XR70T Full Touch

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Product Information

Specifications

• Model: XR70T

• Controller Type: Microprocessor-based

• Applications: Medium or low temperature ventilated
  refrigeration units

• Outputs: 4 relay outputs for compressor, fans, light, defrost
  or auxiliary

• Probe Inputs: Up to 4 NTC, PTC, or PT1000 inputs

• Digital Inputs: Up to 2 configurable inputs

• User Interface: Capacitive with Full Touch technology

Product Usage Instructions

1. Important User Information

Ensure the following precautions are taken:

• Avoid contact with water, humidity, or liquids to prevent
  damage to electronic circuits.

• Avoid installation in hot environments to prevent damage to
  electronic components.

• Do not open the device; contact qualified service personnel for
  assistance.

• Avoid dropping, knocking, or shaking the device to prevent
  irreparable damage.

• Do not clean with corrosive chemicals or aggressive
  detergents.

• Use the device only for specified applications.

2. Product Disposal (WEEE)

Follow the environmental guidelines for product disposal as per
Directive 2002/96/EC.

3. Generalities

The XR70T is designed for controlling refrigeration units with
relay outputs and probe inputs. It features Full Touch technology
for easy programming.

4. User Interface

The XR70T has a capacitive user interface with Full Touch
technology. Specific gestures are used to interact with the device
and navigate through screens.

Screens:

• Home: Displays temperature, unit, and active
  alarms.

• Virtual Keyboard: Shows available functions
  with blinking activated function.

• Info: Displays activated functions and
  regulation outputs.

• Programming Mode: Enables modification of set
  points or parameters.

• Setpoint Menu: Allows modification of set
  point value.

• Parameter Menu: Enables modification of
  parameter values.

Frequently Asked Questions (FAQ)

Q: Can I use the XR70T controller for high-temperature

applications?

A: No, the XR70T is suitable for medium or low temperature
applications only as specified in the manual.

Q: How do I reset the XR70T controller?

A: To reset the controller, refer to the manual for specific
instructions or contact qualified service personnel.

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XR70T ­ Full Touch
(V.1.0)

INDEX
1. IMPORTANT USER INFORMATION ……………………………………………………………………………………………………………………………………………………. 5 2. PRODUCT DISPOSAL (WEEE) ……………………………………………………………………………………………………………………………………………………………. 6 3. GENERALITIES ……………………………………………………………………………………………………………………………………………………………………………….. 7 4. USER INTERFACE ……………………………………………………………………………………………………………………………………………………………………………. 7
4.1 SCREENS ………………………………………………………………………………………………………………………………………………………………………………. 7 4.2 ICONS ………………………………………………………………………………………………………………………………………………………………………………….. 8 4.3 GESTURES…………………………………………………………………………………………………………………………………………………………………………… 10 4.4 HOME BROWSING ……………………………………………………………………………………………………………………………………………………………….. 10 4.5 STAND-BY MODE …………………………………………………………………………………………………………………………………………………………………. 10 4.6 PROGRAMMING MENU………………………………………………………………………………………………………………………………………………………… 10 4.7 SETPOINT MENU …………………………………………………………………………………………………………………………………………………………………. 11 4.8 HOTKEY ­ UPLOAD ………………………………………………………………………………………………………………………………………………………………. 11 4.9 HOTKEY ­ DOWNLOAD …………………………………………………………………………………………………………………………………………………………. 11 4.10 PARAMETER MENU ……………………………………………………………………………………………………………………………………………………………… 12 4.11 PASSWORD MENU……………………………………………………………………………………………………………………………………………………………….. 12 5. PARAMETER TABLE ………………………………………………………………………………………………………………………………………………………………………. 13 5.1 PARAMETER DESCRIPTION ……………………………………………………………………………………………………………………………………………………. 13
5.1.1 Main regulation parameters – rEG……………………………………………………………………………………………………………………………………… 13 5.1.2 Probe configuration parameters ­ Prb ……………………………………………………………………………………………………………………………….. 13 5.1.3 Visualization parameters – diS …………………………………………………………………………………………………………………………………………… 13 5.1.4 Defrost configuration parameters – dEF ……………………………………………………………………………………………………………………………… 14 5.1.5 Evaporator and condenser fan configuration parameters – FAn……………………………………………………………………………………………… 14 5.1.6 Auxiliary regulator parameters – AUS…………………………………………………………………………………………………………………………………. 15 5.1.7 Alarm configuration parameters ……………………………………………………………………………………………………………………………………….. 15 5.1.8 Digital and analogue output configuration parameters – out…………………………………………………………………………………………………. 16 5.1.9 Digital input configuration parameters – inP ……………………………………………………………………………………………………………………….. 16 5.1.10 Energy saving configuration parameters – ES ………………………………………………………………………………………………………………….. 17 5.1.11 Counters, read only values – Cnt ……………………………………………………………………………………………………………………………………. 17 5.1.12 Real Time Clock configuration parameters – rtC ………………………………………………………………………………………………………………. 18 5.1.13 Memory storage management ­ E2 ………………………………………………………………………………………………………………………………. 18 5.1.14 Serial Communication port configuration parameters – CoM …………………………………………………………………………………………….. 18 5.1.15 User Interface configuration parameters – Ui ………………………………………………………………………………………………………………….. 18 5.1.16 Information, read only parameters – inF…………………………………………………………………………………………………………………………. 18 5.2 PARAMETER CONFIGURATION 1 ……………………………………………………………………………………………………………………………………………. 19 5.3 PARAMETER CONFIGURATION 2 ……………………………………………………………………………………………………………………………………………. 24 6. REGULATION ……………………………………………………………………………………………………………………………………………………………………………….. 29 7. ENERGY SAVING…………………………………………………………………………………………………………………………………………………………………………… 29 7.1 BASIC ENERGY SAVING ALGORITHM……………………………………………………………………………………………………………………………………….. 29 7.1.1 PARAMETERS INVOLVED ………………………………………………………………………………………………………………………………………………….. 29 8. PULL DOWN FUNCTION ………………………………………………………………………………………………………………………………………………………………… 30 9. DEFROST OPERATIONS………………………………………………………………………………………………………………………………………………………………….. 30 9.1 TIMED OR TEMPERATURE CONTROLLED MODE ……………………………………………………………………………………………………………………….. 30 10. EVAPORATOR FAN……………………………………………………………………………………………………………………………………………………………………. 30 10.1 EVAPORATOR FAN AND DIGITAL INPUT…………………………………………………………………………………………………………………………………… 30 11. CONDENSER FAN……………………………………………………………………………………………………………………………………………………………………… 30 12. DIGITAL OUTPUTS ……………………………………………………………………………………………………………………………………………………………………. 31 12.1 COMPRESSOR OUTPUT (OAX = CP1) ………………………………………………………………………………………………………………………………………… 31 12.2 DEFROST OUTPUT (OAX = DEF) ……………………………………………………………………………………………………………………………………………….. 31 12.3 EVAPORATOR FAN OUTPUT (OAX = FAN) ………………………………………………………………………………………………………………………………….. 31 12.4 ALARM OUTPUT (OAX = ALR) ………………………………………………………………………………………………………………………………………………….. 31 12.5 LIGHT OUTPUT (OAX = LIG) …………………………………………………………………………………………………………………………………………………….. 31 12.6 AUXILIARY OUTPUT (OAX = AUS) …………………………………………………………………………………………………………………………………………….. 31 12.6.1 AUXILIARY REGULATOR ……………………………………………………………………………………………………………………………………………….. 31 12.6.2 TIMED ACTIVATION …………………………………………………………………………………………………………………………………………………….. 31 12.6.3 GENERAL NOTES…………………………………………………………………………………………………………………………………………………………. 31 12.7 DEAD BAND REGULATION (OAX = DB) ………………………………………………………………………………………………………………………………………. 32 12.8 ON/OFF OUTPUT (OAX = ONF)…………………………………………………………………………………………………………………………………………………. 32 12.9 ENERGY SAVING OUTPUT (OAX = HES) …………………………………………………………………………………………………………………………………….. 32 12.10 CONDENSER FAN OUTPUT (OAX = CND) ……………………………………………………………………………………………………………………………………. 32 12.11 SECOND COMPRESSOR OUTPUT (OAX = CP2)……………………………………………………………………………………………………………………………. 32 12.12 SECOND DEFROST OUTPUT (OAX = DF2) …………………………………………………………………………………………………………………………………… 32 12.13 HEATER OUTPUT (OAX = HET) …………………………………………………………………………………………………………………………………………………. 32 12.14 INVERTER OUTPUT (OAX = INV)……………………………………………………………………………………………………………………………………………….. 32 13. DIGITAL INPUTS……………………………………………………………………………………………………………………………………………………………………….. 32 13.1 DOOR SWITCH (IXF=DOR) ……………………………………………………………………………………………………………………………………………………….. 32 13.2 START DEFROST (IXF=DEF)……………………………………………………………………………………………………………………………………………………… 32 13.3 AUXILIARY OUTPUT (IXF=AUS) ……………………………………………………………………………………………………………………………………………….. 32 13.4 ENERGY SAVING (IXF=ES) ………………………………………………………………………………………………………………………………………………………. 33 13.5 EXTERNAL WARNING ALARM (IXF=EAL) …………………………………………………………………………………………………………………………………… 33 13.6 EXTERNAL LOCK ALARM (IXF=BAL) ………………………………………………………………………………………………………………………………………….. 33

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13.7 EXTERNAL PRESSURE ALARM (IXF=PAL) …………………………………………………………………………………………………………………………………… 33 13.8 EVAPORATOR FAN MODE (IXF=FAN) ……………………………………………………………………………………………………………………………………….. 33 13.9 REMOTE HOLIDAY MODE (IXF=HDF)………………………………………………………………………………………………………………………………………… 33 13.10 REMOTE ONOFF (IXF=ONF) …………………………………………………………………………………………………………………………………………………….. 33 13.11 LIGHT OUTPUT (IXF=LIG) ……………………………………………………………………………………………………………………………………………………….. 33 13.12 CHANGE CONFIGURATION (IXF=CC)………………………………………………………………………………………………………………………………………… 33 13.13 MOTION SENSOR DETECTOR (IXF=EMT) …………………………………………………………………………………………………………………………………… 33 14. ALARM SIGNALLING …………………………………………………………………………………………………………………………………………………………………. 33 14.1 ALARM RECOVERY ……………………………………………………………………………………………………………………………………………………………….. 33 15. SERIAL COMMUNICATION…………………………………………………………………………………………………………………………………………………………. 34 16. INSTALLATION AND MOUNTING ………………………………………………………………………………………………………………………………………………… 34 17. WIRING DIAGRAM……………………………………………………………………………………………………………………………………………………………………. 34 18. TECHNICAL SPECIFICATIONS ……………………………………………………………………………………………………………………………………………………… 35 19. APPENDIX ……………………………………………………………………………………………………………………………………………………………………………….. 36 19.1 TOOLS………………………………………………………………………………………………………………………………………………………………………………… 36
19.1.1 XH-REP………………………………………………………………………………………………………………………………………………………………………. 36 19.1.2 X-MOD………………………………………………………………………………………………………………………………………………………………………. 36 19.1.3 WIZMATE…………………………………………………………………………………………………………………………………………………………………… 36 19.1.4 HOTKEY……………………………………………………………………………………………………………………………………………………………………… 36 19.1.5 USB TO RS485 CONVERTER…………………………………………………………………………………………………………………………………………… 36 19.2 EXAMPLE OF MENU NAVIGATION AND PARAMETER MODIFICATION…………………………………………………………………………………………… 37

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1. IMPORTANT USER INFORMATION

· The

symbol is intended to alert the user of a non-insultated voltage souce within the

product area that is sufficiently high to constitute a risk of electric shock to persons.

· The

symbol is intended to alert the user of important operating and maintenance

(servicing) instructions.

· Dixell Srl reserves the right to modify this user’s manual at any time without prior notice. The documentation can be downloaded from the website www.fulltouch.info even prior to purchase.

