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Hitachi RAS-5FSNY2E [12/148] Classification of outdoor unit models
![Hitachi RAS-4FSNY2E [12/148] Classification of outdoor unit models](/views2/1321845/page12/bgc.png)
1 General information
4
TCGB0068 rev.1 - 08/2012
1.3 Product guide
1.3.1 Classication of outdoor unit models
Unit type (Outdoor unit):
Position-separating hyphen (xed)
Compressor power (HP): 4, 5, 6
FS = SET-FREE system
V = Single phase unit (1~ 230V 50Hz)
N = R410A refrigerant
Y = Three phase unit (3N~ 400V 50Hz)
Series
E = Made in Europe
RAS – X FS (V) N (Y) 2 E
1.3.2 Classication of indoor unit models
Unit type (indoor unit): RCI, RCIM, RCD, RPC, RPI, RPIM, RPK, RPF, RPFI
Position-separating hyphen (xed)
Capacity (HP): 0.8, 1, 1.5, 2, 2.5, 3, 4, 5, 6
FS = SYSTEM FREE
N = R410A refrigerant
H = Hotel (RPK-(1.0/1.5) only)
2/3/4 = series
E = Made in Europe
M = Made in Malaysia
– = Made in Japan
i = Version up (RCI only)
DU = Drain Up (RPIM only)
XXX – X.X FS N (H) X (X) i (-DU)
Содержание
- Acoustic characteristic curves 1
- Capacities and selection data 1
- Electrical wiring 1
- Features and benefits 1
- General data 1
- General dimensions 1
- General information 1
- Optional functions 1
- Piping work and refrigerant charge 1
- Ras 4 6 fsvn2e ras 4 6 fsny2e 1
- Refrigerant cycle 1
- Set free mini series 1
- Technical catalogue 1
- Troubleshooting 1
- Working range 1
- Applied symbols 1 product guide 5
- Component data 6 5
- Electrical data 8 5
- Features and benefits 9 5
- Functionality benefits 9 5
- General data 11 5
- General data 2 5
- General information 5
- Installation benefits 4 5
- Selection benefits 0 5
- Start up benefits 7 5
- Acoustic characteristic curves 1 6
- Capacities and selection data 1 6
- Cooling capacity tables 1 6
- Correction factors 6 6
- Dimensions 8 7 service space 9 6
- General dimensions 7 6
- Heating capacity tables 8 6
- Maintenance benefits 0 6
- Overall sound level 2 5 sound data 3 6
- Piping work and refrigerant charge 03 6
- Ras 4 6 fs v n y 2e 02 6
- Refrigerant cycle 01 6
- Refrigerant piping selection 04 6
- System selection procedure 2 6
- Working range 5 6
- Working range 6 6
- Caution in case of refrigerant leakage 116 7
- Distribution method 08 7
- Electrical wiring 119 7
- General information 20 7
- H link ii system 26 7
- On screen displays during abnormal operation 36 12 alarm codes 37 7
- Optional functions 31 7
- Piping materials and connection 112 7
- Ras 4 6 fs v n y 2e 32 11 for operation with cs net web 33 7
- Refrigerant charge amount 114 7
- Refrigerant piping range 04 7
- Setting of dip switches and rsw switches 22 10 common wiring 24 7
- Troubleshooting 35 7
- Applied symbols 9
- G eneral inf ormat ion 9
- General information 9
- Product guide 9
- Environment friendly units 10
- General information 10
- General notes 10
- Introduction 10
- Applied symbols 11
- Caut i o n 11
- Dang e r 11
- No t e 11
- Classification of indoor unit models 12
- Classification of outdoor unit models 12
- Product guide 12
- Check the exact classification for each unit model type power and series in classification of outdoor unit mo dels 13
- No t e 13
- Product guide outdoor units 13
- Check the exact classification for each unit model type power and series in classification of indoor unit mo dels 14
- No t e 14
- Product guide indoor units 14
- Series available from october 2012 14
- The indoor unit models and codes are the last updated at time of publication other previous models and co ming developments could be available for combination with this outdoor unit series 14
- The rci and rcim models must be used in combination with the panels indicated above 14
- No t e 15
- Rcd models must be used in combination with the panels indicated above 15
- General information 16
- No t e 16
- Rpi rpim 16
- Series available from october 2012 before this date indoor units fsn3e series are available 16
- Tcgb0068 rev 08 2012 16
- Accessory code list 17
- For rpk 0 1 fsnh 2 3 m models only 17
- No t e 17
- Series available from october 2012 before this date indoor units fsn h 2m series are available 17
- Accessory code list 18
- Hitachi has a range of accessories and remote control systems that can be used with the set free mini outdoor units please refer to the controls technical catalogue 18
