EVCO EC6190 User Manual
Page 4
8
WORKING SETPOINT AND CONFIGURATION PARAMETERS
8.1 Working setpoint
LABEL MIN. MAX. U.M.
DEF. WORKING SETPOINT
r1
r2
°C
2
working setpoint
8.2 First level parameters
LABEL MIN. MAX. U.M.
DEF. PASSWORD
PA
-55
99
---
0
password
LABEL MIN. MAX. U.M.
DEF. REGULATOR
r0
1
15
°C
2
hysteresis (differential, it is relative to the working setpoint)
LABEL MIN. MAX. U.M.
DEF. DEFROST
dA
---
---
°C
---
evaporator temperature showing
8.3 Second level parameters
LABEL MIN. MAX. U.M.
DEF. MEASURE INPUTS
/0
1
4
---
1
kind of probe (1 = PTC, 2 = reserved, 3 = NTC, 4 = reserved)
/1
-55
99
°C
0
cabinet and evaporator probes calibration (you have to set eight points for adjusting one
degree)
/2
0
6
---
3
probes reading speed (0 = fast, ... , 6 = slow)
/3
---
---
---
---
reserved
LABEL MIN. MAX. U.M.
DEF. REGULATOR
r0
1
15
°C
2
hysteresis (differential, it is relative to the working setpoint)
r1
-55
r2
°C
-50
minimum value you can assign to the working setpoint
r2
r1
99
°C
50
maximum value you can assign to the working setpoint
LABEL MIN. MAX. U.M.
DEF. COMPRESSOR PROTECTION
C0
0
15
min
0
minimum delay between you turn the instrument ON and the first compressor activation
C1
0
15
min
5
minimum delay between two compressor activation in succession
C2
0
15
min
3
minimum delay between the compressor gets OFF and the following activation
C3
0
1
---
0
compressor status during the cabinet probe alarm (0 = it will be forced OFF, 1 = it will be
forced ON)
C4
0
1
---
0
fixed delay since the compressor gets ON and OFF (1 = YES, for 3 s)
LABEL MIN. MAX. U.M.
DEF. DEFROST
d0
0
99
h/min
(2)
8
defrost interval
(3)
(0 = the defrost will never automatically be activated)
d1
0
1
---
0
kind of defrost (0 = electric defrost, 1 = hot gas defrost)
d2
-55
99
°C
2
defrost end temperature (evaporator temperature)
d3
1
99
min/s
(2)
30
defrost maximum length
d4
0
1
---
0
defrost activation every time you turn the instrument ON (1 = YES)
(3)
d5
0
99
min/s
(2)
0
delay between you turn the instrument ON and the defrost activation (it is important if
d4 = 1)
d6
0
1
---
1
freeze of the temperature showed by the instrument during the defrost (1 = YES)
(4)
d7
0
15
min/s
(2)
2
dripping time
d8
0
15
h
1
temperature alarm exclusion time since the end of the after dripping evaporator fan delay
(since the end of F5, it is important if db = 0 and A1 and/or A2 ≠ 0)
d9
0
1
---
0
compressor protections cleaning at the moment of the defrost activation (it is important if
d1 = 1; 1 = YES)
dA
---
---
°C
---
evaporator temperature showing
db
0
1
---
0
unit of measure defrost times (0 = d0 in hours, d3, d5, d7 and F5 in minutes,
1 = d0 in minutes, d3, d5, d7 and F5 in seconds)
LABEL MIN. MAX. U.M.
DEF. ALARMS
A0
1
15
°C
2
hysteresis (differential, it is relative to A1 and A2, it is important if A1 and/or A2 ≠ 0)
A1
-55
0
°C
-10
lower temperature alarm threshold (it is relative to the working setpoint, 0 = it will never be
activated)
A2
0
99
°C
10
upper temperature alarm threshold (it is relative to the working setpoint, 0 = it will never be
activated)
A3
0
15
h
2
temperature alarm exclusion time since you turn the instrument ON (it is important if
A1 and/or A2 ≠ 0)
A4
---
---
---
---
reserved
LABEL MIN. MAX. U.M.
DEF. EVAPORATOR FAN
F0
0
1
---
1
evaporator fan action during the normal operation (0 = it will work in accordance with F1
and F2, 1 = it will be forced ON); look at F3 as well
F1
-55
99
°C
-1
evaporator fan stop temperature (evaporator temperature, it is important if F0 = 0); look at
F6 as well
F2
2
15
°C
2
hysteresis (differential, it is relative to F1, it is important if F0 = 0)
F3
0
1
---
1
evaporator fan OFF when the compressor is OFF (1 = YES)
F4
0
1
---
1
evaporator fan OFF during the defrost (1 = YES)
F5
0
15
min/s
(2)
15
after dripping evaporator fan delay