Emerson Commercial Residential Solutions Condensing Units for Indoor Refrigeration Applications Instruction Manual

Instruction Manual for Emerson Commercial Residential Solutions models including: Condensing Units for Indoor Refrigeration Applications, ZXDI Range

Application Guidelines | 1 Safety instructions

Detailed instructions can be found in chapter 2.10.4 "Additional features for customization" hereunder. Discharge temperature protection: Each unit is equipped with a discharge line...

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Application Guidelines
CopelandTM Condensing Units for Indoor Refrigeration Applications ZXDI Range

About these guidelines ................................................................................................ 1

Safety instructions ............................................................................................ 1

1.1 Icon explanation ................................................................................................................. 1

1.2 Safety statements .............................................................................................................. 1

1.3 General instructions ........................................................................................................... 2

Product description .......................................................................................... 3

2.1 General information about CopelandTM ZXDI condensing units........................................3 2.2 EU Ecodesign Directive 2009/125/EC ............................................................................... 3

2.3 Product range .................................................................................................................... 3

2.4 Dimensions in mm ............................................................................................................. 3

2.5 Product nameplate ............................................................................................................. 4

2.6 Nomenclature.....................................................................................................................4

2.7 Application range ............................................................................................................... 4

2.7.1 Qualified refrigerants and oils ................................................................................ 4

2.7.2 Application limits.....................................................................................................4

2.8 Bill of material .................................................................................................................... 5

2.9 P&I diagram for ZXDI units ................................................................................................ 5

2.10 Main components description ............................................................................................ 6

2.10.1 Compressor ............................................................................................................ 6

2.10.2 Condenser fans ...................................................................................................... 6

2.10.3 Housing .................................................................................................................. 7

2.11 XCM25D Electronic controller Features ......................................................................... 8 2.11.1 Description ............................................................................................................. 8

2.11.2 Functionality ........................................................................................................... 8

2.11.3 Main control & safety features................................................................................9

2.11.4 Additional features for customization ................................................................... 10

2.12 XCM25D Electronic controller Programming ................................................................ 12 2.12.1 Programming the local display ............................................................................. 12

2.12.2 Remote display CCM60 ....................................................................................... 13

2.12.3 Single commands ................................................................................................. 14 2.12.4 Double commands Entering programming level 1 "Pr1" ...................................14

2.12.5 How to program the parameters (Pr1 and Pr2)....................................................14

2.12.6 Entering programming level 2 "Pr2" .....................................................................15

2.12.7 Fast access menu ................................................................................................ 15

2.13 Controller keyboard..........................................................................................................15

2.13.1 How to lock the keyboard ..................................................................................... 15

2.13.2 How to unlock the keyboard .................................................................................16

2.14 Parameters level 1 Required settings ........................................................................... 16

2.15 Digital operation ............................................................................................................... 16

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2.16 Reset to factory settings Emerson "Hot Key" ............................................................... 17 2.16.1 How to save factory settings or user settings ...................................................... 17 2.16.2 Emerson "Hot Key" for ZXDI units with XCM25D controller ................................ 17 2.16.3 Location of the "Hot Key" plug connection on the XCM25D controller ................18

2.16.4 How to program a "Hot Key" from the controller (upload) ....................................18

2.16.5 How to program a controller using an Emerson "Hot Key" (download) ............... 18

2.17 Troubleshooting Alarm history ...................................................................................... 19 2.18 Compressor motor protection .......................................................................................... 19 2.19 System pressure protection ............................................................................................. 20
2.19.1 High-pressure safety switch .................................................................................20 2.19.2 High pressure: pressure relief valve.....................................................................20 2.19.3 Low-pressure safety switch Optional ................................................................ 20

2.19.4 Ambient temperature sensor ................................................................................ 20

2.20 Alarm output (DO5) of the XCM25D controller ................................................................20

2.21 Fan speed control Ziehl-Abegg PKE-6 controller .........................................................20

Installation ....................................................................................................... 22

3.1 Condensing unit handling ................................................................................................ 22

3.1.1 Transport and storage .......................................................................................... 22

3.1.2 Weights.................................................................................................................22

3.2 Electrical connection ........................................................................................................23 3.2.1 Power supply connections....................................................................................23 3.2.2 Maximum operating currents for cable selection ................................................. 23

3.2.3 Electrical wiring ....................................................................................................23

3.2.4 Electrical protection standard (protection class) ..................................................23

3.2.5 Overload protection .............................................................................................. 23

3.3 Refrigeration piping connections .....................................................................................24 3.3.1 Refrigeration piping installation ............................................................................ 24

3.3.2 Brazing recommendations....................................................................................25 3.3.3 Brazing procedure ................................................................................................ 25

3.4 Location & fixings ............................................................................................................. 26

3.5 Air ducts connection.........................................................................................................27

Start-up & operation........................................................................................ 28

4.1 Evacuation ....................................................................................................................... 28 4.2 Charging procedure ......................................................................................................... 28

4.2.1 Refrigerant charging procedure ........................................................................... 28

4.2.2 Oil charging procedure ......................................................................................... 29

4.2.3 Oil separator ......................................................................................................... 29

4.3 Rotation direction of scroll compressors ..........................................................................29 4.4 Maximum compressor cycle ............................................................................................ 29 4.5 Checks before starting & during operation ...................................................................... 30

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Maintenance & repair ...................................................................................... 31

5.1 Replacing a compressor .................................................................................................. 31

5.2 Condenser fins ................................................................................................................. 31

5.3 Electrical connections ......................................................................................................31

5.4 Routine leak testing ......................................................................................................... 32

5.5 Condenser fans & motors ................................................................................................ 32

Certification & approval .................................................................................. 32

Dismantling & disposal................................................................................... 32

DISCLAIMER ............................................................................................................... 32

Appendix 1: Overview of the ZXDI indoor unit components.................................... 33

Appendix 2: Wiring diagram ZXDI units (380-420 V / 3 Ph / 50 Hz) ....................... 34 Appendix 3: Parameter list level 1 (Pr1) .................................................................... 35

Appendix 4: Alarm menu............................................................................................ 36

Appendix 5: Additional features for customization.................................................. 41

Appendix 6: Temperature / resistance curve for B7 Sensor (customer option) ..... 43

Appendix 7: List of tables and figures ...................................................................... 44

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About these guidelines
The purpose of these application guidelines is to provide guidance in the application of CopelandTM ZXDI condensing units. They are intended to answer the questions raised while designing, assembling and operating a system with these products.
Besides the support they provide, the instructions listed herein are also critical for the proper and safe functioning of the condensing units. The performance and reliability of the product may be impacted if the product is not used according to these guidelines or is misused.
These application guidelines cover stationary applications only. For mobile applications, contact Application Engineering as other considerations may apply.

1 Safety instructions
CopelandTM ZXDI condensing units for indoor refrigeration applications are manufactured according to the latest European safety standards. Particular emphasis has been placed on the user's safety.
These condensing units are intended for installation in machines and systems according to the Machinery directive MD 2006/42/EC. They may be put to service only if they have been installed in these systems according to instructions and conform to the corresponding provisions of legislation. For relevant standards please refer to the Manufacturer's Declaration, available at www.climate.emerson.com/en-gb.
These instructions should be retained throughout the lifetime of both the compressor and the condensing unit.
You are strongly advised to follow these safety instructions.

1.1 Icon explanation
WARNING This icon indicates instructions to avoid personal injury and material damage. High voltage This icon indicates operations with a danger of electric shock.
Danger of burning or frost burn This icon indicates operations with a danger of burning or frost burn. Explosion hazard This icon indicates operations with a danger of explosion.

NOTE

WARNING This icon indicates operation with possible personal injury due to uncovered rotating parts. CAUTION This icon indicates instructions to avoid property damage and possible personal injury. IMPORTANT This icon indicates instructions to avoid malfunction of the compressor.
This word indicates a recommendation for easier operation.

1.2 Safety statements
Refrigerant compressors must be used in accordance with their intended use. Only qualified and authorized HVAC or refrigeration personnel are permitted to install,
commission and maintain this equipment. Electrical connections must be made by qualified electrical personnel. All valid standards for connecting electrical and refrigeration equipment must be observed. The national legislation and regulations regarding personnel protection must be observed.