· This manual is an integral part of the product and must always be kept near the device for easy and quick reference. The product cannot be used as a safety device. Please read this manual very carefully be sure you understand the information provided before using the device.
· Verify that the power supply voltage is correct before connecting the device. Do not expose it to water or humidity: use the controller only within the operating limits, avoiding sudden temperature changes and high atmospheric humidity in order to prevent condensation from forming. Recommendations: disconnect all the electrical connections before performing any maintenance task; insert the probe where it cannot be reached by the End User; the device must not be opened; consider the maximum current that can be applied to each relay; make sure that the wires of the probes, of the loads and the electical power supply cables are sufficiently separated from each other, without crossing or intertwining. In case of applications in industrial environments, it may be useful to use the main filters as well as the inductive loads.
· The customer shall bear full responsibility and risk for product configuration in order to achieve the the final installation of the equipment/system. Upon the customer’s request and following a specific agreement, Dixell Srl may be present during the start-up of the final machine/application, as a consultant, however, under no circumstances can the company be held responsible for the correct operation of the final equipment/system.

· Since Dixell products are part of a high-level technology, a qualification and a configuration/programming/commissioning stage is required to best use them. Otherwise, these products may malfunction and Dixell cannot be held responsible. The product must not be used in any way that differs from that stipulated in the documentation.

· The device must always be installed inside an electrical panel that can only be accessed by authorised personnel. For safety purposes, the keyboard must be the only part that can be reached.

· The electrical wiring connections must never be modify while the device is being used.

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· It is good practice to bear in mind the following indications for all Dixell products:
o Prevent the electronic circuits from getting wet as contact made with water, humidity or any other type of liquid can damage them. Comply with the temperature and humidity limits specified in the manual in order to store the product correctly.
o The device must not be installed in particularly hot environments as high temperatures can damage the electronic circuits and/or plastic components forming part of the casing. Comply with the temperature and humidity limits specified in the manual in order to store the product correctly.
o Under no circumstances is the device to be opened – the user does not need any internal component. Please contact qualified service personnel for any assistance.
o Prevent the device from being dropped, knocked or shaken as either can cause irreparable damage.
o Do not clean the device with corrosive chemical products, solvents or aggressive detergents. o The device must not be used in applications that differ from that specified in the following
document.
· Separate the power supply of the device from the rest of the electrical devices connected inside the electrical panel. The secondary of the transformer must never be connected to the earth.
· Dixell Srl reserves the right to change the components of its products, even without notice, ensuring the same and unchanged functionality.
2. PRODUCT DISPOSAL (WEEE)
In compliance with the Directive 2002/96/EC of the European Parliament and of the Council of January 27th 2003 and to the relative national legislation, please note that:
· There lies the obligation not to dispose of electrical and electronic waste as municipal waste but to separate the waste.
· Public or private collection points must be used to dispose of the goods in accordance with local laws. Furthermore, at the end of the product’s life, it is also possible to return this to the retailer when a new purchase is made.
· This equipment may contain hazardous substances. Improper use or incorrect disposal can have adverse effects on human health and the environment.
· The symbol shown on the product or the package indicates that the product has been placed on the market after August 13th 2005 and must be disposed of as separated waste.
· Should the product be disposed of incorrectly, sanctions may be applied as stipulated in applicable local regulations regarding waste disposal.
Please consider the environment before printing this manual.

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3. GENERALITIES
The XR70T is a microprocessor-based controller suitable for applications on medium or low temperature ventilated refrigeration units. It has 4 relay outputs to control compressor, fans, light and defrost or auxiliary outputs. The device is also provided with up to 4 NTC, PTC or PT1000 probe inputs. There are up to 2 configurable digital inputs. By using the HOT-KEY it is possible to program the device quickly and easily. The controller implements Full Touch technology.
4. USER INTERFACE
XR70T has a capacitive user interface with Full Touch technology. The whole display area is used to interact with the device. Specific gestures are used to enable or disable functions, browse through screens and operational modes and modify the configuration of the device.

4.1 SCREENS SCREEN

DESCRIPTION
Home: this screen shows temperature value, measurement unit and active alarms only. This is the first screen after power on or after exit from other status

Virtual Keyboard: this screen shows available functions. Activated function will blink when this screen is visualized.

Info: This screen shows activated functions and regulation outputs (compressor, ventilators).

Programming Mode: This screen enables the modification of the Set point or parameters.

Setpoint Menu: This screen enables the modification of the Set Point value.

Parameter Menu: These screens enable the modification of all parameter values.

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Stand-By: in this condition all outputs are deactivated.

HotKey Download: “PRG” blinks during download operations (copy from HotKey to the internal memory)

HotKey Upload: “PRG” blinks during upload operations (copy from internal memory to the HotKey)

4.2 ICONS

DESCRIPTION

MODE

FUNCTION

LIGHT COMPRESSOR
FAN DEFROST

OFF Function not available

FLASH When in the Virtual Keyboard screen: light output ON

ON OFF

When in the Virtual Keyboard screen: light output OFF When in the Loads Info screen: compressor output OFF

FLASH Anti short cycle delay is running

ON OFF FLASH

When in the Loads Info screen: compressor output ON When in the Loads Info screen: evaporator fan output OFF Activation delay is running

ON When in the Loads Info screen: evaporator fan output ON

OFF Function not available

FLASH When in the Virtual Keyboard screen: defrost ON

ON When in the Virtual Keyboard screen: defrost OFF

AUX ENERGY SAVING
PULL DOWN ALARM
Celsius Degree Fahrenheit Degree

OFF Function not available

FLASH When in the Virtual Keyboard screen: AUX output ON

ON When in the Virtual Keyboard screen: AUX output OFF

OFF Function not available FLASH When in the Virtual Keyboard screen: energy saving ON

ON When in the Virtual Keyboard screen: energy saving OFF

OFF FLASH
ON OFF FLASH

Function not available When in the Virtual Keyboard screen: pull down ON When in the Virtual Keyboard screen: pull down OFF No alarm is active

ON OFF FLASH ON OFF

Some alarm is active Not used Not used Measurement units: Celsius degree Not used

FLASH Not used

ON Measurement units: Fahrenheit degree

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ONOFF
PROG LEVEL 1
PROG LEVEL 2 RADIO ON
PROGRAMMING MODE BACK ENTER
BROWSING

OFF FLASH

ON Only and always ON icon when the device is in standby mode

OFF

FLASH

PROG LEVEL 1 and PROG LEVEL 2 icons toggle when the visualized value is editable

ON First level (parameter groups) of the parameter menu is visualized

OFF

FLASH

PROG LEVEL 2 and PROG LEVEL 1 icons toggle when the visualized value is editable

ON Second level (parameter labels) of the parameter menu is visualized

OFF Not used

FLASH Not used

ON Not used

OFF Programming mode disabled

FLASH

ON Programming mode enabled

OFF

FLASH

ON Used to go back to previous levels on the menu tree

OFF Set point menu disabled

FLASH

ON Set point menu enabled

OFF No other (lateral) screens available

FLASH

ON Other (lateral) screens available

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4.3 GESTURES

GESTURE

NAME ONE TAP TAP and
HOLD
H-SWIPE
V-SWIPE

HOW-TO
Press a specific area of the screen with a finger for 1 sec
Press any place of the screen with a finger for 3 sec
Drag a finger across the screen, from left to right or from right to left
Drag a finger across the screen, from top to bottom or from bottom to top (overlapping only one of the digits)

DESCRIPTION
Switch ON / Switch OFF: when in Virtual Keyboard, use this to turn on/off a specific function. When in Programming mode, use this to select a parameter or a parameter value.
Enter / Save: use this to enter Programming mode or Parameter menu and to save modifications. When in Virtual Keyboard, use this on the “ONOFF” to switch OFF and ON the device.
Browse: use horizontal swipe (right to left or left to right) to browse through HOME, Virtual Keyboard and Info View. When in programming mode: use horizontal swipe to browse through parameter menu.
Modify: use vertical swipe (from top to bottom or bottom to top) to change a parameter value.

4.4 HOME BROWSING

Use H-SWIPE to move through the screens. The logic implements a circular browsing: H-SWIPE to left or to right is possible. A programmable timeout is implemented to return HOME from any lateral screen.
4.5 STAND-BY MODE

When in HOME screen, H-swipe to go to the Virtual Keyboard screen and then touch the OFF icon for 3 sec. All outputs and alarms are deactivated in Stand- by mode.
4.6 PROGRAMMING MENU

It is possible to unlock the programming menu by touching any area of the display for 3 sec. Both SET and PRG icons will blink until the programming menu is unlocked.

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4.7 SETPOINT MENU
When in Programming Menu, it is possible to enter the Setpoint Menu by touching the SET icon for 3 sec. Both SET and PRG icons will blink until the Setpoint Menu is unlocked. Both PROG LEVEL icons start toggling to indicate that the visualized value is editable. Press the BACK icon to exit (come back to the Programming Menu) without saving. 4.8 HOTKEY ­ UPLOAD
When in Programming Menu, it is possible to activate the HotKey Upload Menu function to save the current device configuration (parameter values) into the external memory. To do this, follow these instructions:
1. H-swipe to go on the UPL screen 2. Insert the HotKey (on the 5-pin ports on the back of the device) 3. Touch the PRG icon for 3 sec 4. The copying procedure will start and the PRG icon will blink during the copy operations 5. At the end of the copying procedure, a message will notify the user that the operation has been
competed successfully: a. End: all parameters have been copied b. Err: some error occours during copying operations
4.9 HOTKEY ­ DOWNLOAD
When in Power-off or in Stand-by mode, it is possible to activate the HotKey Download Menu function to copy a new configuration (parameter values) into the current device memory. To do this, follow these instructions:
1. Insert the HotKey (on the 5-pin ports on the back of the device) 2. Touch the OFF icon for 3 sec 3. After power-on, the copying procedure will start automatically and the PRG icon will blink during the
copy operations 4. At the end of the copying procedure, a message will notify the user that the operation has been
competed successfully: a. End: all parameters have been copied b. Err: some error occours during copying operations

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4.10 PARAMETER MENU

When in Programmin Menu, it is possible to enter the Parameter Menu touching the PRG icon for 3 sec. The Prog Level 1 icon will indicate the first level of the programming menu (group labels). The Browsing icon will indicate that there are other groups of parameters.
…

When in PROG LEVEL 1, it is possible to browse through the available groups of parameters by using the Hswipe gesture. The circular construction of this menu permits to move left or right through the groups. Here are the available groups:

Group Label rEG Prb diS dEF FAn AUS ALr oUt inP ES Cnt rtC E2 CoM Ui inF PAS

Description Main regulation parameters Probe configuration parameters Visualization parameters Defrost configuration parameters Evaporator and condenser fan configuration parameters Auxiliary regulator parameters Alarm configuration parameters Digital and analogue output configuration parameters Digital input configuration parameters Energy saving configuration parameters Counters, read only values Real Time Clock configuration parameters Memory storage management Serial Communication port configuration parameters User Interface configuration parameters Information, read only parameters Password for entering protected menu parameters

4.11 PASSWORD MENU

When in the PAS group, it is possible to set the password value by touching the PRG icon for 3 sec. V-swipe on a single digit to modify the value, then confirm the password value by touching the PRG icon for 3 sec.

The new value will blink and after 2 sec the display will show: · Pr2 if the password is correct

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· Err if the password value is wrong After 2 sec the display will show the first group label (rEG) with a blinking PRG icon to indicate that protected parameters now are editable.

5. PARAMETER TABLE

Here are the descriptions of the device parameters. 5.1 PARAMETER DESCRIPTION

5.1.1 Main regulation parameters – rEG

SEt Set Point: range from LS to US

LS Minimum Set Point: (-100.0°C to SET; -148°F to SET) fix the minimum value for the set point.

US Maximum Set Point: (SET to 200.0°C; SET to 392°F) fix the maximum value for the set point.

HY

Compressor regulation differential in normal mode: (0.1 to 25.0°C; 1 to 45°F) set point differential. Compressor Cut-IN is T > SET + HY. Compressor Cut-OUT is T<=SET.

HYE

Compressor regulation differential in energy saving mode: (0.1 to 25.0°C; 1 to 45°F) set point differential. Compressor Cut-IN is T > SET + HES + HYE. Compressor Cut-OUT is T<= SET + HES.

odS

Output activation delay at start-up: (0 to 255 min) this function is enabled after the instrument power-on and delays the output activations.

