Emerson Dixell XM660K Installing And Operating Instructions Download Page 8

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1592023220 XM660K_XM670K GB r5.4 2021.09.01

XM660K - XM670K

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17.

DEFAULT SETTING VALUES

Label

Menù

Parameter description

rtc

- - -

Pr1

Access to RTC submenu

SEC

LOC

- - -

LAN mode selection : Local or Global

SEt

2.0

-18.0

- - -

Set point

2.0

Pr1

Differential

-30

Pr2

Minimum set point

Pr2

Maximum set point

odS

Pr2

Outputs activation delay at start up

Pr2

Anti-short cycle delay

CCt

0.0

Pr2

Continous cycle duration

CCS

2.0

Pr2

Continuous cycle set point

Con

Pr2

Compressor ON time with faulty probe

CoF

Pr2

Compressor OFF time with faulty
probe

°C

Pr2

Measurement unit: Celsius ,
Fahrenheit

rES

Pr2

Resolution (only C) : decimal, integer

Lod

Pr2

Local display: default display

rEd

Pr1

Remote display: default display

dLy

Pr1

Display delay

rPA

Pr1

Regulation probe A

rPb

Pr1

Regulation probe B

rP3

Pr2

Regulation probe 3

rP4

Pr2

Regulation probe 4

rPd

rPA

Pr2

Temperature Regulation Strategy

rPE

100

Pr2

Virtual probe percentage (rPd=rAb)

dPA

Pr2

Defrost probe A

dPb

Pr2

Defrost probe B

tdF

Pr2

Kind of defrost: air, resistors, inversion

EdF

Pr2

Defrost mode: Clock or interval

Srt

150

Pr2

Differential for heater

Hyr

2.0

Pr2

Time out for heater (if temp > Srt)

tod

255

Pr2

Defrost with two probes

d2P

Pr2

Defrost with two probes

dtE

8.0

Pr1

First defrost termination temperature

dtS

8.0

Pr2

Second defrost termination
temperature

idF

Pr1

Interval between defrosts

idE

Pr2

Storage in EEPROM defrost interval

ndt

Pr2

Minimum Defrost Time

MdF

Pr2

Maximum defrost duration

dSd

Pr2

Delay for defrost on call

dFd

Pr2

Visualization during defrost

dAd

Pr2

Visualization delay for temperature
after defrost

Fdt

Pr2

Dripping time

dPo

Pr2

Defrost at power ON

dAF

0.0

Pr2

Delay defrost after freezing

Pdt

F-C

Pr2

Pump down type

Pdn

Pr2

Pump down duration

Ctd

Pr2

Differential for defrost start

nbd

4.0

Pr2

Minimum Compressor run time before
defrost

Mdb

16.0

Pr2

Maximum Compressor run time before
defrost

nct

-30.0

Pr2

Minimum coil temperature to trigger a
defrost

FAP

Pr2

Fan probe

FnC

O-y

o-y

o-n

Pr1

Fan operating mode

Fnd

Pr1

Fan delay after defrost

FCt

Pr2

Temperature differential to avoid short
cycles of fans

FSt

15.0

2.0

Pr1

Fan stop temperature

FHy

1.0

Pr2

Fan stop hysteresis

tFE

Pr2

Fan regulation by temperature in
defrost

Fod

Pr2

Fan activation time after defrost
(without compressor)

Fon

Pr2

Fan ON time

FoF

Pr2

Fan OFF time

trA

UAL

Pr2

Kind of regulation with PWM output

SOA

Pr2

Fixed speed for fan

SdP

30.0

Pr2

Default Dew Point value

ASr

1.0

Pr2

Differential for fan / offset for anti
sweat heater

PbA

5.0

Pr2

Proportional band for modulating
output

AMi

Pr2

Minimum output for modulating output

AMA

100

Pr2

Maximum output for modulating output

AMt

Pr2

1:Time with fan at maximum speed -
2:

