Evco Evbox light js200 User manual

EVBOX Light JS200 Control solutions for cold rooms with

remote moto-condensing unit

ENGLISH

- Degree of protection IP65.

- Power supply 115... 230 VAC.

- Cabinet probe and evaporator probe (PTC/NTC).

- Door switch input.

- Compressor relay 30 A res. @ 250VAC.

- Alarm buzzer.

- TTL MODBUS slave port for EVconnect app, EPoCA remote monitoring system or for

BMS.

- Direct connection to the load.

1 MEASUREMENTS AND INSTALLATION | Measurements in mm (inches)

1.1 User interface

To be fitted on-board, fixing screws not provided.

N.B.

To ensure the degree of protection IP65 of the whole covering, install the device

using the appropriate holes only.

1. If the connecting cables come from above, drill a hole having a diameter suitable the

cables to pass on the upper part of the container using the proper drilling lead (5); if

vice versa the cables come from below, drill the hole on the lower part of the container.

The maximum diameter of the hole must be 14.0 mm (9/16 in).

2. Make sure the gasket (2) is into the proper seat.

3. If the connecting cables come from above, fasten the container against the wall with 2

screws (1) using the proper holes on the lower part of the container (3); if vice versa

the cables come from below, fasten the container using the holes on the upper part.

Use cylindrical head screw.

4. Screw the junction for rigid tube (9) to the cover cap (10).

5. Connect the user interface (11) to the control module as shown in the section

ELECTRICAL CONNECTION getting the cables to pass through the proper hole (5) and

through the junction for rigid tube (9).

6. Fasten the user interface (11) pushing it from the front into the proper seat (6).

7. Make sure the gaskets (4) are into the proper seats.

8. Fasten the cover caps (10) and (12) on the upper part and on the lower part of the

container.

9. Fasten the container against the wall with 2 screws (1) using the proper holes (7) on

the cover cap (10).

10. Fasten the coverscrew caps (8) into the proper holes (7) of the cover cap (10).

1.2 Control module

To be fitted on a DIN rail, in a control panel.

INSTALLATION PRECAUTIONS

- Ensure that the working conditions are within the limits stated in the TECHNICAL

SPECIFICATIONS section.

- Do not install the device close to heat sources, equipment with a strong magnetic field,

in places subject to direct sunlight, rain, damp, excessive dust, mechanical vibrations

or shocks.

- Any metal parts close to the control module must be far enough away so as not to

compromise the safety distance.

- In compliance with safety regulations, the device must be installed properly to ensure

adequate protection from contact with electrical parts. All protective parts must be

fixed in such a way as to need the aid of a tool to remove them.

2 ELECTRICAL CONNECTION

N.B.

- Use cables of an adequate section for the current running through them.

- To reduce any electromagnetic interference connect the power cables as far away

as possible from the signal cables.

PRECAUTIONS FOR ELECTRICAL CONNECTION

- If using an electrical or pneumatic screwdriver, adjust the tightening torque.

- If the device has been moved from a cold to a warm place, the humidity may have

caused condensat. to form inside. Wait about an hour before switching on the power.

- Make sure that the supply voltage, electrical frequency and power are within the set

limits. See the section TECHNICAL SPECIFICATIONS.

- Disconnect the power supply before doing any type of maintenance.

- Do not use the device as safety device.

- For repairs and for further information, contact the EVCO sales network.

3 FIRST-TIME USE

1. Install following the instructions given in the section MEASUREMENTS AND

INSTALLATION.

2. Connect the user interface to the control module as shown in the section ELECTRICAL

CONNECTION without powering up the device.

3. Power up the device and an internal test will be run.

The test normally takes a few seconds, when it is finished the display will switch off.

4. Configure the device as shown in the section Setting configuration parameters.

Recommended configuration parameters for first-time use.

PAR.

DEF.

PARAMETER

MIN... MAX.

SP 0.0 setpoint r1... r2

P0 1 probe type 0 = PTC 1 = NTC

P2 0 temperature unit of measurement 0 = °C 1 = °F

defrost type

0 = electric 1 = hot gas

2 = compressor stopped

Then check that the remaining settings are appropriate; see the section

CONFIGURATION PARAMETERS.

