Evco Evj basic split User manual

EVJ Basic Split Split-version controllers for refrigerated units

I ENGLISH

- controllers for normal and low temperature units

- power supply 230 VAC

- cabinet probe and evaporator probe (PTC/NTC)

- door switch and multi-purpose input

- compressor relay 16 A res. @ 250 VAC

- sealed relays compliant with the standard EN 60079-15

- alarm buzzer

- TTL MODBUS slave port for EVJKEY programming key, EVconnect app, EPoCA remote

monitoring system or for BMS

- hot or cold mode regulation.

Purchasing code Number of relays Power supply

EVJSB24N7 4 230 VAC

1 MEASUREMENTS AND INSTALLATION | Measurements in mm (inches)

1.1 User interface

To be fitted to a plastic or metal panel (with elastic holding flaps).

N.B.

The thickness of a metal panel must be between 0.8 and 1.5 mm (1/32 and 1/16 in),

while that for a plastic panel must be between 0.8 and 3.4 mm (1/32 and 1/8 in).

1.2 Control module

To be installed on an electrical panel, on spacers (not provided).

N.B.

Any metal parts must be far enough away so as not to compromise safety distances.

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

- 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, locate 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 is moved from a cold to a warm place, humidity may cause condensation

to form inside. Wait for 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 carrying out any type of maintenance

- do not use the device as a safety device

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

3 FIRST-TIME USE

1. Carry out the installation following the instructions given in the section MEASUREMENTS

AND INSTALLATION.

2. Power up the device as set out in the section ELECTRICAL CONNECTION: an internal

test will start up.

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

3. 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 type of probe 0 = PTC 1 = NTC

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

type of defrost

0 = electric 1 = hot gas

2 = compressor stopped

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

TION PARAMETERS.

4. Disconnect the device from the mains.

5. Make the electrical connection as shown in the section ELECTRICAL CONNECTION,

without powering up the device.

6. To use the device with the Evconnect app, connect the EVIF25TBX module. To use the

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

When connecting to an RS-485 network, connect the EVIF22TSX interface. To activate

real-time functions, connect the EVIF23TSX module.

If using EVIF22TSX or EVIF23TSX, set the bLE parameter to 0.

7. Power up the device.

4 USER INTERFACE AND MAIN FUNCTIONS

4.1 Switching the device on/off

1. If POF = 1 (default), touch the ON/STAND-BY key for 4 s.

If the device is switched on, the display will show the P5 value ("regulation temperature" de-

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

LED ON OFF FLASHING

compressor switched

off

- compressor protection in pro-

gress

- setpoint being set

evaporator fan on

evaporator fan off

evaporator fan stop in progress

cabinet light on

cabinet light off

cabinet light on by digital input

AUX 1

auxiliary load 1 on

auxiliary load 1 off

- auxiliary load 1 on by digital in-

put

- auxiliary load 1 delay active

AUX 2

auxiliary load 2 on

auxiliary load 2 off

- auxiliary load 2 on by digital in-

put

- auxiliary load 2 delay active

defrost or pre-drip ac-

tive -

- defrosting delay in progress

- dripping active

energy saving active

time display

set date, time and day of the cur-

rent week

temperature display

overcooling or overheating active

HACCP

HACCP alarm saved in

EVlink -

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 Unlocking the keypad

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

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

Check that the keypad is not locked.

1. Touch the SET key.

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

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

3. Touch the SET key (or take no action for 15 s).

4.4 Activating manual defrost (if r5 = 0, default)

Check that the keypad is not locked and that overcooling is not active.

1. Touch the DEFROST key for 4 s.

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

the d2 threshold.

4.5 Switching the cabinet light on/off (if u1c... u5c = 5)

1. Touch the CABINET LIGHT key.

4.6 Switching the cabinet light on/off (if u1c... u5c = 10 or 11)

1. Touch the CABINET LIGHT key (for 2 s if u1c... u5c = 5).

If u1c... u5c = 6, the demisting heaters switch on for u6.

4.7 Silencing the buzzer (if u9 = 1, default)

Touch a key.

