product marketing sales training
DESCRIPTION
Product Marketing Sales Training. Course Contents. Fundamentals of Inverter Air-Conditioner System OYL Inverter Product Range Service / Troubleshooting. Fundamentals of Inverter A/C System. Power supply (input) frequency is either 50 Hz or 60 Hz. - PowerPoint PPT PresentationTRANSCRIPT
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Inverter DX Inverter DX
Product MarketingProduct Marketing
Sales TrainingSales Training
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Inverter DX Inverter DX
Course Contents
• Fundamentals of Inverter Air-Conditioner System
• OYL Inverter Product Range
• Service / Troubleshooting
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Fundamentals of Inverter A/C System
• Power supply (input) frequency is either 50 Hz
or 60 Hz.
• Inverters change the frequency (15 – 100 Hz) to the compressor according to load requirements.
Inverter Compressor operates at different speeds.
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Fundamentals of Inverter
AC = +/- voltage changes
U (V)
Vavg = 0
U (V)
t(s)
DC = no voltage changes
Vavg 0
t(s)
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Fundamentals of Inverter
U (V)
t(s)
U (V)
t(s)
f = 50 Hz f = 70 Hz
Compressor Speed can be varied bychanging the Compressor Input
Frequency
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Fundamentals of Inverter
IN: 240 VACf = 50 Hz
OUT: variable
f = variable
Rectifier(AC-DC)
Inverter (DC-AC)
PWM waveform
MCUSystem control
BrushlessMotor
Power supply220~240/1Ph/50Hz
O/D temp sensor
Current sensor
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Difference between AC & DC Inverter
• Motor efficiency
• Motor control method
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Motor Efficiency
DC Efficiency
AC Efficiency
AC total loss
Running loss
Exciting loss
1.00.5 [kW]
[%]
Motor Output
90
80
70
60
50Effi
cie
nc
y
DC total loss
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Motor control method
VDC Ascent
Comp. Load
N1 N2 N3
REVOLUTION
TO
RQ
UE
VAC Ascent
DC motor revolutionDepend on ( Vdc )
AC motor revolutionDepend on freq. (FV curve) DC motor control method
・ PAM : Vdc change ・ PWM : Vdc fix but duty change ( AVG VDC change )
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Advantages of Inverter System
• Room Temperature comfort
• Fast cooling / heating
• Less compressor ON / OFF cycle
• Low starting current (Soft start)
• Improvement in Low Temperature characteristic during Heating mode.
• Low energy consumption
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Room Temperature ComfortPrecise Room Temperature control
Less temperature fluctuation
0.5 deg Celsius from Set Temperature
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Fast Cooling / HeatingQuick ramp-up of compressor speed.
Enables A/C to reach set temperature faster.
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Less ON / OFF cycle
Time
Compressor capacity
Full capacity
Conventional compressor
ON OFF ON OFF ON OFF
• Once Set Temperature is reached, Inverter compressor still runs BUT at lower frequency.
• Conventional compressor will STOP.
• Therefore, ON/OFF strain for inverter compressor is less, making it lasts longer.
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Low Starting Current
• Inverter compressor start-up at lower frequency, then quickly ramps up.
• Starting current is lower.
Running current
Hours of operation
Conventional air conditioner:•High starting current•Frequent on/off cycle
Inverter air conditioner:•Low starting current•Smooth operation
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Improvement in Low Temperature Characteristics
• i) During low ambient temperature the inverter unit will run at max frequency which the capacity will improve compare with normal fix compressor unit
• ii) During defrost, the inverter unit will run at max frequency thus the defrost time will be less.
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Low Energy Consumption
Most FrequentlyUsed Area
Inverter
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OYL Inverter Product Range
• Available for R22 (AC) and R410A (DC)
• Single – split & Multi-Split
• Wall-mounted, Ceiling Cassette, Ceiling Convertible, Ceiling Concealed.
