April 24, 2019
- Hitachi Pc Art Remote Controller User Manual Pdf
- Hitachi Pc Art Remote Controller User Manual Software
- Universal Remote Controller
- Tv Remote Controller
- Best Pc Remote Controller
- Controller Pc Remote And Gamepad
Hitachi History The history of the Hitachi Group, from its founding in 1910 to today Sustainability Hitachi’s approach to addressing the social and environmental issues Hitachi Social Innovation Strive to provide total solutions for sustainable, urban development worldwide and to address critical global issues.
Hitachi Inverter-driven, Multi-split System, Heat Pump Air Conditioners;
Appliance manuals and free pdf instructions. Find the user manual you need for your home appliance products and more at ManualsOnline. We offer Hitachi remote controls, Codes, & Operating Manuals with replacements and Pictures. We manufacture replacement Hitachi RR200, RR692GR, RR612MP Remote controls. If we cant replace your remote control than we can fix it! Feb 27, 2014 How to set the scheduled days on an Hitachi air conditioning PC ART time clock controller http://www.hitachiaircon.com/argws/se. REMOTE CONTROLLER Read and understand this manual before using this air conditioner.Keep this manual for future reference. Lea cuidadosamente este manual antes de poner en marcha el equipo de aire acondicionado.Guarde este manual en un lugar seguro p or si necesita consultarlo en el futuro.
Code | Protection control |
---|---|
P01 | Pressure ratio protection control |
P02 | High pressure increase protection |
P03 | Inverter current protection |
P04 | Inverter fin temperature increase protection |
P05 | Discharge gas temperature increase protection at the upper part of the compressor |
P06 | Low pressure decrease protection |
P09 | High pressure decrease protection |
P0A | Demand current protection control |
P0d | Low pressure increase protection |
P11 | Pressure ratio decrease retry |
P12 | Low pressure increase retry |
P13 | High pressure increase retry |
P14 | Constant speed compressor overcurrent retry |
P15 | Discharge gas temperature increase retry / Low pressure decrease retry |
P16 | Discharge gas super-heat decrease retry |
P17 | Inverter anomaly retry |
P18 | Abnormal Inverter voltage retry / Inverter failure retry |
P26 | High pressure decrease retry |
Alarm Codes;
Code: 01
Content of Abnormality: Tripping of Protection Device Smok g priv baby manual pdf.
Leading Cause: Failure of Fan Motor, Drain Discharge, PCB, Relay
Code: 02
Content of Abnormality: Tripping of Protection Device
Leading Cause: Activation of PSH
Code: 03
Content of Abnormality: Abnormality between Indoor (or outdoor) and Outdoor (or Indoor)
Leading Cause: Incorrect Wiring. Failure of PCB. Tripping of Fuse. Power Supply OFF.
Code: 04
Content of Abnormality: Abnormality between Inverter and Control PCB
Leading Cause: Failure in Transmission between PCBs
Code: 05
Content of Abnormality: Abnormality of Power Source Wiring
Leading Cause: Reverse Phase Incorrect Wiring
Code: 06
Content of Abnormality: Voltage Drop by Excessively Low or High Voltage to Outdoor Unit
Leading Cause: Voltage Drop of Power Supply, Incorrect Wiring or Insufficient Capacity of Power Supply Wiring
Code: 07
Content of Abnormality: Decrease in Discharge Gas Superheat
Leading Cause: Excessive Refrigerant Charge, Expansion Valve Open Lock
Code: 08
Content of Abnormality: Increase in Discharge Gas Temperature
Leading Cause: Insufficient Refrigerant. Ref. Leakage, Clogging or Expansion Valve Close Lock
Code: 09
Content of Abnormality: Tripping of Protection Device
Leading Cause: Failure of Fan Motor
Code: 11
Content of Abnormality: Inlet Air Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 12
Content of Abnormality: Outlet Air Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 13
Content of Abnormality: Freeze Protection Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 14
Content of Abnormality: Gas Piping Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 19
Content of Abnormality: Failure of Fan Motor
Leading Cause: Failure of Fan Motor
Code: 21
Content of Abnormality: High Pressure Sensor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 22
Content of Abnormality: Outdoor Air Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 23
Content of Abnormality: Discharge Gas Thermistor on Comp
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 24
Content of Abnormality: Evaporating Thermistor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 29
Content of Abnormality: Low Pressure Sensor
Leading Cause: Failure of Thermistor, Sensor, Connection
Code: 30
Content of Abnormality: Incorrect Wiring Connection
Leading Cause: Incorrect Wiring Connection between Outdoor Unit, CH Unit and Indoor Unit
Code: 31
Content of Abnormality: Incorrect Setting of Outdoor and Indoor Unit
Leading Cause: Incorrect Setting of Capacity Code
Code: 32
Content of Abnormality: Abnormal Transmission of Other Indoor Unit
Leading Cause: Failure of Power Supply, PCB in Other Indoor Unit. Failure of Other Indoor Unit of the Same Refrigerant Cycle.
