Bryant 619FNQ User Manual

installation, start-up and

service instructions

619FNF

619FNQ

Sizes 018-03036

IN-CEILING CASSETTE

FAN COIL UNITS

Cancels: New

II 619F-18-1

4/1/06

CONTENTS

GENERAL

Page

CAUTION: This system uses Puron® refrigerant

(R-410A), which has higher pressures than R-22 and

other refrigerants. No other refrigerant may be used in

this system. All equipment must be designed to handle

R-410A refrigerant. If unsure about equipment, consult

the equipment manufacturer.

SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . . . . . . 1

GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-19

I. Step 1 — Complete Pre-Installation Checks . . . . . . 2

II. Step 2 — Locating and Mounting the Unit. . . . . . . . 6

III. Step 3 — Locating and Mounting the Room

Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

CAUTION: Do not operate the unit without a filter

or with the grille removed. Damage to the unit or per-

sonal injury may result.

IV. Step 4 — Complete Refrigerant Piping

Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

V. Step 5 — Make Electrical Connections . . . . . . . . . 11

INSTALLATION OPTIONS . . . . . . . . . . . . . . . . . . . . . . . .19-22

I. Fresh Air Intake . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

II. Conditioned Air Supply to Adjacent Room . . . . . . 19

III. Room Controller Configuration Setup. . . . . . . . . . 21

IV. Louver Mode Selection . . . . . . . . . . . . . . . . . . . . . . 21

V. Main Board Configuration. . . . . . . . . . . . . . . . . . . . 21

These instructions cover the installation, start-up and service

of in-ceiling cassette fan coil units. See Fig. 1.

The following accessories can be used with 619FNF, FNQ

units. See the price pages for part numbers and additional

information for the following accessories:

• photocatalytic and electrostatic filter with mount

• air supply outlet obstruction kit

• wired room controller

• room controller wiring kit for multiple units

• zone manager kit for multiple units

• zone manager

START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22,23

SERVICE AND MAINTENANCE. . . . . . . . . . . . . . . . . . . . . . 23

TROUBLESHOOTING. . . . . . . . . . . . . . . . . . . . . . . . . . . .23,24

SAFETY CONSIDERATIONS

• infrared remote kit

Installing and servicing air-conditioning equipment can be

hazardous due to system pressure and electrical components.

Only trained and qualified service personnel should install or

service air-conditioning equipment.

Untrained personnel can perform basic maintenance, such as

cleaning and replacing filters. All other operations should be

performed by trained service personnel. When working on air

conditioning equipment, observe safety precautions in litera-

ture, tags, and labels attached to unit.

Follow all safety codes. Wear safety glasses and work gloves.

Use quenching cloth for brazing operations. Have fire extin-

guisher available. Read these instructions thoroughly. Con-

sult local building codes and the National Electrical Code

(NEC) for special installation requirements.

WARNING: Before installing or servicing system,

always turn off main power to system. There may be

more than one disconnect switch. Turn off accessory

heater power if applicable. Electrical shock can cause

serious personal injury.

Fig. 1 — 619FNF, FNQ Unit

1?10-5/8?(?575)

1' -10-5/8"(575)

3/8"(9)

2"(52)

Ø 2-3/14" (70)

(

1 -5/16"(49)

2-13/64"(56)

)

2'-4-11/32"(720)

1'-9-21/32"(550)

Supply air

Return air

619FNF018

Ø1"(25)

(50)

1-7/8"(47)

2'-8-1/2"(825)

1 -31/32"

(50)

)

11-57/64"

(302)

(

Supply air

Return air

1'-11-7/16"(595)

619FNF024, 03036 / 619FNQ01824, 03036

)

(

Ø3-15/16"

(100)

(

)

(

)

(

NOTE: Dimensions in ( ) are in mm.

Fig. 2 — Unit Dimensions

—3—

Table 4A — 619FNF Physical Data

018

SYSTEM SIZE

NOMINAL CAPACITY (Btuh)

OPERATING WEIGHT (lb)

SEER

024

030

29,000

036

36,400

17,000

23,600

REFRIGERANT*

Control (Cooling)

R-410A

AccuRator Control

INDOOR FAN

Direct Drive Centrifugal

Rpm/Cfm High

1000/470

890/420

730/340

120

440/690

660/910

550/760

470/670

210

660/910

550/760

470/670

210

Rpm/Cfm Medium

Rpm/Cfm Low

360/560

300/470

110

Motor Watts

Blowers Quantity...Size (in.)

1...11.1

INDOOR COIL

Face Area (sq ft)

No. of Rows

Fins/in.

Copper Tube, Aluminum Fin

3.2

4.8

4.6

Circuits

FILTERS

Quantity...Size (in.)

Cleanable

1...17 x 16

AIRSWEEP

Horizontal

OPERATING LIMITS

Cooling (Min/Max)

Auto/Preset

55 F/125 F

CONTROLS

Integrated Microprocessor

Remote Controller Options

Diagnostics

Wireless, CRC

Yes

Defrost Method

Timer Mode

Warm Start Feature

Test Mode

Freeze Protection

Dehumidification Mode

Fan Mode

Auto Changeover

Auto Restart

Control Voltage

System Voltage

Demand Defrost

Yes

High/Medium/Low/Auto

Yes

208/230

REFRIGERANT LINES

Connection Type

Flare

Mixed-Phase Line (in.) OD

Vapor Line (in.) OD

Max Length (ft)

Max Lift (Fan Coil Above) (ft)

Max Lift (Fan Coil Below) (ft)

200

CONDENSATE DRAIN SIZE (in.)

LEGEND

CRC — Carrier Room Controller

SEER — Seasonal Energy Efficiency Ratio

*See Table 3 for factory charge and additional field charge requirements.

—4—

Table 4B — 619FNQ Physical Data

018

SYSTEM SIZE

024

030

036

NOMINAL CAPACITY (Btuh)

Heat Pump

Cooling

17,900

16,800

17,000

22,600

20,800

22,600

29,200

27,400

29,000

33,400

32,400

36,000

Heating

Cooling with Electric Heat

SEER

HSPF

7.7

OPERATING WEIGHT (lb)

REFRIGERANT*

Control (Cooling)

Control (Heating)

R-410A

AccuRator Control

INDOOR FAN

Direct Drive Centrifugal

Rpm/Cfm High

440/690

360/560

300/470

110

440/690

660/910

550/760

470/670

210

660/910

550/760

470/670

210

Rpm/Cfm Medium

Rpm/Cfm Low

360/560

300/470

110

Motor Watts

Blowers Quantity...Size (in.)