If u1c... u5c = 11 and u4 = 1, the alarm output is deactivated.

5 ADDITIONAL FUNCTIONS

5.1 Activating/deactivating overcooling and overheating

Check that the keypad is not locked.

1. Touch the UP key for 2 s.

FUNCTION CONDITION CONSEQUENCE

overcooling

r5 = 0 and defrosting not

activated the setpoint becomes “setpoint -

r6”, for the r7 time

overheating

r5 = 1

the setpoint becomes “setpoint +

r6”, for the r7 time

5.2 Activating/deactivating energy saving in manual mode (if r5= 0)

Check that the keypad is not locked.

1. Touch the DEFROST key.

the setpoint becomes “setpoint+ r4” maximum for the HE2 time.

5.3 Activating the high or low humidity function (if F0 = 5)

Check that the keypad is not locked.

1. Touch the DOWN key for 1 s.

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

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

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

vated).

LAB. MEANING

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)

4. Touch the ON/STAND-BY key (or take no action for 60 s) to exit

the procedure.

5.4 Displaying/deleting compressor functioning hours

Check that the keypad is not locked.

1. Touch the DOWN key for 1 s.

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

LAB. MEANING

CH1 view compressor functioning hours (in hundreds)

CH2 view compressor 2 functioning hours (in hundreds) (if u1c... u5c = 1)

rCH delete compressor and compressor 2 functioning hours

3. Touch the SET key.

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

5. Touch the SET key.

6. Touch the ON/STAND-BY key (or take no action for 60 s) to exit

the procedure.

5.5 Viewing the temperature detected by the probes

Check that the keypad is not locked.

1. Touch the DOWN key for 1 s.

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

LAB. MEANING

Pb1 cabinet temperature (if P4 = 0, 1, 2 or 4)

incoming air temperature (if P4 = 3)

Pb2 evaporator temperature (if P3 = 1 or 2)

Pb3 auxiliary temperature (if P4 = 1, 2, 3 or 4)

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

3. Touch the SET key.

4. Touch the ON/STAND-BY key (or take no action for 60 s) to exit

the procedure.

6 SETTINGS

6.1 Setting configuration parameters

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

2. Touch the SET key.

3. Touch the UP or DOWN key within 15 s to set the PAS value (de-

fault “-19”).

4. Touch the SET key (or take no action for 15 s): the display will

show the label “SP”.

5. Touch the UP or DOWN key to select a parameter.

6. Touch the SET key.

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

8. Touch the SET key (or take no action for 15 s).

9. Touch the SET key for 4 s (or take no action for 60 s) to exit the

procedure.

6.2 Setting the date, time and day of the week (if the EVIF25TBX, EVIF25TWX or

EVIF23TSX module is connected)

N.B.

- do not disconnect the device from the mains in the two minutes after setting the

date, time and day of the week

- if the device communicates with the EVconnect app or the EPoCA remote monitor-

ing system, the date, time and day of the week will be automatically set by the

smartphone or tablet.

Check that the keypad is not locked.

1. Touch the DOWN key for 4 s.

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

3. Touch the SET key: the display will show the label “yy” followed

by the last two figures of the year.

4. Touch the UP or DOWN key within 15 s 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 hour (00… 23)

n minutes (00… 59)

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

the week.

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

week.

LAB. MEANING

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.

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

6.3 Restoring factory (default) settings and saving customised settings

N.B.

- check that the factory settings are appropriate; see the section CONFIGURATION

PARAMETERS.

- saving customised settings overwrites the factory settings.

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

2. Touch the SET key.

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

VAL. MEANING

149 value for restoring the factory information (default)

161 value for saving customised settings

Touch the SET key (or take no action for 15 s): the display will

show the label “dEF” (for setting the “149” value) or the label

“MAP” (for setting the “161” value).

5. Touch the SET key.

6. Touch the UP or DOWN key within 15 s to set “4”.

Touch the SET key (or take no action for 15 s): the display will

show “- - -” flashing for 4 s, after which the device will exit the

procedure.

8. Disconnect the device from the power supply.

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

beforehand.

7 CONFIGURATION PARAMETERS

NO.