Code: 35
Content of Abnormality: Incorrect Setting in Indoor/Outdoor Unit No.
Leading Cause: Existence of the same Indoor Unit No. in the same refrigerant cycle
Code: 38
Content of Abnormality: Abnormality of Protective Circuit in Outdoor Unit
Leading Cause: Failure of Indoor Unit PCB. Incorrect Wiring Connection to PCB in Outdoor Unit
Code: 39
Content of Abnormality: Abnormality of Running Current at Constant Compressor
Leading Cause: Overcurrent, Melted Fuse of Failure of Current Sensor
Code: 43
Content of Abnormality: Pressure Ratio Decrease Protection Activating
Leading Cause: Failure of Compressor, Inverter
Code: 44
Content of Abnormality: Low Pressure Increase Protection Activating
Leading Cause: Overload to Indoor in Cooling, High Temperature of Outdoor Air in Heating Expansion Valve Open Lock
Code: 45
Content of Abnormality: High Pressure Increase Protection Activating
Leading Cause: Overload Operation. Excessive Refrigerant Clogging of Heat Exchanger
Code: 46
Content of Abnormality: High Pressure Decrease Protection Activating
Leading Cause: Insufficient Refrigerant
Code: 47
Content of Abnormality: Low Pressure Decrease Protection Activating
Leading Cause: Insufficient Refrigerant. Expansion Valve Close Lock. Refrigerant Leakage
Code: 51
Content of Abnormality: Abnormality of Current Sensor for Inverter
Hitachi Pc Art Remote Controller User Manual Pdf
Leading Cause: Failure of Sensor on Inverter PCB
Code: 52
Content of Abnormality: Overcurrent Protection Activating
Leading Cause: Overload, Overcurrent, Locked to Compressor
Code: 53
Content of Abnormality: IPM Protection Activating
Leading Cause: Automatic Stoppage of IPM
Code: 54
Content of Abnormality: Increase in Inverter Fin Temperature
Leading Cause: Abnormal Inverter Fin Thermistor, Abnormal Outdoor Fan
Code: 56
Content of Abnormality: Abnormality of Detection for Fan Motor Position
Leading Cause: Abnormal Detection Circuit of Transmission
Code: 57
Content of Abnormality: Fan Controller Protection Activating
Leading Cause: Abnormal Fan Speed
Code: 58
Content of Abnormality: Abnormality of Fan Controller
Leading Cause: Overcurrent, Abnormal Fan Controller Fin
Code: 59
Hitachi Pc Art Remote Controller User Manual Software
Content of Abnormality: AC Chopper Circuit Protection
Leading Cause: Failure of FET, Power Supply, CT for Fan Motor
Code: EE
Content of Abnormality: Compressor Protection
Leading Cause: 3 Time Occurrence of Alarm Giving Damage to Compressor within 6 hours
Code: dd
Content of Abnormality: Incorrect Wiring between Indoor Units
Leading Cause: Incorrect Wiring between Indoor Units and Remote Control Switch
Remote Controller-Model: PC-2H2
Code: 01
Cause: Safety Device of the Indoor Unit is tripped (internal Thermostat, *Float Switch)
Code: 02
Cause: Safety Device of the Outdoor Unit is tripped
Code: 03
Cause: Transmission Abnormality between Indoor Unit and Outdoor Unit
Code: 05
Cause: Picking up phase Abnormality
Code: 08
Cause: Abnormality High Temperature on the Top of Compressor
Code: 11
Cause: Thermistor Abnormality for inlet Air Temperature
Code: 12
Cause: Thermistor Abnormality for outlet Air Temperature
Code: 13
Cause: Thermistor Abnormality for Freezing Temperature
Code: 20
Cause: Thermistor Abnormality for Compressor Top Temperature
Code: 22
Help Desk Software and Customer Service Software by HelpSpot. Get started in 5 minutes, SaaS or On-Premise. Improve customer satisfaction with ease. ICEPAY REST API Implementation manual v1.0 4 5. Limitations to indemnification and liability 5.1 Client agrees to indemnify ICEPAY B.V. From all liability, losses, actions, damages or claims (including all reasonable costs and attorney costs) which flow forth or are regarding the use or dependency upon the ICEPAY REST API. Mar 12, 2018 They show the user the step-by-step process of performing a given task. There is a clear goal in every instruction, and the description of the goal should therefore always be task-oriented and to the point. Let’s take the instruction “Prepare the machine” in the Multipacker OCME work instruction as an example. Nov 25, 2007 How to Use a Maintenance Manual. If you have a maintenance manual, using it to make repairs or do maintenance on equipment can make the job much easier and more efficient. Most manuals are self-explanatory, but here are some tips on. Apr 17, 2017 If you are conducting research on a product or service, you may reference a user manual or instructional guide in your paper. Whenever you reference a source in your work, cite it properly so your reader knows where you found your information. Instruction manual.