Use personal safety equipment. Safety goggles, gloves, protective clothing, safety boots and hard hats should be worn where necessary.

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1.3 General instructions
WARNING System breakdown! Personal injuries! Never install a system in the field and leave it unattended when it has no charge, a holding charge, or with the service valves closed without electrically locking out the system. System breakdown! Personal injuries! Only approved refrigerants and refrigeration oils must be used.
WARNING High shell temperature! Burning! Do not touch the compressor until it has cooled down. Ensure that other materials in the area of the compressor do not get in touch with it. Lock and mark accessible sections.
WARNING Uncovered rotating parts! No safety grids on the condenser fans! Personal injuries! Never start the condensing unit or run the fans with no air ducts connected or without protective end-grids on the air outlets.
CAUTION Overheating! Bearing damage! Do not operate compressors without refrigerant charge or without being connected to the system.
CAUTION Contact with POE! Material damage! POE lubricant must be handled carefully and the proper protective equipment (gloves, eye protection, etc.) must be used at all times. POE must not come into contact with any surface or material that it might damage, including without limitation, certain polymers, eg, PVC/CPVC and polycarbonate.
IMPORTANT Transit damage! Unit malfunction! Use original packaging. Avoid collisions and tilting.
IMPORTANT This appliance is not designed to be accessible to the general public according to IEC 60335-2-40.
The contractor is responsible for the installation of the unit and should check the following points:
Sufficient liquid sub-cooling in the line to the expansion valve(s) to avoid "flash-gas" in the liquid line; Sufficient amount of oil in the compressor (in case of long piping additional oil must be charged).

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2 Product description
2.1 General information about CopelandTM ZXDI condensing units
Emerson has developed the CopelandTM ZXDI condensing unit for indoor applications to meet primarily the demands of the food retail and food service sectors. It is a refrigeration air-cooled condensing unit that uses the latest CopelandTM brand products patented scroll technology as the main driver and has electronic protection and diagnostics features built in the compact chassis. The combination of large condensers and low speed fans allows for particularly quiet operation.
2.2 EU Ecodesign Directive 2009/125/EC
The European Directive 2009/125/EC with regard to Ecodesign requirements for professional refrigerated storage cabinets, blast cabinets, condensing units and process chillers requires manufacturers to decrease the energy consumption of their products by establishing minimum energy efficiency standards. CopelandTM brand products condensing units are prepared and optimized to meet the requirements of the Ecodesign Directive. The integrated variable speed fan and condenser reduce the noise level and energy consumption significantly. This, combined with Copeland scroll technology, allows for high-efficiency operation.
For the rated cooling capacity, rated power input and rated COP value please refer to CopelandTM brand products Select software at www.climate.emerson.com/en-gb.
These guidelines meet the requirements of Regulation 2015/1095, Annex V, section 2(a), with regard to product information, namely:
(v) See chapter 2.7 "Application range" (vi) See chapters 5.2 "Condenser fins" and 5.4 "Routine leak testing" (vii) See chapters 2.11.3 "Main control & safety features" and 4.2 "Charging procedure" (viii) See chapter 7 "Dismantling & disposal"
2.3 Product range
Copeland ZXDI condensing units are released for multiple refrigerants. They are available in one cabinet size and are equipped with two fans. They are designed for medium temperature refrigeration applications.
2.4 Dimensions in mm
The figures hereafter show the overall physical dimensions of the ZXDI indoor condensing units:

Figure 1: Dimensions of ZXDI condensing units (all models)

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2.5 Product nameplate
The condensing unit nameplate shows model designation and serial number, as well as locked rotor amps, maximum operating current, safety pressures and weight. The compressor has its own nameplate with all electrical characteristics.
2.6 Nomenclature
The model designation contains the following technical information about the condensing unit:

Figure 2: Nomenclature ZXDI units

2.7 Application range

2.7.1 Qualified refrigerants and oils

Qualified refrigerants Qualified servicing oils
Oil charge in litres

R404A, R407A, R407F, R448A, R449A

R134a, R450A, R513A

Emkarate RL 32 3MAF

Mobil EAL Arctic 22CC

ZXDI050E

ZXDI040E

ZXDI060E

ZXDI075E

1.36

1.89

Table 1: Qualified refrigerants and oils

WARNING
Use of R450A and R513A refrigerants! Risk of compressor damage!
Migration of R450A or R513A into the compressor crankcase could cause low
oil viscosity, which could lead to compressor damage. When using R450A or
R513A it is critical to meet the following requirements: maintain adequate superheat settings with a minimum superheat of 8-10 K; no liquid refrigerant migration into the compressor at any time, especially
during standstill, during or after defrost, or after reverse mode for example
in heat pumps; pump-down is not recommended; the use of a crankcase heater is mandatory; retrofit to R450A and R513A is only allowed for compressors which are
approved for these refrigerants.
Contact your local Application Engineering representative for any further
information.

NOTE: The ZXDI units are equipped with an oil separator. This separator is pre-charged with 0.5 liter of oil.

2.7.2 Application limits

For application envelopes, please refer to the compressor application envelopes which can be found in CopelandTM brand products Select software, available at www.climate.emerson.com/en-gb.

ZXDI indoor condensing units can be used at ambient temperatures from -15 to 45 °C. For lower ambient

temperatures please contact your local Application Engineering representative.

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2.8 Bill of material

BOM

Family

Introduction date

554

ZXDI

Jan 2018

Table 2: BOM

2.9 P&I diagram for ZXDI units

Controller concept
XCM25D (Emerson - Dixell)

Oil separator
Yes

Suction accumulator
No

Figure 3: P&I diagram for ZXDI units

Position Description

Comments

1 (M1) High-efficient Copeland scroll ZBD compressor

Oil separator

Pre-charged with 0.5 L

3 (M2) Condenser with 2 fans

Liquid receiver with service valve

Filter drier / sight glass combination

Service valve, liquid line

Service valve, suction line

PSL (S2) Adjustable low-pressure switch (not factory mounted) System safety (option)

PSH (S1) Non-adjustable high-pressure switch

System safety

PTL (B1) Pressure sensor, low pressure

Compressor setpoint

PTH (B2) Pressure sensor, high pressure

Fan speed control

TT1 (B3) Discharge temperature sensor

Compressor safety

TT2 (B6) Ambient temperature sensor

Additional functions

Table 3: Legend of the P&I diagram for ZXDI units

Fast access menu
P1P P2P P3t P6t

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2.10 Main components description
2.10.1 Compressor

Condensing Compressor model Compressor

unit

(Digital)

LRA (A)

ZXDI040E

ZBD29KQE-TFD

ZXDI050E

ZBD38KQE-TFD

ZXDI060E

ZBD45KQE-TFD

ZXDI075E

ZBD48KQE-TFD

100

* MOC = Maximum Operating Current

Table 4: Cross-reference table units/compressor models

Compressor MOC* (A) 7.9 11.3 11.4 14

Unit rated current (A)
11.3 14.7 14.8 17.4

2.10.2 Condenser fans

WARNING Uncovered rotating parts! No safety grids on the condenser fans! Person injuries! Never start the condensing unit or run the fans with no air duc connected or without protective end-grids on the air outlets.

The condensers of the ZXDI condensing units are equipped with single-phase fans.

Condensing unit

Nr. of fans (pcs)

Fan blade Weight per

diameter

1 fan

(mm)

(kg)

ZXDI040E

ZXDI050E 2
ZXDI060E

450

~12

ZXDI075E

Table 5: Condenser fan technical data

Maximum

Power

current consumption

@ 100 % per @ 100 % per

1 fan (A)

1 fan (W)

1.7

375

Figure 4: Fan details and dimensions 6

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Figure 5: Fan bracket details
2.10.3 Housing
Copeland ZXDI indoor condensing units have the following housing features:
Controller-window in front of the cabinet door. The window is IP54 and shows the current value of the electronic controller.
The main power switch is installed on the cabinet door and allows to de-energize the unit without opening the door. To open the door the main power switch must be in off position.
The quick-locks allow for easy and quick opening of the cabinet door by means of the cabinet key. The cabinet key is delivered with the unit. It is attached to one of the piping connections by means
of a cable strap.