- Hitachi has also a range of accessories that can be used with the indoor units please refer to the indoor units technical catalogue 18
- No t e 18
- F eat ures and benef it s 19
- Features and benefits 19
- Functionality benefits 1 19
- Installation benefits 6 19
- Maintenance benefits 2 19
- Selection benefits 2 19
- Start up benefits 9 19
- Indoor unit 20
- Outdoor unit 20
- Selection benefits 20
- The capacity of each indoor unit is flexible they are supplied set to the maximum capacity possible and can be easily ad justed to precise lower values in line with installation requirements 20
- The hitachi indoor units to connect with this set free mini series have a wide range of capacities from 0 to 6 hp 20
- The set free mini series from hitachi offers 3 6 hp range of outdoor units for being selected in single or three phase combinations 20
- Wide range of units accessories and remote controls 20
- Remote controls 21
- Bms building management system 22
- Computerised control systems 22
- Computerised control systems increase management and setting possibilities and allow this to be carried out from any point of the local communication network by means of a two core non polarity cable or even using the internet 22
- High number of connectable indoor units 22
- Indoor unit of 0 hp set as 0 hp by specific dsw setting only for combinations with set free mini series 2 22
- Integration into installations with intelligent management gateway interface with lonworks knx modbus and bacnet bms sys tems 22
- No t e 22
- Please refer to the chapter piping work and refrigerant charge for the specific considerations 22
- Recommended when you wish to independently manage more than two plants in one building 22
- With set free fs v n y 2e system it is possible to connect one outdoor unit with up to 12 indoor units utilizing an inverter control a wide range of operation capacity control is also availabale a maximum total combination horsepower of 130 and a minimum total combination horsepower of 50 can be chosen by combination of the indoor units when compared with the nominal outdoor unit capacity therefore the system can meet individual air conditioning requirements in most office buildings 22
- Assisted air conditioning installation design by hi tool kit selection software 23
- Individual operation 23
- Easy and flexible electrical installation 24
- Easy and flexible unit installation 24
- Installation benefits 24
- No t e 24
- No t e 25
- Easy and flexible control connection central station bms interface cs net web 26
- Automatic start up test 27
- Start up benefits 27
- Service verification 28
- Expanded temperature range 29
- Functionality benefits 29
- Cooling capacity range at conditions indoor air inlet 27 19 ºc db wb outdoor air inlet 35 ºc db 30
- Features and benefits 30
- Heating capacity range at conditions indoor air inlet 20 ºc db outdoor air inlet 7 6 ºc db wb 30
- Increased maximum piping length 30
- Indoor unit is 40m 30
- M for 5 6hp 30
- Tcgb0068 rev 08 2012 30
- The control frequency system allows a wide capacity application range as shown below 30
- The maximum total piping length is 125m for 4hp and 30
- Wide capacity range 30
- ① actual maximum piping length is 75m 30
- ② height difference between indoor and outdoor units is 30
- ③ height difference between indoor units is 15m 30
- ④ piping length from the first multi kit to the farthest 30
- Advanced technology 31
- The functionality benefits explained before highly efficiency system wide capacity range and expanded working range are direct consequence of the advanced technology applied on all the system components 31
- Then the main features on different components of the system will be detailed 31
- High pressure shell it acts as an oil separator reducing the amount of oil circulating in the cooling system giving better heat exchanger efficiency motor heat is not added to the suction gas before compression which reduces the discharge gas temperature this is particularly important at low suction temperatures the discharge gas cools the motor sufficiently refrigerant cannot enter the shell during the off cycle causing oil dilution and oil foaming at start up new system of regulating pressure increasing the compressor s efficiency and reliability in part load mode this sys tem ensures the work pressure of the compressor is always at optimum level regardless of the charge so that the ratio between the discharge pressure pd and the suction pressure ps is optimum as in the following graphic 35