1...18

INDOOR COIL

Face Area (sq ft)

No. of Rows

Fins/in.

Copper Tube, Aluminum Fin

4.8

4.6

Circuits

FILTERS

Quantity...Size (in.)

Cleanable

1...24 x 23⁵/₁₆

AIRSWEEP

Horizontal

Auto/Preset

OPERATING LIMITS

Heating (Min/Max)

Cooling (Min/Max)

15 F/75 F

55 F/125 F

CONTROLS

Integrated Microprocessor

Remote Controller Options

Diagnostics

Wireless CRC

Yes

Defrost Method

Timer Mode

Warm Start Feature

Test Mode

Freeze Protection

Dehumidification Mode

Fan Mode

Auto Changeover

Auto Restart

Control Voltage

System Voltage

Demand Defrost

Yes

High/Medium/Low/Auto

Yes

208/230

REFRIGERANT LINES

Connection Type

Flare

Mixed-Phase Line (in.) OD

Vapor Line (in.) OD

Max Length (ft)

Max Lift (Fan Coil Above) (ft)

Max Lift (Fan Coil Below) (ft)

200

CONDENSATE DRAIN SIZE (in.)

LEGEND

CRC — Carrier Room Controller

HSPF — Heating Seasonal Performance Factor

SEER — Seasonal Energy Efficiency Ratio

*See Table 3 for factory charge and additional field charge requirements.

—5—

II. STEP 2 — LOCATING AND MOUNTING THE UNIT

A. Locating the Unit

cable (see Fig. 2 for dimensions). The cardboard template

(supplied with the unit) may be used as a guide. Depending

on the type of ceiling, the hangers can be fixed as shown in

Fig. 5.

Install the unit as centrally as possible in the room. The air-

flow direction can be controlled by the remote control (where

used) or automatically, according to the unit operating mode

(cooling or heating). Controlling the airflow automatically

will ensure optimum distribution of the air in the room.

Once the threaded hangers have been positioned, do not

tighten the nuts. Insert the washers as shown in Fig. 5. First

position the refrigerant lines, which will be connected in the

Complete Refrigerant Piping Connections section. Remove

the “T” bar in the ceiling to facilitate installation. See Fig. 6.

In Cooling mode, the louvers should be positioned so that the

air is directed towards the ceiling. Refer to Fig. 3. In Heating

mode, the louvers should be positioned so that the air is

directed toward the floor to prevent layers of hot air forming

close to the ceiling. Refer to Fig. 3. The louvers will be auto-

matically positioned when the louvers are set to Automatic

mode. Alternatively, the louvers can be placed in intermedi-

ate positions (with infrared remote accessory kit only) or

allowed to move continuously (Swing mode).

Carefully lift the unit (without the frame) using the four sus-

pension brackets (or the four corners), and insert it into the

false ceiling. If the “T” bar cannot be removed from the ceil-

ing the unit may need to be tilted. See Fig. 7.

NOTE: Tilting the unit may only be carried out with false

ceilings with a minimum height of 11 ft-¹³/₁₆inches.

Align and level the unit by adjusting the nuts and locknuts

on the threaded hangers, maintaining a distance of 1 in. to

1³/₁₆in. between the sheet metal body and the underside of

the false ceiling. See Fig. 8. Reposition the “T” bar and align

the unit in relation to the bar by tightening the nuts and

locknuts. After connection of the condensate drain line and

the refrigerant lines, carry out a final check to make sure

that the unit is level.

In order to allow easy and rapid installation and mainte-

nance, ensure that the unit is mounted in a location that is

easily accessible.

Restricting Air Outlets

A maximum of two air outlets can be restricted at one time.

See Fig. 3. The air supply outlet obstruction accessory kit

can be used to obstruct air outlets. Contact your local dealer

for more information.

Drilling the Hole for Connection Pipes in the External Wall

After positioning the units and determining the connection

position, drill a 2³/₄in. hole in the wall. The same hole can be

used as a condensate drain pipe conduit. The hole should

B. Mounting the Unit

Use a stacker to lift the unit to the installation location.

Refer to Fig. 4. If the mounting location is in a plaster board

ceiling, the maximum dimensions of the unit housing cutout

must not exceed 2 ft, 2 in. square for 619FNF018 units and

2 ft, 11 in. square for 619FNF024, 03036 and 619FNQ01824,

03036 units.

have a /₁₆in. to /₈in. slope toward the outside. Refer to

Fig. 9. Insert the plastic conduit. Pass the power connection

cables through the conduit. The power connection cables will

be connected in the Make Electrical Connections section.

Running the Condensate Drain Piping

NOTE: In rooms with high humidity, brackets should be

insulated using self-adhesive insulation.

To ensure correct condensate water flow, the drain pipe

should have a gradient of 2% without obstructions. Addition-

ally, a trap of at least 2 in. depth should be made to prevent

unpleasant odors from reaching the room.

Mark the position of the hangers, refrigerant lines and con-

densate drain pipe, power supply cables and remote control

Max. 2 louvers closed

Heat pump: louver position for correct airflow.

Cooling: louver position for correct airflow.

Fig. 3 — Louver Positioning

—6—

Spirit

Level

False

Ceiling

1“ to 1-3/16”

Fig. 4 — Positioning Unit

Fig. 8 — Align and Level the Unit

Outdoor

3/16"÷3/8"

(5÷10 mm)

Indoor

Nut

Washer

Threaded hangers

Washers

Fig. 9 — Drilling for Connections

Threaded hangers

Wooden frame

Nut

Washer

Nut

The condensate may be discharged at a maximum height of

7⁷/₈in. above the unit, as long as the ascending tube is verti-

cal and aligned with the drainage flange.

Nut

Fig. 5 — Attaching Hangers to Ceiling

If it is necessary to discharge the condensate from a level

above 7⁷/₈in., install an auxiliary water discharge pump and

float valve. A float valve is recommended to stop the com-

pressor if there is a fault at the auxiliary pump.