AC

Anti-short cycle delay: (0 to 50 min) minimum interval between a compressor stop and the following restart.

rtr Regulation percentage=F(P1; P2) (100=P1; 0=P2): 100=P1 only; 0=P2 only

CCt

Maximum duration for Pull Down: (0.0 to 23h50min, res. 10min) after elapsing this interval of time, the super cooling function is immediately stopped

Pull Down phase differential (SET+CCS or SET+HES+CCS): (-12.0 to 12.0°C; -21 to 21°F) during CCS any super cooling phase the regulation SETPOINT is moved to SET+CCS (in normal mode) or to
SET+HES+CCS (in energy saving mode)

oHt

Threshold for automatic activation of Pull Down in normal mode (SET+HY+oHt): (1.0 to 12.0°C; 1 to 21°F) this is the upper limit used to activate the super cooling function.

Threshold for automatic activation of Pull Down in energy saving mode oHE (SET+HES+HYE+oHE): (1.0 to 12.0°C; 1 to 21°F) this is the upper limit used to activate the super
cooling function.

Con

Compressor ON time with faulty probe: (0 to 255 min) time during which the compressor is active in case of faulty thermostat probe. With CY=0 compressor is always OFF.

CoF

Compressor OFF time with faulty probe: (0 to 255 min) time during which the compressor is OFF in case of faulty thermostat probe. With Cn=0 compressor is always active.

5.1.2 Probe configuration parameters ­ Prb

ot

Probe P1 calibration: (-12.0 to 12.0°C; -21 to 21°F) allows to adjust any possible offset of the first probe.

P2P Probe P2 presence: n = not present; Y = present.

oE

Probe P2 calibration: -12.0 to 12.0°C; -21 to 21°F) allows to adjust any possible offset of the second probe.

P3P Probe P3 presence: n = not present; Y = the defrost present.

o3

Probe P3 calibration: (-12.0 to 12.0°C; -21 to 21°F) allows to adjust any possible offset of the third probe.

P4P Probe P4 presence: n = not present; Y = present.

o4

Probe P4 calibration: (-12.0 to 12.0°C; -21 to 21°F) allows to adjust any possible offset of the forth probe.

5.1.3 Visualization parameters – diS

CF Temperature measurement unit: (°C; °F) °C = Celsius; °F = Fahrenheit.

rES Temperature resolution: (dE; in) dE = decimal; in = integer.

Lod

Probe default displayed: (P1; P2; P3; P4; SEt; dtr; USr) Px=probe “x”; SEt=set point; dtr=do not use it.

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rEd

Remote probe displayed (for XH-REP): (P1; P2; P3; P4; SEt; dtr; USr) Px=probe “x”; SEt=set point; dtr=do not use it.

dLY

Temperature display delay: (0.0 to 20min00sec, res. 10 sec) when the temperature increases, the display is updated of 1°C or 1°F after this time.

dtr

Probe visualization percentage, F(P1; P2): (0 to 100) with dtr=1 the display will show this value VALUE=0.01P1+0.99P2

5.1.4 Defrost configuration parameters – dEF

EdF tdF dFP dtE idF
MdF dSd StC
dFd dAd Fdt Hon dPo od1

Defrost mode: in=fixed intervals; rtC=following real time clock Defrost type: EL=electrical heaters; in=hot gas; ALt=used only for off-cycle defrost Probe selection for defrost control: (nP; P1; P2; P3; P4) nP=no probe; Px=probe “x”. Note: P4=Probe on Hot Key plug. End defrost temperature: (-55 to 50°C; -67 to 122°F) sets the temperature measured by the evaporator probe (dFP), which causes the end of defrost cycle. Interval between two successive defrost cycles: (0 to 255 hours) determines the time interval between the beginning of two defrosting cycles. Maximum length of defrost cycle: (0 to 255 min; 0 means no defrost) when P2P=n (no evaporator probe presence) it sets the defrost duration, when P2P=Y (defrost end based on evaporator temperature) it sets the maximum length for the defrost cycle. Start defrost delay: (0 to 255 min) delay in defrost activation.
Compressor stop before starting any defrost: (0 to 900 sec) interval with compressor OFF before activating hot gas cycle
Display during defrost: (rt; it; SP; dF) rt = real temperature; it = start defrost temperature; SP = SET-POINT; dF = label “dF”. Temperature display delay after any defrost cycle: (0 to 255 min) delay before updating the temperature on the display after the end of any defrost. Draining time: (0 to 255 min) regulation delay after finishing a defrost phase Drain heater enabled after draining time (par. Fdt): (0 to 255 min) the relative output will stay on after draining time. Defrost cycle enebled at stat-up: (n; Y) enables defrost at power on. Automatic defrost (at the beginning of any energy saving mode): (n; Y) n=function disabled; Y=function enabled

5.1.5 Evaporator and condenser fan configuration parameters – FAn

FAP FSt HYF
FnC
Fnd FCt FSU Ft Fon FoF

Probe selection for evaporator fan: (nP; P1; P2; P3; P4) nP=no probe; Px=probe “x”. Note: P4=Probe on Hot Key plug. Evaporator fan stop temperature: (-55 to 50°C; -67 to 122°F) setting of temperature, detected by evaporator probe. Above this temperature value fans are always OFF. NOTE: it works only for the evaporator fan, NOT for the condenser fan. Evaporator fan regulator differential: (0.1 to 25.5°C; 1 to 45°F) evaporator fan will stop when the measured temperature (from FAP) is T<FSt-HYF. Evaporator fan operating mode: (Cn; on; CY; oY) · Cn = runs with the compressor, duty-cycle when compressor is OFF (see FoF, Fon, FF1 and
Fo1 parameters) and OFF during defrost · on = continuous mode, OFF during defrost · CY = runs with the compressor, duty-cycle when compressor is OFF (see FoF, Fon, FF1 and
Fo1 parameters) and ON during defrost · oY = continuous mode, ON during defrost Evaporator fan delay after defrost cycle: (0 to 255 min) delay before fan activation after any defrosts. Differential for cyclic activation of evaporator fans: (0 to 50°C) Evaporator fan operating mode: (Std; Fon; FoF) Std = standard mode, evaporator fan uses par FnC; Fon = evaporator Fan always on; FoF = evaporator fan always off. Evaporator fan controlled during defrost: (n; Y) n = evaporator fan uses par. FnC during any defrost; Y = evaporator fan regulator is active during any defrost. Evaporator fan ON time in normal mode (with compressor OFF): (0 to 255 min) used when energy saving status is not active. Evaporator fan OFF time in normal mode (with compressor OFF): (0 to 255 min) used when energy saving status is not active.

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Fo1 FF1 Fd1 Fd2 FAC St2 HY2
FCC
Fd3 Fd4

Evaporator fan ON time in energy saving mode (with compressor OFF) (0 to 255 min) used when energy saving status is active. Evaporator fan OFF time in energy saving mode (with compressor OFF): (0 to 255 min) used when energy saving status is active. Evaporator fan delay: (0 to 255 sec) delay before activating evaporator fan Evaporator fan delay after closing door: (0 to 255 sec) delay before activating evaporator fan and after closing the door Probe selection for condenser fan: (nP; P1; P2; P3; P4) nP=no probe; Px=probe “x”. Note: P4=Probe on Hot Key plug. Set Point 2 regulation (for condenser fan): (-55 to 50°C; -67 to 122°F) setting of temperature detected by evaporator probe. Above this value of temperature fans are always OFF. Set Point 2 differential (for condenser fan): (0.1 to 25.5°C; 1 to 45°F) differential for evaporator ventilator regulator Condenser fan operating mode: (Cn; on; CY; oY) · Cn = runs with the compressor and OFF during defrost · on = continuous mode, OFF during defrost · CY = runs with the compressor and ON during defrost · oY = continuous mode, ON during defrost Condenser fan activation delay: (0 to 255 sec) delay before activating condenser fan Condenser fan deactivation delay: (0 to 255 sec) delay before deactivating condenser fan

5.1.6 Auxiliary regulator parameters – AUS

ACH SAA
SHY
ArP Sdd btA Ato AtF

Type of control for auxiliary regulator: (Ht; CL) Ht = heating; CL = cooling. Set Point for auxiliary regulator: (-55.0 to 150.0°C; -67 to 302°F) it defines the room temperature set point to switch auxiliary relay. Auxiliary regulator differential: (0.1 to 25.5°C; 1 to 45°F) differential for auxiliary output set point.
· ACH=CL, AUX Cut in is [SAA+SHY]; AUX Cut out is SAA.
· ACH=Ht, AUX Cut in is [SAA­SHY]; AUX Cut out is SAA. Probe selection for auxiliary regulator: (nP; P1; P2; P3; P4) nP = no probe, the auxiliary relay is switched only by the digital input; Px=probe “x”. Note: P4=Probe on Hot Key plug. Auxiliary regulator disabled during any defrost cycle: (n; Y) n = the auxiliary relay operates during defrost. Y = the auxiliary relay is switched off during defrost. Base time for parameters Ato and AtF: (SEC; Min) SEC = base time is in second; Min = base time is in minutes. Interval of time with auxiliary output ON: 0 to 255 (base time defined in par. btA) Interval of time with auxiliary output OFF: 0 to 255 (base time defined in par. btA)

5.1.7 Alarm configuration parameters

ALP ALC ALU
ALL AFH ALd dot
dAo AP2

Probe selection for temperature alarms: (nP; P1; P2; P3; P4) nP=no probe; Px=probe “x”. Note: P4=Probe on Hot Key plug.
Temperature alarms configuration: (Ab, rE) Ab = absolute; rE = relative.
High temperature alarm: when this temperature is reached, the alarm is enabled after the Ad delay time. · If ALC=Ab ALL to 150.0°C or ALL to 302°F. · If ALC=rE 0.0 to 50.0°C or 0 to 90°F.
Low temperature alarm: when this temperature is reached, the alarm is enabled after the Ad delay time. · If ALC=Ab -55.0°C to ALU or -67°F to ALU. · If ALC=rE 0.0 to 50.0°C or 0 to 90°F.
Temperature alarm differential: (0.1 to 25.0°C; 1 to 45°F) alarm differential.
Temperature alarm delay: (0 to 255 min) delay time between the detection of an alarm condition and the relative alarm signalling.
Temperature alarm delay when door open: (0.0 to 24h00min, res. 10 min) delay time between the detection of a temperature alarm condition and the relative alarm signalling, after starting up the instrument.
Temperature alarm delay at start-up: (0.0 to 24h00min, res. 10 min) delay time between the detection of a temperature alarm condition and the relative alarm signalling, after starting up the instrument.
Probe selection for second temperature alarm: (nP; P1; P2; P3; P4) nP=no probe; Px=probe “x”. Note: P4=Probe on Hot Key plug.

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AU1 AH1 Ad1 AL2 AU2 AH2 Ad2 dA2 bLL
AC2
SAF
tbA

Pre-alarm threshold for second temperature alarm (absolute value): (-55.0 to 150.0°C; -67 to 302°F) Second high temperature pre-alarm differential: (0.1 to 25.0°C; 1 to 45°F)
Second high temperature pre-alarm delay: (0 to 255 min; 255 = not used) delay time between the detection of a condenser pre-alarm condition and the relative alarm signalling.
Second low temperature alarm: (-55.0 to 150.0°C; -67 to 302°F) Second high temperature alarm: (-55.0 to 150.0°C; -67 to 302°F) Second temperature alarm differential: (0.1 to 25.0°C; 1 to 45°F) Second temperature alarm delay: (0 to 255 min; 255 = not used) delay time between the detection of a condenser alarm condition and the relative alarm signalling. Second temperature alarm delay at start-up: (0.0 to 24h00min, res. 10 min) Compressor off due to second low temperature alarm: (n; Y) n = no, the compressor continues to work; Y = yes, the compressor is switched off while the alarm is ON; in any case, the regulation restarts after AC time at minimum. Compressor off due to second high temperature alarm: (n; Y) n = no, the compressor continues to work; Y = yes, the compressor is switched off while the alarm is ON; in any case, the regulation restarts after AC time at minimum. Differential for anti-freezing control: (-12.0 to 12.0°C; -21.0 to 21.0°F) the regulation stops if T<SET+SAF Alarm relay deactivation: (n; Y) n = no, it is not possible to deactivate neither the buzzer nor any digital output set as an alarm; Y = yes, it is possible to deactivate both the buzzer and the digital output set as an alarm.

