Ventilation unit with heat pump Planning, installation and

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Ventilation unit with heat pump Planning, installation and | Manualzz
Ventilation unit with heat pump
Planning, installation and operational instructions manual
EDX
Before installing and operating this unit,
please read this manual thorougly, and retain it for future reference.
www.enervent.fi
TABLE OF CONTENTS
TABLE OF CONTENTS
OVERVIEW
TYPE MARKING
TYPE DESCRIPTION
FOREWORD
OPERATING PRINCIPAL
WARNING
3
3
3
4
4
THE SYSTEM
THE SYSTEM
LIST OF COMPONENTS
5
5
INSTALLATION
INSTALLATION OF THE EDX-SYSTEM
Installation of the outside unit
Piping and electrical wiring
PRINCIPAL CHART OF THE EDX-SYSTEM
DUCT HEAT INSULATION
STARTING THE SYSTEM
USING THE SYSTEM
6
7
8
8
9
TECHNICAL DATA
HEATING AND COOLING CAPACITY OF EDX COIL
CONTROL CHARTS
INTERNAL WIRING
INTERNAL AND EXTERNAL WIRING HRW AND HEAT PUMP
EXTERNAL WIRING
INSTRUCTIONS FOR SETTING PYR4
10
23
24
26
27
28
DECLARATION OF CONFORMITY
30
THE PARAMETERS OF EDA CONTROL
31
2
Copyright Enervent® 2011. All rights reserved.
NOTE! All EDX-ventilation units are controlled with the EDA control. It is therefore important that You also read the EDA
operation manual before starting up the system. In case the EDX and EDA operating manuals contain information about
the same topic, the EDX-operating manual should be followed.
OVERVIEW
TYPE MARKING
Inside the ventilation unit is a type shield. Fill in the type shield’s data here to have it easily available when it is needed, e.g.
when buying new filters.
This manual covers the following units:
Enervent® greenair Pingvin eco EDX-E
Enervent® greenair Pandion eco EDX-E
Enervent® greenair Pelican eco EDX-E
Enervent® greenair Pegasos eco EDX-E
Enervent® greenair Pegasos eco XL EDX-E
Enervent® greenair LTR-3 eco EDX-E
Enervent® greenair LTR-6 eco EDX-E
Enervent® greenair LTR-7 eco EDX-E
Enervent® greenair LTR-7 eco XL EDX-E
7H1-J04
95U00081
SF07SWN003211
Example of serial number
Outside unit serial number:
TYPE DESCRIPTION
Enervent® Pingvin eco EDX-E
Unit
frame
Fan alternative Inverter controlled
(eco=Direct
heat pump
current fans)
eco
Ventilation unit with direct current fans and EDA control.
EDX-E Inverter controlled heat pump and electrical duct heater.
FOREWORD
The eco EDX-E ventilation units are designed and manufactured for use all year round. In Finland Enervent ventilation units
have been installed in houses and other spaces for over 25 years and their popularity is increasing each year. Because of the
knowledge and experience we have amassed during the years we can now manufacture more energy efficient and user
friendly ventilation units. The Enervent eco EDX-E unit series is the result of a long product development.
A unit with basic functions can be pre-installed, by your self, with the help of this manual, but certain special functions and
the extra equipment should be connected by an electrician. The installation of heat pumps requires a permission because
it is a cooling apparatus. Installation of these apparatus should only be done by authorized installers. We recommend that
the installation of the ventilation unit be performed by a qualified ventilation engineer.
Before maintenance read the warning on next page!
THE WARRANTY WILL END IF THE INSTALLATION OF THE HEAT PUMP IS NOT CARRIED OUT BY A QUALIFIED COOLING INSTALLER!
Enervent® EDX EN 2011_1
3
OVERVIEW
OPERATING PRINCIPAL
The Enervent eco EDX-E ventilation units are a combination of regenerative heat recovery and an inverter controlled heat
pump. A characteristic of the regenerative heat exchanger is its high rate of heat recovery (or efficiency). The system is
realized with a rotating heat exchanger through which the supply and exhaust air flow in opposite directions. The outside
air temperature is first raised in the rotating heat exchanger and then in the supply air coil. Heat is transferred from the
outside unit to the supply air coil by the compressor benefitting from the change in the refrigerant’s state. The refrigerant
effectively binds heat when it changes from fluid to vapour. The heat is released when the refrigerant condensates back to
fluid. In heating mode the refrigerant binds the heat when it evaporates in the outside unit. The refrigerant is pushed to the
supply air coil by the compressor and condenses to fluid due to the pressure and releases the heat energy it has binded in
the supply air. The heat pump’s continuous heat production is once in a while interrupted by the defrosting function. At
that time the process is temporarily turned to cooling to allow the ice formed on the outside unit to melt. The electric duct
heater insures the supply air temperature stays at set level during the defrosting function and during very cold periods. The
EDX-system is completly controlled by the automation. If the heat pump can not produce enough heat the automation will
automatically switch on the duct heater.
In cooling mode the flow is turned around which means the refrigerant evaporates in the supply air coil binding heat energy and cooIing the supply air. The heat energy is released from the refrigerant outside by the outside unit.
The EDX-E works as an additional heat source of the house as it economically produces over heated supply air with the heat
pump technology. Further more the system effectively cools in the summer time. The used eco fans are energy efficient
direct current fans.
WARNING
After opening the maintenance hatch wait for two (2) minutes before starting the maintenance work!
The fans rotate for a while and the compressor can be searing hot even after the power is cut. There
are no user-serviceable parts inside the control panel or inside the electrical cabinet, leave the service
of these parts to a professional. It is important during troubleshooting not to turn on the power of the
unit before being assured what the problem is.
4
THE SYSTEM
THE SYSTEM
THE GREENAIR ECO EDX-E SYSTEM ASSEMBLY
ULKOYKSIKKÖ
COMP 1
COMP 2
COMP 3
COMP 4
Pingvin eco EDX-E
Pegasos eco EDX-E
Pegasos eco XL EDX-E
Pegasos eco XL EDX-E (option)
Pandion eco EDX-E
LTR-7 eco EDX-E
LTR-7 eco XL EDX-E
LTR-7 eco XL EDX-E (option)
Pelican eco EDX-E
Pegasos eco EDX-E (option)
LTR-3 eco EDX-E
LTR-7 eco EDX-E (option)
LTR-6 eco EDX-E
THE GREENAIR ECO EDX-E SYSTEM ASSEMBLY
COMP 1 (RP-35)
Compressor
Outside unit
Piping
COMP 2 (RP-50)
COMP 3 (RP-60)
COMP 4 (RP-71)
Type
Rotation
Rotation
Rotation
Rotation
Brand
Mitsubishi
Mitsubishi
Mitsubishi
Mitsubishi
Size H-W-D (mm)
600 - 800 - 330 (+23)
600 - 800 - 330 (+23)
943-950-330 (+30)
943-950-330 (+30)
Net weight (kg)
45
45
75
75
Nominal heating efficiency (kW)
4.1 (1.6-5.2)
6.0 (2.5-7.3)
7.0 (2.8-8.2)
8.0 (3.5-10.2)
Nominal cooling efficiency (kW)
3.6 (1.6-4.5)
4.9 (2.3-5.6)
6.0 (2.7-6.7)
7.1 (3.3-8.1)
COP heating *
~ 3.75
~ 3.85
~ 4.00
~ 4.00
Sound level (dBA)
heating/cooling
46/44
46/44
48/47
48/47
Refrigerant
R410A
R410A
R410A
R410A
Refrigerant amount (g)
2 500
2 500
3 500
3 500
Pipe size fluid
Ø 6,35/0,8 mm (1/4”)
Ø 6,35/0,8 mm (1/4”)
Ø 9,52/0,8 mm (3/8”)
Ø 9,52/0,8 mm (3/8”)
Pipe size gas
Ø 12,7/0,8 mm (1/2”)
Ø 12,7/0,8 mm (1/2”)
Ø 15,88/0,8 mm (5/8”) Ø 15,88/0,8 mm (5/8”)
Max. length (m)
20
20
20
20
Max. hight difference (m)
10
10
10
10
Surrounding temp.
