Evco S.p.A. • Code 104F214E00 • page 6/8
d20
0
500
min
180
d21
0
500
min
200
d22
0.0
10.0
°
C/
°
F (1)
2.0
d23
0.0
10.0
°
C/
°
F (1)
1.0
DEF.
MIN.
MAX. U. M.
PAR.
A0
0
1
- - - -
0
A1
-99.0 99.0
°
C/
°
F (1)
-10.0
A2
0
2
- - - -
1
A4
-99.0 99.0
°
C/
°
F (1)
10.0
A5
0
2
- - - -
1
A6
0
240
min
120
A7
0
240
min
15
A8
0
240
min
15
A9
0
240
min
15
A10
0
240
min
1
A11
0.1
15.0
°
C/
°
F (1)
2.0
A12
0
2
- - - -
1
DEF.
MIN.
MAX. U. M.
PAR.
F0
0
5
- - - -
1
F1
-99.0 99.0
°
C/
°
F (1)
-1.0
F2
0
2
- - - -
0
F3
0
15
min
2
F4
0
240
s
60
F5
0
240
s
10
F6
0
1
- - - -
0
F7
-99.0 99.0
°
C/
°
F (1)
5.0
F8
0.1
15.0
°
C/
°
F (1)
2.0
F9
0
240
s
0
F11
0.0
99.0
°
C/
°
F (1)
15.0
F12
0
240
s
30
F13
0
240
min
5
F14
0
240
min
5
DEF.
MIN.
MAX. U. M.
PAR.
i0
0
5
- - - -
3
i1
0
1
- - - -
0
i2
-1
120
min
30
i3
-1
120
min
15
i4
0
1
- - - -
0
minimum consecutive duration of the compressor, such to cause activation of defrosting
0 = defrosting will never be activated due to the effect of compressor switch-on
minimum consecutive duration of compressor switch-on from instrument switch-on (on condition that the “cabinet temperature - work set-point” difference is over
temperature r7) and from the activation of the Overcooling function, such to cause activation of defrosting
0 = defrosting will never be activated due to the effect of compressor switch-on
temperature of the evaporator above which the defrosting interval count will be suspended (relative to the average temperatures of the evaporator, i.e. “average of the
evaporator temper d22”) (only if d8 = 3 and due to condition 1); see also d17
increase of the average evaporator temperatures during the Energy Saving function (for activation of defrosting; only if d8 = 3); see also d17
TEMPERATURE ALARMS
temperature associated to the minimum temperature alarm (“
AL
” code)
0 = cabinet temperature
1 = evaporator temperature (12)
temperature below which the minimum temperature alarm is activated (“
AL
” code); see also A0, A2 and A11
type of minimum temperature alarm (“
AL
” code)
0 = no alarm
1 = relative to the work set-point (i.e. ”work set-point - A1”; consider A1 without sign)
2 = absolute (i.e. A1)
temperature above which the maximum temperature alarm is activated (“
AH
” code); see also A5 and A11
type of maximum temperature alarm (“
AH
” code)
0 = no alarm
1 = relative to the work set-point (i.e. “work set-point + A4”; consider A4 without sign)
2 = absolute (i.e. A4)
maximum temperature alarm delay (“
AH
” code) from instrument switch-on (3)
temperature alarm delay (“
AL
” code and “
AH
” code)
maximum temperature alarm delay (“
AH
” code) from conclusion of the evaporator fan standstill (13)
maximum temperature alarm delay (“
AH
” code) from deactivation of the door micro switch input (14)
duration of a power cut that occurs when the instrument is on such to cause memorisation of the power supply cut-off alarm, when the power supply is restored (“
PF
”
code) (15)
differential of parameters A1 and A4
type of power supply cut-off alarm signal (“
PF
” code); see also A10
0 = the alarm will not be signalled
1 = the display will show the flashing “
PF
” code and the buzzer will be activated
2 = the display will show the flashing “
PF
” code and the buzzer will be activated (the latter on the condition that the duration of the power supply cut-off is longer than
time A10)
EVAPORATOR FAN
evaporator fan activity during normal functioning
0 = off
1 = on; se also F13, F14 and i10
2 = parallel to the compressor; se also F9, F13, F14 and i10
3 = depending on F1 (16)
4 = off if the compressor is off, depending on F1 if the compressor is on; see also F9 (16)
5 = depending on F6; see also F9
evaporator temperature over which the evaporator fan is switched off (sonly if F0 = 3 or 4); see also F8
activity of the evaporator fan during defrosting and dripping
0 = off
1 = on (it is recommended to set parameter d7 at 0)
2 = depending on F0
maximum duration of the evaporator fan standstill; see also F7 (during evaporator fan standstill, the compressor may be on, the defrosting output will remain deactivated
and the evaporator fan will remain off)
duration of evaporator fan switch-off during functioning due to low relative humidity percentage when the compressor is off; see also F5 (only if F0 = 5)
duration of evaporator fan switch-on during functioning due to low relative humidity percentage when the compressor is off; see also F4 (only if F0 = 5)
functioning due to low or high relative humidity percentage (only if F0 = 5) (17)
0 = LOW RELATIVE HUMIDITY - the evaporator fan will function in parallel to the compressor; see also F4 and F5
1 = HIGH RELATIVE HUMIDITY - the evaporator fan will always be on
evaporator temperature below which the evaporator fan standstill is concluded (relative to the work set-point, i.e. “work set-point + F7”); see also F3
parameter F1 differential
evaporator fan switch-off delay from switch-off of the compressor (only if F0 = 2, 4 and 5)
condenser temperature over which the condenser fan will be switched-on (“F11 + 2,0
°
C/4
°
F, only if u1 = 6 and on condition that the compressor is on); see also F12 (18)
condenser fan switch-off delay from switch-off of the compressor (only if u1 = 6); see also F11
duration of evaporator fan switch-off during the Energy Saving function; see also F14 and i10 (only if F0 = 1 or 2)
duration of evaporator fan switch-on during the Energy Saving function; see also F13 and i10 (only if F0 = 1 or 2)
DIGITAL INPUTS
effect caused by the activation of the door micro switch input; see also i4
0 = no effect
1 = the compressor and the evaporator fan will be switched-off (at maximum for time i3 or until when the input is deactivated) (19)
2 = the evaporator fan will be switched-off (at maximum for time i3 or until when the input is deactivated)
3 = the cabinet light will be switched on (only if u1 = 0, until the input is deactivated)
4 = the compressor and the evaporator fan will be switched-off (at maximum for time i3 or until the input is deactivated) and the cabinet light will be switched on (only
if u1 = 0, until the input is deactivated) (19)
5 = the evaporator fan will be switched-off (at maximum for time i3 or until the input is deactivated) and the cabinet light will be switched on (only if u1 = 0, until the input
is deactivated)
type of door micro switch input contact
0 = normally open (active input with closed contact)
1 = normally closed (input open with contact open)
door micro switch input alarm signalling delay (“
id
” code)
-1= the alarm will not be signalled
maximum duration of the effect caused by activation of the door micro switch input on the compressor and on the evaporator fan
-1= the effect will last until the input is deactivated
door micro switch input alarm memorisation (“
id
” code) (20)
1 = YES