The condensate pipe must be insulated with condensation

proof material such as polyurethane, propylene or neoprene

of ³/₁₆in. to ³/₈in. thickness. See Fig. 10.

Threaded hangers

CAUTION: The drain tube extension must be

securely fastened to the condensate drain. Failure to

do so could result in condensate water dripping on to

the floor, which could cause personal injury.

"T" bar

(to be removed)

Fig. 6 — Threaded Hangers and T Bar

NOTE: If more than one unit is installed in the room, the

drain system can be designed as shown in Fig. 10.

Installing the Grille and Frame Assembly

Carefully unpack the assembly and check for damage sus-

tained in transport. Attach the assembly to the unit by using

the two hooks. See Fig. 11. Tighten the four screws, link the

electrical connectors and insert the wires in the cable clamp.

Use the screws supplied to fix the frame in to position. See

Fig. 12.

Threaded Hangers

T-Bar

Ensure that the frame is not distorted by excessive tighten-

ing, that it is aligned with the false ceiling and that there is

a seal between the air inlet and outlet. See Fig. 13. Gasket

“A” prevents return air from mixing with the supply air and

gasket “B” prevents the supply air from leaking into the ceil-

ing void. Once the unit is mounted in the ceiling, the gap

between the unit frame and the false ceiling must not be

more than ³/₁₆in. wide.

T-Bar

Supension Brackets

Fig. 7 — Positioning Unit in Ceiling

—7—

2” (50 mm)

A. Gasket "A"

B. Gasket "B"

max.

7-7/8”(200 mm)

AIR

Fig. 10 — Condensate Drain Pipe

Fig. 13 — Gasket Location

Frame support brackets

III. STEP 3 — LOCATING AND MOUNTING THE ROOM

CONTROLLER

WARNING: Electrical shock can cause personal

injury and death. Shut off all power to this equipment

during installation. There may be more than one dis-

connect switch. Tag all disconnect locations to alert

others not to restore power until work is completed.

A. Locating the Room Controller

See Fig. 14 for room controller dimensions. If the air sensor

in the room controller is going to be used, the room controller

should be located by considering the following:

Fig. 11 — Attach Frame Assembly

• Position controller with a minimum clearance of 5 ft from

the floor.

• Locate the unit in the same area as the fan coil unit; pref-

erably on an inside partitioning wall.

• Locate on a section of the wall without pipes or ductwork.

• Do not locate close to a window, on an outside wall, or

next to a door leading to the outside.

• Do not locate where the controller is exposed to direct

light and heat from a lamp, sun, fireplace, or other tem-

perature-radiating object that may cause a false reading.

• Do not locate close to, or in direct airflow of, a heating or

cooling supply.

• Do not locate in areas with poor circulation, such as

behind a door or in an alcove.

Safety cord

Cable clamp

Power connection

cables from unit

Power connection

cables from frame

Frame support

screws

NOTE: Do not exceed 500 ft of network wiring when mount-

Fig. 12 — Fix Frame in Position

ing the room controller.

—8—

3/4"(20mm)

4-1/4" (108mm)

Fig. 14 — Room Controller Dimensions

B. Mounting the Room Controller (Fig. 15-17)

Unscrew the side fixing screw. Open the room controller rear

mounting base to expose the mounting holes. The base can

be removed to simplify mounting (snap apart carefully at

hinge to separate mounting base from the rest of the room

controller). Route the room controller wires through the

large hole in the mounting base. Level the mounting base

against the wall (for aesthetic value only, as the room con-

troller does not need to be level for proper operation) and

mark the wall through the two mounting holes. Drill two

Connection Cable

Fig. 16 — Locating the Connection Cable

₁₆in. mounting holes in the wall where marked. Secure the

mounting base correctly (UP) to the wall with the two screws

and two anchors provided, (additional anchoring holes are

available for more secure mounting if necessary) making

sure all wires extend through the hole in the mounting base.

Adjust the length and routing of each wire to reach the

proper terminal in the connector block on the mounting base,

with ¹/₄in. of extra wire (strip only ¹/₄in. of insulation from

each wire to prevent adjacent wires from shorting together

when connected).

Match and connect equipment wires to proper terminals in

the connector block. Both power and communication wires

must be connected correctly for proper room controller

operation.

Push any excess wire into the wall and against mounting

base. If the air sensor is being used on the room controller,

seal the hole in the wall to prevent air leaks. Leaks can

affect sensor operation.

Push the room controller snap hinge to the base and tighten

the side fixing screw.

Connection Cable

Fig. 17 — Connecting the Room Controller

Mounting screws

Fig. 15 — Mounting the Room Controller

—9—

IV. STEP

CONNECTIONS

—

COMPLETE REFRIGERANT PIPING

If either refrigerant tubing or indoor coil is exposed to the

atmosphere, the system must be evacuated following good

refrigeration practices.

IMPORTANT: During unit installation make the refrigerant

connections first and then the electrical connections. If the

unit is uninstalled, disconnect the electrical cables first and

then the refrigerant connections. Refer to the outdoor unit

installation instructions for tube sizing and limitations.

Use field-supplied refrigerant grade piping designed for use

with R-410A refrigerant.

A. Flaring the Ends of Pipes

Remove the protective caps from the copper pipe ends. Hold-

ing the tube downward, cut the extreme end off, removing

any copper shavings with a deburring blade. Remove the

flare nuts from the “FLARE” connection body of the indoor

unit and insert them into the pipes. Make the flare to the

pipe end with the proper flaring tool. The flare end must not

have any burrs or imperfections. The length of the flared

walls must be uniform. See Fig. 18 and 19.

Fig. 18 — Removing Burrs

Lubricate the end of pipe and the thread of the flare connec-

tion with anti-freeze oil. Tighten by hand and then use two

wrenches to tighten all connections fully, applying the tight-

ening torque shown in Table 5. Refer to Fig. 20.

Table 5 — Tightening Torque

TUBE DIAMETER

(in.)

TORQUE

(ft-lb)

³/₈in.

⁵/₈in.

³/₄in.

B. Piping Connection to the Unit

Use two wrenches to tighten all connections.

CAUTION: Insufficient tightening torque could

cause a refrigerant leak from the connection. Excessive

tightening torque will damage the pipe flare.