- Reduced power consumption highly efficient dc scroll compressor use of neodymium magnets in the compressor motor rotor new inverter control self demand control auto control of power consumption which can be regulated from 100 70 and 50 of nominal value avoids excess energy consumption by regulating the frequency 35
- Wave mode regulation of demand through wave control the demand is regulated by controlling the wave 35
- 000 4 000 6 000 37
- Characteristics at low speed which affect the annual running cost have been significantly improved 37
- Dc compressor with neodynium magnet 37
- In case of existing machines with constant speed repeated turning on and off wastes energy 37
- In the case of utopia series quickly reaches the temperature set at high power then maintains stable energy saving operation in the case of other constant speed machines slowly reaches the set temperature then turns on and off repeatedly to maintain the temperature operating uneconomically and wasting energy 37
- Low noise inverter control the inverter controls compressor speeds from 30 hz to 115 hz quickly reaching the set temperature and maintaining a stable energy saving operation thus reducing the noise since the compressor is not running conti nuously 37
- Power consumption in heating mode 37
- Setting temperature in heating mode 37
- The use of a dc compressor with neodynium magnets in the rotor improves the performance at around the 30 40 hz range where the operation time of the inverter compressor is longest additionally to suppress electromagnetic noise interference and achieve low noise the rotor has been divided into two parts and the electric pole displaced 37
- Acoustically insulated compressor the scroll compressor is insulated by means of a acoustic cover providing mini mum noise levels 38
- Optimized rotor shape the scroll compressor allows reduced noise and vibration levels due to the compression points are evenly distributed along the compression stroke the reduced number of components used use of a high pressure insulation shell 38
- Alarm codes 40
- Availability of maintenance tools 40
- Easy accessibility 40
- Maintenance benefits 40
- Minimum maintenance 40
- Sms alarm 40
- Component data 8 41
- Electrical data 0 41
- G eneral dat a 41
- General data 41
- General data 4 41
- A measurement point located 1 m from the surface of the unit s service cover and 1 m from floor level 42
- B units working with their nominal power supply 42
- General conditions 42
- General data 42
- The err and cop have been calculated with outdoor input power only 42
- The heating and cooling capacities indicated refer to the outdoor unit operating with the indoor units at 100 of their capacity and are based on standard en14511 42
- The sound pressure level was measured in an anechoic chamber so reflected sound should be taken into considera tion when installing the unit test were carried out under the following conditions 42
- 1 please refer to the chapter piping work and refrigerant charge for the specific considerations 43
- 2 calculated with outdoor input only 43
- No t e 43
- Ras 4fs v n y 2e 43
- 1 please refer to the chapter piping work and refrigerant charge for the specific considerations 44
- 2 calculated with outdoor input only 44
- No t e 44
- Ras 5fs v n y 2e 44
- 1 please refer to the chapter piping work and refrigerant charge for the specific considerations 45
- 2 calculated with outdoor input only 45
- No t e 45
- Ras 6fs v n y 2e 45
- Component data 46
- Ras 4 6 fsny2e 46
- Ras 4 6 fsvn2e 46
- Compressors 47
- General data 47
- Tcgb0068 rev 08 2012 47
- Considerations 48
- Cooling conditions indoor air inlet 20 ºc db outdoor air inlet 7 6 ºc db wb 48
- Electrical data 48
- Heating conditions indoor air inlet 27 19 ºc db wb outdoor air inlet 35 ºc db 48
- Keywords u power supply ph phase f frequency stc starting current less than maximum current ipt total input power rnc running current mc maximum current 48
- No t e 48
- Ras 4 6 fs v n y 2e 48
