.80

4323 2776 2.98

4107 2446 2.62

3838 2104 2.26

3499 1788 1.92

3166 1520 1.63

4317 2968 3.18

4175 2677 2.87

3803 2276 2.44

3427 1905 2.04

2987 1577 1.69

2710 1355 1.45

4243 2918 3.13

3869 2486 2.67

3451 2089 2.24

2882 1669 1.79

-

3977 2743 2.94

3408 2225 2.39

3051 1888 2.03

3518 2467 2.65

2790 1927 2.07

2604 1679 1.80

2868 2125 2.28

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**

††





W = Watts


035-17275-000 REV B (0201)

TABLE 27: 10 TON STANDARD MOTOR DOWN SHOT BLOWER PERFORMANCE

*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

**

0.2

-

5

BHP CFM W

** BHP

3896 1639 1.76

3688 1453 1.56

3447 1268 1.36

0.4

0.6

0.8

1.0

4040 2076 2.23

4005 1934 2.07

3790 1698 1.82

3569 1508 1.62

3333 1330 1.43

3057 1147 1.23

3890 2006 2.15

3697 1790 1.92

3427 1550 1.66

3152 1356 1.45

-

3620 1882 2.02

3324 1629 1.75

2972 1380 1.48

3227 1708 1.83

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts

TABLE 28: 10 TON OPTIONAL MOTOR DOWN SHOT BLOWER PERFORMANCE

*

TURNS OPEN

‡

ESP

† 0

CFM W

**

1

BHP CFM W

**

2

BHP CFM W

**

3

BHP CFM W

**

4

BHP CFM W

**

5

BHP CFM W

** BHP

4965 3485 3.74

4875 3150 3.38

4613 2739 2.94

4322 2374 2.55

4156 2106 2.26

3907 1860 1.99

0.4

0.6

0.8

1.0

4876 3416 3.66

4651 2997 3.21

4359 2582 2.77

4038 2220 2.38

3860 1966 2.11

3590 1724 1.85

4713 3291 3.53

4387 2823 3.03

4077 2417 2.59

3719 2059 2.21

3541 1827 1.96

3242 1584 1.70

4476 3116 3.34

4084 2632 2.82

3768 2245 2.41

3365 1892 2.03

3197 1691 1.81

4165 2898 3.11

3741 2427 2.60

3432 2070 2.22

-

-

-

-

-

-

1.2

1.4

1.6

3779 2646 2.84

3359 2212 2.37

3069 1895 2.03

3319 2372 2.54

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)


*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

**

5

BHP CFM W

**

0.4

BHP

5078 3630 3.89

4809 3103 3.33

4594 3053 3.27

4360 2478 2.66

4090 2093 2.24

3812 1798 1.93

4865 3456 3.71

4584 2961 3.17

4349 2912 3.12

4106 2318 2.49

3814 1964 2.11

0.6

0.8

1.0

1.2

1.4

4642 3284 3.52

4356 2828 3.03

4089 2776 2.98

3840 2137 2.29

4408 3114 3.34

4124 2705 2.90

3815 2647 2.84

-

4164 2947 3.16

3889 2592 2.78

-

3910 2787 2.99

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


*

TURNS OPEN

‡

ESP

† 0

CFM W

**

1

BHP CFM W

**

2

BHP CFM W

**

3

BHP CFM W

**

4

BHP CFM W

**

0.4

5

BHP CFM W

** BHP

5994 5400 5.79

5565 4369 4.69

5488 4169 4.47

5264 3599 3.86

4990 3085 3.31

4738 2812 3.02

0.6

0.8

1.0

1.2

1.4

1.6

1.8

2.0

2.2

5824 5216 5.59

5368 4186 4.49

5289 3991 4.28

5049 3437 3.69

4763 2937 3.15

4491 2655 2.85

5641 5022 5.39

5170 4012 4.30

5076 3807 4.08

4822 3272 3.51

4528 2790 2.99

4235 2497 2.68

5444 4819 5.17

4971 3846 4.12

4847 3618 3.88

4584 3103 3.33

4286 2644 2.83

3969 2340 2.51

5233 4609 4.94

4771 3687 3.95

4604 3426 3.67

4335 2933 3.15

4035 2499 2.68

5009 4394 4.71

4571 3537 3.79

4346 3233 3.47

4074 2762 2.96

3777 2356 2.53

4771 4174 4.48

4370 3395 3.64

4074 3040 3.26

3802 2590 2.78

4520 3951 4.24

4169 3262 3.50

3786 2850 3.06

-

-

-

-

-

-

-

4255 3728 4.00

3966 3137 3.36

3976 3505 3.76

3763 3020 3.24

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)

TABLE 31: 6-1/2 TON STANDARD MOTOR SIDE SHOT BLOWER PERFORMANCE

* †

TURNS OPEN **

ESP

‡ 0 1 2 3 4

CFM W





††

0.4

-

5

BHP CFM W

†† BHP

3367 1216 1.30

3133 1067 1.14

2954 944 1.01

2701 819 0.88

3208 1239 1.33

2913 1068 1.15

2466 913 0.98

2350 789 0.85

1750 621 0.67

0.6

0.8

1.0

-

2186 998

2651 1058 1.13

2317 894 0.96

1656 700 0.75

1.07

1774 830 0.89

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**

††





W = Watts

TABLE 32: 6-1/2 TON OPTIONAL MOTOR SIDE SHOT BLOWER PERFORMANCE

* †

TURNS OPEN

**

ESP ‡ 0 1 2 3 4

CFM W





††

0.6

0.8

1.0

1.2

1.4

1.6

1.8

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

2426 1768 1.90

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

5

BHP CFM W

††

3597 1598 1.71

3503 1689 1.81

3172 1430 1.53

3406 1778 1.91

3032 1497 1.61

2248 1143 1.23

3327 1866 2.00

2926 1578 1.69

2160 1217 1.31

3270 1971 2.11

2537 1544 1.66

2043 1296 1.39

-

3196 2077 2.23

2460 1651 1.77

1858 1318 1.41

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

BHP

-

-

-

-

*

†

‡

**

††





W = Watts


035-17275-000 REV B (0201)


*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

**

-

BHP CFM W

**

-

5

BHP

-

CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP

3736 1476 1.58

3487 1284 1.38

3231 1109 1.19

3001 970 1.04

0.4

0.6

0.8

3572 1514 1.62

3389 1339 1.44

3094 1151 1.23

2764 972 1.04

2446 824 0.88

3422 1558 1.67

3179 1364 1.46

2889 1164 1.25

2554 985 1.06

-

1.0

1.2

2891 1347 1.44

2372 1088 1.17

2050 922 0.99

2017 1051 1.13

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

**

-

BHP CFM W

**

-

BHP CFM W

**

-

BHP CFM W

**

-

BHP CFM W

**

0.4

0.6

0.8

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

5

BHP CFM W

**

-

BHP

3910 1726 1.85

3857 1842 1.98

3597 1430 1.53

3804 1957 2.10

3503 1689 1.81

3172 1430 1.53

1.0

1.2

1.4

1.6

1.8

-

-

-

-

-

-

-

-

-

-

-

-

3774 2088 2.24

3406 1778 1.91

3032 1497 1.61

2248 1143 1.23

3327 1866 2.00

2926 1578 1.69

2160 1217 1.31

-

3270 1971 2.11

2537 1544 1.66

2043 1296 1.39

3196 2077 2.23

2460 1651 1.77

-

2426 1768 1.90

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)