Cause: Thermistor Abnormality for Outdoor Air Temperature
Code: 24
Cause: Thermistor Abnormality for Outdoor Evaporating Temperature (defrosting)
Code: 25
Cause: Thermistor Abnormality for Condensing Temperature
Code: 32
Cause: Transmision Abnormality between Master and Slave
Code: 38
Cause: Abnormality in the Picking up Circuit protection
Code: 41
Cause: Excessive Overload during Cooling Operation
Code: 42
Cause: Excessive Overload during Heating Operation
Regarding the retry control, the lastest retry code will be indicated unless the protection control related with the frequency control is indicated.
Troubleshooting
This Is Not Abnormal
- Smells from Indoor Unit; Smell adheres on indoor unit after a long period of time. Clean the air filter and panels or allow a good ventilation.
- Sound from Deforming Parts; During system starting or stopping, an abrading sound might be heard. However, this is due to thermal deformation of plastic parts. It is not abnormal.
- Steam from Outdoor Heat Exchanger; During defrosting operation, ice on the outdoor heat exchanger is melted, resulting in making steam.
- Dew on Air Panel; When the cooling operation continues for a long period of time under high humidity conditions (higher than 27°C DB/80% R.H), dew can form on the air panel.
- Refrigerant Flow Sound; While the system is being started or stopped, sound from the refrigerant flow may be heard.
Not Cooling Or Heating Well
- Check for obstruction of air flow of the outside or inside units.
- Check if too much heat source exists in the room.
- Check if the air filter is clogged with dust.
- Check to see if the doors or windows are opened or not.
- Check if the temperature condition is not within the operation range.
Universal Remote Controller
Not Operate
- Check for electrical wiring.
- Check for dip switch setting.
- Check whether the “SET TEMP” is set at the correct temperature.
- In the case that “RUN” lamp on remote control switch is flickering every 2 seconds, check for connection of remote control line.
- In the case that “RUN” lamp flashes 5 times (5 seconds) with unit number and alarm code displayed, refer to the next item “18.2 Troubleshooting by Alarm Code” and the “Service Manual”.
- In the case that no alarm code is indicated and normal operation is not available, refer to the “Service Manual” because abnormality of some device is suspected.
*PLEASE SEND ME ANY COMMENT, SUGGESTION OR CORRECTION YOU MAY HAVE.
Being a part of the DKB Group, Hitachi in its own turn, is a parent company of the Hitachi Group. The Japanese conglomerate company produces goods in more than ten segments, from electronics and information systems to railway and automotive systems. It is listed in the Forbes rankings of the world’s most influential companies on a regular basis.
Sometimes, error codes can give you enough information to fix your Hitachi air conditioner on your own. However, in most cases the help of a service engineer is indispensible. Anyway, the fault code will help you to find out what the problem is and decide whether you can deal with it on your own. The table below contains the error codes for Hitachi air conditioning systems, explained in all details.
Sometimes, error codes can give you enough information to fix your Hitachi air conditioner on your own. However, in most cases the help of a service engineer is indispensible. Anyway, the fault code will help you to find out what the problem is and decide whether you can deal with it on your own. The table below contains the error codes for Hitachi air conditioning systems, explained in all details.