- Specifications in these tables are subject to change without notice in order that hitachi may bring the latest innovations to their customers 48
- The compressor data shown in the table above are based on a combined capacity of 100 of the power su pplied 48
- The data are based on an equivalent piping length of 7 m and 0m piping lift 48
- Capac it ies and s elec t ion dat a 49
- Capacities and selection data 49
- Cooling capacity tables 1 49
- Correction factors 6 49
- Heating capacity tables 8 49
- System selection procedure 2 49
- Before selecting the outdoor unit it s necessary to take into account some important possibilities that offers the set free system 50
- Capacity kw 50
- Considering the layout of the building the possible position of the indoor units and the air flow distribution select the unit features that provide the greatest efficiency and comfort decide a position for the outdoor unit that facilitates service and maintenance tasks as well as easy refrigerant pipe installation 50
- First of all it will be considered the possibility of the reduced total outdoor unit capacity as a result of the wide range of operation capacity control available in the set free systems which enable at the outdoor unit to choose a maximum total combination horsepower of 130 and a minimum total combination horsepower of 50 by combination of the indoor units when compared with the nominal outdoor unit capacity the possibilities of fs v n y 2e series are shown in the following table 50
- I nominal cooling or heating capacity of 0 hp unit set as 0 hp by specific dsw setting 50
- Ii capacity when some indoor units are off 50
- Indoor unit of 0 hp set as 0 hp by specific dsw setting only for combinations with set free mini series 2 50
- No t e 50
- Please refer to the chapter piping work and refrigerant charge for the specific considerations 50
- Reduced outdoor unit capacity 50
- Set free mini system posibilities 50
- System selection procedure 50
- The following figure shows the capacity curve depending on the combined indoor units a b and c refers to the table 50
- The following procedure is an example of how to select the system units and indicates how to use all the parameters indi cated in this chapter 50
- Total horsepower of combined indoor units hp 50
- No t e 51
- 3 4 1 2 3 4 52
- 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 52
- Capacity adjustment by dip switch setting of the indoor units 52
- Cooling kw 2 2 4 5 7 8 11 14 16 52
- Following table contains the nominal capacity and the adjusted capacity by dip switch setting of the indoor units 52
- Heating kw 2 3 4 6 8 9 12 16 18 52
- In some situations it should be useful to adjust the capacity of the indoor units in order to adapt the unit to the actual installation requirements this function is performed by dip switch setting and it s possible in some hp indoor unit models 52
- Indoor units hp 0 1 1 2 2 3 4 5 6 52
- No t e 52
- Nominal capacity of indoor units 52
- Normal adjusted capacities of indoor units 52
- Specific adjusted capacities of indoor units only for combination with set free mini series 2 52
- The maximum indoor unit capacity combined with the capacity of the outdoor unit should be carefully considered to ensure the correct distribution of the indoor units in each building 52
- The nominal cooling and heating capacity is the combined capacity of the set free system and is based on en14511 52
- No t e 53
- Selection parameters 53
- Selection procedure 53
- Hp 2 hp 2 hp 5 hp 54
- No t e 54
- Capacity kw 59
- Cooling capacity curve 59
- Cooling capacity tables 59
- Db dry bulb wb wet bulb 59
- Ii capacity when some indoor units are off 59
- Indoor air inlet temperature 27 c db 59
- Indoor unit of 0 hp set as 0 hp by specific dsw setting only for combinations with set free mini series 2 59
- No t e 59
- Outdoor air inlet temperature 35 c db 59
- Temperature conditions 59
- The following figure shows the capacity curve depending on the combined indoor units a b and c refers to the table 59
- The following tables show the capacity characteristics of the outdoor unit corresponding to the total power of the indoor units combined in standard conditions with horizontal 7 m long refrigerant pipes 59
- Total horsepower of combined indoor units hp 59
- Nominal cooling capacity tables 60