* †

TURNS OPEN **

ESP

‡ 0 1 2 3 4

CFM W





††

0.4

-

5

BHP CFM W

†† BHP

4220 1873 2.01

3991 1659 1.78

3745 1468 1.57

3470 1283 1.38

3209 1120 1.20

3887 1729 1.85

3612 1514 1.62

3357 1330 1.43

3013 1146 1.23

2719 992 1.06

0.6

0.8

1.0

1.2

3516 1584 1.70

3219 1372 1.47

2903 2903 3.11

2343 966 1.04

3383 1614 1.73

3023 1391 1.49

2557 1161 1.25

-

2674 1341 1.44

-

-

-

-

-

-

-

-

-

-

*

†

‡

**

††





W = Watts


* †

TURNS OPEN

**

ESP

‡ 0 1 2 3 4

0.6

0.8

1.0

1.2

CFM W

††

-

-

-

-

-

-

-

-

BHP CFM W

††

-

-

-

-

-

-

-

-

-

-

-

-

BHP CFM W

††

-

-

-

-

-

-

-

-

BHP CFM W

††

-

-

BHP CFM W

††

5

BHP CFM W

†† BHP

4068 1902 2.04

4306 2348 2.52

4036 2050 2.20

3692 1742 1.87

4323 2579 2.77

3967 2172 2.33

3632 1848 1.98

3270 1552 1.66

4002 2389 2.56

3613 1996 2.14

3080 1613 1.73

2564 1307 1.40

1.4

1.6

1.8

2.0

4097 2632 2.82

3691 2210 2.37

2980 1706 1.83

4211 2896 3.11

3571 2313 2.48

3003 1869 2.00

-

3776 2623 2.81

2591 1849 1.98

2674 2038 2.19

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**

††





W = Watts


035-17275-000 REV B (0201)

0.4

0.6

0.8

1.0

1.2

TABLE 37: 10 TON STANDARD MOTOR SIDE SHOT BLOWER PERFORMANCE

TURNS OPEN

†

ESP

* 0 1 2 3

CFM W

‡ BHP CFM W

** BHP CFM W

** BHP CFM W

**

4

BHP CFM W

**

0.2

-

5

BHP CFM W

** BHP

4368 1843 1.98

4132 1624 1.74

3870 1423 1.53

4515 2192 2.35

4213 1885 2.02

4020 1692 1.81

3791 1491 1.60

3499 1283 1.38

-

-

-

-

-

-

4192 2027 2.17

3905 1741 1.87

3657 1537 1.65

3383 1345 1.44

3062 1149 1.23

3838 1858 1.99

3534 1591 1.71

3236 1386 1.49

2934 1202 1.29

-

3755 1942 2.08

3489 1695 1.82

3081 1425 1.53

3337 1757 1.88

2918 1475 1.58

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡



W = Watts

1.2

1.4

1.6

1.8

2.0

0.4

0.6

0.8

1.0

TABLE 38: 10 TON OPTIONAL MOTOR SIDE SHOT BLOWER PERFORMANCE

*

TURNS OPEN

‡

ESP

†

3

0 1 2 3

0.2

CFM W

**

-

BHP CFM W

**

-

BHP CFM W

**

-

BHP CFM W

**

-

4

BHP CFM W

**

5

BHP CFM W

** BHP

5067 2614 2.80

4809 2290 2.46

-

-

-

-

-

-

-

-

-

-

-

-

5179 3112 3.34

4884 2703 2.90

4729 2401 2.57

4459 2113 2.27

4925 2943 3.16

4585 2521 2.70

4429 2244 2.41

4137 1964 2.11

4974 3220 3.45

4607 2727 2.92

4267 2342 2.51

4099 2080 2.23

3783 1809 1.94

4975 3453 3.70

4657 2995 3.21

4305 2550 2.73

3941 2171 2.33

3751 1919 2.06

3371 1630 1.75

4679 3423 3.67

4366 2808 3.01

4022 2373 2.54

3545 1978 2.12

3305 1741 1.87

4429 3065 3.29

4040 2607 2.80

3669 2673 2.87

2918 1700 1.82

-

4107 2845 3.05

3620 2357 2.53

2931 1830 1.96

3553 2500 2.68

2756 1899 2.04

-

2439 1939 2.08

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)


*

TURNS OPEN ‡

ESP

† 0 1 2 3 4 5

0.4

CFM

-

W

-

** BHP

-

-

CFM

-

W

-

** BHP CFM W

**

-

BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP

5201 3162 3.39

4966 2796 3.00

4681 2405 2.58

4355 2054 2.20

5220 3395 3.64

4942 2980 3.20

4657 2608 2.80

4358 2230 2.39

4007 1890 2.03

0.6

0.8

-

-

-

-

1.0

5003 3490 3.74

4647 2988 3.20

4380 2636 2.83

4030 2257 2.42

1.2

4724 3290 3.53

4363 2875 3.08

4012 2505 2.69

-

1.4

4428 3040 3.26

4944

-

3194

-

3.43

-

4661

-

2806

-

3.01

-

4378

-

2572

-

2.76

-

4016

-

-

-

2057

-

-

-

2.21

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


*

TURNS OPEN

‡

ESP

† 0 1 2 3 4

CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

** BHP CFM W

**

5

BHP CFM W

** BHP

0.4

0.6

-

-

-

-

-

-

6447 5315 5.70

6207 4760 5.1046

5966 4205 4.51

5717 3716 3.98

5470 3307 3.55

6110 4917 5.27

5965 4464 4.79

5740 4023 4.31

5430 3501 3.75

5126 3054 3.28

0.8

5772 4519 4.85

5741 4274 4.58

5503 3821 4.10

5162 3294 3.53

4849 2870 3.08

1.0

6235 5521 5.92

5628 4407 4.73

5474 4048 4.34

5244 3611 3.87

4882 3101 3.33

4530 2667 2.86

1.2

5881 5137 5.51

5384 4205 4.51

5248 3854 4.13

4941 3387 3.63

4589 2906 3.12

4225 2502 2.68

1.4

5695 4950 5.31

5123 3996 4.29

5014 3670 3.94

4651 3178 3.41

4284 2716 2.91

3858 2280 2.45

1.6

5471 4728 5.07

4919 3828 4.11

4732 3460 3.71

4365 2983 3.20

3951 2516 2.70

3491 2058 2.21

1.8

5242 4514 4.84

4656 3611 3.87

4438 3240 3.47

3998 2740 2.94

3618 2316 2.48

-

2.0

4954 4231 4.54

4339 3380 3.62

2.2

4585 3934 4.22

4022 3149 3.38

2.4

4217 3637 3.90

2.6

3848 3340 3.58

-

-

-

-

-

-

3905

-

-

-

2861

-

-

-

3.07

-

-

-

3631

-

-

-

2497

-

-

-

2.68

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

-

*

†

‡

**




W = Watts


035-17275-000 REV B (0201)

TABLE 41: INDOOR BLOWER SPECIFICATIONS

MOTOR

MODEL

MOTOR SHEAVE BLOWER SHEAVE

HP RPM Eff.

