CLIMAVENETA CVM 3000, Technical Manual

Page: 49 / 58

TECHNICAL MANUAL
CVM 3000
C 5030 CV/04-99 GB
49
67 CI DELAY TIME BEFORE PASSING FROM HEAT
PUMP TO ANOTHER STATUS (FOR WRQ/WRAQ
UNITS ONLY)
0
↔
500
120 sec
68 CI STAND-BY TIME BEFORE VALVE RE-
CONFIGURATION (FOR MULTIPURPOSE UNITS
ONLY)
0
↔
500
120 sec
69 CO OPERATING HOURS COMPRESSOR N° 1 ----------- hrs
70 CO OPERATING HOURS COMPRESSOR N° 2 0 set operating ----------- hrs
71 CO OPERATING HOURS COMPRESSOR N° 3 hours to zero ----------- hrs
72 CO OPERATING HOURS COMPRESSOR N° 4 n>1: n is the number ----------- hrs
73 CO OPERATING HOURS COMPRESSOR N° 5 of operating hours ----------- hrs
74 CO OPERATING HOURS COMPRESSOR N° 6 ----------- hrs
75 CO OPERATING HOURS COMPRESSOR N° 7 ----------- hrs
76 CO OPERATING HOURS COMPRESSOR N° 8 ----------- hrs
77 M POLARITY OF WATER FLOW SWITCH INPUT ON
PRIMARY CIRCUIT
0= FLOW ALARM
WITH CLOSE
CONTACT
1= FLOW ALARM
WITH OPEN
CONTACT
1 flag
78 M POLARITY OF WATER FLOW SWITCH INPUT ON
SECONDARY CIRCUIT
0= FLOW ALARM
WITH CLOSE
CONTACT
1= FLOW ALARM
WITH OPEN
CONTACT
0 flag
79 M PRIMARY CIRCUIT FLOW SWITCH ALARM DELAY
TIME WITH UNITS IN OPERATION
0
↔
500
1 sec
80 M SECONDARY CIRCUIT FLOW SWITCH ALARM
DELAY TIME WITH UNITS IN OPERATION
0
↔
500
1 sec
81 M
∆
t FOR FAN SPEED REGULATION IN FREE
COOLING OPERATION
0
↔
500
2 °C
82 M TYPE OF INTEGRAL REGULATION 0= MEAN INTEGRAL
1=ABSOLUTE
INTEGRAL
1 flag
83 M MINIMUM TIME BETWEEN TWO LOAD
VARIATIONS DURING THE CONTROLLED
STARTUP PROCEDURE
0
↔
600
0 sec
84 M MAXIMUM LOAD VARIATION DURING THE
CONTROLLED STARTUP PROCEDURE
0
↔
100
100%
85 M PRIMARY CIRCUIT INTEGRAL TIME
0
↔
600
0 sec
86 M MAX CORRECTION VALUE APPLIED TO THE
PRIMARY CIRCUIT THROUGH THE INTEGRAL
REGULATION
0
↔
10
0 °C
87 M SECONDARY CIRCUIT INTEGRAL TIME
0
↔
600
0 sec
88 M MAX CORRECTION VALUE APPLIED TO THE
SECONDARY CIRCUIT THROUGH THE
INTEGRAL REGULATION
0
↔
10
0 °C