PAR. DEF. SETPOINT MIN... MAX.

1 SP 0.0 setpoint r1... r2

NO.

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

CA1

0.0

cabinet probe offset

-25... 25 °C/°F

if P4 = 3, incoming air 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 type of probe 0 = PTC 1 = NTC

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

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

evaporator probe function

0 = disabled

1 = defrost + fans

2 = fans

configurable input function

0 = digital input

1 = condenser probe

2 = critical temp. probe

3 = outgoing air probe

4 = evaporator probe 2

if P4 = 3, regulation tempera-

ture = product temperature

(CPT)

value displayed

0 = regulation temperature

1 = setpoint

2 = evaporator temp.

3 = auxiliary temperature

4 = incoming air tempera-

ture

incoming air effect to calculate

product temperature (CPT)

0... 100 %

CPT = {[(P7 x (incoming air)]

+ [(100 - P7) x

(outgoing air)] : 100}

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

NO.

PAR. DEF. REGULATION MIN... MAX.

2.0

setpoint differential

1... 15 °C/°F

if u1c... u5c 1, proportional

band

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

r2 50.0

maximum setpoint r1... 199 °C/°F

r3 0 enable setpoint lock 0 = no 1 = yes

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

hot or cold mode regulation

0 = cold mode

1 = hot mode

0.0

setpoint offset in overcool-

ing/overheating 0... 99 °C/°F

r7 0 duration overcooling/overheating 0... 240 min

DOWN key additional function

0 = disabled

1 = overcooling/overheating

2 = energy saving

r12

differential position r0

0 = asymmetrical

1 = symmetrical

NO.

PAR. DEF. COMPRESSOR MIN... MAX.

compressor-on delay from

power-on 0... 240 min

delay between two compressor

switch-ons 0... 240 min

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

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

compressor-off time in cabinet

probe alarm 0... 240 min

compressor-on time in cabinet

probe alarm 0... 240 min

80.0

high condensation signal thresh-

old 0... 199 °C/°F

differential = 2 °C/4 °F

90.0

high condensation alarm thresh-

old 0... 199 °C/°F

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

C10

compressor days for mainte-

nance 0... 999 days

0 = disabled

C11 10 compressor 2 on delay 0... 240 s

C12

compressor hour value effect to

balance hours and switch-ons

(BHC)

0... 10

BHC = {[C12 x (compressor

hours)] + [C13 x (compres-

sor switch-ons)]}

C13

compressor switch-ons value ef-

fect to balance hours and switch-

ons (BHC)

0... 10

BHC = {[C12 x (compressor

hours)] + [C13 x (compres-

sor switch-ons)]}

C14

constraint between compressors

0 = function of C11

1 = function of r0

2 = function of C12 and C13

NO.

PAR. DEF. DEFROSTING (if r5 = 0) MIN... MAX.

d00

enable "b” mode parameters on

setpoint threshold 0 = no 1 = yes

d01

1.0

setpoint threshold to activate “b”

mode parameters r1... r2

activated if setpoint > d01

automatic defrost interval

0... 99 h

0 = manual only

if d8 = 3, maximum interval

d0b

automatic defrost interval “b”

mode like d0

type of defrost

0 = electric

1 = hot gas (do not use with

regulation with 2 com-

pressors)

2 = compressor stopped

d1b 2 type of defrost “b” mode like d1

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

d2b 4.0 defrost end threshold “b” mode like d2

defrost duration

0... 99 min

if P3 = 1, maximum duration

d3b 20 defrost duration “b” mode like d3

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

d5 0 defrost delay from power-on 0... 99 min

value displayed when defrosting

0 = regulation temperature

1 = locked display

2 = label dEF

d7 0 dripping time 0... 15 min

d7b 2 dripping time “b” mode like d7

defrost interval count mode

0 = hours device on

1 = hours compressor on

2 = hours evaporator tem-

perature < d9

3 = adaptive

4 = in real time

0.0

evaporation threshold for auto-

matic defrost interval count -99... 99 °C/°F

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

d15

compressor-on consecutive time

for hot gas defrost

-20... 99 min

if values are negative, drip-

ping heaters on time

d16

pre-dripping time for hot gas de-

frost 0... 99 min

d18

adaptive defrost interval

0... 999 min

if compressor on + evapora-

tor temperature < d22

0 = manual only

d19

3.0

adaptive defrost threshold (rela-

tive to optimal evaporation tem-

perature)