5.1.8 Digital and analogue output configuration parameters – out

oAx (x=2, 3, 4)
AoP

Relay output oAx configuration: (nu; CP1; dEF; FAn; ALr; LiG; AUS; db; onF; HES; Cnd) nu=not used; CP1=compressor; dEF=defrost; FAn=ventilators; ALr=alarm; LiG=light; AUS=auxiliary relay; onF=always ON with instrument ON; db=neutral zone; HES=night blinds; Cnd=condenser fan; CP2=second compressor; dF2=second defrost; HEt=heater control; inV=do not use it. Alarm relay polarity: (oP; CL) oP = alarm activated by closing the contact; CL = alarm activated by opening the contact

5.1.9 Digital input configuration parameters – inP

ibt

Base time for digital inputs: (SEC; Min) SEC = seconds; Min = minutes. Delay in activating the function linked to the digital inputs.

i1P

Digital input 1 polarity: (oP; CL) oP = activated by closing the contact; CL = activated by opening the contact.

Digital input 1 configuration: (nu; dor; dEF; AUS; ES; EAL; bAL; PAL; FAn; HdF; onF; LiG; CC;

EMt)

· nu=not used

· dor = door switch function

· dEF = defrost activation

· AUS = auxiliary output

· ES = energy saving mode activation

i1F

· ·

EAL = external warning alarm bAL = external lock alarm

· PAL = external pressure alarm

· FAn = evaporator fan control

· HdF = holiday defrost

· onF = ON/OFF status change

· LiG = light output control

· CC = change configuration (between C1 and C2)

· EMt = do not use it

did

Digital inputs 1 alarm delay (base time depends on par. ibt): (0 to 255) delay between the detection of an external event and the activation of the relative function.

i2P

Digital input 2 polarity: (oP; CL) oP = activated by closing the contact; CL = activated by opening the contact.

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Digital input 2 configuration: (nu; dor; dEF; AUS; ES; EAL; bAL; PAL; FAn; HdF; onF; LiG; CC;

EMt)

· nu = not used

· dor = door switch function

· dEF = defrost activation

· AUS = auxiliary output

· ES = energy saving mode activation

i2F

· ·

EAL = external warning alarm bAL = external lock alarm

· PAL = external pressure alarm

· FAn = evaporator fan control

· HdF = holiday defrost

· onF = ON/OFF status change

· LiG = light output control

· CC = change configuration (between C1 and C2)

· EMt = Motion detector

d2d

Digital inputs 2 alarm delay (base time depends on par. ibt): (0 to 255) delay between the detection of an external event and the activation of the relative function.

Number of external pressure switch alarms before stopping the regulation: (0 to 15) after

nPS reaching nPS events in the digital input alarm delay (par. dxd), the regulation will be stopped and a

manual restart (ON/OFF, power OFF and power ON) will be required

odC

Compressor and fan status after door opening: (no; FAn; CPr; F-C): no = normal; FAn = Fans OFF; CPr = Compressor OFF; F-C = Compressor and fans OFF.

rrd

Regulation restart after door alarm: (n; Y) n = no regulation if the door is open; Y = when the rrd timer elapses, the regulation restarts even if a door open alarm is ON.

5.1.10 Energy saving configuration parameters – ES

ErA HES LdE StE EtS dS

Energy saving algorithm: (nu; bAS) nu=disabled, the energy saving mode activation is by button, real time clock or digital input; bAS=basic algorithm, the energy saving mode activation depends on the the digital input.
Energy saving mode temperature differential: (-30.0 to 30.0°C; -54 to 54°F) sets the increasing value of the set point during the Energy Saving cycle. Energy saving controls the lights (lights OFF when energy saving is active): (n; Y) lights off when energy saving mode is active Period to switch from normal mode to energy saving mode: (0.0 to 24h00min, res. 10 min) if the door stay closed for StE time, the energy saving mode will be activated. NOTE: this will require a door switch to work.
Period to switch from energy saving mode to normal mode: (0.0 to 24h00min, res. 10 min) maximum time for energy saving mode. NOTE: this will require a door switch to work.
Door opening time to switch from EtS to StE: (0 to 999 sec) the energy saving mode will be immediately deactivated as soon as the door stays open more than the dS time. NOTE: this will require a door switch to work.

5.1.11 Counters, read only values – Cnt

n1H Number of activations for relay output oA1 (thousands of) n1L Number of activations for relay output oA1 (units of) n2H Number of activations for relay output oA2 (thousands of) n2L Number of activations for relay output oA2 (units of) n3H Number of activations for relay output oA3 (thousands of) n3L Number of activations for relay output oA3 (units of) n4H Number of activations for relay output oA4 (thousands of) n4L Number of activations for relay output oA4 (units of) n5H Number of total activation of digital input 1 (thousand of) n5L Number of total activation of digital input 1 (units of) n6H Number of total activation of digital input 2 (thousand of) n6L Number of total activation of digital input 2 (units of) F1H Number of working hours for relay output oA1 (thousands of) F1L Number of working hours for relay output oA1 (units of) F2H Number of working hours for relay output oA2 (thousands of)

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F2L Number of working hours for relay output oA2 (units of) F3H Number of working hours for relay output oA3 (thousands of) F3L Number of working hours for relay output oA3 (units of) F4H Number of working hours for relay output oA4 (thousands of) F4L Number of working hours for relay output oA4 (units of)

5.1.12 Real Time Clock configuration parameters – rtC

Hur Min dAY dYM Mon YAr Hd1 Hd2 iLE
dLE iSE dSE
ddx
Ldx

Hours: 0 to 23 hours Minutes: 0 to 59 minutes Day of the week: Sun to Sat Day of the month: 1 to 31 Month: 1 to 12 Year: 00 to 99 First day of weekend: (Sun to SAt; nu) setting for the first day of the weekend. Second day of weekend: (Sun to SAt; nu) setting for the second day of the weekend. Energy saving cycle starting time on working days: (00h00min to 23h50min) during the Energy Saving cycle, the set point is increased by the value in HES so that the operation set point is SET+HES. Energy saving cycle duration on working days: (00h00min to 24h00min) sets the duration of the Energy Saving cycle on working days. Energy saving cycle starting time on weekends: 00h00min to 23h50min Energy saving cycle duration on weekends: 00h00min to 24h00min Daily defrost enabled: (n; Y) to enable the Ld1 to Ld6 defrost operations for any day of the week. · dd1 = Sunday defrost · dd2 = Monday defrost · dd3 = Tuesday defrost · dd4 = Wednesday defrost · dd5 = Thursday defrost · dd6 = Friday defrost · dd7 = Saturday defrost Defrost starting time: (00h00min to 23h50min) these parameters set the beginning of the programmable defrost cycles during any ddx day. Example: when Ld2=12.4, the second defrost starts at 12:40 am during working days.

5.1.13 Memory storage management ­ E2

MAP LdM
rHA

Current configuration: (C-1; C-2) to change configuration used. Restore default factory settings: (n;Y) select Y and confirm to reload factory default values for the configuration currently used. Reset HACCP values: (n; Y) select Y and confirm to reset the memorized min and MAX temperature values (HACCP function must be enabled).

5.1.14 Serial Communication port configuration parameters – CoM

Adr bAU
PAr

Serial address: (1 to 247) device address for Modbus communication Baudrate: (9.6; 19.2; 38.4; 57.6) select the correct baudrate for serial communication Parity control: (no; odd; EvE) no=no parity control; odd=odd parity control; EvE=even parity control

5.1.15 User Interface configuration parameters – Ui

SCS bS PSU

User interface timeout: (1 to 255 sec) timeout before coming back to Home Screen or to Programming Menu Sound Level: (0 to 5) select the sound level of the gestures Password for protected level Pr2: (000 to 999) insert a value to protect all the parameters set on the level Pr2 from modification

5.1.16 Information, read only parameters – inF

d1 Probe P1 value visualization d2 Probe P2 value visualization d3 Probe P3 value visualization

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d4 Probe P4 value visualization rSE Real regulation Set Point FdY Firmware release date: day FMt Firmware release date: month FYr Firmware release date: year rEL Firmware release: progressive number Sub Firmware sub release: progressive number Ptb Parameter map version
5.2 PARAMETER CONFIGURATION 1

Group rEG rEG

Par. Description SEt Set Point LS Minimum Set point

Value Protected U.O.M.

3.0

Pr1

°C

-100.0

Pr1

°C

rEG

US Maximum Set point

150.0

Pr1

°C

rEG

HY

Compressor regulation differential in normal mode

rEG

HYE

Compressor regulation differential in energy saving mode

rEG

odS Output activation delay at start-up

3.0

Pr1

°C

3.0

Pr1

°C

0

Pr1

min

rEG

AC Anti-short cycle delay

0

Pr1

min

rEG

rtr

Regulation percentage=F(P1; P2) (100=P1; 0=P2)

100

Pr2

rEG

CCt Maximum duration for Pull Down

00:00

Pr2

hh:mm

rEG

CCS

Pull Down phase differential (SET+CCS or SET+HES+CCS)

0.0

Pr2

°C

rEG

oHt

Threshold for automatic activation of Pull Down in normal mode (SET+HY+oHt)

10.0

Pr2

°C

Threshold for automatic activation of Pull

rEG

oHE Down in energy saving mode

10.0

Pr2

°C

(SET+HES+HYE+oHE)

rEG

Con Compressor ON time with faulty probe

10

Pr1

min

rEG

CoF Compressor OFF time with faulty probe

15

Pr1

min

Prb

ot Probe P1 calibration

0.0

Pr1

°C

Prb

P2P Probe P2 presence

Y

Pr1

Prb

oE Probe P2 calibration

0.0

Pr1

°C

Prb

P3P Probe P3 presence

no

Pr1

Prb

o3 Probe P3 calibration

0.0

Pr1

°C

Prb

P4P Probe P4 presence

no

Pr1

Prb

o4 Probe P4 calibration

0.0

Pr1

°C

diS

CF

Temperature measurement unit: Celsius; Fahrenheit

°C

Pr1

diS

rES Temperature resolution: decimal, integer

dE

Pr1

diS

Lod Probe default displayed

P1

Pr1

diS

rEd Remote probe displayed (for XH-REP)

P2

Pr1

diS

dLy

Temperature display delay (resolution 10 sec)

00:00

Pr1

mm:ss

Probe visualization percentage=F(P1;P2)

diS

dtr (ex: dtr=1 means

99

Pr1

VALUE=0.01P1+0.99P2)

dEF

EdF Defrost mode

rtC

Pr2

Range
LS to US [-100.0°C to SET] [-148.0°F to SET] [SET to 150.0°C] [SET to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] 0 to 255 min
0 to 50 min
0 to 100
0 to 23h50min [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] [0.0°C to 25.0°C] [0.0°F to 45.0°F] [0.0°C to 25.0°C] [0.0°F to 45.0°F] 0 to 255 min
0 to 255 min [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] °C(0); °F(1)
dE(0); in(1) P1(0); P2(1); P3(2); P4(3); SEt(4); dtr(5) P1(0); P2(1); P3(2); P4(3); SEt(4); dtr(5)
0.0 to 20min00sec
1 to 99
rtC(0); in(1)

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dEF

tdF Defrost type: electric heating, hot gas

dEF

dFP Probe selection for defrost control

EL

Pr2

P2

Pr2

dEF

dtE End defrost temperature

8.0

Pr2

dEF

idF

Interval between two successive defrost cycles

24

Pr2

dEF

MdF Maximum length of defrost cycle

20

Pr2

dEF

dSd Start defrost delay

dEF

StC

Compressor stop before starting any defrost

0

Pr2

0

Pr2

dEF

dFd Displaying during defrost

dEF

Pr2

dEF

dAd

Temperature display delay after any defrost cycle

0

Pr2

dEF

Fdt Draining time

1

Pr2

dEF

Hon

Drain heater enabled after draining time (par. Fdt)

