Specifi cation data Topvex

Specification data www.systemair.com

Topvex Rotating or Cross flow heat exchanger

Topvex

It could not be easier! Topvex are delivered pre-programmed, tested and ready for installation. Connect the Topvex unit to the duct system, connect any external components, connect the main supply, set the time and date, adjust the week scheduler, temperatures, airflows and the unit is installed. It could not be easier!

2

EC fan motors – low energy use and low noise Unlike AC motors with frequency converters, the EC motors operate with high efficiency even at low RPM (see the diagram). This contributes to good energy saving performance. The EC motors are also very quiet at both high and low RPM.

Easy inspection To facilitate inspection and maintenance, both fans and the rotating/crossflow heat exchanger are removable. SR07 E, 09 E and 11 E have a fi xed heat excanger. All power cables have quick release couplings – the fans and heat exchanger can be released easily.

EC Drives High efficiency even at reduced speed Efficiency (%)

Topvex SR,TR, SX and TX is a series of efficient ventilation units designed for offices, shops, schools, daycare centres or similar premises.The units are especially designed to meet the coming energy requirements and have therefore a very low energy use. To simplify the installation and commissioning the units are included with control system and pre-configured.

Speed (min-1)

Easy electrical connections and service All electrical connections are done at the same terminal block, with clear markings.

General Topvex units are delivered enclosed in plastic and mounted on pallets. The units are fully connected internally. The automatic control system is preset and has been test-run at the factory. Any cables to external components should be connected to terminals in the connection space. The same applies to valve actuators for heating coils. Measurement at Systemair's Development Centre Topvex are measured and tested at Systemair's Development Centre. The air volume is measured in accordance with AMCA 210-99 ”Laboratory methods of testing fans for rating”. Sound is measured in accordance with AMCA 300-96 ”Test Code for Sound Rating”.

Topvex TX06 EL

Unit housing The unit's casing is made up from double-skinned 1.0 mm aluzinc sheet metal, AZ 185, with 50 mm of internal insulation. To avoid sharp edges bevelled corners from cast aluminium are used. Topvex stands on fi xed sections that raise the units about 100-130 mm above

the floor. Topvex has large front doors that have lockable handles and removable hinges. A separate safety switch is included. The control panel is connected with 10 m cable (included).

Topvex TR09-15 EL

Topvex SR04-06 EL

3

De-icing function – TX/SX Ice accretion of the heat exchanger is depending on the outdoor temperature and the humidity in the extract air. The humidity in the extract air is varying a lot depending on the activities in the building e.g. an industry premises is normally producing much less humidity than a day-care centre. Therefore has the aggressiveness of the de-icing function been made settable (1-5) so that it can be optimized to different applications.

Heating coil – water

Topvex SX06 EL

Components Fans Topvex has effective plug-fans with maintenance-free external rotormotors. The fans have been selected to provide optimal operation in respect of air volume, sound level and efficiency. The units have electronically commutated motors, so called EC-motors with very high efficiency. The EC motors are controlled in steps via the control unit. To facilitate maintenance and servicing the fans have quick release connections for the electrical cables. Heat exchanger – Rotating The rotating heat exchanger is nonhygroscopic and belt driven. A spare belt is mounted on the rotor wheel on delivery. The rotor belt is a round plastic belt of the elastic type with high friction. A rotor guard will give an alarm if the rotating heat exchanger stops. The rotor construction with pleated aluminium is optimised in respect of high efficiency and low pressure drop. The rotor have a robust construction witch makes

4

it stable and reliable also after a very long time of operating. At balanced airflows the efficiency is up to 85%. The heat exchanger is removable with quick release connections for the power cables.

Heat exchanger – Crossflow The crossflow heat exchanger is non-hygroscopic. The construction with pleated aluminium is optimised in respect of high efficiency and low pressure drop. At balanced airflow the efficiency is up to 60%. The heat exchanger is removable with quick release connections for the power cables. By-pass damper Topvex TX/SX is equipped with a stepless by-pass damper as standard. The damper is used to by-pass the supply air during warm season(no need of heat recovering) and to de-ice the heat exchanger during cold season (selectable).

The hot water coil is located after the supply air fan. The coil is mounted for easy connection of the water pipes through out the gable of the unit. The material is copper piping with a frame of galvanised sheet steel and aluminium fins. The coil has venting nipples and an immersion sensor as frost guard. If there is a risk of freezing in the hot water coil, the control valve is forced open to prevent freezing. If there is still a risk of freezing, the unit is stopped and the outdoor air damper (accessory) is closed. After a freezing situation, the unit will re-start when the return water temperature is above 7°C and the alarm has been acknowledged. The hot water coils are available in: Low power HWL (all Topvex) High power HWH (Topvex TR/TX/ SR/SX 03-06). Heating coil – electric The heating coil is located after the supply air fan. It has elements of stainless steel. The electric heating coil has two overheating protection one with automatic reset and one with manual reset. When the unit is switched off, through the overheating protections, the built-in clock or the hand/auto switch, the electrical heater is immediately stopped while the fans are kept running during 3 minutes for cooling down the heater. After an overheating situation, the unit will re-start when the overheating protection has been reset and the alarm has been acknowledged.

Filters The units are delivered with bag filters as standard. Both of the filters are placed before the heat exchanger, to keep the exchanger clean. The filters are mounted in guide rails that facilitate insertion and removal for inspection and service. The guide rails are spring mounted and fitted with sealing strips to provide optimal sealing against the filters. Filter class F7 on supply air and F5 on extract air are used as standard. Filter monitoring is done via the built-in timer (Standard controller) or via built in pressure transmitters measuring the filter pressure drop (Advanced controller).

Duct connection Circular connections with rubber sealing, rectangular have flanged connections. Topvex

Rectangular

ø250

TR04

ø315

TR06

250x500

TR09

300x700

TR12

350x800

TR15

350x1000

SR03

ø315

SR04

500x250

SR06

600x300

SR07 E

600x300

SR09 E

600x400

SR11 E

800x400

TX03

ø250

TX04 TX06

ø315 300x500

SX03

F5

F7

Circular

TR03

ø315

SX04

500x250

SX06

600x300

Optional heat exchangers/connections

TR 03, 04, 06, 09, 12, 15

TX 03, 04, 06

SR 03, 04, 06, 07 E, 09 E, 11 E

SX 03, 04, 06

5

Overview Connections & heat exchangers Blue margin = Top connection Green margin = Side connection

= Rotating heat exchanger

= Cross flow heat exchanger Dimensions Top connection Width TR 03 1180 TR 04 1480 TR 06 1700 TR 09 1790 TR 12 1930 TR 15 1930

Height 1373 1423 1452 1825 1935 2175

Depth 750 850 1000 1120 1230 1470

Divisible – – – 1790/2= 895 1930/2= 965 1930/2= 965

Side Connection Width SR 03 1686 SR 04 1660 SR 06 1660 SR 07 1838 SR 09 1838 SR 11 1838

Height 1060 1141 1228 1100 1220 1330

Depth 750 850 1000 1000 1120 1230

Divisible – – – 1838/2-29= 890 1838/2-29= 890 1838/2-29= 890

TX 03 TX 04 TX 06

1373 1423 1452

750 850 800

– – –

SX 03 SX 04 SX 06

1060 1141 1227

750 800 800

– – –

1180 1480 1780

1686 1807 2060

Min/max airflow m3/h 0

1000

2000

3000

4000

5000

6000

7000

TX 03 TX 04 TX 06 TR 03 TR 04 TR 06 TR 09 TR 12 TR 15 0,0

0,2

0

0,4

1000

0,6

2000

0,8

1,0

3000

1,2

4000

1,4

5000

1,6

1,8

2,0 m3/s m3/h 7000

6000

SX 03 SX 04 SX 06 SR 03 SR 04 SR 06 SR 07 SR 09 SR 11 0,0

0,2

0,4

0,6

0,8

1,0

1,2

1,4

1,6

1,8

2,0 m3/s

6

Controls Display The illuminated display has 4 rows of 20 characters each and 20 different languages are available. Arrows are used to simplify the usage. The background illumination is normally switched off, and is activated by pushing one of the buttons. The illumination is then switched off again after a period of inactivity. LEDs The alarm LED is marked with a symbol. The ”write enable” LED is marked with a symbol.

Standard & Advanced control Systemair are using two different controls depending on Air Handling Unit. To facilitate the use of the controllers both controllers have the same menu structure and using the same technical terms. For further information, see page 52-53. Standard, E17S TR03-06 TX03-06 SR03-06 SX03-06

Standard is a controller designed to be easy to handle. This controller is used in the smaller Compact AHU's, up to approx. 2500 m3/h. Advanced is a fully equipped controller designed to cover the most of the market needs. Advanced is used in the larger Compact AHU's, 2500 - 7000 m3/h.

Advanced, E28 TR09-15 SR07-11 E SCP control panel Width = 115 mm Height = 94 mm Depth = 26 mm

Push-Buttons All functions can be set (configured) by using the information in the display and the push-buttons on the controller.

Main difference between Standard and Advanced control: Standard, E17S

Advanced, E28

Using of E-tool, a PC-based commissioning software.

No

Yes

Temperature control

3 control modes

6 control modes

Time controlled airflow

Week timer

Week timer + Holidays + Digital timer channels for e.g. door locks

Fan control

Settable between 0-100% control signal.

CAV, constant air volume or VAV, variable air volume. Outdoor temp. dependent airflow.

Heat exchanger control

Rotating, on/off.

Rotating, step-less.

Demand control

Possible to use external equipment with relay output for increasing airflow one step.

Possible to use external equipment with analogue output for step-less increasing of air flow or relay output.

DX cooling control, (External DX cooler)

Step controller for converting the analogue controls signal to a digital 2-step, binary control necessary (accessory).

Up to 3-step, binary control is standard.

HW/CW Pump control

No

Yes

Filter supervising

Time controlled

Pressure drop controlled

7

Regulations S=standard settings P=possible settings C=choose when ordering O=option

Controller Control Panel

Remote with 10 meter cable

SR03, 04, 06 SX03, 04, 06 SR07 E, 09 E, 11 E TR03, 04, 06 TX03, 04, 06 TR09, 12, 15 Standard, E17S Standard, E17S Advanced, E28 S S S

Repeater

When more than 10 meter between unit and control panel

O

O

O

Commissioning software

E–tool

–

–

O

Temperature control

Extract air

P

P

S

Supply air

S

S

P

Outdoor temperature compensated Supply air

P

P

P

Cascaded Room control

–

–

P

Outdoor temp. dependent switching between Supply/Extract air or Supply/Room control

–

–

P

Air flow control

Week timer, two separate running periods

S

S

S

Fan control

Individual stepless voltage control

S

S

Air flow control, CAV

–

–

Pressure control, VAV

–

–

Outdoor compensated air flow

–

–

S

Cross flow

–

S

–

By–pass damper, stepless

–

S

–

Rotating, on/off

S

–

–

Heat exchanger

Rotating, stepless

–

–

S

Heater

Hotwater

C

C

C

Electrical

C

C

C

Cooler

Cold water coil. 0...10VDC output signal

P

P

P

*P

*P

P

–

–

P

P

P

P

P

P

–

DX cooling. 24VAC (1, 2 or 3-stage binary) output. Free cooling

Wall mounted outdoor sensor and room temp. sensor necessary

Cool recovering Demand ventilation, CO2

2-step, CO2 sensor with a potential free switch. Stepless, CO2 sensor with 0...10VDC output signal.