5. Disconnect the device from the mains.

6. Make the electrical connection as shown in the section ELECTRICAL CONNECTION

without powering up the device.

7. For the connection in an RS-485 network connect the interface EVIF22TSX or

EVIF23TSX, to activate real time functions connect the module EVIF23TSX, to use the

device with the EPoCA remote monitoring system, connect the EVIF25TWX module, to

use the device with the Android APP EVconnect connect the interface EVIF25TBX

(EVlink); see the relevant instruction sheets. If EVIF22TSX or EVIF23TSX is used,

set parameter bLE to 0.

8. Power up the device.

4 USER INTERFACE AND MAIN FUNCTIONS

4.1 Switching the device on and off

If POF = 1 (default), touch the ON/STAND-BY key for 2s.

If the device is switched on, the display will show the P5 value ("cabinet temperature" default);

if the display shows an alarm code, see the section ALARMS.

LED

OFF

FLASHING

compressor on

compressor off

- compressor protection active

- setpoint being set

evaporator fan on

evaporator fan off

evaporator fan stop active

cabinet light on

cabinet light off

cabinet light on by digital input

AUX 1

auxiliary function 1 on

auxiliary function 1 off

- auxiliary function 1 on by digital

input

- auxiliary function 1 delay active

AUX 2

auxiliary function 2 on

auxiliary function 2 off

- auxiliary function 2 on by digital

input

- auxiliary function 2 delay active

defrost or pre-drip

active

- defrost delay active

- dripping active

- energy saving active

- low consumption

active

view time

set date, time and day of the

current week

view temperature

quick cooling active

HACCP

saved HACCP alarm

new HACCP alarm saved

alarm active

If Loc = 1 (default) and 30s have elapsed without the keys being pressed, the display will show

the “Loc” label and the keypad will lock automatically.

4.2 Unlock keypad

Touch a key for 1s: the display will show the label “UnL”.

4.3 Set the setpoint (if r3 = 0, default)

Check that the keypad isn’t locked.

Touch the SET key.

Touch the UP or DOWN key within 15s to set the value within the

limits r1 and r2 (default “-40... 50”)

Touch the SET key (or do not operate for 15s).

4.4 Activate manual defrost

Check that the keypad isn’t locked and that quick cooling isn’t active.

Touch the DEFROST key for 2s.

If P3 = 1 (default), defrost is activated provided that the evaporator temperature is lower than

the d2 threshold.

4.5 Cabinet light on/off (if u1 or u11 = 0, default)

Touch the CABINET LIGHT key.

4.6 Button-operated load on/off (if u1 or u11 = 2)

1. Touch the CABINET LIGHT key (for 2s if u1 or u11 = 0=).

If u1 or u11 = 1, the demisting switch on for the u6 duration.

4.7 Silence buzzer (if u9 = 1, default)

Touch a key.

If u1 or u11 = 3 and u4 = 1, the alarm output is deactivated.

5 ADDITIONAL FUNCTIONS

5.1 Activate/deactivate overcooling

Check that the keypad isn’t locked and that defrosting isn’t active.

Touch the UP key for 2s.

The setpoint becomes “setpoint - r6”, for the r7 duration.

5.2 Activate/deactivate energy saving in manual mode

Check that the keypad isn’t locked.

Touch the DEFROST key.

The setpoint becomes “setpoint + r4”, at maximum for HE2 duration.

5.3 Activate the high or low humidity functions (if F0 = 5)

Check that the keypad isn’t locked.

Touch the DOWN key for 1s.

Touch the UP or DOWN key within 15s to select the label “rH”.

3. Touch the SET key for 2s until the display shows the right label

for the function (only touch the key to see the function

activated).

LAB.

DESCRIPTION

rhL

low humidity function (evaporator fan with F17 and F18 if the compressor is

off, on if the compressor is on)

rhH

high humidity function (evaporator fan on)

Touch the ON/STAND-BY key (or do not operate for 60s) to exit

the procedure.

5.4 View/delete compressor functioning hours

Check that the keypad isn’t locked.

Touch the DOWN key for 1s.

Touch the UP or DOWN key within 15s to select a label.

LAB.

