EVCO EC6295S301 User Manual

Page 4

cabinet

probe

alarm

evapora-

tor probe

alarm

con-

denser

probe

alarm

• the kind of cabinet

probe you have con-

nected is not right

• the cabinet probe

plays up

• the connection in-

strument-cabinet

probe is wrong

• the cabinet tempera-

ture is outside the

limits allowed by the

working range of

the instrument

• the kind of evapora-

tor probe you have

connected is not

right

• the evaporator

probe plays up

• the connection in-

strument-evaporator

probe is wrong

• the evaporator tem-

perature is outside

the limits allowed by

the working range

of the instrument

• the kind of con-

denser probe you

have connected is

not right

• the condenser probe

plays up

• look at the param-

eter /0

• test the integrity of

the probe

• test the instrument-

probe connection

• test the temperature

close to the probe (it

has to be between

the limits allowed by

the working range)

• look at the param-

eter /0

• test the integrity of

the probe

• test the instrument-

probe connection

• test the temperature

close to the probe (it

has to be between

the limits allowed by

the working range)

• look at the param-

eter /0

• test the integrity of

the probe

• test the instrument-

probe connection

• the alarm output

will be forced OFF

• the compressor will

work in accordance

with the parameters

C5 and C6

• if the defrost is run-

ning, it will immedi-

ately end

• the defrost will

never be activated

• the alarm output

will be forced OFF

• if the parameter dE

has value 2, the in-

strument will work

as if the parameter

had value 0

• if the parameter F7

has value 3 or 4, the

evaporator fan will

work in accordance

with the compres-

sor, except what

you have set with

the parameters F4

and F5

• the defrost will end

by time (parameter

d3)

the alarm output will

be forced OFF

con-

denser

tempera-

ture alarm

multi-

function

input

alarm

upper

tempera-

ture alarm

for 3 s

every 4

lower

tempera-

ture alarm

for 3 s

every 4

• the connection in-

strument-condenser

probe is wrong

• the condenser tem-

perature is outside

the limits allowed by

the working range

of the instrument

the condenser tem-

perature is outside the

limit you have set with

the parameter AC

the multifunction input

is active.

Unless the parameter

i6 has value 1, the in-

strument will not show

any indication

the cabinet tempera-

ture is outside the limit

you have set with the

parameter A1b

there has been an up-

per temperature alarm

the cabinet tempera-

ture is outside the limit

you have set with the

parameter A1A

there has been a lower

temperature alarm

• test the temperature

close to the probe (it

has to be between

the limits allowed by

the working range)

• test the temperature

close to the probe

(look at the param-

eter AC)

• turn the instrument

OFF and turn it ON

again

deactivate the input

(look at the parameters

i0, i1 and i6)

test the temperature

close to the probe

(look at the parameters

A0, A1b and A2b)

look at the parameters

A0, A1b, A2b, A8 and

test the temperature

close to the probe

(look at the parameters

A0, A1A and A2A)

look at the parameters

A0, A1A, A2A, A8 and

the alarm output will

be forced OFF

you will get the action

you have chosen with

the parameter i0

the alarm output will

be forced OFF

the alarm output will

be forced OFF

the alarm output will

be forced OFF

the alarm output will

be forced OFF

---

evaporator fan action during the normal operation (0 = it will be forced OFF, 1 = it will be

forced ON, 2 = it will work in accordance with the compressor, 3 = it will work in accordance

with F1 and F2, 4 = if the compressor is ON, it will work in accordance with F1 and F2, if the

compressor is OFF, it will be forced OFF)

LABEL MIN. MAX. U.M.

DEF. DIGITAL INPUTS

---

action given by the multifunction input activation (0 = inactive, 1 = once d5 has passed, the

defrost will be activated

(7)

, 2 = the cabinet light will be turned ON, 3 = the compressor will be

forced ON for A5 and the cabinet light will be turned ON, 4 = the compressor and the

evaporator fan will be forced OFF for A5 and the cabinet light will be turned ON,

5 = the evaporator fan will be forced OFF for A5 and the cabinet light will be turned ON,

6 = the working setpoint becomes r8, 7 = the working setpoint becomes r8 and the cabinet

light will be turned OFF); look at i7 as well

---

kind of contact of the multifunction input (it is important if i0 ≠ 0; 0 = NO, 1 = NC)

---

action given by the lock input/thermal protection activation (1 = the compressor will be forced

OFF, 2 = in accordance with i3, i4 and i5)

---

lock input/thermal protection alarms number such as to give the lock of the instrument (it is

important if i2 = 2; 0 = the lock of the instrument will never take place)

240

min

time without lock input/thermal protection alarms able to clear the lock input/thermal pro-

tection alarms counter (it is important if i2 = 2)

(14)

min

minimum delay between the lock input/thermal protection deactivation and the following

compressor activation (it is important if i2 = 2)

---

indication “Ain” flashing on the display during the multifunction input activation (it is impor-

tant if i0 ≠ 0)

240

min

delay between the multifunction input deactivation and the cabinet light gets OFF (it is

important if i0 = 2, 3, 4 or 5)

(15)

LABEL MIN. MAX. U.M.

DEF. SERIAL NETWORK (EVCOBUS)

---

instrument address

---

instrument group

---

baud rate (0 = 1,200 baud, 1 = 2,400 baud, 2 = 4,800 baud, 3 = 9,600 baud)

LABEL MIN. MAX. U.M.

DEF. SERIAL NETWORK (EVCONET)

---

operation of the instrument in the network (0 = instrument not enabled to work in the

network, 1 = master, 2 = slave)

(16)

---

address of the instrument in the network (it is important if n0 ≠ 0; 0 = master address,

1 ... 8 = first ... eighth slave address)

---

authorization to implement the remote controls coming from the master (it is important if

n0 = 2 and n1 ≠ 0; 1 = YES)