Hitachi Inverter-driven Multi-Split system heat pump Air Conditioner error codes
Code No. | Category | Content of Abnormality | Leading Cause |
---|---|---|---|
01 | Indoor Unit | Tripping of Protection Device | Failure of Fan Motor, Drain Discharge, PCB, Relay |
02 | Outdoor Unit | Tripping of Protection Device | Activation of PSH |
03 | Transmission | Abnormality between Indoor (or outdoor) and Outdoor (or Indoor) | Incorrect Wiring. Failure of PCB. Tripping of Fuse. Power Supply OFF. |
04 | Inverter | Abnormality between Inverter and Control PCB | Failure in Transmission between PCBs |
05 | Transmission | Abnormality of Power Source Wiring | Reverse Phase Incorrect Wiring |
06 | Voltage Drop | Voltage Drop by Excessively Low or High Voltage to Outdoor Unit | Voltage Drop of Power Supply, Incorrect Wiring or Insufficient Capacity of Power Supply Wiring |
07 | Cycle | Decrease in Discharge Gas Superheat | Excessive Refrigerant Charge, Expansion Valve Open Lock |
08 | Cycle | Increase in Discharge Gas Temperature | Insufficient Refrigerant. Ref. Leakage, Clogging or Expansion Valve Close Lock |
09 | Outdoor Unit | Tripping of Protection Device | Failure of Fan Motor |
11 | Sensor on Indoor Unit | Inlet Air Thermistor | Failure of Thermistor, Sensor, Connection |
12 | Outlet Air Thermistor | ||
13 | Freeze Protection Thermistor | ||
14 | Gas Piping Thermistor | ||
19 | Tripping of Protection Device for Fan Motor | Failure of Fan Motor | |
21 | Sensor on Outdoor Unit | High Pressure Sensor | Failure of Thermistor, Sensor, Connection |
22 | Outdoor Air Thermistor | ||
23 | Discharge Gas Thermistor on Comp. | ||
24 | Evaporating Thermistor | ||
29 | Low Pressure Sensor | ||
30 * | System | Incorrect Wiring Connection | Incorrect Wiring Connection between Outdoor Unit, CH Unit and Indoor Unit |
31 | Incorrect Setting of Outdoor and Indoor Unit | Incorrect Setting of Capacity Code. | |
32 | Abnormal Transmission of Other Indoor Unit | Failure of Power Supply, PCB in Other Indoor Unit. Failure of Other Indoor Unit of the Same Refrigerant Cycle. | |
35 | Incorrect Setting in Indoor/Outdoor Unit No. | Existence of the same Indoor Unit No. in the same refrigerant cycle. | |
38 | Abnormality of Protective Circuit in Outdoor Unit | Failure of Indoor Unit PCB. Incorrect Wiring Connection to PCB in Outdoor Unit | |
39 | Abnormality of Running Current at Constant Compressor | Overcurrent, Melted Fuse of Failure of Current Sensor | |
43 | Pressure | Pressure Ratio Decrease Protection Activating | Failure of Compressor, Inverter |
44 | Low Pressure Increase Protection Activating | Overload to Indoor in Cooling, High Temperature of Outdoor Air in Heating Expansion Valve Open Lock | |
45 | High Pressure Increase Protection Activating | Overload Operation. Excessive Refrigerant Clogging of Heat Exchanger | |
46 | High Pressure Decrease Protection Activating | Insufficient Refrigerant | |
47 | Low Pressure Decrease Protection Activating | Insufficient Refrigerant. Expansion Valve Close Lock. Refrigerant Leakage. | |
51 | Inverter | Abnormality of Current Sensor for Inverter | Failure of Sensor on Inverter PCB |
52 | Overcurrent Protection Activating | Overload, Overcurrent, Locked to Compressor | |
53 | IPM Protection Activating | Automatic Stoppage of IPM (Overcurrent, Low Voltage or Overheating) | |
54 ** | Increase in Inverter Fin Temperature | Abnormal Inverter Fin Thermistor, Abnormal Outdoor Fan | |
56 ** | Outdoor Fan | Abnormality of Detection for Fan Motor Position | Abnormal Detection Circuit of Transmission |
57 ** | Fan Controller Protection Activating | Abnormal Fan Speed | |
58 ** | Abnormality of Fan Controller | Overcurrent, Abnormal Fan Controller Fin | |
59 | AC Chopper | AC Chopper Circuit Protection | Failure of FET, Power Supply, CT for Fan Motor |
EE | Compressor | Compressor Protection | 3 Time Occurrence of Alarm Giving Damage to Compressor within 6 hours |
dd *** | Transmission | Incorrect Wiring between Indoor Units | Incorrect Wiring between Indoor Units and Remote Control Switch |
* : For only FXG and FX3 series. Other code Nos. are common with FSG and FS3 series.
** : For only 24, 30FSG1/FSG5 (220V 60Hz), *** : In case of PC-2H2
Hitachi Room Air Conditioner range:
Indoor unit alarm codes
If timer lamp flashes for 1 second on, 1 second off, this indicates pre heating on the coil during heating mode and is not an error.
