![Daikin HCU4070PXB1 [83/169] Neutral zone](/img/pdf.png)
Daikin HCU4070PXB1 [83/169] Neutral zone
![Daikin HCU4070PXB1 [83/169] Neutral zone](/views2/1801914/page83/bg53.png)
34
ENG
pRack PR300T +0300018EN rel. 1.5 - 02.05.2017
With P+I control, added to the e ect of the proportional action described
above is the integral action, used to achieve a null control error in steady
operation, as shown in the gure:
Regulation variable
P+I
P
Setpoint
time
Fig. 6.i
The integral action depends on the time and the deviation from the set
point. This modi es the request if the control value does not approach
the set point for some time.
The integral time setting represents how fast integral control is
implemented:
• low values determine fast and intense control action
• high values determine slower and more stable control action
It is recommended to not set a value that is too low for the integral time,
to avoid instability.
Note: the set point is in the centre of the activation band, therefore
when reaching the set point some devices are on, even with purely
proportional control.
6.3.2 Neutral zone
The operating principle is schematised in the following gure:
Regulation request
Force o
Decrease
zone
Increase
zone
Neutral
zone
100%
Di. Di.
Setpoint
Regulation
probe value
Fig. 6.j
Inside the neutral zone the capacity request sent by the controller is
constant (except when there is a modulation device and modulation is
enabled inside the neutral zone, as described in the following paragraph)
and the value satis es the temperature control request in those speci c
operating conditions, therefore within this zone no device is stopped or
started.
In the decrease zone, the request also decreases at a rate that depends on
the deviation from the set point, and vice-versa in the increase zone the
request increases proportionally to the deviation.
For the increase and decrease zones, the following can be used:
• Fixed times: the request decreases or increases constantly as time
elapses.
• Variable times: the request decreases or increases more quickly
(according to the settings) as the deviation from the set point increases.
Note: The previous gure shows the increase and decrease with
xed times.
For control in Neutral zone, the parameters shown in the gure must be
set:
NZ timings
Setpoint
Regulation
probe value
Decrease
zone
Increase
zone
Neutral
zone
Di.
Decr. Di. Incr. Di.Di.
Min time 0%
Max time 0%
Max time 100%
Min time 100%
Fig. 6.k
As well as the decrease and increase di erentials, 4 times need to be set,
two for each zone, which represent the maximum and minimum time
to reach the request, equal to 0% or 100%, for the decrease and increase
respectively.
Tutorial: the decrease/increase times (minimum and maximum)
represent the time needed to change from maximum to minimum
capacity and vice-versa, and not the time between the deactivation/
activation of the individual device. For example, in the case of 4 devices
with the same capacity, an increase time of 180 s means that one device
is activated every 45 s.
In the situation shown in the gure, the request sent by the controller
decreases/increases slowly as soon as the controlled value is outside of
the Neutral zone, while it decreases/increases quickly the further the
controlled value moves away from the Neutral zone; in this way the
response of the system is faster when further from steady conditions.
Note: When using xed times, the maximum and minimum must
be set to the same value. In this case, the request sent by the
controller decreases/increases constantly inside the deactivation/
activation di erential.
6.3.3 Modulation in Neutral zone
pRack PR300T can activate a speci c function inside the Neutral zone if
modulating devices are used (e.g.: inverters). This function can be enabled
in main menu branch C.a.g/C.b.g or D.a.g/D.b.g.
Modulation in Neutral zone is used to vary the request sent by the
controller inside the Neutral zone proportionally so as to enter the
decrease zone with the minimum request and the increase zone with the
maximum request, meaning a device can be immediately deactivated/
activated when exiting the Neutral zone.
This makes it possible to remain longer inside the neutral zone without
starting or stopping any device.