SF Frame Datum Dia. (in.) Bore (in.) Model Datum Dia. (in.) Bore (in.) Model

BP078

BP090

BP102

BP120

BP150

1-1/2 1725 80% 1.15

2 1725 80% 1.15

1-1/2 1725 80% 1.15

2

2

3

2

1725

1725

1725

1725

80%

80%

80%

80%

1.15

1.15

1.15

1.15

3

3

5

1725 80% 1.15

1725 80% 1.15

56

56

1725 87% 1.15

184T

56

56

56

56

56

56

56

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

3.4 - 4.4

4.3 - 5.3

7/8

7/8

7/8

7/8

7/8

7/8

7/8

7/8

7/8

1 1/8

1VM50

1VM50

1VM50

1VM50

1VM50

1VM50

1VM50

1VM50

1VM50

1VP56

9.5

7.5

9.0

7.5

9.0

7.0

8.5

7.0

7.0

6.7

1

1

1

1

1

1

1

1

1

1

AK99

AK79

AK94

AK79

AK94

AK74

AK89

AK74

AK74

BK77

BELT

A58

A55

A57

A55

A56

A54

A56

A54

A54

BX56

AIR BALANCE

Start the supply air blower motor. Adjust the resistances in both the supply and the return air duct systems to balance the air distribution throughout the conditioned space. The job specifications may require that this balancing be done by someone other than the equipment installer.

SUPPLY AIR DRIVE ADJUSTMENT

Failure to properly adjust the total system air quantity can result in extensive blower damage.

Before making any blower speed changes review the installation for any installation errors, leaks or undesirable systems effects that can result in loss of airflow.

Even small changes in blower speed can result in substantial changes in static pressure and BHP.

BHP and AMP draw of the blower motor will increase by the cube of the blower speed. Static pressure will increase by the square of the blower speed. Only qualified personnel should make blower speed changes, strictly adhering to the fan laws.

At unit start-up, the measured CFM may be higher or lower than the required CFM. To achieve the required CFM, the speed of the drive may have adjusted by changing the datum diameter (DD) of the variable pitch motor sheave as described below:



 -------------------------------------

Measured CFM





•

Existing DD = New DD

Use the following tables and the DD calculated per the above equation to adjust the motor variable pitch sheave.

EXAMPLE

A 10 ton unit was selected to deliver 4,000 CFM with a 5 HP motor, but the unit is delivering 3,750 CFM. The variable pitch motor sheave is set at 2 turns open.

Use the equation to determine the required DD for the new motor sheave,





---------------------------

3,750 CFM





•

4.0 in.

= 4.26 in.

Use Table 42 to locate the DD nearest to 4.26 in. Close the sheave to 1/2 turn open.

New BHP

=

(

Speed increase

) 3 •

BHP at 3,750 CFM

=

(

Speed increase

) 3 •

Original BHP

= New BHP

New motor Amps

=

(

Speed increase

) 3 •

Amps at 3,750 CFM

=

(

Speed increase

) 3 •

Orignial Amps

= New Amps


035-17275-000 REV B (0201)

TABLE 42: MOTOR SHEAVE DATUM DIAMETERS

1VM50x7/8

(1-1/2, 2 & 3 HP Motor)

1VP56x1-1/8

(5 HP Motor)

Turns Open

0

1/2

1

1-1/2

2

2-1/2

3

3-1/2

4

4-1/2

5

Datum

Diameter

4.4

4.3

4.2

4.1

4.0

3.9

3.8

3.7

3.6

3.5

3.4

Turns Open

1

1-1/2

2

2-1/2

3

3-1/2

4

4-1/2

5

5-1/2

6

Datum

Diameter

5.3

5.2

5.1

5.0

4.9

4.8

4.7

4.6

4.5

4.4

4.3

COOLING OPERATION INSTRUCTIONS

COOLING SYSTEM PRELIMINARY OPERATION

After installation has been completed, energize the crankcase heaters for at least four hours before operating unit.

After this initial warm-up, the compressors should be given three false starts (energized just long enough to make a few revolutions) with 5-7 minutes of delay between each start before being put into full time service.

NOTE: Prior to each cooling season, the crankcase heaters must be energized at least 10 hours before the system is put into operation.

TURN ON THE POWER TO THE UNIT

1.

Set the room thermostat setting to lower than the room temperature.

2.

Fist stage compressors will energize after the built-in time delay.

3.

The second stage of the thermostat will energize second stage compressor if needed.

POST START CHECK LIST

VERIFY PROPER SYSTEM PRESSURES FOR BOTH CIR-

CUITS

1.

Check the unit air flower (CFM). See “SUPPLY AIR

DRIVE ADJUSTMENT” on page 32.

2.

Measure the temperature drop across the evaporator coil.

3.

Check the voltage input.

4.

Measure the system Amperage draw across all legs of 3 phase power wires.

5.

Measure the condenser fan amps draw.

6.

Measure evaporator fan motor’s amp draw.

SHUT DOWN

1.

Set the thermostat to highest temperature setting.

2.

Turn off the electrical power to the unit.

SEQUENCE OF OPERATIONS

OVERVIEW

For the Predator



series of units, the thermostat makes a circuit between “R” “Y1” for the first stage of cooling.

The call is passed to the unit control board (UCB), which then determines whether the requested operation is available and, if so, which components to energize.

For heating, the UCB monitors the “W1” call but does not handle the operation of the unit. A “W1” signal energizes a separate relay (RY1) that brings on the unit in the heating mode. A time/temperature control operates the defrost cycle.

For electric heat units, the UCB passes the call to the electric heater. In both cases, when the “W1” call is sensed, the indoor air blower is energized following a specified heating delay.

If at any time a call for both heating and cooling are present, the heating operation will be performed. If operating, the cooling system is halted as with a completion of a call for cooling. Heating always takes priority.

SAFETY CONTROLS

The Predator



unit control board monitors the following inputs for each cooling system:

1.

A suction line freezestat to protect against low evaporator temperatures due to a low airflow or a low return air temperature, (opens at 26

±

5 °F and resets at 38

±

5

°F).

2.

A high-pressure switch to protect against excessive discharge pressures due to a blocked condenser coil or a condenser motor failure, (opens at 405

±

10 psig and resets at 300

±

10 psig).

3.

A low-pressure switch to protect against loss of refrigerant charge, (opens at 7

±

3 psig and resets at 22

±

5 psig).

The refrigeration systems are independently monitored and controlled. On any fault, only the associated system will be effected by any safety/preventive action. The other refriger-


035-17275-000 REV B (0201) ant system will continue in operation unless it is effected by the fault as well.

The unit control board monitors the temperature limit switch of electric heat units.

PROTECTION

The compressors also have inherent (internal) protection. If there is an abnormal temperature rise in a compressor, the protector will open to shut down the compressor.

The unit control board (UCB) incorporates features to minimize compressor wear and damage. An anti-short cycle delay (ASCD) is utilized to prevent operation of a compressor too soon after its previous run. Additionally, a minimum run time is imposed any time a compressor is energized.