–

–

P

Heating, 24VAC output signal

–

–

P

Cooling, 24VAC output signal

–

–

P

Duct mounted exhaust temp. sensor necessary.

–

–

P

S

S

S

Changing between Normal run, Reduced run or Off.

S

S

S

Damper control

Outdoor/Exhaust air

S

S

S

Alarm

Alarm messages

S

S

S

High and low priority

–

–

S

Sum alarm, 24VAC output signal

S

S

S

Filter alarm on time (month)

S

S

–

Filter alarm on pressure difference (Pa)

–

–

S

Exoline, Modbus via RS 485

S

S

S

O

O

C

Pump control Exchanger efficiancy Extended running Week schedule

Communication

LON, Exoline via TCP/IP * Step controller SC2/D is necessary. Converts 0...10V signal to relay output.

8

Notes

9

Topvex TR

Topvex TX

TX06 TR09-15

TX03-04 TR06

TR03-04

T – Top connection R – Rotating heat exchanger X – Cross flow heat exchanger Topvex TR/TX is a “Plug and play” air handling unit with a modern design intended for ventilating offices, day-care centres or used as zone ventilation in larger buildings e.g. schools. Top-connection of the air-ducts minimise the “Footprint” of the unit. To meet the new restricted energy requirements with low SFP (Specific Fan Power) Topvex is equipped with EC fan motors. EC-motors consume an average of 30% less energy than AC motors. In some applications, the saving can be 50% or more.

10

Topvex TR is equipped with a high efficiency rotating heat exchanger with an efficiency of up to 85%. Rotating heat exchangers do not need condense water drainage and is therefore very flexible to install. Topvex TX with its crossflow heat exchanger is normally used where it is a requirement that the supply and exhaust air must be kept separated. The units have an efficient deicing function.

Topvex TR/TX units have energy saving functions like: - Week schedule. - Cool recovering to recover the chilliness in the extract air during warm season. If using an external cooling unit. - Demand controlled airflow by using a CO2 /humidity sensor, movement detector etc. - Sum alarm output for central supervision of many units. Central supervision secures that incorrect operating, like dirty filters, detects early.

Explanatory sketch TR/TX Topvex TR03-06

Topvex TR09-15

DEH

DO

DEH WV

OS

WV

WVA

WVA

FPS OT

OT

ET

FGE UC

RC EF

EF ETS HE

HE

SF RM

UC SF EF SS ETS OS OT ET FPS WVA WV HE RM RG DO DEH

FGS

EHS

ET

UC

OS

ETS

SS

SS

FPS

DO

RG

Unit control Supply fan Extract Fan Supply air temp. sensor Extract air temp. sensor Outdoor air temp. sensor Overheating thermostat Emergency thermostat Frost protection temp. sensor Water valve actuator (accessories) Water valve (accessories) Heat exchanger Rotor motor Rotor guard Damper outdoor air (accessories) Damper exhaust air (accessories)

PTE

SF PTS

UC FPS SF WVA EF WV PTS HE PTE RC SS RM ETS FGS OS FGE EHS DO OT DEH ET

RM

Unit control Frost protection temp. sensor Supply fan Water valve actuator (accessory) Extract fan Water valve (accessory) Pressure transmitter supply air fan Heat exchanger Pressure transmitter extract air fan Rotor control Supply air temp. sensor Rotor motor Extract air temp. sensor Filter pressure guard supply air Outdoor air temp. sensor Filter pressure guard extract air Exhaust air temp. sensor Damper outdoor air (accessory) Overheating thermostat Damper exhaust air (accessory) Emergency thermostat

Topvex TX03-06 EF SF SS OS ETS ELH ET OT WHB FPS DB UC DO DEH WVA

Extract fan Supply fan Supply air temp. sensor Outdoor air temp. sensor Extract air temp. sensor Electrical re-heater battery Emergency thermostat Overheating thermostat Water heating battery Frost protection temp. sensor Damper by-pass Unit control Damper outdoor air (accessory) Damper exhaust air (accessory) Water valve actuator (accessory)

11

Performance TR03 Supply

Extract

B B

SFP 3,0

D

SFP 2,5

A

A

SFP 2,0

D

C

SFP 1 ,5 E

F

F

C E

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

81

56

68

77

71

75

72

66

54

B

8V

82

61

72

80

71

75

71

64

52

C

8V

84

61

72

82

71

75

71

65

53

D

6V

74

63

68

69

65

68

63

56

43

E

6V

73

55

67

66

63

68

63

56

43

F

4V

64

57

57

59

54

56

51

41

29

η

Sound power (Lw), dB(A) – Mid-frequency band, Hz Step

Extract Sound power (Lw), dB(A) – Mid-frequency band, Hz Step

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

71

51

64

70

61

55

50

43

33

B

8V

75

51

69

73

59

55

51

43

36

C

8V

72

50

65

70

58

53

48

41

32

D

6V

65

49

64

59

53

49

43

35

27

E

6V

65

45

64

57

52

48

42

34

22

F

4V

58

48

56

50

43

38

31

21

18

Surrounding Sound power (Lw), dB(A) – Mid-frequency band, Hz Step

12

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

61

39

54

60

49

47

47

43

34

B

8V

65

44

58

64

48

47

47

42

34

C

8V

66

44

58

65

47

47

46

42

33

D

6V

56

47

54

50

42

41

39

33

25

E

6V

55

37

53

48

41

40

39

33

23

F

4V

46

39

43

41

32

30

27

19

13

SFP = Specific Fan Power (kW/m3/s) The SFP value stated applies to the complete unit. Thermal efficiency With air ratio 1:1 and air humidity at 50%. Sound data The sound data tables indicate the sound power level LwA, which should not be confused with the sound pressure level.