DESCRIPTION

CH1

view compressor functioning hundreds of hours

CH2 view second compressor functioning hundreds of hours (if u1 oru11 = 7)

rCH delete compressor and second compressor functioning hours

3. Touch the SET key.

Touch the UP or DOWN key to set “149” (to select rCH).

Touch the SET key.

Touch the ON/STAND-BY key (or do not operate for 60s) to exit

the procedure.

5.5 View the temperature detected by the probes

Check that the keypad isn’t locked.

Touch the DOWN key for 1s.

Touch the UP or DOWN key within 15s to select a label.

LAB.

DESCRIPTION

Pb1 cabinet temperature (if P4 = 0, 1 or 2)

inlet air temperature (if P4 = 3)

Pb2

evaporator temperature (if P3 = 1 or 2)

Pb3

auxiliary temperature (if P4 = 1, 2 or 3)

Pb4 calculated product temperature (CPT; if P4 = 3)

3. Touch the SET key.

Touch the ON/STAND-BY key (or do not operate for 60s) to exit

the procedure.

6 SETTINGS

6.1 Setting configuration parameters

Touch the SET key for 4s: the display will show the label “PA”.

Touch the SET key.

Touch the UP or DOWN key within 15s to set the PAS value

(default “-19”).

Touch the SET key (or do not operate for 15s): the display will

show the label “SP”.

Touch the UP or DOWN key to select a parameter.

Touch the SET key.

Touch the UP or DOWN key within 15s to set the value.

Touch the SET key (or do not operate for 15s).

Touch the SET key for 4s (or do not operate for 60s) to exit the

procedure.

6.2 Set the date, time and day of the week (available with interface EVIF25TBX or

EVIF25TWX connected)

N.B.

- If the device is connected to the interface EVIF25TBX, do not disconnect the device

from the mains within two minutes since the setting of the time and day of the

week.

- if the device communicates with the EVconnect app, the date, time and day of the

week will be automatically set by the smartphone or tablet.

Check that the keypad isn’t locked.

Touch the DOWN key for 1s.

Touch the UP or DOWN key within 15s to select the label “rtc”.

Touch the SET key: the display will show the label “y” followed

by the last two figures of the year.

Touch the UP or DOWN key within 15s to set the year.

5. Repeat actions 3 and 4 to set the next labels.

LAB.

MEANING OF THE NUMBERS FOLLOWING THE LABEL

n month (01… 12)

d day (01… 31)

h time (00… 23)

minutes (00… 59)

Touch the SET key: the display will show the label for the day of

the week.

Touch the UP or DOWN key within 15s to set the day of the

week.

LAB.

DESCRIPTION

Mon Monday

tuE Tuesday

UEd Wednesday

thu

Thursday

Fri Friday

Sat Saturday

Sun Sunday

8. Touch the SET key: the device will exit the procedure.

Touch the ON/STAND-BY key to exit the procedure beforehand.

6.3 Reset the factory settings

N.B.

Check that the factory settings are appropriate; see the section CONFIGURATION

PARAMETERS.

Touch the SET key for 4s: the display will show the label “PA”.

Touch the SET key.

Touch the UP or DOWN key within 15s to set “149”.

Touch the SET key (or do not operate for 15s): the display will

show the label “dEF”.

Touch the SET key.

Touch the UP or DOWN key within 15s to set “1”.

Touch the SET key (or do not operate for 15s).

8. Interrupt the power supply to the device.

9. Touch the SET key for 2s before action 6 to exit the procedure

beforehand.

7 CONFIGURATION PARAMETERS

N. PAR. DEF. SETPOINT MIN... MAX.

1 SP 0.0 setpoint r1... r2

N. PAR. DEF. ANALOGUE INPUTS MIN... MAX.

CA1

0.0

cabinet probe offset

-25... 25 °C/°F

if P4 = 3, air in probe offset

3 CA2 0.0 evaporator probe offset -25... 25 °C/°F

4 CA3 0.0 auxiliary probe offset -25... 25 °C/°F

5 P0 1 probe type 0 = PTC 1 = NTC

6 P1 1 enable °C decimal point 0 = no 1 = yes

temperature unit of

measurement 0 = °C 1 = °F

evaporator probe function

0 = disabled

1 = defrost + fan

2 = fan

configurable input function

0 = digital input

1 = condenser probe

2 =

critical temperature probe

3 = air out probe

if P4 = 3, regulation temperature

= product temperature (CPT)

value displayed

0 = regulation temperature

1 = setpoint

2 = evaporator temperature

3 = auxiliary temperature

4 = air in temperature

inlet air weight for calculated

product temperature (CPT)

0... 100 %

CPT = {[(P7 x (inlet air T)] +

[(100 - P7) x (outlet air T)] :

100}

P8 5 display refresh time 0... 250 s : 10

PAR.