The ASCD is initiated on unit start-up and on any compressor reset or lock-out.

CONTINUOUS BLOWER

By setting the room thermostat to “ON,” the supply air blower will operate continuously.

INTERMITTENT BLOWER

With the room thermostat fan switch set to “AUTO” and the system switch set to either the “AUTO” or “HEAT” settings, the blower is energized whenever a cooling or heating operation is requested. The blower is energized after any specified delay associated with the operation.

When energized, the indoor blower has a minimum run time of 30 seconds. Additionally, the indoor blower has a delay of

10 seconds between operations.

COOLING SEQUENCE OF OPERATION

When the thermostat calls for the first stage of cooling, the low-voltage control circuit from “R” to “Y1” and “G” is completed. The UCB energizes the economizer (if installed and free cooling is available) or the first available compressor * and the condenser fans. For first stage cooling, compressor

#1 is energized. If compressor #1 is unavailable, compressor

#2 is energized (if applicable). After completing the specified fan on delay for cooling, the UCB will energize the blower motor.

When the thermostat calls for the second stage of cooling, the low-voltage control circuit from “R” to “Y2” is completed.

The control board energizes the first available compressor. If free cooling is being used for the first stage of cooling, compressor #1 is energized. If compressor #1 is active for first stage cooling or the first compressor is locked-out, compressor (if applicable). In free-cooling mode, if the call for the second stage of cooling continues for 20 minutes, compressor

#2 is energized, provided it has not been locked-out.

If there is an initial call for both stages of cooling, the UCB will delay energizing compressor #2 by 30 seconds in order to avoid a power rush. (The 6-1/2 ton unit has only one compressor).

Once the thermostat has been satisfied, the it will de-energize Y1 and Y2. If the compressors have satisfied their minimum run times, the compressors and condenser fans are deenergized. Otherwise, the unit operates each cooling system until the minimum run times for the compressors have been completed. Upon the final compressor de-energizing, the blower is stopped following the elapse of the fan off delay for cooling.

To be available, a compressor must not be locked-out due to a high or low-pressure switch or freezestat trip and the antishort cycle delay (ASCD) must have elapsed.

COOLING OPERATION ERRORS

Each cooling system is monitored for operation outside of the intended parameters. Errors are handled as described below. All system errors override minimum run times for compressors.

HIGH-PRESSURE LIMIT SWITCH

During cooling operation, if a high-pressure limit switch opens, the UCB will de-energize the associated compressor, initiate the ASCD, and, if the other compressor is idle, stop the condenser fans. If the call for cooling is still present at the conclusion of the ASCD, the UCB will re-energize the halted compressor.

Should a high-pressure switch open three times within two hours of operation, the UCB will lock-out the associated compressor and flash a code (see Table 47). If the other compressor is inactive, the condenser fans will be de-energized.

LOW-PRESSURE LIMIT SWITCH

The low-pressure limit switch is not monitored during the initial 30 seconds of a cooling system’s operation. For the following 30 seconds, the UCB will monitor the low-pressure switch to ensure it closes. If the low-pressure switch fails to close after the 30-second monitoring phase, the UCB will deenergize the associated compressor, initiate the ASCD, and, if the other compressor is idle, stop the condenser fans.

Once the low-pressure switch has been proven (closed during the 30-second monitor period described above), the UCB will monitor the low-pressure limit switch for any openings. If the low-pressure switch opens for greater than 5 seconds, the UCB will de-energize the associated compressor, initiate the ASCD, and, if the other compressor is idle, stop the condenser fans.


035-17275-000 REV B (0201)

If the call for cooling is still present at the conclusion of the

ASCD, the UCB will re-energize the halted compressor.

Should a low-pressure switch open three times within one hour of operation, the UCB will lock-out the associated compressor and flash a code (Table 47). If the other compressor is inactive, the condenser fans will be de-energized.

FREEZESTAT

During cooling operation, if a freezestat opens, the UCB will de-energize the associated compressor, initiate the ASCD, and, if the other compressor is idle, stop the condenser fans.

If the call for cooling is still present at the conclusion of the

ASCD, the UCB will re-energize the halted compressor.

Should a freezestat open three times within two hours of operation, the UCB will lock-out the associated compressor and flash a code (Table 47). If the other compressor is inactive, the condenser fans will be de-energized.

FLASH CODES

When the UCB has locked-out a compressor, the UCB will initiate a flash code associated with the error. Also, if the thermostat is so equipped, the UCB will energize the thermostat trouble light.

RESET

Remove the call for cooling, by raising thermostat setting higher than the space temperature. This resets any pressure or freezestat flash codes.

LOW AMBIENT COOLING

To determine when to operate in low ambient mode, the UCB has a pair of terminals connected to a temperature-activated switch. When the low ambient switch is closed and the thermostat is calling for cooling, the UCB will operate in the low ambient mode.

Low ambient mode operates the compressors in this manner:

10 minutes on, 5 minutes off. The indoor blower is operated throughout the cycle. The 5-minute off period is necessary to defrost the indoor coil.

Low ambient mode always begins with compressor operation. Compressor minimum run time may extend the minutes of compressor operation. The defrost cycle will begin immediately following the elapse of the minimum run time.

When operating in low ambient mode, the UCB will not lockout the compressors due to a freezestat trip. However, a freezestat trip will de-energize the associated compressor. If the call for cooling is still present at the end of the ASCD and the freezestat has closed, the unit will resume operation.

SUPERHEAT CHARGING METHOD

(Use this method if the unit is equipped with an orifice-type metering device). To determine if the system is properly charged, connect a gauge set to the high and low service ports in the compressor compartment. A temperature probe should be attached to the suction line near the compressor so that suction superheat can be calculated. The probe must be insulated so the higher surrounding temperatures will not affect the reading. A measurement of the outdoor ambient and the indoor wet bulb temperature is also required. (When using a digital temperature probe it is not necessary to insulate the probe because only the probe “tip” is used for sensing.)

Operate system until temperatures and pressures stabilize

(minimum of 15 minutes). Then measure and record indoor wet bulb (WB) temperature at the indoor coil. Insert a thermometer with a “wet sock” attached to it into the coil section.

Record the outdoor dry bulb (DB) temperature using a thermometer.

Measure and record the suction pressure at the suction service port. Using the Superheat table, note the superheat value corresponding to the intersection of the indoor wet bulb and the outdoor dry bulb. With the superheat value obtained from the table and the suction pressure value previously recorded, find the intersection of the values in Suction Tube

Temperature Table. This is the required suction tube temperature at the suction service valve.