- Cap capacity at compressor maximum frequency kw 61
- Cooling capacity tables according to total power of combined indoor units 61
- Ipt input power kw 61
- No t e 61
- Ras 4 6 fsvn2e 61
- Ras 4fsvn2e 61
- Ti indoor air inlet temperature wb ºc db ºc 61
- To outdoor air inlet temperature db c 61
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 61
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 61
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 62
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 62
- Ras 5fsvn2e 63
- Total power of combined indoor units 130 ti 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt 10 63
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 63
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 64
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 64
- Ras 6fsvn2e 66
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 66
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 66
- Ras 4 6 fsny2e 68
- Ras 4fsny2e 68
- Total power of combined indoor units 130 ti 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt 10 68
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 68
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 69
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 69
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 70
- Total power of combined indoor units 130 ti 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt 10 70
- Ras 5fsny2e 71
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 71
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 71
- Ras 6fsny2e 73
- Total power of combined indoor units 130 ti 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt 10 73
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 15 21 17 24 19 27 21 29 23 31 15 21 17 24 19 27 21 29 23 31 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 10 73
- Capacity kw 76
- Db dry bulb wb wet bulb 76
- Heating capacity curve 76
- Heating capacity tables 76
- Ii capacity when some indoor units are off 76
- Indoor air inlet temperature 20 c db 76
- Indoor unit of 0 hp set as 0 hp by specific dsw setting only for combinations with set free mini series 2 76
- No t e 76
- Outdoor air inlet temperature 7 c db 76
- Temperature conditions 76
- The following tables show the capacity characteristics of the outdoor unit corresponding to the total power of the indoor units combined in standard conditions with horizontal 7 m long refrigerant pipes 76
- Total horsepower of combined indoor units hp 76
- Nominal heating capacity tables 77
- Cap capacity at compressor maximum frequency kw 78
- Heating capacity tables according to total power of combined indoor units 78
- Ipt input power kw 78
- No t e 78
- Ras 4 6 fsvn2e 78
- Ras 4fsvn2e 78
- Ti indoor air inlet temperature c db 78
- To outdoor air inlet temperature c wb 78
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 78
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 79
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 79
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 80
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 20 80
- Ras 5fsvn2e 81
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 81
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 81
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 82
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 82
- Ras 6fsvn2e 83
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 20 83
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 83
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 84
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 84
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 2 85
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 2 85
- Ras 4 6 fsny2e 86
- Ras 4fsny2e 86
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 86
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 86
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 87
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 87
- Ras 5fsny2e 88
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 20 88
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 88
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 89
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 89
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 90