Fig. 19 — Flared Walls are Equal

Once all connections have been completed, check for leaks

using soapy water. If no leaks were found, wrap connections

with anti-condensate insulation and tighten with tape, with-

out exerting excessive pressure on the insulation. Repair and

cover any possible cracks in the insulation.

CAUTION: DO NOT BURY MORE THAN 36 IN.

OF REFRIGERANT PIPE IN THE GROUND. If any

section of pipe is buried, there must be a 6-in. vertical

rise to the valve connections on the outdoor unit. If

more than the recommended length is buried, refriger-

ant may migrate to cooler, buried section during

extended periods of system shutdown. This causes

refrigerant slugging and could possibly damage the

compressor at start-up.

Adjustable wrench or torque wrench

Outdoor end

Indoor end

Fig. 20 — Tightening Connections

—10—

V. STEP 5 — MAKE ELECTRICAL CONNECTIONS

unit, readily accessible, but out of reach of children. Provi-

sion for locking the switch open (off) is advisable to prevent

power from being turned on while unit is being serviced. Dis-

connect switch, fuses, and field wiring must comply with the

NEC and local code requirements. Use copper wire only

between the disconnect switch and unit. Use minimum 60 C

wire for the field power connection.

WARNING: Unit cabinet must have an uninter-

rupted, unbroken electrical ground to minimize the

possibility of personal injury if an electrical fault

should occur. This ground may consist of electrical

wire connected to unit ground lug in control compart-

ment, or conduit approved for electrical ground when

installed in accordance with NEC, and local electrical

codes. Failure to follow this warning could result in the

installer being liable for the personal injury of others.

Remove the external box cover. Route the low voltage wires

from the outdoor unit to the indoor unit:

1. Place wiring through /₈in. knockouts on the left or

right hand side of external control box (low voltage

side).

CAUTION: Unit failure as a result of operation on

improper line voltage or excessive phase imbalance

constitutes abuse and may cause damage to electrical

components. Such operation would invalidate any

applicable Bryant warranty.

2. Connect the R and Y wires to the 2 pin terminal block

for cooling only units (619FNF) and heat pump units

(619FNQ) that are matched to 538ENF outdoor units.

3. Connect the R, Y, O, G, DT, A, and B wires to the

(PGB-1) 1 terminal for 619FNQ indoor units matched

with 538QNF outdoor units.

WARNING: Electrical shock can cause personal

injury and death. Shut off all power to this equipment

during installation. There may be more than one dis-

connect switch. Tag all disconnect locations to alert

others not to restore power until work is completed.

Route the line power leads from the indoor disconnect to the

fan coil unit.

1. Place wiring through /₈in. or 1¹/₈in. knockouts on

the left and on the right hand side of external control

box (high voltage side).

2. Connect L1 to the black wire and L2 to the red wire

using wire nuts and fix the ground wire between the

2 washers.

See Tables 6A and 6B for electrical information.

A. Units With Electric Heater

The unit is equipped with two thermostats: one with auto-

matic reset and one with manual (electric) reset that can be

reactivated by switching the power supply off and then

back on.

See Fig. 27 for a view of the internal control panel. The inter-

nal control panel can be accessed by opening the grille and

removing the metal cover attached by four screws.

NOTE: The internal control panel does not need to be

accessed during the installation process unless there is a

need for service.

B. Power Wiring (Fig. 21-26)

The unit is factory wired for voltage shown on nameplate.

Provide adequate, fused disconnect switch within sight from

Table 6A — 619FNF Fan Coil Electrical Data

VOLTAGE

RANGE*

FAN

POWER

MIN WIRE

SIZE

AWG

SYSTEM

SIZE

CONDENSATE

PUMP FLA

LOUVER

MOTOR FLA

V-PH-Hz

Motor Power

(Watts)

Min

Max

FLA

MCA

MOCP

018

024

030

036

208/230-1-60

187

253

0.55

0.50

0.95

120

110

210

0.06

0.01

0.8

0.7

1.3

LEGEND

AWG — American Wire Gage

FLA — Full Load Amps

MCA — Minimum Circuit Amps per NEC Section 430-24

MOCP — Maximum Overcurrent Protection

NEC — National Electrical Code

*Permissible limits of the voltage range at which unit will operate

satisfactorily.

NOTE: In compliance with NEC requirements for multimotor and combina-

tion load equipment (refer to NEC Articles 430 and 440), the overcurrent pro-

tective device for the unit shall be fuse or equipped with a breaker.

Table 6B — 619FNQ Fan Coil Electrical Data

VOLTAGE

RANGE*

ELECTRIC

HEATERS

MIN

WIRE

SIZE

AWG

FAN

POWER

SYSTEM

SIZE

CONDENSATE

PUMP FLA

LOUVER

MOTOR FLA

V-PH-Hz

Motor Power

(Watts)

Min

Max

FLA

MCA MOCP

018

024

030

036

208/230-1-60

187

253

0.50

0.95

110.0

210.0

0.06

0.01

12.5

16.3

16.9

LEGEND

AWG — American Wire Gage

FLA — Full Load Amps

MCA — Minimum Circuit Amps per NEC Section 430-24

MOCP — Maximum Overcurrent Protection

NEC — National Electrical Code

*Permissible limits of the voltage range at which unit will operate

satisfactorily.

NOTE: In compliance with NEC requirements for multimotor and combina-

tion load equipment (refer to NEC Articles 430 and 440), the overcurrent pro-

tective device for the unit shall be fuse or equipped with a breaker.

—11—

Room Controller

Connections

Low

Voltage

Outdoor Unit

Connections

Power

Connections

Ground

Connection

High

Voltage

Fig. 21 — 619FNF Unit Matched to 538ENF Outdoor Unit — Wiring Connection

(Cooling Only System)

—12—

Room Controller

Connections

Low

Voltage

Outdoor Unit

Connections

Power

Connections

Ground

Connection

High

Voltage

Fig. 22 — 619FNQ Unit Matched to 538ENF Outdoor Unit — Wiring Connection

(Cooling with Electric Heat System)

—13—

Room Controller

Connections

Low

Voltage

Outdoor Unit

Connections

Power

Connections

Ground

Connection

High

Voltage

Fig. 23 — 619FNQ Unit Matched to 538QNF Outdoor Unit — Wiring Connection

(Heat Pump System)

—14—

DISPLAY

TM-COIL

TM-AIR

MODULAR "D"

CONTROL 1PCB

BARE COPPER

TO UNIT DISCONNECT

(USE CABLE PROVIDED)

EQUIP. GND

619FNF GLOBAL CASSETTE

538ENF OUTDOOR CONDENSER

NOTE 7

EQUIP GND

208/230V

1PH

(SEE NOTE 9)

TO OUTDOOR

UNIT DISCONNECT

TO CASSETTE

NOTE 8

NOTES:

LEGEND

1. If any of the original wire furnished must be replaced, it must be

replaced with Type 90° C wire or its equivalent.