An example of this operation is shown in the gure:
Regulation request
Regulation probe value
P1
100%
Neutral zone
Fig. 6.l
Page 83 of 169
Copyright HPL March 2021
P4367 Rev 01
Содержание
- Hcu2040pxb1 1
- Technical manual a rev 02 copy 1
- Model hcu2040pxb1 3
- C a10145 04l signed doc2 4
- Hubbard hermetic rotary r744 units 5
- Installation commissioning and maintenance manual 5
- Installation manual 4hp 5
- Model no hcu2040pxb1 5
- Contents 6
- Safety recommendations 6
- Attention 7
- Safety recommendations 7
- Use safety gloves to protect your hands from possible cuts 7
- Warning 7
- Description of the unit 8
- Storage 8
- On siting the unit we recommend the security of all electrical connections is checked and system flanges rotalock valves and flexible connections are secure where flexible hose lines are used please ensure that the outer material is not subject to rupture due to contact with other surfaces before initial operation we recommend that crankcase heaters are operated for 24 hours prior to compressor operation to ensure correct lubrication properties are provided the units are factory tested including leak pressure and electrical test not running test anyway is highly recommend a further pressure test after transport and positioning to help prevent leakage in operation pressure testing should be carried out according to your companies test procedures and where applicable in accordance current p e d recommendations f gas regulations and your customers requirements 9
- Models hcu2040pxb1 10
- Hcu2040pxb1 suction line 1 2 liquid line 3 8 12
- Hcu2040pxb1 22
- Material sds 26
- Materials in the system 26
- A sds r744co2 27
- Material safety data sheet 27
- Daphne hermetic oil pz68s 34
- Safety data sheet 34
- Section 1 identification of the substance mixture and of the company undertaking 34
- Section 2 hazards identification 34
- Daphne hermetic oil pz68s 35
- Section 3 composition information on ingredients 35
- Section 4 first aid measures 35
- Daphne hermetic oil pz68s 36
- Section 5 firefighting measures 36
- Section 6 accidental release measures 36
- Section 7 handling and storage 36
- Daphne hermetic oil pz68s 37
- Section 8 exposure controls personal protection 37
- Section 9 physical and chemical properties 37
- Daphne hermetic oil pz68s 38
- Section 10 stability and reactivity 38
- Daphne hermetic oil pz68s 39
- Section 11 toxicological information 39
- Daphne hermetic oil pz68s 40
- Section 12 ecological information 40
- Section 13 disposal considerations 40
- Section 14 transport information 40
- Daphne hermetic oil pz68s 41
- Section 15 regulatory information 41
- Daphne hermetic oil pz68s 42
- Section 16 other information 42
- Model hcu2040pxb1 44
- Wiring schematics 44
- 2 d4155s lt 03 45
- 7 bluestem road ransomes europark 45
- An 23 04 2020 45
- B d4155s 4lt mt ccu short form diagram 45
- Copyright hpl march 2021 p4367 rev 01 45
- D4155s lt rev 03 4hp lt ccu short form diagram sheet 1 45
- Hp lt ccu wiring diagram short form 45
- If in doubt ask 45
- Page 45 of 169 45
- Sheets and views 45
- Suffolk ipswich ip3 9rr tel 01473 890522 fax 01473 890687 45
- 04 2020 46
- 7 bluestem road ransomes europark 46
- Copyright hpl march 2021 p4367 rev 01 46
- D4155s lt 03 46
- D4155s lt rev 03 4hp lt ccu short form diagram sheet 2 46
- Hp lt ccu wiring diagram short form 46
- If in doubt ask 46
- Page 46 of 169 46
- Sheets and views 46
- Suffolk ipswich ip3 9rr tel 01473 890522 fax 01473 890687 46
- Model hcu2040pxb1 47
- Part number d4129 lt 47
- Pipework schematics 47
- 7 bluestem road ransomes europark 48
- B d4129 lt rev 00 co2 schematic 4hp 48
- Copyright hpl march 2021 p4367 rev 01 48
- Hp lt ccu piping schematic 48
- Iam 22 03 2018 d4129 lt 00 48
- If in doubt ask 48
- Page 48 of 169 48
- Sheets and views 48
- Suffolk ipswich ip3 9rr tel 01473 890522 fax 01473 890687 48
- Carel controller manual 49
- A carel pr300t_latest 50
- Carel reserves the right to modify the features of its products without prior notice 51
- Copyright hpl march 2021 p4367 rev 01 51
- Disposal 51
- Important 51
- Page 51 of 169 51
- Warning 51
- Content 52
- Functions 32 52
- Hardware characteristics and installation 7 52
- Installation 21 52
- Introduction 5 52
- Start up 26 52
- User interface 29 52
- Alarms 83 53
- Appendix 94 53
- Parameters and alarms table 53 53
- Software update and configuration 87 53
- Supervisory and commissioning systems 86 53
- Components and accessories 54
- Introduction 54
- Main features 54
- Pr300t functionality list 54
