Emerson Dixell XR20T Скачать руководство пользователя страница 32 | Manualshive

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1592040000 XR20-30-60-70T EN v1.5 2021.06.22

XR20-30-60-70T

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6.

REGULATION

The regulation is based on the temperature measured
by the thermostat probe (P1) with a positive differential
compared 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

.

6.1 DOUBLE COMPRESSOR REGULATION

The controller can drive double compressor circuits. To do this, a couple of relays need to be properly
configured:

oAx=CP1

and

oAy=CP2

.

The second compressor output is activated by following the

2CC

parameter:

-

If

2CC=FUL

then in parallel with the relay of the first compressor (

CP1

), with a possible delay as set

in the

AC1

parameter. Both compressors are switched off at the same time.

-

If

2CC=HAF

then

o

In normal mode: first compressor (CP1) cut-in is

T>SET+HY

, second compressor (CP2) cut-

in is

T>SET+HY+HY1

.

The delay

AC1

is always respected. The second compressor (CP2) is

deactivated when

T<SET+HY

.

o

In energy saving mode: first compressor (CP1) cut-in is

T>SET+HES+HY

, second compressor

(CP2) cut-in is

T>SET+HES+HY+HYS

.

The delay

AC1

is always respected. The second

compressor (CP2) is deactivated when

T<SET+HES+HY

.

With parameter

rCC

it is possible to enable the compressor rotation function: the activation of the first and

the second compressor will be alternated to equalize the number of working hours of both of them. In case of
hot gas defrost operation, it is possible to select if one or both compressors will be used.

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 open door detection

•

LdE:

light output controlled by energy saving (OFF when energy saving mode is active)

FROM

TO

MODE

Normal

mode

Energy

Saving

Activate the ECO function from Virtual Keyboard screen.
Door continuously closed for time

StE

.

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Содержание Dixell XR20T

Страница 1: ...Full Touch XR20T XR30T XR60T XR70T V 1 5 ...

Страница 2: ......

Страница 3: ...mory storage management E2 19 5 1 14 Serial Communication port configuration parameters CoM 19 5 1 15 User Interface configuration parameters Ui 20 5 1 16 Information read only parameters inF 20 5 2 PARAMETER CONFIGURATION 1 20 5 3 PARAMETER CONFIGURATION 2 26 6 REGULATION 32 6 1 DOUBLE COMPRESSOR REGULATION 32 7 ENERGY SAVING 32 7 1 BASIC ENERGY SAVING ALGORITHM 32 7 1 1 PARAMETERS INVOLVED 32 8 ...

Страница 4: ...6 13 12 PULL DOWN IXF CC 36 13 13 MOTION SENSOR DETECTOR IXF EMT 36 13 14 CHANGE CONFIGURATION IXF MAP 36 14 ALARM SIGNALLING 36 14 1 ALARM RECOVERY 36 15 SERIAL COMMUNICATION 37 16 INSTALLATION AND MOUNTING 37 17 WIRING DIAGRAMS 37 17 1 XR70T 37 17 2 XR60T 37 17 3 XR30T 38 17 4 XR20T 38 18 TECHNICAL SPECIFICATIONS 39 19 APPENDIX 40 19 1 TOOLS 40 19 1 1 XH REP 40 19 1 2 X MOD 40 19 1 3 WIZMATE 40 ...

Страница 5: ... 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 induct...

Страница 6: ...pply 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 a...

Страница 7: ...nfo 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 mea...

Страница 8: ...ON 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 Activ...

Страница 9: ...degree 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...

Страница 10: ...ht 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 ...

Страница 11: ...WNLOAD 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...

Страница 12: ...te 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 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 ALL All pa...

Страница 13: ...e 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 HY1 Second compressor regulation ...

Страница 14: ...s active 5 1 2 Probe configuration parameters Prb P1C Probe P1 selection ntC PtC Pt1 ntC NTC type PtC PTC type Pt1 PT1000 type P2C Probe P2 selection ntC PtC Pt1 ntC NTC type PtC PTC type Pt1 PT1000 type P3C Probe P3 selection ntC PtC Pt1 ntC NTC type PtC PTC type Pt1 PT1000 type P4C Probe P4 selection ntC PtC Pt1 ntC NTC type PtC PTC type Pt1 PT1000 type ot Probe P1 calibration 12 0 to 12 0 C 21 ...