2

Pr2

dEF

dPo Defrost cycle enebled at stat-up

no

Pr2

dEF

od1

Automatic defrost (at the beginning of any energy saving mode)

no

Pr2

FAn

FAP Probe selection for evaporator fan

P2

Pr2

FAn

FSt Evaporator fan stop temperature

10.0

Pr2

FAn

HYF Evaporator fan regulator differential

2.0

Pr2

FAn

FnC Evaporator fan operating mode

C_n

Pr2

FAn

Fnd Evaporator fan delay after defrost cycle

1

Pr2

FAn

FCt

Differential temperature for cyclic activation of evaporator fans (o=disabled)

0

Pr2

FAn

FSU Evaporator fan operating mode

Std

Pr2

FAn

Ft Evaporator fan controlled during defrost

no

Pr2

FAn

Fon

Evaporator fan ON time in normal mode (with compressor OFF)

5

Pr2

FAn

FoF

Evaporator fan OFF time in normal mode (with compressor OFF)

10

Pr2

FAn

Fo1

Evaporator fan ON time in energy saving mode (with compressor OFF)

5

Pr2

FAn

FF1

Evaporator fan OFF time in energy saving mode (with compressor OFF)

10

Pr2

FAn

Fd1 Evaporator fan delay

0

Pr2

FAn

Fd2 Evaporator fan delay after closing door

0

Pr2

FAn

FAC Probe selection for condenser fan

P3

Pr2

FAn

St2 Set Point 2 regulation (for condenser fan) 10.0

Pr2

FAn

Hy2 Set Point 2 differential (for condenser fan) 10.0

Pr2

FAn FAn FAn AUS

FCC Fd3 Fd4 ACH

Condenser fan operating mode Condenser fan activation delay Condenser fan deactivation delay Type of control for auxiliary regulator

C_n

Pr2

0

Pr2

0

Pr2

CL

Pr2

AUS

SAA Set point for auxiliary regulator

5.0

Pr2

AUS AUS

SHy Auxiliary regulator differential ArP Probe selection for auxiliary regulator

2.0

Pr2

nP

Pr2

EL(0); in(1)

nP(0); P1(1); P2(2); P3(3); P4(4)

°C

[-50.0°C to 50.0°C] [-58.0°F to 122.0°F]

ora

0 to 255 hours

min

0 to 255 min

sec

0 to 255 sec

sec

0 to 255 sec

rt(0); it(1); SEt(2); dEF(3); Coo(4)

min

0 to 255 min

min

0 to 255 min

min

0 to 255 min

n(0); Y(1)

n(0); Y(1)

nP(0); P1(1); P2(2); P3(3); P4(4)

°C

[-50.0°C to 50.0°C] [-58.0°F to 122.0°F]

°C

[0.1°C to 25.0 °C] [0.1°F to 45.0°F]

C-n(0); O-n(1); C-Y(2); O-Y(3)

min

0 to 255 min

°C

[0°C to 50°C] [0°F to 90°F]

Std(0); FoF(1); Fon(2)

n(0); Y(1)

min

0 to 255 min

min

0 to 255 min

min

0 to 255 min

min

0 to 255 min

sec

0 to 255 sec

sec

0 to 255 sec

nP(0); P1(1); P2(2); P3(3); P4(4)

°C

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F]

°C

[0.1°C to 25.0°C] [0.1°F to 45.0°F]

C-n(0); O-n(1); C-Y(2); O-Y(3)

sec

0 to 255 sec

sec

0 to 255 sec

CL(0); Ht(1)

°C

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F]

°C

[0.1°C to 25.0°C] [0.1°F to 45.0°F]

nP(0); P1(1); P2(2); P3(3); P4(4)

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AUS AUS AUS AUS ALr ALr ALr
ALr
ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr
oUt
oUt
oUt
oUt inP inP

Sdd

Auxiliary regulator disabled during any defrost cycle

btA Base time for parameters Ato and AtF

no

Pr2

SEC

Pr2

n(0); Y(1) SEC; Min

Ato Interval of time with auxiliary output ON

0

Pr2

sec

0 to 255 sec/min

AtF Interval of time with auxiliary output OFF

0

Pr2

sec

0 to 255 sec/min

ALP Probe selection for temperature alarms

P1

Pr1

ALC

Temperature alarms configuration: relative, absolute

Ab

Pr1

ALU High temperature alarm

150.0

Pr1

ALL Low temperature alarm

AFH ALd

Temperature alarm differential Temperature alarm delay

-100.0

Pr1

2.0

Pr1

0

Pr1

nP(0); P1(1); P2(2); P3(3); P4(4)

rE(0); Ab(1)

°C[0.0° to 50.0° or ALL to

°C

150.0°]

°F[0.0° to 90.0° or ALL to 302.0°]

°C[0.0° to 50.0° or -100.0° to

°C

ALU] °F[0.0° to 90.0° or -148.0° to

ALU]

°C

[0.1°C to 25.0°C] [0.1°F to 45.0°F]

min

0 to 255 min

dot Temperature alarm delay with door open 00:00

Pr1

mm:ss

0.0 to 24min00sec

dAo Temperature alarm delay at start-up

00:00

Pr1

hh:mm

0.0 to 24h00min

AP2 AU1 AH1

Probe selection for second temperature alarm
Pre-alarm threshold for second temperature alarm (absolute value)
Second high temperature pre-alarm differential

P2

Pr2

150.0

Pr2

2.0

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

°C

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F]

°C

[0.1°C to 25.0°C] [0.1°F to 45.0°F]

Ad1 Second high temperature pre-alarm delay 255

Pr2

min

0 to 255 min

AL2 Second low temperature alarm

-100.0

Pr2

°C

AU2 Second high temperature alarm

150.0

Pr2

°C

AH2 Second temperature alarm differential

2.0

Pr2

°C

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F]

Ad2 Second temperature alarm delay

0

Pr2

min

0 to 255 min

dA2

Second temperature alarm delay at startup

00:00

Pr2

hh:mm

bLL

Compressor OFF due to second low temperature alarm

no

Pr2

AC2

Compressor OFF due to second high temperature alarm

n

Pr2

SAF Differential for anti-freezing control

-1.0

Pr2

°C

0.0 to 24h00min
n(0); Y(1)
n(0); Y(1); MAn(2) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F]

tbA Alarm relay deactivation

no

Pr2

n(0); Y(1)

oA2 Relay output oA2 configuration oA3 Relay output oA3 configuration oA4 Relay output oA4 configuration

dEF

Pr2

FAn

Pr2

LiG

Pr2

nu(0); CP1(1); dEF(2); FAn(3); ALr(4); LiG(5); AUS(6); db(7);
onF(8); HES(9); Cnd(10); CP2(11); dF2(12); HEt(13);
inv(14)
nu(0); CP1(1); dEF(2); FAn(3); ALr(4); LiG(5); AUS(6); db(7);
onF(8); HES(9); Cnd(10); CP2(11); dF2(12); HEt (13);
inv(14)
nu(0); CP1(1); dEF(2); FAn(3); ALr(4); LiG(5); AUS(6); db(7);
onF(8); HES(9); Cnd(10); CP2(11); dF2(12); HEt (13);
inv(14)

AOP Alarm relay polarity

CL

Pr2

oP(0); CL(1)

ibt Base times for digital inputs

SEC

Pr1

SEC(0); Min(1)

i1P Digital input 1 polarity

CL

Pr1

oP(0); CL(1)

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inP

i1F Digital input 1 configuration

inP

did

Digital input 1 alarm delay (base time depends on par. ibt)

dor

Pr1

0

Pr1

nu(0); dor(1); dEF(2); AUS(3); ES(4); EAL(5); bAL(6); PAL (7);
FAn(8); HdF(9); onF(10); LiG(11); CC(12); EMt(13)

sec

0 to 255 min/sec

inP

i2P Digital input 2 polarity

CL

Pr1

OP(0); CL(1)

inP

i2F Digital input 2 configuration

EAL

Pr1

nu(0); dor(1); dEF(2); AUS(3); ES(4); EAL(5); bAL(6); PAL (7);
FAn(8); HdF(9); onF(10); LiG(11); CC(12); EMt(13)

inP

d2d

Digital input 2 alarm delay (base time depends on par. ibt)

0

Pr1

sec

0 to 255 min/sec

inP

nPS

Number of external pressure switch alarms before stopping the regulation

0

Pr2

0 to 15

inP

OdC

Compressor and fan status after door opening

no

Pr2

no(0); FAn(1); CPr(2); F-C(3)

inP

rrd Regulation restart after door alarm

no

Pr2

n(0); Y(1)

ES

ErA Energy saving algorithm

nu

Pr2

nu(0); bAS(1)

ES

HES

Energy saving mode temperature differential

0

Pr1

°C

[-30°C to 30°C] [-54°F to 54°F]

ES

LdE

Energy saving controls the lights (lights OFF when energy saving is active)

no

Pr1

ES

StE

Period to switch from normal mode to energy saving mode

00:00

Pr1

hh:mm

ES

EtS

Period to switch from energy saving mode to normal mode

00:00

Pr1

hh:mm

ES

dS

Door opening time to switch from EtS to StE

0

Pr1

sec

Cnt

n1H

Number of activations for relay output oA1 (thousands of)

Pr1

Cnt

n1L

Number of activations for relay output oA1 (units of)

Pr1

Cnt

n2H

Number of activations for relay output oA2 (thousands of)

Pr1

Cnt

n2L

Number of activations for relay output oA2 (units of)

Pr1

Cnt

n3H

Number of activations for relay output oA3 (thousands of)

Pr1

Cnt

n3L

Number of activations for relay output oA3 (units of)

Pr1

Cnt

n4H

Number of activations for relay output oA4 (thousands of)

Pr1

Cnt

n4L

Number of activations for relay output oA4 (units of)

Pr1

Cnt

n5H

Number of total activations of digital input 1 (thousand of)

Pr1

Cnt

n5L

Number of total activations of digital input 1 (units of)

Pr1

Cnt

n6H

Number of total activations of digital input 2 (thousand of)

Pr1

Cnt

n6L

Number of total activations of digital input 2 (units of)

Pr1

Cnt

F1H

Number of working hours for relay output oA1 (thousands of)

Pr1

hours

Cnt

F1L

Number of working hours for relay output oA1 (units of)

Pr1

hours

Cnt

F2H

Number of working hours for relay output oA2 (thousands of)

Pr1

hours

Cnt

F2L

Number of working hours for relay output oA2 (units of)

Pr1

hours

Cnt

F3H

Number of working hours for relay output oA3 (thousands of)

Pr1

hours

n(0); Y(1) 0 to 23h50min; nu 0 to 23h50min; nu
0 to 999 sec read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only

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Cnt
Cnt
Cnt rtC rtC rtC rtC rtC rtC rtC rtC rtC
rtC
rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC E2 E2 E2 CoM CoM CoM Ui Ui Ui inF inF inF inF

F3L

Number of working hours for relay output oA3 (units of)

F4H

Number of working hours for relay output oA4 (thousands of)

F4L

Number of working hours for relay output oA4 (units of)

Hur Hours

Pr1

hours

Pr1

hours

Pr1

hours

Pr1

read only read only read only read only

Min Minutes

Pr1

read only

dAY Day of the week

Pr1

read only

dYM Day of the month

Pr1

read only

Mon Month

Pr1

read only

YAr Year

Pr1

read only

Hd1 First day of weekend

nu

Pr2

Sun(0) to SAt(6); nu(7)

Hd2 Second day of weekend

nu

Pr2

iLE

Energy saving cycle starting time on working days

00:00

Pr2

hh:mm

dLE

Energy saving cycle duration on working days

00:00

Pr2

hh:mm

iSE

Energy saving cycle starting time on weekends

00:00

Pr2

hh:mm

dSE Energy saving cycle duration on weekends 00:00

Pr2

hh:mm

Sun(0) to SAt(6); nu(7) 0.0 to 23h50min 0.0 to 24h00min 0.0 to 23h50min 0.0 to 24h00min

dd1 Sunday defrost

no

Pr2

n(0); Y(1)

dd2 Monday defrost

no

Pr2

n(0); Y(1)

dd3 Tuesday defrost

no

Pr2

n(0); Y(1)

dd4 Wednesday defrost

no

Pr2

n(0); Y(1)

dd5 Thursday defrost

no

Pr2

n(0); Y(1)

dd6 Friday defrost

no

Pr2

n(0); Y(1)

dd7 Saturday defrost

no

Pr2

n(0); Y(1)