(°C)
-25°C ... +43°C
-25°C ... +43°C
-25°C ... +43°C
-25°C ... +43°C
Outside unit supply
(Ph/V/A)
1~ / 230 VAC / 16 A
1~ / 230 VAC / 16 A
1~ / 230 VAC / 20 A
1~ / 230 VAC / 20 A
* Incoming air temperature +15°C (coil). Outside air temperature -10°C (COP can vary depending on air amounts).
LIST OF COMPONENTS
THE EDX-E DELIVERY INCLUDES:
1.
2.
3.
Supply air coil. Built-in or duct coil depending on unit model
Outside unit Mitsubishi PUHZ-RP
Control unit Mitsubishi PAC-IF011/12B-E
4.
5.
Sensors 3 pcs
Electrical duct heater
A list of the components included in the ventilation unit delivery is found in the ventilation unit manual.
Enervent® EDX EN 2011_1
5
INSTALLATION
INSTALLATION OF THE EDX-SYSTEM
The ventilation unit is installed according to the separate manual delivered with it. NOTE! LTR-6 and LTR-7 units have to be
installed with the service hatch on the side if they are equipped with EDX. If the supply air coil isn’t built-in, it is to be installed in the duct. Note point 3 here under. Because the EDX system is a cooling system, it has to be drained through a water
lock. The drainage is situated on the duct coil or in the bottom of the ventilation unit.
Phases of installation:
1.
Install the ventilation unit as advised in the separate manual delivered with the unit. NOTE! LTR-6 and LTR-7 units have to be installed with the service hatch on the side if they are equipped with EDX. Take into consideration the space needed for draining the condense water.
2.
Make sure that there is enough free space in front of the unit’s maintenance hatch and remember to leave the electric wirings easily accessible.
3.
If the supply air coil isn’t built in, it needs to be connected to the duct. NOTE! The coil should be installed with the condense drain downwards in a horizontal part of the duct. Attach the duct to the unit with flexible connec-
tions. We recommend silencers in the supply and exhaust air ducts. The silencer should be installed after the supply air coil. 4.
Connect a pipe between the drain outlet and the nearest floor drain or water trap of a sink (min. water column 60 mm). Connecting the unit directly into the sewage system is not allowed.
Installation of the outside unit:
The outside unit is installed outside on a max. distance of 20 m and on a max height difference of 10 m from the coil. There
are no special requirements regarding the placement of the outside unit because the outside air temperature doesn’t
vary much depending on the place of installation. The outside air unit should be mounted steadily to avoid resonance. If
the outside air unit i.e. is mounted on a boarded wall it should be equipped with proper absorbing rubber pads to avoid
resonance. The unit should not be mounted on the wall outside the bedroom, because it is hard to get rid of all resonance.
We recommend that a rack be built for the unit so it doesn’t have to lie close to the wall. It is also possible to build an open
cover for the unit as long as it doesn’t disturb the air flow. The unit is not to be mounted in a closed space. The unit must be
mounted high enough to prevent snow from blocking the air flow in wintertime.
Piping and electrical wiring:
Enervent eco EDX is a combination of a ventilation unit and a heat pump. The heat pump is a cooling apparatus. The installation of a cooling apparatus requires a license. Installation of cooling apparatus should only be carried out by licensed
companies. The pipes between the outside air unit and the supply air coil are not included in the standard delivery.
The outside air unit also requires electrification. We recommend that the heat pump have its own output on the switchboard. Electrical installations as the installation of cooling apparatus, requires a license. Some companies employ both
electricians and installers of cooling apparatus. The cable between the outside unit and ventilation unit is not included in
the delivery.
6
Muutos
Pvm
Muutt
Hyv
10A, 230VAC, 50Hz
SUPPLY
1x10 A, 230 VAC, 3x1.5s
1x10 A, 230 VAC, 3x1.5s
1x10 A, 230 VAC, 3x1.5s
1x10 A, 230 VAC, 3x1.5s
2x10 A, 400 VAC, 4x1.5s
2x16 A, 400 VAC, 4x2.5s
POWER SUPPLY
3x1.5s
TH1
Osa
Koneistetut osat:
ISO 2768-mK
Kpl
3x2.5s
Piir no
Nimitys
EDX-E_Periaatekaavio
THE EDX-E SYSTEM
File
16A, 230VAC, 50Hz
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
Hyv
Osan nimitys
Tark
PRINCIPAL CHART
Piirt
MW
Suhde
INSTALLATION
Muutos Lehti
1
Paino kg
Pvm
07.04.2010
Valmiste
CONDENSE WATER DRAIN
SAFETY SWITCH
3x2.5s
AIR FROM THE HRW
TH5
Temperature sensor for coil pipe
(Installed at 2/3 hight of the coil)
POWER SUPPLY
OUTSIDE UNIT
PAC-IF011B-E
HEAT PUMP
CONTROLLER
TH5
EVAPORATOR COIL
HEAT PUMP
TH2
TH2
The sensor for
the lowest part
of the fluid pipe
4x1.5s
TH1
The sensor after
the supply air coil (evaporator coil).
YLEISTOLERANSSIT
Hitsatut rakenteet:
EN ISO 13920-AE
SAFETY SWITCH
3x1.5s
6x0.5
POWER SUPPLY
SAFETY SWITCH
CONTROL PANEL
EDA
RJ4P4C
cable
VENTILATION UNIT
ELECTRICAL BOX
2x0.5
The sensors TH1, TH2 and TH5 are
preinstalled into the unit at the factory.
SEE TABLE
ELECTRICAL DUCT HEATER
CV 16-09-1MQXL (900W)
CV 16-12-1MQXL (1200W)
CV 20-15-1MQXL (1500W)
CV 20-18-1MQXL (1800W)
CV 25-30-2MQXL (3000W)
CV 25-50-2MQXL (5000W)
FUSE BOX
No
2x0.5
TE10
Supply air
sensor
(to EDA mother board)
= CABLING AND
CONNECTIONS
ON SITE (EI)
FOR CONNECTIONS SEE
SEPARATE WIRING DIAGRAMS
TE10
AIR TO THE
ELECTRICAL DUCT HEATER
2x0.5
AIR GOING TO THE ROOMS
2x0.5
Enervent® EDX EN 2011_1
2x0.5
VEAB
ELECTRICAL DUCT HEATER
EDX-SYSTEM PRINCIPAL CHART
7
INSTALLATION
DUCT HEAT INSULATION
1.
