Emerson DIXELL XR30T Installing And Operating Instructions Download Page 17

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1592040000 XR30-60-70T EN v1.3 2020.08.26

XR30-60-70T

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SAF

Differential for anti-freezing control:

(-12.0 to 12.0°C; -21.0 to 21.0°F) the regulation stops if

T<SET+SAF

tbA

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)

Relay output oAx configuration:

(nu; CP1; dEF; FAn; ALr; LiG; AUS; db; onF; HES; Cnd)

=not used;

CP1

=compressor;

dEF

=defrost;

FAn

=ventilators;

ALr

=alarm;

LiG

=light;

AUS

=auxiliary relay;

onF

=always ON with instrument ON;

=neutral zone;

HES

=night

blinds;

Cnd

=condenser fan;

CP2

=second compressor;

dF2

=second defrost;

HEt

=heater

control;

inV

=do not use it.

AoP

Alarm relay polarity:

(oP; CL)

= alarm activated by closing the contact;

= 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)

= activated by closing the contact;

= activated by opening

the contact.

i1F

Digital input 1 configuration:

(nu; dor; dEF; AUS; ES; EAL; bAL; PAL; FAn; HdF; onF; LiG; CC;

EMt)



=not used



dor

= door switch function



dEF

= defrost activation



AUS

= auxiliary output



= energy saving mode activation



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



= change configuration (between C1 and C2)



EMt

= Motion sensor X-MOD

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.

i2F

Digital input 2 configuration:

(nu; dor; dEF; AUS; ES; EAL; bAL; PAL; FAn; HdF; onF; LiG; CC;

EMt)



= not used



dor

= door switch function



dEF

= defrost activation



AUS

= auxiliary output



= energy saving mode activation



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



= change configuration (between C1 and C2)



EMt

= Motion sensor X-MOD

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.

nPS

Number of external pressure switch alarms before stopping the regulation:

(0 to 15) after

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

Summary of Contents for DIXELL XR30T

Page 1: ...Full Touch XR30T XR60T XR70T V 1 3 ...

Page 2: ......

Page 3: ...ory storage management E2 19 5 1 14 Serial Communication port configuration parameters CoM 19 5 1 15 User Interface configuration parameters Ui 19 5 1 16 Information read only parameters inF 19 5 2 PARAMETER CONFIGURATION 1 20 5 3 PARAMETER CONFIGURATION 2 26 6 REGULATION 31 7 ENERGY SAVING 31 7 1 BASIC ENERGY SAVING ALGORITHM 31 7 1 1 PARAMETERS INVOLVED 31 8 PULL DOWN FUNCTION 32 9 DEFROST OPERA...

Page 4: ...T OUTPUT IXF LIG 35 13 12 CHANGE CONFIGURATION IXF CC 35 13 13 MOTION SENSOR DETECTOR IXF EMT 35 14 ALARM SIGNALLING 35 14 1 ALARM RECOVERY 36 15 SERIAL COMMUNICATION 36 16 INSTALLATION AND MOUNTING 36 17 WIRING DIAGRAM 36 17 1 XR70T 36 17 2 XR60T 37 17 3 XR30T 37 18 TECHNICAL SPECIFICATIONS 37 19 APPENDIX 39 19 1 TOOLS 39 19 1 1 XH REP 39 19 1 2 X MOD 39 19 1 3 WIZMATE 39 19 1 4 HOTKEY 39 19 1 5 ...

Page 5: ... 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...

Page 6: ...y 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 ...

Page 7: ... CONTACT dixell service emerson com 4 USER INTERFACE XR T 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 measur...

Page 8: ...MODE FUNCTION LIGHT OFF Function not available FLASH When in the Virtual Keyboard screen light output ON ON When in the Virtual Keyboard screen light output OFF COMPRESSOR OFF When in the Loads Info screen compressor output OFF FLASH Anti short cycle delay is running ON When in the Loads Info screen compressor output ON FAN OFF When in the Loads Info screen evaporator fan output OFF FLASH Activati...

Page 9: ...ree ONOFF OFF FLASH ON Only and always ON icon when the device is in standby mode PROG LEVEL 1 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 PROG LEVEL 2 OFF FLASH PROG LEVEL 2 and PROG LEVEL 1 icons toggle when the visualized value is editable ON Second level parameter labels of the pa...

Page 10: ...to browse through HOME Virtual Keyboard and Info View When in programming mode use horizontal swipe to browse through parameter menu V SWIPE Drag a finger across the screen from top to bottom or from bottom to top overlapping only one of the digits 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...