Страница 15: ...rost phase SYd Type of synchronized defrost n SYn nSY n function disabled SYn synchronized all devices connected will start a defrost phase at the same time nSY de synchronized all devices connected will delay the beginning of the same defrost phase dt1 Differential temperature for latent heating control 0 1 to 1 0 C to catch the latent heating phase during any defrost ErS Restart regulation after...

Страница 16: ... 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 SAA SHY AUX Cut out is SAA ArP 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 Sdd Auxiliary regulator disabled during any defrost cycle n Y n the auxiliary relay ope...

Страница 17: ... 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 CP2 dF2 HEt nu not used CP1 compressor dEF defrost FAn ventilator...

Страница 18: ...n01 Number of motion detections before activating light output valid if ixF EMt 0 to 10 number of motion sensor detections before forcing the light output ON t01 Time with light output forced ON after motion detection 0 to 255 min interval with light output forced ON from motion sensor 5 1 10 Energy saving configuration parameters ES ErA Energy saving algorithm nu bAS nu disabled the energy saving...

Страница 19: ... to SAt nu setting for the first day of the weekend Hd2 Second day of weekend Sun to SAt nu setting for the second day of the weekend iLE Energy saving cycle start 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 dLE Energy saving cycle duration on working days 00h00min to 24h00min set...

Страница 20: ...ARAMETER CONFIGURATION 1 Group Par Description Value Protected U O M Range rEG SEt Set Point 3 0 Pr1 C LS to US rEG LS Minimum Set point 100 0 Pr1 C 100 0 C to SET 148 0 F to SET rEG US Maximum Set point 150 0 Pr1 C SET to 150 0 C SET to 302 0 F rEG HY Compressor regulation differential in normal mode 3 0 Pr1 C 0 1 C to 25 0 C 0 1 F to 45 0 F rEG HYE Compressor regulation differential in energy sa...

Страница 21: ...libration 0 0 Pr1 C 12 0 C to 12 0 C 21 6 F to 21 6 F diS CF Temperature measurement unit Celsius Fahrenheit C Pr1 C 0 F 1 diS rES Temperature resolution decimal integer dE Pr1 dE 0 in 1 diS Lod Probe default displayed P1 Pr1 P1 0 P2 1 P3 2 P4 3 SEt 4 dtr 5 diS dLy Temperature display delay resolution 10 sec 00 00 Pr1 mm ss 0 0 to 20min00sec diS dtr Probe visualization percentage F P1 P2 ex dtr 1 ...

Страница 22: ...n FAn FF1 Evaporator fan OFF time in energy saving mode with compressor OFF 10 Pr2 min 0 to 255 min FAn Fd1 Evaporator fan delay 0 Pr2 sec 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 10 0 Pr2 C 100 0 C to 150 0 C 148 0 F to 302 0 F FAn H...

Страница 23: ...t start up 00 00 Pr2 hh mm 0 0 to 24h00min ALr bLL Compressor OFF due to second low temperature alarm no Pr2 n 0 Y 1 ALr AC2 Compressor OFF due to second high temperature alarm n Pr2 n 0 Y 1 MAn 2 ALr SAF Differential for anti freezing control 1 0 Pr2 C 12 0 C to 12 0 C 21 6 F to 21 6 F ALr tbA Alarm relay deactivation no Pr2 n 0 Y 1 oUt oA2 Relay output oA2 configuration dEF Pr2 nu 0 CP1 1 dEF 2 ...

Страница 24: ...nt n1H Number of activations for relay output oA1 thousands of Pr1 read only Cnt n1L Number of activations for relay output oA1 units of Pr1 read only Cnt n2H Number of activations for relay output oA2 thousands of Pr1 read only Cnt n2L Number of activations for relay output oA2 units of Pr1 read only Cnt n3H Number of activations for relay output oA3 thousands of Pr1 read only Cnt n3L Number of a...

Страница 25: ... n 0 Y 1 rtC dd6 Friday defrost no Pr2 n 0 Y 1 rtC dd7 Saturday defrost no Pr2 n 0 Y 1 rtC Ld1 1st defrost start time 00 00 Pr2 hh mm 0 0 to 23h50min 143 nu 144 rtC Ld2 2nd defrost start time 00 00 Pr2 hh mm 0 0 to 23h50min 143 nu 144 rtC Ld3 3rd defrost start time 00 00 Pr2 hh mm 0 0 to 23h50min 143 nu 144 rtC Ld4 4th defrost start time 00 00 Pr2 hh mm 0 0 to 23h50min 143 nu 144 rtC Ld5 5th defro...