2.
isolation 20 mm
vapour proof surface
5.
3.
isolation 80 mm
vapour proof surface
isolation
100 mm
4.
Examples of different insulation alternatives:
1. 2.
3. 4. 5. Exhaust air duct in warm spacing (indoors, no insulation).
Supply air duct between ventilation unit and terminal equipment.
Waste air and outside air duct in warm spacing (indoors).
Exhaust air duct in the ceiling insulation.
All ducts in a cold attic. Outside air and waste air ducts must not be assembled directly above the steam barrier. Both ducts require an insulation layer of 100 mm thick mineral wool.
STARTING THE SYSTEM
The Enervent eco EDX system can be started when the following installations have been made:
-
The ventilation unit is installed.
-
The supply air coil is installed, if it is a duct coil.
-
The electrical duct heater is installed.
-
The outside unit is mounted.
-
The piping between the outside unit and the coil is done.
-
The refrigerant circuit is evacuated and filled.
-
The draining of condense water is connected through a water lock.
-
The ducts with silencers are connected to the ventilation unit.
-
The terminal equipments are installed.
-
An outside air grille has been mounted on the fresh air intake (NOTE! Do not put an insect net on the fresh air in-
take because it blocks up very easily).
-
Make the roof pass-through. We recommend the use of a factory made, insulated roof pass-through.
-
The ducts has been isulated as instructed.
-
The ventialtion unit and the outside unit have been provided with the appropriate power supply and the
control cable has been connected.
-
Connect the control panel to the unit (mother board plug OP1) with the cable provided.
-
The air flows have been regulated.
-
PYR4 is set to the right value. Detailed instructions on page 28.
Open the unit’s maintenance hatch when all the above mentioned installation work is done. Check that the unit is clean on
the inside, that there are no spare parts inside it and that the filters are clean. Close the maintenance hatch carefully. NOTE!
The unit should not be run with the hatch open. The EDX unit is started by connecting the current to the unit. In this mode
both the fans and the rotating heat exchanger run.
8
THE SYSTEM
USING THE SYSTEM
SPECIAL FEATURES OF THE EDX SYSTEM
Frost over and freezing
The EDX system’s outside unit might frost over and freeze during the winter. Snow might also accumulate on the outside
unit during blizzards. This is completly normal and it doesn’t affect the outside unit’s function. The frost over occurs because the refrigerant evaporates in the outside unit during heating mode. This causes the lamella surfaces in the outside unit
to cool down. The humidity in the outside air freezes when it comes in contact with these cold surfaces. This is commonly
seen as white frost on the outside unit surfaces. The phenomenon is emphasized at temperatures around ±0°C.
The easiest way to melt a severly frozen outside unit is to pour warm water over it. It alows the ice to melt without harming
the outside unit. The ice must not be removed by hitting with a chisel or such. Cut the power to the outside unit before
attempting to melt it!
An ice pile gathers beneath the outside unit due to the melting water. It can be removed as needed. NOTE! If the space between the outside unit and the surface beneath it is small, the ice gathering under the outside unit might lift it of its place.
If the space is small, the ice must be removed often. We recommend that 40 cm free space is left under the outside unit.
Enervent® EDX EN 2011_1
9
2,6
2,4
2,2
2,0
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
0,0
240
220
240
Pingvin EDX cooling
220
Pingvin EDX heating
200
200
2,6
2,4
2,2
2,0
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
0,0
Heating total capacity, max.
(kW)
Cooling total capacity. max.
(kW)
Heat pump RP-35
Cooling media R-410A
Duct mounted coil 1007182
Air flow
(m3/h)
260
Air flow (m 3/h)
260
280
280
300
300
Pingvin EDX coil heating and cooling capacity (kW)
320
320
22 °C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@ HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
220
240
240
200
220
240
Coil pressure drop (— pAIR)
200
Pingvin EDX cooling
220
Pingvin EDX heating
200
10
9
8
7
6
5
4
3
2
1
0
16
14
12
10
8
6
4
2
0
0
5
10
15
20
25
30
Heat pump RP-35
Cooling media R-410A
Duct mounted coil 1007182
(m 3/h)
280
280
260
Air flow (m3/h)
Air flow (m3/h)
260
Air flow
260
280
300
300
Pingvin EDX - coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
10
Pressure drop (Pa)
300
320
320
320
30° C
28° C
26° C
24° C
22° C
Temp
before coil
(Tambient,
50% RH):
20° C
15° C
10° C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
EDX COIL HEATING AND COOLING CAPACITY
0,0
0,5
1,0
1,5
2,0
2,5
3,0
3,5
4,0
300
340
300
340
Pandion EDX cooling
260
260
0,0
0,5
1,0
1,5
2,0
2,5
3,0
3,5
4,0
Pandion EDX heating
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 1007156
Duct mounted coil 1007182
420
Air flow
380
(m 3/h)
420
Air flow (m 3/h)
380
460
460
500
500
Pandion EDX coil heating and cooling capacity (kW)
Heating total power, max.
(kW)
Cooling total power, max.
