Sharp AY-XP13CR (serv.man15) Service Manual ▷ View online
21
AY-XP08CR
AY-XP10CR
AY-XP13CR
AY-XP10CR
AY-XP13CR
• The remote control displays " ".
• The red OPERATION lamp (
) and the blue
PLASMACLUSTER lamp on the unit will light up.
• The unit will stop operation after forty minutes.
• The remaining operation time will be indicated on
• The remaining operation time will be indicated on
the TEMPERATURE INDICATOR of the indoor
unit in minute decrements.
unit in minute decrements.
TO CANCEL
Press the SELF CLEAN button.
Or, turn the unit off by pressing the ON/OFF button.
Or, turn the unit off by pressing the ON/OFF button.
• The red OPERATION lamp (
),the blue
PLASMACLUSTER lamp and the TEMPERATURE
INDICATOR on the unit will turn off.
INDICATOR on the unit will turn off.
1
During operation, press the PLASMACLUSTER
button to select the mode.
button to select the mode.
You can choose PLASMA CLUSTER AUTO OPERATION, AIR CLEAN OPERATION or
REFRESHING OPERATION
REFRESHING OPERATION
PLASMACLUSTER AUTO
AIR CLEAN
REFRESHING
CANCEL
• In the AIR CLEAN operation, the blue
PLASMACLUSTER lamp on the unit will light up.
• In the REFRESHING operation, the green
PLASMACLUSTER lamp on the unit will light up.
TO CANCEL
Press the PLASMACLUSTER button until
PLASMACLUSTER symbol on the remote control
display goes off.
• The PLASMACLUSTER lamp on the unit will turn
PLASMACLUSTER symbol on the remote control
display goes off.
• The PLASMACLUSTER lamp on the unit will turn
off.
NOTE
:
• You cannot set the temperature, fan speed, air flow direction or timer setting during the
SELF CLEAN operation.
SWING
CLEAN
FAN
MODE
SET/C
1h
AM
AUTO
1
SWING
CLEAN
FAN
SET/C
AM
NOTES:
• Setting of the PLASMACLUSTER operation will be memorized and will operate in the
same mode, the next time you turn on the air conditioner.
• To turn off the PLASMACLUSTER lamp, press the DISPLAY button.
PLASMA CLUSTER OPERATION
SELF CLEAN OPERATION
1
Press the SELF CLEAN button when the unit is not
operating.
operating.
1
22
AY-XP08CR
AY-XP10CR
AY-XP13CR
AY-XP10CR
AY-XP13CR
The ionizer inside the air conditioner will release cluster ions, which are
collective mass of positive and negative ions, into the room.
The cluster ions reduce airborne mold fungus and deodorize/decompose odor-
causing molecules.
collective mass of positive and negative ions, into the room.
The cluster ions reduce airborne mold fungus and deodorize/decompose odor-
causing molecules.
AIR CLEAN OPERATION
Cluster ions released into the air will reduce airborne mold fungus and deodorize/decompose
odor-causing molecules.
odor-causing molecules.
REFRESHING OPERATION
It is said that plenty of negative ions exist in places such as waterfalls or forests in natural
environment. In this operation mode, negative inos will be released in an increased rate, in order
to bring the room air close to this condition.
environment. In this operation mode, negative inos will be released in an increased rate, in order
to bring the room air close to this condition.
PLASMACLUSTER AUTO OPERATION
Dust sensor and odor sensor will detect foul air in the room.
Air Clean Operation will be performed for one minute after the air conditioner is operated to
detect foul air.
Air Clean Operation and Refreshing Operation will be selected and be performed automatically
depending on the air foul degree.
Air Clean Operation will be performed when the air is detected to be foul, Refreshing Operation
will be performed when the air is clean.
Air Clean Operation will be performed for one minute after the air conditioner is operated to
detect foul air.
Air Clean Operation and Refreshing Operation will be selected and be performed automatically
depending on the air foul degree.
Air Clean Operation will be performed when the air is detected to be foul, Refreshing Operation
will be performed when the air is clean.
SELF CLEAN OPERATION
Plasmacluster Operation will be performed with FAN or HEAT mode, in order to reduce the
growth of mold fungus, and dry inside of the air conditioner unit.
Utilize the operation at seasonal change over terms.
Mold fungus already grown can not be eliminated by this operation.
growth of mold fungus, and dry inside of the air conditioner unit.
Utilize the operation at seasonal change over terms.
Mold fungus already grown can not be eliminated by this operation.
TIPS ABOUT DUST SENSOR AND ODOR SENSOR
What does Dust Sensor react to?
• Dust sensor reacts to mold fungus, plants/flowers pollen, dead ticks, dust, tobacco smoke etc.
What does Odor Sensor react to?
• Odor Sensor reacts to tobacco smoke, motor exhaust, odor emitted from animals, etc.
Dust and Odor Sensor also may react to vapour of insecticides, cosmetics, alcohol, chemicals
and the like, and to extreme change of temperature/humidity.
and the like, and to extreme change of temperature/humidity.