Page 11: ...OAD 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 bl...

Page 12: ...e 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 H swipe gesture The circular construction of this menu permits to move left or right through the groups Here are the available groups Group Label Description rEG Main regula...

Page 13: ...al 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 pow...

Page 14: ...se 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 01 P1 0 99 P2 5 1 4 Defrost configuration parameters dEF EdF Defrost mode in fixed intervals rtC following real time clock tdF Defrost type EL elec...

Page 15: ...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 Fnd Evaporator fan delay after defrost cycle 0 to 255 min delay before fan activation after any defrosts FCt Differential for...

Page 16: ... 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 AFH Temperature alarm differential 0 1 to 25 0 C 1 to 45 F alarm differential ALd Temperature alarm delay 0 to 255 min delay time between the detection of an alarm condition and the relative alarm signalling dot Temperature alarm delay with open door 0 0 to 24h00min res 10 min delay time between the detection of a temperature al...

Page 17: ...not used dor door switch function dEF defrost activation AUS auxiliary output ES energy saving mode activation 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 sensor X MOD did Digital inputs 1 alarm delay base time depe...

Page 18: ...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 dS 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 nES Number of motion detection...

Page 19: ...orking days 5 1 13 Memory storage management E2 MAP Current configuration C 1 C 2 to change configuration used LdM Restore default factory settings n Y select Y and confirm to reload factory default values for the configuration currently used rHA 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 Communicat...

Page 20: ...g mode SET HES HYE oHE 10 0 Pr2 C 0 0 C to 25 0 C 0 0 F to 45 0 F rEG Con Compressor ON time with faulty probe 10 Pr1 min 0 to 255 min rEG CoF Compressor OFF time with faulty probe 15 Pr1 min 0 to 255 min Prb P1C Probe P1 selection ntC Pr2 ntC PtC Pt1 Prb P2C Probe P2 selection ntC Pr2 ntC PtC Pt1 Prb P3C Probe P3 selection ntC Pr2 ntC PtC Pt1 Prb P4C Probe P4 selection ntC Pr2 ntC PtC Pt1 Prb ot ...

Page 21: ... 0 C to 50 0 C 58 0 F to 122 0 F FAn HYF Evaporator fan regulator differential 2 0 Pr2 C 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 0 to 255 min FAn FCt Differential temperature for cyclic activation of evaporator fans o disabled 0 Pr2 C 0 C to 50 C 0 F to 90 F FAn FSU Evaporator f...

Page 22: ...m delay at start up 00 00 Pr1 hh mm 0 0 to 24h00min ALr AP2 Probe selection for second temperature alarm P2 Pr2 nP 0 P1 1 P2 2 P3 3 P4 4 ALr AU1 Pre alarm threshold for second temperature alarm absolute value 150 0 Pr2 C 100 0 C to 150 0 C 148 0 F to 302 0 F ALr AH1 Second high temperature pre alarm differential 2 0 Pr2 C 0 1 C to 25 0 C 0 1 F to 45 0 F ALr Ad1 Second high temperature pre alarm de...

Page 23: ...ght output forced ON 0 function disabled 0 Pr2 0 to 255 min inP n01 Number of motion detections before activating light output valid if ixF EMt 0 Pr2 0 to 10 inP t01 Time with light output forced ON after motion detection 0 Pr2 0 to 255 min 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 cont...

Page 24: ...r1 read only rtC Min Minutes Pr1 read only rtC dAY Day of the week Pr1 read only rtC dYM Day of the month Pr1 read only rtC Mon Month Pr1 read only rtC YAr Year Pr1 read only rtC Hd1 First day of weekend nu Pr2 Sun 0 to SAt 6 nu 7 rtC Hd2 Second day of weekend nu Pr2 Sun 0 to SAt 6 nu 7 rtC iLE Energy saving cycle start time on working days 00 00 Pr2 hh mm 0 0 to 23h50min rtC dLE Energy saving cyc...

Page 25: ...d level Pr2 Pr2 0 to 999 inF dP1 Probe P1 value visualization Pr1 read only inF dP2 Probe P2 value visualization Pr1 read only inF dP3 Probe P3 value visualization Pr1 read only inF dP4 Probe P4 value visualization Pr1 read only inF rSE Real regulation Set Point SET ES SETd Pr1 read only inF FdY Firmware release date day Pr1 read only inF FMn Firmware release date month Pr1 read only inF FYr Firmw...