(kW)
22 °C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
0
5
10
15
20
25
30
300
320
340
260
260
300
320
340
360
360
280
300
320
340
Coil pressure drop (∆ pAIR)
280
Pandion EDX cooling
280
Pandion EDX heating
260
16
14
12
10
8
6
4
2
0
0
5
10
15
20
25
30
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 1007156
Duct mounted coil 1007182
400
420
400
420
360
440
440
380 400 420
Air flow (m 3/h)
Air flow (m 3/h)
380
Air flow (m 3/h)
380
440
460
460
460
480
480
Pandion EDX - coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
Enervent® EDX EN 2011_1
11
500
30° C
28° C
26° C
24° C
22° C
Temp
before coil
(Tambient,
50% RH):
TECHNICAL DATA
480
500
500
20° C
15° C
10° C
Temp
before coil
(T after HRW ):
0,0
0,5
1,0
1,5
2,0
2,5
3,0
3,5
4,0
360
400
320
360
400
Pelican EDX cooling
320
4,5
0
0,5
1
1,5
2
2,5
3
3,5
4
4,5
Pelican EDX heating
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 1007286
Air flow
440
(m 3/h)
480
480
Air flow (m 3/h)
440
520
520
560
560
Pelican EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
22°C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@ HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
30
25
20
15
10
5
0
320
320
320
18
16
14
12
10
8
6
4
2
0
0
5
10
15
20
25
30
400
400
340
360
380
400
480
460
Air flow (m 3/h)
440
Air flow (m 3/h)
440
440
480
Air flow (m 3/h)
420
Coil pressure drop (∆ pAIR)
360
Pelican EDX cooling
360
Pelican EDX heating
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 100796
480
500
520
520
540
560
560
560
580
22°C
24°C
26°C
28°C
30°C
Temp before
coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp before
coil
(T after HRW ):
TECHNICAL DATA
520
Pelican EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
12
0
1
2
3
4
5
6
7
8
600
700
600
700
Pegasos EDX cooling
500
500
0
1
2
3
4
5
6
7
8
Pegasos EDX heating
Heat pump RP-50
Cooling media R-410A
Coil integrated in AHU 1007286
900
900
Air flow (m3/h)
800
Air flow (m3/h)
800
1000
1000
1100
1100
Pegasos EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
1200
1200
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
0
10
20
600
700
600
700
Coil pressure drop (∆ pAIR)
500
500
30
700
Pegasos EDX cooling
600
Pegasos EDX heating
500
40
18
16
14
12
10
8
6
4
2
0
30
27
24
21
18
15
12
9
6
3
0
Heat pump RP-50
Cooling media R-410A
Coil integrated in AHU 1007286
800
900
Air flow (m 3/h)
Air flow (m 3/h)
900
900
Air flow (m 3/h)
800
800
1000
1000
1000
1100
1100
Pegasos EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
Enervent® EDX EN 2011_1
13
1200
30°C
28°C
26°C
24°C
Temp before
coil
(Tambient,
50% RH):
TECHNICAL DATA
1100
1200
1200
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
0
1
2
3
4
5
6
7
8
9
600
700
600
700
Pegasos EDX cooling
500
500
0
1
2
3
4
5
6
7
8
9
1200
Temp before coil
(T after HRW ):
900
900
Air flow (m 3/h)
800
Air flow (m 3/h)
800
1000
1000
1100
1100
1200
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
0
10
20
30
500
500
700
700
Air flow (m 3/h)
600
700
900
800
900
Air flow (m 3/h)
1000
900
1000
Air flow (m 3/h)
800
800
Coil pressure drop (— pAIR )
600
Pegasos EDX cooling
600
Pegasos EDX heating
500
40
18
16
14
12
10
8
6
4
2
0
30
27
24
21
18
15
12
9
6
3
0
1000
1100
1100
1200
1200
1100
Heat pump RP-60 (option)
Cooling media R-410A
Coil integrated in AHU 1007286
Heat pump RP-60 (option)
Cooling media R-410A
Coil integrated in AHU 1007286
Pegasos EDX heating
Pegasos EDX - coil heating and cooling capacity (∆T)
1200
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
Pegasos EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
14
0
1
2
3
4
5
6
7
8
9
0
1
2
3
4
5
6
7
8
9
700
800
600
700
800
(m 3/h)
1000
Air flow
900
1000
Air flow (m 3/h)
900
Pegasos XL EDX cooling
600
Pegasos XL EDX heating
Heat pump RP-60
Cooling media R-410A
Duct mounted coil 1007521
1100
1100
1200
1200
1300
1300
Pegasos XL EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
700
800
600
700
800
Coil pressure drop (∆ pAIR)
600
35
30
25
20
15
10
5
0
800
Pegasos XL EDX cooling
700
Pegasos XL EDX heating
600
18
16
14
12
10
8
6
4
2
0
0
5
10
15
20
25
Heat pump RP-60
Cooling media R-410A
Duct mounted coil 1007521
1000
Air flow (m 3/h)
900
(m 3/h)
1000
Air flow (m 3/h)
1000
Air flow
900
900
1100
1100
1100
1200
1200
1300
1300
1300
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
1200
Pegasos XL EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
Enervent® EDX EN 2011_1
15
600
700
800
900
1000
1100
1200
1300
800
900
1000
0
1
2
Air flow
(m 3/h)
1100
1200
1300
24°C
4
700
26°C
5
3
28°C
6
50% RH, HRW off
Temp before coil
(Tambient):
30°C
600
Pegasos XL EDX cooling
7
8
9
10
0
1
2
Air flow (m 3/h)
20°C
4
3
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
5
6
7
8
9
10
Pegasos XL EDX heating
Heat pump RP-71 (option)
Cooling media R-410A
Duct mounted coil 1007521
Pegasos XL EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
18
16
14
12
10
8
6
4
2
0
35
30
25
20
15
10
5
0
700
800
800
600
700
800
1000
1000
1100
Air flow (m 3/h)
1000
Air flow (m 3/h)
1200
1200
1100
1100
Air flow (m 3/h)
900
900
900
Coil pressure drop (∆ pAIR)
700
Pegasos XL EDX cooling
600
600
0
5
10
15
20
25
Pegasos XL EDX heating
Heat pump RP-71 (option)
Cooling media R-410A
Duct mounted coil 1007521
1200
1300
1300
1300
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
RH 50%):
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
Pegasos XL EDX - coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
16
0,0
0,5
1,0
1,5
2,0
2,5
3,0
220
240
260
220
240
260
LTR-3 EDX cooling
200
200
0,0
0,5
1,0
1,5
2,0
2,5
3,0
LTR-3 EDX heating
Heat pump RP-35
Cooling media R-410A
Duct mounted coil 1007182
300
300
Air flow (m 3/h)
280
Air flow (m 3/h)
280
320
320
340
340
LTR-3 EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
360
360
380
380
22 °C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
240
240
260
260
220
240
260
Coil pressure drop (∆ pAIR)
220
LTR-3 EDX cooling
220
LTR-3 EDX heating
200
200
200
16
14
12
10
8
6
4
2
0
0
2
4
6
8
10
12
14
16
30
27
24
21
18
15
12
9
6
3
0
Heat pump RP-35
Cooling media R-410A
Duct mounted coil 1007182
300
300
320
320
Air flow (m 3/h)
280
Air flow (m 3/h)
280
(m3/h)
300
Air flow
280
320
340
340
LTR-3 EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
pressure drop (Pa)