If timer lamp flashes for a number of times and then pauses, please reference table below.LED 301 Flashes | Range: Summit/Mono/Multizone indoor unit |
---|---|
01 | Indoor coil is too warm in cooling mode or too cold in heating mode. Reversing valve or coil thermistor is faulty |
02 | Forced operation from the outdoor unit. This is not an error |
03 | Communication error. Faulty wiring, indoor or outdoor PCB faulty |
04 | Outdoor unit fault. Check the number or flashes on outdoor PCB LED 301 to comfirm exact problem |
06 | Float switch activated. Check pump operation and drain |
07 | Drain pump forced operation. Drain test switch in test position, faulty PCB |
08 | Louvre not opening. Louvre motor faulty, microswitch faulty, PCB faulty (RAF unit only) |
09 | Faulty indoor unit thermistor. Air inlet or coil thermistor not connected, open or short circuited faulty PCB |
10 | Indoor fan motor over current or abnormal rotation speed. Faulty motor or PCB |
13 | Eprom data error. Faulty PCB |
Outdoor unit alarm codes
LED 301 Flashes | Range: Summit/Mono/Multizone outdoor unit |
---|---|
1 | Normal, unit powered up |
2 | Over current on the compressor Faulty PCB or locked compressor |
2 with LED302 lit | Over current on the compressor System power module or PCB failure |
3 | Compressor rotation speed is low, abnormal compressor rotor position Faulty system power module, faulty compressor or PCB |
4 | Switching failure on the compressor Faulty system power module, faulty compressor or PCB |
5 | Compressor rotation low with over current detected High pressure detected, faulty fan motor/circuit or abnormally low voltage |
6 | Discharge thermistor temperature rising Short of refrigerant charge, faulty thermistor, faulty compressor faulty fan motor/circuit or main PCB |
7 | Faulty thermistor (Summit and Monozone only) |
8 | Compressor not accelerating above minimum rotation speed Short of refrigerant charge or faulty compressor |
9 | Communication error C/D terminals not connected, faulty interconnecting cable PCB failure (Summit and Monozone only) |
10 | Abnormal voltage Mains voltage incorrect or faulty reactor |
12 | Fan motor rotation is abnormal Faulty fan motor or PCB (check fuse) |
13 | Eprom error Main PCB failure |
14 | Over voltage is detected by system power module Faulty SPM |
If indoor unit filter lamp is flashing four times, this indicates an outdoor unit fault. This is identified by the number of flashes on LD 301.
If LD 303 is on permanently this is normal operation. If LD 301 is lit in conjunction with LD 303 his indicates an overload (1) condition but not an alarm. If LD 302 is lit in conjunction with LD 303 this indicates an overload (2) condition but not an alarm and if LD 301 and LD 302 are lit in conjunction with LD 303, this indicates an overload (3) condition but not an alarm.
Tv Remote Controller
On Multizone systems only, if LD 301 is lit permanently and LD 302 is flashing a number of times, this indicates a thermistor fault. If LD 304 is flashing, the number of flashes indicates a communication error with the corresponding indoor unit circuit number. Check cable connections, cable is not short circuited or open circuit and PCB operation.LD 302 FlashesFlashes | Thermistor that is faulty |
---|---|
1 | Compressor overheat (OH) |
2 | Defrost thermistor |
3 | Ambient thermistor |
4 | Narrow pipe (expansion) thermistor, for circuit 1 |
5 | Wide pipe (suction) thermistor, for circuit 1 |
6 | Narrow pipe (expansion) thermistor, for circuit 2 |
7 | Wide pipe (suction) thermistor, for circuit 2 |
8 | Narrow pipe (expansion) thermistor, for circuit 3 |
9 | Wide pipe (suction) thermistor, for circuit 3 |
Hitachi Heat Pump Error Codes
Best Pc Remote Controller
If a Safety Device is activated, cutting out the compressor, the Run light on the Remote Control switch blinks continuously and ABNML is indicated on the LCD display.The Unit Identification A* etc is shown along with the Code Number for the Fault that has occurred.
Controller Pc Remote And Gamepad
Fault Code | LED1 | LED2 | LED3 | LED4 | Fault |
---|---|---|---|---|---|
Normal | Normal | ||||
01 | * | ||||
02 | * | Safety Device (Indoor or Outdoor Unit) | |||
03 | * | Transmission Indoor/Outdoor Unit | |||
05 | * | ||||
08 | * | * | * | Compressor High Temperature | |
20 | * | * | Compressor Thermistor | ||
22 | * | * | Ambient Air Thermistor | ||
24 | * | * | Defrost Thermistor | ||
38 | * | * | PCB Protection Circuit | ||
41 | * | * | Overload Operation for Cooling | ||
42 | * | * | * | Overload Operation for Heating | |
11-13 | * | * | * | * | 11 Fault = Air Inlet Thermistor 13 Fault = Freeze Protection Thermistor |