- Code description pgderk1fx0 pgd evolution user terminal for prack pr300t 55
- Confi guration of the system and confi guration of the inputs and outputs 55
- Convonoff0 module to convert a 0 0v analog output to an spdt digital output cvstdutlf0 usb rs485 serial convertor with telephone connector cvstdumor0 usb rs485 serial converter with 3 way terminal pcoso0aky0 smart key programming key s90conn002 connection cable for terminal 1 0 m s90conn000 connection cable for terminal 1 1 m s90conn001 connection cable for terminal 1 3 m spkt r and spkc00 ratiometric pressure probes 0 5 vdc 55
- Copyright hpl march 2021 p4367 rev 01 55
- Evdis00d 0 display for evd evo e2vcabs 00 evd valve connection cable 55
- Fieldbus card bms card 55
- J1 j24 j2 j3 j4 j5 55
- J11 plan 55
- J13 j12 j15 55
- J25 bms2 j26 fbus2 55
- Ntc pressure probe ntc 50t90 c ntc ht pressure probe ntc 0t150 c evd0000e50 evd evo universal driver for carel valves rs485 modbu 55
- Page 55 of 169 55
- Pr300t 55
- Pr300t pr300t 55
- Prack pr300t 0300018en rel 1 02 5 017 55
- Spk c spk1 spk2 spk3 active pressure probes 4 20 ma 55
- System confi gurations available 55
- 5 1 6 2 3 3 3 8 9 7 8 56
- Analogue outputs 17 fieldbus2 connector 8 id digital inputs for voltage a 18 jumpers for selecting fieldbus bms 56
- Copyright hpl march 2021 p4367 rev 01 56
- Fieldbus card bms card 56
- Fig 2 a 56
- Fig 2 b 56
- Hardware characteristics and installation 56
- Id digital inputs for voltage a idh digital inputs for voltage b 10 plan telephone connector for terminal downloading application voltage a 24 vac or 28 to 36 vdc voltage b 230 vac 50 60 hz 56
- J1 j24 j2 j3 j4 j5 56
- J1 j24 j2 j3 j4 j5 j7 j8 56
- J11 plan 56
- J13 j12 j15 56
- J13 j12 j16 j17 j18 j15 56
- J25 bms2 j26 fbus2 56
- Page 56 of 169 56
- Pr300t 56
- Prack 300 s m d l board description 56
- Prack pr300t 0300018en rel 1 02 5 017 56
- Prack pr300t m 56
- Prack pr300t s 56
- Ref description ref description 1 power supply connector g g0 11 plan plug in connector 56
- Tab 2 a 56
- Universal inputs outputs 13 reserved 4 vdc power supply for active probes 14 reserved 5 button for setting plan address second display led 15 relay digital outputs 56
- Vg power supply at voltage a for opto isolated analogue output vg0 power to opto isolated analogue output 0 vac vdc 16 bms2 connector 56
- Vterm power supply for additional terminal 5 vref power supply for ratiometric probes 12 reserved 56
- 11 12 15 57
- 5 1 6 2 3 3 57
- 5 1 6 2 3 3 3 8 9 7 8 57
- A b c d 57
- Fieldbus card bms card 57
- J1 j24 j2 j3 j4 j5 57
- J1 j24 j2 j3 j4 j5 j7 57
- J11 plan 57
- J13 j12 57
- J13 j12 j16 j17 j18 j15 57
- J16 j17 j18 j15 57
- J23 fbus2 57
- J25 bms2 j26 fbus2 57
- J25 bms2 j26fbus2 57
- N c model 57
- Pr300t 57
- Prack pr300t 0300018en rel 1 02 5 017 57
- Electrical specifi cations 58
- Physical specifi cations 58
- Technical specifi cations 58
- Digital inputs id idh 59
- For dc voltage inputs 24 vdc either the or the can be connected to common terminal 59
- Id1 id8 id9 to id12 id17 id18 have functional insulation from the rest of the controller 59
- Power supply to probes and terminals 59
- Separate as much as possible the probe and digital input cables from cables to inductive loads and power cables so as to avoid possible electromagnetic disturbance never run power cables including the electrical panel cables and signal cables in the same conduits 59
- The rating of the external contact connected to the digital inputs must be at least 5 ma 59
- The two 230 vac or 24 vac vdc inputs on terminals j8 id13 id14 or j19 id15 id16 have the same common pole and therefore both will operate at 230 vac or 24 vac vdc there is basic insulation between the two inputs there is reinforced insulation between the inputs and the rest of the controller 59
- Universal inputs outputs u 59
- A 0 to 10 vdc analogue output can be connected in parallel to other outputs of the same type or alternatively to an external source of voltage the higher voltage will be considered correct operation is not guaranteed if actuators with voltage inputs are connected 60
- Analogue outputs y 60
- Digital outputs no nc 60
- M only use shielded cable with the shield connected to earth 60
- Power the vg vg0 analogue outputs at the same voltage on g g0 connect g0 to vg0 and g to vg this is valid for both alternating and direct current power supplies 60
- Relays with the same insulation 60
- Ssr outputs in models where featured 60
- Model with electronic expansion valve driver 61
- Serial port 61
- 24 vdc or 24 vac power supply 62