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OYL Inverter Product RangeIndoor Wall – Mounted
(5)WMX10/15/20/25G(R)
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OYL Inverter Product RangeIndoor Ceiling Cassette
(5)CKX10/15/20C(R)
(5)CKX20/25A(R)
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OYL Inverter Product RangeIndoor Ceiling Convertible
(5)CMX15/20/25E(R)
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OYL Inverter Product RangeIndoor Ceiling Concealed
(5)CCX10/15/20/25C(R)
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Inverter Product Range• Outdoor Condensing C – Series (Single-split)
5SLX10/15/20/25C(R)
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Inverter Product Range• Outdoor Condensing A – Series R410A
(Multi-split DC Inverter)
5MSX20/25/30A(R)
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Inverter Product Range• Outdoor Condensing A – Series R22
(Multi-split AC Inverter)
MSV25/35A
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Inverter Product Range
5WMX10GR 5WMX15GR
5SLX10CR 5SLX15CRW 2,785 (812 - 3,272) 3,520 (812 - 4,430)
Btu/h 9,500 (2,772 - 11,165) 12,000 (2,772 - 15,114)W 3,370 (791 - 4,588) 3,810 (791 - 4,739)
Btu/h 11,500 (2,699 - 15,655) 13,000 (2,699 - 16,170)COOLING W 820 (242 - 1,038) 1,100 (242 - 1,559)HEATING W 930 (231 - 1,455) 1,057 (231 - 1,865)
W/W 3.40 3.20W/W 3.62 3.60
OUTDOOR UNIT
INDOOR UNIT
HEATING COPCOOLING EER
RATED COOLING CAPACITY (MIN - MAX)
RATED HEATING CAPACITY (MIN - MAX)
RATED POWER CONSUMPTION(MIN - MAX)
Specifications (Single – Split) R410A DC Inverter
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Inverter Product Range
5WMX20GR 5WMX25GR
5SLX20CR 5SLX25CRW 18,000 (5,000 - 20,000) 21,000 (5,000 - 23,000)
Btu/h 5,275 (1,465 - 5,862) 6,155 (1,465 - 6,741)W 19,000 (5,000 - 22,000) 22,000 (5,000 - 25,000)
Btu/h 5,568 (1,465 - 6,155) 6,448 (1,465 - 7,034)COOLING W 1632 1,991HEATING W 1631 2,013
W/W 3.23 3.09W/W 3.41 3.20
RATED COOLING CAPACITY (M IN - MAX)
RATED HEATING CAPACITY (M IN - MAX)
RATED POWER CONSUMPTION(MIN - MAX)
COOLING EER
OUTDOOR UNIT
INDOOR UNIT
HEATING COP
Specifications (Single – Split) R410A DC Inverter
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Inverter Product RangeSpecifications (Multi – Split) R410A DC Inverter
5MSX20A/AR 5MSX25A/AR 5MSX30A/AR
1 - to - 2 1 - to - 3 1 - to - 4
Btu/Hr 19000 (4500 - 21000) 22000 (4500 - 24000) 28000 (4500 - 30000)
W 5570 ( 1320 - 6150) 6450 ( 1320 - 7030) 8200 ( 1320 - 8790)
W 1500 (355 - 1870) 2014 (400 - 2285) 2564 (400 - 2860)
W / W 3.71 3.20 3.20
Btu/Hr 21000 (4500 - 23000) 24000 (4500 - 26000) 30000 (4500 - 32000)
W 6150 ( 1320 - 6740) 7030 ( 1320 - 7620) 8790 ( 1320 - 9380)
W 1630 ( 350 - 1950) 1954 ( 400 - 2476) 2443 ( 400 - 3050)
W / W 3.77 3.60 3.60
NOMINAL CAPACITY
RATED TOTAL POWER CONSUMPTION
RATED COP
NOMINAL CAPACITY
RATED TOTAL POWER CONSUMPTION
RATED EER
MODEL
Cooli
ngHe
ating
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Inverter Product RangeSpecifications (Multi – Split) R22 AC Inverter
OUTDOOR UNIT AMSV25A AMSV35ABtu/Hr 25,000 (6,000 - 28,000) 35,700 (8,000 - 38,000)
W 7,327 (1,758 - 8,206) 10,463 (2,344 - 11,137)W 2,851 (545 - 3,627) 3,750 (757 - 4,590)
W/W 2.57 2.79
COOLING ONLY MODEL
RATED EERRATED TOTAL POWER CONSUMPTION (M IN - MAX)
RATED COOLING CAPACITY (M IN - MAX)
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Inverter Product Range
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Installation
• Wiring Installation
i) Additional signal wire (Low voltage LIVE)ii) Power supply : 3 wires
iii) Indoor to outdoor : 4 wires (including E)
vi) Earth wires must be connected for indoor and outdoor unit.