To bring the tube temperature in line with the required value, add refrigerant to the service port to cause the tube temperature to fall and reclaim refrigerant to cause the temperature to rise


035-17275-000 REV B (0201)

TABLE 43: SUPERHEAT CHARGING

SUCTION PRESSURE

PSIG (Service Port)

73

76

79.2

82.4

61.5

64.2

67.1

70

84.1

92.6

39

41

43

45

0

*

35

37

47

49

50

55

4 6

39 41

41 43

43 45

45 47

47 49

49 51

51 53

53 55

54 56

59 71

2

45

47

49

51

37

39

41

43

52

57

10

SUCTION TUBE TEMPERATURE

12 14 16 18 20 22 24 26 8

43 45

45 47

47 49

49 51

51 53

53 55

55 57

57 59

58 60

73 65

47

49

51

53

55

57

59

61

62

67

49

51

53

55

57

59

61

63

64

69

51

53

55

57

59

61

63

65

66

71

53

55

57

59

61

63

65

67

68

73

55

57

59

61

63

65

67

69

70

75

57

59

61

63

63

67

69

71

72

77

59

61

63

65

67

69

71

73

74

79

61

63

65

67

69

71

73

75

76

81

28 30

63 65

65 67

67 69

69 71

71 73

73 75

75 77

77 79

78 80

83 85

*

From TMP chart.

TABLE 44: COOLING SUPERHEAT 6-1/2 & 7-1/2 TON HEAT PUMP

SUCTION SUPERHEAT °F

OUTDOOR

TEMP °F

INDOOR WB TEMP °F

55 57 59 61 63 65 67 69 71 73 75

85

90

95

100

65

70

75

80

105

110

115

34.5 34.8 35.1 35.4 35.6 35.9 36.2 37.0 37.7 38.5 39.2

32.5 32.9 33.3 33.7 34.1 34.5 34.9 35.8 36.7 37.5 38.4

30.4 31.0 31.5 32.0 32.5 33.0 33.6 34.6 35.6 36.6 37.6

28.4 29.0 29.7 30.3 30.9 31.6 32.2 33.4 34.5 35.7 36.8

26.3 27.1 27.9 28.6 29.4 30.1 30.9 32.2 33.5 34.7 36.0

22.0 23.0 23.9 24.9 25.8 26.8 27.8 29.5 31.2 33.0 34.7

17.7 18.9 20.0 21.2 22.3 23.5 24.6 26.8 29.0 31.2 33.4

13.9 14.9 15.9 17.0 18.0 19.0 20.1 22.5 24.9 27.3 29.8

10.0 10.9 11.8 12.8 13.7 14.6 15.5 18.2 20.8 23.5 26.1

5.0 5.7 6.4 9.5 12.6 15.8 18.9

32 34

67 69

69 71

71 73

73 75

75 77

77 79

79 81

81 83

82 84

87 89


035-17275-000 REV B (0201)

TABLE 45: COOLING SUPERHEAT 8-1/2 & 10 TON HEAT PUMP


OUTDOOR

TEMP °F


55 57 59 61 63 65 67 69 71 73 75

85

90

95

100

65

70

75

80

105

110

115

29.9 31.5 33.1 34.7 36.3 37.9 39.5 39.5 39.5 39.5 39.5

25.5 27.1 28.7 30.4 32.0 33.6 35.2 35.8 36.3 36.9 37.5

21.1 22.8 24.4 26.0 27.7 29.3 31.0 32.1 33.2 34.3 35.4

16.7 18.4 20.0 21.7 23.4 25.1 26.7 28.4 30.0 31.7 33.4

12.3 14.0 15.7 17.4 19.1 20.8 22.5 24.7 26.9 29.1 31.3

12.0 13.4 14.8 16.2 17.6 19.0 20.4 22.4 24.4 26.4 28.4

11.6 12.8 13.9 15.0 16.1 17.2 18.3 20.1 21.9 23.6 25.4

8.9 9.7 10.6 11.4 12.2 13.0 13.9 15.5 17.1 18.7 20.3

-

-

-

-

-

-

-

-

-

-

-

-

-

-

6.3

-

7.6

-

8.9

-

10.2

5.1

TABLE 46: COOLING SUPERHEAT 12.5 TON HEAT PUMP


OUTDOOR

TEMP °F


55 57 59 61 63 65 67 69 71 73 75

85

90

95

100

65

70

75

80

105

110

115

10.2 12.3 14.4 16.4 18.5 20.5 22.6 24.9 27.2 29.4 31.7

9.6 11.5 13.3 15.2 17.1 18.9 20.8 23.3 25.8 28.3 30.8

9.0 10.7 12.3 14.0 15.7 17.4 19.0 21.7 24.4 27.2 29.9

8.3 9.8 11.3 12.8 14.3 15.8 17.3 20.2 23.1 26.0 28.9

7.7 9.0 10.3 11.6 12.9 14.2 15.5 18.6 21.7 24.9 28.0

7.3 8.3 9.2 10.1 11.0 11.9 12.8 15.9 19.0 22.0 25.1

-

5.2 5.5 5.7 7.1 8.5 9.9 11.3


035-17275-000 REV B (0201)

NORMAL MAINTENANCE

Prior to any of the following maintenance procedures, shut off all power to the unit to prevent personal injury.

GENERAL

FILTERS

Inspect once a month. Replace disposable or clean permanent type as necessary. DO NOT replace permanent type with disposable.

MOTORS

Indoor fan and outdoor fan motors are permanently lubricated and require no maintenance.

OUTDOOR COIL

Dirt should not be allowed to accumulate on the outdoor coil surface or other parts in the air circuit. Cleaning should be as often as necessary to keep coil clean. Use a brush, vacuum cleaner attachment, or other suitable means. If water is used to clean coil, be sure power to the unit is shut off prior to cleaning. Service access is provided in the front and rear condenser compartment panels to provide improved access to the condenser coils.

Do not remove service panels or attempt to clean the interior of the condenser section when the unit is powered and/or operating. Shut off all power to the unit prior to cleaning or maintenance of the condenser section coils

NOTE: Exercise care when cleaning the coil so that the coil fins are not damaged. Do not permit the outdoor air discharge to be obstructed by overhanging structures of shrubs.

TROUBLESHOOTING

Label all wires prior to disconnection when servicing controls. Wiring errors can cause improper and dangerous operation which could cause injury to person and/or damage unit components. Verify proper operation after servicing.

Troubleshooting of components may require opening the electrical control box with the power connected to the unit. Use extreme care when

working with live circuits! Check the unit nameplate for the correct line voltage and set the voltmeter to the correct range before making any connections with line terminals. When not necessary, shut off all electric power to the unit prior to any of the following maintenance procedures so as to prevent personal injury.

PREDATOR FLASH CODES

Various flash codes are utilized by the unit control board

(UCB) to aid troubleshooting. Flash codes are distinguished by the short on and off cycle used (approximately 200ms on and 200ms off). To show normal operation, the control board flashes a one second on, one second off “heartbeat” during normal operation. This is to verify that the UCB is functioning correctly. Do not confuse this with an error flash code. To prevent confusion, a 1-flash, flash code is not used.

Current alarms are flashed on the UCB LED. The alarm history can be checked by pressing and releasing the ALARMS button on the UCB. The UCB will cycle through the last five

(5) alarms, most recent to oldest, separating each alarm flash code by approximately 2 seconds.

In some cases, it may be necessary to “zero” the ASCD for the compressors in order to perform troubleshooting. To reset all ASCDs for one cycle, press and release the UCB TEST button once.