Extract

B

B A

A

SFP 3,0

SFP 2,5

C C

SFP 2,0

D

D E

E

SF

P

1,5

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

89

65

73

85

82

81

80

77

70

B

6V

80

59

71

74

72

71

72

67

62

C

6V

80

56

68

75

73

72

72

68

62

D

4V

69

53

63

61

60

61

60

55

47

E

4V

70

51

66

65

61

60

59

54

47

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

77

63

67

74

71

65

62

61

49

B

6V

73

54

67

71

63

54

54

51

41

C

6V

77

53

66

76

65

56

54

50

39

D

4V

62

47

61

53

48

43

41

38

27

E

4V

66

47

65

55

50

44

43

42

44



Tot

63

125

250

500

1k

2k

4k

8k 48

A

10V

67

49

60

63

58

54

56

57

B

6V

62

43

57

59

49

44

49

47

40

C

6V

64

40

55

63

50

45

48

47

38

D

4V

52

37

51

42

35

33

36

34

25

E

4V

54

36

53

44

36

34

37

38

41

13


Extract

B B SF

A

P2

D

,5

A

C

SF

D

P2

SF

P1

,5

,0

C

E F

F

E

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

90

62

66

88

81

79

79

74

68

B

7,5V

84

65

70

79

76

76

76

71

65

C

7,5V

83

59

64

79

76

76

75

71

65

D

6V

79

61

71

74

71

71

71

65

59

E

6V

78

56

62

72

73

71

70

65

59

F

4V

68

53

62

60

59

62

59

52

46

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

71

56

63

64

65

63

60

56

48

B

7,5V

72

55

63

70

61

60

60

57

51

C

7,5V

68

53

59

63

61

60

57

53

45

D

6V

70

51

64

67

56

55

55

52

44

E

6V

66

47

56

64

57

55

51

44

35

F

4V

62

46

61

49

45

47

45

39

29


14

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

67

44

53

63

59

59

57

52

45

B

7,5V

65

48

56

62

55

56

55

51

43

C

7,5V

63

42

51

60

55

56

54

49

42

D

6V

61

43

57

57

51

50

50

46

37

E

6V

59

37

48

54

53

50

48

43

35

F

4V

51

34

49

40

39

42

40

32

24



Extract

A

A ,0 P3 SF

C

B

B

2,5 SFP SFP 2,0

C D

D SF P

E F

E

1, 5

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

84

50

65

77

77

79

76

73

66

B

10V

85

50

63

77

79

80

78

75

68

C

6V

75

43

66

65

69

70

69

64

56

D

6V

76

43

60

67

70

71

70

67

56

E

4V

67

39

59

54

56

65

57

51

41

F

4V

66

34

58

55

57

61

60

51

42

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

71

49

65

68

62

61

59

54

54

B

10V

71

49

63

67

64

63

61

53

50

C

6V

68

39

64

65

54

52

51

45

43

D

6V

67

39

60

65

54

53

51

42

38

E

4V

60

34

59

50

42

42

39

33

30

F

4V

60

32

60

49

43

42

39

30

28



Tot

63

125

250

500

1k

2k

4k

8k 53

A

10V

69

47

60

63

62

61

59

55

B

10V

69

48

59

63

64

63

61

55

51

C

6V

63

37

59

57

53

52

51

46

42

D

6V

62

36

54

58

54

53

52

46

39

E

4V

57

33

56

41

41

44

39

34

29

F

4V

55

28

54

41

42

43

40

32

28

15


Extract

A

B

C SF

P2

,5

A B D

SF

P

D

1,

E

SF

5

P

E

C

2, 0

F

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

93

62

69

91

83

82

81

76

68

B

10V

94

62

69

92

85

84

79

71

59

C

7V

86

58

65

83

78

77

77

71

62

D

7V

88

60

65

86

81

78

74

66

54

E

4V

71

49

66

61

64

64

61

53

45

F

4V

71

47

67

62

65

64

59

50

33

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

76

58

70

73

67

66

62

55

53

B

7V

72

52

66

70

60

60

58

54

54

C

7V

72

53

66

69

63

61

57

49

48

D

5,5V

68

47

65

63

54

53

52

46

46

E

4V

65

40

65

49

46

45

43

35

30

F

4V

66

40

65

51

48

46

41

30

23

Surrounding Sound power (Lw), dB(A) – Mid-frequency band, Hz

16

Step

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

77

50

60

76

64

63

62

58

56

B

10V

78

51

60

77

66

65

61

54

50

C

7V

68

47

56

65

60

59

58

53

51

D

7V

69

48

56

66

62

60

57

49

44

E

4V

57

38

56

45

45

45

43

35

29

F

4V

58

36

57

46

47

45

41

31

20



Extract

B B

D A

P SF

D

5 2,

A

1, 5

C

C

0 2,

SF P

P SF

F

F

E

E

------ = 230V 3-fase units

------ = 230V 3-fase units

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

100

63

73

98

87

92

88

85

76

B

8V

93

61

72

85

83

89

86

80

71

C

8V

94

62

71

87

84

90

87

82

73

D

6V

84

55

69

78

75

80

76

72

62

E

6V

85

56

67

78

77

81

77

73

62

F

4V

77

55

76

64

64

67

63

58

49

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

85

59

73

82

76

76

74

61

52

B

8V

82

57

74

80

71

73

69

60

56

C

8V

86

58

72

85

73

73

69

56

48

D

6V

77

53

76

70

63

63

59

53

48

E

6V

77

53

68

75

65

64

61

49

40

F

4V

69

52

68

56

52

50

48

40

35



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

81

52

64

75

73

75

74

61

51

B

8V

77

50

63

70

68

73

69

60

54

C

8V

78

51

63

74

70

72

69

56

47

D

6V

68

45

62

61

60

62

59

52

46

E

6V

69

45

58

62

62

63

61

49

38

F

4V

66

45

65

46

49

49

48

40

32

17

Hot water coil TR An extract air temperature of 21°C and a heat exchanger efficiency of 70% has been used for the calculations below. In practice the heat exchanger efficiency or extract air temperature may be higher, which may give a few degrees higher supply air temperatures than in the below tables.

Topvex TR03 HWL 60/40 70/50 80/60 90/70 1000 1000 1000 1000

Topvex TR04 HWL 60/40 70/50 80/60 90/70 1500 1500 1500 1500

Topvex TR06 HWL 60/40 70/50 80/60 90/70 2000 2000 2000 2000

°C l/s kPa kW

24.2 0.03 3.4 3.22

27.5 0.05 5.64 4.35

24.1 0.05 2.27 4.78

27.5 0.07 3.83 6.53

23.6 0.07 3.58 6.04

26.8 0.09 6.02 8.21

°C l/s kPa kW

22.1 0.04 4.04 3.54

25.5 0.05 6.42 4.67

28.8 0.06 9.18 5.8

22.1 0.06 2.71 5.28

25.5 0.08 4.37 7.03

28.9 0.1 6.31 8.77

21.5 0.07 4.27 6.66

24.7 0.1 6.85 8.83

27.9 0.13 9.83 10.99

°C l/s kPa kW

20.1 0.04 4.73 3.87

23.4 0.05 7.24 5

26.8 0.07 10.1 6.12

20.1 0.06 3.18 5.78

23.5 0.08 4.95 7.53

26.9 0.11 6.96 9.27

19.4 0.08 5.01 7.28

22.6 0.11 7.74 9.45

25.8 0.13 10.84 11.61

29 0.16 14.28 13.76

°C l/s kPa kW

18.1 0.05 5.46 4.19

21.4 0.06 8.12 5.32

24.7 0.07 11.1 6.45

28 0.09 14.35 7.57

18 0.07 3.69 6.27

21.5 0.09 5.55 8.02

24.9 0.11 7,66 9.77

28.3 0.13 9.95 11.5

17.3 0.09 5.8 7.9

20.5 0.12 8.69 10.07

23.7 0.14 11.92 12.23

26.9 0.17 15.48 14.38

°C l/s kPa kW

16 0.05 6.25 4.51

19.4 0.06 9.02 5.65

22.7 0.08 12.11 6.77

26 0.09 15.48 7.89

16 0.08 4.24 6.77

19.5 0.1 6.19 8.52

22.9 0.12 8.37 10.26

26.3 0.14 10.76 12

15.3 0.1 6.66 8.52

18.5 0.12 9.66 10.69

21.6 0.15 13.03 12.85

24.8 0.17 16.7 15

Water temp. Air flow Outdoor air temp. 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -40°C Supply air temp. Water flow Pressure drop Capacity

°C m3/h

Water temp. Airflow Outdoor air temp. 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -40°C Supply air temp. Water flow Pressure drop Capacity

°C m3/h

18

Topvex TR03 HWH 60/30 60/30 60/40 60/40 540 1080 540 1080

Topvex TR04 HWH 60/30 60/30 60/40 60/40 720 1440 720 1440

Topvex TR06 HWH 60/30 60/30 60/40 60/40 1260 2160 1260 2160

°C l/s kPa kW

25.3 0,02 0.28 1.96

24.9 0.03 0.86 3.29

34.6 0.04 1.62 3.69

30.58 0.07 3.69 5.89

30,63 0.03 1.32 3.94

27,69 0.05 3.08 6.43

36,97 0.07 4.68 5.51

32,72 0.11 10.94 8.92

28.1 0.04 0.76 5

25.6 0.06 1.78 8.1

34.6 0.09 3.06 7.4

30.5 0.14 6.93 11.7

°C l/s kPa kW

26.02 0.02 0.47 2.68

23.8 0.04 1.17 4.53

33.61 0.05 1.96 4.11

29.17 0.08 4.45 6.55

29.98 0.04 1.7 4.57

26.53 0.06 3.95 7.41

36.06 0.07 5.58 6.09

31.4 0.12 13.06 9.85

27.4 0.05 1.02 5.9

24.3 0.08 2.33 9.4

33.6 0.1 3.67 8.2

29 0.16 8.32 13

°C l/s kPa kW

25.6 0.03 0.64 3.2

22.53 0.04 1.5 5.24

32.59 0.05 2.32 4.52

27.73 0.09 5.27 7.21

29.24 0.04 2.12 5.19

25.31 0.07 4.9 8.39

35.14 0.08 6.56 6.68

30.07 0.13 15.36 10.79

26.5 0.05 1.3 6.7

22.9 0.09 2.94 10.7

32.5 0.11 4.34 9

27.5 0.17 9.83 14.3

°C l/s kPa kW

24.88 0.03 0.81 3.67

21.21 0.05 1.87 5.93

31.54 0.06 2.71 4.94

26.27 0.1 6.16 7.87

28.43 0.05 2.58 5.8

24.05 0.08 5.94 9.36

34.18 0.09 7.62 7.27

28.71 0.14 17.85 11.74

25.6 0.06 1.61 7.6

21.5 0.1 3.61 12.1

31.4 0.12 5.06 9.8

26 0.19 11.47 15.6

°C l/s kPa kW

24 0.03 0.99 4.13

19.83 0.05 2.27 6.62

30.47 0.07 3.13 5.37

24.79 0.1 7.12 8.54

27.57 0.05 3.07 6.41

22.74 0.08 7.07 10.33

33.2 0.1 8.77 7.87

27.32 0.15 20.53 12.7

24.6 0.07 1.94 8.5

20 0.11 4.34 13.4

30.3 0.13 5.84 10.7

24.5 0.2 13.24 16.8

Hot water coil TR Water temp. Airflow Outdoor air temp 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -40°C Supply air temp. Water flow Pressure drop Capacity

Topvex TR09 HWL 60/40 70/50 80/60 90/70 3240 3240 3240 3240

Topvex TR12 HWL 60/40 70/50 80/60 90/70 4320 4320 4320 4320

Topvex TR15 HWL 60/40 70/50 80/60 90/70 5400 5400 5400 5400

°C l/s kPa kW

28.1 0.17 5.2 14.7

32.6 0.23 8.44 19.6

37 0.29 12.18 24.5

41.4 0.34 16.31 29.3

26.9 0.21 4.47 17.9

31.1 0.28 7.31 24

35.2 0.35 10.58 30.1

39.4 0.43 14.2 36.1

26.7 0.26 3.13 22

30.9 0.35 5.16 29.7

35 0.44 7.51 37.2

39.2 0.53 10.16 44.8

°C l/s kPa kW

26.4 0.19 6.15 16.1

30.8 0.25 9.55 21

35.3 0.3 13.44 25.9

39.7 0.36 17.77 30.7

25.1 0.23 5.29 19.7

29.3 0.3 8.29 25.8

33.4 0.38 11.74 31.8

37.5 0.45 15.52 37.9

24.9 0.28 3.71 24.2

29.1 0.38 5.87 31.9

33.2 0.47 8.33 39.4

37.3 0.56 11.05 47

°C l/s kPa kW

24.7 0.2 7.15 17.6

29.1 0.26 10.75 22.4

33.6 0.32 14.82 27.3

37.9 0.38 19.26 32.1

23.4 0.25 6.17 21.5

27.5 0.32 9.34 27.5

31.6 0.4 12.91 33.6

35.7 0.47 16.82 39.6

23.1 0.31 4.34 26.4

27.3 0.4 6.61 34

31.4 0.49 9.17 41.6

35.5 0.58 12 49.1

°C l/s kPa kW

23 0.22 8.22 19

27.4 0.28 11.99 23.9

31.8 0.34 16.21 28.7

36.2 0.4 20.78 33.5

21.5 0.27 7.09 23.2

25.7 0.34 10.42 29.3

29.8 0.42 14.15 35.3

33.9 0.49 18.19 41.4

21.3 0.34 5 28.6

25.5 0.43 7.39 36.2

29.6 0.52 10.05 43.8

33.7 0.61 12.98 51.3

°C l/s kPa kW

21.3 0.24 9.37 20.4

25.7 0.3 13.32 25.3

30.1 0.35 17.68 30.1

34.5 0.41 22.41 34.9

19.7 0.29 8.09 25

23.9 0.37 11.57 31

28 0.44 15.44 37.1

32.1 0.51 19.62 43.1

19.5 0.36 5.71 30.8

23.7 0.45 8.21 38.4

27.8 0.54 10.99 46

31.9 0.63 13.97 53.5

°C m3/h

Heater battery, electric TR

Outdoor Outdoor

Capacity kW Airflow m3/h 0°C -10°C -20°C -30°C -40°C

Topvex TR12 9 9 9 2500 3100 3700 Supply air temp. °C 26 23 22 23 20 19 20 17 17

0°C >30 -10°C >30 -20°C 29 -30°C 26 -40°C 23

6 3200 20 17

15 2000 0°C -10°C -20°C -30°C -40°C

9 4300 21 18

37 34 31 28 25

21 2500 0°C -10°C -20°C -30°C -40°C

40 37 34 31 28

Topvex TR04 3.99 3.99 3.99 900 1200 1500 Supply air temp.°C 28 25 23 25 22 20 22 19 17 19 16 16