2. Wire in accordance with National Electrical Code (NEC) and local

codes.

1PCB

—

Main Control Printed

OFM

—

Outdoor Fan Motor

Overload

Emergency

Terminal Block

Sensor

Circuit Board

2PCB

CAP

—

Display Board

Contactor

3. Compressor and fan motors are protected by internal thermal

overloads.

Capacitor

Crankcase Heater

Crankcase Heater Switch

Compressor

4. Indoor unit transformer has internal 2A thermal fuse on the primary

side.

5. Infrared (IR) connection to be inserted on “J5” (replace the actual

factory-installed “CRC” connector) for IR option.

6. Terminal strip for Carrier Room Controller (CRC) connection.

7. Compressor crankcase heater installed on 538QNF035 and

538QNF030 only.

8. Outdoor unit transformer is factory wired for 230 v. For 208 v move

the black wire to the 208-v tap.

9. Use minimum 60° C wire for the field power wiring.

TRAN — Transformer

CHS

COMP

CRC

Terminal (Marked)

Carrier Room Controller

Drain Pump

Equipment Ground

Terminal (Unmarked)

Splice

EQUIP.

GND

Terminal Block

—

Fan Capacitor

Float Switch

Ground

High Pressure Switch

Indoor Fan Motor

Infrared

Indoor Test Point

Liquid Low Pressure

Switch

Louver Motor

Louver Micro Switch

Factory Wiring

GND

HPS

IFM

Field Control Wiring

Field Power Wiring

Accessory or Optional Wiring

Plug Connector

THERMISTOR EQUIVALENCE

TEMPERATURE

RESISTANCE

Ω

ITP

°F

°C

LLPS

6,500

11,400

32,500

LMS

—

NOTE: All thermistors are identical.

Fig. 24 — 619FNF/538ENF Cooling Only System Wiring Diagram

—15—

DISPLAY

TM-COIL

TM-AIR

MODULAR "D"

CONTROL 1PCB

BARE COPPER

TO UNIT DISCONNECT

(USE CABLE PROVIDED)

EQUIP. GND

619FNQ GLOBAL CASSETTE

538ENF OUTDOOR CONDENSER

EQUIP GND

208/230V

1PH

NOTE 7

(SEE NOTE 9)

TO OUTDOOR

UNIT DISCONNECT

TO CASSETTE

NOTE 8

NOTES:

LEGEND

1. If any of the original wire furnished must be replaced, it must be

replaced with Type 90° C wire or its equivalent.

2. Wire in accordance with National Electrical Code (NEC) and local

codes.

1PCB

—

Main Control Printed

Circuit Board

LMS

OFM

—

Louver Micro Switch

Outdoor Fan Motor

Overload

2PCB

3PCB

—

Display Board

Printed Circuit Board for

Electric Heat

Contactor

Capacitor

3. Compressor and fan motors are protected by internal thermal

overloads.

Emergency

Safety Thermostat

Terminal Block

Sensor

CAP

CHS

COMP

CRC

—

4. Indoor unit transformer has internal 2A thermal fuse on the primary

side.

5. Infrared (IR) connection to be inserted on “J5” (replace the actual

factory-installed “CRC” connector) for IR control.

6. Terminal strip for Carrier Room Controller (CRC) connection.

7. Compressor crankcase heater installed on 538QNF035 and

538QNF030 only.

8. Outdoor unit transformer is factory wired for 230 v. For 208 v move

the black wire to the 208-v tap.

9. Use minimum 60° C wire for the field power wiring.

Crankcase Heater

Crankcase Heater Switch

Compressor

TRAN — Transformer

Terminal (Marked)

Carrier Room Controller

Drain Pump

Terminal (Unmarked)

Splice

E-HTR

EQUIP.

GND

Electric Heater

Equipment Ground

Terminal Block

—

Fan Capacitor

Float Switch

Ground

High Pressure Switch

Indoor Fan Motor

Infrared

Factory Wiring

THERMISTOR EQUIVALENCE

GND.

HPS

IFM

TEMPERATURE

RESISTANCE

Ω

Field Control Wiring

Field Power Wiring

Accessory or Optional Wiring

Plug Connector

°F

°C

6,500

11,400

32,500

ITP

Indoor Test Point

Liquid Low Pressure

Switch

LLPS

NOTE: All thermistors are identical.

—

Louver Motor

Fig. 25 — 619FNQ/538ENF Heat/Cool System Wiring Diagram with Electric Heaters

—16—

DISPLAY

TM-COIL

TM-AIR

OUTDR DEFROST

MODULAR "D"

CONTROL 1PCB

BARE COPPER

TO UNIT DISCONNECT

(USE CABLE PROVIDED)

EQUIP. GND

619FNQ GLOBAL CASSETTE

538QNF OUTDOOR CONDENSER

208/230V

1PH

EQUIP GND

NOTE 7

(SEE NOTE 9)

TO OUTDOOR

UNIT DISCONNECT

TO CASSETTE

NOTE 8

LEGEND

NOTES:

1. If any of the original wire furnished must be replaced, it must be

replaced with Type 90° C wire or its equivalent.

2. Wire in accordance with National Electrical Code (NEC) and local

codes.

1PCB

—

Main Control Printed

Circuit Board

OAS

—

Outdoor Air Sensor

Outdoor Fan Motor

Outdoor Fan Relay

Overload

OFM

OFR

2PCB

3PCB

—

Display Board

Printed Circuit Board for

Electric Heat

3. Compressor and fan motors are protected by internal thermal

overloads.