TABLE 47: UNIT CONTROL BOARD FLASH CODES

Flash Code Description

On Steady Control Failure - Replace Control

Heart Beat Normal Operation

1 Flash Not Applicable

2 Flashes

3 Flashes

4 Flashes

5 Flashes

6 Flashes

7 Flashes

Control Waiting ASCD

*

HPS1 - Compressor Lock out

HPS2 - Compressor Lock out

LPS1 - Compressor Lock out

LPS2 - Compressor Lock out

FS1 - Compressor Lock out

8 Flashes

9 Flashes

FS2 - Compressor Lock out

No Voltage At MV On Relay Board / Electric Heat Limit Trip / No

Jumper Plug in Heat Section

10 Flashes Compressors Locked Out On Low Outdoor Air Temperature

*

11 Flashes

Compressors Locked Out Because The Economizer Is Using

Free Cooling

*

12 Flashes Fan Overload Switch Trip - Not Applicable On This Unit

13 Flashes Compressor Held Off Due To Low Voltage*

14 Flashes EEPROM Storage Failure (Control Failure)

OFF No Power or Control Failure

*

These flash codes do not represent alarms.


035-17275-000 REV B (0201)

FIGURE 21 : BASIC TROUBLESHOOTING FLOWCHART


035-17275-000 REV B (0201)

FIGURE 22 : TRIP FAILURE FLOW CHART


035-17275-000 REV B (0201)

COOLING TROUBLE SHOOTING

On calls for cooling, the compressor(s) is/are operating but the supply air blower motor does not energize after a short delay (the room thermostat fan switch is in the “AUTO” position).

1.

Turn the thermostat fan switch to the ON position. If the supply air blower motor does not energize, go to Step 3.

2.

If the blower motor runs with the fan switch in the ON position but will not run after the first compressor has energized when the fan switch is in the AUTO position, check the room thermostat for contact between R and G in the AUTO position during calls for cooling.

3.

If the supply air blower motor does not energize when the fan switch is set to ON, check that line voltage is being supplied to the contacts of the M3, contactor, and that the contactor is pulled in. Check for loose wiring between the contactor and the supply air blower motor.

4.

If M3 is pulled in and voltage is supplied to M3, lightly touch the supply air blower motor housing. If it is hot, the motor may be off on inherent protection. Cancel any thermostat calls and set the fan switch to AUTO. Wait for the internal overload to reset. Test again when cool.

5.

If M3 is not pulled in, check for 24 volts at the M3 coil. If

24 volts are present at M3 but M3 is not pulled in, replace the contactor.

6.

Failing the above, if there is line voltage supplied at M3,

M3 is pulled in, and the supply air blower motor still does not operate, replace the motor.

7.

If 24 volts is not present at M3, check that 24 volts is present at the UCB supply air blower motor terminal,

“FAN”. If 24 volts is present at the FAN, check for loose wiring between the UCB and M3.

8.

If 24 volts is not present at the “FAN” terminal, check for

24 volts from the room thermostat. If 24 volts are not present from the room thermostat, check for the following: a.

proper operation of the room thermostat (contact between R and G with the fan switch in the ON position and in the AUTO position during operation calls), b.

proper wiring between the room thermostat and the

UCB, and c.

loose wiring from the room thermostat to the UCB.

9.

If 24 volts is present at the room thermostat but not at the

UCB, check for proper wiring between the thermostat and the UCB, i.e. that the thermostat G terminal is connected to the G terminal of the UCB, and for loose wiring.

10. If the thermostat and UCB are properly wired, replace the UCB.

On calls for cooling, the supply air blower motor is operating but compressor #1 is not (the room thermostat fan switch is in the “AUTO” position).

1.

If installed, check the position of the economizer blades.

If the blades are open, the economizer is providing free cooling and the compressors will not immediately operate. If both stages of cooling are requested simultaneously and the economizer provides free cooling, following a short delay compressor #1 will be energized unless it is locked out. If compressor #1 is locked out, compressor #2 is energized. Compressor #2 is always energized in place of compressor #1 when compressor

#1 is requested but locked out.

2.

If no economizer is installed or the economizer is not opening to provide free cooling and compressor #1 does not energize on a call for cooling, check for line voltage at the compressor contactor, M1, and that the contactor is pulled in. Check for loose wiring between the contactor and the compressor.

3.

If M1 is pulled in and voltage is supplied at M1, lightly touch the compressor housing. If it is hot, the compressor may be off on inherent protection. Cancel any calls for cooling and wait for the internal overload to reset.

Test again when cool.

4.


24 volts are present and M1 is not pulled in, replace the contactor.

5.

Failing the above, if voltage is supplied at M1, M1 is pulled in, and the compressor still does not operate, replace the compressor.

6.

If 24 volts is not present at M1, check for 24 volts at the

UCB terminal, C1. If 24 volts is present, check for loose wiring between C1 and the compressor contactor.

7.

If 24 volts is not present at the C1 terminal, check for 24 volts from the room thermostat at the UCB Y1 terminal.

If 24 volts is not present from the room thermostat, check for the following: a) 24 volts at the thermostat Y1 terminal, b) proper wiring between the room thermostat and the UCB, i.e. Y1 to Y1, Y2 to Y2, and c) loose wiring from the room thermostat to the UCB.

8.

If 24 volts is present at the UCB Y1 terminal, the compressor may be out due to an open high-pressure switch, low-pressure switch, or freezestat. Check for 24 volts at the HPS1, LPS1, and FS1 terminals of the UCB. If a switch has opened, there should be a voltage potential between the UCB terminals, e.g. if LPS1 has opened, there will be a 24-volt potential between the LPS1 terminals.

9.

If 24 volts is present at the UCB Y1 terminal and none of the protection switches have opened, the UCB may have


035-17275-000 REV B (0201) locked out the compressor for repeat trips. The UCB should be flashing an alarm code. If not, press and release the ALARMS button on the UCB. The UCB will flash the last five alarms on the LED. If the compressor is locked out, cancel any call for cooling. This will reset any compressor lock outs.

NOTE: While the above step will reset any lockouts, compressor #1 may be held off for the ASCD. See the next step.

10. If 24 volts is present at the UCB Y1 terminal and none of the switches are open and the compressor is not locked out, the UCB may have the compressor in an ASCD.

Check the LED for an indication of an ASCD cycle. The

ASCD should time out within five minutes. Press and release the TEST button to reset all ASCDs.

11. If 24 volts is present at the UCB Y1 terminal and the compressor is not out due to a protective switch trip, repeat trip lock out, or ASCD, the economizer terminals of the UCB may be improperly wired. Check for 24 volts at the Y1 “OUT” terminal of the UCB. If 24 volts is present, trace the wiring from Y1 “OUT” for incorrect wiring. If 24 volts is not present at the Y1 “OUT” terminal, the UCB must be replaced.

12. For units without economizers: If 24 volts is present at the Y1 OUT terminal, check for 24 volts at the Y1

“ECON” terminal. If 24 volts is not present, check for loose wiring from the Y1 “OUT” terminal to the Mate-N-

Lock plug, the jumper in the Mate-N-Lock plug, and in the wiring from the Mate-N-Lock plug to the Y1 “ECON” terminal.