6.3 6.3 500 1000

Outdoor

Outdoor

23 20 17

3.99 600

0°C -10°C -20°C -30°C -40°C

>30 >30 >30 >30 >30

Topvex TR06 6.3 6.3 1500 2000 Supply air temp.°C >30 27 24 >30 24 21 28 21 18 25 18 22

Topvex TR09 15 15 15 2400 2800 3200 Supply air temp. °C 33 31 29 30 28 26 27 25 23 24 22 20 21 19 17

Topvex TR12 21 21 21 3100 3700 4300 Supply air temp. °C 35 32 29 32 29 26 29 26 23 26 23 20 23 20 17

Outdoor

Topvex TR09 6 6 6 2000 2400 2800 Supply air temp. °C 0°C 24 22 21 -10°C 21 19 18 -20°C 18 -30°C -40°C

Capacity kW Airflow m3/h

3 1100

Outdoor

0°C -10°C -20°C -30°C -40°C

Topvex TR03 3 3 3 500 700 900 Supply air temp.°C >30 28 25 30 25 22 27 22 19 24 19 16 21 16

Outdoor

Outdoor

Capacity, kW Airflow, m3/h

Topvex TR15 15 15 15 15 3000 3800 4600 5400 Supply air temp. °C 0°C 30 27 24 23 -10°C 27 24 21 20 -20°C 24 21 18 17 -30°C -40°C

19

43

Dimensions TR

100

B

TR03-04

D

E

A

C

61

A B C D E TR03 1180 1230 750 800 580 TR04 1480 1280 850 1100 680

F G 193 265 209 354

øL

H 195 315

15R (½")

I 260 220

J 295 315

K 127 163

øL 250 315

N 570 715

100

1279

23

73

TR06

114

839 1000

274

114

99

87

250

500

250

99

1321 1700

120

15R (½")

250 825

171

20

61

72,5

A

TR09-15

E

B

E

122

D C M G

M H

M I

J

L

K

F

M

25

150

P

N

15R ½"

O

112

K

32,5

Dimensions TR

TR09 TR12 TR15

A 1790 1930 1930

B C D 1630 1120 810 1740 1230 930 1980 1470 1180

E 895 965 965

F 104 76 76

G 129 104 104

H 123 141 141

I 129 104 104

J 105 105 105

M 300 350 350

N O 165 1030 185 1140 185 1380

P 870 940 940

K L 210 700 215 800 236 1000

21

Technical data TR Voltage Frequency Phase Input power, fan motors Input power, electrical heating battery Fuse Weight Filter, supply air Filter, extract air

V Hz ~ W kW A kg

Voltage Frequency Phase Input power, fan motors Input power, electrical heating battery Fuse Weight Filter, supply air Filter, extract air

V Hz ~ W kW A kg

TR03 EL 400 50 3N 2 x 505 3.0 3x13 225 F7 F5

TR03 HW 230 50 1 2 x 505 – 10 225 F7 F5

TR04 EL 400 50 3N 2 x 1088 3.99 3x13 280 F7 F5

TR04 HW 400 50 3N 2 x 1088 – 3x10 280 F7 F5

TR06 EL 400 50 3N 2 x 1005 6.3 3x16 350 F7 F5

TR06 HW 400 50 3N 2 x 1005 – 3x10 350 F7 F5

TR09 EL 400 50 3N 2 x 1060 6/15 3x16/3x35 505 F7 F5

TR09 HW 400 50 3N 2 x 1060 – 3x10 505 F7 F5

TR12 EL 400 50 3N 2 x 1787 9/21 3x25/3x50 580 F7 F5

TR12 HW 400 50 3N 2 x 1787 – 3x16 580 F7 F5

TR15 EL 400 50 3N 2 x 3380 15 3x35 710 F7 F5

TR15 HW 400 50 3N 2 x 3380 – 3x16 710 F7 F5

Accessories TR03-06 Repeater

1

Topvex TR03

Topvex TR04

Topvex TR06

E0-R230K

E0-R230K

E0-R230K

Shut-off damper

EFD 250

EFD 315

EFD 50-25

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-0,63

STV15-1,0

STV15-1,0

Valve, 3-way

STR15-1,0

STR15-1,6

STR15-1,6

Cooling battery, water

PGK 50-25

PGK 60-30

PGK 60-35

Cooling battery, DX coil

DXRE 50-25

DXRE 60-30

DXRE 60-35

Step controller. DX cooling 2

SC2/D

SC2/D

SC2/D

Plastic housing, step controller IP5

U-EK

U-EK

U-EK

Transformer 230/24 V

PSS48

PSS48

PSS48

Duct sensor

TG-KH/PT1000

TG-KH/PT1000

TG-KH/PT1000

Combi grille

CVVX 250

CVVX 315

CVVX 400

Silencer

LDC 250

LDC 315

LDR 50-25

Timer

T 120

T 120

T 120

Presence detector

IR24-PC

IR24-PC

IR24-PC

CO2 Room sensor (digital 1/0)

CO2RT-DR

CO2RT-DR

CO2RT-DR

Filter F5 (extract air)

BFT TR03 F5

BFT TR04 F5

BFT TR06 F5

Filter F7 (supply air)

BFT TR03 F7

BFT TR04 F7

BFT TR06 F7

1

Used when distance between the unit and control panel is more than 10 meters.

2

(24V). Converts 0...10V signal to relay output.

22

Accessories TR09-15 Topvex TR09

Topvex TR12

Topvex TR15

Repeater 1

E0-R230K

E0-R230K

E0-R230K

E-Tool cable

ETC

ETC

ETC

Shut-off damper

EFD 70-30

EFD 80-35

EFD 100-35

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-2.1

STV15-2.7

STV20-4.2

Valve, 3-way

STR15-2,7

STR20-4,2

STR20-5,6


PGK 70-40

PGK 80-50

PGK 100-50


DXRE 70-40

DXRE 80-50

DXRE 100-50

Duct sensor

TG-KH/PT1000

TG-KH/PT1000

TG-KH/PT1000

Silencer

LDR 70-40

LDR 80-50

LDR 100-50

Timer

T 120

T 120

T 120

Room temp sensor

TG-R5/PT1000

TG-R5/PT1000

TG-R5/PT1000

Outdoor sensor, wall mount

TG-UH7PT1000

TG-UH7PT1000

TG-UH7PT1000

Presence detector

IR24-PC

IR24-PC

IR24-PC


CO2RT-DR

CO2RT-DR

CO2RT-DR

CO2 Room sensor (analog 0...10V DC)

CO2RT

CO2RT

CO2RT

U-tube manometer, filter guard

MFRO

MFRO

MFRO


BFT TR09 F5

BFT TR12 F5

BFT TR15 F5


BFT TR09 F7

BFT TR12 F7

BFT TR15 F7

1


23

Ordering code TR TR 03-06 • Model: TR03, TR04, TR06 • Heating coil: electric = EL, water = HW Available power: TR03 EL: 3kW TR03 HW: HWL - low power, HWH - high power TR04 EL: 4kW TR04 HW: HWL - low power, HWH - high power TR06 EL: 6.3 kW TR04 HW: HWL - low power, HWH - high power • Right or left model (The side were the supply air is located when viewed from access side)

TR 09-15 • Model: TR09, TR12, TR15 • Heating coil: electric = EL, water = HW Available power: TR09 EL: 6kW alt. 15kW TR09 HW: HWL - low power TR12 EL: 9kW alt. 21kW TR12 HW: HWL - low power TR15 EL: 15kW TR15 HW: HWL - low power • Right or left model (The side were the supply air is located when viewed from access side) • CAV or VAV airflow controlling (CAV= Constant Air Volume, VAV= Variable Air Volume) • Communication to BMS systems LON Exoline/Built-in Web via TCP/IP

24

Performance TX03 Supply

Extract

A

A

C C

SF

P2

E

,5

B

D SF

P

F

D

SF

P

1,

5

B

E

2,

0

F

Supply

A

Tot

63

125

250

500

1k

2k

4k

8k

10V

79

60

70

72

71

74

70

65

56

B

10V

81

60

69

76

73

75

72

66

57

C

6,6V

79

58

69

76

67

70

66

60

50

D

6,6V

78

56

68

75

67

69

65

59

49

E

4,6V

70

55

68

57

59

61

56

49

38

F

4,6V

66

52

62

55

57

60

55

47

35

η


— = With condensation --- = Without condensation


Tot

63

125

250

500

1k

2k

4k

A

10V

72

56

64

69

64

61

60

54

8k 47

B

10V

69

54

61

64

63

60

59

52

45

C

6,6V

67

50

63

62

57

55

51

45

38

D

6,6V

68

49

61

66

56

53

50

44

35

E

4,6V

63

48

63

45

48

46

42

34

26

F

4,6V

65

45

65

45

47

46

41

32

25

Sound power (Lw), dB(A) – Mid-frequency band, Hz Tot

63

125

Thermal efficiency With outside temperature -15 ºC and extract air temperature 25 ºC. With condensation: 50%Rh. Without condensation: 0%Rh. Sound data The sound data tables indicate the sound power level LwA, which should not be confused with the sound pressure level.

Surrounding Step

SFP = Specific Fan Power (kW/m3/s) The SFP value stated applies to the complete unit.

250

500

1k

2k

4k

8k 44

A

10V

66

43

55

64

54

54

57

50

B

10V

63

42

53

60

53

53

57

49

42

C

6,6V

60

40

55

58

47

48

49

42

35

D

6,6V

60

37

53

58

46

46

48

41

33

E

4,6V

55

38

55

40

38

39

40

31

23

F

4,6V

56

34

55

39

37

38

39

29

22

25


Extract

A

B

B

A C

E F

SF P

5 2,

SF P

P SF

D

C

D

2, 0

E

1, 5

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

85

63

71

80

76

78

78

75

67

B

6,6V

82

60

66

80

71

72

72

68

60

C

6,6V

82

60

65

81

70

71

71

68

59

D

4,5V

70

50

65

63

58

62

62

56

47

E

4,5V

69

49

64

62

59

62

62

56

46

F

2,5V

61

41

47

42

43

47

60

36

26

η




Tot

63

125

250

500

1k

2k

4k

8k

A

10V

70

60

64

62

61

61

59

59

49

B

6,6V

67

62

62

60

54

53

52

51

44

C

6,6V

67

64

62

59

55

54

52

51

41

D

4,5V

60

54

58

50

44

44

42

39

31

E

4,5V

61

52

58

53

44

45

41

39

28

F

2,5V

46

44

39

29

30

37

25

21

22


63

125

250

500

1k

2k

4k

8k

A

10V

63

52

58

58

52

50

52

45

41

B

6,6V

63

48

53

62

48

45

46

38

34

C

6,6V

64

50

52

64

46

44

45

37

33

D

4,5V

53

41

51

45

35

35

36

26

21

E

4,5V

51

39

49

45

35

35

35

25

20

F

2,5V

38

31

34

24

19

20

34

8

8

26


Surrounding Step



Extract

B

A

B

A

P SF 5 2,

C

E

C

D

0 2,

SF P

P SF

D

1, 5

E

F

F

Supply Sound power (Lw), dB(A) – Mid-frequency band, Hz Step

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

85

57

65

83

75

77

76

73

68

B

6V

77

58

70

71

68

70

69

66

59

C

6V

76

51

63

69

69

70

69

66

59

D

4,2V

68

50

65

58

58

61

60

55

48

E

4,2V

68

50

64

59

59

62

60

56

48

F

2,7V

55

44

47

44

47

49

47

35

33



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

74

56

60

72

66

64

62

61

54

B

6V

72

52

65

69

63

61

60

60

53

C

6V

69

49

56

68

60

57

55

53

45

D

4,2V

65

47

63

55

54

53

52

50

43

E

4,2V

62

43

60

50

49

48

46

42

32

F

2,7V

53

44

50

42

42

41

38

34

25


63

125

250

500

1k

2k


Surrounding Step


4k

8k 53

A

10V

70

45

53

68

62

60

61

57

B

6V

66

44

57

62

59

57

58

55

47

C

6V

64

39

49

61

56

54

54

50

44

D

4,2V

58

37

54

49

50

49

50

45

36

E

4,2V

54

35

51

45

46

45

45

39

33

F

2,7V

45

33

41

36

38

37

36

29

20

27

Hot water coil TX Water temp. °C Air flow m3/h Outdoor temp. 0°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C open by-pass Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -20°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -30°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -40°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW

Water temp. °C Air flow m3/h Outdoor temp. 0°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C open by-pass Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -20°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -30°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -40°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW

28

Topvex TX03 HWL 60/40 70/50 80/60 90/70 1080 1080 1080 1080

Topvex TX04 HWL 60/40 70/50 80/60 90/70 1440 1440 1440 1440

Topvex TX06 HWL 60/40 70/50 80/60 90/70 2160 2160 2160 2160

27.0 0.07 3.40 5.6

32.1 0.09 5.40 7.4

37.1 0.11 7.89 9.3

42.1 0.14 10.50 11.1

27.1 0.09 8.10 7.5

31.9 0.12 12.60 9.8

36.6 0.15 17.80 12.1

41.3 0.18 23.70 14.4

24.6 0.11 4.90 9.5

28.8 0.15 7.80 12.5

33.0 0.19 11.20 15.6

37.2 0.23 15.10 18.6

24.6 0.08 4.20 6.4

29.7 0.10 6.40 8.2

34.7 0.12 8.90 10.0

39.7 0.15 11.80 11.8

24.6 0.10 10.00 8.5

29.4 0.13 14.90 10.8

34.1 0.16 20.40 13.7

38.8 0.19 26.70 15.4

21.9 0.13 6.10 10.8

26.1 0.17 9.30 13.8

30.3 0.21 12.90 16.8

34.4 0.24 17.00 19.8

21.3 0.09 5.50 7.4

26.4 0.11 8.00 9.3

31.4 0.14 10.7 11.06

36.4 0.16 13.70 12.9

21.2 0.12 13.00 9.8

25.9 0.15 18.30 12.1

30.6 0.18 24.3 14.39

35.3 0.20 30.90 16.7

18.12 0.15 8 12.51

22.3 0.2 11.5 15.5

26.5 0.2 15.4 18.6

30.6 0.3 19.7 21.6

22.2 0.09 5.20 7.1

27.3 0.11 7.50 9.0

32.3 0.13 10.20 10.8

37.3 0.15 13.20 12.6

22.1 0.11 12.20 9.5

26.9 0.14 17.30 11.8

31.6 0.17 23.20 14.0

36.3 0.20 29.70 16.3

19.2 0.15 7.50 12.0

23.4 0.18 10.80 15.1

27.5 0.22 14.70 18.1

31.6 0.26 19.00 21.1

19.8 0.10 6.20 7.9

24.9 0.12 8.70 9.7

29.9 0.14 11.50 11.5

34.9 0.16 14.60 13.3

19.6 0.13 14.50 10.4

24.4 0.15 19.90 12.7

29.1 0.18 26.10 15.0

33.8 0.21 32.90 17.3

16.4 0.16 8.90 13.3

20.6 0.20 12.50 16.3

24.7 0.24 16.50 19.3

28.9 0.27 21.00 22.3

17.4 0.10 7.30 6.7

22.5 0.13 9.90 10.5

27.4 0.15 12.90 12.3

32.4 0.17 16.10 14.1

17.1 0.14 16.90 11.4

21.8 0.17 22.70 13.7

26.5 0.19 29.10 15.9

31.2 0.22 36.30 18.2

13.6 0.18 10.50 14.6

17.8 0.21 14.30 17.6

21.9 0.25 18.50 20.6

26.1 0.29 23.20 23.6

Topvex TX03 HWH 60/30 60/30 60/40 60/40 540 1080 540 1080

Topvex TX04 HWH 60/30 60/30 60/40 60/40 720 1440 720 1440

Topvex TX06 HWH 60/30 60/30 60/40 60/40 1080 2160 1080 2160

32.55 0.03 0.9 3.81

27.64 0.05 1.8 5.83

41.41 0.07 3.2 5.41

34.39 0.1 6.7 8.28

29.42 0.03 0.6 4.32

26.92 0.06 1.5 7.42

37.75 0.08 2.2 6.33

33.26 0.13 5.4 10.49

31.67 0.06 1.1 7.29

27.72 0.09 2.5 11.72

38.44 0.12 3.7 9.75

33.04 0.19 8.4 15.58

32.68 0.04 1.2 4.64

26.56 0.06 2.5 7.07

41.01 0.07 4 6.15

33.08 0.11 8.5 9.43

29.21 0.04 0.8 5.35

25.66 0.07 0.34 8.99

36.86 0.09 2.8 7.2

31.76 0.14 6.8 11.94

31.09 0.07 1.5 8.71

26.25 0.11 3.4 13.91

37.38 0.13 4.5 10.99

31.33 0.21 10.5 17.6

32.5 0.05 1.8 5.73

24.9 0.07 3.7 8.71

40.42 0.09 5.2 7.17

31.23 0.13 11.2 11.01

28.4 0.05 1.2 6.65

23.76 0.09 3 11.07

35.59 0.1 3.6 8.39

29.65 0.17 8.9 13.91

29.97 0.09 2.1 10.55

24.07 0.14 4.8 16.82

35.85 0.15 5.8 12.68

28.93 0.25 13.6 20.35

32.57 0.04 1.6 5.44

25.37 0.07 3.3 8.27

40.59 0.08 4.9 6.89

31.74 0.13 10.4 10.58

28.65 0.05 1.1 6.3

24.29 0.08 2.7 10.5

35.94 0.1 3.4 8.07

30.23 0.16 8.3 13.37

30.3 0.08 1.9 10.06

24.68 0.13 4.4 16.03

36.28 0.15 5.5 12.22

29.6 0.24 12.7 19.6

32.34 0.05 2 6.21

24.12 0.08 4.2 9.44

40.14 0.09 5.8 7.63

30.39 0.14 12.5 11.72

27.94 0.06 1.4 7.22

22.86 0.1 3.4 11.98

35 0.11 4.1 8.92

28.69 0.18 10 14.8

29.4 0.09 2.4 11.36

23.04 0.15 5.4 18.11

35.15 0.16 6.5 13.44

27.83 0.26 15.1 21.58

32.03 0.06 2.5 6.97

22.83 0.09 5.2 10.61

39.67 0.1 6.9 8.36

29.02 0.16 14.8 12.85

27.14 0.07 1.7 8.1

21.38 0.11 4.2 13.44

34.03 0.12 4.8 9.78

27.12 0.2 11.8 16.22

28.42 0.1 2.9 12.63

21.36 0.16 6.6 20.14

33.99 0.18 7.6 14.65

26.05 0.29 17.7 23.55

Heater battery, electric TX

0°C -10°C -10°C -20°C -30°C -40°C

Topvex TX04 12 12 12 12 1260 1620 1980 2340 Supply air temp. °C >30 >30 29 26 >30 28 25 22 28 22 18 30 24 20 17 25 19 21

16 1440

Outdoor

0°C -10°C -10°C -20°C -30°C -40°C

Topvex TX03 6 6 6 720 1080 1440 Supply air temp. °C >30 >30 28 24 >30 >30 23 19 >30 25 17 >30 27 19 >30 22 >30 18

6 360

Outdoor

Outdoor

Capacity, kW Air flow, m3/h

0°C -10°C -10°C -20°C -30°C -40°C

>30 >30 >30 >30 30 26

Topvex TX06 16 16 16 1980 2520 3060 Supply air temp. °C >30 30 27 30 25 22 24 19 26 21 18 21 17

Dotted frame = open by-pass An extract air temperature of 21°C and a heat exchanger efficiency of 55% has been used for the calculations below. In practice the heat exchanger efficiency or extract air temperature may be higher, which may give a few degrees higher supply air temperatures than in the above tables.

43

Dimensions TX

B

TX03-04

100

D

E C

A

61

TX03 TX04

øL

A 1180 1480

B 1230 1280

C D 750 896 850 1200

E F G 466 193 265 570 209 354

H 195 315

I 260 220

J 295 315

øL N 250 586 315 740

K 127 163

15R (½")

29

70

TX06

1780

1280

30

Dimensions TX

102

520 800 300

116

300

176

300 127

300

66

500

150

96

88

K

36 120 882

186

15R ½"

Technical data TX Voltage Frequency Phase Input power, fan motors Input power, electrical heating battery Fuse Weight Filter, supply air Filter, extract air

30

V Hz ~ W kW A kg

TX03 EL 400V 50 3N 2 x 514 6 3x20 203 F7 F5

TX03 HW 230 50 1 2 x 514 – 13 203 F7 F5

TX04 EL 400 50 3N 2 x 1066 12 3x25 270 F7 F5

TX04 HW 400 50 3N 2 x 1066 – 3x10 270 F7 F5

TX06 EL 400 50 3N 2 x 1084 16 3x32 335 F7 F5

TX06 HW 400 50 3N 2 x 1084 – 3x10 335 F7 F5

Accessories TX03-06 Topvex TX03

Topvex TX04

Topvex TX06

Repeater 1

E0-R230K

E0-R230K

E0-R230K

Shut-off damper

EFD 250

EFD 315

EFD 50-30

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-1.0/0.63

STV15-1.6/1.0

STV15-2.1/1.6

Valve, 3-way

STR15-1.6/1.0

STR15-2.1/1.6

STR15-2.7/2.1


PGK 50-25

PGK 60-30

PGK 60-35


DXRE 50-25

DXRE 60-30

DXRE 60-35

Step controller. DX cooling 2

SC2/D

SC2/D

SC2/D


U-EK

U-EK

U-EK


PSS48

PSS48

PSS48

Duct sensor

TG-KH/PT1000

TG-KH/PT1000

TG-KH/PT1000

Combi grille

CVVX 250

CVVX 315

CVVX 400

Silencer

LDC 250

LDC 315

LDR 50-30

Timer

T 120

T 120

T 120

Presence detector

IR24-PC

IR24-PC

IR24-PC


CO2RT-DR

CO2RT-DR

CO2RT-DR

3

Water-lock

Water-lock

Water-lock


BFT TR03 F5

BFT TX04 F5

BFT TX06 F5


BFT TX03 F7

BFT TX04 F7

BFT TX06 F7

Water-lock

1


2

(24V). Converts 0...10V signal to relay output.