RVS

Reversing Valve Solenoid

Emergency

CAP

—

Contactor

4. Indoor unit transformer has internal 2A thermal fuse on the primary

side.

5. Infrared (IR) connection to be inserted on “J5” (replace the actual

factory-installed “CRC” connector) for IR option.

6. Terminal strip for Carrier Room Controller (CRC) connection.

7. Compressor crankcase heater installed on 538QNF035 and

538QNF030 only.

8. Outdoor unit transformer is factory wired for 230 v. For 208 v move the

black wire to the 208-v tap.

9. Use minimum 60° C wire for the field power wiring.

Capacitor

Safety Thermostat

Terminal Block

Sensor

Crankcase Heater

CHS

COMP

CRC

DFT

Crankcase Heater Switch

Compressor

TRAN — Transformer

Carrier Room Controller

Defrost Thermostat

Drain Pump

Terminal (Marked)

Terminal (Unmarked)

Splice

E-HTR

Electric Heater

EQUIP. — Equipment Ground

GND

Terminal Block

—

Fan Capacitor

THERMISTOR EQUIVALENCE

Float Switch

TEMPERATURE

RESISTANCE

Ω

Factory Wiring

GND

HPS

IFM

Ground

°F

°C

High Pressure Switch

Indoor Fan Motor

Infrared

Field Control Wiring

Field Power Wiring

Accessory or Optional Wiring

Plug Connector

6,500

11,400

32,500

ITP

Indoor Test Point

Liquid Low Pressure Switch

Louver Motor

LLPS

NOTE: All thermistors are identical.

LMS

Louver Micro Switch

Fig. 26 — 619FNQ/538QNF Heat Pump System Wiring Diagram with Electric Heaters

—17—

CLR

INTERNAL CONTROL PANEL

619FNF018

INTERNAL CONTROL PANEL

619FNF024, 03036

619FNQ01824, 03036

Capacitor

GMC board

Electric heater board

(only on models with electric heater)

Transformer

Holes for fixing panel in position

Emergency push-button

Fan connector

LED/RECEIVER connector

Float connector

Pump connector

Louver connector

C^LR

C^G

Fig. 27 — Internal Control Panel

—18—

C. Wiring the Room Controller

INSTALLATION OPTIONS

The room controller is capable of controlling from 1 to 6 fan

coil units. The total run length of the wire connecting the

room controller to the fan coil units should be kept to under

500 feet. Wire the room controller to the unit using daisy

chain wiring. See Fig. 28. The room controller connects to

the receiver board connection on the electronic board inside

the unit.

The 619FNF, FNQ units can be used to cool an adjacent

room or for fresh-air ventilation. Plan the installation care-

fully. Measure carefully and follow acceptable building prac-

tices and the National Electric Code (NEC).

I. FRESH AIR INTAKE

1. Using Fig. 30, locate and remove the factory-installed

insulation from the side of the unit where the

pre-punched knockouts are located.

Wiring the Power Connection to the Room Controller

The thermostat will be powered by unregulated nominal

12.5 volts DC (10V min to 20V max) which is provided by the

electronic board inside the unit. The power consumption will

be 50 mA 12.5 volts DC. For applications where more than

one fan coil unit is to be controlled, the fan coil unit closest to

the room controller will be the only one that supplies power

to the room controller. The control should be protected from

damage in case of accidental wiring of power, ground and

signal wiring occurs.

2. Remove the pre-punched knockouts for fresh air

intake. Refer to Fig. 30. Be careful not to damage

internal parts such as the heat exchanger coil.

3. If installing a 619FNF018 unit, install baffle. Refer to

Fig. 30.

4. Install ductwork using field-supplied, insulated flex

duct, or insulated sheet metal suitable for working

temperatures up to 140 F. Conduits can be of flexible

polyester (with spiral core) or corrugated aluminum,

externally covered with anti-condensate material

(fiberglass from ¹/₄in. to 1 in. thickness).

Wiring the Room Controller to the Indoor Unit

Loosen the screws of terminals P (DC Power), G (GROUND)

and C (SIGNAL) on the indoor unit and room controller

terminal blocks. Refer to Fig. 29 and connect the indoor unit

terminal block to the room controller terminal block.

5. Use Fig. 31 to determine the allowable static pres-

sure loss for the ductwork airflow. The ductwork

design must not exceed this value or the job airflow

requirements will not be met.

6. Use a field-supplied fan if airflow does not meet job

requirements. The field-supplied fan motor for out-

side air intake must be controlled by a bipolar ON/

OFF switch with safety fuses.

REMOTE

FCU 1

FCU 2

FCU 3

FCU 6

IMPORTANT: Ventilated air must not exceed 10% of the total

airflow or problems with operation will result. If the venti-

lated air surpasses 10% of the total airflow, a field-supplied

primary air treatment system with separate deflectors is

recommended.

7. Install an air inlet grille with filter inspection port to

prevent dust and dirt from entering and fouling the

indoor unit heat exchanger. Filter installation also

makes the installation of a duct closing damper dur-

ing shutdown periods unnecessary.

8. All non-insulated ducts must be covered with anti-

condensate insulation (such as expanded neoprene,

¹/₄in. thickness).

Fig. 28 — Room Controller Daisy Chain Wiring

(Multidrop)

II. CONDITIONED AIR SUPPLY TO ADJACENT ROOM

Diagram 1

Air supply to an adjacent room requires that the outlet corre-

sponding with the duct is closed, using the air supply outlet

obstruction accessory kit.

NOTE: The accessory kit cannot be used in units equipped

with an electric heater.

Red

Black

White

An air inlet grille must be fitted (if possible near the floor)

between the air conditioned room (where the unit is situ-

ated) and the adjacent room or, alternatively, the door must

be undercut, as shown in Fig. 30. The duct lengths can be

calculated in accordance with Fig. 30, also taking into

account the pressure drop through air diffusers and fresh air

filters.

Remote connector

(J5) 5 pins

Main electronic card

4 pins terminal block placed on external

control box

Indoor unit

Wires supplied by the installer

Terminal block in the Room Controller

Room Controller

IMPORTANT: DO NOT use active carbon or electrostatic

filter kits for ducts towards adjacent rooms.