Страница 26: ...output regulation oAx db differential 4 0 Pr2 F 0 1 C to 25 0 C 0 1 F to 45 0 F rEG rAr Delay between compressor and db output oAx db activation and vice versa 0 Pr2 min 0 to 255 min rEG odS Output activation delay at start up 0 Pr1 min 0 to 255 min rEG AC Anti short cycle delay 0 Pr1 min 0 to 50 min rEG AC1 Anti short cycle delay 2nd compressor 0 Pr2 sec 0 to 255 sec rEG 2CC Activation mode for 2...

Страница 27: ... cycles 24 Pr2 ora 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 P...

Страница 28: ... regulator differential 4 0 Pr2 F 0 1 C to 25 0 C 0 1 F to 45 0 F AUS ArP Probe selection for auxiliary regulator nP Pr2 nP 0 P1 1 P2 2 P3 3 P4 4 AUS Sdd Auxiliary regulator disabled during any defrost cycle no Pr2 n 0 Y 1 AUS btA Base time for parameters Ato and AtF SEC Pr2 SEC Min AUS Ato Interval of time with auxiliary output ON 0 Pr2 sec 0 to 255 sec min AUS AtF Interval of time with auxiliary...

Страница 29: ...EF 2 AUS 3 ES 4 EAL 5 bAL 6 PAL 7 FAn 8 HdF 9 onF 10 LiG 11 CC 12 EMt 13 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 ...

Страница 30: ... read only Cnt F1H Number of working hours for relay output oA1 thousands of Pr1 hours read only Cnt F1L Number of working hours for relay output oA1 units of Pr1 hours read only Cnt F2H Number of working hours for relay output oA2 thousands of Pr1 hours read only Cnt F2L Number of working hours for relay output oA2 units of Pr1 hours read only Cnt F3H Number of working hours for relay output oA3 ...

Страница 31: ... Reset Haccp values 0 Pr2 n 0 Y 1 CoM Adr Serial address 1 Pr2 1 to 247 CoM bAU Baudrate 9 6 Pr2 9 6 0 19 2 1 38 4 2 57 6 3 CoM PAr Parity control no Pr2 no 0 odd 1 EvE 2 Ui b3C Button 3 configuration AUS Pr2 no 0 AUS 1 MAP 2 Ui b1F Button 1 enabled in stand by no Pr2 n 0 Y 1 Ui SCS User interface timeout 60 Pr2 sec 1 to 255 sec Ui bS Sound Level 3 Pr2 0 to 5 Ui PSU Password for protected level Pr...

Страница 32: ...the activation of the first and the second compressor will be alternated to equalize the number of working hours of both of them In case of hot gas defrost operation it is possible to select if one or both compressors will be used 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 t...

Страница 33: ...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 cycl...

Страница 34: ...x 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 th...

Страница 35: ... 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 13 DIGITAL ...

Страница 36: ...utput 13 12 PULL DOWN ixF CC It is used to force a cooling cycle 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 13 14 CHANGE CONFIGURATION ixF MAP It is used to change the controller configuration 14 ALARM SIGNALLING Label Cause Outputs P1 P1 pro...

Страница 37: ...d 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 T shall be mounted on vertical panel in a 29x71 mm hole and fixed using the special bracket supplied The temperature range allowed for correct operation is 0 to 60 C A...

Страница 38: ...1 06 22 XR20 30 60 70T 38 41 17 3 XR30T Power Supply 110VAC 230VAC or 100 240VAC 50 60Hz oA1 always set as main compressor output CP1 17 4 XR20T Power Supply 110VAC 230VAC or 100 240VAC 50 60Hz oA1 always set as main compressor output CP1 ...

Страница 39: ...L 94 V 0 Measurement range 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 Accuracy 1 compared to the full scale Inputs Up to 4 NTC PTC or PT1000 configurable Up to 2 voltage free contacts Relay Outputs Nominal UL IEC oA1 SPST 16A 250Vac Resistive load 12A NO 230Vac 50K cycles Motor load 240Vac NO 1...

Страница 40: ...r 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 ...

Страница 41: ...06 22 XR20 30 60 70T 41 41 19 2 EXAMPLE OF MENU NAVIGATION AND PARAMETER MODIFICATION TAP and HOLD 3 sec anywhere TAP and HOLD PRG H SWIPE to browse and icons are blinking TAP and HOLD PRG V SWIPE to modify TAP and HOLD PRG to save and exit ...

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