Figure 6: ZXDI unit housing

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2.11 XCM25D Electronic controller Features
The XCM25D controller is designed to be a powerful, flexible controller for use in multiple applications. It has been developed for ZXDI condensing units and allows the adjustment of all relevant parameters by the user.
2.11.1 Description
WARNING Electrical shock hazard! Serious personal injuries! There are unused faston pins (C1 & DO2) on the XCM25D which could be under voltage. They are covered by insulated fast-on flags in the factory. Handle carefully when removing insulating flags during service on site.
The controller is designed for usage in an indoor refrigeration unit. It is rated to be used for the following environment:
Outdoor controller ambient temperature for operation: -40 to 60 C Ambient temperature for storage: -40 to 80 C Maximum humidity: 90 % at 48 C (non-condensing) Board power: 24 VAC + 15 % / - 20 % Voltage sensing capabilities: three phase, 200-240, 380-460, 575 VAC ± 10 %
The units of measure are selectable. The factory default unit is bar (always considered relative) for pressure and °C for temperature.

Figure 7: Electronic controller
2.11.2 Functionality
The controller allows for easy commissioning by the technician with the factory settings at the highest program level. It also offers the possibility to make substantial changes to the system optimization in further programming levels. Advanced functionality can also be activated.
The following functions are covered by the controller: Condensing unit control Condenser fan control Voltage and current sensing (compressor protection) Digital compressor control
NOTE: The XCM25D controller on ZXDI units includes all the functions necessary for unit control. For additional functionalities please contact your local Application Engineering representative.

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Condenser fan control

Digital scroll control

Alarm management

Monitoring of the discharge line temperature

Electrical protection

Figure 8: XCM25D controller functionality overview
2.11.3 Main control & safety features
Suction pressure control: Each unit is equipped with a suction pressure transmitter. The XCM25D controls the suction pressure by evaluating the input signal of the pressure transmitter. When using a digital unit (ZXDI), the setpoint (C16/StC) and proportional band (C17/Pbd) need to be adjusted. The signal of the suction pressure transmitter is also used for additional functionalities and to keep the compressor running within the approved envelopes.
Condensing pressure control: Each unit is equipped with a high-pressure transmitter. The XCM25D controls the condensing pressure by regulating the fan speed corresponding to the high-pressure transmitter signal. The output signal of the unit controller to the fan speed controller is a 0-10 V signal.
The unit controller can regulate the condensing pressure in two ways. The first approach is to keep a constant condensing temperature. This mode is utilized by the factory settings. The pre-adjusted setpoint is 27 °C as a universal setting. If lower condensing pressure is required set up the condenser setpoint (E39/FSP) to a lower value.
The second control way is fan modulation based on the compressor envelope. This mode of setpoint control is only available if a suction pressure input is not used. The parameter (E38/FSM) enables/disables the mode as needed. If this function is unused, the condensing temperature setpoint will be set as a parameter (E39/FSP) value. The compressor is allowed to run at minimum condensing temperatures based on the suction pressure of the compressor. This is the most energy-efficient way to minimize the condensing temperature as much as possible.
NOTE: The fan speed controller is a Ziehl-Abegg PKE-6 controller. For more information please refer to Chapter 2.21 "Fan speed control Ziehl-Abegg PKE-6 controller" and to the fan speed controller user's guide part of the unit standard delivery.
Maximal condenser fans pressure difference: To provide the condenser with appropriate air flow the pressure drop for the fan must not exceed 60 Pa at 3500 m³/h per one fan. Additional components such as mufflers, flaps, protection grids, etc. must also be taken into account when designing the air ducts route as they will cause additional pressure drop.
The following table shows pressure drops at 3500 m³/h for most commonly used ducting components:

Spiral duct 500 mm Ventilation bow 90°, 500 mm

1 Pa/m

10 Pa

Table 6

Example: If 8 meters spiral duct and 3 bows 90° are required on the installation, then

1 Pa × 8 + 10 Pa x 3 = 8 Pa + 30 Pa = 38 Pa, so 38 Pa < 60 Pa.

Compressor phase reversal: Ensures that the compressor keeps running in one direction only
(clockwise = right rotation) necessary for a compliant scroll compressor to compress and pump refrigerant. Reset is automatic once the phase rotation is correct for the compressor.

Motor current overload protection: This feature eliminates the need for external current protection for the compressor motor.

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Fixed high-pressure switches: This is a non-adjustable protection device designed to prevent the compressor from operating outside of its safe high-pressure range. Reset is automatic for a set number of trips (7) then the unit will lock out and require manual restart. This feature is important to prevent the unit from cycling under these controls for a long period of time.
Cut-out: 28.8 bar Cut-in: 24 bar
Adjustable high-pressure limitation: The unit controller provides the possibility to stop the unit at a required discharge pressure which is lower than the cut-out value of the fixed high-pressure switch. Detailed instructions can be found in chapter 2.11.4 "Additional features for customization" hereunder.
Discharge temperature protection: Each unit is equipped with a discharge line sensor (NTC). The XCM25D controller will stop the compressor if discharge temperatures reach unacceptable levels.
Adjustable low-pressure alarm: The unit controller features an adjustable low-pressure alarm managed by the suction pressure sensor. This alarm has been factory-set at 0.5 bar(rel), ie, the lowest permitted pressure of the refrigerant with the lowest pressure-vapour properties. If needed the user can modify this value according to the required application.
Option: Adjustable low-pressure switches PS1: This device protects the system against lowpressure operation. It must be adjusted depending on running conditions and potential special requirements like pump-down. The compressor envelopes published in Select must be respected at all times. In case of controller breakdown, the low-pressure switch could be used for emergency operation (rewiring required).
A crankcase heater is directly connected to the controller. The crankcase heater will be energized when the ambient sensor is below a given value (10 °C) and the compressor has been off for a period of time (5 minutes). The minimum off time does not apply at initial power-up.
In addition to the above, the ZXDI indoor condensing unit has the following features:
Liquid line assembly (filter drier and sight glass/moisture indicator) Anti-corrosion treatment to the condenser fins
The electronic controller is also the base controller for the connection of many optional and customer supplied functions such as:
Main load controller Evaporator fan contactor Superheat controller for one electronic expansion device
2.11.4 Additional features for customization
A lot of additional features are provided by the XCM25D controller. In the European design of the electrical panel a few of the additional functionalities are prearranged and can easily be installed by connecting additional hardware to the electrical terminals. The tables in Appendix 5 show the parameters that have to be changed in case a special feature of the controller should be activated. The tables do not show the required settings which have to be done by the system operator, eg, choosing correct setpoints for different components and different applications.
NOTE: After programming an additional function, the system will have to be restarted. To engage system restart, switch off the main power supply, wait for 5 seconds and switch it on again.

Component

Description

Prearranged terminals / Wiring diagram

B12

Low-pressure switch, optional; can be ordered factory-installed.

Terminals: X1.2 / X1.7

Alarm contact

Sensor for evaporator or room

Terminals: X1.11 / X1.12

Sensor B7

Sensor for evaporator or room (NTC10k Terminals: X1.13 / X1.14

Table 7: Prearranged additional connections

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Alarm

B12

contact

Figure 9: Prearranged additional connections
NOTE: Depending on the required functionalities additional components might be necessary. Please contact your local Application Engineering representative. NOTE: Check the current limitations given by the controller relays. NOTE: The solenoid valve function is not available on ZXDI indoor units.

Digital output

Specifications

DO1, DO2 and DO3 DO3
DO4 and DO5

Relay SPDT 16A, 250V AC Relay SPST 8A, 250V AC Relay SPST 5A, 250V AC

Table 8: Digital output specifications

Adjustable discharge pressure limitation
The controller has dedicated parameters to provide the possibility of adjustable discharge pressure cutout.