Ionizer
Cluster ions
Mold fungus
Odor
Odor
TIP ABOU PLASMACLUSTER OPERATION
23
AY-XP08CR
AY-XP10CR
AY-XP13CR
AY-XP10CR
AY-XP13CR
2. OUTDOOR UNIT
2-1 Defrost operation
(1) Overview
2-1 Defrost operation
(1) Overview
Defrosting begins during heating if the conditions for
compressor operation time and outdoor heat
exchanger temperature are met.
When defrosting begins, the indoor and outdoor fans
stop. Defrosting stops when the temperature of the
outdoor heat exchanger goes above approximately
5˚C or defrosting time exceeds 13 minutes.
compressor operation time and outdoor heat
exchanger temperature are met.
When defrosting begins, the indoor and outdoor fans
stop. Defrosting stops when the temperature of the
outdoor heat exchanger goes above approximately
5˚C or defrosting time exceeds 13 minutes.
More than
20 min.
More than
20 min.
Defrosting
Max. 12 min.
Heating
operation
start
Defrosting
Max. 12 min.
More than
20 min.
Defrost
mask time
Defrost
mask time
Defrost
mask time
Heating
begins
Defrosting
Max. 13 min.
Defrosting
Max. 13 min.
2) Defrosting
If the compressor operation time is more than 20
minutes in the heating mode and the outdoor air
temperature and outdoor heat exchange temperature
satisfy the defrosting conditions, the defrosting
operation is started.
When the outdoor sheat-exchanger temperature
reaches approx. 7°C or above or when the defrosting
time exceeds 13 minutes, the defrosting operation is
quit.
minutes in the heating mode and the outdoor air
temperature and outdoor heat exchange temperature
satisfy the defrosting conditions, the defrosting
operation is started.
When the outdoor sheat-exchanger temperature
reaches approx. 7°C or above or when the defrosting
time exceeds 13 minutes, the defrosting operation is
quit.
(3) During defrosting
When defrosting begins, the compressor stops.
Approximately 1 minute later, the compressor
reactivates in the refrigeration cycle, and the outdoor
heat exchanger is defrosted.
Each mode is as follows:
The outdoor fan is stopped
The operating frequency is as shown in the table
below The indoor fan is stopped.
The 4-way valve is OFF.
Approximately 1 minute later, the compressor
reactivates in the refrigeration cycle, and the outdoor
heat exchanger is defrosted.
Each mode is as follows:
The outdoor fan is stopped
The operating frequency is as shown in the table
below The indoor fan is stopped.
The 4-way valve is OFF.
AE-X08CR
for 5 minutes
after 5 minutes
51.667
51.667
62.500
62.500
83.750
83.750
AE-X10CR
AE-X13CR
24
AY-XP08CR
AY-XP10CR
AY-XP13CR
AY-XP10CR
AY-XP13CR
(4) Defrost stop
When defrosting time exceeds 13 minutes When the temperature of the outdoor heat exchanger rises above
approximately 7˚C Defrost stop is determined by either of the above conditions, and the compressor is stopped. At
the same time, the outdoor fan go ON. The compressor is reactivated in the heating cycle 1 minute after it was
stopped, and normal control resumes.
approximately 7˚C Defrost stop is determined by either of the above conditions, and the compressor is stopped. At
the same time, the outdoor fan go ON. The compressor is reactivated in the heating cycle 1 minute after it was
stopped, and normal control resumes.
2-2 Frequency control
(1) AC current peak control
(1) AC current peak control
(2) Control for prevention of indoor heat exchanger overheating.
If the temperature of the indoor heat exchanger exceeds the overheating prevention line 1 or 2 during heating, the
operating frequency is lowered by approximately 5 to 10 Hz. After that, the frequency is lowered by approximately
5Hz once every 60 seconds or 10 Hz once every 60 seconds. When the temperature of the indoor heat exchanger
goes below the overheating prevention line 1, the frequency is raised by approximately 5 Hz once every 60
seconds, and normal operation is restored.
If the frequency is lowered to minimum frequency without the temperature of the outdoor heat exchanger
decreasing and this condition lasts for 1 minute, the compressor will be stopped.
operating frequency is lowered by approximately 5 to 10 Hz. After that, the frequency is lowered by approximately
5Hz once every 60 seconds or 10 Hz once every 60 seconds. When the temperature of the indoor heat exchanger
goes below the overheating prevention line 1, the frequency is raised by approximately 5 Hz once every 60
seconds, and normal operation is restored.
If the frequency is lowered to minimum frequency without the temperature of the outdoor heat exchanger
decreasing and this condition lasts for 1 minute, the compressor will be stopped.
(3) Control for prevention of outdoor heat exchanger overheating.
If the temperature of the outdoor heat exchanger exceeds the overheating prevention line 1 or 2 during cooling, the
operating frequency is lowered by approximately 5 to 15 Hz.
