DOCUMENTATION OF AUTOMATIC CONTROL
FOR COMPACT UNITS
DTR.MCKT-HPX.
AUT-009.5.0
PAGE
GDYNIA
MCKT-HPX
2016
16/35
KLIMOR Spółka z ograniczon
ą
odpowiedzialno
ś
ci
ą
, 81-035 Gdynia, ul. B. Krzywoustego 5
Fax: (+48 58) 783-98-88; Tel.: (+48 58) 783-99-99
Service – Fax: (+48 58) 783-98-88; Tel.: (+48 58) 783-99-50/51 Mobile: (+48) 510 098 081
Information provided in this document is subject to change
email:
– Office
– Service
{FLT}
– collective alarm of the air supply and exhaust filters
{FRS}
– anti-frost alarm
{!HE}
– electrical heater alarm
{POZ}
– fire alarm
{VNP}
– air supply (or air supply and exhaust) fan compression too low
{VAL}
– air supply/exhaust fan’s TK/inverter alarm
{LoP}
– low pressure signal of heat pump compressor
{HiP}
– high pressure signal of heat pump compressor
[S]
– status of an individual input with the alarm message
{0}
– alarm at open connector (the connector is normally closed - NC)
{1}
– alarm at closed connector (the connector is normally open - NO)
[R]
– selection of the alarm statuses number occurring during one hour to cancel the alarm
{0}
– no need to confirm an alarm – alarm decay results in returning to normal operation
{1}
– the first alarm from a particular input requires canceling
{2-6}
– the number of alarms that needs to appear in an hour from the first alarm status in order for the alarm
to require confirmation on screen 0
[AINFn]
–
selecting a method to display universal inputs
{AI}
– analog input
{DI}
– digital input
Fans
[Nmin, Wmin]
– the parameters limit the min requested RPM of the air supply and exhaust fans – it is not possible to
reduce the fan RPM below that value.
[MaxRpmN]
– max air supply motor’s RPM value expressed by percentage of rated RPM (RpmN)
[MaxRpmW]
– max air exhaust motor’s RPM value expressed by percentage of rated RPM (RpmW)
Sensors
[TpCor]
– value read correction of the room sensor in the range (- 3°C; 0°C)
Temperature controller
Settings of the controller of the main heating/cooling loop:
[Ti1]
– integration constant
[1/Kp1]
– reinforcement converse
Settings of the controller of the lower limit of the air supply temperature:
[Ti2]
– integration constant
[1/Kp2]
– reinforcement converse
Settings of the controller of the upper limit of the air supply temperature:
[Ti3]
– integration constant
[1/Kp3]
– reinforcement converse
Heat recovery
//*TEMP.
CONTROLLER
Ti1=__
1/Kp1=__
Ti2=__
1/Kp2=__
Ti3=__
1/Kp3=__
//*SENSORS
TpCor=-_._°C
\\*FANS
Nmin=__%
Wmin=__%
MaxRpmN=__%
MaxRpmW=__%