0... 40 °C/°F

optimal evaporation tempera-

ture - d19

d20

180

compressor-on consecutive time

for defrost 0... 999 min

0 = disabled

d21

200

compressor-on consecutive time

for defrost from power-on and

from overcooling

0... 500 min

if (regulation temperature -

setpoint) > 10°C/20 °F

0 = disabled

d22

-2.0

evaporation threshold for adap-

tive defrost interval count (rela-

tive to optimal evaporation tem-

perature)

-10... 10 °C/°F

optimal evaporation tempera-

ture + d22

d25

enable outgoing air probe for de-

frost in evaporator probe alarm 0 = no 1 = yes

d26

defrost interval in evaporator

probe alarm

0... 99 h

0 = manual only

if d25 = 1

NO.

PAR. DEF. ALARMS MIN... MAX.

select value for high/low tem-

perature alarms

0 = regulation temperature

1 = evap. temperature

2 = auxiliary temperature

A1 0.0 low temperature alarm threshold -99... 99 °C/°F

type of low temperature alarm

0 = disabled

1 = relative to setpoint

2 = absolute

0.0

high temperature alarm thresh-

old -99... 99 °C/°F

type of high temperature alarm

0 = disabled

1 = relative to setpoint

2 = absolute

120

high temperature alarm delay

from power-on 0... 240 min

high/low temperature alarm de-

lay 0... 240 min

high temperature alarm delay

post-defrosting 0... 240 min

high temperature alarm delay

from door closure 0... 240 min

A10

duration of power failure for sav-

ing alarm 0... 240 min

0 = disabled

A11

2.0

high/low temperature alarm re-

set differential 1... 15 °C/°F

A12

type of power failure alarm signal

0 = LED HACCP

1 = LED HACCP + label PF +

buzzer

2 = LED HACCP + label PF +

buzzer (if duration >

A10)

NO.

PAR. DEF. FANS MIN... MAX.

evaporator fan mode in normal

function

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 = function of F6

6 = thermoregulated (with

F1)

7 = thermoregulated (with

F1) if compressor on

F0b

evaporator fan mode in normal

function “b” mode like F0

-4.0

evaporator fans regulation

threshold -99... 99 °C/°F

evaporator fan mode in defrost

and drip mode 0 = off 1 = on

2 = function of F0

F2b

evaporator fan mode in defrost

and drip mode like F2

maximum time evaporator fans

off 0... 15 min

F3b

maximum time evaporator fans

off like F3

time evaporator fans off in en-

ergy saving 0... 240 s x 10

if F0 ≠ 5

time evaporator fans on in en-

ergy saving 0... 240 s x 10

if F0 ≠ 5

function for high/low humidity

0 = for low humidity (with

F17 and F18 if compres-

sor off, on if compressor

on)

1 = for high humidity (on)

5.0

evaporator fans on threshold

from dripping (relative to set-

point)

-99... 99 °C/°F

setpoint + F7

2.0

evaporator fans regulation

threshold differential 1... 15 °C/°F

evaporator fans off delay from

compressor off 0... 240 s

if F0 = 2 or 5

F11 15.0

condenser fans on threshold 0... 99 °C/°F

F12

condenser fans off delay from

compressor off 0... 240 s

if P4 ≠ 1

NO.