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Installation
• Wiring connection
INDOOR
OUTDOOR
1 – Comp
2 – Neutral
3 – Signal Power Supply
L
N Signal
Earth
1 2 3 N L
1 2 3
MCB / ELCB
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Protection AlgorithmsA) Current Control
I1
I2
Compressor stops
Frequency 1 step down
Frequency 1 step up
Total Current
Maintain Frequency
I3
Cooling Heat Pump Cooling Heat Pump Cooling Heat Pump Cooling Heat PumpI1 9.5 A 10.5 A 10.5 A 11.0 A 12.0 A 12.0 A 16.0 A 16.0 AI2 7.5 A 8.5 A 8.5 A 9.0 A 10.7 A 10.7 A 15.5 A 15.5 AI3 7.0 A 8.0 A 8.0 A 8.5 A 10.0 A 10.0 A 15.0 A 15.0 A
2.5 HP1 HP 1.5 HPTotal Current
2.0 HP
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Protection Algorithmsb) Compressor discharge temperature
Compressor Discharge Temperature
115°C
Compressor stops
Frequency 1 step down
Frequency 1 step up
Maintain Frequency
108°C
95°C
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Protection Algorithmsc) Starting control
Freq C
Freq 6
4 min1 min0
When target frequency > Freq 6,
– Freq 6 for one min.
When target frequency > Freq C
Freq 6 for one min and at Freq C for 1 min
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Protection Algorithmsc) Starting control
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Protection Algorithmsc) Starting control
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Trouble-shooting
AIR – CONDITIONAL PROBLEMS
Insufficient Cooling/Heating
Refrigerant circuit problem
Starting or running failure
Electrical circuit problem
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• Diagnoses by use of pressure gauge
Pressure measurement
Refrigerant charging
Vacuuming
• To troubleshoot the refrigerant circuit pressure gauge is one of the important tooling
• Both of the LP and HP must closed for pressure measurement
Trouble-shooting
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Insufficient coolingInsufficient Cooling
Unit Starts
High cooling load
Refrigerant circuit
Leakage
Restriction e.g at strainer, capillary, filter dryer, etc
Compressor
Less or no compression (Low running current)
Excessive heat source e.g. electric kettle
Room overcrowded with people
Windows/ doors wide open
Check air circulation
Indoor/Outdoor coil dirty (clogged)
Air filters dirty
Fan malfunction
Obstruction at air inlet/outlet of indoor/outdoor unit
Satisfactory operation with temperature difference of air intake & discharge of indoor unit 10ºC - 15ºC
Insufficient Cooling
Unit Starts
High cooling load
Refrigerant circuit
Leakage
Restriction e.g.. at strainer, capillary, filter dryer, etc
Compressor
Less or no compression (Low running current)
Excessive heat source e.g. electric kettle
Room overcrowded with people
Windows/ doors wide open
Check air circulation
Indoor/Outdoor coil dirty (clogged)
Air filters dirty
Fan malfunction
Obstruction at air inlet/outlet of indoor/outdoor unit
Satisfactory operation with temperature difference of air intake & discharge of indoor unit 10ºC - 15ºC
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Insufficient HeatingInsufficient Cooling
Unit Starts
High cooling load
Refrigerant circuit
Leakage
Restriction e.g at strainer, capillary, filter dryer, etc
Compressor
Less or no compression (Low running current)
Windows/ doors wide open
Check air circulation
Indoor/Outdoor coil dirty (clogged)
Air filters dirty
Fan malfunction
Obstruction at air inlet/outlet of indoor/outdoor unit
Satisfactory operation with temperature difference of air intake & discharge of indoor unit 10ºC - 15ºC
Insufficient Heating
Unit Starts
High Heating load
Refrigerant circuit
Leakage
Restriction e.g.. at strainer, capillary, filter dryer, etc
Compressor
Less or no compression (Low running current)
Windows/ doors wide open
Check air circulation
Indoor/Outdoor coil dirty (clogged)
Air filters dirty
Fan malfunction
Obstruction at air inlet/outlet of indoor/outdoor unit
Satisfactory operation with temperature difference of air intake & discharge of indoor unit 16ºC - 25ºC
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Pressure conditions
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Pressure table definition
Note: Outdoor air 35ºC DB
Indoor air 27ºC DB/ 19.5ºC WB
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Excessive refrigerant
CausesFor systems with EXV• Improper expansion valve adjustment.
• Poor installation of feeler bulb.
• Overcharged refrigerant.
For systems with capillary tube• Overcharged refrigerant
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Insufficient refrigerant2 types
– amount of refrigerant in the system is not enough.
– amount of refrigerant passing through expansion device is not enough
Possible causes
– undercharge refrigerant
– refrigerant leak
– choked filter, drier
– faulty expansion device
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Excessive condensing pressure
Possible causes
– air flow short circuit
– insufficient air flow
– partially blocked condenser
– presence of air or non-condensable gases in the system.