DEF.

REGULATION

MIN... MAX.

r0 2.0 setpoint differential 1... 15 °C/°F

r1 -40 minimum setpoint -99 °C/°F... r2

r2 50.0

maximum setpoint r1... 199 °C/°F

r3 0 enable setpoint block

0 = no 1 = yes

r4 0.0 setpoint offset in energy saving 0... 99 °C/°F

r6 0.0 setpoint offset in overcooling 0... 99 °C/°F

r7 0 overcooling duration 0... 240 min

r12

position of the r0 differential

0 = asymmetric

1 = symmetric

N. PAR. DEF. COMPRESSOR MIN... MAX.

compressor on delay after

power-on 0... 240 min

delay between 2 compressor

switch-ons

0... 240 min

C2 3 compressor off minimum time 0... 240 min

C3 0 compressor on minimum time 0... 240 s

compressor off time during

cabinet probe alarm 0... 240 min

compressor on time during

cabinet probe alarm 0... 240 min

80.0

threshold for high condensation

warning 0... 199 °C/°F

differential = 2 °C/4 °F

90.0

threshold for high condensation

alarm 0... 199 °C/°F

C8 1 high condensation alarm delay 0... 15 min

C10

compressor hours for service

0... 999 h x 100

0 = disabled

C11

second compressor switch-on

delay 0... 240 s

N. PAR. DEF. DEFROST MIN... MAX.

automatic defrost interval

0... 99 h

0 = only manual

if d8 = 3, maximum interval

defrost type

0 = electric

1 = hot gas

2 = compressor stopped

d2 2.0 threshold for defrost end -99... 99 °C/°F

defrost duration

0... 99 min

se P3 = 1, maximum duration

d4 0 enable defrost at power-on 0 = no 1 = yes

d5 0 defrost dealy after power-on 0... 99 min

value displayed during defrost

0 = regulation temperature

1 = display locked

2 = dEF label

d7 2 dripping time 0... 15 min

defrost interval counting mode

0 = device on hours

1 = compressor on hours

2 = hours evaporator

temperature < d9

3 = adaptive

4 = real time

0.0

evaporation threshold for

automatic defrost interval

counting

-99... 99 °C/°F

d11 0 enable defrost timeout alarm 0 = no 1 = yes

d15

compressor on consecutive time

for hot gas defrost 0... 99 min

d16

pre-dripping time for hot gas

defrost 0... 99 min

d18

adaptive defrost interval

0... 999 min

if compressor on + evapora-

tor temperature < d22

0 = only manual

d19

3.0

threshold for adaptive defrost

(relative to optimal evaporation

temperature)

0... 40 °C/°F

optimal evaporation

temperature - d19

d20

180

compressor on consecutive time

for defrost 0... 999 min

0 = disabled

d21

200

compressor on consecutive time

for defrost after power-on and

overcooling

0... 500 min

if (regulation temperature -

setpoint) > 10°C/20 °F

0 = disabled

d22

-2.0

evaporation threshold for

adaptive defrost interval counting

(relative to optimal evaporation

temperature)

-10... 10 °C/°F

optimal evaporation

temperature + d22

d25

enable air out probe for defrost

during evaporator probe alarm 0 = no 1 = yes

d26

defrost interval during

evaporator probe alarm

0... 99 h

0 = only manual

if d25 = 1

PAR.

DEF.

