Lennox XC16?024, XC16-036, XC16-048, XC16-060, XC16 Series Unit Information

Page 1

©2006 Lennox Industries Inc.

Corp. 0625−L5

XC16

Service Literature

Revised 07−2006

XC16 SERIES UNITS

The XC16 is a high efficiency residential split−system con­densing unit, which features a two speed scroll compressor
and R−410A refrigerant. XC16 units are available in 2, 3, 4
and 5 tons. XC16 units are rated for 230 volts only. Applica­tions where supply voltage is less requires a hard start kit.
The series is designed for use with an expansion valve (ap­proved for use with R−410A) in the indoor unit. This manual
is divided into sections which discuss the major compo­nents, refrigerant system, charging procedure, mainte­nance and operation sequence.
Information contained in this manual is intended for use by
qualified service technicians only. All specifications are sub­ject to change.

WARNING

Improper installation, adjustment, alteration, service
or maintenance can cause property damage, person­al injury or loss of life. Installation and service must
be performed by a qualified installer or service
agency.

WARNING

Warranty will be voided if covered equipment is re­moved from original installation site. Warranty will
not cover damage or defect resulting from:
Flood, wind, lightning, or installation and operation
in a corrosive atmosphere (chlorine, fluorine, salt,
recycled waste water, urine, fertilizers, or other dam­aging chemicals).

DANGER

Shock Hazard
Remove all power at disconnect

before removing access panel.
Single phase XC16 units use single­pole contactors. Potential
exists for electrical shock resulting
in injury or death.
Line voltage exist at all components
(even when unit is not in operation).

IMPORTANT

Operating pressures of this R−410A unit are higher
than pressures in R−22 units. Always use service
equipment rated for R410A.

TABLE OF CONTENTS

General Page 1. . . . . . . . . . . . . . . . . . . . . . . . . . . .

Specifications / Electrical Data Page 2. . . . . . . . .

I Application Page 3. . . . . . . . . . . . . . . . . . . . . . . . .

II Unit Components Page 3. . . . . . . . . . . . . . . . . .

III Refrigeration System Page 11. . . . . . . . . . . . . . .

IV Charging Page 12. . . . . . . . . . . . . . . . . . . . . . . . .

V Service and Recovery Page 16. . . . . . . . . . . . . .

VI Maintenance Page 16. . . . . . . . . . . . . . . . . . . . . .

VII Wiring and Sequence of Operation Page 17. .

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SPECIFICATIONS

General

Model No. XC16−024 XC16−036 XC16−048 XC16−060

Data

Nominal Tonnage 2

3 4 5

Connections

Liquid line (o.d.) − in. 3/8 3/8 3/8 3/8

(sweat)

Suction line (o.d.) − in. 3/4

7/8 7/8 1−1/8

Refrigerant

1

R−410A charge furnished 7 lbs. 5 oz. 8 lbs. 9 oz. 11 lbs. 4 oz. 14 lbs. 2 oz.

Outdoor

Net face area − sq. ft. Outer coil 13.22 16.33 21.00 24.93

Coil

Inner coil 12.65

15.76 20.27 24.14

Tube diameter − in. 5/16 5/16 5/16 5/16

No. of rows 2 2 2 2

Fins per inch 22 22 22 22

Outdoor

Diameter − in. 18 22 22 26

Fan

No. of blades 3

4 4 3

Motor hp 1/10 1/6 1/4 1/3

Cfm 2320 3060 3955 4380

Rpm 1130 845 835 850

Watts 165 215 320 280

Shipping Data − lbs. 1 pkg. 208 238 268 323

ELECTRICAL DATA

Line voltage data − 60hz

4

230V−1ph

4

230V−1ph

4

230V−1ph

4

230V−1ph

3

Maximum overcurrent protection (amps) 20 35 45 55

2

Minimum circuit ampacity 13.6 22.0 28.2 33.9

Compressor Rated load amps 10.3 16.7 21.2 25.6

p

Locked rotor amps 52 82 96 118

Power factor 0.98 0.99 0.99 0.99

Outdoor Fan

Full load amps 0.7 1.1 1.7 1.8

Motor

Locked Rotor amps 2

2.1 3.1 2.9

OPTIONAL ACCESSORIES − must be ordered extra

Compressor Hard Start Kit 10J42  

p

81J69  
Compressor Low Ambient Cut−Off 45F08    
Compressor Time−Off Control 47J27    
Freezestat 3/8 in. tubing 93G35    

5/8 in. tubing 50A93    
Indoor Blower Relay 40K58    
Low Ambient Kit 68M04    

SignatureStatt Home Comfort Control 81M27    

Refrigerant
Line Sets

L15−41−20
L15−41−30

L15−65−40
L15−65−50



L15−65−30

L15−65−40
L15−65−50

 

Field Fabricate 

Time Delay Relay 58M81    

NOTE − Extremes of operating range are plus 10% and minus 5% of line voltage.

1

Refrigerant charge sufficient for 15 ft. length of refrigerant lines.

2

Refer to National or Canadian Electrical Code manual to determine wire, fuse and disconnect size requirements.