Ld1 1st defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

Ld2 2nd defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

Ld3 3rd defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

Ld4 4th defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

Ld5 5th defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

Ld6 6th defrost starting time

00:00

Pr2

hh:mm 0.0 to 23h50min(143); nu(144)

MAP Current configuration

0

Pr1

C-1(0); C-2(1)

LdM Restore default factory setting

0

Pr2

n(0); Y(1)

rHA Reset for HACCP function

0

Pr2

n(0); Y(1)

Adr bAU PAr

Serial address Baudrate Parity control

1

Pr2

9.6

Pr2

no

Pr2

1 to 247
9.6(0); 19.2(1); 38.4(2); 57.6(3);
no(0); odd(1); EvE(2)

SCS User interface timeout

60

Pr2

sec

1 to 255 sec

bS Sound Level

3

Pr2

0 to 5

PSU Password for protected level Pr2

Pr2

0 to 999

dP1 Probe P1 value visualization

Pr1

read only

dP2 Probe P2 value visualization

Pr1

read only

dP3 Probe P3 value visualization

Pr1

read only

dP4 Probe P4 value visualization

Pr1

read only

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inF

rSE

Real regulation Set Point (SET + ES + SETd)

Pr1

inF

FdY Firmware release date: day

Pr1

inF

FMn Firmware release date: month

Pr1

inF

FYr Firmware release date: year

Pr1

inF

rEL Firmware release

Pr1

inF

SUb Firmware sub release

Pr1

inF

Ptb Parameter map version

Pr1

5.3 PARAMETER CONFIGURATION 2

Group Parameter Description

rEG

SEt Set Point

rEG

LS

Minimum Set point

Value Protected U.O.M.

38.0

Pr1

°F

-148.0

Pr1

°F

rEG

US Maximum Set point

302.0

Pr1

°F

rEG

HY

Compressor regulation differential in normal mode

rEG

HYE

Compressor regulation differential in energy saving mode

rEG

odS Output activation delay at start-up

6.0

Pr1

°F

6.0

Pr1

°F

0

Pr1

min

rEG

AC Anti-short cycle delay

0

Pr1

min

rEG

rtr

Regulation percentage=F(P1; P2) (100=P1; 0=P2)

100

Pr2

rEG

CCt Maximum duration for Pull Down

00:00

Pr2 hh:mm

rEG

CCS

Pull Down phase differential (SET+CCS or SET+HES+CCS)

0.0

Pr2

°F

rEG

oHt

Threshold for automatic activation of Pull Down in normal mode (SET+HY+oHt)

20.0

Pr2

°F

Threshold for automatic activation of Pull

rEG

oHE Down in energy saving mode

20.0

Pr2

°F

(SET+HES+HYE+oHE)

rEG

Con Compressor ON time with faulty probe

10

Pr1

min

rEG

CoF Compressor OFF time with faulty probe

15

Pr1

min

Prb

ot

Probe P1 calibration

0

Pr1

°F

Prb

P2P Probe P2 presence

Y

Pr1

Prb

oE

Probe P2 calibration

0

Pr1

°F

Prb

P3P Probe P3 presence

no

Pr1

Prb

o3

Probe P3 calibration

0

Pr1

°F

Prb

P4P Probe P4 presence

no

Pr1

Prb

o4

Probe P4 calibration

0

Pr1

°F

diS

CF

Temperature measurement unit: Celsius; Fahrenheit

°F

Pr1

diS

rES Temperature resolution: decimal, integer

dE

Pr1

diS

Lod Probe default displayed

P1

Pr1

diS

rEd Remote probe displayed (for XH-REP)

P2

Pr1

diS

dLy

Temperature display delay (resolution 10 sec)

00:00

Pr1 mm:ss

diS

dtr

Probe visualization percentage=F(P1;P2) (dtr=1 means VALUE=0.01P1+0.99P2)

99

Pr1

read only
read only
read only read only
read only
read only
read only
Range
LS to US [-100.0°C to SET] [-148.0°F to SET] [SET to 150.0°C] [SET to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] 0 to 255 min
0 to 50 min
0 to 100
0 to 23h50min [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] [0.0°C to 25.0°C] [0.0°F to 45.0°F] [0.0°C to 25.0°C] [0.0°F to 45.0°F] 0 to 255 min
0 to 255 min [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] n(0); Y(1) [-12.0°C to 12.0°C] [-21.6°F to 21.6°F] °C(0); °F(1)
dE(0); in(1) P1(0); P2(1); P3(2); P4(3); SEt(4); dtr(5) P1(0); P2(1); P3(2); P4(3); SEt(4); dtr(5)
0.0 to 20min00sec
1 to 99

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dEF

EdF Defrost mode

rtC

Pr2

rtC(0); in(1)

dEF

tdF Defrost type: electric heating, hot gas

EL

Pr2

EL(0); in(1)

dEF

dFP Probe selection for defrost control

P2

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

dEF

dtE End defrost temperature

48.0

Pr2

°F

dEF

idF

Interval between two successive defrost cycles

24

Pr2

ora

[-50.0°C to 50.0°C] [-58.0°F to 122.0°F] 0 to 255 hours

dEF

MdF Maximum length of defrost cycle

20

Pr2

min

0 to 255 min

dEF

dSd Start defrost delay

0

Pr2

sec

0 to 255 sec

dEF

StC

Compressor stop before starting any defrost

0

Pr2

sec

0 to 255 sec

dEF

dFd Displaying during defrost

dEF

Pr2

rt(0); it(1); SEt(2); dEF(3); Coo(4)

dEF

dAd

Temperature display delay after any defrost cycle

0

Pr2

min

0 to 255 min

dEF

Fdt Draining time

1

Pr2

min

0 to 255 min

dEF

Hon

Drain heater enabled after draining time (par. Fdt)

2

Pr2

min

0 to 255 min

dEF

dPo Defrost cycle enebled at stat-up

no

Pr2

n(0); Y(1)

dEF

od1

Automatic defrost (at the beginning of any energy saving mode)

no

Pr2

n(0); Y(1)

FAn

FAP Probe selection for evaporator fan

P2

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

FAn

FSt Evaporator fan stop temperature

FAn

HYF Evaporator fan regulator differential

50.0

Pr2

°F

4.0

Pr2

°F

[-50.0°C to 50.0°C] [-58.0°F to 122.0°F] [0.1°C to 25.0 °C] [0.1°F to 45.0°F]

FAn

FnC Evaporator fan operating mode

C-n

Pr2

C-n(0); O-n(1); C-Y(2); O-Y(3)

FAn

Fnd Evaporator fan delay after defrost cycle

1

Pr2

min

FAn

FCt

Differential temperature for cyclic activation of evaporator fans (o=disabled)

0

Pr2

°F

FAn

FSU Evaporator fan operating mode

Std

Pr2

0 to 255 min
[0°C to 50°C] [0°F to 90°F] Std(0); FoF(1); Fon(2)

FAn

Ft

Evaporator fan controlled during defrost

no

Pr2

FAn

Fon

Evaporator fan ON time in normal mode (with compressor OFF)

5

Pr2

min

FAn

FoF

Evaporator fan OFF time in normal mode (with compressor OFF)

10

Pr2

min

FAn

Fo1

Evaporator fan ON time in energy saving mode (with compressor OFF)

5

Pr2

min

FAn

FF1

Evaporator fan OFF time in energy saving mode (with compressor OFF)

10

Pr2

min

FAn

Fd1 Evaporator fan delay

0

Pr2

sec

n(0); Y(1) 0 to 255 min 0 to 255 min 0 to 255 min 0 to 255 min 0 to 255 sec

FAn

Fd2 Evaporator fan delay after closing door

0

Pr2

sec

0 to 255 sec

FAn

FAC Probe selection for condenser fan

P3

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

FAn

St2 Set Point 2 regulation (for condenser fan) 50.0

Pr2

°F

FAn

Hy2 Set Point 2 differential (for condenser fan) 20.0

Pr2

°F

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F]

FAn

FCC Condenser fan operating mode

C-n

Pr2

C-n(0); O-n(1); C-Y(2); O-Y(3)

FAn

Fd3 Condenser fan activation delay

0

Pr2

sec

0 to 255 sec

FAn

Fd4 Condenser fan deactivation delay

0

Pr2

sec

0 to 255 sec

AUS AUS AUS AUS

ACH SAA SHy ArP

Type of control for auxiliary regulator Set point for auxiliary regulator Auxiliary regulator differential Probe selection for auxiliary regulator

CL

Pr2

CL(0); Ht(1)

38.0

Pr2

°F

4.0

Pr2

°F

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F]

nP

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

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AUS AUS AUS AUS ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr ALr
oUt
oUt
oUt
oUt inP inP
inP

Sdd btA Ato AtF ALP ALC ALU ALL AFH ALd dot dAo AP2 AU1 AH1 Ad1 AL2 AU2 AH2 Ad2 dA2 bLL AC2 SAF tbA

Auxiliary regulator disabled during any defrost cycle
Base time for parameters Ato and AtF

no SEC

Interval of time with auxiliary output ON

0

Interval of time with auxiliary output OFF

0

Probe selection for temperature alarms

P1

Temperature alarms configuration: relative, absolute

Ab

High temperature alarm

302.0

Low temperature alarm

-100.0

Temperature alarm differential
Temperature alarm delay
Temperature alarm delay with door open
Temperature alarm delay at start-up Probe selection for second temperature alarm Pre-alarm threshold for second temperature alarm (absolute value) Second high temperature pre-alarm differential Second high temperature pre-alarm delay
Second low temperature alarm

4.0 0 00:00 00:00 P2
302.0
4.0 255 -148.0

Second high temperature alarm

302.0

Second temperature alarm differential
Second temperature alarm delay Second temperature alarm delay at startup Compressor OFF due to second low temperature alarm Compressor OFF due to second high temperature alarm
Differential for anti-freezing control
Alarm relay deactivation

4.0 0 00:00 no n -2.0 no

oA2 Relay output oA2 configuration

dEF

oA3 Relay output oA3 configuration

FAn

oA4 Relay output oA4 configuration

LiG

AOP Alarm relay polarity

CL

ibt

Base times for digital inputs

Sec

i1P Digital input 1 polarity

CL

i1F Digital input 1 configuration

dor

Pr2

n(0); Y(1)

Pr2

SEC; Min

Pr2

sec

0 to 255 sec/min

Pr2

sec

0 to 255 sec/min

Pr1

nP(0); P1(1); P2(2); P3(3); P4(4)

Pr1

rE(0); Ab(1)

Pr1

°F

°C[0.0° to 50.0° or ALL to 150.0°] °F[0.0° to 90.0° or ALL to 302.0°]

Pr1

°F

°C[0.0° to 50.0° or -100.0° to ALU] °F[0.0° to 90.0° or -148.0° to ALU]

Pr1

°F

[0.1°C to 25.0°C] [0.1°F to 45.0°F]

Pr1

min

0 to 255 min

Pr1 mm:ss

0.0 to 24min00sec

Pr1 hh:mm

0.0 to 24h00min

Pr2

nP(0); P1(1); P2(2); P3(3); P4(4)

Pr2

°F

Pr2

°F

Pr2

min

Pr2

°F

Pr2

°F

Pr2

°F

Pr2

min

[-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] 0 to 255 min
[-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [-100.0°C to 150.0°C] [-148.0°F to 302.0°F] [0.1°C to 25.0°C] [0.1°F to 45.0°F] 0 to 255 min

Pr2 hh:mm

0.0 to 24h00min

Pr2

n(0); Y(1)

Pr2

n(0); Y(1); MAn(2)

Pr2

°F

[-12.0°C to 12.0°C] [-21.6°F to 21.6°F]

Pr2

n(0); Y(1)

nu(0); CP1(1); dEF(2); FAn(3);