Page 26: ...in 0 to 255 min rEG CoF Compressor OFF time with faulty probe 15 Pr1 min 0 to 255 min Prb P1C Probe P1 selection ntC Pr2 ntC PtC Pt1 Prb P2C Probe P2 selection ntC Pr2 ntC PtC Pt1 Prb P3C Probe P3 selection ntC Pr2 ntC PtC Pt1 Prb P4C Probe P4 selection ntC Pr2 ntC PtC Pt1 Prb ot Probe P1 calibration 0 Pr1 F 12 0 C to 12 0 C 21 6 F to 21 6 F Prb P2P Probe P2 presence Y Pr1 n 0 Y 1 Prb oE Probe P2 ...

Page 27: ...tor fan delay after defrost cycle 1 Pr2 min 0 to 255 min FAn FCt Differential temperature for cyclic activation of evaporator fans o disabled 0 Pr2 F 0 C to 50 C 0 F to 90 F FAn FSU Evaporator fan operating mode Std Pr2 Std 0 FoF 1 Fon 2 FAn Ft Evaporator fan controlled during defrost no Pr2 n 0 Y 1 FAn Fon Evaporator fan ON time in normal mode with compressor OFF 5 Pr2 min 0 to 255 min FAn FoF Ev...

Page 28: ... 0 1 F to 45 0 F ALr Ad1 Second high temperature pre alarm delay 255 Pr2 min 0 to 255 min ALr AL2 Second low temperature alarm 148 0 Pr2 F 100 0 C to 150 0 C 148 0 F to 302 0 F ALr AU2 Second high temperature alarm 302 0 Pr2 F 100 0 C to 150 0 C 148 0 F to 302 0 F ALr AH2 Second temperature alarm differential 4 0 Pr2 F 0 1 C to 25 0 C 0 1 F to 45 0 F ALr Ad2 Second temperature alarm delay 0 Pr2 mi...

Page 29: ...itch from normal mode to energy saving mode 00 00 Pr1 hh mm 0 to 23h50min nu ES EtS Period to switch from energy saving mode to normal mode 00 00 Pr1 hh mm 0 to 23h50min nu ES dS Door opening time to switch from EtS to StE 0 Pr1 sec 0 to 999 sec ES nES Number of motion detections before disabling energy saving mode valid if ixF EMt 0 Pr1 0 to 255 Cnt n1H Number of activations for relay output oA1 ...

Page 30: ...start time on weekends 00 00 Pr2 hh mm 0 0 to 23h50min rtC dSE Energy saving cycle duration on weekends 00 00 Pr2 hh mm 0 0 to 24h00min rtC dd1 Sunday defrost no Pr2 n 0 Y 1 rtC dd2 Monday defrost no Pr2 n 0 Y 1 rtC dd3 Tuesday defrost no Pr2 n 0 Y 1 rtC dd4 Wednesday defrost no Pr2 n 0 Y 1 rtC dd5 Thursday defrost no Pr2 n 0 Y 1 rtC dd6 Friday defrost no Pr2 n 0 Y 1 rtC dd7 Saturday defrost no Pr...

Page 31: ...ndard 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...

Page 32: ...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 i...

Page 33: ...EF 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 a...

Page 34: ...ond 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 ...

Page 35: ... 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 ...

Page 36: ...internal buzzer can be muted by touching any area of the display and only if parameter tbA Y 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 XR ...

Page 37: ...minal 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 Data Storing Real Time Clock Data maintenance up to 6 months with lithium battery Other parameters internal flash Type of Action 1 B Pollution Degree 2 non condensing humidity Ambient Operating Temperature and Humidity IEC EN 0T60 C 20 85 rH non condensing humidity UL CAN CSA 20T60...

Page 38: ... load HP NO 240Vac 30K cycles Motor load HP NO 120Vac 30K cycles Pilot duty B300 NO 30K cycles 8 3 A NO 230Vac 50K cycles Maximum ampacity on common terminal Line for oAx 16A I O port HOT KEY MAX voltage allowed is 5 VDC DO NOT CONNECT ANY EXTERNAL POWER SUPPLY Purpose of control Operating control Construction of control Incorporated control intended to be used in Class I or Class II equipment App...

Page 39: ...upply 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...

Page 40: ...20 08 26 XR30 60 70T 40 40 H SWIPE to browse 19 2 EXAMPLE OF MENU NAVIGATION AND PARAMETER MODIFICATION and icons are blinking TAP and HOLD PRESS PRG TAP and HOLD PRG TAP and HOLD PRG to save and exit V SWIPE to modify TAP and HOLD PRG ...

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