3

When risk of condensation in outdoor air side of heat exchanger

Ordering code TX • Model: TX03, TX04, TX06 • Heating coil: electric = EL, water = HW Available power: TX03 EL: 6kW TX03 HW: HWL - low power, HWH - high power TX04 EL: 12kW TX04 HW: HWL - low power, HWH - high power TX06 EL: 16kW TX06 HW: HWL - low power, HWH - high power • Right or left model (The side were the supply air is located when viewed from access side)

31

SR

SX

SR07-11 E SX04-06

SR04-06

SX03

SR03

S – Side connection R – Rotating heat exchanger X – Cross flow heat exchanger Topvex SR/SX is a “Plug and play” air handling unit with a modern design intended for ventilating offices, day-care centres or used as zone ventilation in larger buildings e.g. schools. To meet the new restricted energy requirements with low SFP (Specific Fan Power) Topvex is equipped with EC fan motors. EC-motors consume an average of 30% less energy than AC motors. In some applications, the saving can be 50% or more. SR 07-11 E has a non-removable rotating heat exchanger.

32

Topvex SR is equipped with a high efficiency rotating heat exchanger with an efficiency of up to 85%. Rotating heat exchangers do not need condense water drainage and is therefore very flexible to install. Topvex SX with its crossflow heat exchanger is normally used where it is a requirement that the supply and exhaust air must be kept separated. The unit have an efficient de-icing function.

Topvex SR/SX units have energy saving functions like: - Week schedule. - Cool recovering to recover the chilliness in the extract air during warm season. If using an external cooling unit. - Demand controlled airflow by using a CO2 /humidity sensor, movement detector etc. - Sum alarm output for central supervision of many units. Central supervision secures that incorrect operating, like dirty filters, detects early.

Explanatory sketch SR/SX SR03-06 DEH ETS

EF UC OS

HE

SS

SF RM RG DO ET OT

FPS

EF RG SF UC SS RM OS HE ETS DO ET DEH OT WVA FPS

Extract fan Rotor guard Supply fan Unit control Supply air temp. sensor Rotor motor Outdoor air temp. sensor Heater exchanger Extract air temp. sensor Damper outdoor air (accessories) Emergency thermostat Damper exhaust air (accessories) Overheating thermostat Water valve actuator (accessories) Frost protection temp. sensor

UC OT SF FPS EF PTS WVA PTE HE SS RC RM ETS FGS OS FGE HT DO ET DEH

Unit control Overheating thermostat (electric heater) Supply fan Frost protection temp. sensor (hot water heater) Extract fan Pressure transmitter supply air fan Water valve actuator (accessory) Pressure transmitter extract air fan Heat exchanger Supply air temp. sensor Rotor control Rotor motor Extract air temp. sensor Filter pressure guard supply air Outdoor air temp. sensor Filter pressure guard extract air Heater Damper outdoor air (accessory) Emergency thermostat (electric heater) Damper exhaust air (accessory)

EF SF SS OS ETS ELH ET OT WHB FPS DB UC HE DO DEH WVA

Extract fan Supply fan Supply air temp. sensor Outdoor air temp. sensor Extract air temp. sensor Electrical re-heater battery Emergency thermostat Overheating thermostat Water heating battery Frost protection temp. sensor Damper by-pass Unit control Heat exchanger Damper outdoor air (accessory) Damper exhaust air (accessory) Water valve actuator (accessory)

WVA

SR07-11 E

RC

HE

RM

SX03-06

33

Performance SR03 Supply

Extract

A

A

0 P 3,

SF

C

SF

P2

,5

C

B

SF

B

P2

SF

,0

P1

E

,5

D

E

D

F

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

78

48

64

76

67

68

67

61

48

B

10V

80

53

64

77

72

72

71

66

55

C

7V

77

52

65

73

68

70

68

62

50

D

7V

76

49

62

73

67

69

67

61

49

E

5V

68

50

62

61

60

62

59

52

39

F

5V

67

47

61

60

59

61

59

51

37

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

74

51

68

71

66

62

56

48

40

B

10V

71

50

64

68

66

60

53

45

34

C

7V

71

50

67

67

60

57

50

43

34

D

7V

69

45

64

66

60

55

48

40

28

E

5V

66

50

65

54

53

49

42

34

25

F

5V

64

45

63

52

52

48

40

31

21


34

Step

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

60

33

53

58

48

48

47

39

34

B

10V

59

34

49

57

49

47

47

40

35

C

7V

57

33

51

54

45

45

44

37

32

D

7V

56

30

49

53

44

43

42

35

29

E

5V

49

33

48

42

37

38

35

27

21

F

5V

48

29

46

40

36

37

34

25

19



Extract

A C

B

C

A

P SF

B

3, 0

D P

SF 5 2,

SF

E

P

SF

F

P

2,

D

E

0

1,

5

F

Supply

A

Tot

63

125

250

500

1k

2k

4k

8k

10V

86

56

67

77

82

80

79

74

66 63

B

8V

84

66

66

79

78

77

76

71

C

6V

80

57

67

75

72

70

74

65

57

D

6V

78

51

64

75

71

69

71

63

55

E

4V

67

45

64

58

59

59

57

51

41

F

4V

66

45

62

57

58

57

57

51

41

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

74

56

66

67

70

67

56

53

45

B

8V

72

55

65

66

68

64

54

51

41

C

6V

68

52

64

63

60

56

50

48

43

D

6V

69

52

62

64

65

58

47

42

31

E

4V

60

44

60

48

46

43

38

33

24

F

4V

61

44

60

49

50

44

35

30

21



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

65

41

52

59

60

58

56

51

47

B

8V

63

45

51

60

56

55

54

48

44

C

6V

60

37

51

56

50

48

51

45

42

D

6V

59

35

49

57

52

49

48

40

36

E

4V

49

28

47

41

36

35

36

30

24

F

4V

49

28

47

41

37

36

35

28

23

35


Extract

A

SF

P2

A

,5

C SF

SF

B

B

P2

,0

C

P1

,5

D D E

E

F F

Supply

A

Tot

63

125

250

500

1k

2k

4k

8k

10V

83

54

61

75

75

77

77

73

67

B

10V

83

53

60

74

76

79

77

73

67

C

6,3V

76

49

57

69

67

71

70

66

59

D

6,3V

77

47

56

71

68

72

70

66

60

E

2,8V

56

41

42

43

48

53

48

40

34

F

2,8V

56

39

42

43

48

53

50

41

35

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

74

50

61

63

72

62

58

52

45

B

6,3V

69

47

62

66

64

54

52

47

41

C

6,3V

69

44

56

60

67

55

52

46

37

D

4,5V

63

39

63

50

51

47

45

37

28

E

4,5V

59

38

56

51

52

47

44

37

27

F

2,8V

48

40

44

41

39

36

31

21

21


36

Step

Tot

63

125

250

500

1k

2k

4k

8k 55

A

10V

66

35

49

57

62

58

58

56

B

6,3V

61

31

48

57

55

51

52

50

47

C

6,3V

61

28

44

54

58

51

52

49

48

D

4,5V

53

24

49

43

43

44

44

40

37

E

4,5V

52

26

46

45

43

44

44

40

37

F

2,8V

39

23

29

32

31

33

31

23

24


Performance SR07 E Supply

Extract

A

A

SFP 2,5

C C

SFP 2 ,0

B B

SF P1 ,5

D E

D

E

F F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

81

54

61

76

73

74

74

72

66

B

10V

83

55

60

75

75

77

76

72

68

C

6V

74

50

59

68

66

68

68

65

57

D

6V

75

48

54

67

67

70

68

65

57

E

4V

64

45

58

50

56

59

58

52

44

F

4V

64

40

56

52

57

59

58

53

44

η



Tot

63

125

250

500

1k

2k

4k

A

10V

74

52

64

72

67

60

60

55

8k 47

B

10V

70

48

59

65

66

60

55

48

40

C

6V

69

49

65

65

59

54

52

45

37

D

6V

65

42

54

62

59

53

48

41

30

E

4V

61

41

60

47

49

44

40

32

21

F

4V

57

37

56

45

49

43

38

29

20



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

67

34

51

64

59

57

59

54

47

B

10V

65

33

49

61

59

58

56

51

46

C

6V

60

30

50

57

52

52

51

46

37

D

6V

59

27

43

55

53

51

48

44

35

E

4V

50

25

47

39

41

42

40

33

23

F

4V

49

21

45

40

42

41

38

32

23

37


Extract

A

A SF P SF P

2, 5

C

C

2, 0

B

B D

D P

SF

E

5 1,

E

F

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

88

55

63

77

80

83

81

77

72

B

10V

88

56

64

78

81

84

82

77

72

C

7V

83

51

59

70

75

78

78

72

66

D

7V

83

52

60

71

76

78

78

72

67

E

4V

68

40

55

55

61

64

62

56

48

F

4V

68

41

56

55

61

64

62

57

48

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

75

51

63

70

70

65

61

56

48

B

10V

75

53

64

72

70

66

61

56

46

C

7V

74

49

60

72

66

61

57

52

44

D

7V

76

51

60

75

66

61

57

51

43

E

4V

60

36

59

50

51

48

45

37

25

F

4V

61

36

60

49

52

48

44

37

24


38

Tot

63

125

250

500

1k

2k

4k

8k 61

A

10V

71

37

57

67

63

64

63

60

B

10V

72

38

57

68

63

64

63

60

61

C

7V

66

33

53

61

58

59

59

55

55

D

7V

67

35

54

63

58

59

59

55

56

E

4V

54

22

51

45

44

46

45

40

37

F

4V

55

22

52

44

44

46

45

40

37



Extract

A A

C C

B B

D

2,0

P SF

E

1,5

E

,5 P2 SF

P SF

D

F

F

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

93

51

64

87

84

87

85

81

76

B

6,5V

86

46

60

77

78

82

80

76

71

C

5V

78

46

62

64

70

74

72

67

61

D

5V

79

41

57

64

71

75

73

69

62

E

2,5V

61

40

43

46

55

58

54

45

36

F

2,5V

61

35

40

45

54

58

55

45

36

η



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

77

55

65

74

72

69

66

61

53

B

6,5V

74

52

62

71

69

64

61

56

48

C

5V

73

48

71

65

61

57

56

53

45

D

5V

70

46

63

67

62

57

55

49

39

E

2,5V

52

46

45

40

45

43

38

27

19

F

2,5V

51

41

45

41

45

43

39

25

19



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

70

41

57

66

60

62

62

57

50

B

6,5V

65

38

54

61

54

57

56

52

45

C

5V

61

36

59

50

47

49

49

43

35

D

5V

58

32

52

51

47

50

49

44

36

E

2,5V

40

32

36

29

31

33

30

21

11

F

2,5V

39

25

34

28

30

33

31

22

11

39

Hot water coil SR03-06 An extract air temperature of 21°C and a heat exchanger efficiency of 70% has been used for the calculations below. In practice the heat exchanger efficiency or extract air temperature may be higher, which may give a few degrees higher supply air temperatures than in the following tables.