Pr2

ALr(4); LiG(5); AUS(6); db(7); onF(8); HES(9); Cnd(10); CP2(11);

dF2(12); HEt(13); inv(14)

nu(0); CP1(1); dEF(2); FAn(3);

Pr2

ALr(4); LiG(5); AUS(6); db(7); onF(8); HES(9); Cnd(10); CP2(11);

dF2(12); HEt (13); inv(14)

nu(0); CP1(1); dEF(2); FAn(3);

Pr2

ALr(4); LiG(5); AUS(6); db(7); onF(8); HES(9); Cnd(10); CP2(11);

dF2(12); HEt (13); inv(14)

Pr2

oP(0); CL(1)

Pr1

SEC(0); Min(1)

Pr1

oP(0); CL(1)

nu(0); dor(1); dEF(2); AUS(3);

Pr1

ES(4); EAL(5); bAL(6); PAL (7); FAn(8); HdF(9); onF(10); LiG(11);

CC(12); EMt(13)

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inP

did

Digital input 1 alarm delay (base time depends on par. ibt)

0

Pr1

sec

0 to 255 min/sec

inP

i2P Digital input 2 polarity

CL

Pr1

OP(0); CL(1)

inP

i2F Digital input 2 configuration

EAL

Pr1

nu(0); dor(1); dEF(2); AUS(3); ES(4); EAL(5); bAL(6); PAL (7); FAn(8); HdF(9); onF(10); LiG(11);
CC(12); EMt(13)

inP

d2d

Digital input 2 alarm delay (base time depends on par. ibt)

0

Pr1

sec

0 to 255 min/sec

inP

nPS

Number of external pressure switch alarms before stopping the regulation

0

Pr2

0 to 15

inP

odC

Compressor and fan status after door opening

no

Pr2

no(0); FAn(1); CPr(2); F-C(3)

inP

rrd Regulation restart after door alarm

no

Pr2

n(0); Y(1)

ES

ErA Energy saving algorithm

nu

Pr2

nu(0); bAS(1)

ES

HES

Energy saving mode temperature differential

0

Pr1

°F

ES

LdE

Energy saving controls the lights (lights OFF when energy saving mode is active)

no

Pr1

ES

StE

Period to switch from normal mode to energy saving mode

00:00

Pr1 hh:mm

ES

EtS

Period to switch from energy saving mode to normal mode

00:00

Pr1 hh:mm

ES

dS

Door opening time to switch from EtS to StE

0

Pr1

sec

Cnt

n1H

Number of activations for relay output oA1 (thousands of)

Pr1

Cnt

n1L

Number of activations for relay output oA1 (units of)

Pr1

Cnt

n2H

Number of activations for relay output oA2 (thousands of)

Pr1

Cnt

n2L

Number of activations for relay output oA2 (units of)

Pr1

Cnt

n3H

Number of activations for relay output oA3 (thousands of)

Pr1

Cnt

n3L

Number of activations for relay output oA3 (units of)

Pr1

Cnt

n4H

Number of activations for relay output oA4 (thousands of)

Pr1

Cnt

n4L

Number of activations for relay output oA4 (units of)

Pr1

Cnt

n5H

Number of total activations of digital input 1 (thousand of)

Pr1

Cnt

n5L

Number of total activations of digital input 1 (units of)

Pr1

Cnt

n6H

Number of total activations of digital input 2 (thousand of)

Pr1

Cnt

n6L

Number of total activations of digital input 2 (units of)

Pr1

Cnt

F1H

Number of working hours for relay output oA1 (thousands of)

Pr1 hours

Cnt

F1L

Number of working hours for relay output oA1 (units of)

Pr1 hours

Cnt

F2H

Number of working hours for relay output oA2 (thousands of)

Pr1 hours

Cnt

F2L

Number of working hours for relay output oA2 (units of)

Pr1 hours

Cnt

F3H

Number of working hours for relay output oA3 (thousands of)

Pr1 hours

Cnt

F3L

Number of working hours for relay output oA3 (units of)

Pr1 hours

Cnt

F4H

Number of working hours for relay output oA4 (thousands of)

Pr1 hours

[-30°C to 30°C] [-54°F to 54°F] n(0); Y(1) 0 to 23h50min; nu 0 to 23h50min; nu
0 to 999 sec read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only read only

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Cnt rtC rtC rtC rtC rtC rtC rtC rtC rtC
rtC
rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC rtC E2 E2 E2 CoM CoM CoM Ui Ui Ui inF inF inF inF inF inF inF

F4L Hur Min dAY dYM Mon YAr Hd1 Hd2 iLE
dLE
iSE dSE dd1 dd2 dd3 dd4 dd5 dd6 dd7 Ld1 Ld2 Ld3 Ld4 Ld5 Ld6 MAP LdM rHA Adr bAU PAr SCS bS PSU dP1 dP2 dP3 dP4 rSE FdY FMn

Number of working hours for relay output oA4 (units of) Hours Minutes Day of the week Day of the month Month Year First day of weekend Second day of weekend Energy saving cycle starting time on working days Energy saving cycle duration on working days Energy saving cycle starting time on weekends Energy saving cycle duration on weekends Sunday defrost Monday defrost Tuesday defrost Wednesday defrost Thursday defrost Friday defrost Saturday defrost 1st defrost starting time 2nd defrost starting time 3rd defrost starting time 4th defrost starting time 5th defrost starting time 6th defrost starting time Current configuration Restore default factory setting Reset Haccp values Serial address

nu nu 00:00
00:00
00:00 00:00
no no no no no no no 00:00 00:00 00:00 00:00 00:00 00:00 0 0 0 1

Baudrate

9.6

Parity control

no

User interface timeout

60

Sound Level

3

Password for protected level Pr2

Probe P1 value visualization

Probe P2 value visualization

Probe P3 value visualization

Probe P4 value visualization
Real regulation Set Point (SET + ES + SETd)
Firmware release date: day

Firmware release date: month

Pr1 hours Pr1 Pr1 Pr1 Pr1 Pr1 Pr1 Pr2 Pr2 Pr2 hh:mm

read only read only read only read only read only read only read only Sun(0) to SAt(6); nu(7) Sun(0) to SAt(6); nu(7) 0.0 to 23h50min

Pr2 hh:mm

0.0 to 24h00min

Pr2 hh:mm

0.0 to 23h50min

Pr2 hh:mm

0.0 to 24h00min

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr2 hh:mm 0.0 to 23h50min(143); nu(144)

Pr1

C-1(0); C-2(1)

Pr2

n(0); Y(1)

Pr2

n(0); Y(1)

Pr2

1 to 247

Pr2

9.6(0); 19.2(1); 38.4(2); 57.6(3);

Pr2

no(0); odd(1); EvE(2)

Pr2

sec

1 to 255 sec

Pr2

0 to 5

Pr2

0 to 999

Pr1

read only

Pr1

read only

Pr1

read only

Pr1

read only

Pr1

read only

Pr1

read only

Pr1

read only

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inF

FYr Firmware release date: year

inF

rEL Firmware release

inF

SUb Firmware sub release

inF

Ptb Parameter map version

6. REGULATION

Pr1

read only

Pr1

read only

Pr1

read only

Pr1

read only

The regulation is based on the temperature measured by the thermostat probe (P1) with a positive differential respect to the set point: if the temperature increases and reaches the set point plus differential, the compressor will start. The compressor will stop when the temperature reaches the set point value again. In case of fault because of the thermostat probe, the start and stop of the compressor are timed through parameters CoF and Con.

7. ENERGY SAVING
The standard SET-POINT (SET) is used to maintain the temperature at a certain value when the energy saving status (ES) is not active. On the other hand, when the ES status is active a different SET-POINT (SET_ES), higher than the standard one, will be used. The parameter HES defines the energy setpoint according to the following formula: SET_ES = SET + HES There are also two different differential values for SET and SET_ES, which are used for compressor cut-in and cut-out: when ES status is active, the HYE parameter will be used instead of the HY parameter.
7.1 BASIC ENERGY SAVING ALGORITHM
The energy saving status will be always saved in the internal memory to resume previous operation if a power failure occurs. The presence of a door switch to work properly (for example: i1F=dor) is required.
7.1.1 PARAMETERS INVOLVED
· ErA: energy saving algorithm · i1F or i2F: set as door input to monitor the appliance usage · StE: interval to switch from normal to energy saving mode · EtS: interval to switch from energy saving to normal mode · HES: SETPOINT differential when energy saving mode active · HYE: regulation differential when energy saving mode is active · dS: interval for door opening detection · LdE: light output controlled by energy saving (OFF when energy saving mode is active)

FROM Normal mode
Energy Saving

TO Energy Saving
Normal mode

MODE
Activate the ECO function from Virtual Keyboard screen. Door continuously closed for time StE.
Activate the ECO function from Virtual Keyboard screen. Controller in ES mode for time EtS. If the controller is in ES mode, it returns in Standard mode when the door stays open more than time dS.

NOTE: the cycling mode (ES – Normal mode – ES – etc.) works if i1F=dor, EtS and StE are different from zero. If EtS=0 or StE=0, the controller will not change the operating mode, and it will be possible to change from the normal mode to the energy saving mode by using the ES button or by setting i1F=ES.

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8. PULL DOWN FUNCTION

The Pull Down is automatically activated: · After any defrost cycle · After power-on if T>SET+CCS · When the regulation probe temperature T is:
o T>SET+HY+oHt value in normal mode o T>SET+HES+HYE+oHE value in energy saving mode In these cases, a different set-point value (SET+CCS) will be used. As soon as the room temperature reaches the SET+CCS value, the compressor will stop and the normal regulation will restart. NOTE: · Pull Down function is disabled when CCS=0 or CCt=0. · The CCt parameter sets the maximum activation time for any pull down. When CCt expires, the Pull Down will be immediately stopped and the standard SET-POINT will be restored

9. DEFROST OPERATIONS

Any defrost operation can be controlled in the following way: · EdF=rtC: by using an internal real-time clock (only for models equipped with RTC) · EdF=in: timed defrost, in this case a new defrost will start as soon as the idF timer elapses
9.1 TIMED OR TEMPERATURE CONTROLLED MODE
Two defrost modes are available: timed or controlled by a temperature probe. A couple of parameters are required to control intervals between defrost cycles (idF) and maximum duration (MdF). During a defrost cycle it is possible to select some different visualizations by using the par. dFd. Available defrost types are: · tdF=EL: with an electric heater · tdF=in: by using hot gas cycle

10. EVAPORATOR FAN

To enable the evaporator fan management it is required to set an evaporator probe (par. FAP). Here are the involved parameters: · FAP: to select the control probe · FSt: to select the deactivation setpoint · HYF: differential · FnC: to define the working mode:
o C-n: in parallel with compressor output and stopped during any defrost. When compressor is OFF, they will start a duty-cycle mode (see FoF, Fon, FF1 and Fo1 parameters)
o O-n: always on, stopped during any defrost o C-Y: in parallel with compressor output and always on during any defrost. When compressor is
OFF, they will start a duty-cycle mode (see FoF, Fon, FF1 and Fo1 parameters) o o-Y: always on · Fnd: activation delay after any defrost
10.1 EVAPORATOR FAN AND DIGITAL INPUT
When a digital input is configured as a door switch (i1F or i2F=dor) and this digital input is active, evaporator fan and compressor status will depend on par. odC: · odC=no: normal regulation · odC=FAn: evaporator fan OFF · odC=CPr: compressor OFF · odC=F-C: compressor and evaporator fan OFF

When rrd=Y, the regulation restarts after d1d or d2d time.