- Meaning of the inputs outputs on the prack pr300t s m l boards 62
- Normally open contact relay no 3 62
- Fig 2 e 63
- Prack pr300t s m d l board dimensions 63
- Bianco nero 64
- Copyright hpl march 2021 p4367 rev 01 64
- Fieldbus card bms card 64
- J1 j24 j2 j3 j4 j5 64
- J11 plan 64
- J13 j12 j15 64
- J25 bms2 j26 fbus2 64
- Max 6 sonde attive 64
- Nero bianco 64
- Non usato per altri tipi di sensori 4 20 ma fare riferimento al relativo foglio di istruzioni 64
- Out 3 out 2 out 1 64
- Page 64 of 169 64
- Pgde prack 64
- Pr300t 64
- Prack pr300t 0300018en rel 1 02 5 017 64
- Prack pr300t general connection diagram 64
- Rs485 bms connections 64
- Vac 230 vac 0 vac vdc 64
- Vac 230 vdc 0 vac vdc 64
- Vac vdc 0 vac vdc 64
- Vac vdc 24 vac vdc 64
- 24 vac ac v v dc dc 65
- Bianco nero 65
- Copyright hpl march 2021 p4367 rev 01 65
- Fieldbus card bms card 65
- Fig 2 g 65
- J1 j24 j2 j3 j4 j5 j7 j8 65
- J11 plan 65
- J13 j12 j16 j17 j18 j15 65
- J25 bms2 j26 fbus2 65
- Max 6 sonde attive 65
- Medium 65
- Nero bianco 65
- Non usato per altri tipi di sensori 4 20 ma fare riferimento al relativo foglio di istruzioni 65
- Page 65 of 169 65
- Pr300 pr300 65
- Pr300t 65
- Prack pr300t 0300018en rel 1 02 5 017 65
- Rs485 bms connections 65
- Va va c c vd vd c 65
- Vac 230 vac 0 vac vdc 65
- Vac 230 vdc 0 vac vdc 65
- Vac vdc 0 vac vdc 65
- Vac vdc 230 vac 0 vac vdc 65
- Vac vdc 24 vac vdc 65
- Bianco nero 66
- Black white 66
- Copyright hpl march 2021 p4367 rev 01 66
- Fieldbus card bms card 66
- J1 j24 j2 j3 j4 j5 j7 66
- J11 plan 66
- J13 j12 66
- J16 j17 j18 j15 66
- J23 fbus2 66
- J25 bms2 j26 fbus2 66
- Max 6 sonde attive 66
- Nero bianco 66
- Non usato per altri tipi di sensori 4 20 ma fare riferimento al relativo foglio di istruzioni 66
- Out 5 out 6 66
- Page 66 of 169 66
- Pgde prack 66
- Pr300 pr300 66
- Pr300t 66
- Prack pr300t 0300018en rel 1 02 5 017 66
- Rs485 bms connections 66
- Vac 230 vac 0 vac vdc 66
- Vac vdc 66
- Vac vdc 0 vac vdc 66
- Vac vdc 24 vac vdc 230 vac 0 vac vdc 66
- Alco ex5 6 ex7 8 67
- Bianco nero 67
- Bianco white 67
- Coma noa 67
- Connessioni ad altri tipi di valvole 67
- Copyright hpl march 2021 p4367 rev 01 67
- Driver integrato 67
- Fieldbus card bms card 67
- Fig 2 i 67
- G g0 vbat 67
- Giallo yellow 67
- J1 j24 j2 j3 j4 j5 j7 j8 67
- J11 plan 67
- J13 j12 j16 j17 j18 j15 67
- J25 bms2 j26 fbus2 67
- Legenda 1 verde 3 bianco 5 nero 2 marrone 4 rosso 6 blu 67
- Marrone brown 67
- Max 6 sonde attive 67
- Nero bianco 67
- Non usato per altri tipi di sensori 4 20 ma fare riferimento al relativo foglio di istruzioni 67
- Ntc driver a 67
- Ntc driver b 67
- Page 67 of 169 67
- Pr300 pr300 67
- Pr300t 67
- Prack pr300t 0300018en rel 1 02 5 017 67
- Ratiometric pressure transducer driver a 67
- Ratiometric pressure transducer driver b 67
- Rs485 bms connections 67
- Shield 67
- Sporlan sei seh ser danfoss ets ccm ccmt 67
- V valve a carel 67
- V valve b 67
- Vac vdc 0 vac vdc 67
- Verde green 67
- Alco ex5 6 ex7 8 68
- Applicabile a s m l d 68
- Coma noa 68
- Connessioni ad altri tipi di valvole 68
- Copyright hpl march 2021 p4367 rev 01 68
- Dedicato 68
- Driver esterno 68
- Fieldbus card bms card 68
- G g0 vbat 68
- Indirizzo seriale 198 68
- J1 j24 j2 j3 j4 j5 68
- J11 plan 68
- J13 j12 j15 68
- J25 bms2 j26 fbus2 68
- Legenda 1 verde 3 bianco 5 nero 2 marrone 4 rosso 6 blu 68
- Ntc driver a 68
- Ntc driver b 68
- Page 68 of 169 68
- Pr300 pr300 68
- Pr300t 68
- Prack pr300t 0300018en rel 1 02 5 017 68
- Ratiometric pressure transducer driver a 68
- Ratiometric pressure transducer driver b 68
- Rs485 bms connections 68
- Shield 68
- Sporlan sei seh ser danfoss ets ccm ccmt 68
- Va tradrfe240 68
- Vac 230 vac 68
- Enable cpcoe no 69
- Enable i o expansion board management no 69
- Expansion card 69
- Offline pattern dis digital output pattern 1 off 2 off 3 off 4 off 5 off 6 off 69
- Wizard ib1f 69
- Anchoring the prack pr300t 70
- Connecting the analogue inputs 70
- General installation instructions 70
- Installation 70
- Installation procedure 70
- Power supply 70
- Wiring procedure 70
- Pr300t 71
- Connecting 0 10 v active probes 72
- Connecting the analogue inputs selected as on off 72
- Connecting the digital inputs 72
- Remote connection of the analogue inputs 72
- Vac digital inputs 72
- Vdc digital inputs 72
- Connecting 0 10 v analogue outputs 73
- Connecting the analogue outputs 73
- Connecting the digital outputs 73
- Electromechanical relay digital outputs 73
- Optional modules 73
- Remote connection of the digital inputs 73