Topvex SR03 HWL 60/40 70/50 80/60 90/70 1080 1080 1080 1080

Topvex SR04 HWL 60/40 70/50 80/60 90/70 1440 1440 1440 1440

Topvex SR06 HWL 60/40 70/50 80/60 90/70 2160 2160 2160 2160

°C l/s kPa kW

23.7 0.04 1.15 3.3

27.2 0.06 2.00 4.6

30.7 0.07 2.99 5.9

34.05 0.09 4.12 7.14

24.0 0.06 2.37 4.6

27.4 0.08 3.97 6.2

30.7 0.10 5.86 7.9

34.04 0.12 8.01 9.51

23.6 0.08 2.16 6.6

26.9 0.11 3.67 9.0

30.2 0.14 5.45 11.4

33.41 0.17 7.5 13.8

°C l/s kPa kW

21.7 0.04 1.38 3.7

25.2 0.06 2.27 5.0

28.6 0.08 3.30 6.2

32.01 0.09 4.47 7.47

21.9 0.06 2.80 5.0

25.3 0.08 4.49 6.7

28.7 0.10 6.45 8.3

31.98 0.12 8.68 9.95

21.5 0.09 2.57 7.2

24.9 0.12 4.16 9.7

28.1 0.15 6.01 12.1

31.32 0.18 8.13 14.43

°C l/s kPa kW

19.6 0.05 1.62 4.0

23.2 0.06 2.55 5.3

26.6 0.08 3.62 6.6

29.96 0.1 4.82 7.8

19.9 0.07 3.27 5.5

23.3 0.09 5.04 7.1

26.6 0.11 7.07 8.8

29.92 0.13 9.37 10.38

19.5 0.10 3.00 7.9

22.8 0.13 4.67 10.3

26.0 0.15 6.60 12.7

29.23 0.18 8.78 15.06

°C l/s kPa kW

17.6 0.05 1.88 4.4

21.1 0.07 2.85 5.6

24.5 0.08 3.96 6.9

27.91 0.1 5.2 8.13

17.9 0.07 3.76 5.9

21.2 0.09 5.61 7.6

24.5 0.11 7.71 9.2

27.85 0.13 10.08 10.81

17.4 0.10 3.46 8.6

20.7 0.13 5.20 11.0

23.9 0.16 7.20 13.3

27.13 0.19 9.45 15.69

°C l/s kPa kW

15.6 0.06 2.14 4.7

19.1 0.07 3.16 6.0

22.5 0.09 4.30 7.2

25.84 0.1 15.58 8.45

15.8 0.08 4.27 6.4

19.2 0.10 6.20 8.0

22.5 0.12 8.38 9.6

25.77 0.14 10.81 11.23

15.3 0.11 3.94 9.2

18.6 0.14 5.76 11.6

21.8 0.17 3.83 14.0

25.03 0.2 10.14 16.31

Water temp. Air flow Outdoor air temp. 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp. -40°C Supply air temp. Water flow Pressure drop Capacity

°C m3/h

Water temp. Air flow Outdoor temp. 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor temp. -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor temp. -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor temp. -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor temp. -40°C Supply air temp. Water flow Pressure drop Capacity

°C m3/h

40

Topvex SR03 HWH 60/30 60/30 60/40 60/40 540 1080 540 1080

Topvex SR04 HWH 60/30 60/30 60/40 60/40 720 1440 720 1440

Topvex SR06 HWH 60/30 60/30 60/40 60/40 1080 2160 1080 2160

°C l/s kPa kW

32.0 0.03 1.01 3.2

29.2 0.04 2.48 5.4

38.9 0.05 3.58 4.5

34.8 0.09 8.69 7.5

32.9 0.04 2.15 4.5

29.8 0.06 5.15 7.5

39.2 0.07 7.13 6.1

34.9 0.12 17.29 10.0

32.4 0.05 1.90 6.6

29.3 0.09 4.54 10.8

32.4 0.05 1.90 6.6

29.3 0.09 4.54 10.8

°C l/s kPa kW

31.6 0.03 1.31 3.7

28.3 0.05 3.17 6.2

38.2 0.06 4.27 5.0

33.7 0.10 10.36 8.2

32.4 0.04 2.72 5.2

28.8 0.07 6.52 8.5

38.4 0.08 8.47 6.7

33.8 0.13 20.57 11.0

31.8 0.06 2.42 7.5

28.2 0.10 5.76 12.4

31.8 0.06 2.42 7.5

28.2 0.10 5.76 12.4

°C l/s kPa kW

31.1 0.03 1.64 4.2

27.3 0.06 3.94 7.0

37.5 0.07 5.01 5.5

32.5 0.11 12.17 9.0

31.8 0.05 3.35 5.8

27.7 0.08 8.01 9.6

37.6 0.09 9.93 7.3

32.6 0.15 24.12 12.1

31.2 0.07 2.99 8.5

27.1 0.11 7.11 14.0

31.2 0.07 2.99 8.5

27.1 0.11 7.11 14.0

°C l/s kPa kW

30.5 0.04 1.99 7.7

26.2 0.06 4.77 7.9

36.7 0.07 5.82 5.9

31.3 0.12 14.14 9.8

31.1 0.05 4.04 6.5

26.6 0.09 9.64 10.7

36.8 0.10 11.51 7.9

31.4 0.16 27.97 13.1

30.5 0.08 3.61 9.5

26.0 0.13 8.57 15.5

30.5 0.08 3.61 9.5

26.0 0.13 8.57 15.5

°C l/s kPa kW

29.8 0.04 2.37 5.3

25.1 0.07 5.67 8.7

35.9 0.08 6.69 6.4

30.1 0.13 16.25 10.6

30.4 0.06 4.78 7.1

25.5 0.09 11.42 11.7

36.0 0.10 13.21 8.6

30.2 0.17 32.12 14.2

29.7 0.08 4.28 10.5

24.8 0.14 10.16 17.1

29.7 0.08 4.28 10.5

24.8 0.14 10.16 17.1

Hot water coil SR07-11 E Water temp. Air flow Outdoor air temp 0°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -10°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -20°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -30°C Supply air temp. Water flow Pressure drop Capacity Outdoor air temp -40°C Supply air temp. Water flow Pressure drop Capacity

Topvex SR07 E HWL 60/40 70/50 80/60 90/70 2500 2500 2500 2500

Topvex SR09 E HWL 60/40 70/50 80/60 90/70 3300 3300 3300 3300

Topvex SR11 E HWL 60/40 70/50 80/60 90/70 4000 4000 4000 4000

°C l/s kPa kW

23.4 0.09 2.14 7.2

26.8 0.12 3.78 10.1

30.1 0.16 5.75 12.9

24.2 0.13 5.21 10.5

27.6 0.17 8.85 14.3

24.3 0.15 4.68 12.7

27.7 0.21 8.03 17.5

°C l/s kPa kW

21.3 0.10 2.60 8.0

24.6 0.13 4.37 10.9

27.9 0.17 6.46 13.8

22.1 0.14 6.27 11.6

25.5 0.19 10.17 15.4

28.8 0.23 14.76 19.2

22.2 0.17 5.65 14.2

25.6 0.23 9.24 18.9

29.0 0.29 13.50 23.6

°C l/s kPa kW

19.2 0.11 3.11 8.9

22.5 0.14 5.00 11.8

25.7 0.18 7.21 14.6

28.9 0.21 9.73 17.4

20.0 0.15 7.43 12.8

23.4 0.20 11.59 16.6

26.7 0.25 16.44 20.4

30.0 0.30 21.97 24.2

20.1 0.19 6.71 15.6

23.5 0.25 10.54 20.3

26.9 0.31 15.04 25.0

30.2 0.36 20.17 29.7

°C l/s kPa kW

17.0 0.12 3.66 9.7

20.3 0.15 5.67 12.6

23.5 0.19 8.00 15.5

26.7 0.22 10.64 18.3

17.9 0.17 8.68 13.9

21.2 0.22 13.10 17.8

24.5 0.26 18.21 21.6

27.8 0.31 23.99 25.4

18.0 0.21 7.85 17.0

21.4 0.26 11.93 21.8

24.7 0.32 16.67 26.5

28.0 0.38 22.05 31.2

°C l/s kPa kW

14.9 0.13 4.26 10.6

18.1 0.16 6.39 13.5

21.3 0.20 8.84 16.4

24.5 0.24 11.60 19.2

15.8 0.18 10.02 15.1

19.1 0.23 14.71 18.9

22.3 0.28 20.07 22.8

25.6 0.33 26.12 26.6

15.9 0.22 9.08 18.4

19.2 0.28 13.41 23.2

22.5 0.34 18.39 27.9

25.8 0.40 24.01 32.7

°C m3/h

Heater battery, electric SR03-06

6 1260

Outdoor


>30 >30 >30 >30 >30

0°C -10°C -20°C -30°C -40°C

9 1440

Outdoor


29 26 23 20 17

0°C -10°C -20°C -30°C -40°C

33 30 27 24 21

Topvex SR04 6 6 6 1620 1980 2340 Supply air temp. °C 26 24 22 23 21 19 20 18 17

Topvex SR06 9 9 9 1980 2520 3060 Supply air temp. °C 28 25 24 25 22 21 22 19 18 19

12 1260

Outdoor

0°C -10°C -20°C -30°C -40°C

Topvex SR03 6 6 6 720 1080 1440 Supply air temp. °C >30 >30 27 >30 28 24 >30 25 21 >30 22 18 28 19