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

door switch input function

0 = disabled

1 = compressor + evapora-

tor fans off

2 = evaporator fans off

3 = cabinet light on

4 = compressor + evapora-

tor fans off, cabinet light

5 = evaporator fans off,

cabinet light on

door switch input activation

0 = with contact closed

1 = with contact open

door open alarm delay

-1... 120 min

-1 = disabled

maximum time for inhibiting

regulation with door open -1... 120 min

-1 = until closed

multi-purpose input function

0 = disabled

1 = energy saving

2 = alarm iA

3 = alarm iSd

4 = load 1 operated by on

key

5 = load 2 operated by on

key

6 = switches device on/off

7 = alarm LP

8 = alarm C1t

9 = alarm C2t

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 from alarm reset

number of multi-purpose input

activations for high pressure

alarm

0... 15

0 = disabled

if i5 = 3

240

counter reset time for high pres-

sure alarm 1... 999 min

100

i10

door closed consecutive time for

energy saving

0... 999 min

after cabinet temperature <

0 = disabled

101

i13

180

number of door openings for de-

frost 0... 240

0 = disabled

102

i14

door open consecutive time for

defrost 0... 240 min

0 = disabled

NO.

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

103

u1c

K1 relay configuration

0 = compressor 1

1 = compressor 2

2 = evaporator fans

3 = condenser fans

4 = defrosting

5 = cabinet light

6 = demisting

7 = door heaters

8 = heaters for neutral zone

9 = dripping heaters

10= button-operated load 1

11= button-operated load 2

12= alarm

13= on/stand-by

14= evaporator fans 2

15= defrosting 2

16= speed 2 evaporator fans

17= reversible cond. fans

18= speed 2 cond. fans

104

u2c 2 K2 relay configuration like u1c

105

u3c 4 K3 relay configuration like u1c

106

u4c 5 K4 relay configuration like u1c

107

enable cabinet light and load in

stand-by using the key 0 = no 1 = yes

in manual mode

108

alarm relay activation

0 = with alarm not active

1 = with alarm active

109

u4 1 enable silencing alarm output 0 = no 1 = yes

110

u5 -1.0 door heaters on threshold -99... 99 °C/°F

111

u5d

2.0

door heaters on threshold differ-

ential 1... 25 °C/°F

112

duration demisting on

1... 120 min

1 = on/off by pressing key

113

-5.0

neutral zone for heating thresh-

old (relative to setpoint)

-99... 99 °C/°F

differential = 2 °C/4 °F

setpoint + u7

114

u9 1 enable alarm buzzer 0 = no 1 = yes

NO.

PAR. DEF. CLOCK MIN... MAX.

115

Hr0 0enable clock 0 = no 1 = yes

NO.

PAR. DEF. ENERGY SAVING (if r5 = 0) MIN... MAX.

116

HE2

maximum duration energy saving

0... 999 min

0 = until door opened

NO.

PAR.

DEF.

ENERGY SAVING IN REAL TIME

(if r5 = 0; visible if Hr0=1) MIN... MAX.

117

H01 0 energy saving time 0... 23 h

118

H02 0 maximum duration energy saving

0... 24 h

NO.

PAR.

DEF.

SWITCHING ON/OFF IN REAL

TIME (visible if Hr0=1) MIN... MAX.

119

Hon

time device switch-on

0... h-

h- = disabled

120

HoF

time device switch-off

0... h-

h- = disabled

121

Hc1

1st time reversible condenser

fans on

0... h-

h- = disabled

for time F20

122

Hc2

2nd time reversible condenser

fans on

0... h-

h- = disabled

for time F20

NO.

PAR.

DEF.

DEFROSTING IN REAL TIME (if

d8 = 4; visible if Hr0=1) MIN... MAX.

123

Hd1

1st daily defrosting time

0... h-

h- = disabled

124

Hd2

2nd daily defrosting time

0... h-

h- = disabled

125

Hd3

3rd daily defrosting time

0... h-

h- = disabled

126

Hd4

4th daily defrosting time

0... h-

h- = disabled

127

Hd5

5th daily defrosting time

0... h-

h- = disabled

128

Hd6

6th daily defrosting time

0... h-

h- = disabled

NO.

PAR. DEF. SECURITY MIN... MAX.

129

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

130

Loc 1 enable keypad lock 0 = no 1 = yes

131

PAS -19 password -99... 999

132

PA1 426 1st level password -99... 999

133

PA2 824 2nd level password -99... 999

NO.

PAR.

DEF.

EVLINK DATA-LOGGING (visible

if Hr0=1) MIN... MAX.