– operation beyond upper ambient temperature limits
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Electrical circuit trouble-shooting
Electrical circuit problem
– Key components functioning checking
– Controller for different models
– Troubleshooting steps for the inverter controller
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Required Tools
• Clamp meter
AC CURRENT
DC CURRENT
FREQ
RESISTANCE
VDC
VAC
LIGHT
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Required Tools
• Multi-meter
AC CURRENT
DC CURRENT
RESISTANTVDC
VAC
CONTINUITY
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Key Components - Capacitor
Functions
To smoothen the DC bus for the inverter board
Testing
Use multi-meter to check the conductivity of the terminal
Terminal
Problems
I) Caused by over voltage
II) Electrolyte dried up causing it malfunction
III)High ambient working condition
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Key Components – Bridge Diode
+
~
~
-
Function
To rectifier the AC source to DC source
Testing
Use multi-meter to check the conductivity
of the terminal. Normally, 0.4V – 0.6V or 240-250KΩ
Problems
I) Caused by over voltage
II) Working ambient to high
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Key Components - Reactor
Function
Introduce at the inverter circuit to compensate
for reactive power and improve power factor
Testing
I) Resistance should be around 0.4Ohm
II) If the conductivity is open loop mean the reactor failure
III)Coil/steel plate and external bracket resistance should infinite
IV)No obvious burn marks
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Key Components - PTC
Function
Due to high capacitor charge current
during start up, the PTC electronic starter
and relay combination acts to cushion the
excessive charge current
Testing
Resistance of the PTC on sheet metal at
ambient temp is 40±20% Ohm
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Key Components - Sensors
• SensorI) Sensor as an ADC input value for the controller
II) The Longertech sensor value (yellow socket) is different with the OYL inverter sensor
III) Sensor value for the sensor can be measured using multi-meter in 2 form. Resistance value (no PCB running) or Vdc value
IV) For Vdc value checking, the value get from multi-meter need to minus by 5Vdc before refer to the table
V) For resistance value checking, the value can refer directly
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Sensor values
25ºC 5.2860kOhm 2.3533Vdc
25ºC 57.9400KOhm 1.2830Vdc
Longertech sensor value
25ºC 10.00kOhm 1.45Vdc
OYL sensor value
Example: Measured from multi-meter is 3.27KOhm.
5.00KOhm - 3.27KOhm = 1.728KOhm
From the table, 1.728KOhm convert back to 35ºC
Discharge Sensor
Room/ coil Sensor
All the value same for discharge, room
and coil
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Control board – 5SLX10/15C
BRIDGE DIOD
E - CAPACITOR
REACTOR
TERMINAL BLOCK
IPM
POWER BOARD
MCU
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Control board – 5SLX20/25C
IPMCU
REACTOR
POWER BOARD
E - CAPACITOR
TERMINAL BLOCK
BRIDGE DIOD
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POWER BOARD
TERMINAL BLOCK
BRIDGE DIOD
E - CAPACITOR
FAN CAPACITOR
IPM
PFC CAPACITOR
Control board – MSV25A
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POWER BOARD
E - CAPACITOR
IPM
BRIDGE DIOD
FAN CAPACITOR
TERMINAL BLOCK
PTCCONTACTOR
FUSE
PFC CAPACITOR
Control board – MSV35A
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TERMINAL BLOCK
POWER BOARD
CAPACITOR
FAN CAPACITOR
REACTOR
PFC
IPM
Control board – 5MSX20/25/30A
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• Indoor Error Codes- I/D LED Blinking
• Outdoor Error Codes- Compressor Running LED Blinking
- Compressor Stopped LED Blinking
Error Codes
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LED
Fault Indications Troubleshooting Methods
1 2 3 4
Defrost Operation (Red) Ignore
I/D Sensor Error (Yellow) Check I/D Sensor wire and value (~5kΩ)
Coil Temp. Sensor Error Check Coil Sensor wire and value (~5kΩ)
O/D Temp. Sensor Error Refer O/D Unit
Compressor Overload Refer O/D Unit
IPM Error Refer O/D Unit
O/D Current Trip Refer O/D Unit
Compressor Overheat / Gas Leak Refer O/D Unit
I/D Fan Feedback Error Check I/D Fan Wire
Communication Error Check Wiring
Error Codes – (5)WMX-G
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Blinks Blinking Indication
1 Normal Running, with no limitation
2 Voltage Limit
3 Cooling unit : Outdoor Coil Temperature LimitHeating unit : Indoor Coil Temperature Limit
4 Total Current Limit
5 Discharge Temperature Limit
