KIOUR MACON HP, Руководство пользователя, Страница: 4 / 9

No PARAMETERS DESCRIPTION min max
DEFAULT
UoM
62 tPC Pump-Compressor Time. Compressor start time after pump. 0 200 3 sec
63 tCP Compressor-Pump Time. OFF time of the pump after OFF of the compressor. 0 200 0 min
64 tPO
Intermittent operation of the pump when the compressor is OFF. The tPO parameter works in
conjunction with the GFr parameter. GFr = 0 deactivates the function of the tPO parameter.
If GFr = 1 and tPO = 1-100 min , the pump restarts after the time specified by the parameter (OFF
time) and remains ON at the time specified by the parameter tPd, (time ON).
0 100 0 min
65 tPd It works in conjunction with the tPO parameter and sets the operating time of the pump 1 100 1 min
66 tF1 Bypass time of FLOW SWITCH at pump start 0 200 5 sec
67 tF2 Bypass time of FLOW SWITCH during operation 0 200 5 sec
68 too Time from ON to ON of the same compressor, where 1 unit = 10 sec 0 200 1 10sec
69 tFo Time from OFF to ON of the same compressor, where 1 unit = 10 sec 0 200 1 10sec
70 tdC Time from ON to ON between the two compressors 0 200 5 sec
72 tFC Time from OFF to OFF between the two compressors 0 200 2 sec
73 ton Minimum compressor operating time 0 200 2 sec
74 tLP Bypass time of low compressor pressure (LP1, LP2) at start-up 0 200 3 sec
75 tLo Bypass time of low compressor pressure (LP1, LP2) during operation 0 200 3 sec
76 tAF Safety thermostat bypass time at startup 0 200 30 sec
77 ttA In TANDEM mode . Switch compressors if only one works for time > ttA 2 100 30 min
78 Grc
ON-OFF Remote Control of the system.
Value = 1 Input enabled. Value = 0 the keyboard of the device is activated.
0 1 1 units
79 GrH
Remote Control of HEAT-COOL selection of the system.
Value = 1 Input enabled. Value = 0 the device keyboard is activated.
0 1 1 units
80 itY Instrument Type: 1 = TADEM, 2 = CAPACITIVE, 3 = one compressor / circuit. 1 3 1 units
81 C12
Common circuit (condenser).
Value
= 1 => 1
st
condenser, Value = 2 => 2
nd
condenser. With a common condenser, if FAN1 is ON
then the FAN2 is ON. If FAN2 is ON then the FAN1 is ON. The parameter only affects the fans.
0 1 2 units
82 GAL
Alarm function, automatic or manual,
Value: 0 = alarms manual Reset: HP1, LP1, PH1, Safety Thermostat 1, FLOW
SWITCH, HP2, LP2, PH2, Safety Thermostat 2
1 = automatic Reset
0 1 1 units
83 GSu
Valve Inversion Parameter
Value: 0 = In Cooling the valve relays are OFF and in heating ON
1 = In Heating the valve relays are OFF and in Cooling ON
0 1 0 units
84 GFr
Value: 0 =
The pump is running continuously.
1= The pump starts and stops with the compressors, based on the tPC and tCP times.
0 1 0 units
85 Gnc Number of circuits, Values: 1 = One circuit, 2 = Two circuits 1 2 2 units
86 GLE out of order 0 255 0 -
87 GPo Compressor boot time in Power Up 0 200 0 sec
88 GLC
Value: 0= gives priority to the compressor with the fewest hours
1= gives constant priority to the compressor 1
2= gives constant priority to the compressor 2
0 2 0 units
89 GFP
Pump operation with ALARM safety thermostat in OFF machine condition.
0 =
the pump is deactivated when safety thermostat is activated
1 = the pump is activated when safety thermostat is activated
0 1 1 -
90 trE Time response of the device on network 30 100 30 units
91 Add
0 = network is deactivated. 1= Remote Control operation is activated.
Address of the device on network from 1 – 255
0 255 1 units
92 nCo
0 = SLAVE: PC operation
1 = MASTER: REMOTE CONTROL operation and parameter Add = 1
0 1 0 units
93 C1d
Lower analog output voltage. Compressor C1 of the 1st circuit. The analog signal 0-10 Volt
corresponds consistently to C1. Values from 0 to 4.0 Volt. The analog output will be between
C1U -
C1d in a temperature range defined by parameter C1H or C1C .
For example, C1U - C1d = 7 and C1H = 3 and SHt = 45°C , the voltage will change 10-3 Volt from 42
÷ 45°C on heating (see figure 5B).
0 5 3,0 Volt
94 C1U C1. Compressor C1 of the 1st circuit Higher voltage at the analog output. 6 10 10,0 Volt
95 C1H
C1. Compressor C1 of the 1st circuit.
In the heating: Temperature range to which the proportional voltage at the output corresponds.
1.0 25.0 3.0 °C
96 C1C
C1. Compressor C1 of the 1st circuit.
In the cooling: Temperature range to which the proportional voltage at the output corresponds.
1.0 25.0 3.0 °C
97 C1i C1. Reverse analog signal at the output 0 1 0 units
98 C1A
C1. Compressor C1 of the 1st circuit Increasing the value reduces the oscillation of the signal 0-10
Volt.
1 40 5 units
99 F1d
FAN 1. Lower analog output voltage. 1st circuit. Values from 0 to 4.0 Volt. The analog output will be
between
F1U - F1d in a temperature range defined by parameter F1H or F1C . For, example F1U -
F1d = 7 and F1H = 3 and SHt = 45 °C , the voltage will change 10-3 Volts from 42 ÷ 45 °C on heating
(see figure 6B). When the relays C1, C1b are OFF then the analog output is zero
In the DRIPING_TIME phase it produces the maximum voltage
0 5 3,0 Volt
100 F1U
FAN 1. Higher voltage at the analog output.
When the relay of FAN 1 is OFF then the analog output is 0 Volt
6 10 10,0 Volt
101 F1H
FAN 1. In the heating.
Temperature / pressure range to which the analog output voltage corresponds.
1.0 25.0 3.0 °C
102 F1C
FAN 1. In the cooling.
Temperature / pressure range to which the analog output voltage corresponds.
1.0 25.0 3.0 °C
103 F1i FAN 1. Reverse analog signal at the output 0 1 0 units
104 F1A FAN 1. Increasing the value reduces the oscillation of the 0-10 Volt signal 1 40 5 units