Fig. 29 — Wiring the Room Controller to

the Indoor Unit

—19—

Ø A

Ø C

Ø A

Duct connection flange

Clip

1/4" (6 mm) neoprene gasket

Insulated flexible duct

Fresh air intake

Conditioned air supply to an

adjacent room

Polystyrene partition

Baffle (619FNF018 only)

Frame

619FNF024, 03036

Unit

Ø A

619FNF018

5-29/32"(150 mm)

4-3/4"(120 mm)

2-3/4"(70 mm)

619FNQ01824, 03036

5-29/32"(150 mm)

4-3/4"(120 mm)

Ø C

3-15/16"(100 mm)

Note:

NOTE: Dimensions in ( ) are in mm.

Dimensions in ( ) are in mm.

Air intake grille

Wall

Undercut door

Wall-fitted grille

Door-fitted grille

Fig. 30 — Installation Options

Supply air duct to adjacent room

0.18

0.16

0.14

0.12

619FNF, FNQ03036

0.1

0.08

0.06

619FNF018, 024

619FNQ01824

0.04

0.02

150

200

250

100

Airflow (cfm)

NOTE: When two louvers are closed, the fresh airflow towards the adjacent room is 50% higher than when

one louver is closed (with equal static external pressure).

Fig. 31 — Pressure Drop for Conditioned Air Supply to an Adjacent Room: One Louver Closed

—20—

III. ROOM CONTROLLER CONFIGURATION SETUP

C — The Room Controller will allow and display the

following modes:

To configure the room controller, press the Mode button for

5 seconds. After 5 seconds, “10” will appear. This indicates

that the user is setting the first software configuration item.

To display the value of configuration item 10, press the Mode

button again. The value of the Heat/Cool vs Cooling only

remote configuration will be displayed along with the “Set

Temp” icon to indicate that the number displayed is the con-

figuration data. Refer to Table 7 for configuration values. To

change the Heat/Cool vs Cooling only remote Configuration,

press the Up and Down buttons. To move to the next setting,

press the Mode button again and the “10” will be displayed.

Press the up button and the display will change to “11.”

Refer to Fig. 32. The Mode button will toggle the display

between the items and the configuration value. The Up and

Down buttons will change either the index or the value,

whichever is displayed at the time. Press the Fan button to

exit the Configuration Setup Mode. This mode will exit auto-

matically after 10 seconds of inactivity. Once a configuration

value is changed, the last value displayed will be the new

configuration value for the room controller.

•Off

•Fan

•Cool

•Dry

2. Configuration Item 11: Room Thermistor Override

On — Room Thermistor Override is active. Units will

be controlled to the air temperature displayed via the

Room Controller.

Of (Off) — Room Thermistor Override is not active.

All units will be controlled to the room air ther-

mistors located on the units.

3. Configuration Item 12: Celsius vs Fahrenheit

C — Temperatures will be displayed in degrees

Celsius.

F — Temperatures will be displayed in degrees

Fahrenheit.

IV. LOUVER MODE SELECTION

NOTE: The only way to abort a configuration change is to

change the value back to its original value.

To enter louver mode selection, ensure the room controller is

on and then press the Fan button for 5 seconds. After 5 sec-

onds, the selected louver setting will be displayed. Press the

up and down arrows to modify the louver setting between

swing and auto. Refer to Fig. 33. The two settings will be dis-

played as follows:

Table 7 — Room Controller Configuration Values

ITEM

VALUE

DESCRIPTION

Heat/Cool Remote

Cooling Only Remote

S with Swing Louver Icon

A with Auto Louver Icon

Represents the swing louver

Represents the auto louver

Room Thermistor Override

Active.

Control and display room air

temperature at the room con-

troller. Room Thermistor Over-

ride Inactive. Do not display

room air temperature at the

room controller and control to

unit room air thermistor(s).

The fan icon will also be displayed in the louver mode. Press

Fan button to exit the Louver Mode selection. This mode will

exit automatically after 10 seconds of inactivity. The only

way to abort a louver change is to change the value back to

its original value.

Of*

Temperatures displayed in

degrees Celsius.

Temperatures displayed in

degrees Fahrenheit.

NOTE: If units are grouped to one room controller, all units

will have the same louver value. Louver Mode selection is

not available during OFF mode.

V. MAIN BOARD CONFIGURATION

* Factory default.

To configure the main electronic board, push the Up and

Down arrows for 5 seconds while the room controller is off.

1. Configuration Item 10: Heat Pump vs Cooling Mode

H — The Room Controller will allow and display the

following modes:

After 5 seconds, a “20” will appear. This indicates that the

user is setting the first software configuration item. To check

the value of configuration item “20,” press the Mode button.

The value for the Heat Pump/AC Only configuration will be

displayed. To change the value, use the Up and Down

buttons. Once the desired value is selected, press the Fan

button to send that configuration data to the unit. Refer to

Table 8.

•Off

•Fan

•Auto

•Cool

•Dry

•Heat

Keep it pressed for

at least 5 seconds

Check the

value

Change the

value

item

down

To check/change

the values of items

11 and 12 go back

to point A

down

Fig. 32 — Room Controller Configuration Steps

—21—

Room Controller

Keep it pressed

for 5 seconds

To change

the value

Automatic

(AUTO)

down

Continuous

movement

(swing)

Fig. 33 — Selecting the Louver Mode

Down button to send a message of Off mode to the unit. Ser-

vice Test mode automatically times out after 30 minutes and

the remote will operate normally.

Table 8 — Modular Platform D Unit Configuration Values

ITEM

VALUE

1: Heat Pump

0: AC only (indoor unit with

or without electric heaters)

COMMENT

When test mode is selected, the unit will operate as

described below:

Unit Configuration

defaults to heat pump

• The Unit Status (Green) and Timer (Yellow) LEDs blink

every 2 seconds.

• The indoor fan will operate according to user-selected

speed. If user-selected speed is Auto, the fan will run in

High speed.

• If the unit is configured as an A/C Only unit, it will oper-

ate in cool mode with demand.

• If the unit is configured as a Heat Pump unit, the louver

will operate according to user-selected position. If user

selected louver is Auto, louver operates according to auto

heat or cool louver based on operating mode.

• The unit will run in cool mode for 3 minutes, then it will

run in heat mode for 2 minutes, or until the indoor coil is

greater than 104 F. The unit will run in cool mode until

test mode is exited.