Enervent® EDX EN 2011_1
17
340
360
360
380
30° C
28° C
26° C
24° C
22° C
Temp
before coil
(Tambient,
50% RH):
TECHNICAL DATA
360
380
380
10° C
15° C
20° C
Temp
before coil
(T after HRW ):
0
1
2
3
4
5
6
400
400
LTR-6 EDX cooling
300
300
0
1
2
3
4
5
6
Temp before coil
(T after HRW):
600
600
(m 3/h)
Air flow (m 3/h)
500
Air flow
500
700
700
22°C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
18
16
14
12
10
8
6
4
2
0
25
20
15
10
5
0
0
5
10
15
20
25
360
400
440
360
400
440
320
360
400
440
560
600
560
600
Air flow (m3/h)
520
Air flow (m3/h)
520
480
520
560
Air flow (m3/h)
480
480
Coil pressure drop (∆ pAIR)
320
LTR-6 EDX cooling
320
LRT-6 EDX heating
600
640
640
640
680
680
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 100711
Duct mounted coil 1007139
Heat pump RP-35
Cooling media R-410A
Coil integrated in AHU 100711
Duct mounted coil 1007139
LTR-6 EDX heating
LTR-6 EDX coil heating and cooling capacity (∆T)
LTR-6 EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
18
680
720
720
720
760
760
760
22°C
24°C
26°C
28°C
30°C
Temp before
coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp before
coil
(T after HRW):
TECHNICAL DATA
0
1
2
3
4
5
6
7
8
600
700
600
700
LTR-7 EDX cooling
500
500
0
1
2
3
4
5
6
7
8
1200
Temp before coil
(T after HRW ):
900
900
Air flow (m 3/h)
800
Air flow (m 3/h)
800
1000
1000
1100
1100
1200
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
0
10
20
30
500
500
700
700
600
700
1000
900
Air flow (m 3/h)
800
Air flow (m 3/h)
900
900
1000
Air flow (m 3/h)
800
800
Coil pressure drop (∆ pAIR)
600
LTR-7 EDX cooling
600
LTR-7 EDX heating
500
40
0
5
10
15
20
30
27
24
21
18
15
12
9
6
3
0
1000
1100
1100
Heat pump RP-50
Cooling media R-410A
Duct mounted coil 1007286
Heat pump RP-50
Cooling media R-410A
Duct mounted coil 1007286
LTR-7 EDX heating
LTR-7 EDX coil heating and cooling capacity (∆T)
LTR-7 EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
Enervent® EDX EN 2011_1
19
1200
24°C
26°C
28°C
30°C
Temp before
coil
(Tambient,
50% RH):
TECHNICAL DATA
1100
1200
1200
20°C
15°C
10°C
Temp before
coil
(T after HRW ):
0
1
2
3
4
5
6
7
8
600
700
600
700
LTR-7 EDX cooling
500
500
0
1
2
3
4
5
6
7
8
LTR-7 EDX heating
Heat pump RP-60 (option)
Cooling media R-410A
Duct mounted coil 1007286
900
900
Air flow (m 3/h)
800
Air flow (m 3/h)
800
1000
1000
1100
1100
LTR-7 EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
1200
1200
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
0
10
20
600
700
500
600
700
1000
800
900
Air flow (m 3/h)
Air flow (m 3/h)
900
900
1000
Air flow (m 3/h)
800
800
Coil pressure drop (∆ p AIR)
500
30
700
LTR-7 EDX cooling
600
LTR-7 EDX heating
500
40
18
16
14
12
10
8
6
4
2
0
30
27
24
21
18
15
12
9
6
3
0
Heat pump RP-60 (option)
Cooling media R-410A
Duct mounted coil 1007286
1000
1100
1100
LTR-7 EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
20
1100
1200
1200
1200
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
600
700
800
900
1000
1100
1200
1300
0
1
2
3
4
5
6
7
8
9
0
1
2
600
700
800
LTR-7 XL EDX cooling
900
Air flow (m 3/h)
1000
Air flow (m 3/h)
1100
1200
1300
4
3
15°C
24°C
26°C
28°C
30°C
50% RH, HRW off
Temp before coil
(Tambient):
20°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
5
6
7
8
9
LTR-7 XL EDX heating
Heat pump RP-60
Cooling media R-410A
Duct mounted coil 1007521
LTR-7 XL EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
(kW)
Cooling total capacity, max.
(kW)
18
16
14
12
10
8
6
4
2
0
35
30
25
20
15
10
5
0
800
800
600
700
800
Coil pressure drop (∆ pAIR)
700
LTR-7 XL EDX cooling
700
LTR-7 XL EDX heating
600
600
0
5
10
15
20
25
Heat pump RP-60
Cooling media R-410A
Duct mounted coil 1007521
900
1000
Air flow
(m 3/h)
1000
Air flow (m 3/h)
1000
Air flow (m 3/h)
900
900
1100
1100
1100
1200
1200
1300
1300
1300
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
50% RH):
20°C
15°C
10°C
Temp before
coil
(T after HRW ):
TECHNICAL DATA
1200
LTR-7 XL EDX - coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
Enervent® EDX EN 2011_1
21
700
800
1000
1100
1200
1300
1300
1400
50% RH, HRW off
Temp before coil
(Tambient):
0
1
2
3
4
Air flow (m 3/h)
24°C
26°C
28°C
800
1200
30°C
700
1100
(m3/h)
5
600
1000
Air flow
900
900
LTR-7 XL EDX cooling
600
20°C
15°C
10°C
@HRW on.
Equal supply and
extract air flow.
Temp before coil
(T after HRW ):
6
7
8
9
0
1
2
3
4
5
6
7
8
9
LTR-7 XL EDX heating
Heat pump RP-71 (option)
Cooling media R-410A
Duct mounted coil 1007521
LTR-7 XL EDX coil heating and cooling capacity (kW)
Heating total capacity, max.
( kW)
Cooling total capacity, max.
(kW)
35
30
25
20
15
10
5
0
700
800
800
600
700
800
Coil pressure drop (∆ pAIR)
700
LTR-7 XL EDX cooling
600
LTR-7 XL EDX heating
600
18
16
14
12
10
8
6
4
2
0
0
5
10
15
20
25
Heat pump RP-71 (option)
Cooling media R-410A
Duct mounted coil 1007521
1000
1100
1100
1100
Air flow (m 3/h)
900
Air flow (m 3/h)
1000
(m 3/h)
1000
Air flow
900
900
1300
1300
1200
1200
1200
LTR-7 XL EDX coil heating and cooling capacity (∆T)
∆T (°C)
∆T (°C)
Pressure drop (Pa)
22
1300
24°C
26°C
28°C
30°C
Temp
before coil
(Tambient,
RH 50%):
20°C
15°C
10°C
Temp
before coil
(T after HRW ):
TECHNICAL DATA
11
Enervent® EDX EN 2011_1
ADJUSTMENT
CONTROL
MEASURING
STATUS
ALARM
No
Muutos
FEED
SAFETY
SWITCH
UNIT CENTRAL
EDA
12
FG
1
M
1
ES
FG
39
M
39
= CABLING AND CONNECTION AT SITE (EE)
= PROGRAM FUNCTION
= PHYSICAL CONNECTION
SU
1
TE
32
TE
01
EF
M
30
SC
30
ES
13
Pvm
FEED
SAFETY
SWITCH
HRW
75
+
-
M
75
SC
75
ES
TH2
CONTROL
SF
+
SA
Hyv
EDA Control
ECO fans
Tark
FEED
Piirt
MW
TH1
SU
30
SA
CX/LA COIL BUILT INTO UNIT
PANDION, PELICAN, LTR-6,
LTR-7 AND PEGASOS MODE
TE
30
%RH
30
16
OUTSIDE UNIT
TH5
M
10
CX/LA
SC
10
ES
15
SAFETY
SWITCH
(PE)
Muutt
TE
05
14
TH5
TH2
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
Hyv
TH1
Nimitys
CONTROL
CX/LA COIL IN THE DUCT
PINGVIN, LTR-3
MODELS
OUTSIDE UNIT
(PE)
+
CX/LA
17
EDX
EHC
ECO EDX-E
CONTROL CHART
File
FEED
SAFETY
SWITCH
+
TZA+ TZ+
45
45
BMS (Building
Management System)
18
SIVU
01
WIRING DIAGRAM eco EDX-E
WIRING DIAGRAMS
Muutos Lehti
A
1
Paino kg
Pvm
12.03.2010
TE
10
TE
20
OP
19
WIRING DIAGRAMS
23
24VDC
24VAC
F1
F2
F3
N
X0
N
N
N
L
L
L
DOORSWITCH
LTR-3, LTR-6
AND LTR-7 MODELS
SF
X9
DI8
DI7
DI6
DI5
DI4
DI3
DI2
DI1
ALM
A
ALM
A
AI6
AI5
AI4
AI3
AI2
AI1
Appr.