After that, the frequency is lowered by approximately 5 once every 60 seconds or approximately 15Hz once every
60 seconds. When the temperature of the outdoor heat exchanger goes below the overheating prevention clear
line, the frequency is raised by approximately 5 Hz once every 60 seconds, and normal operation is restored. If the
frequency is lowered to minimum frequency without the temperature of the outdoor heat exchanger decreasing and
this condition lasts for 1 minute, the compressor will be stopped.
operating frequency is lowered by approximately 5 to 15 Hz.
After that, the frequency is lowered by approximately 5 once every 60 seconds or approximately 15Hz once every
60 seconds. When the temperature of the outdoor heat exchanger goes below the overheating prevention clear
line, the frequency is raised by approximately 5 Hz once every 60 seconds, and normal operation is restored. If the
frequency is lowered to minimum frequency without the temperature of the outdoor heat exchanger decreasing and
this condition lasts for 1 minute, the compressor will be stopped.
4)
Control for prevention of discharge overheating
If the discharge temperature exceeds approximately 105°C during compressor operation, the operating frequency
is lowered by approximately 5 Hz. After that, the frequency is lowered by approximately 5 Hz once every 60
seconds. When the discharge temperature goes below approximately 104°C, the frequency is raised by approximately
5 Hz once every 60 seconds, and normal operation is restored.
If the frequency is lowered to minimum frequencywithout the discharge temperature decreasing and this condition
lasts for 1 minute, the compressor will be stopped.
If the discharge temperature exceeds approximately 105°C during compressor operation, the operating frequency
is lowered by approximately 5 Hz. After that, the frequency is lowered by approximately 5 Hz once every 60
seconds. When the discharge temperature goes below approximately 104°C, the frequency is raised by approximately
5 Hz once every 60 seconds, and normal operation is restored.
If the frequency is lowered to minimum frequencywithout the discharge temperature decreasing and this condition
lasts for 1 minute, the compressor will be stopped.
(5) Control for prevention of indoor heat exchanger freezing
If the temperature of the indoor heat exchanger goes below approximately 5°C during cooling(only Full power
operation), the operating frequency is lowered by approximately 5 Hz. After that, the frequency is lowered by
approximately 5 Hz once every 60 seconds. When the temperature of the indoor heat exchanger rises above
approximately 5°C, the frequency is raised by approximately 5 Hz once every 60 seconds, and normal operation is
restored.
If the temperature of the indoor heat exchanger goes down to approximately 0°C and this condition continues for
4 minutes, the compressor is stopped.
When the temperature rises above approximately 2˚C, normal operation is restored.
operation), the operating frequency is lowered by approximately 5 Hz. After that, the frequency is lowered by
approximately 5 Hz once every 60 seconds. When the temperature of the indoor heat exchanger rises above
approximately 5°C, the frequency is raised by approximately 5 Hz once every 60 seconds, and normal operation is
restored.
If the temperature of the indoor heat exchanger goes down to approximately 0°C and this condition continues for
4 minutes, the compressor is stopped.
When the temperature rises above approximately 2˚C, normal operation is restored.
55˚C
57˚C
54˚C
57˚C
54˚C
Lower 5Hz once every 60 seconds
Lower 15Hz once every 60 seconds
Lower 15Hz once every 60 seconds
Overheating prevention line 1
Overheating prevention line 2
Overheating prevention clear line
Overheating prevention line 2
Overheating prevention clear line
M o d e l
S e t v a l u e
C o o l
H e a t
6 . 2 A
6 . 7 A
5 . 3 A
5 . 4 A
7 . 9 A
1 0 . 5 A
A E - X 0 8 C R
A E - X 1 0 C R
A E - X 1 3 C R
Overheating prevention line 1 (Lower 5Hz)
44.84
47.39
AE-X08CR
AE-X10CR
AE-X13CR
AE-X10CR
AE-X13CR
[˚C]
[˚C]
130Hz ~
44.84
47.39
51.87
50.95
105Hz ~
112Hz
112Hz ~
130Hz
53.29
54.26
97Hz ~
105Hz
54.26
57.27
50Hz ~
97Hz
53.29
55.74
43Hz ~
50Hz
52.34
54.75
37Hz ~
43Hz
~ 37Hz
AE-X08CR
AE-X10CR
AE-X13CR
AE-X10CR
AE-X13CR
130Hz ~
105Hz ~
112Hz
112Hz ~
130Hz
97Hz ~
105Hz
50Hz ~
97Hz
43Hz ~
50Hz
37Hz ~
43Hz
~ 37Hz
44.84
46.53
Operating frequency
During normal operation
During full power operation
During full power operation
Overheating prevention line 2 (Lower 10Hz)
49.59
51.87
[˚C]
[˚C]
49.59
51.87
53.29
53.74
56.25
58.85
57.27
59.94
56.25
58.85
55.24
57.27
47.39
49.14
Operating frequency
During normal operation
During full power operation
During full power operation
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