Evco EVK614, Manual

Page: 6 / 7

Evco S.p.A. • Code 104K614E00 • page 6/7
14 CONFIGURATION PARAMETERS
14.1Configuration parameters
PARAM. MIN. MAX. U. M. DEF.
SEt0 rC1 rC2 ° C/ ° F (1) -2.0
SEt1 rC1 rC2 ° C/ ° F (1) 4.0
SEt2 rH1 rH2 ° C/ ° F (1) 16.0
SEt3 rH1 rH2 ° C/ ° F (1) 26.0
SEt4 rH1 rH2 ° C/ ° F (1) 15.0
SEt5 rH1 rH2 ° C/ ° F (1) 26.0
SEt6 rC1 rC2 ° C/ ° F (1) -2.0
PARAM. MIN. MAX. U. M. DEF.
Ur0 rU5 rU6 % 0
Ur1 rU5 rU6 % 0
Ur2 rU5 rU6 % 70
Ur3 rU5 rU6 % 75
Ur4 rU5 rU6 % 75
Ur5 rU5 rU6 % 0
PARAM. MIN. MAX. U. M. DEF.
dur0 00:00 23:59 h:min 04:00
dur2 00:00 23:59 h:min 02:00
dur3 00:00 23:59 h:min 02:00
dur5 00:00 23:59 h:min 00:00
PARAM. MIN. MAX. U. M. DEF.
CA1 -25.0 25.0 ° C/ ° F (1) 0.0
CA2 -25.0 25.0 ° C/ ° F (1) 0.0
P0 0 1 - - - - 1
P1 0 1 - - - - 1
P2 0 1 - - - - 0
P3 0 1 - - - - 1
P4 0 5 - - - - 2
P5 1 30 min 15
P6 0 2 - - - - 1
P7 0 1 - - - - 1
P8 0 1 - - - - 0
P9 0 1 - - - - 1
PARAM. MIN. MAX. U. M. DEF.
rC0 0.1 15.0 ° C/ ° F (1) 3.0
rC1 -99.0 rC2 ° C/ ° F (1) -3.0
rC2 rC1 99.0 ° C/ ° F (1) 15.0
rC3 0.0 10.0 ° C/ ° F (1) 3.0
rC4 0.0 10.0
°
C/
°
F (1) 1.0
rC5 0.0 10.0 ° C/ ° F (1) 1.0
PARAM. MIN. MAX. U. M. DEF.
rH0 0.1 15.0 ° C/ ° F (1) 3.0
rH1 0.0 rH2 ° C/ ° F (1) 0.0
rH2 rH1 99.0 ° C/ ° F (1) 35.0
rH3 0.0 10.0 ° C/ ° F (1) 1.0
rH4 0.0 10.0 ° C/ ° F (1) 3.0
rn1 1 3 - - - - 1
rn2 1 3 - - - - 1
PARAM. MIN. MAX. U. M. DEF.