ALARMS

MIN... MAX.

select value for high/low

temperature alarms 0 = regulation temperature

1 = evaporator temperature

0.0

threshold for low temperature

alarm -99... 99 °C/°F

low temperature alarm type

0 = disabled

1 = relative to setpoint

2 = absolute

0.0

threshold for high temperature

alarm -99... 99 °C/°F

high temperature alarm type

0 = disabled

1 = relative to setpoint

2 = absolute

120

high temperature alarm delay

after power-on 0... 240 min

high/low temperature alarms

delay 0... 240 min

high temperature alarm delay

after defrost 0... 240 min

high temperature alarm delay

after door closing 0... 240 min

A11

2.0

high/low temperature alarms

reset differential 1... 15 °C/°F

N. PAR. DEF. FANS MIN... MAX.

evaporator fan mode during

normal operation

0 = off 1 = on

2 = on if compressor on

3 = thermoregulated (with

regulation temperature

+ F1)

4 = thermoregulated (with

regulation temperature

+ F1) if compressor on

5 = according to F6

6 =

thermoregulated (with F1)

7 = thermoregulated (with

F1) if compressor on

-4.0

threshold for evaporator fan

operation -99... 99 °C/°F

evaporator fan mode during

defrost and dripping 0 = off 1 = on

2 = according to F0

evaporator fan off maximum

time 0... 15 min

evaporator fan off time during

energy saving 0... 240 s x 10

if F0 ≠5

evaporator fan on time during

energy saving 0... 240 s x 10

if F0 ≠5

high/low humidity operation

0 = low humidity (with F17

and F18 if compressor

off, on if compressor on)

1 = high humifity (on)

5.0

threshold for evaporator fan on

after dripping (relative to

setpoint)

-99... 99 °C/°F

setpoint + F7

2.0

threshold for evaporator fan

operation differential 1... 15 °C/°F

evaporator fan off delay after

compressor off 0... 240 s

if F0 = 2 or 5

F10

condenser fan mode

0 =

thermoregulated (with F11)

1 = thermoregulated (with

F11) if compressor off,

on if compressor on

2 = thermoregulated (with

F11) if compressor off,

on if compressor on, off

during defrost, pre-

dripping and dripping

F11

15.0

threshold for condenser fan on

0... 99 °C/°F

differential = 2 °C/4 °F

F12

condenser fan off delay after

compressor off 0... 240 s

if P4 ≠ 1

F17

evaporator fan off time with low

humidity 0... 240 s

F18

evaporator fan on time with low

humidity 0... 240 s

N. PAR. DEF. DIGITAL INPUTS MIN... MAX.

door switch input function

0 = disabled

1 = compressor +

evaporator fan off

2 = evaporator fan off

3 = cabinet light on

4 = compressor +

evaporator fan off,

cabinet light on

5 = evaporator fan off +

cabinet light on

door switch input activation

0 = with contact closed

1 = with contact open

open door alarm delay

-1... 120 min

-1 = disabled

regulation inhibition maximum

time with door open -1... 120 min

-1 = until the closing

multi-purpose input function

0 = disabled

1 = energy saving

2 = iA alarm

3 = iSd alarm

4 = button-operated load on

5 = device on/off

6 = LP alarm

7 = C1t alarm

8 = C2t alarm

multi-purpose input activation

0 = with contact closed

1 = with contact open

multi-purpose input alarm delay

0... 120 min

if i5 = 3 or 7, compressor on

delay after alarm reset

number of multi-purpose input

activations for high pressure

alarm

0... 15

0 = disabled

if i5 = 3

240

reset counter time for high

pressure alarm

1... 999 min

i10

door closed consecutive time for

energy saving

0... 999 min

after regulation temperature

< SP

0 = disabled

i13

180

number of door openings for

defrost 0... 240

0 = disabled

i14

door open consecutive time for

defrost 0... 240 min

0 = disabled

N. PAR. DEF. DIGITAL OUTPUTS MIN... MAX.

auxiliary output configuration

0 = cabinet light

1 = demisting

2 = button-operated load

3 = alarm

4 = door heaters

5 = heater for neutral zone

6 = condenser fan

7 = second compressor

8 = on/stand-by

enable cabinet light and button-

operated load in stand-by 0 = no 1 = yes

manual

enable alarm output off silencing

the buzzer 0 = no 1 = yes

-1.0

threshold for door heaters on

-99... 99 °C/°F

differential = 2 °C/4 °F

u6 5 demisting on duration 1... 120 min

-5.0

neutral zone threshold for

heating (relative to setpoint)