- Vac digital inputs 73
- Connecting the terminals 74
- Copyright hpl march 2021 p4367 rev 01 74
- Page 74 of 169 74
- Plan electrical connections 74
- Remote connection of the digital outputs 74
- Solid state relay ssr digital outputs 74
- Summary table of digital outputs according to the versions available 74
- Answer the questions to have a fully configuration 75
- Example of system confi guration using the wizard 75
- Select config item wizard 75
- Start up 75
- Starting the fi rst time 75
- Wizard 75
- Configure another condensing line no 76
- Enable i o config yes 76
- Rprv status connected 76
- Visualize wizard report no push down to continue 76
- Wizard ib98 76
- Wizard ib99 76
- Advanced confi guration 77
- Associating the inputs and outputs 77
- Press enter to continue 77
- Successfully complete 77
- Wizard 77
- Description of the display 78
- Double line config 78
- Gas cooler 64 4barg unit off by keyboard 78
- Graphic terminal 78
- I1 i3 i2 i4 78
- I1 value l1 compr i2 value l2 compr 78
- I3 value l1 fans i4 value hpv 78
- Main mask config fb10 78
- Prack 14 30 20 01 10 suction l1 26 6barg l2 12 6barg 78
- User interface 78
- Barg 0 barg 0 barg 79
- L1 ai status bab01 suction press probe plb1 b1 4 20ma 79
- Password 79
- Upper value lower value calibration 79
- Menu description 80
- Functions 81
- Plan 1 address 81
- Plan 2 address 81
- Schematic diagram and system confi gurations used 81
- C1 c2 c3 c4 82
- Control 82
- Devices activation 82
- Differential differential 82
- Regulation probe value 82
- Regulation request 82
- Setpoint 82
- Suction pressure differential differential 82
- Unit on off 82
- Decrease zone increase zone neutral zone 100 83
- Diff diff 83
- Force off 83
- Modulation in neutral zone 83
- Neutral zone 83
- Regulation probe value 83
- Regulation request 83
- Regulation variable p i 83
- Setpoint 83
- 50 75 100 84
- C2 c3 c4 84
- Compressors 84
- Control with backup probes and or probes not working 84
- Possible compressor confi gurations 84
- Rotation 84
- Rotation with modulation devices 85
- Balancing 86
- Compressor request 86
- Economizer 86
- Liquid injection 86
- Manual operation 86
- Part winding 86
- Safety times 86
- Starting 86
- Compressor 1 force to off 87
- D01 no off 87
- D02 no off 87
- Digital output board1 87
- Manual mng bba02 87
- Test do bca10 87
- Control 88
- Gas cooler 88
- Alarms 89
- Fast start speed up 89
- Hpv valve management 89
- Manual operation 89
- Rotation 89
- Silencer 89
- Split condenser 89
- Setpoint hpv 90
- Rprv valve accessory functions 91
- Rprv valve management 91
- Summary of inputs outputs and hpv valve par 91
- Summary of inputs outputs and rprv valve parameters 91
- Booster system use l1 suct probe for condensing line 2 no prevent disabled disch press needed 92
- Configure intercooler between the suction lines 92
- Energy saving 92
- Intercooler 92
- L2 prevent gbb07 92
- Wizard ib98 92
- Accessory functions 93
- Floating condensing set point 93
- Floating suction set point 93
- Individual compressor oil management 93
- Oil management 93
- Oil management per line 93
- Summary of inputs outputs and oil parameters 94
- Subcooling 95
- Summary of inputs outputs and oil injection parameters 95
- Summary of inputs outputs and oil receiver level parameters 95
- Heat recovery 96
- Hr2 gas cooler 96
- Generic functions 97
- Chillbooster 98
- Double line synchronization dss 98
- Eevs electronic expansion valve synchronization 98
- Hpv and rprv valve connection 98
- A line 1 b line 2 c parallel compression 99
- Compressors 3 3 99
- Control mode external plan 99
- Liquid non return 99
- Parallel compr cca01 enable parallel compressor yes 99
- Parallel compressor 99
- Sign of life 99
- Unit of measure 99
- Control mode internal 100
- Parallel compr cca01 enable parallel compressor yes 100
- Managing the default values 101
- Resetting the carel default values 101
- Saving and resetting the user default values 101
- Settings 101
- Time bands 101
- B in out a status b analog in 102
- Parameter table 102
- Parameters and alarms table 102
- Prack pr300t 0300018en rel 1 02 5 017 102
- A unit status 103
- Copyright hpl march 2021 p4367 rev 01 103
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- Prack pr300t 0300018en rel 1 02 5 017 104
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- Prack pr300t 0300018en rel 1 02 5 017 105
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- Tab 7 b 106
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- Prack pr300t 0300018en rel 1 02 5 017 107