Time output ON anti sweat heater

rAL

tEr

Pr2

Probe for temperature alarm

ALC

Pr1

Temperature alarm configuration :
relative / absolute

Label

Menù

Parameter description

ALU

Pr1

High temperature alarm setting

ALL

-30

Pr1

Low temperature alarm setting

AHy

1.0

Pr2

Differential for temperature alarm

ALd

Pr1

Temperature alarm delay

rA2

Pr2

Probe for temperature alarm 2

A2U

150

Pr2

High temperature alarm 2 setting

A2L

-40

Pr2

Low temperature alarm 2 setting

A2H

Pr2

Differential for temperature alarm 2

A2d

Pr2

Temperature alarm delay 2

dAO

1.0

Pr2

Delay of temperature alarm at start-up

EdA

Pr2

Alarm delay at the end of defrost

dot

Pr2

Temperature alarm exclusion after
door open

tbA

Pr2

Silencing alarm relay with buzzer

oA5*

ALr

Pr2

Relay 5 configuration

oA6*

AUS

Pr2

Relay 6 configuration

CoM

420

Pr2

Modulating output configuration

AOP

Pr2

Alarm relay polarity

iAU

Pr2

Auxiliary output independent from
ON/OFF state

i1P

Pr2

Digital input 1 polarity

i1F

dor

Pr1

Digital input 1 configuration

d1d

Pr1

Digital input 1 activation delay

i2P

Pr2

Digital input 2 polarity

i2F

LiG

Pr1

Digital input 2 configuration

d2d

Pr1

Digital input 2 activation delay

i3P

Pr2

Digital input 3 polarity

i3F

Pr1

Digital input 3 configuration

d3d

Pr1

Digital input 3 activation delay

nPS

Pr1

Pressure switch number

OdC

F-C

Pr2

Compressor and fan status when open
door

rrd

Pr2

Outputs restart after door open alarm

CbP

Pr2

Clock presence

Hur

- - -

Pr1

Current hour

Min

- - -

Pr1

Current minutes

dAY

- - -

Pr1

Current day

Hd1

Pr1

First weekly day

Hd2

Pr1

Second weekly day

Hd3

Pr1

Third weekly day

ILE

0.0

Pr1

Energy saving cycle start during workdays

dLE

0.0

Pr1

Energy saving cycle length during
workdays

ISE

0.0

Pr1

Energy saving cycle start during holidays

dSE

0.0

Pr1

Energy saving cycle length during
holidays

Ld1

6.0

Pr1

Workdays First defrost start

Ld2

13.0

Pr1

Workdays Second defrost start
(minimum as Ld1)

Ld3

21.0

Pr1

Workdays Third defrost start (minimum
as Ld2)

Ld4

Pr1

Workdays Fourth defrost start
(minimum as Ld3)

Ld5

Pr1

Workdays Fifth defrost start (minimum
as Ld4)

Ld6

Pr1

Workdays Sixth defrost start (minimum
as Ld5)

Sd1

6.0

Pr1

Holidays First defrost start

Sd2

13.0

Pr1

Holidays Second defrost start

Sd3

21.0

Pr1

Holidays Third defrost start

Sd4

Pr1

Holidays Fourth defrost start

Sd5

Pr1

Holidays Fifth defrost start

Sd6

Pr1

Holidays Sixth defrost start

HES

0.0

Pr1

Temperature increasing during Energy
Saving

PEL

Pr1

Energy saving activation when Light
switched off

LMd

Pr2

Defrost Synchronisation

dEM

Pr2

Defrost end Synchronisation

LSP

Pr2

SET-POINT Synchronisation

LdS

Pr2

Display Synchronisation (temperature
sent via LAN)

LOF

Pr2

ON/OFF Synchronisation

LLi

Pr2

Light Synchronisation

LAU

Pr2

AUX Synchronisation

LES

Pr2

Energy Saving Synchronisation

LSd

Pr2

Remote probe displaying

LCP

Pr2

P4 probe sent via LAN

StM

Pr2

Cooling request from LAN enable
compressor relay

ACE

Pr2

Cold Calling in LAN always enabled
even if the compressor block

P1C

ntc

Pr2

P1 configuration

OF1

0.0

Pr2

P1 calibration

P2C

ntc

Pr2

P2 configuration

OF2

0.0

Pr2

P2 calibration

Summary of Contents for Dixell XM660K

Page 1: ...TKEY connector can be used to connect X REP display Depending on the model 4 INSTALLATION AND MOUNTING This device can operate without any user interface but normal application is with Dixell CX660 or CH660 keyboard CX660 CH660 Fig A The CX660 or CH660 keyboard shall be mounted on vertical panel in a 29x71 mm hole and fixed using the special bracket supplied as shown in Fig A The temperature range...