rU1 0.0 90.0 ° C/ ° F (1) 10.0
rU2 30 600 s 60
rU3 0 rU2 s 30
rU4 0 1 - - - - 0
rU5 0 rU6 % 0
rU6 rU5 100 % 100
WORK SET-POINT
work set-point during the retarding-provering phase; also see rC4
work set-point during the storing phase; also see rC4
work set-point during the awakening phase; also see rC3 and rH3
work set-point during the provering phase; also see rC3 and rH3
work set-point during the slowing phase; also see rC5 and rH4
work set-point during the heating manual cycle, see also rH3
work set-point during the cooling manual cycle; see also rC4
PERCENTAGE OF RELATIVE HUMIDITY
percentage of relative humidity during the retarding-provering phase (intended as percentage of time rU3); see also rU1
percentage of relative humidity during the storing phase (intended as percentage of time rU3); see also rU1
percentage of relative humidity during the awakening phase (intended as percentage of time rU3); see also rU1
percentage of relative humidity during the provering phase (intended as percentage of time rU3); see also rU1
percentage of relative humidity during the slowing phase (intended as percentage of time rU3); see also rU1
percentage of relative humidity during the heating manual cycle (intended as percentage of time rU3); see also rU1
DURATION OF THE PHASES
duration of the retarding-provering phase
duration of the awakening phase
duration of the provering phase
duration of the activation of the buzzer and the end of the duration of the heating manual cycle
MEASURE INPUTS
room probe offset
evaporator probe offset
type of probe
0 = PTC
1 = NTC
degree Celsius decimal point (for the size displayed during normal functioning)
1 = YES
temperature unit of measurement (2)
0 =
° C
1 = ° F
enabling the evaporator probe
1 = YES
size displayed during normal functioning
0 = room temperature if a functioning cycle is in progress
display off if the instrument is in stand-by
1 = end time of the provering phase if an automatic cycle is in progress
display off if the instrument is in stand-by (3)
2 = room temperature (for 3 s) alternately with the end time of the provering phase (for 1 s) if an automatic cycle is in progress
display off if the instrument is in stand-by (3)
3 = room temperature if a functioning cycle is in progress
real time if the instrument is in stand-by
4 = end time of the provering phase if an automatic cycle is in progress
real time if the instrument is in stand-by (4)
5 = room temperature (for 3 s) alternately with the end time of the provering phase (for 1 s) if an automatic cycle is in progress
real time if the instrument is in stand-by (4)
duration of a power cut (that occurs during a functioning cycle) after which the cycle is interrupted (only if P6=2)
functioning of the instrument when the power supply is restored after shut-off that occurs during a functioning cycle
0 = the cycle will be interrupted
1 = the cycle will be restored
2 = depending on P5
enabling of the automatic cycle
1 = YES
blocking the modification of the automatic cycle settings (operate with the procedures indicated in chapter 5).
1 = YES
enabling of the display of the end time and date of the provering phase in succession (instead of just the end time of the provering phase)
during the modification of the automatic cycle settings (operate with the procedures indicated in chapter 5)
1 = YES
COOLING REGULATOR
differential of the rC3, rC4 and rC5 parameters
minimum value of the SEt0, SEt1 and SEt6 parameters
maximum value of the SEt0, SEt1 and SEt6 parameters
value of the neutral zone for cooling functioning during the awakening phase and during the provering phase (relative to the work set-point, i.e. “SEt2 and SEt3 + rC3”); see
also rC0
value of the neutral zone for cooling functioning during the retarding provering phase, during the storage phase and during the cooling manual cycle (relative to the work
set-point i.e. "SEt0, SEt1 or SEt6 + rC4"); see also rC0
value of the neutral zone for cooling functioning during the slowing phase (relative to the work set-point, i.e. “SEt4 + rC5”); see also rC0
HEATING REGULATOR
differential of the rH3 and rH4 parameters
minimum value of the SEt2, SEt3, SEt4 and SEt5 parameters
maximum value of the SEt2, SEt3, SEt4 and SEt5 parameters
value of the neutral zone for heating functioning during the awakening phase and during the provering phase and during the heating manual cycle (relative to the work set-
point, i.e. “SEt2, SEt3 and SEt5 + rH3”); see also rH0
value of the neutral zone for heating functioning during the slowing phase (relative to the work set-point, i.e. “SEt4 + rH5”); see also rH0
number of steps by which the “room temperature on activation of the awakening phase - SEt2” difference is divided, depending on the time dur2, for the calculation of the
work set-point during the same phase (5)
number of steps by which the “room temperature on activation of the provering phase - SEt3” difference is divided, depending on the time dur3, for the calculation of the work
set-point during the same phase (6)
HUMIDIFIER
temperature of the room below which humidification is not available (7)
cycle time for humidifier switch-on; see also rU3
duration of humidifier switch-on (during time rU2) such to cause 100% relative humidity
enabling of setting the percentage relative humidity during the modification of the settings of the retarding-provering phase and during modification of the storing phase
settings (with the procedures indicated in paragraphs 5.3.1 and 5.4.1)
1 = YES
minimum value of the Ur0, Ur1, Ur2, Ur3, Ur4 and Ur5 parameters
maximum value of the Ur0, Ur1, Ur2, Ur3, Ur4 and Ur5 parameters