EXHAUST FAN MOTOR
EF
X8
+
1
X19
-
2
+
1
EF
SF
0-10V
0-10V
CONTROL CONTROL
-
2
+24V
OUTSIDEAIR- AND
RETURNAIRFILTER AND
HRW
PRESSURE DIFFERENCE
SENSOR (OPTIONAL)
0-10 VDC
GND
DO1
DO2
DO3
DO4
X3
TE10
TE32
X4
SUPPLY
AIR
SENSOR
WASTE
AIR
SENSOR
CONNECTIONS SEE APPENDIX
X5
SI KE VA PU
GND T RH +24V
%RH30
TE30
EXHAUST AIR HUMIDITY
AND TEMPERATURE
SENSOR (INTERNAL)
16
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
Inspected by Approved by
EDA CONTROL
ECO FANS
MW
Drawn by
EDA CONTROL BOARD
15
Name
DO5
X2
TE05
AFTER
HRW
SUPPLY
AIR
SENSOR
17
X1
TE01
ECO EDX
SENSOR TE20
(Accessory)
Change Leaflet
D
1
Page
Weight kg
08.11.2010
Date
SENSOR TE20
(Accessory)
ROOM
TEMPERATURE
OPERATION PANEL
Max. 2 OP Panels with 20m cord
20m RJ4P4C cord
included unconnected
19
ROOM
TEMPERATURE
OPERATION PANEL
(1pc. included unconnected in delivery)
Max. 2 OP Panels with 20m cord
CONNECTION DIAGRAM (EDX)
File
EDX_revD
OUTSIDE
AIR
SENSOR
18
ATTN! SUPPLY AIR SENSOR HAS TO BE MOUNTED
IN THE DUCT AFTER THE ELECTRICAL HEATER.
OP. PANEL
SUPPLY FAN MOTOR
N TF N PF
ALM
B
ALM
B
AO5
AO4
AO3
DI10
DI9
CONNECTIONS SEE APPENDIX
MAIN SWITCH
PINGVIN, PELICAN, PANDION
AND PEGASOS MODELS
L
AO1
GND
GND
GND
GND
GND
PINGVIN, PELICAN, PANDION
AND PEGASOS MODELS
L
X19
SUPPLY
10 A
230 VAC
50 Hz
PE
B1
N
X25
A02
24V
24V
24V
24V
24V
CONNECTIONS SEE APPENDIX
PIN 1 - Outsideairfilter pressure difference sensor (0-10VDC)
PIN 2 - 24VDC
PIN 3 - Returnairfilter pressure difference sensor (0-10VDC)
PIN 4 - GND
PIN 5 - HRW pressure difference sensor (0-10VDC)
PIN 6 - GND
GND
GND
GND
6 5 4 3 2 1
+5V
X6
A01
SPRING/QUICK TERMINAL
AO2
A02
SCREW TERMINAL
R
GND
RJ4P4C
RJ4P4C
14
RJ4P4C
13
AO1
OP PANEL
OP PANEL
RJ4P4C
RJ4P4C
12
RJ4P4C
11
RJ4P4C
24
OP. PANEL
FREEWAY
WIRING DIAGRAMS
INTERNAL CONNECTIONS eco EDX
AO4
GND
EM-269-SPG
HRW-Frequency
Converter
7
8
2
5 10
1
11
HALL
XFM605G-A20
HRW MOTOR
M
DC24V
Max 0.6A
6
12
4
DO4
L
N
HRW ON/OFF
PE
0-10VDC
YeGr
YeGr
YeGr
12
1
Ye
3
Blu
2
Re
Ye
Ye
Re
Re
Ye
9
4
Wh
Blu
N
+V
14
6
Blu
Blu
YeGr
10
Re
5
Bla
7
Gr
Br
Br
Wh
Wh
Br
Bla
Bla
-V
13
8
Or
Gr
Gr
Wh
Bla
Br
Gr
Or
Or
Enervent® EDX EN 2011_1
Or
EDA CONTROL BOARD
DO4
L
Appr.
HRW MOTOR
MW
Drawn by:
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
Inspected by: Appr. by:
Name
EDX_revD
INTERNAL CONNECTIONS
CONNECTION DIAGRAM (EDX)
File
WIRING DIAGRAMS
Change Leaf
D
2
Page
Weight kg
08.11.2010
Date
INTERNAL AND EXTERNAL CONNECTIONS
25
SUPPLY
S1
S1
S2
S2
2
4
6x0.5
DEFROSTING
INDICATOR
7 X4
3
8
3
4
12
5
11
14
0
20
40 60
AO5
0-10VDC
PYR 4
2-STEP UNIT
80
100
TB142
HEATING/
COOLING
3
4
TB62
0-10VDC
4
3
OFF
OFF
OFF
OFF
OFF
OFF
OFF
SW1
ON
Hyv
OFF
OFF
OFF
OFF
OFF
OFF
SW2
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
GND
SUPPLY
22
L2
R1
21
24
SW3
TB61
TH2
Lowest point of
liquid pipe sensor
TH5
Coil pipe temperature
sensor
(Mounted at 2/3 height
of the coil)
3
4
5
6
Inspected by: Appr. by:
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
EDX-MITSUBISHI & ELECTRICAL HEATER
MW/MK
Drawn by:
9
(<500mA)
12
NO
13
TZA+
Overheating alarm
NC
11
14
CONNECTION DIAGRAM (EDX)
EDX_revD
Change Leaf
D
3
Page
Weight kg
08.11.2010
Date
INTERNAL/EXTERNAL CONNECTIONS
Name
File
DUCT ELECTRICAL HEATER
SUPPLY
CV 16-09-1MQXL (900W) 1x10 A, 230 VAC, 3x1.5s
CV 16-12-1MQXL (1200W)1x10 A, 230 VAC, 3x1.5s
CV 20-15-1MQXL (1500W)1x10 A, 230 VAC, 3x1.5s
CV 20-18-1MQXL (1800W)1x10 A, 230 VAC, 3x1.5s
CV 25-30-1MQXL (3000W)1x16 A, 230 VAC, 3x2.5s
CV 25-50-2MQXL (5000W)2x16 A, 400 VAC, 4x2.5s
SAFETYSWITCH
(EE)
PE
8
DUCT ELECTRICAL HEATER
CV xx-xx-xMQXL
10
L1 VEAB
N
= CABELING AND CONNECTIONS AT THE SITE (EE)
TH1
After supply air coil
sensor
1
2
Connect the sensors to the
PAC-IF011/12B-E CONTROLLER (EE).
2x0.5
X1 7
TH1, TH2 and TH5 sensors are
mounted at the factory.