13. For units with economizers: If 24 volts is present at the

Y1 “OUT” terminal, check for 24 volts at the Y1 “ECON” terminal. If 24 volts is not present, check for loose wiring from the Y1 “OUT” terminal to the Mate-N-Lock plug, a poor connection between the UCB and economizer

Mate-N-Lock plugs, loose wiring from the Mate-N-Lock plug to the economizer, back to the Mate-N-Lock plug, and from the Mate-N-Lock plug to the Y1 “ECON” terminal. If nothing is found, the economizer DME may have faulted and is failing to return the 24-volt “call” to the Y1

“ECON” terminal even though the economizer is not providing free cooling. To test, disconnect the Mate-N-Locks and jumper between the WHITE and YELLOW wires of the UCB’s Mate-N-Lock plug. If compressor #1 energizes, there is a fault in the economizer wiring or DME.

14. The UCB can be programmed to lock out compressor operation during free cooling and in low ambient conditions. These options are not enabled by default. Local

York distributors can test the UCB for this programming.

15. If none of the above corrected the error, test the integrity of the UGB. Disconnect the C1 terminal wire and jumper it to the Y1 terminal. DO NOT jump the Y1 to C1 terminals. If the compressor engages, the UCB has faulted.

16. If none of the above correct the error, replace the UCB.

On calls for the second stage of cooling, the supply air blower motor and compressor #1 are operating but compressor #2 is not (the room thermostat fan switch is in the “AUTO” position).

1.

If installed, check the position of the economizer blades.

If the blades are open, the economizer is providing free cooling. If the second stage of cooling is requested, following a short delay, compressor #1 will be energized unless it is locked out. Typically, compressor #2 is energized only during free cooling if the call for the second stage of cooling persists for 20 minutes.

2.

Compressor #2 will not energize simultaneously with compressor #1 if a call for both stages of cooling is received. The UCB delays compressor #2 by 30 seconds to prevent a power surge. If after the delay compressor #2 does not energize on a second stage call for cooling, check for line voltage at the compressor contactor, M2, and that the contactor is pulled in. Check for loose wiring between the contactor and the compressor.

3.



4.


24 volts is present and M2 is not pulled in, replace the contactor.

5.


6.


UCB terminal, C2. If 24 volts are present, check for loose wiring between C2 and the compressor contactor.

7.


If 24 volts is not present from the room thermostat, check for the following: a) 24 volts at the thermostat Y2 terminal, b) proper wiring between the room thermostat and the UCB, i.e. Y1 to Y1, Y2 to Y2, and c) loose wiring from the room thermostat to the UCB.

8.

If 24 volts is present at the UCB Y2 terminal, the compressor may be out due to an open high-pressure switch, low-pressure switch, or freezestat. Check for 24 volts at the HPS2, LPS2, and FS2 terminals of the UCB. If a switch has opened, there should be a voltage potential between the UCB terminals, e.g. if LPS2 has opened, there will be 24 volts of potential between the LPS2 terminals.

9.

If 24 volts is present at the UCB Y2 terminal and none of the protection switches have opened, the UCB may have locked out the compressor for repeat trips. The UCB should be flashing a code. If not, press and release the

ALARMS button on the UCB. The UCB will flash the last


035-17275-000 REV B (0201) five alarms on the LED. If the compressor is locked out, remove any call for cooling at the thermostat or by disconnecting the thermostat wiring at the Y2 UCB terminal.

This will reset any compressor lock outs.

NOTE: While the above step will reset any lock outs, compressor #1 will be held off for the ASCD, and compressor #2 may be held off for a portion of the ASCD. See the next step.




11. The UCB can be programmed to lock out compressor operation during free cooling and in low ambient conditions. These options are not enabled by default. Local

York distributors can test the UCB for this programming.



On a call for cooling, the supply air blower motor and compressor #2 are operating but compressor #1 is not (the room thermostat fan switch is in the “AUTO” position).

1.

Compressor #2 is energized in place of compressor #1 when compressor #1 is unavailable for cooling calls.

Check the UCB for alarms indicating that compressor #1 is locked out. Press and release the ALARMS button if the LED is not flashing an alarm.

2.

Check for line voltage at the compressor contactor, M1, and that the contactor is pulled in. Check for loose wiring between the contactor and the compressor.

3.



4.


24 volts is present and M1 is not pulled in, replace the contactor.

5.


6.


UCB terminal, C1. If 24 volts is present, check for loose wiring between C1 and the compressor contactor.

7.


If 24 volts are not present at the UCB Y1 terminal, the

UCB may have faulted. Check for 24 volts at the Y1

ECON terminal. If 24 volts is not present at Y1 “ECON”, the UCB has faulted. The UCB should de-energize all compressors on a loss of call for the first stage of cooling, i.e. a loss if 24 volts at the Y1 terminal.

8.

If 24 volts are present at the UCB Y1 terminal, the compressor may be out due to an open high-pressure switch, low-pressure switch, or freezestat. Check for 24 volts at the HPS1, LPS1, and FS1 terminals of the UCB. If a switch has opened, there should be a voltage potential between the UCB terminals, e.g. if LPS1 has opened, there will be a 24-volt potential between the LPS1 terminals.

9.

If 24 volts is present at the UCB Y1 terminal and none of the protection switches have opened, the UCB may have locked out the compressor for repeat trips. The UCB should be flashing a code. If not, press and release the

ALARMS button on the UCB. The UCB will flash the last five alarms on the LED. If the compressor is locked out, remove any call for cooling. This will reset any compressor lock outs.

NOTE: While the above step will reset any lock outs, compressor #2 will be held off for the ASCD, and compressor #1 may be held off for a portion of the ASCD. See the next step.




11. If 24 volts is present at the UCB Y1 terminal and the compressor is not out due to a protective switch trip, repeat trip lock out, or ASCD, the economizer terminals of the UCB may be improperly wired. Check for 24 volts at the Y1 “OUT” terminal of the UCB. If 24 volts is present, trace the wiring from Y1 “OUT” for incorrect wiring. If 24 volts is not present at the Y1 “OUT” terminal, the UCB must be replaced.

12. For units without economizers: If 24 volts is present at the Y1 “OUT” terminal, check for 24 volts at the Y1

“ECON” terminal. If 24 volts is not present, check for loose wiring from the Y1 “OUT” terminal to the Mate-N-

Lock plug, the jumper in the Mate-N-Lock plug, and in the wiring from the Mate-N-Lock plug to the Y1 “ECON” terminal.

For units with economizers: If 24 volts is present at the

Y1 “OUT” terminal, check for 24 volts at the Y1 “ECON” terminal. If 24 volts is not present, check for loose wiring from the Y1 “OUT” terminal to the Mate-N-Lock plug, a poor connection between the UCB and economizer

Mate-N-Lock plugs, loose wiring from the Mate-N-Lock plug to the economizer, back to the Mate-N-Lock plug, and from the Mate-N-Lock plug to the Y1 “ECON” terminal. The economizer board may have faulted and is not


035-17275-000 REV B (0201) returning the 24 volts to the Y1 “ECON” terminal even though the economizer is not providing free cooling. To test the economizer board, disconnect the Mate-N-Locks and jumper between the WHITE and YELLOW wires of the UCB’s Mate-N-Lock plug.