-99... 99 °C/°F

differential = 2 °C/4 °F

setpoint + u7

u9 1 enable alarm buzzer 0 = no 1 = yes

u11

auxiliary output 2 configuration

(not available in EVLJS224)

0 = cabinet light

1 = demisting

2 = button-operated load

3 = alarm

4 = door heaters

5 = heater for neutral zone

6 = condenser fan

7 = second compressor

8 = on/stand-by

N. PAR. DEF. REAL TIME CLOCK MIN... MAX.

Hr0 0enable clock 0 = no 1 = yes

N. PAR. DEF. ENERGY SAVING MIN... MAX.

HE2 0 energy saving maximum duration

0... 999 min

N. PAR. DEF. REAL TIME ENERGY SAVING MIN... MAX.

H01 0 energy saving time 0... 23 h

100

H02 0 energy saving maximum duration

0... 24 h

N. PAR. DEF. REAL TIME DEFROST (if d8 = 4) MIN... MAX.

101

Hd1 h- 1st daily defrost time h- = disabled

102

Hd2 h- 2nd daily defrost time h- = disabled

103

Hd3 h- 3rd daily defrost time h- = disabled

104

Hd4 h- 4th daily defrost time h-= disabled

105

Hd5 h- 5th daily defrost time h-= disabled

106

Hd6 h- 6th daily defrost time h-= disabled

N. PAR. DEF. RESERVED

MIN... MAX.

107

Sd0 - - - reserved reserved

108

Sd1 - - - reserved reserved

109

Sd2 - - - reserved reserved

110

Sd3 - - - reserved reserved

111

Sd4 - - - reserved reserved

112

Sd5 - - - reserved reserved

N. PAR. DEF. SAFETIES MIN... MAX.

113

POF 1 enable ON/STAND-BY key 0 = no 1 = yes

114

Loc 1 enable keypad lock 0 = no 1 = yes

115

PAS -19 password -99... 999

116

PA1 426 level 1 password -99... 999

117

PA2 824 level 2 password -99... 999

N. PAR. DEF. DATA-LOGGING EVLINK MIN... MAX.

118

rE0 60 data-logger sampling interval 0... 240 min

119

rE1

recorded temperature

0 = none 1 = cabinet

2 = evaporator

3 = auxiliary

4 = cabinet and evaporator

5 = all

N. PAR. DEF. MODBUS MIN... MAX.

120

LA 247 MODBUS address 1... 247

121

MODBUS baud rate

0 = 2,400 baud

1 = 4,800 baud

2 = 9,600 baud

3 = 19,200 baud

122

parity

0 = none 1 = odd

2 = even

N. PAR. DEF. BLUETOOTH MIN... MAX.

123

bLE

serial port configuration for

connectivity

0 = free

1 = forced for EVconnect or

EPoCA

2-99= EPoCA local network

address

8 ALARMS

COD.

DESCRIPTION

RESET

TO CORRECT

Pr1 cabinet probe alarm automatic

- check P0

Pr2

evaporator probe alarm automatic

- check probe integrity

Pr3 auxiliary probe alarm automatic

- check electrical connection

rtc clock alarm manual set date, time and day of the week

AL low temperature alarm automatic

check A0, A1 and A2

AH high temperature alarm automatic

check A4 and A5

id open door alarm automatic

check i0 and i1

power failure alarm

manual

- touch a key

- check electrical connection

COH high condensation warning automatic check C6

CSd

high condensation alarm

manual

- switch the device off and on

- check C7

iA multi-purpose input alarm automatic check i5 and i6

iSd

high pressure alarm

manual

- switch the device off and on

- check i5, i6, i8, i9

low pressure alarm

automatic

check i5 and i6

C1t

compressor thermal switch

alarm

automatic

check i5 and i6

C2t

second compressor thermal

switch alarm

automatic

check i5 and i6

dFd

defrost timeout alarm

manual

- touch a key

- check d2, d3 and d11

- - -

user interface-control

module communication

alarm

manual

check electrical connection

9 TECHNICAL SPECIFICATIONS

Purpose of the control device

Function controller

Construction of the control device

Built-in electronic device

Container User interface

White, self-extinguishing

Control module

Open frame board on plastic

support.