24V
6
PAC-IF011/12B-E CONTROLLER
OPERATING SWITCHES
SUPPLY
1x16 A, 230 VAC, 3x2.5s
1x16 A, 230 VAC, 3x2.5s
1x20 A, 230 VAC, 3x4s
1x20 A, 230 VAC, 3x4s
HEAT PUMP
OUTDOOR UNIT
GND
ATTN! CONNECT G0 (GND) AT THE OUTDOOR UNIT.
R1
PAC-IF011/12B-E CONTROLLER
S3
4x1.5s
S3
ALARM
3 X2
MITSUBISHI PUHZ-RPxx
L1
N
PE
TB6
TB141
HEAT PUMP
COMP 1 - PUHZ-RP35
COMP 2 - PUHZ-RP50
COMP 3 - PUHZ-RP60
COMP 4 - PUHZ-RP71
SAFETY
SWITCH
(EE)
HEAT PUMP
CONTROLLER
EXTERNAL CONNECTIONS
X1 1
1
1
INTERNAL CONNECTIONS
A2
3
A1
2
2
DI7
4
4
GND
5
DI10
5
2
9
6
R1
GND
6
DO5
11
DO5
4
24V
8
10
6
1
1
EDA CONTROL BOARD
COOLING ON/OFF
2
26
2
WIRING DIAGRAMS
INTERNAL/EXTERNAL CONNECTIONS
N
RJ4P4C
RJ4P4C
RJ4P4C
RJ4P4C
RJ4P4C
OP PANEL2
N
Waste Air
Damper Motor
(Accessory)
M
1
L
1
1
Time Controlled
Relay
2
2
MODBUS RTU
FREEWAY
ALM A
AI1
24V
GND
%RH
ALM A
ALM B
Humidity Sensor
(Accessory)
0-10VDC
0-100%
ALM B
AI2
0-10VDC
Alarm A
Output
Appr.
Alarm B
Output
24V
GND
GND
DI1
DI6
DI7
Overpressure
Pushbutton
(Accessory)
NOT IN USE
Kipinätie1, 06150 Porvoo
Tel. 358-(0)207-528800
Fax. 358-(0)207-528844
E-mail: [email protected]
Name
DI9
DI8
Inspected by Approved by
IN USE
EDX
DI5
Cooking hood
Indication
Drawn by
MW/MK
Carbondioxide Sensor
(Accessory)
0-10VDC
0-2000ppm
CO2
AI6
0-10VDC
DI4
GND
DI3
24V
DI2
Carbondioxide Sensor
(Accessory)
0-10VDC
0-2000ppm
CO2
AI5
0-10VDC
Central Vaccum
Cleaner Indication
TE20
(Accessory)
Room Temperature
Sensor
OPERATION PANEL
(Accessory)
TE20
(Accessory)
%RH
0-10VDC
0-100%
Humidity Sensor
(Accessory)
RJ4P4C
1
Room Temperature
Sensor
OPERATION PANEL
1 pcs. Included
20m RJ4P4C cord
included unconnected
EDA Control Board
Outside Air
Damper Motor
(Accessory)
1
1
2
2
1
1
M
1
1
24V
2
2
L
2
GND
0-10VDC
3
Y
2
GND
3
1
1
1
2
2
24V
1
DO2
1
24V
2
2
GND
1
1
24V
2
2
GND
2
2
DO2
3
1
N
3
Y
2
3
Y
1
24V
Enervent® EDX EN 2011_1
2
3
L
3
External
Alarm
(Fire Hazard)
GND
DO1
1
Overtime Pushbutton
(Only In Office Mode)
(Accessory)
3
DO1
Manual Boost
Pushbutton
(Accessory)
Y
EDA Control Board
EDX_revD
UNIT EXTERNAL CONNECTIONS
CONNECTION DIAGRAM (EDX)
File
WIRING DIAGRAMS
Change Leaflet
D
4
Page
Weight kg
22.12.2010
Date
EXTERNAL CONNECTIONS
Emergency Stop
27
WIRING DIAGRAMS
INSTRUCTIONS FOR SETTING PYR4
PYR 4 optimizes the heat pump efficiency in proportion to the air flow. This results in a quit run.
The control signal to the EDX outside unit is proportioned to the air flow with the PYR4 converter, which is found in the ventilation unit connection box (Pingvin and LTR-3 units have an external connection box, the other models have an internal
one). PYR4 is adjusted with the nob on the end of the converter, according to the curves for the outside unit in question,
after achieved air flows have been measured at the building site. The new set value is written down both in the parameter
list in this instruction (” RESTRICTIVE SIGNAL”) and on the sticker on PYR4 (”CHANGED SETTING”).
Example
Pingvin eco EDX-E unit, with a COMP1 outside unit. Measured normal air flow in the house is 75 l/s. According to the adjustment curve the set value for PYR4 is 75 %.
28
PYR4 adjustment curves
WIRING DIAGRAMS
EDX - Signal adjustment according to air flow
PYR4 - Adjustment curve
PYR4 adjustment value
COMP1
PYR4 - adjustment
100,0 %
90,0 %
80,0 %
70,0 %
60,0 %
50,0 %
100
150
200
250
300
350
400
Measured air flow (m 3/h)
170
COMP2
raja
PYR4 adjustment value
COMP2
PYR4 - adjustment
q (l/s)
100,0 %
90,0 %
80,0 %
70,0 %
60,0 %
50,0 %
150
200
250
300
350
400
450
500
60
80
90
100
110
120
130
136
160
550
Measured air flow (m 3/h)
COMP3
raja
PYR4 adjustment value
COMP3
PYR4 - adjustment
q (l/s)
80
100
110
120
130
140
150
160
167
180
100,0 %
90,0 %
80,0 %
70,0 %
60,0 %
50,0 %
200
250
300
350
400
450
500
550
600
650
Measured air flow (m 3/h)
COMP4
raja
PYR4 adjustment value
COMP4
PYR4 - adjustment
q (l/s)
100,0 %
90,0 %
80,0 %
70,0 %
60,0 %
50,0 %
300
400
500
600
Measured air flow (m 3/h)
Enervent Oy, Finland
Enervent® EDX EN 2011_1
700
800
60
80
100
120
140
160
180
200
220
240
7.2.2011
29
DECLARATION OF CONFORMITY
DECLARATION OF CONFORMITY
We declare that our products follow the provisions of low voltage directive (LVD) 2006/95/EEC, electro magnetic compatibility directive (EMC) 2004/108/EEC and machine directive (MD) 98/37/EEC.