Parameters ZXDE ZXDI

Description

Factory settings

Recommended settings

E58

AU2

Condenser temperature/pressure threshold for high alarm

Required value

E61

AH2

Condenser temperature/pressure threshold for alarm recovery

Required value

Table 9: Discharge pressure limitations

Low ambient operation
Very low ambient temperatures can result in malfunction of expansion devices because of insufficient pressure difference. Therefore, pressure cut-out during system start-up can occur. For proper operation of the expansion devices, the unit running time must allow to build up sufficient condensing pressure.

At low ambient conditions, the compressor will need to run for a minimum period of time to allow the system pressures to stabilize. If the unit operates below a defined ambient temperature (ambient temp. < C12/LAO) or if the ambient sensor has failed, the compressor should run for a set period of time (C14/LAS) when it is started based on a low suction reading.

The unit will be turned on for the minimum run time when the low-pressure input is closed.

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If the pressure drops below the cut-out value or the low-pressure input opens, the unit should continue to run for the remaining minimum on time (C14/LAS) or until a satisfactory condenser pressure is reached (C13/LAd).
If a suction pressure transducer is present and the suction pressure falls below a given value (C15/LAT) during the minimum on time (C14/LAS), then disregard the timer and shut the compressor off to protect against vacuum operation.
NOTE: For additional features please contact your local Application Engineering representative.
2.12 XCM25D Electronic controller Programming
CAUTION Low refrigerant charge! Compressor damage! Never energize the unit/controller without minimum refrigerant system charge. There is a risk of malfunction of the controller in deep vacuum operation which can cause compressor damage.
2.12.1 Programming the local display

Figure 10: Local display

LED

Mode On Flashing

On Flashing On Flashing On Flashing On Flashing

Function Compressor 1 enabled Anti-short cycle delay enabled
Condensing fans enabled
Bar display Programming mode PSI display Programming mode When browsing the service menu In fast access menu When browsing the alarm menu A new alarm occurred
An alarm is occurring

Digital unloader solenoid On

In defrost

Table 10: LED functions description
NOTE: By default, the local display will show the value of the suction pressure during operation. This can be changed by choosing another value for parameter B03/Lod (Remote Display visualization) see Table 11.

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Setting for B03/Lod 0 1 2 3 4 5 6 7 8

Value shown on the display
P1 value = Suction pressure P2 value = Mid-coil temperature (condenser) P3 value = Discharge line temperature P4 value = Vapour inlet EVI P5 value = Vapour outlet EVI P6 value = Ambient temperature P7 value = Not used in factory setting PEr value = Probe error Aou value = Analog output

Comments
Not applicable Not applicable

Table 11: Display visualisation

2.12.2 Remote display CCM60

The remote display CCM60 allows for remote monitoring and control of the XCM25D controller via cable. This device has the same interface as the unit controller therefore the commands and symbols are identical to those of the XCM25D controller. The remote display shall be mounted on a vertical panel, in a 29 x 71 mm hole, and secured using the special bracket supplied see Figure 11.

The temperature range allowed for correct operation is 0 to +60 °C.

Avoid places subject to strong vibrations, corrosive gases, excessive dirt or humidity. Allow for air to circulate through the cooling holes.

When front-mounted, the remote display is IP65 rated.

Figure 11: Remote display front panel mounting
The remote display is a proprietary bus of communication for Dixell HMI (x-rep, CCM60) interfaces. There are two connection terminals on the back of the remote display (+ and -). NOTE: Emerson recommends using a shielded cable twisted pair 2 x 0.5 mm². The device must be connected to the VNR-terminal on the unit controller according to the polarity. Figure 12 shows the VNR terminal on the unit controller.
VNR connection for remote display

Figure 12: VNR connection for the remote display

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Before connecting cables make sure the power supply complies with the hardware requirements. Separate the terminal cables from the power supply cables, the outputs and the power connections.
2.12.3 Single commands
Press the SET button to display the target setpoint. In programming mode, this allows to select a parameter or to confirm an operation. Press the RESET button and hold for 5 seconds to reset any lockouts if the current state of the controller allows for it to be reset. (UP) To view the fast access menu. In programming mode, this browses the parameter codes or increases the displayed value. (DOWN) In programming mode, this browses the parameter codes or decreases the displayed value.
(SERVICE) To enter the service and alarm menu.

Hold for 3 seconds to start a manual defrost or terminate an active defrost.

Table 12: Single commands
2.12.4 Double commands Entering programming level 1 "Pr1"

Press simultaneously for about 3 seconds to lock (PoF) or unlock (Pon) the keyboard. Press simultaneously to leave the programming mode or menu. On submenus rtC and EEV this combination allows to go back to the previous level. Press simultaneously for about 3 seconds to access the first level of programming mode.
Table 13: Double commands
The device provides 2 programming levels: Pr1 with direct access Pr2 protected with a password (intended for experts)

2.12.5 How to program the parameters (Pr1 and Pr2)

Access pre-program
level

Press simultaneously for about 3 seconds to access the preprogramming level. The message rtC (real-time clock) appears.

Access program level

Press the Up or Down key until the message Par appears.

Access Pr1

Press the SET button to enter the program level. First parameter appears.

Select item

Select the parameter or submenu using the arrows.

Show value

Press the SET button.

Modify

Use the arrows to modify the value.

Confirm and store

Press the SET button: the value will blink for 3 seconds, then the display will show the next parameter.

EXIT

Press simultaneously to exit the programming mode, or wait for 30 seconds (MTO) without pressing any key.

Table 14: Programming level 1 parameters

When entering the programming level for the first time the display will show the rtC (real-time clock) label.

Press

to access parameters N01/02/03/04/05 (Min/Hr/MdY/Mon/YEr) to adjust time & date. For

further details, see Chapter 2.14, "Parameters level 1 Required settings".

Press or to change from the rtC label to the Par label, in order to access programming level

Press : the parameters of programming level 1 can be changed.

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2.12.6 Entering programming level 2 "Pr2"

To enter the Pr2 programming menu:

Press

simultaneously for 3 seconds. The first parameter label will be displayed.

Press till the T18 label is displayed, then press the

key;

The blinking PaS label will be displayed; wait for a few seconds;

The display will show "0 - -" with blinking 0: insert the password [321] using the and

confirming with the

key.

keys and

2.12.7 Fast access menu
This menu contains the list of probes and some values that are automatically evaluated by the board such as the superheat and the percentage of valve opening. nP or noP stands for "probe not present" or "value not evaluated", Err means "value out of range", "probe damaged, not connected or incorrectly configured".

Entering fast access menu

Use the or
arrow to select

an entry, then

press

to see the value

or to go on with anothe

value.

Press and release the UP arrow. The duration of the menu in case of inactivity is 3 minutes. The values that will be displayed depend on the configuration of the board.
P1P: Pressure value of the P1 probe (suction pressure) P2t: Temperature value of the P2 probe (not valid) P2P: Pressure value of the P2 probe (discharge pressure) P3t: Temperature value of the P3 probe (discharge line temperature) P4t: Temperature value of the P4 probe (not applicable) P5t: Temperature value of the P5 probe (not applicable) P6t: Temperature value of the P6 probe (ambient temperature) P7t: Temperature value of the P7 probe (free) SH: Value of superheat. nA = not available oPP: Percentage of step valve opening. SEtd: Value of the dynamic setpoint (condenser fan SET). This information is available only if the dynamic setpoint function is enabled. AOO: Percentage of the analog output (0-10 V or TRIAC PWM Mod.). This information is available only if the 0-10 V or TRIAC PWM Mod. is enabled. dStO: Percentage of the PWM output driving the valve of the digital scroll compressor. L°t: Minimum room temperature H°t: Maximum room temperature HM: Menu tU1: Voltage reading V1 (not valid in standard configuration) tU2: Voltage reading V2 (not valid in standard configuration) tU3: Voltage reading V3 (not valid in standard configuration) tA1: Current reading I1 tA2: Current reading I2

Exit
Table 15: Fast access menu

Press simultaneously or wait for the timeout of about 60 seconds

2.13 Controller keyboard
2.13.1 How to lock the keyboard
Keep the and keys pressed simultaneously for more than 3 seconds. The "PoF" message will be displayed and the keyboard will be locked. At this point it is only possible to see the setpoint or the maximum or minimum temperatures stored. If a key is pressed for more than 3 seconds, the "PoF" message will be displayed.