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- Tab 7 c 108
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- Tab 7 d 111
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- Prack pr300t 0300018en rel 1 02 5 017 112
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- Tab 7 e 114
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- Tab 7 f 120
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- Tab 7 g 121
- Tab 7 h 121
- Tab 7 i 121
- Copyright hpl march 2021 p4367 rev 01 122
- I setup 122
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- Page 123 of 169 123
- Tab 7 j 123
- Alarm table 124
- Copyright hpl march 2021 p4367 rev 01 125
- Page 125 of 169 125
- Prack pr300t 0300018en rel 1 02 5 017 125
- I o table 126
- The list of prack pr300t inputs and outputs is reported below 126
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- Line 2 127
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- Line 2 129
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- Prack pr300t 0300018en rel 1 02 5 017 130
- Analog inputs 131
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- Line 2 131
- Page 131 of 169 131
- Alarm management 132
- Alarms 132
- Alarms cae01 132
- Alarms cae02 alarm 1 description 132
- Compressor alarms 132
- Generic overload high pressure low pressure oil 132
- Number of alarms for each compressor 3 132
- L1 alarms alc90 133
- L1 alarms alc92 133
- L1 generic alarm comp c01 c02 c03 133
- L1 high press al comp c01 c02 c03 133
- Pressure alarms from pressure switch 133
- Pressure and prevent alarms 133
- Heat reclaim or chillbooster 134
- High pressure prevention 134
- Hp by pressostat 134
- Hp by probe 134
- Offset 134
- Pressure 134
- Pressure alarms from probe 134
- Prevent 134
- Commissioning software 135
- Plantvisor pro and plantwatch pro supervisory systems 135
- Supervisory and commissioning systems 135
- Copyright hpl march 2021 p4367 rev 01 136
- Page 136 of 169 136
- Smart key operating instructions 136
- Software update and configuration 136
- Tab 10 a 136
- Tab 10 b 136
- Tab 10 c 136
- Tab 10 d 136
- Changing a parameter 137
- Commissioning 137
- Iinstalling the application to update the software 137
- Prack manager operating instructions 137
- Commissioning basic concepts 138
- File extensions names and contents 138
- Pendrive operating instructions 138
- Prack load basic concepts 138
- Support fi les 138
- Upload 139
- Usb key 139
- Automatic upload 140
- No link 140
- Upload in autorun mode 140
- Download 141
- Manual upload 141
- Confi guring pconet 142
- Confi guring pcoweb 142
- Confi guring pcoweb pconet from a system screen 142
- Connecting to a computer 142
- A system confi gurations with more than one plan board 143
- Appendix 143
- Agenzia agency 145
- Copyright hpl march 2021 p4367 rev 01 145
- Page 145 of 169 145
- B carel 1 146
- Abb inverter manual 151
- B abb non default settings 4hp 1 152
- 24v dgnd dcom di1 di2 156
- 24v dgnd dcom di1 di2 di3 di4 dio1 dio2 dio src dio com 156
- Acs380 drive quick installation and start up guide 156
- Ai1 agnd ai2 agnd ao agnd scr 10v 156
- Analog i o 156
- Analog input circuit common 156
- Analog output circuit common 156
- Aux 24 v dc 200 ma 156
- Aux 24 v dc max 200 ma 156
- Aux voltage output common 156
- B a bgnd shield termination 156
- C abb quick installation and start up guide 156
- Canopen profibus dp ethercat ethernet ip profinet modbus tcp canopen 156
- Connect the conductors to the correct control terminals torque the terminals to 0 n m 4 lbf in 156
- Connect the control cables 156
- Connect the pe conductor of the input power cable to the grounding terminal if it is necessary use a second pe conductor 156
- Connect the phase conductors of the input power cable to the l1 l2 and l3 input terminals torque the terminals to 0 n m 7 lbf in 156
- Connect the phase conductors of the motor cable to the t1 u t2 v and t3 w motor terminals torque the terminals to 0 n m 7 lbf in 156
- Connect the power cables 156
- Connect the shields of the twisted pairs and grounding wires to the scr terminal torque the terminals to 0 n m 4 lbf in 156
- Descriptions 156
- Digital i o connections 156
- Digital input common 156
- Digital input output common 156
- Digital output auxiliary voltage 156
- Dsub9 dsub9 rj45 x 2 rj45 x 2 rj45 x 2 rj45 x 2 156
- Eia 485 modbus rtu 156
- Embedded modbus rtu eia 485 156
- Examine the installation area 156
- Extension module connections 156
- Fault reset 156
- Forward 0 reverse 1 156