134

rE0 15 data logger sampling interval 0... 240 min

135

rE1

select temperature for data log-

ger

0 = none 1 = cabinet

2 = evaporator

3 = auxiliary

4 = cabinet and evaporator

5 = all

NO.

PAR. DEF. MODBUS MIN... MAX.

136

LA 247 MODBUS address 1... 247

137

MODBUS baud rate

0 = 2,400 baud

1 = 4,800 baud

2 = 9,600 baud

3 = 19,200 baud

138

MODBUS parity

0 = none 1 = odd

2 = even

NO.

PAR. DEF. EVLINK MIN... MAX.

139

bLE

activate EVlink

0 = no 1 = yes

> 1 = reserved

8 ALARMS

CODE

MEANING RESET TO CORRECT

Pr1 cabinet probe alarm automatic - check P0

Pr2 evaporator probe alarm automatic - check the integrity of the probe

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 door open alarm automatic check i0 and i1

power failure alarm

manual

- touch a key

- check electrical connection

COH high condensation signal 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

LP low pressure alarm automatic check i5 and i6

C1t

compressor thermal switch

alarm automatic

check i5 and i6

C2t

compressor 2 thermal

switch alarm automatic

check i5 and i6

dFd

defrost timeout alarm

manual

- touch a key

- check d2, d3 and d11

9 TECHNICAL SPECIFICATIONS

Purpose of the control device: function controller.

Construction of the control device: built-in electronic device.

Housing:

user interface: black, self-extinguishing control module: open frame board.

Category of heat and fire resistance: D.

Measurements:

user interface: 111.4 x 76.4 x 25.0 mm

(4 3/8 x 3 x 1 in) control module: 66.5 x 107.5 x 31.0 mm (2

5/8 x 4 1/4 x 1 1/4 in).

Mounting methods for the control device:

user interface: to be fitted to a plastic or

metal panel (with elastic holding flaps) control module: to be installed on an electri-

cal panel, on spacers (not provided).

Degree of protection provided by the casing:

user interface: IP65 (front) control module: IP00.

Connection method:

user interface: plug-in screw terminal blocks

for wires up to 2.5 mm²

control module:

- fixed screw terminal blocks for wires up to

2.5 mm²

- 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 60 °C (from 32 to 140 °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: 2.

Compliance:

RoHS 2011/65/EC

WEEE 2012/19/EU

REACH (EC) Regulation no.

1907/2006

EMC 2014/30/EU LVD 2014/35/EU.

Power supply:

user interface: powered by the control mod-

ule control module: 230 VAC (+10% -15%),

50/60 Hz (±3 Hz), max. 2 VA insulated.

Earthing methods for the control device: none.

Rated impulse-withstand voltage: 4 KV.

Over-voltage category: III.

Software class and structure: A.

Analogue inputs:

2 for PTC or NTC probes (cabinet probe and

evaporator probe)

PTC probes: Type of sensor: 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: Type of sensor: 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).

Other inputs:

1 input can be configured for analogue input

(auxiliary probe) or digital input (multi-

purpose, dry contact).

Contact Type of contact: 5 VDC, 1.5 mA

dry: Power supply: none

Protection: none.

Digital outputs:

4 with sealed electro-mechanical relay in

compliance with the EN 60079-15 standard.

K1 relay: SPST, 16 A res. @ 250 VAC

K2 relay: SPST, 5 A res. @ 250 VAC

K3 relay: SPDT, 8 A res. @ 250 VAC

K4 relay: SPDT, 16 A res. @ 250 VAC.

Type 1 or Type 2 actions: type 1.

Additional features of Type 1 or Type 2 ac-

tions: C.

Displays: custom display, 3 digit, with function icons.

Alarm buzzer: built-in.

Communications ports:

1 TTL MODBUS slave port for EVJKEY pro-

gramming key, EVconnect app, EPoCA re-

mote monitoring system or for BMS.

N.B.

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

of electrical and electronic equipment.

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

tected 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 de-

vice.

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. +39 0437/8422 | Fax +39 0437/83648

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

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