11. CONDENSER FAN

To enable the condenser fan management it is required to set a condenser probe (par. FAC). Here are the involved parameters: · FAC: to select the control probe

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· St2: to select the deactivation setpoint · HY2: differential · FCC: to define the working mode:
o C-n: in parallel with compressor output and stopped during any defrost. When compressor is OFF, they will start a duty-cycle mode (see FoF, Fon, FF1 and Fo1 parameters)
o O-n: always on, stopped during any defrost o C-Y: in parallel with compressor output and always on during any defrost. When compressor is
OFF, they will start a duty-cycle mode (see FoF, Fon, FF1 and Fo1 parameters) o o-Y: always on
12. DIGITAL OUTPUTS
Depending on the model, one or more digital outputs (relays) can be configurated with one of the following functionalities.
12.1 COMPRESSOR OUTPUT (oAx = CP1)
With oAx=CP1 the relay operates as the main regulation output.
12.2 DEFROST OUTPUT (oAx = dEF)
With oAx=dEF the relay operates as a defrost output.
12.3 EVAPORATOR FAN OUTPUT (oAx = FAn)
With oAx=FAn the relay operates as an evaporator fan output.
12.4 ALARM OUTPUT (oAx = ALr)
With oAx=ALr the output operates as an alarm output. It is activated every time an alarm happens. Its status depends on the tbA parameter: if tbA=Y, the output is deactivated by pressing any key. If tbA=n, the alarm output stays on until the alarm condition recovers.
12.5 LIGHT OUTPUT (oAx = LiG)
With oAx=LiG the relay operates as a light output.
12.6 AUXILIARY OUTPUT (oAx = AUS)
The auxiliary output can be managed by digital inputs (oAx=AUS, i1F or i2F=AUS): the output is switched on and off following the relative digital input status.
12.6.1 AUXILIARY REGULATOR
The auxiliary regulator can be used to manage the auxiliary output. Here are the involved parameters: · ACH: type of regulation for the auxiliary relay: Ht = heating; CL = cooling · SAA: set point for auxiliary relay · SHY: auxiliary relay differential · ArP: probe for auxiliary relay · Sdd: auxiliary output off during defrost
12.6.2 TIMED ACTIVATION
The following parameters can be used to define fixed activation and deactivation intervals. · btA: base time for auxiliary output activation and deactivation intervals · Ato: auxiliary activation interval · AtF: auxiliary deactivation interval
12.6.3 GENERAL NOTES
if oAx=AUS and ArP=nP (no probe for auxiliary digital output) the AUX output can be managed: · by digital input if i1F=AUS or i2F=AUS · by auxiliary button (if set as AUS) · by serial command (Modbus protocol) · by fixed interval of time if Ato>0 and AtF>0 (if Ato=0 or AtF=0 the auxiliary output is disabled)

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12.7 DEAD BAND REGULATION (oAx = db)
With oAx=db the output can be used to control, for example, a heater element. It is used to implement a dead band regulation. If so: · oAx=db cut in is SET- HY · oA1=db cut out is SET
12.8 ON/OFF OUTPUT (oAx = onF)
When oAx=onF, the output is activated when the controller is switched on and deactivated when the controller is switched off.
12.9 ENERGY SAVING OUTPUT (oAx = HES)
When oAx=HES, the output is activated when the energy saving mode is active and vice-versa.
12.10 CONDENSER FAN OUTPUT (oAx = Cnd)
With oAx=Cnd the relay operates as a condenser fan output.
12.11 SECOND COMPRESSOR OUTPUT (oAx = CP2)
With oAx=CP2 the relay operates as a second regulation output. This function is available only for special models and normally must be not selected.
12.12 SECOND DEFROST OUTPUT (oAx = dF2)
With oAx=dF2 the relay operates as second defrost output. This function is available only for special models and normally must be not selected.
12.13 HEATER OUTPUT (oAx = HEt)
With oAx=HEt the relay operates as a heater output. In this case, it will be used during and after any defrost cycle. The par. Hon defines the time the relative output will stay active after the end of a defrost operation.
12.14 INVERTER OUTPUT (oAx = inV)
Function not available for this model.
13. DIGITAL INPUTS
The digital inputs are programmable by using par. i1F and i2F.
13.1 DOOR SWITCH (ixF=dor)
It signals the door status. Some relay outputs can be toggled depending on the odC parameter: · odC = no no change · odC = FAn evaporator fan will be switched off · odC = CPr compressor will be switched off · odC = F-C both compressor and evaporator fan will be switched off
Since the door is opened: · the door alarm is enabled · the display shows the message “dA” · the regulation restarts only if rrd = Y. The alarm stops as soon as the external digital input is disabled again. During door open conditions, the high and low temperature alarms are disabled.
13.2 START DEFROST (ixF=dEF)
It starts a defrost if all conditions are fulfilled (temperature, delays, etc.). After finishing a defrost, the normal regulation will restart only if the digital input is disabled, otherwise the instrument will wait until the MdF safety time is expired.
13.3 AUXILIARY OUTPUT (ixF=AUS)
The AUX output (if present and configured) will be enabled / disabled following the status of the relative digital input.

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13.4 ENERGY SAVING (ixF=ES) The energy saving mode will be enabled / disabled following the status of the relative digital input. 13.5 EXTERNAL WARNING ALARM (ixF=EAL) It is used to detect an external alarm. It does not lock the regulation. 13.6 EXTERNAL LOCK ALARM (ixF=bAL) It is used to detect any critical external alarm. It locks immediately the regulation. 13.7 EXTERNAL PRESSURE ALARM (ixF=PAL) It is used to detect any pressure external alarm. This signal locks the regulation after detecting nPS events in the interval dxd. 13.8 EVAPORATOR FAN MODE (ixF=FAn) It is used to control the evaporator fan. 13.9 REMOTE HOLIDAY MODE (ixF=HdF) It is used to force the holiday mode. 13.10 REMOTE ONOFF (ixF=onF) It is used to switch ON and OFF the device remotely. 13.11 LIGHT OUTPUT (ixF=LiG) It is used to control the light output. 13.12 CHANGE CONFIGURATION (ixF=CC) It is used to change the controller configuration. 13.13 MOTION SENSOR DETECTOR (ixF=EMt) It is used to connect an X-MOD motion sensor. Please note that motion sensor can be connected only to the HOTKEY port, so digital input 2 must be properly configured.

14. ALARM SIGNALLING

Label Cause P1 P1 probe failure P2 P2 probe failure P3 P3 probe failure P4 P4 probe failure HA High temperature alarm LA Low temperature alarm H2 Second high temperature alarm L2 Second low temperature alarm dA Door open alarm EA Warning external alarm CA Lock external alarm EE Internal memory alarm

Outputs Compressor output according to Con e CoF Depends on the relative function Depends on the relative function Depends on the relative function Outputs unchanged Outputs unchanged Outputs unchanged Outputs unchanged Compressor and fan follows par. odC Outputs unchanged Outputs disabled Outputs unchanged

14.1 ALARM RECOVERY

Probe alarms P1, P2, P3 and P4 are activated some seconds after detecting a fault condition in the relative
probe. These alarms are automatically reset some seconds after the relative probe restarts normal operations. Always check the connections (probe ­ device terminals) before replacing the probe. Temperature alarms HA, LA, H2 and L2 are automatically reset as soon as the temperature is within the normal working range. It is possible to reset the “EE” alarm by pressing any button. The alarms EA, CA and dA are automatically reset as soon as the relative digital input is disabled.
The internal buzzer can be muted by touching any area of the display and only if parameter tbA=Y.

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15. SERIAL COMMUNICATION
The device supports different baudrates (par. bAU) and parity control (par. PAr). Please check the serial network to adapt them according to the other devices. The XJ485CX serial interface is required to convert the TTL output into an RS485 signal.
16. INSTALLATION AND MOUNTING
Instrument XR70T shall be mounted on vertical panel, in a 29×71 mm hole, and fixed using the special bracket supplied. The temperature range allowed for correct operation is 0 to 60°C. Avoid places subject to strong vibrations, corrosive gases, excessive dirt or humidity. The same recommendations apply to probes. Let air circulate through the cooling holes.
17. WIRING DIAGRAM
Power Supply: 110VAC, 230VAC or 100-240VAC, 50-60Hz oA1: always set as main compresso output (CP1)

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18. TECHNICAL SPECIFICATIONS

FEATURES

DESCRIPTION

Housing

Self-extinguishing PC

Dimensions

Front fascia 38×80 mm; case depth 81mm

Mounting

Panel mounting, 71x29mm panel cut-out

Protection Power Supply Rated Power

Body: IP20; Front: IP66
230Vac 10%, 50/60Hz; 110Vac 10%, 50/60Hz; 100 to 240VAC10%, 50/60Hz; 12VAC 10% Overvoltage category II
12VAC: 3VA; 110VAC: 4VA; 230VAC: 4VA; 100-240VAC: 3VA

Display

White display, LED type, 3 digits with decimal point and multi-function icons

Terminal blocks

Plug-in or screw terminal block, wire section between 0,5 and 2,5 mm2 Max tightening force: 0.3 N/m for 3,5mm pitch, 0.4 N/m for 5,0mm pitch

Environment Operating Conditions Storage Conditions

Pollution degree 2, non-condensing humidity
IEC: 0T60°C; 20-85 rH% (non-condensing humidity) UL: -20T60°C; 20-85 rH% (non- condensing humidity)
-25T60°C; 20-85 rH% (non-condensing humidity)

Resistance to Heat and Fire Measurement range Accuracy

UL-V0
NTC: -40T110°C; resolution 0.1°C or 1°C (selectable) PT1000: -100T150°C; resolution 0.1°C or 1°C (selectable) PTC: -50T150°C; resolution 0.1°C or 1°C (selectable)
±1% compared to the full scale

Inputs

Up to 4 NTC, PTC or PT1000 (configurable) Up to 2 voltage free contacts

Relay Outputs

Nominal

oA1

SPST 16A, 250VAC

oA2

SPDT 8A, 250VAC

oA3

SPST 8A, 250VAC

oA4

SPST 5A, 250VAC

Action type 1B

UL
10FLA, 60LRA, 30k cycles Pilot Duty B300, 6k cycles
½ hp, 240 Vac, 30k cycles Pilot Duty B300, 30k cycles
½ hp, 240 Vac, 30k cycles Pilot Duty B300, 30k cycles
1.9FLA, 11.4LRA, 30k cycles Pilot Duty B300, 30k cycles

IEC
10(4)A, 250 Vac, 50-60 Hz, 100K cycles
8(3)A, 230 Vac, 50-60 Hz, 50K cycles
8(3)A, 230 Vac, 50-60 Hz, 50K cycles
5(1)A, 250 Vac, 50-60 Hz, 50K cycles

Real Time Clock

Data maintenance up to 6 months with lithium battery

HOT KEY port Approvals

MAX voltage allowed is 5 VDC. DO NOT CONNECT ANY EXTERNAL POWER SUPPLY
R290/R600a: relays tested according to IEC EN60079:0 and IEC EN60079:15 IEC60730-2-9: 2008 (Third Edition) and Am.1:2011 in conjunction with IEC 60730-1:2010 (Fourth Edition) UL 60730-1, 5th edition, dated August 03, 2016 UL 60730-2-9, 4th edition, dated February 14, 2017 CAN/CSA-E60730-1, 5th edition, dated November 01, 2017 CAN/CSA-E60730-2-9:15 3rd edition, dated September, 2015

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19. APPENDIX
19.1 TOOLS 19.1.1 XH-REP
The XH-REP remote display enables the visualization of a second temperature value. A special cable must be used to connect an XH-REP to the controller (code DD200002 00). The remote display usage will disable the serial communication.
19.1.2 X-MOD
The X-MOD is a motion detection sensor that allows to detect the proximity of customers or service staff. 5Vdc power supply version must be used. The X_MOD usage will disable the serial communication.
19.1.3 WIZMATE
WIZMATE software, used in combination with the XJ485USB, allows to manage the configuration of the controller.
19.1.4 HOTKEY The HOT-KEY is used for a quick and easy upload (from device to HOT-KEY) or download (from HOT-KEY to device) of the parameter map. The 64K version must be used (code DK00000300).
19.1.5 USB TO RS485 CONVERTER
XJ485USB is an optically isolated converter with 2.5kV maximum voltage isolation on data channels. It has a small plastic box with 2 indication LEDs, RX and TX, to quickly monitor the network communication. Power supply directly from USB port.

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19.2 EXAMPLE OF MENU NAVIGATION AND PARAMETER MODIFICATION
TAP and HOLD

PRESS “PRG”

TAP and HOLD “PRG”

H-SWIPE to browse

TAP and HOLD “PRG”
V-SWIPE to modify

(…)

TAP and HOLD “PRG”

to save and exit

and icons are blinking

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References

• fulltouch.info

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