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2.13.2 How to unlock the keyboard

Keep the and displayed.

keys pressed simultaneously for more than 3 seconds, till the "Pon" message is

2.14 Parameters level 1 Required settings
The XCM25D is preconfigured to reduce the required settings on job-site to a minimum. In most cases it will not be necessary to enter programming level 2 "Pr2". Table 16 gives an overview of the parameters available in programming level 1 "Pr1".
NOTE: When changing parameter C05 (LS) a reset of the controller (interruption of power supply) is required.

Parameters

Description

Unit

ZXDE ZXDI

C07

rEF

Refrigerant selection for regulation

C16 StC Digital compressor setpoint

bar

C17

Pbd

Proportional band for compressor regulation

bar

C21

tdG

Cycle time for digital compressor

sec

C24

PMi

Minimum capacity for digital compressor

C25

PMA

Maximum capacity for digital compressor

D29 LPA Low-pressure alarm value

bar

E39 FSP Condenser setpoint

°C

E46

Fbd

Regulation band of variable fan

°C

N01 Min Current minute

N02

Hr Current hour

N03 MdY Day of the month

N04 Mon Month

N05 YEr Year

T18 PAS Access to Pr2 level

Factory setting
R404A
3.3 2.0

Comments
R134a, R404A, R407A, R407F, R448A, R449A,
R450A, R513A

100

0.5 35.0

10.0

Password: 3 2 1

Table 16: Parameters in programming level Pr1

NOTE: The full list of parameters in programming level "Pr2" can be found Technical Information
TI_Unit_ZXDI_01 "CopelandTM ZXDI Condensing Units for Indoor Refrigeration Applications XCM25D Controller Parameter List".

2.15 Digital operation
A digital unit is able to operate in a part-load mode. Part-load operation is achieved by loading and unloading of the digital scroll compressor for certain periods of time (time cycles). The cycle of time can be chosen between 10 and 30 seconds. Example: if the time cycle is 20 seconds at 50 % of capacity request, the compressor will run for 10 seconds loaded and 10 seconds unloaded.
The regulation starts when the suction pressure (AI1) increases and reaches the value (SP-PB/2+(PB*PMI)/100) or (StC-Pbd/2+(Pbd*PMi)/100). Within the adjustment range (SP-PB/2~SP+PB/2) or (StC-Pbd/2 ~ StC+Pbd/2) the digital scroll compressor is activated in PWM mode in accordance with the value of the control variable.
When the pressure is higher than (SP+PB/2) or (StC+Pbd/2) then the TRIAC output is at maximum capacity. When the pressure is lower than (SP+PB/2) or (StC+Pbd/2) but higher than (SP-PB/2) the digital scroll compressor modulates the capacity according to the proportional band. If the pressure is lower than (SP-PB/2)/ (StC-Pbd/2) the digital scroll compressor switches off.

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For proper commissioning of the digital unit the following diagram must be considered:

Figure 13: Digital operation
NOTE: When the digital valve on the compressor is discharged, the compressor is loaded. NOTE: At start-up, the valve is energized for C20/Sut start-up time, ie, interval time with the digital valve energized before regulation starts. It ranges from 0 to 10 seconds.
2.16 Reset to factory settings Emerson "Hot Key"
2.16.1 How to save factory settings or user settings There is no way to reset the XCM25D controller to factory settings other than with additional equipment. Emerson recommends using the Emerson "Hot Key" (not part of the standard delivery) to save the factory settings at initial power up. The same hot key can also be used to save user settings. Thanks to a special programming software (Emerson Wizmate) and corresponding hardware (Emerson Prog-Tool), the user can: pre-program hot keys copy hot keys change parameter levels compare parameter lists For further information please visit our website at www.climate.emerson.com/en-gb or contact your local Application Engineering representative. 2.16.2 Emerson "Hot Key" for ZXDI units with XCM25D controller The Emerson "Hot Key" DK00000300 can be used for uploading and downloading of parameter lists. Copeland ident number 3226456.
Figure 14: Emerson "Hot Key"

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2.16.3 Location of the "Hot Key" plug connection on the XCM25D controller The "Hot Key" plug connection is located on the upper left corner of the XCM25D.
Figure 15: Location of "Hot Key" plug connection
2.16.4 How to program a "Hot Key" from the controller (upload) Program the controller with the front keypad. When the controller is on, insert the "Hot Key" and press the UP key; the "uPL" message appears
followed a by a flashing "End" label. Press the SET key and the "End" label will stop flashing. Turn the controller off, remove the "Hot Key" and then turn it on again. NOTE: The "Err" message appears in case of a failed programming operation. In this case push the key again if you want to restart the upload or remove the "Hot Key" to abort the operation. 2.16.5 How to program a controller using an Emerson "Hot Key" (download) Turn the controller off. Insert a pre-programmed "Hot Key" into the 5-pin receptacle and turn the controller on. The parameter list of the hot key will be automatically downloaded into the controller memory. The
"doL" message will blink followed a by a flashing "End" label. After 10 seconds the controller will restart working with the new parameters. Remove the "Hot Key". NOTE: The message "Err" is displayed in case of a failed programming operation. In this case turn the unit off, then on again if you want to restart the download, or remove the "Hot Key" to abort the operation.

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2.17 Troubleshooting Alarm history
The controller records the total number of alarm activations (max 50) in the alarm menu see Appendix 4.

Action Enter menu Waiting for action

Key or display SEC

Enter section list

Select active alarm code from list

Select the alarm to see the detailed rtC information

Select detailed

information from

active alarm list

Exit menu
Table 17: How to check the alarm list

Notes
Push and release the ALR key.
The menu to change the section will be entered. The alarm list section is active. Press SET to confirm. The following list will be available to select the proper network function. Scroll the list of active alarms by alarm number (letter + number, A01-A50). Press to see the alarm name or code. Press to see the next active alarm.

Enter the sub menu with alarm time details.

With the rtC activated: The Hur (hour) parameter is displayed. Press to see the alarm hour. Press : Min is displayed. Press to see the alarm minute. Press : dAy is displayed. Press to see the alarm day. Press : MOn is displayed. Press to see the alarm month. Press : YEA is displayed. Press to see the alarm year.

NOTE: The clock info indicates the START time of the alarm.

Without the rtC activated: The COn (hours) parameter is displayed. Press to see the compressor working hours.

To exit: press any key.

or wait for 15 seconds without pressing

Press

simultaneously or wait for about

10 seconds without pressing any key.

2.18 Compressor motor protection
The electronic controller protects the compressor motor against the following: over current phase loss incorrect phase rotation voltage imbalance
If the compressor motor current exceeds a predefined (non-adjustable) current limit, the electronic controller shuts the unit down and generates an error signal. For this function two of the main phase supply lines to the compressor (compressor via the contactor) are routed through the current sensors.

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2.19 System pressure protection
2.19.1 High-pressure safety switch
A high-pressure switch is registered by the electronic board. The sensing device is a non-adjustable, high-pressure switch that will open in the event of an abnormally high discharge pressure (cut-out 28.8 bar).
The unit will stop then and restart automatically after a 5-minute delay and after unit pressure has decreased to 24 bar.
After 7 successive high-pressure cut-outs over 1 hour, the unit will lock out. In this case a manual reset will be necessary.
2.19.2 High pressure: pressure relief valve
There is a connection port sideways on the top of the unit liquid receiver for a pressure relief valve. A 3/8"-NPT connection is used. The pressure relief valve is not factory-assembled.
2.19.3 Low-pressure safety switch Optional
In a way similar to the high-pressure sensor, the electronic controller registers the switching action of the adjustable low-pressure switch, which will open in the event of an abnormally low suction pressure:
The unit will stop then restart automatically after a 3-minute delay and when the unit reaches the cutin pressure level.
The unit is always equipped with a suction pressure transmitter which also takes care for protection against vacuum operation. The use of the optional low-pressure cut-out will provide the highest protection level for the unit. In rare instances of controller breakdown, the optional low-pressure switch would allow to run the unit in emergency mode.
2.19.4 Ambient temperature sensor
An ambient temperature sensor supplied by Emerson is connected to the electronic controller. This temperature sensor has several functionalities like emergency mode control, lower fan speed limitation and crankcase heater control. The sensor is located at the housing on the backside of the compressor compartment.