6 Cooling unit : Indoor Coil Temperature Limit
7 Indoor Fan Control
8 Outdoor Frequency Adjustment
Error Codes – Outdoor
Compressor Running LED Blinking
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Compressor Stopped LED Blinking
Blink Fault Indications Troubleshooting Methods
1 O/D Ambient Sensor Error Check O/D Ambient Sensor Wire & Connection
2 O/D Coil Sensor Error Check O/D Coil Sensor Wire & Connection
3 O/D Disc. Sensor Error /
Comp. Overheat
Check O/D Disc Sensor Wire & Connection;
Check Pressure & Compressor
4 DC Comp. Feedback Error Check Comp. Wire & Feedback Wire
(Not applicable for A/C Inverter)
5 Communication Error Check Communication Wire & Connection
for both I/D & O/D
6 Over Current Error Check Total Current; Check Pressure & Compressor
7 No Load Not Applicable
8 Over / Under Voltage Check Power Supply
9 DC Comp. Start Failure Check Comp. Wire & Feedback Wire; Check Compressor
Error Codes – Outdoor
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Compressor Stopped LED Blinking
Blink Fault Indications Troubleshooting Methods
10 Cooling Overload Check Pressure
11 Defrost Ignore
12 IPM Protection Check Power Supply;
Check Main Board / Filter Board;
Check Bridge Diode;
Check IPM Board;
Check Compressor
13 Read EEPROM Error Check EEPROM Chip Connection
14 Write EEPROM Error Check EEPROM Chip Connection
15 DC Fan Motor Feedback Error Ignore
16 AC Peak Current Error Ignore
17 O/D Suction Sensor Error Check O/D Suction Sensor Wire & Connection
(Applicable only for Heat Pump Unit)
Error Codes – Outdoor
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Compressor Stopped LED Blinking
Blink Fault Indications Troubleshooting Methods
18 None Ignore
19 DC Comp. Speed Control Error Check IPM Board; Check Compressor;
20 None Ignore
21 O/D Suction Pipe A Sensor Error Check Suction Pipe A Sensor Wire & Connection
22 O/D Suction Pipe B Sensor Error Check Suction Pipe B Sensor Wire & Connection
23 O/D Suction Pipe C Sensor Error Check Suction Pipe C Sensor Wire & Connection
24 O/D Suction Pipe D Sensor Error Check Suction Pipe D Sensor Wire & Connection
31 Communication Error with I/D A Check Communication Wire & Connection with I/D A
32 Communication Error with I/D B Check Communication Wire & Connection with I/D B
33 Communication Error with I/D C Check Communication Wire & Connection with I/D C
34 Communication Error with I/D D Check Communication Wire & Connection with I/D D
Error Codes – Outdoor
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L N
E
Multi split inverter
Single split inverter
Use multi-meter to check the power supply to the controller
Single split refer 1 & 2 and multi split refer L & N
Supply around 220 ~ 240VAC
Power supply checking
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Use multi-meter to check the continuity of the fuse
Fuse with sound ‘BEEP’ is ok
Fuse with OL for the resistance and no ‘BEEP’ is nok
Fuse checking
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Use multi meter to check the communication line between indoor and outdoor
Signal (3) line references to neutral (2). Check VDC for signal and neutral
The VDC will fluctuate to show the communication transmit between indoor and outdoor
Communication wires checking
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Bridge Diode AC Voltage Checking
Use multi-meter to check the AC voltage across the bridge diode
Supply around 220 ~ 240VAC
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Electrolytic Capacitor Checking
Use multi-meter to check the DC voltage across the E-CAP
In normal case the value should around 270-330Vdc
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Bridge Diode Continuity Checking
+
~
~
-
(Diode ~ 0.4 – 0.6V)
Use multi-meter to check the continuity of the bridge diode
The value must around 0.4 – 0.6V or 240-250kΩ
The bridge diode with ‘BEEP’ sound is nok
5SLX 10/15CR & MSV 25/35A (LONGERTECH)
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Bridge Diode Continuity Checking
+
Result show in kΩ
+
• Multi-meter will show value in one direction and OL in another direction when we change the multi-meter direction.
• If both direction show value means the bridge diode already short
OKOK
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+ +
OK OK
+ +
OK NG
If both direction show value means the bridge diode already short
Bridge Diode Continuity Checking
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+ +
Result show in Vdc
• Same with the result show in kΩ, multi-meter will show value in one direction and OL in another direction when we change the multi-meter direction.