3

HACR type breaker or fuse.

4

Hard start kit is required in applications where the supply voltage is less than 230V.

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I − APPLICATION

XC16 condensing units are available in 2, 3, 4 and 5 ton capac­ities. All major components (indoor blower and coil) must be
matched according to Lennox recommendations for the com­pressor to be covered under warranty. Refer to the Engineer­ing Handbook for approved system matchups.

II − UNIT COMPONENTS

Unit components are illustrated in figure 1.

XC16 PARTS ARRANGEMENT

FIGURE 1

DUAL CAPACITOR

CONTACTOR

OUTDOOR FAN

COMPRESSOR

HIGH

PRESSURE

SWITCH

FILTER DRIER

LOW

PRESSURE

SWITCH

CAUTION

To prevent personal injury, or damage to panels, unit
or structure, be sure to observe the following:

While installing or servicing this unit, carefully stow
all removed panels out of the way, so that the panels
will not cause injury to personnel, nor cause damage
to objects or structures nearby, nor will the panels be
subjected to damage (e.g., being bent or scratched).

While handling or stowing the panels, consider any
weather conditions, especially windy conditions, that
may cause panels to be blown around and battered.

Remove the louvered panels as follows:
1 − Remove 2 screws, allowing the panel to swing open

slightly (see figure 2).

Detail

A

Detail C

Detail

B

FIGURE 2

Removing/Installing Louvered Panels

MAINTAIN MINIMUM PANEL ANGLE (AS CLOSE TO PARALLEL WITH THE UNIT
AS POSSIBLE) WHILE INSTALLING PANEL.

PREFERRED ANGLE
FOR INSTALLATION

Detail D

ROTATE IN THIS DIRECTION;
THEN DOWN TO REMOVE PANEL

SCREW
HOLES

ANGLE MAY BE TOO
EXTREME

HOLD DOOR FIRMLY TO THE HINGED

SIDE TO MAINTAIN

FULLY−ENGAGED TABS

LIP

IMPORTANT! Do not allow panels to hang on unit by top tab. Tab
is for alignment and not designed to support weight of panel.

Panel shown slightly rotated to allow top tab to exit (or enter) top
slot for removing (or installing) panel.

2 − Hold the panel firmly throughout this procedure. Ro-

tate bottom corner of panel away from hinge corner post
until lower 3 tabs clear the slots (see figure 2, Detail B).

3 − Move panel down until lip of upper tab clears the top slot

in corner post (see figure 2, Detail A).

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Position and Install PanelPosition the panel almost par­allel with the unit (figure 2, Detail D) with the screw side" as
close to the unit as possible. Then, in a continuous motion:

Slightly rotate and guide the lip of top tab inward (figure 2,

Details A and C); then upward into the top slot of the

hinge corner post.
Rotate panel to vertical to fully engage all tabs.
Holding the panel’s hinged side firmly in place, close the

right−hand side of the panel, aligning the screw holes.
When panel is correctly positioned and aligned, insert the

screws and tighten.

A − Control Box (Figure 3)

XC16 units are not equipped with a 24V transformer. All 24
VAC controls are powered by the indoor unit. Refer to wir­ing diagram.

Electrical openings are provided under the control box cov­er. Field thermostat wiring is made to color-coded pigtail
connections.

ELECTROSTATIC DISCHARGE (ESD)

Precautions and Procedures

CAUTION

Electrostatic discharge can affect electronic com­ponents. Take precautions during unit installation
and service to protect the unit’s electronic controls.
Precautions will help to avoid control exposure to
electrostatic discharge by putting the unit, the con­trol and the technician at the same electrostatic po­tential. Neutralize electrostatic charge by touching
hand and all tools on an unpainted unit surface be­fore performing any service procedure.

FIGURE 3

DUAL CAPACITOR

(C12)

COMPRESSOR

CONTACTOR

(K1)

CONTROL BOX

GROUNDING

LUG

TIMED OFF
CONTROL.

(OPTION)

1 − Compressor Contactor (K1)

The compressor is energized by a single−pole contactor lo­cated in the control box. See figure 3. K1 is energized by the
indoor thermostat terminal Y1 (24V) when thermostat de­mand is present.

2 − Dual Capacitor (C12)

The compressor and fan in XC16 series units use perma­nent split capacitor motors. The capacitor is located in­side the unit control box (see figure 3). A single dual" ca­pacitor (C12) is used for both the fan motor and the com­pressor (see unit wiring diagram). The fan side and the
compressor side of the capacitor have different MFD rat­ings. See side of capacitor for ratings.

3 − Start Kit (option)

The start kit consists of a potential relay K31 and start capac­itor C7. The potential relay controls the operation of the
starting circuit. The relay is normally closed when contactor
K1 is de−energized. When K1 is energized, the compressor
immediately begins start up. K31 remains closed during
compressor start up and and start capacitor C7 remains in
the circuit. When compressor reaches approximately 75%
of its speed, K31 is energized. When K31 energizes, the
contacts open and start capacitor C7 is taken out of the cir­cuit.