2.20 Alarm output (DO5) of the XCM25D controller
The digital output DO5 is pre-configured as an alarm contact. The relay (max. 5 A, 250 VAC) is activated in case of alarms and lock-outs. Warnings will be shown only on the controller display.

2.21 Fan speed control Ziehl-Abegg PKE-6 controller
The PKE-6 controller is used for continuous speed control adjustment on the variable voltage motor of the fan. The electrical protection class of the controller is IP54.
The output signal of the unit controller XCM25D to the fan speed controller PKE-6 is a 0-10 V digital signal. It has two main functions: fan speed control and temperature/pressure control of the condenser.
The fan speed factory setting is 100 %.
Depending on the characteristics of the connected air ducts, eg, presence of elbows, reductions, grids, and the level of noise produced, the fan speed can be adjusted to an appropriate value considering the expected unit performance and sound level.
A 10 µF start capacitor is required for each fan.

Fan speed

U (V)

Airflow

(rpm)

(W)

(m3/h)

100 %

230

1390

375

5352

98 %

206

1360

373

5237

95 %

190

1320

368

5083

87 %

170

1210

361

4659

71 %

150

985

332

3793

51 %

130

709

257

2730

37 %

110

514

178

1979

Table 18: Fan data based on changing frequency/fan speed 20

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Figure 16: PKE-6 Fan speed controller details and dimensions
NOTE: For more information about the fan speed controller and possible adjustments, please refer to the fan speed controller user's guide part of the unit standard delivery.

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3 Installation
WARNING High pressure! Injury to skin and eyes possible! Be careful when opening connections on a pressurized item.
Copeland ZXDI indoor condensing units are delivered with a holding charge of neutral gas.
The condensing unit should to be installed in a closed machine room. Soundproofing the machine room is highly recommended because of a potentially high sound production. The room characteristics must also be taken into account.
It is important to prevent any dirt, dust, plastic bags, leaves or papers from entering the air ducts and covering or blocking the condenser and its fins. Proper protective end-grids should be used for this purpose.
A clogged condenser will increase the condensing temperature, thus reducing the cooling capacity, which could lead to a high-pressure switch tripping. Clean the condenser fins on a regular basis.
The unit must be installed in such a way that the airflow through the connected air ducts is not restricted. The incoming air flow must be sufficient to cover the entire air needs of the unit.
3.1 Condensing unit handling
3.1.1 Transport and storage
WARNING Risk of collapse! Personal injuries! Move units only with appropriate mechanical or handling equipment according to weight. Keep in the upright position. Respect stacking loads according to Figure 17. Do not stack anything on top of the unit packaging. Keep the packaging dry at all times.
Respect the maximum number of identical packages which may be stacked on one another, where "n" is the limiting number: Transport: n = 1 Storage: n = 1

Figure 17: Maximum stacking loads for transport and storage
3.1.2 Weights

Condensing unit

Net weight* (kg)

ZXDI040E

138

ZXDI050E

142

ZXDI060E

146

ZXDI075E

152

* Product without packaging ** Product including packaging

Table 19: Weights

Gross weight** (kg) 154 158 162 168

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3.2 Electrical connection
3.2.1 Power supply connections
WARNING Electrical shock hazard! Serious personal injuries! There are unused fast-on pins (C1 & DO2) on the XCM25D which could be under voltage. They are covere by insulated fast-on flags in the factory. Handle carefully when removing insulati flags during service on site.

Copeland ZXDI indoor condensing units are designed for a 380-420 V / 3 Ph / 50 Hz power supply. A voltage tolerance of ± 10 % is acceptable.
The electrical connection of the condensing unit to the power supply must be made by qualified technicians according to the valid electrical directives, for instance DIN EN 60204-1. The voltage drop and the temperatures on line must also be considered for cable selection.
The circuit breaker must be switched off before opening the front door.
3.2.2 Maximum operating currents for cable selection

Condensing unit

Locked rotor

Rated unit current*

ZXDI040E-TFD

11.3 A

ZXDI050E-TFD

14.7 A

ZXDI060E-TFD

14.8 A

ZXDI075E-TFD

100

* At nominal voltage of 400 V

17.4 A

Table 20: Maximum operating currents for cable selection

3.2.3 Electrical wiring

Before commissioning, ensure that the neutral "N" and ground protection "PE" wires are connected to the main switch.

3.2.4 Electrical protection standard (protection class)

Units: IP class IPX4. Scroll compressors: IP21 according to IEC 34. Fan: IP44 according to IEC 34. Solenoid valve coils: IP65 according to DIN 43650.

3.2.5 Overload protection

WARNING Isolating switch "On"! Danger of electric shock! Before any intervention on the overload compressor protection, turn off the isolating switch to de-energize the unit.

Figure 18: Main switch & overload protection

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Condensing unit

Overload setting compressor MOC*

ZXDI-040E-TFD

7.9 A

ZXDI-050E-TFD

11.3 A

ZXDI-060E-TFD

11.4 A

ZXDI-075E-TFD

14 A

* MOC = Maximum Operating Current

Table 21: Overload protection details

Overload range
6 10 A 9 14 A 9 14 A 13 18 A

3.3 Refrigeration piping connections
3.3.1 Refrigeration piping installation
WARNING High pressure! Risk of personal injury! The units are pressurized with dry air. Be careful when opening connections on a pressurized item.

IMPORTANT Tubing quality! Installation contamination! All interconnecting piping should be of refrigeration grade, clean, dehydrated and must remain capped at both ends until installation. Even during installation, if the system is left for any reasonable period of time, eg, 2 hours, pipes should be re-capped to prevent moisture and contaminant from entering the system. Connection sizes! Unsuitable refrigerant flow rate! Do not assume that the service connection sizes on the unit (at the service valves) are in fact the correct size to run your interconnecting refrigeration pipes. The service valve sizes have been selected for convenience of installation and in some cases (larger units) these may be considered too small. However, for the very short pipe run within our units these service connection sizes are adequate. All interconnecting piping should be sized to satisfy the duty required.

The pipe should be sized to ensure optimum performance and good oil return. The sizing must also take into account the full capacity range through which this particular unit will need to operate.
Pipe runs should be kept as short as possible, using the minimum number of directional changes. Use large radius bends and avoid trapping of oil and refrigerant. This is particularly important for the suction line. The suction line should ideally slope gently towards the unit. Recommendation slope is 1/200 to 1/250. Upper and lower oil traps, double risers and reduced pipe diameters may be required for suction lines where long vertical risers cannot be avoided.
All pipes should be adequately supported to prevent sagging which can create oil traps. The recommended pipe clamp support distance is shown in Table 22 below:

Tube size

Max distance between 2 clamp supports

12.7 mm (1/2 inch)

1.20 m

16.0 mm (5/8 inch

1.50 m

22.0 mm (7/8 inch)

1.85 m

28.5 mm (1 1/8 inch)

2.20 m

Table 22: Maximum distance between 2 clamp supports

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3.3.2 Brazing recommendations
IMPORTANT Blockage! Compressor breakdown! Maintain a flow of oxygen-free nitrogen through the system at very low pressure during brazing. Nitrogen displaces the air and prevents the formation of copper oxides in the system. If allowed to form, the copper oxide material can later be swept through the system and block screens such as those protecting capillary tubes, thermal expansion valves, and accumulator oil return holes. Contamination or moisture! Bearing failure! Do not remove the plugs until the compressor is set into the unit. This minimises any entry of contaminants and moisture.
Remove the discharge connection cap. Remove the suction connection cap. Open both valves mid-way. Care should be taken to avoid the holding charge releasing too quickly. Be sure tube fitting inner surface and tube outer surface are clean prior to assembly. Both tubes are extended from the condensing unit housing, therefore we recommend to isolate the
housing by using a wet cloth on the copper tubing. Recommended brazing materials: a copper/phosphorous or copper/phosphorous/silver alloy rod
should be used for joining copper to copper whereas to join dissimilar or ferric metals a silver alloy rod either flux coated or with a separate flux would be used. Use a double-tipped torch.