Category of heat and fire resistance

Measurements

User interface

150.0 x 245.0 x 37.1 mm

(5 15/16 x 9 5/8 x 1 7/16 in)

Control module:

142.0 x 122.0 x 37.0 mm (5

9/16 x 4 13/16 x 1 7/16 in)

Mounting methods for the

control device

User interface

To be fitted on a DIN rail, in a

control panel

Control module

To be installed on an

electrical switchboard

Degree of protection

provided by the covering User interface

IP65

Control module

IP00

Connection method

Plug-in screw terminal blocks

for wires up to 1 mm²

Fixed screw terminal blocks

for wires up to 2.5 mm²

Fixed screw terminal blocks

for wires up to 5 mm²

Faston, 6.3 mm

Pico-Blade connector

Maximum permitted length for connection cables

User-interface-control module: 10 m (32.8 ft)

Power supply: 10 m (32.8 ft)

Analogue inputs: 10 m (32.8 ft)

Digital inputs: 10 m (32.8 ft) Digital outputs: 10 m (32.8 ft)

Operating temperature

From 0 to 55 °C (from 32 to 131 °F)

Storage temperature

From -25 to 70 °C (from -13 to 158 °F)

Operating humidity

Relative humidity without condensate from

10 to 90%

Pollution status of the control device

Conformity

RoHS 2011/65/CE

WEEE 2012/19/EU

REACH (EC) Regulation

1907/2006

EMC 2014/30/UE LVD 2014/35/UE

Power supply

115... 230 VAC (+10% -15%), 50/60 Hz (±3

Hz), max. 6 VA insulated

Earthing methods for the control device

With earth terminal

Rated impulse-withstand voltage

2.5 KV

Over-voltage category

Software class and structure

Analogue inputs

2 for PTC or NTC probes (cabinet probe and

evaporator probe)

PTC probes

Sensor type

KTY 81-121 (990 @ 25 °C, 77 °F)

Measurement field

From -50 to 150 °C (from -58 to 302 °F)

Resolution

0.1 °C (1 °F)

NTC probes

Sensor type

ß3435 (10 K@ 25 °C, 77 °F)

Measurement field

From -40 to 105 °C (from -40 to 221 °F)

Resolution

0.1 °C (1 °F)

Digital inputs

1 dry contact (door switch)

Dry contact

Contact type

5 VDC, 2 mA

Power supply

None

Protection

None

Other inputs

Input configurable for analogue input (auxiliary probe) or

digital input (multi-purpose input)

Digital outputs

5 (4 for EVLJS224) with electro-mechanical relay

(compressor, defrost, evaporator fan, auxiliary relay 1 and

auxiliary relay 2)

Compressor relay (K2)

SPST, 30 A res. @ 250 VAC

Defrost relay (K4)

SPST, 16 A res. @ 250 VAC

Evaporator fan relay (K5)

SPST, 8 A res. @ 250 VAC

Auxiliary relay 1 (K3)

SPST, 16 A res. @ 250 VAC

Auxiliary relay 2 (K1, not available in

EVLJS224)

SPST, 30 A res. @ 250 VAC

The device guarantees double insulation between each digital output connector and the rest

of the components of the device

Type 1 or Type 2 Actions

Type 1

Additional features of Type 1 or Type 2

actions

Displays

LED custom display, 3 digit, with function

icons

Alarm buzzer

Incorporated

Communications ports

1 TTL MODBUS slave port for EVconnect app,

EPoCA remote monitoring system or for BMS

N.B.

The device must be disposed of according to local regulations governing the collection

of electrical and electronic waste.

This document and the solutions contained therein are the intellectual property of EVCO and thus

protected by the Italian Intellectual Property Rights Code (CPI). EVCO imposes an absolute ban on the

full or partial reproduction and disclosure of the content other than with the express approval of EVCO.

The customer (manufacturer, installer or end-user) assumes all responsibility for the configuration of the

device. EVCO accepts no liability for any possible errors in this document and reserves the right to make

any changes, at any time without prejudice to the essential functional and safety features of the

equipment.

EVCO S.p.A.

Via Feltre 81, 32036 Sedico (BL) ITALY

Tel. 0437/8422 | Fax 0437/83648

email [email protected] | web www.evco.it

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