4 − Timed Off Control TOC (option)

The time delay is electrically connected between thermostat
terminal Y and the compressor contactor. Between cycles,
the compressor contactor is delayed for 5 minutes ± 2 min-
utes but may last as long as 8 minutes. At the end of the
delay, the compressor is allowed to energize. When thermo­stat demand is satisfied, the time delay opens the circuit to
the compressor contactor coil and the compressor is de−en­ergized.

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B − Two−Stage Scroll Compressor (B1)

CAUTION

In order to avoid injury, take precaution when
lifting heavy objects.

FIGURE 1

TWO−STAGE MODULATED SCROLL

solenoid actuator coil

slider ring

The scroll compressor design is simple, efficient and re­quires few moving parts. A cutaway diagram of the scroll
compressor is shown in figure 1.The scrolls are located in
the top of the compressor can and the motor is located just
below. The oil level is immediately below the motor.

The scroll is a simple compression concept centered around
the unique spiral shape of the scroll and its inherent proper­ties. Figure 2 shows the basic scroll form. Two identical
scrolls are mated together forming concentric spiral shapes
(figure 3 ). One scroll remains stationary, while the other is
allowed to orbit" (figure 4). Note that the orbiting scroll does
not rotate or turn but merely orbits" the stationary scroll.

FIGURE 2

SCROLL FORM

FIGURE 3

STATIONARY

SCROLL

ORBITING SCROLL

DISCHARGE

SUCTION

CROSS−SECTION OF SCROLLS

TIPS SEALED BY

DISCHARGE PRESSURE

DISCHARGE
PRESSURE

The counterclockwise orbiting scroll draws gas into the outer
crescent shaped gas pocket created by the two scrolls (figure
4 − 1). The centrifugal action of the orbiting scroll seals off the
flanks of the scrolls (figure 4 − 2). As the orbiting motion con­tinues, the gas is forced toward the center of the scroll and the
gas pocket becomes compressed (figure 4 −3). When the
compressed gas reaches the center, it is discharged vertical­ly into a chamber and discharge port in the top of the com­pressor (figure1). The discharge pressure forcing down on
the top scroll helps seal off the upper and lower edges (tips) of
the scrolls (figure 3 ). During a single orbit, several pockets of
gas are compressed simultaneously providing smooth con­tinuous compression.
The scroll compressor is tolerant to the effects of liquid re­turn. If liquid enters the scrolls, the orbiting scroll is allowed
to separate from the stationary scroll. The liquid is worked
toward the center of the scroll and is discharged. If the com­pressor is replaced, conventional Lennox cleanup practices
must be used.
Due to its efficiency, the scroll compressor is capable of
drawing a much deeper vacuum than reciprocating com­pressors. Deep vacuum operation can cause internal fusite
arcing resulting in damaged internal parts and will result in
compressor failure. This type of damage can be detected
and will result in denial of warranty claims. The scroll com­pressor can be used to pump down refrigerant as long as
the pressure is not reduced below 7 psig.
The scroll compressors in all XC16 model units are de­signed for use with R410A refrigerant and operation at high
pressures. Compressors are shipped from the factory with
3MA (32MMMA) P.O.E. oil. See electrical section in this
manual for compressor specifications.

NOTE − During operation, the head of a scroll compressor
may be hot since it is in constant contact with discharge
gas.

Page 6

TWO−STAGE OPERATION

NOTE − During operation, the head of a scroll compressor
may be hot since it is in constant contact with discharge
gas.

The two−stage scroll compressor operates like any standard
scroll compressor with the exception the two−stage com­pressor modulates between first stage (low capacity
approximately 67%) and second stage (high capacity).
Modulation occurs when gas is bypassed through bypass
ports (figure 5 bypass ports open) in the first suction pocket.
This bypassing of gas allows the compressor to operate on
first stage (low capacity) if thermostat demand allows. In­door thermostat setting will determine first or second stage

operation. The compressor will operate on first−stage until
demand is satisfied or the indoor temperature reaches the
thermostat set point calling for second−stage.

Second−stage (high capacity) is achieved by blocking the
bypass ports (figure 5 bypass ports closed) with a slider ring.
The slider ring begins in the open position and is controlled
by a 24VDC internal solenoid. On a Y2 call the internal sole­noid closes the slider ring, blocking the bypass ports and
bringing the compressor to high capacity. Two−stage modu­lation can occur during a single thermostat demand as the
motor runs continuously while the compressor modulates
from first−stage to second− stage.

FIGURE 4

SCROLL

HOW A SCROLL WORKS

SUCTION

SUCTION

SUCTION

MOVEMENT OF ORBIT

STATIONARY SCROLL

ORBITING

CRESCENT

SHAPED GAS

POCKET

HIGH

PRESSURE

GAS

DISCHARGE

POCKET

FLANKS

SEALED BY

CENTRIFUGAL

FORCE

12

3

4

SUCTION

INTERMEDIATE

PRESSURE

GAS

SUCTION

POCKET

FIGURE 5

Bypass Ports

Closed

High Capacity

Bypass Ports

Open

67% Capacity

TWO STAGE MODULATION