- Freq ref speed ref 0 0 v 156
- Ground the motor cable shield under the grounding clamp 156
- If it is applicable connect the brake resistor cable to the r and udc terminals torque the terminals to 0 n m 7 lbf in use a shielded cable and ground the shield under the grounding clamp 156
- If the input power cable has a shield twist it into a bundle mark it and connect it to the grounding terminal 156
- Install the drive 156
- Install the drive onto the mounting screws 156
- K451 fdna 01 devicenet terminal block 156
- K454 fpba 01 m profibus dp 156
- K457 fcan 01 m canopen 156
- K469 feca 01 m ethercat 156
- K470 fepl 02 ethernet power link rj45x2 156
- K475 fena 21 m ethernet ip profinet modbus tcp 156
- K495 bcan 11 canopen interface 156
- Make marks onto the surface for the mounting holes refer to declaration of conformity the r3 and r4 drives contain a mounting template 156
- Make sure that the drive is correctly installed 156
- Make sure that the motor cable is connected to the motor and disconnected from the drive output terminals t1 u t2 v and t3 w 156
- Make the holes for the mounting screws and install suitable plugs or anchors 156
- Measure the insulation resistance 156
- Mechanically attach the cables on the outside of the drive 156
- Mechanically attach the control cables on the outside of the drive 156
- Move the locking part to the left 156
- Move the locking part to the right 156
- No fault fault 1 156
- Not configured 156
- Output frequency 0 0 ma 156
- Process i o cyclic 156
- Push and hold the locking button down 156
- Put the drive against the bottom edge of the din installation rail 156
- Put the top tabs of the drive onto the top edge of the din installation rail 156
- Ramp 1 0 ramp 2 1 156
- Rc ra rb 156
- Ready 0 not ready 1 156
- Reference voltage 156
- Relay output 156
- Relay output 1 156
- Release the locking button 156
- S sgnd s1 s2 156
- Safe torque off function connected at factory drive starts only if both circuits are closed 156
- Safe torque off sto 156
- Select the cables 156
- Signal cable shield screen 156
- Speed selection 156
- Start to tighten the screws into the mounting holes 156
- Stop 0 start 1 156
- Strip a part of the outer shield of the control cable for grounding 156
- Strip the control cable conductors 156
- Strip the input power cable 156
- Strip the motor cable 156
- Terminals 156
- Tighten the mounting screws 156
- To remove the drive use a flat head screwdriver to open the locking part 156
- Twist the motor cable shield into a bundle mark it accordingly and connect it to the grounding terminal 156
- Use a cable tie to ground the outer shield to the grounding tab 156
- Use a voltage of 500 v dc to measure the insulation resistance between each phase conductor and the protective earth conductor the insulation resistance of an abb motor must be more than 100 mohm at 25 c 77 f for the insulation resistance 156
- Use metal cable ties for 360 degree grounding 156
- 10 50 c 14 22 f up to 60 c with derating except r0 no frost allowed 157
- Abb drives 157
- Acc dec time 1 157
- Acs380 04xx 157
- Act1 16 bit 157
- Air temperature 157
- Ambient conditions 157
- Axd10000299801 xls 157
- Canopen 157
- Canopen bcan 11 157
- Canopen fcan 01 m 157
- Ce marking 157
- Certifications 157
- Cia 402 157
- Class 3c2 157
- Class 3s2 157
- Configure fieldbus communications 157
- Constant frequency sel1 157
- Constant frequency sel2 157
- Constant speed sel1 157
- Constant speed sel2 157
- Contamination levels iec 60721 3 3 157
- Copyright hpl march 2021 p4367 rev 01 157
- Cross connection the input and motor cable connections are incorrect 157
- Cw 16 bit 157
- Dc link overvoltage there is an overvoltage in the intermediate dc circuit 157
- Dc link undervoltage there is an undervoltage in the intermediate dc circuit 157
- Declaration of conformity 157
- Depth 1 157
- Depth 2 157
- Description 157
- Dimensions and weights 157
- During operation installed for stationary use 157
- Eac marking 157
- Earth leakage a load unbalance that is typically caused by an earth fault in the motor or the motor cable 157
- Efb communication loss break in embedded fieldbus communication 157
- Efb ref1 157
- Eip abb pro 157
- Embedded fieldbus 157
- Enable 157
- Ethercat 157
- Ethernet ip 157
- Examine the direction of the motor if it is necessary set the motor direction with the phase order setting or with the phase order of the motor cable 157
- Ext1 commands 157
- Ext1 frequency ref1 157
- Ext1 in1 157
- Ext1 in2 157
- Ext1 speed ref1 157
- Fault reset selection 157