Figure 19: Brazing Sectional view
3.3.3 Brazing procedure For brazing of the tubes, please refer to Figure 20 and procedure hereunder:

Fit the copper tube into the unit tube.

Heat area 1. As the tube approaches brazing

temperature,

Heat area 2 until braze temperature is attained. It is

necessary to heat the tube evenly. Move the torch up and

down and rotating around the tube.

Add braze material to the joint while moving the torch

Figure 20: Suction tube brazing areas

around the joint to flow braze material around the circumference.

Then heat area 3. This will draw the brazing material down into the joint.

NOTE: The time spent heating area 3 should be minimal. As with any brazed joint, overheating may be detrimental to the final result.

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To disconnect: Heat joint areas 2 and 3 slowly and uniformly until solder softens and tube can be pulled out of the
fitting.
To reconnect: See procedure above.
3.4 Location & fixings
IMPORTANT Dust and dirt contamination! Risk of unit lifetime reduction! The unit should always be installed in a location that ensures clean air flow. External fouling of the condenser fins also leads to high condensing temperatures and will reduce the lifetime of the unit.
It is recommended that a clearance of 300 mm from the wall of the room (or the next unit) be maintained from the unit left and rear panels whereas a clearance of 500 mm must be maintained from the unit right, top and front panels (seen facing the front of the unit) see Figure 21 below. Both service access and airflow through connected air ducts have been considered in making these recommendations.
Where multiple units are to be installed in the same room, the installer has to consider each individual case carefully. There can be many variations of unit quantities and available space and it is not the intention of this manual to go over these. However, in general terms, air by-pass around each condenser and between the units should be avoided at all times.
Ideally, the unit should be mounted level on a solid concrete slab with anti-vibration pads between unit feet and concrete. However, the ZXDI unit has also been designed for wall mounting on suitable brackets. In this case, it is equally important that the dimensional guidelines given above and in Figure 21 be followed. Wall mounting brackets are not part of the standard delivery.
Another factor to consider in finding a good installation site is the direction of the prevailing wind. For example, if the air leaving the condenser through the air ducts faces the prevailing wind, the air flow through the condenser can be impeded, causing high condensing temperatures and ultimately resulting in reducing the lifetime of the unit.

Figure 21: Fixing distances 26

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3.5 Air ducts connection
WARNING Uncovered rotating parts! No safety grids on the condenser fans! Personal injuries! Never start the condensing unit or run the fans with no air ducts connected or without protective end-grids on the air outlets.
The connection of the air ducts to the condensing unit has to be made based on standard rules for air distribution ducts. Duct connection dimensions are designed based on standard EN 1506-2007, which has to be taken into consideration for all air ducts dimensioning.
The foil must be removed from the condenser fan before connecting the air ducts.
The condensing units covered in these guidelines are prepared for connection to air ducts with a diameter of 500 mm.
Before commissioning and starting the unit, check the ducts for air leaks. Look for sections that should be joined but might be separated and for possible holes in the air channels.
Two values must be taken into consideration when designing a proper air duct route and selecting component parts, ie, the total pressure drop and the airflow.
The length of the air duct has little impact on the total pressure drop and the air-flow (pressure drop approx. 0.5-1 Pa/m). An air duct length of up to 5 meters has virtually no impact at all on pressure drop.
Elbows and other components such as diameter reductions on the air duct route have a much bigger influence on total pressure drop and air flow see Table 23 below.
Air duct diameter Ø 500 mm (connection to condenser per fan)
Total straight length (m) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
1 2 3 4
5 6
Table 23: Maximum acceptable air duct length depending on diameter and number of elbows
When taking into account all the fittings, the total linear length and additional components, the total pressure drop should be limited to 60 Pa per fan at 3500 m³/h. Please also refer to Chapter 2.11.3 "Main control & safety features".

Number of elbows

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4 Start-up & operation
WARNING Uncovered rotating parts! No safety grids on the condenser fans! Personal injuries! Never start the condensing unit or run the fans with no air ducts connected or without protective end-grids on the air outlets.
Before commissioning, ensure that all valves on the condensing unit are fully opened.
4.1 Evacuation
CAUTION System pressure below atmospheric pressure! Compressor damage! Never energize the unit/controller without minimum refrigerant system charge. There is a risk of malfunction of the controller in deep vacuum operation which can cause compressor damage.
IMPORTANT The evacuation procedure is based upon achieving an actual system vacuum standard and is NOT TIME DEPENDENT! The installation has to be evacuated with a vacuum pump before commissioning. Proper evacuation reduces residual moisture to 50 ppm. The installation of adequately sized access valves at the furthest point from the compressor in the suction and liquid lines is advisable. The system must be evacuated down to less than 3 mbar. If required break the vacuum with dry nitrogen. Pressure must be measured using a vacuum pressure gauge on the access valves and not on the vacuum pump. This serves to avoid incorrect measurements resulting from the pressure gradient along the connecting lines to the pump.
4.2 Charging procedure
4.2.1 Refrigerant charging procedure
IMPORTANT Inadequate charge! Overheating! The scroll compressor design requires system charging as quickly as possible with liquid refrigerant into the liquid line. This will avoid running the compressor under conditions whereby insufficient suction gas is available to cool not only the motor but also the scrolls. Temperature builds up very quickly in the scrolls if this is not done. Service valve closed! Compressor damage! Do not charge the unit with vapour (gas). The suction service valve must not be fully closed at any time when the compressor is running. To do so would cause damage to the compressor in the same manner as explained above. This valve is provided for ease of connection and for the fitting of service gauges without removing the unit panel.
Pre-charging must be done with liquid refrigerant through the service valve on the liquid line. It is advisable to pre-fill the suction side with a partial charge to avoid vacuum operation. Further charging can be done by carefully filling refrigerant through the suction line while simultaneously checking the sight glass.
NOTE: In order to meet the requirements of the Ecodesign Directive 2009/125/EC with regard to efficient system operation, ensure the refrigerant charge is sufficient.

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Service valves

Hexagone socket wrench

Valve covers Figure 22: Service valves for refrigerant charging

Schraeder valves

An additional Schraeder connection is fitted on the liquid line below the filter drier in the compressor chamber. It is also possible to use this connection for charging or servicing.
Recommendation is to break vacuum in the system with partial charge of refrigerant, then start the system.
For charge adjustment it is recommended to check the liquid sight glass just before the expansion valve.

Figure 23: Liquid line service port
4.2.2 Oil charging procedure Copeland ZXDI indoor condensing units are pre-charged with oil. After commissioning, the oil level should be checked and topped up if necessary. NOTE: The oil level should be approximately halfway up the sight glass. Emerson recommends charging with one of the following oil types: Emkarate RL 32 3MAF Mobil EAL Arctic 22 CC Charging is done through the Schraeder valve located on the suction valve. 4.2.3 Oil separator The ZXDI units are equipped with an oil separator. This separator is pre-charged with 0.5 liter of oil.
4.3 Rotation direction of scroll compressors
Scroll compressors, like several other types of compressors, will only compress in one rotational direction. Three-phase compressors are protected against wrong rotation field by the unit controller.
4.4 Maximum compressor cycle
Maximum permitted starts per hour: 10. The factory setting of the XCM25D system controller already takes into account the maximum permitted starts and stops of the compressor. It also controls the running time and the minimal downtime. It is recommended to change these settings only in exceptional cases.

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4.5 Checks before starting & during operation
IMPORTANT Liquid valves not fully opened! Liquid trap! Both valves should be fully opened on the liquid line, in order to avoid trapping liquid.
Check that all valves are fully opened. Set the essential parameters of the electronic controller in programming level 1 (refrigerant type,
compressor cut-out/cut-in settings, fan setpoint....) according to the required application. Emerson recommends to check the oil level in the compressor after starting and operation conditions
have stabilised, and to add oil if needed to ensure a sufficient oil level (halfway up the sight glass).

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5 Maintenance & repair

5.1 Replacing a compressor
CAUTION Inadequate lubrication! Bearing destruction! Exchange the accumulator after replacing a compressor with a burned-out motor. The accumulator oil return orifice or screen may be plugged with debris or may become plugged. This will result in starvation of oil to the new compressor and a second failure.