CCN Address of the unit.

Defaults to 1.

1-199 in increments of 1

0-199 in increments of 1

To display the hundreds,

push

Zone number -

Communications zone

the system is located in

Defaults to 0

To display the hundreds,

push

0: Start in Off mode

1: Start in last active mode

Auto Restart

Defaults to “On”

Only the current value being displayed is transmitted. Once

the Fan button is pressed, the room controller will switch to

displaying the configuration item number. To move to the

next setting, press the Mode button again and the “20” will

be displayed. Press the Up button and the display will

change to “21.” The Mode button will toggle the display

between the software configuration item number (i.e., “20,”

“21,” etc.) and the configuration value. The Up and Down

buttons will change either the item number or the value,

whichever is displayed at the time.

Any of the following will cancel the Service Test mode:

• When the unit is turned off by the controller.

• If the power is cycled during the Test Mode, the unit will

return to its normal operating mode.

• After 30 minutes of receiving the last valid test request

message.

• Fail Mode.

This mode will exit automatically after 30 seconds of

inactivity.

START-UP

The following checks should be made before system start-up.

Refer to outdoor unit Installation, Start-Up, and Service

manual for system start-up instructions and refrigerant

charging methods. Be sure to use the refrigerant charge

shown in Table 3.

NOTE: If units are grouped to one room controller, all units

will have the same configuration value.

VI. SERVICE TEST MODE

Prior to start-up, conduct the Service Test mode to ensure

the unit is ready for start-up.

1. Check condensate drainage system.

a. Remove grille and frame from the unit.

b. On the opposite side of the drain connection,

insert a water bottle up into the fan coil unit and

fill drain pan. Refer to Fig. 34. Water must flow

regularly with condensate pump energized. If

water does not, check the pipe slope or see if

there are any pipe restrictions.

There is a hidden Service Test mode that is initiated through

a combination of button presses when the remote is off. The

following buttons need to be pressed, in sequence, within

6 seconds:

1. Down arrow

2. Fan button

3. Up arrow

NOTE: The unit is equipped with a safety float

switch to deenergize the compressor if the drain

water level gets too high.

4. Fan button

5. Mode button

2. Make sure that all wiring connections are correct and

that they are tight.

Once in Service Test mode, the Service Test mode message

will be sent, and Sr will be displayed in the temperature

icons until the Down button is pressed. During Service Test

mode all the icons are off, and the only button that is active

is the Down button. To cancel Service Test mode, press the

3. Make sure that all barriers, covers, and panels are in

place.

—22—

2. Remove the air intake and distribution assembly.

Remove the condensate water in the drain pan by

pulling out the rubber drain plug and letting water

drain into a 3-gallon bucket.

CAUTION: Do not use a screw driver to pry drain

pan out of assembly. It could damage the pan.

3. Remove screws holding the drain pan. Carefully hold

the drain pan to remove it from the assembly.

4. Reinstall the drain pan using the appropriate num-

ber of screws. Center and align the metal fan inlet

orifice with the fan. Ensure the fan spins freely.

Fig. 34 — Inserting Water into Drain Pan

TROUBLESHOOTING

See Table 9 and Fig. 35 for troubleshooting information.

4. Ensure that the filters and return air grilles have

been installed and that the discharge louvers are

correctly positioned.

I. FAULT CODE

Once a failure occurs with the indoor unit in operation, the

green LED on the indoor unit flashes at intervals of 0.5 sec-

onds. The fault code is deduced from the number of times the

green LED flashes, blocking unit operation. Between one

flash cycle and the next one, a pause of 5 seconds elapses.

See Fig. 35.

CAUTION: Never operate unit without a filter or

with grille removed. Damage to the unit or personal

injury may result.

SERVICE AND MAINTENANCE

Table 9 — Fault Codes

Remove unit grille, filter, and condensate pan for cleaning,

lubricating, or replacing parts.

CODE

DESCRIPTION

Condensate discharge pump

Room air sensor fault

Indoor unit coil sensor fault

Filter dirty

CAUTION: To avoid personal injury or damage to

unit, do not service until all power sources are shut

down, locked out, and tagged out. Failure to do so could

result in personal injury or unit damage.

Outdoor unit failure

I. MINIMUM MAINTENANCE

EEPROM corrupt

Card serial number damaged

Address or zone incomplete

Gas flow distributor corrupt

Outdoor air thermistor fault

1. Check, clean, or replace air filter each month or as

required.

2. Check cooling coil, drain pan, condensate trap, and

condensate drain pan each cooling season for cleanli-

ness. Clean as necessary.

*When code is enabled.

3. Check fan motor and wheel for cleanliness each heat-

ing and cooling season.

A. Using the Emergency Button

The Emergency button is for use by a qualified service tech-

nician only. The Emergency button is for use when the room

controller is inoperative. Use a screwdriver to press the

emergency button through the metal protection grille. See

Fig. 35.

4. Check electrical connections for tightness and con-

trols for proper operation each heating and cooling

season. Service as necessary.

II. SERVICE

A. To Clean or Replace Air Filters

Emergency Operation

1. Place a plastic sheet on the floor to catch any water

that may spill from drain pan.

When the unit is in the OFF mode and the Emergency but-

ton is pressed for 5 seconds, the unit will operate as follows:

2. Slide filter out.

• Automatic mode

• temperature preset to 72 F

• automatic fan speed

• louvers set automatically according to the operating mode

• Timer function is cancelled

• buzzer beeps

3. Vacuum clean or wash filter with soapy water. Rinse

and let air dry. If filter needs replacing, filters are

available from the local dealer.

CAUTION: If air filter is not replaced in the unit,

dust and dirt gather in air conditioner and operation

becomes impaired.

When the unit is ON and the Emergency button is pressed

for 5 seconds, the unit will operate as follows:

• the unit is turned off

• buzzer beeps

B. To Clean or Replace Drain Pan

1. Place a plastic sheet on the floor to catch any water

that may spill from drain pan.

When a signal is received by the remote control, the unit

operates accordingly.

—23—

Remote control

signal receiver

Red

LED

Emergency

Button

Green

LED

Yellow

LED

Fig. 35 — Warning Lamps and Emergency Button

Printed in U.S.A.

CATALOG NO. 02-619F0001-II

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