- Fb a ref1 157
- Fba a comm loss func 157
- Fba a communication communication lost between drive and fieldbus adapter 157
- Fba a data in1 157
- Fba a data in2 157
- Fba a data out1 157
- Fba a data out2 157
- Fba a enable 157
- Fieldbus a 157
- Fra me size 157
- Frame size 157
- Free fall 157
- Free space required 157
- Free space requirements 157
- Freq ramp set selection 157
- Heavy duty use 157
- Height back 157
- Height front 157
- Identification run the motor id run occurs at the next start 157
- Iec ratings 157
- If you need to change other parameters you can set them manually refer to the acs380 firmware manual 3axd50000029275 english and the applicable fieldbus adapter documentation 157
- In the control macros view select the applicable macro to configure fieldbus communications refer to configure fieldbus communications 157
- In the motor control view set the start and stop mode 157
- Input phase loss the intermediate dc circuit voltage oscillates 157
- Input rating 157
- Input with choke 157
- Installation altitude 157
- Ip configuration 157
- Light duty use 157
- Max current 157
- Mb tcp abb c 157
- Modbus tcp ip 157
- Mounting hole distance 1 157
- Mounting hole distance 2 157
- Nema ratings 157
- Node address 157
- Nominal use 157
- Not allowed 157
- Not selected 157
- Output phase loss all three phases are not connected to the motor 157
- Output ratings 157
- Overcurrent the output current is more than the internal limit this can be caused by an earth fault or phase loss 157
- Page 157 of 169 157
- Parameter 157
- Phase un 200 240 v 157
- Phase un 380 480 v 157
- Phase un 460 v 440 480 v 157
- Pnio abb pro 157
- Power up the drive 157
- Profibus 157
- Profile 157
- Profinet 157
- Protocol enable 157
- Protocol profile 157
- Ramp set selection 157
- Ratings 157
- Rcm marking 157
- Ref 1 16 bit 157
- Ref1 16 bit 157
- Related documents 157
- Relative humidity 157
- Requirement 157
- Safe torque off 1 the safe torque off circuit 1 is broken 157
- Safe torque off 2 the safe torque off circuit 2 is broken 157
- Safe torque off the safe torque off sto function is on 157
- Select the unit international or us in the motor data view set the motor type asynm asynchronous motor pmsm permanent magnet synchronous motor synmr synchronous reluctance motor 157
- Set the acceleration and deceleration times 157
- Set the maximum and minimum speeds 157
- Set the motor control mode vector speed reference this is suitable for most cases the drive does an automatic standstill id run when the drive is started for the first time scalar frequency reference do not use this mode for permanent magne 157
- Set the nominal motor values 157
- Setting 157
- Setting canopen with bcan 11 157
- Setting general 157
- Shock iec 60068 2 27 ista 1a 157
- Short circuit there is a short circuit in the motor or the motor cable 157
- Start up the drive 157
- Static ip 157
- Sw 16 bit 157
- Symbols 157
- The drive software recognizes the connected adapter i o modbus module or some of the fieldbus modules and selects the correct settings for fieldbus communication refer also to configure fieldbus communications 157
- The drive software recognizes the connected fieldbus adapter and selects the correct fieldbus control macro 157
- Tune the drive parameters to the application you can use the assistant control panel acs ap x or the drivecomposer pc tool refer to the acs380 firmware manual 3axd50000029275 english 157
- Tüv nord marking 157
- Ul marking 157
- Up to 95 without condensation 157
- V units 0 000 m above sea level with derating above 1000 m 400 v units 0 000 m above sea level with derating above 1000 m 1 157
- Warning 157
- Warning current calibration is done at the next start fault output phase current measurement fault 157
- Warnings and faults generated by the drive 157
- Weight 157
- You can see the selected fieldbus control macro in the control macros view or from parameter 96 5 in the control macros view you can also change some adapter specific settings 157
- Pressure and enthalpy diagram 158
- Ph 4hp2 159
- R744 co2 p h diagram subcritical 160
- R744 co2 p h diagram transcritical 161
- Commissionimg form 162
- Co2 hermetic rotary commissioning form 163
- Co2 hermetic rotary condending unit 163
- Commissioning form 163
- Sheet1 163
- Directive 2009 125 ec 165
- Eco design 165
- Ecodesignlt 165
- Evaporating temperature t 35 165
- Item symbol value units 165
- Refrigerant 165
- Evaporator installation guide 166
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