• If both direction show value means the bridge diode already short
Bridge Diode Vdc value checking
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NG NG
+
+
• Same with the result show in kΩ, multi-meter will show value in one direction and OL in another direction when we change the multi-meter direction.
• If both direction show value means the bridge diode already short
Bridge Diode Vdc value checking
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5SLX 10CR/15CR (OYL)
5SLX 20/25CR & 5MSX 20/25/30AR
Use multi-meter to check the connectivity of the bridge diode
The bridge diode with ‘BEEP’ sound is nok
Value 380-400Ω is OK
Value 190-220KΩ is OK
Bridge Diode Vdc value checking
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PFC BOARD FOR 5SLX 20/25CR & 5MSX 20/25/30AR
IGBT
DIODEPlease check the IGBT and DIODE with multimeter
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Using multimeter with continuity function.
1)Multimeter show OL means ok
2) If Multimeter show value around 0Ohm ~ to few Ohm and with the “BEEP” sound means diode short already and the PFC need to be change
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1)Multimeter show OL means ok
2) If Multimeter show value around 0Ohm ~ to few Ohm and with the “BEEP” sound means IGBT short already and the PFC need to be change
Using multimeter with continuity function.
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IPM DC Voltage Across Checking
Use multi-meter to check the DC voltage across the IPM
The value should around 270 – 330VDC depends on the PFC it used
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+ - U V W
+ & - from the DC bus
U, V, W to compressor
Intelligent Power Module (IPM)
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+ - -+
OK OK
+ - -+
NOK NOK
If both direction show value means the bridge diode already short
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• Compressor connectivity checking between the terminal
Use multi-meter to check the connectivity between the terminal
The multi - meter should have “BEEP” sound to show the winding short
If the multi-meter show OL means the winding of compressor burn or short
Compressor connectivity checking between the terminal
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Compressor connectivity checking
Use multi-meter to check the connectivity between the body and terminal
The multi-meter should show OL
If the ‘BEEP’ sound shown means the compressor short
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Diagnostic Tool
Interceptor
– For Inverters• Including AC and DC Inverters
• Single-Splits & Multi-Splits
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Interceptor
Capability
–Intercepts or captures communication signals within the inverter electronics nervous system.
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Hardware Installation Schematic
Single-split
Multi-split
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Features • Displays Operating Parameters
–Temperature Readings for ALL sensors• Outdoor Air Temperature
• Outdoor Coil Temperature
• Indoor Air Temperature
• Indoor Coil Temperature
• Indoor Set Temperature
• Compressor Discharge Temperature
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Display Operating Parameters
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Features
• Compressor
– Running Frequency
• EXV
– Number of Pulses
– Status
• Operating Mode for both Indoor and Outdoor
• Indoor Fan Speed
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Features
• Data Logging
• Data Storage & Transmission
• Graphical Representation
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Data Logging
• “Set-and-Forget” –Once program is started properly, data is
collected automatically.
–There is no need for constant human monitoring.
–Monitoring period is limited only by free hard disk space.
–BUT ensure constant power supply during the entire monitoring period.
–Power-Saving Features must be Disabled.
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Data Storage & Transmission
• Data Storage–Data is stored as .ice files in the computer.
–Useful for future reference.
• Data Transmission–.ice files can be transmitted by email back to
OYL for further analysis.
–All parameters can be converted and manipulated using 4 different formats.• Text
• XML
• HTML table
• Excel
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Graphical representation
• All parameters can be shown in graph form (time-based) for easier understanding.
• Graph can be customized e.g. Titles, Colours, Types of Axis, etc.
• Ability to export to–Metafile
–Bitmap
–JPG
–GIF
–PCX
• One-Click to Send by Email
• Useful to generate Service Reports
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Graphical representation
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Inverter DX Inverter DX
Graphical representation
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Interceptor sales package
• CD-ROM containing
–Interceptor Installation Program
–Hardware Installation Manual
–Software Manual
–Extras (required for full functionality)• Adobe Acrobat Reader 6.0
• Internet Explorer 6.0 SP1
• Microsoft DotNet Framework
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Interceptor sales package
• Interceptor Module
• RS232 Serial Connection Cable
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Computer requiremets
• Notebook or Desktop Computer with built-in RS232 Serial Port
• Microsoft Windows XP Professional
• Minimum 128 MB RAM
• Minimum 50MB of Hard Disk Space
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Thank you