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 20 90
- Ras 6fsny2e 91
- Total power of combined indoor units 50 total power of combined indoor units 60 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 91
- Total power of combined indoor units 70 total power of combined indoor units 80 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 91
- Total power of combined indoor units 110 total power of combined indoor units 120 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 2 92
- Total power of combined indoor units 90 total power of combined indoor units 100 ti ti 16 18 20 22 24 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt cap ipt 20 92
- Total power of combined indoor units 130 ti 16 18 20 22 24 cap ipt cap ipt cap ipt cap ipt cap ipt 2 93
- Correction factors 94
- No t e 94
- Piping length correction factor 94
- No t e 95
- 20 15 10 5 0 96
- 25 20 15 10 96
- Correction ratio due to humidity cr 97
- Defrost correction factor 97
- No t e 97
- A c ous t ic c harac t eris t ic c urv es 99
- Acoustic characteristic curves 99
- Overall sound level 2 99
- Sound data 3 99
- No t e 100
- Overall sound level 100
- Frequency hz 101
- Octave sound pressure db c 101
- Sound data 101
- Work ing range 103
- Working range 103
- Working range 6 103
- 15 20 c wb operation control range 104
- Between 90 and 110 of the nominal voltage 104
- Db dry bulb wb wet bulb 104
- Indoor air inlet temperature ºc db 104
- Indoor air inlet temperature ºc wb 104
- Initial voltage 104
- No t e 104
- Operating voltage 104
- Operation control range 104
- Oudoor air inlet temperature ºc db 104
- Oudoor air inlet temperature ºc wb 104
- Over 85 of the nominal voltage 104
- Power supply 104
- Temperature range 104
- The temperature range is indicated in the following table 104
- Up to 3 of each phase measured at the main terminal of the outdoor unit 104
- Voltage imbalance 104
- Working range 104
- G eneral dimens ions 105
- General dimensions 105
- Dimensions 106
- Ras 4 6 fs v n y e 106
- Units in mm 106
- All measurements are in mm 107
- Do not stack more than two units in height 107
- For detailed information please refer to smxx0068 107
- No t e 107
- Ras 4 6 fs v n y e 107
- Service space 107
- The lenght a is a shown in the following table 107
- Units in mm 107
- Ras 4 6 fs v n y 2e 02 109
- Ref rigerant c y c le 109
- Refrigerant cycle 109
- Example of twin combination 110
- Ras 4 6 fs v n y 2e 110
- Caution in case of refrigerant leakage 116 111
- Distribution method 08 111
- P iping work and ref rigerant c harge 111
- Piping materials and connection 112 111
- Piping work and refrigerant charge 111
- Refrigerant charge amount 114 111
- Refrigerant piping range 04 111
- Refrigerant piping selection 04 111
- Caut i o n 112
- Multi kit or distributor selection 112
- No t e 112
- Piping size selection 112
- Refrigerant piping length 112
- Refrigerant piping range 112
- Refrigerant piping selection 112
- No t e 113
- Caut i o n 114
- No t e 114
- Refrigerant piping size 115
- Caut i o n 116
- Considerations 116
- Distribution method 116
- Do not connect two header branches consecutively 116
- For the following installation types when the installation is divided into two or more parts equilibrate the length and the ratio of total indoor unit connected capacity of each part 116
- Header branch piping system 116
- Installation position 116
- Installation types 116
- No t e 116
- Perform to install horizontally always example in case of model mh 108an 116
- Seal the end of branch pipes which are not connected by brazing factory supplied closing pipes 116
- Line branch piping system 117
- No t e 117
- Correct correct 118
- Horizontal 118
- Horizontal installation 118
- Installation position 118
- Locate the branch pipes on the same horizontal plane inclination within 30 118
- Make the straight length a minimum of 0 m after the vertical bend 118
- Piping work and refrigerant charge 118
- Right wrong 118
- Straight length of the pipe connection on the outdoor unit side is made as follows 118
- Tcgb0068 rev 08 2012 118
- The collective pipe connection part is installed downward the straight length must be min m 118
- The collective pipe connection part is installed upward the straight length must be min 0 m 118
- Vertical 118
- Vertical installation 118