13. The UCB can be programmed to lock out compressor operation during free cooling and in low ambient conditions. These options are not enabled by default. They can be checked by local York distributors.



HEATING OPERATION

A demand for first stage heat from the thermostat completes the circuit between R and W1. This 24vac signal is passed through the UCB to the RY1 Relay. Contacts RY1-1 open, assuring the reversing valve cannot be energized, except during defrost. Contacts RY1-2 close, completing the circuit to Y on the defrost control (DC). After its five minute ASCD timer is satisfied, the DC closes it’s internal compressor relay contacts, sending a 24vac signal to the MV terminal on the

UCB. If its ASCD timer is satisfied the UCB will energize compressor 1 relay. After a two second delay, it then energizes compressor #2 relay (if applicable). Therefore, on a call for heat from W1, both compressors are always energized, unless one or the other is locked out by the UCB. Also on the call for heat, the DC energizes the M4 contactor which brings on both condenser fans.

NOTE: the 6-1/2 ton unit has only one compressor.

A second stage call from the thermostat completes the circuit between R and W2. This 24vac signal is passed through the

UCB to the defrost control board. If the unit is equipped with an optional electric heater it would be energized through a set of normally closed contacts on the defrost board. Take note that the MV terminal on the UCB is constantly monitored while there is a demand for heat. If the UCB does not see

24vac at terminal MV after six minutes, it initiates a fault code

9, indicating a heating problem.

As mentioned earlier, the defrost control (DC) utilizes a time/temperature defrost scheme. The following two conditions must be met before the DC will enter a defrost mode:

1.

The DC must first satisfy its accumulated minimum run time. This is factory set at 60 minutes, but is field adjustable to 30, 60 or 90 minutes.

2.

Either of the two defrost thermostats (DF1 or DF2) must be closed. These normally open thermostats are mounted on the respective liquid lines and are set to close at 31 degrees (+/-3).

If neither defrost thermostat is closed at the completion of it’s minimum accumulated run time cycle, the DC initiates another run time cycle, which it must complete before it looks at the position of the defrost thermostats. This action is repeated until, at the completion of a run time cycle, one of the defrost thermostats is found to be closed and the DC enters defrost mode.

When the DC enters the defrost mode, it’s on-board defrost relay is powered. This energizes both reversing valves, deenergizes both condenser fan motors and energizes the unit’s optional electric heater. The DC remains in defrost mode until either of the following two conditions is met:

1.

Both of the liquid line thermostats are open. Each is set to open at 55 degrees (+/- 3).

2.

The maximum defrost run time of 10 minutes is met.

The DC also contains a set of test pins .

Placing a jumper across these pins will result in the following actions:

• If the ASCD timer is active, it is now by-passed, allowing the compressor to run.

• If the DC is in a lockout condition, the lockout is reset.

• If the compressor is running, the DC is forced into defrost mode. The control will remain in defrost mode for as long as the jumper is in place. When the jumper is removed, the control will terminate the defrost mode in the normal manor as described above.

NOTE: The DC has two flashing codes which are only initiated if the two pressure switch terminals are open. As used in the Predator, there is a jumper across the pressure switch terminals. Therefore the field should never experience a DC lockout mode unless that jumper is removed or broken.


FIGURE 1 : HEAT PUMP UNIT WITH OR WITHOUT ELECTRIC HEAT

Unitary Products Group

035-17275-000 REV B (0201))

47

035-17275-000 REV B (0201)


Subject to change without notice. Printed in U.S.A.

Copyright © by Unitary Products Group 2001. All rights reserved.

Unitary

Products

Group

035-17275-000 REV B (0201)

Supersedes: 035-17275-000 REV A (800)

5005 Norman

York

Drive

OK

73069

York PREDATOR BP120 Specifications

INSTALLATION

INSTRUCTION

SINGLE PACKAGE HEAT PUMP

HIGH EFFICIENCY

BP078, 090,102, 120 AND 150

6-1/2 TO 12-1/2 TON)

TABLE OF CONTENTS

FIGURES

TABLES

FIGURES

TABLE 1: PRODUCT NOMENCLATURE

TABLE 2: AIRFLOW ABBREVIATIONS

TABLE 3: INSTALLATION ABBREVIATIONS

TABLE 4: ADDITIONAL OPTIONS ABBREVIATIONS

GENERAL

SAFETY CONSIDERATIONS

NOTES, CAUTIONS AND WARNINGS

APPROVALS

REFERENCE

INSPECTION

INSTALLATION

PRECEDING INSTALLATION

FIGURE 1 : UNIT SHIPPING BRACKET

FIGURE 2 : CONDENSER COVERING

FIGURE 3 : COMPRESSOR SECTION

LIMITATIONS

TABLE 5: UNIT VOLTAGE LIMITATIONS

TABLE 6: UNIT VOLTAGE LIMITATIONS

TABLE 7: UNIT TEMPERATURE LIMITATIONS

FIGURE 4 : PREDATOR™ COMPONENT LOCATION

LOCATION

RIGGING AND HANDLING

TABLE 9: 4 POINT LOAD WEIGHT

FIGURE 5 : UNIT 4 POINT LOAD

TABLE 8: UNIT WEIGHTS

FIGURE 6 : UNIT 6 POINT LOAD

TABLE 10: 6 POINT LOAD WEIGHT

FIGURE 7 : UNIT CENTER OF GRAVITY

CLEARANCES

TABLE 11: UNIT CLEARANCES

FIGURE 8 : UNIT DIMENSIONS

DETAIL A

DETAIL B

FIGURE 9 : HORIZONTAL ECONOMIZER

FIGURE 10 : DOWNFLOW ECONOMIZER HOOD DETAIL

FIGURE 11 : BOTTOM AIR DUCT OPENINGS

DUCTWORK

DUCT COVERS

FIGURE 12 : SIDE PANELS WITH HOLE PLUGS

CONDENSATE DRAIN

FIGURE 13 : RETURN DOWNFLOW PLENUM WITH

PANEL

FIGURE 15 : CONDENSATE DRAIN

COMPRESSORS

FILTERS

FIGURE 14 : DISCHARGE PANEL IN PLACE

THERMOSTAT WIRING

TABLE 12: CONTROL WIRE SIZES

POWER AND CONTROL WIRING

POWER WIRING DETAIL

FIGURE 16 : ELECTRONIC THERMOSTAT FIELD

WIRING

FIGURE 17 : FIELD WIRING 24 VOLT THERMOSTAT

FIGURE 18 : FIELD WIRING DISCONNECT

TABLE 13: ELECTRICAL DATA 6-1/2 TON

TABLE 14: ELECTRICAL DATA 7-1/2 TON

TABLE 15: ELECTRICAL DATA 8-1/2 TON

TABLE 16: ELECTRICAL DATA 10 TON

TABLE 17: ELECTRICAL DATA 12-1/2 TON

TABLE 18: PHYSICAL DATA

ACCESSORIES

ELECTRIC HEAT

ECONOMIZERS

RAIN HOOD

FIGURE 19 : ENTHALPY SET POINT CHART

TABLE 19: ACCESSORY STATIC RESISTANCE

SET POINT ADJUSTMENT

START-UP

PHASING