Manufacturer: Manufacturer’s contact:
Enervent Oy
Kipinätie 1, 06150 PORVOO FINLAND
phone +358 (0)207 528 800, fax +358 (0)207 528 844
[email protected], www.enervent.fi
Description of the product:
Trade name of the products: Ventilation unit with heat recovery and heat pump
Enervent® Pingvin eco EDX-E
Enervent® Pandion eco EDX-E
Enervent® Pelican eco EDX-E
Enervent® Pegasos eco (XL) EDX-E
Enervent® LTR-3 eco EDX-E
Enervent® LTR-6 eco EDX-E
Enervent® LTR-7 eco (XL) EDX-E
Representatives for the products in the region of the ETA:
Sweden:
Ventener Ab, Örelidsvägen 10, 517 71 OLSFORS, SVERIGE, tel +46 735-62 00 62
Ventilair AB, Ulvsjövägen 68, 79699 ÄLVDALEN, SVERIGE, tel +46 70 326 0759
Climatprodukter AB, Box 366, 184 24 ÅKERSBERGA, SVERIGE, tel +46 8 540 87515
DeliVent Ab, Markvägen 6, 43091 HÖNÖ, SVERIGE, tel +46 70 204 0809
Norway:
Noram Produkter AS, Grini Næringspark 4 A, 1361 ØSTERÅS, NORGE, tel +47 33471245
Denmark:
Covent EMJ, Donsvej 55, 6052 VIUF, DANMARK, tel + 45 7556 1534
Estonia:
As Comfort Ae, Jaama 1, 72712 PAIDE, EESTI, tel +372 38 49 430
Ireland:
Entropic Ltd., Unit 3, Block F, Maynooth Business Campus, Maynooth, Co. Kildare,
IRELAND tel +353 64 34920
Germany:
e4 energietechnik gmbh, Burgunderweg 2, 79232 MARCH, GERMANY,
tel +49 7665 947 25 33
Austria:
Inocal Wärmetechnik Gesselschaft m.b.H, Friedhofstrasse 4, 4020 LINZ, AUSTRIA,
tel +43 732 65 03 910
M-Tec Mittermayr GmbH, 4122 ARNREIT, AUSTRIA,tel +43 7282 7009-0
Poland: Iglotech, ul. Toruńska 41, 82-500 KWIDZYN, POLAND, tel +48 55 279 33 43
The products are in conformity with the following standards
LVD
MD
EMC
EN 60 335-1 (2002) +A1 (2004), +A2 (2006), +A11 (2004), +A12 (2006)
EN ISO 12100-1 + A1 (2009), EN ISO 12100-2 +A1 (2009), EN ISO 14121-1 (2007)
EN 55014-1 (2006), EN 61 000-3-2 (2006) ja EN 61 000-3-3 (1995)
EN 55014-2 (1997)+A1 (2001)
The conformity of each of our manufactured products is taken care according to our quality descriptions.
This product was CE- marked in the year 2010.
Enervent Oy
Tom Palmgren
Technology manager
30
THE PARAMETERS OF EDA CONTROL
ID
MENU
SUB MENU
PARAMETER
FACTORY
SETTING
Normal spd
NOTE
Settings
4x51
Supply fan
3 (30)
4x52
Fan speed
Exhaust fan
3 (30)
4x641
Ulkol.max
-10,0°C
Only PRO series units
Ulkol.min
-0,1°C
Only PRO series units
Supply fan
6 (80)
4x55
Exhaust fan
5 (60)
4x57
OP t
10 min
CH Sply
6 (80)
4x59
CH Exhst
5 (60)
4x60
CVC Sply
6 (80)
4x61
CVC Exhst
5 (60)
4x62
COC Sply
7 (90)
4x63
COC Exhst
5 (60)
4x64
OCC Sply
8 (100)
4x65
OCC Exhst
5 (60)
4x642
4x54
Over pressure
4x58
Stove+CeVaCl+Overpr
1x23
YYY (Constant pressure)
Const. ductpr.
4x645
CDPC EC P-a
2500 Pa
4x646
CDPC EC I-t
5s
4x647
CDPC EC R-t
5s
4x648
CDPC EC Dz
2 Pa
4x649
CDPC AC Delay
20 s
4x650
CDPC AC Dz
10 Pa
4x637
???
## Pa
4x638
???
## Pa
4x633
??? Max
0 Pa
4x635
??? Min
200 Pa
4x634
??? Max
0 Pa
4x636
??? Min
200 Pa
4x544
TV
600 s
4x545
PV
600 s
4x632
???
10 Pa
Supply / Exhaust / Room
measrmn
##°C
4x8
Sply msrmnt
##°C
4x136
Temp ctrl mde
Exhst
4x135
Setpoint
##°C
4x140
Min
13,0°C
4x141
Max
40,0°C
1x56
OP 1
√
1x57
OP 2
1x58
OP 3
1x59
OP 4
1x60
OP 5
1x61
Temp.trans 1
1x62
Temp.trans 2
4x10
Temperatures
1x63
Temp.trans 3
Boosting
functions
4x66
Boosting settings
Man. boost
4x67
1x17
Humidity boost
Boost time
30 min
Fanspd
7 (90)
Function
Fixed limit
4x69
Humidity limit
50 %
4x74
Max ventltn
8 (100)
4x71
RH P-band
20 %
4x73
RH I-time
1 min
Depends on temeprature regulation
mode
Exhaust control factory setting if the
unit is equipped with cooling
FIELD SETTING
4x75
RH DZ
3%
4x72
Reset t
2 min
CO2 limit
1000 ppm
4x77
Max ventltn
8 (100)
4x78
CO2 P-band
200 ppm
4x80
CO2 I-time
1 min
4x81
CO2 DZ
50 ppm
4x79
Reset t
1 min
Msrment
Exhaust temp
4x83
Max ventltn
8 (100)
4x84
T P-band
5,0°C
4x86
T I-time
1 min
4x87
T DZ
0,5°C
4x85
Reset t
2 min
4x76
CO2 boost
4x82
Temp. boost
4x88
P-band
5,0°C
4x90
I-time
1 min
4x91
Neutral zone
0,5°C
4x89
Reset t
2 min
1x9
Limit function
Boosting
functions
Humidity
1x8
Carbn dioxide
1x11
4x100
Temp. boost
Situation
controls
Fanspd
2 (30)
4x101
Temp. drop
2,0°C
1x18
Heat
√
1x19
Cooling
√
4x102
Away
Fanspd
1 (20)
4x103
Long away
Temp. drop
3,0°C
1x20
Heat
1x21
Cooling
1x55
HRC
HR antifreez
4x170
HRC t
-5,0°C
4x168
HRC defr
30 Pa
4x169
HRC delay
12 min
1x64
Over pressure
√
1x65
Quick choice
Boosting
√
1x66
Away
√
1x67
Long away
√
1x68
Max heat
√
1x69
Night cooling
√
1x70
Fanspd settngs
√
1x71
Temperature ctrl
√
4x140 4x141
Min-max
15°C - 30°C
Display settngs
Backgrnd light on
Backgnd light 60 s
√
Snight out li
10,0°C
4x94
Snight start
25,0°C
4x95
Snight stop
21,0°C
4x96
Snight dif
1,0°C
4x92
Snight Fanspd
6 (80)
1x15
Cool off
√
4x98
Star
22
4x99
Off
7
4x93
Night cooling
4x97
4x640
Su Mo Tu We Th
Fr Sa
XXX (=General
settings)
Modbus addr.
1
4x199
Drive mode
HOME
1x54
Heat
√
1x52
Cooling
√
1x53
HRC
√
PYR4
Restrictive signal
100 %
To be defined on order
To be adjusted when the unit is
installed (see PYR4 instruction)

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