Ascon tecnologic Y39E Operating Instructions Manual Download Page 9

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ASCON TECNOLOGIC - Y39E

- OPERATING INSTRUCTIONS - Vr. Mondial Group - 10/10 - ISTR-MY39EENGmondial - PAG. 8

Programming “F.tn” = oF the output “Fn” in “ot” off condition will
remain switched off.
Programming instead “F.tn” to any value and “F.tF” = oF the output
“Fn” in “ot” off condition will remain switched on.
The parameter

“F.FE

” instead decides whether the fans must

always be switched on independently of the defrosting status
(“F.FE”=on) or switched off during defrosting (“F.FE”=oF).
In this latter case, it is possible to delay the start up of the fans
even after the end of the defrosting of the time set in the parameter

“F.Fd”.

When this delay is active the led FAN flashing to signal the delay in
progress.

When  the  evaporator  probe  is  used  the  fans,  as  well  as  being
conditioned  by  the  parameters  “F.tn”,  “F.tF  and  “F.FE”,  are  also
conditioned by a temperature control.
It  is  possible  to  set  the  disablement  of  the  fans  when  the
temperature  measured  by  the  evaporator  probe  is  higher  than  the
temperature set in the parameter

“F.FL”

(temperature too hot)

The relative differential is fixed at 1 °.

Notes: It is necessary to pay attention to the correct use of this fans
temperature control functions because in the typical application of
refrigeration the stop of the fans evaporator stops thermal
exchange.

1 °

tim e

F n

o ff

O N

E P

T e m p .

F .F L

o ff

Remember that the fans functioning can be conditioned by the
“Door open” function by the digital input.

4.10 - ALARM FUNCTIONS

The alarm conditions of the instrument are:
- Probe errors :

“E1”, “-E1”, “E2”, “-E2”

- temperature alarms:

“Hi”

and

“Lo”

- External alarm:

“AL”

- Open door alarm:

“oP”

The alarm functions of the instrument work on the ALARM led,  on
internal  buzzer  (if  present  and  programmed  by  par. “o.bu”) and on
output  desired,  if  configured  by  the  parameters  “o1”,  “o2”,
depending on what is set on the said parameters.
Any  active  alarm  is  shown  on  the  instrument  display  with  the
lighting up of the ALARM led, the silenced alarm status is shown by
the  ALARM led flashing .
The  buzzer  (if  “o.bu”  =  1  or  3)  is  activated  in  alarm  and  can  be
disabled  (alarm  silencing)  manually  by  pressing  any  key  of  the
instrument.
The  possible  selections  of  output  parameters  for  the  alarm
signalling function are:

= At

- when one wants the output to be activated in alarm and can

be disabled (alarm silencing) manually by pressing any key of the
instrument (typical application for sound signal).

= AL

- when one wants the output to be activated in alarm status

but cannot be disabled manually and are therefore only disabled
when the alarm status ceases (typical application for a light signal).

= -t

- when one wants the function described as At but with an

inverse function (output activated in normal condition and disabled
in alarm status).

= -L

- when one wants the function described as AL but with

inverse logic (output activated in normal conditions and disabled in
alarm status).

4.10.1 - TEMPERATURE ALARMS

The temperature alarms work according to the programmed probe
measurement, the type of alarm set in the parameter

“A.Ay”

the

alarm thresholds set in parameters

“A.HA”

(maximum alarm) and

“A.LA”

(minimum alarm) and the relative differential

“A.Ad”.

Through  the  parameter  “A.Ay”  it  is  possible  to  set  if  the  alarm
thresholds  “A.HA”  and  “A.LA”  must  be  considered  as  absolute  or
relative to the  Set Point , if the reference temperature must be Pr1
or  “Au”  probe  measurement  and  if  the  display  must  be  show    the
messages  Hi  (maximum  alarm)/  Lo  (minimum  alarm)  to  the
intervention of the alarms or no.
The possible selections of the parameter “A.Ay” are:
= 1 : Pr1 Absolute Alarms with labels (Hi - Lo)
= 2 : Pr1 Relative Alarms with labels (Hi - Lo)
= 3 : “Au” probe Absolute Alarms with labels (Hi - Lo)
= 4 : “Au” probe Relative Alarms with labels (Hi - Lo)
Using  some    parameters    it  is  also  possible  to  delay  the
enablement and the intervention of these alarms.
These parameters are:

“A.PA”

- is the temperature alarm exclusion time on switching on

the instrument if the instrument is in alarm status when it is
switched on.
If the instrument at power on is not in temperature alarm conditions
the time "A.PA is not considered.

“A.dA”

- is the temperature alarm exclusion time at the end of

defrosting (and , if programmed, at the end of draining) and at the
end of a continuous cycle.

“A.At”

- is the temperature alarm delay activation time

The temperature alarm is enabled at the end of exclusion time and
is enabled after the “A.At” time when the temperature measured  by
the  probe  exceeds  or  goes  below  the  respective  maximum  and
minimum alarm thresholds.
The  alarm  thresholds  will  be  the  same  as  those  set  on  the
parameters “A.HA” and “A.LA” if the alarms are absolute (“A.Ay”=1,
3).

1 °

tim e

A L

o ff

O N

A .L A

H i

A .H A

T e m p .

L o

o ff

o f f

O N

or will be the values [”SP”+”A.HA”] and [”SP”+”A.LA”] if the alarms
are relative (“A.Ay”=2, 4).

tim e

1 °

A L

o ff

O N

H i

A .L A

S P

A .H A

T e m p .

L o

o ff

O N

The maximum and minimum temperature alarms can be disabled
by setting the relative parameters "A.HA" and "A.LA" = oF.
The alarms histeresis (differential switching point) is fixed at 1°.

4.10.2 - EXTERNAL ALARM

The instrument can signal an external alarm by activating the digital
input with the function programmed as “i.Fi” = 4 or 5.
At the same time as the signalling of the configured alarm output,
the instrument visualising

and the variable set in parameter

“i.dS”  alternately on the display.
In  alarm  conditions  with  “i.Fi”=  9  all  the  control  outputs  will  be  off.
Similar  function  to  "i.Fi"  =  5  but  with  the  display  message

noF

"i.Fi" = 9.