- Combination branch piping system 119
- Considerations 119
- Do not connect a line branch to a header branch 119
- Installation type 119
- It is possible to connect the header to the second branch when the first branch is also the line branch 119
- Copper pipes and sizes 120
- No t e 120
- Piping materials and connection 120
- Caut i o n 121
- Insulation 121
- No t e 121
- Pipe connection 121
- Additional refrigerant charge calculation method 122
- Caut i o n 122
- Refrigerant charge amount 122
- Refrigerant charge before shipment 122
- Refrigerant charge before shipment w0 kg 122
- Additional refrigerant charge calculation example 123
- Calculation of refrigerant concentration 124
- Caution in case of refrigerant leakage 124
- Countermeasure for refrigerant leakage 124
- Maximum permitted concentration of hydrofluorocarbon hfc 124
- Common wiring 24 127
- E lec t ric al wiring 127
- Electrical wiring 127
- General information 20 127
- H link ii system 26 127
- Setting of dip switches and rsw switches 22 127
- Caut i o n 128
- Dang e r 128
- General information 128
- General notes 128
- General verifications 128
- At the interface point of the user s supply in accordance with en61000 3 11 129
- Electrical wiring 129
- Electromagnetic compatibility 129
- Following the council directive 2004 108 ec 89 336 eec relating to electromagnetic compatibility next table indicates maximum permissible system impedance 129
- Harmonics 129
- Harmonics situation of each model regarding iec 61000 3 2 and iec 61000 3 12 is as follows 129
- Tcgb0068 rev 08 2012 129
- Caut i o n 130
- No t e 130
- Setting of dip switches and rsw switches 130
- Dsw3 capacity 131
- Dsw5 transmission setting of end terminal resistance 131
- Dsw6 other settings 131
- Refrigerant cycle no setting 131
- Common wiring 132
- Electrical wiring between outdoor and indoor unit 132
- No t e 132
- Cb circuit breaker 133
- Connection wiring 133
- Elb earth leakage breaker 133
- Follow local codes and regulation when selecting field wires circuit breakers and earth leakage breakers 133
- Main switch protection 133
- No t e 133
- Recommended minimum sizes for field provided wires 133
- Select the main switches according to the following table 133
- Use the wires which are not lighter than the ordinary polychloroprene sheathers flexible cord code designa tion h05rn f 133
- Wiring size 133
- Application 134
- Caut i o n 134
- Features 134
- H link ii system 134
- No t e 134
- Specifications 134
- 00 00 00 00 01 01 02 02 02 135
- 00 01 02 135
- 00 01 02 03 00 01 00 01 02 135
- Dip switch setting for multiple h link system 135
- Example of the setting of the dip switches 135
- The dip switches of all the outdoor and indoor units have to be set as follows 135
- A refrigerant cycle 136
- B outdoor unit 136
- C indoor unit 136
- D indoor unit address 136
- E either the current remote control switch h link or the new one h link ii can be used 136
- Electrical wiring 136
- Examples of the system of connection between h link and h link ii units 136
- F only the new remote control switch h link ii can be used 136
- If you use psc 5s and the csnet web 2 systems only compatible with h link bear in mind that it will only recognize 16 indoor and 16 outdoor units 136
- In the case of mixed systems with h link and h link ii set the h link units in the first 16 position of the system as in the following example where 42 systems are connected 16 with indoor fsn1e units and 26 with indoor fsn2e units 136
- No t e 136
- Tcgb0068 rev 08 2012 136
- The maximum number of indoor units than an h link ii can control is 160 136
- Examples of h link ii system 137
- Caut i o n 138
- No t e 138
- For operation with cs net web 33 139
- O pt ional f unc t ions 139
- Optional functions 139
- Ras 4 6 fs v n y 2e 32 139
- Optional functions 140
- Ras 4 6 fs v n y 2e 140
- Tcgb0068 rev 08 2012 140
- For operation with cs net web 141
- Optional functions 141
- Tcgb0068 rev 08 2012 141
- Alarm codes 37 143
- On screen displays during abnormal operation 36 143
- Troubles hoot ing 143
- Troubleshooting 143
- No t e 144
- On screen displays during abnormal operation 144
- Alarm codes 145
- Ras 4 6 fsvn2e ras 4 6 fsny2e 148
- Set free mini series 148
- Technical catalogue 148
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