Page 2: ... SET POINT FOR AIR TEMPERATURE REGULATION The thermostat set point is the value that will be used to regulate the air temperature The regulation output is controlled by the electronic valve or by the relay BEGIN Press SET button for 3 sec the measurement units will blink together Value modification or With the arrows it s possible to change the value within the LS and US parameters value EXIT By p...

Page 3: ... The LSn and LAn parameter are only to show the actual settings read only See the following example of configuration DAILY DEFROST FROM RTC CbP y EdF rtC IdF Parameter for safety reason force the value of Idf at 1 respect to the interval between two Ld parameters The IdF timer is reinitialized after defrost and at every power on DEFROST START at the time selected by the parameters Ld1 to Ld6 or Sd...

Page 4: ...work making all the other controllers start their own cycle This allows a perfect synchronisation of the defrost in the whole multiplexed cabinet according to LMd parameter Selecting dPA and dPb probes and by changing the dtP and ddP parameters the defrost can be started when the difference between dPA and dPb probes is lower than dtP for all ddP time This is useful to start defrost when a low the...

Page 5: ...om temperature If rPb nP the regulation is performed with real value of rPA rP3 Regulation probe 3 nP P1 P2 P3 P4 P6 third probe used to regulate room temperature with rPd rAb Aur LoE HiE rP4 Regulation probe 4 nP P1 P2 P3 P4 P6 fourth probe used to regulate room temperature with rPd rAb Aur LoE HiE rPd Temperature Regulation Strategy rPA rAb Aur LoE HiE rPA temperature detected by the probe set i...

Page 6: ...saving nt second map enabling cLn clean function dEn defrost off CP1 compressor 1 safety CP2 compressor 2 safety d1d Time interval delay for digital input alarm 0 255 min Time interval to calculate the number of the pressure switch activation when i1F PAL If I1F EAL or bAL external alarms d1d parameter defines the time delay between the detection and the successive signalling of the alarm If i1F d...

Page 7: ...N LIG This function allows to turn ON and OFF the light relay by using the digital input as external switch 14 8 REMOTE ON OFF ONF This function allows to switch ON and OFF the instrument 14 9 FHU NOT USED This function allows to change the kind of regulation from cooling to heating and viceversa 14 10 ENERGY SAVING INPUT ES The Energy Saving function allows to change the set point value as the re...

Page 8: ...AL tEr Pr2 Probe for temperature alarm ALC Ab Pr1 Temperature alarm configuration relative absolute Label M1 M2 M3 M4 Menù Parameter description ALU 10 10 10 10 Pr1 High temperature alarm setting ALL 30 30 30 30 Pr1 Low temperature alarm setting AHy 1 0 Pr2 Differential for temperature alarm ALd 15 15 15 15 Pr1 Temperature alarm delay rA2 nP Pr2 Probe for temperature alarm 2 A2U 150 150 150 150 Pr...

Page 9: ...tion LCL y Pr2 Light on during cleaning mode FCL y Pr2 Fan on during cleaning mode MAP 1 M Pr2 Map selection MP1 1 M Pr2 Map selection loaded by digital input Adr 1 Pr1 Modbus address br 96 Pr2 Baud Rate selection for ModBus 9600 or 19200 EMU nu Pr2 Emulation previous version 2V8 3V8 4V2 rEL 5 4 Pr2 Release code firmware only read SrL Pr2 Sub release firmware only read Ptb Pr2 Map EEPROM ID Pr2 32...

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Emerson Dixell XM660K, Installing And Operating Instructions

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