Loading ...
Loading ...
Loading ...
INTRODUCTION
PAGE 5
ENGLISH
Introduction to the System
Single Zone Ductless Split System Heat Pumps feature a wall
mounted indoor fan/evaporator unit that receives refrigerant
from an inverter driven variable speed outdoor condensing
unit. The system operation is controlled with a remote
control.
The outdoor unit features a variable speed rotary
compressor, EEV metering device and DC fan motor. These
systems use R410A refrigerant and PVE oil. The outdoor units
are 208/230 volt rated systems. They come factory charged
for up to 25 ft. of interconnecting piping.
The indoor units are wall mounted. They feature a DC
blower motor and a DC louver motor. The unit has a room
temperature sensor and an evaporator tube temperature
sensor. The wall unit is powered by voltage from the outdoor
unit.
Specications for Proper Operation
• The systems are designed to operate in temperature ranges
of 60°F to 86°F in cooling mode and 60°F to 86°F in heat
mode.
• PVE oil is non-reactive to water and will not go into
hydrolysis. There is no need to add a refrigeration drier
when servicing or installing this system.
• The indoor wall mounted unit receives operating voltage
and communication data signals on #14 AWG wire that
connects between the indoor and outdoor units. There
should not be any splices in the eld wiring that goes
between terminals 1, 2, 3 and 4. A splice in these wires may
cause the system to lose communication between the
indoor and outdoor units. The system will then display an
error code E7.
• The eld-supplied refrigerant tubing connects using are
type ttings at both the indoor and outdoor units. Tubing
must be sized per the specications. Both lines must be
insulated. The only method of checking charge or adjusting
charge is by weight method explained in this manual (no
exceptions).
• The condensate system is a gravity type. A eld installed
condensate pump may be added to the system. Always
follow the manufacturer’s installation instructions when
installing a condensate pump.
• Proper clearances at both indoor and outdoor units must
be maintained. Improper clearances cause incorrect
refrigerant pressures and coil freezing.
System Fundamentals
The indoor unit will sense room temperature at the point
where the wall unit is installed. The indoor fan will run
continuously when placed in heating or cooling mode and
will not cycle on and o with the outdoor unit. If it did, room
temperature could not be sensed or maintained.
The inverter compressor system in the outdoor unit will vary
the refrigerant ow and indoor air volume levels to match
the comfort requirement inside the conditioned space. If an
abnormal condition is detected by the system’s sensors, the
system has the ability to take reactive measures.
The amount of refrigerant ow and associated capacity
generated by the system will be determined by how fast the
system’s variable speed rotary compressor is pumping. The
compressor operating speed is determined by the dierence
between the conditioned space temperature and the set
point.
If a large amount of capacity is needed, the compressor will
operate at a high speed. As the need for capacity reduces and
the temperature of the room nears set point, the compressor
will slow down. When set point has been reached, the
compressor will shut o while the fan continues to operate.
When a dierence in temperature is sensed between the
set point and room, the compressor will restart at a new
calculated speed.
If a system sensor determines there is a need to adjust
the frequency signal to prevent a system malfunction,
the compressor frequency may be over ridden and a new
frequency established. It should be noted that the frequency
signal level that is sent to the compressor cannot be
determined by a servicing technician.
In this manual, system components, operation, sensor
functions, and diagnostic procedures will be explained in
greater detail.
Introduction
Loading ...
Loading ...
Loading ...