In the case of a motor burnout, the majority of contaminated oil will be removed with the compressor. The rest of the oil is cleaned through the use of suction and liquid line filter driers. A 100 % activated alumina suction line filter drier is recommended but must be removed after 72 hours. It is highly recommended to replace the suction accumulator, if the system contains one. This is because the accumulator oil return orifice or screen may be plugged with debris or may become plugged shortly after a compressor failure. This will result in starvation of oil to the replacement compressor and a second failure. When a compressor is exchanged in the field, it is possible that a major portion of the oil may still be in the system. While this may not affect the reliability of the replacement compressor, the extra oil will add to rotor drag and increase power usage.
De-energize the condensing unit before any intervention. Close valves to isolate the unit from the system. Recover the refrigerant from the unit and make sure that the compressor is not under pressure. Release the compressor mounting parts then lift it to replace with a new compressor.
NOTE: For more detailed instructions, please refer to the compressor application guidelines.

5.2 Condenser fins
CAUTION Acid cleaning! Corrosion of condenser fins! Do not use acidic solutions to clean the coil. After cleaning, the fins should be brushed lightly with a proper fin comb.
Condenser fins become dirty over time as ambient air is induced to the condenser. Dirty coil surfaces result in high condensing temperatures and poor unit performance. Regular cleaning is recommended, the frequency of doing so being dependent on the installation and the surrounding environment. As a general guide, it is advisable to do this at least once every two months.
As a general rule and for a clean environment we recommend the fins be cleaned with liquid detergent diluted with clean water. The ZXDI condensing unit has a well-designed chassis with falling levels towards a large drainage hole and provided the unit is installed level, any cleaning solution should be able to drain away. A light brush downward (in the direction of the fins) should be done before washing to remove heavy deposits.
NOTE: In order to meet the requirements of the Ecodesign Directive 2009/125/EC with regard to efficient system operation, ensure the heat exchangers remain clean at all times.

5.3 Electrical connections
WARNING Isolating switch "On"! Danger of electric shock! Before undertaking any task on electrical equipment, turn off the main power supply to de-energise the unit.

All condensing units will generate some degree of vibration. Copeland ZXDI indoor condensing units are no exception. However, the vibration level from the compliant scroll technology is less severe than in units using reciprocating compressor technology. Thanks to this reduced vibration, ZXDI units can be mounted on simple, less expensive rubber mounting pads.

Nevertheless, over time, due to these slight vibrations and to temperature fluctuations within the unit housing, electrical terminations might become loose. The components most likely to be affected are the main terminal strip and the compressor contactor. It is suggested to check the main electrical terminations for tightness and to carry out a visual inspection of the low voltage crimped terminals at least once every 6 months.

AGL_Unit_ZXDI_E_Rev02

5.4 Routine leak testing
All joints inside the system should be leak-tested as part of a regular maintenance schedule.
NOTE: In order to meet the requirements of the Ecodesign Directive 2009/125/EC with regard to efficient system operation, ensure the refrigerant and oil charges are sufficient.

5.5 Condenser fans & motors
A yearly inspection of these items is recommended. Fastenings can become loose, bearings may wear and fans may require cleaning of solid deposits that can cause rotational imbalance. Motors come with lifelong lubrication bearings that do not require lubricating on a routine basis, but just need to be checked for wear.
In case the fan(s) need(s) to be replaced or serviced, follow the steps below: De-energize the condensing unit before any intervention. Remove the top cover of the unit. Disconnect the air ducts from the fans in order to be able to access the unit front panel. Remove the entire front panel of the unit to access the condenser fans. Replace/service the fan(s).

6 Certification & approval
Copeland ZXDI indoor condensing units comply with the Low Voltage Directive LVD 2014/35/EU. The applied harmonised standard is EN 60335 (Household and similar electrical appliances Safety, Part 1: General Requirements and Part 2-89: Particular requirements for commercial refrigerating appliances with an incorporated or remote refrigerant condensing unit or compressor).
The condensing units and their piping comply with the Pressure Equipment Directive PED 2014/68/EU (Art.4 §3 - Sound Engineering Practice).
The condensing units and their components are CE marked as far as required and thereby establish conformity with the relevant directives.
Conformity Declarations for components are available as far as required. The Manufacturer's Declaration of Incorporation has to be respected when incorporating these
products into a machine.

7 Dismantling & disposal

Removing oil and refrigerant:

Do not disperse in the environment.

Use the correct equipment and method of removal.

Dispose of oil and refrigerant in compliance with national legislation and

regulations.

Dispose of compressor and/or unit in compliance with national legislation and regulations.

DISCLAIMER
1. The contents of this publication are presented for informational purposes only and are not to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability.
2. Emerson Climate Technologies GmbH and/or its affiliates (collectively "Emerson"), as applicable, reserve the right to modify the design or specifications of such products at any time without notice.
3. Emerson does not assume responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use and maintenance of any Emerson product remains solely with the purchaser or end user.
4. Emerson does not assume responsibility for possible typographic errors contained in this publication.

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Appendix 1: Overview of the ZXDI indoor unit components

Components
Compressor M1 Fan M2.1 Fan M2.2 Y1 Stepper valve EVI Y3 Stepper valve liquid Y2 DGS solenoid valve E1 Crankcase heater S3 Room thermostat (optional) B1 Pressure transducer suction B2 Pressure transducer discharge B3 DLT NTC discharge B4 EVI vapour in sensor NTC B5 EVI vapour out sensor NTC B6 Ambient temperature sensor NTC B7 Temperature sensor (optional) B11 High-pressure switch B12 Low-pressure switch
Table 24: Overview of the ZXDI indoor unit components

Digital ZXDI

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Appendix 2: Wiring diagram ZXDI units (380-420 V / 3 Ph / 50 Hz)

Figure 24: Wiring diagram 3-Phase motor 34

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Appendix 3: Parameter list level 1 (Pr1)

Legend L1 = Parameter in Level 1 (without password) L2 = Parameter in Level 2 (with password = 3 2 1) N.V. = Parameter not accessible
NOTE: When changing parameter C05 (LS) a reset of the controller (interruption of power supply) is required.

Parameters

ZXDE

ZXDI

Description

C07

rEF Refrigerant selection for regulation

C16

StC Digital compressor setpoint

C17

Pbd Proportional band for compressor regulation

C21

tdG Cycle time for digital compressor

C24

PMi Minimum capacity for digital compressor

C25

PMA Maximum capacity for digital compressor

D29

LPA Low-pressure alarm value

E39

FSP

Condenser temperature setpoint when fan setpoint modulation is disabled

E46

Fbd Regulation band of variable fan

N01

Min Current minute

N02

Hr Current hour

N03

MdY Date of month

N04

Mon Month

N05

YEr Year

T18

PAS Access to Pr2 level

Table 25: Parameters level 1

Range
R404A (0-404) - R507 (1-507) R134a (2-134) - R22 (3-R22) R407C (4-07C) - R407A (5-07A) R407F (6-07F) R448A (7-48A) R449A (8-49A) - R410A (9-410) LS to US; C03 to C04 0.1 to 9.9 bar; 0.1 to 99.9 PSI; 1 to 999 KPA; 0.1 to 25.5 °C 10 to 40 sec 0 to PMA; 0 to C25 PMi to 100; C24 to 100 0 to 15 bar
-40 to 110 °C
0.1 to 25.5 °C 0 to 59 0 to 23 1 to 31 1 to 12 0 to 99 (0÷999)

Level
L1
L1 L1 L1 L1 L1 L1 L1 L1 L1 L1 L1 L1 L1 L1

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Appendix 4: Alarm menu

Code Description

Cause

Action

Reset

Only in digital unit - compressor is

E01

AI1 error (Probe 1/Suction pressure Probe failure or out of activated according to C23, and

Automatically as soon as the probe restarts

transducer failure alarm)

range

compressor on & off time is according working

to D02 & D03

E02

AI2 error (Probe 2/mid-coil temperature sensor failure alarm)

Probe failure or out of range

The fan speed control is disabled