0°C -10°C -20°C -30°C -40°C

>30 >30 >30 >30 >30

16 1440

Outdoor

6 360

Outdoor


0°C -10°C -20°C -30°C -40°C

>30 >30 >30 >30 >30

Topvex SR04 12 12 1620 1980 Supply air temp.°C >30 >30 >30 30 >30 27 28 24 25 21 Topvex SR06 16 16 1980 2520 Supply air temp.°C >30 >30 >30 >30 >30 28 30 25 27 22

12 2340 30 27 24 21 18

16 3060 30 27 24 21 18

41

Heater battery, electric SR07-11 E

Outdoor

4.5 1880 0°C -10°C -20°C -30°C -40°C

Topvex SR11 E Capacity kW Air flow m3/h

6 2400

Outdoor

0°C -10°C -20°C -30°C -40°C

22 19 16

22 19 16

4.5 4.5 4.5 2520 3160 3800 Supply air temp °C 20 19 18 17 16

6 6 3200 4000 Supply °C 20 19 17 16

45 42 39 36 33

15 1880

6 4800 18

0°C -10°C -20°C -30°C -40°C

0°C -10°C -20°C -30°C -40°C

0°C -10°C -20°C -30°C -40°C

12 12 12 12 2400 3200 4000 4800 Supply °C 30 26 24 22 27 23 21 19 24 20 18 16 21 17 18

39 36 33 30 27

12 12 1600 2000 Supply air temp °C 37 33 34 30 31 27 28 24 25 21

12 2400

15 15 2520 3160 Supply air temp °C 33 29 30 26 27 23 24 20 21 17

15 3800

24 2400

Outdoor


22 19 16

12 1200

Outdoor

0°C -10°C -20°C -30°C -40°C

3 3 3 1600 2000 2400 Supply air temp °C 20 19 18 17 16

Outdoor

Outdoor

3 1200

Outdoor


-0°C -10°C -20°C -30°C -40°C

45 42 39 36 33

30 27 24 21 18

27 24 21 18

24 24 24 3200 4000 4800 Supply °C 37 33 30 34 30 27 31 27 24 28 24 21 25 21 18

Dimensions SR 375

SR03

ø315

271

62

106

750

Min space to door 603 mm

42

960

1469

618 100

112

271

315

417

15R ½"

43

1600

43

Dimensions SR 62

G

SR04-06

F

I

H

F

111

H

K

I

J

B

15R ½"

D

E C

A 1600 1600

SR04 SR06

B 1041 1128

30

100

106

C 850 1000

D 1468 1468

E 729 868

30

A

F 175 200

G 500 600

H 171 164

I 250 300

J 200 200

K 355 396


SR07-11 E

A 29

890

29

B

E

K

C

L

D

A

C

D

F

890

15R (½") M

G

SR07 SR09 SR11

A 1000 1120 1230

B 600 600 800

C 300 400 400

D 125 108 135

E 150 104 165

F 200 260 215

G 795 915 1025

K 337 434 487

L 195 195 195

M 145 145 145


43

Technical data SR Voltage/Frequency V/50 Hz Phase ~ Input power, motors W Input power, el heating battery kW Fuse A Weight kg Filter (Supply/extract)

SR03-EL 400 3N 2x508 6 3x20 225 F7/F5

SR03-HW 230 1 2x508 – 16 225 F7/F5

SR07 E EL SR07 E HW Voltage/Frequency V/50Hz 400 400 Phase 3N 3N Input power, motors kW 2x1.03 2x1.03 Input power, heater battery kW 3/12* – Fuse, unit A 3x10 3x10 Fuse, heaters (with seperate power supply) A -/3x20 – Weight kg 320 320 Filter (Supply/extract) F7/F5 F7/F5 * Electric heater (above 6 kW has seperate incoming power supply)

SR04-EL 400 3N 2x1109 6/12 3x16/25 270 F7/F5

SR04-HW 400 3N 2x1109 – 3x10 270 F7/F5

SR06-EL 400 3N 2x1033 9/16 3x20/32 315 F7/F5

SR06-HW 400 3N 2x1033 – 3x10 315 F7/F5

SR09 E EL 400 3N 2x1.90 4.5/15* 3x16/10 -/3x25 365 F7/F5

SR09 E HW 400 3N 2x1.90 – 3x10 – 365 F7/F5

SR11 E EL 400 3N 2x3.07 6/12*/24* 3x20/16/16 -/3x20/35 435 F7/F5

SR11 E HW 400 3N 2x3.07 – 3x16 – 435 F7/F5

Accessories SR03-06 Repeater

1 2

Topvex SR03

Topvex SR04

Topvex SR06

E0-R230K

E0-R230K

E0-R230K

–

ODS SR04

ODS SR06

Shut-off damper

EFD 315

EFD 50-25

EFD 60-30

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-0,63

STV15-1,0

STV15-1,0

Valve, 3-way

STR15-1,0

STR15-1,6

STR15-1,6


PGK 50-25

PGK 60-30

PGK 60-35


DXRE 50-25

DXRE 60-30

DXRE 60-35

Step controller. DX cooling

SC2/D

SC2/D

SC2/D

Outdoor set


U-EK

U-EK

U-EK


PSS48

PSS48

PSS48

Combi grille

CVVX 315

CVVX 400

CVVX 500

Silencer

LDC 315

LDR 50-25

LDR 60-30

Timer

T 120

T 120

T 120

Presence detector

IR24-PC

IR24-PC

IR24-PC


CO2RT-DR

CO2RT-DR

CO2RT-DR


BFRO SR03 F5

BFRO SR04 F5

BFRO SR06 F5


BFRO SR03 F7

BFRO SR04 F7

BFRO SR06 F7

1

Used when distance between the unit and control panel is more than 10 meters

2

Outdoor/Exhaust air hood + Roof

44

Accessories SR07-11E Topvex SR07 E Repeater

1

Topvex SR09 E

Topvex SR11 E

E0-R230K

E0-R230K

E0-R230K

ETC

ETC

ETC

ODS SR07 E

ODS SR09 E

ODS SR11 E

Shut-off damper

EFD 60-30

EFD 60-40

EFD 80-40

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-1.6

STV15-1.6

STV15-2.1

E-Tool cable Outdoor set

2

Valve, 3-way

STR15-2,1

STR15-2,1

STR15-2,7


PGK 70-40

PGK 80-50

PGK 100-50


DXRE 70-40

DXRE 80-50

DXRE 100-50

Silencer

LDR 60-30

LDR 70-40

LDR 80-50

Timer

T 120

T 120

T 120

Room temperature sensor

TG-R5/PT1000

TG-R5/PT1000

TG-R5/PT1000

Outdoor sensor, wall mount

TG-UH/PT1000

TG-UH/PT1000

TG-UH/PT1000

Duct sensor

TG-KH/PT1000

TG-KH/PT1000

TG-KH/PT1000

Presence detector

IR24-PC

IR24-PC

IR24-PC


CO2RT-DR

CO2RT-DR

CO2RT-DR

CO2 Room sensor (analog 0...10V DC)

CO2RT

CO2RT

CO2RT

U-tube manometer, filter guard

MFRO

MFRO

MFRO

Filter F5, Supply or Extract bag filter (2pcs/unit)

BFRO SR07 E F5

BFRO SR09 E F5

BFRO SR11 E F5

Filter F7, Supply or Extract bag filter (2pcs/unit)

BFRO SR07 E F7

BFRO SR09 E F7

BFRO SR11 E F7

1


2

Outdoor/Exhaust air hood + Roof

Ordering code SR SR03-06 • Model: SR03, SR04, SR06 • Heating coil: electric = EL, water = HW Available power: SR03 EL: 6kW SR03 HW: HWL - low power, HWH - high power SR04 EL: 6kW alt. 12kW SR04 HW: HWL - low power, HWH - high power SR 06 EL: 9kW alt. 16kW SR06 HW: HWL - low power, HWH - high power • Right or left model (the side were the supply air is located when viewed from access side) SR07-11 E • Model: SR07 E, SR09 E, SR11 E • Heating coil: electric = EL, water = HWL Available power: SR07 E EL: 3kW alt. 12kW SR07 E HW: HWL - low power SR09 E EL: 4,5kW alt. 15kW SR09 E HW: HWL - low power SR11 E EL: 6kW alt. 12kW or 24kW SR11 E HW: HWL - low power • Right or left model (access side as viewed looking in the direction of the supply air) • Extract duct, top or side connection • CAV or VAV airflow controlling (CAV= Constant Air Volume, VAV= Variable Air Volume) • Communication to BMS systems LON Exoline/Built-in Web via TCP/IP

45

Performance SX03 Supply

Extract

A

A

C

SF P2 ,5

B

SF P2 ,0

SF

P1

E

B

C

,5

E

D

D F

F

Supply

A

Tot

63

125

250

500

1k

2k

4k

8k

10V

82

54

66

79

72

74

72

68

57

B

10V

84

54

63

82

72

73

72

67

57

C

6,5V

73

50

65

66

66

68

65

60

49

D

6,5V

72

49

62

64

66

67

64

59

48

E

4,6V

68

46

66

55

57

59

55

48

37

F

4,6V

66

44

63

56

58

59

56

48

37

η




Tot

63

125

250

500

1k

2k

4k

A

10V

65

41

58

63

52

54

49

46

8k 41

B

10V

64

47

53

62

51

53

50

45

31

C

6,5V

60

46

55

56

46

48

47

47

30

D

6,5V

57

44

53

52

44

46

44

31

23

E

4,6V

54

46

52

42

38

40

44

28

23

F

4,6V

52

40

51

40

36

39

30

21

22


63

125

250

500

1k

2k

4k

8k

A

10V

64

29

53

63

49

49

50

45

42

B

10V

66

31

50

66

48

48

50

44

38

C

6,5V

56

28

51

51

43

44

46

44

32

D

6,5V

53

27

49

48

41

42

43

33

29

E

4,6V

53

27

52

39

34

35

41

26

23

F

4,6V

50

23

49

40

33

34

32

23

23

46


Surrounding Step



Extract

B

B

A

A

C

D

C

P2 SF ,5

P SF P SF

0 2,

E

F

E

5 1,

F

D

Supply Tot

63

125

250

500

1k

2k

4k

8k

A

10V

86

60

67

77

81

80

79

76

69 63

B

6,6V

80

57

66

75

75

73

72

69

C

6,6V

81

55

65

75

76

74

72

69

62

D

4,5V

75

51

61

63

63

70

71

58

50

E

4,5V

71

49

61

62

64

65

65

58

50

F

2,7V

55

44

47

45

48

48

49

42

31

η




Tot

63

125

250

500

1k

2k

4k

8k

A

10V

64

52

59

57

59

56

47

45

42

B

6,6V

63

51

59

57

54

50

45

44

42

C

6,6V

61

49

56

57

52

50

41

37

33

D

4,5V

55

43

54

46

43

42

42

32

28

E

4,5V

57

40

54

52

43

42

40

24

22

F

2,7V

44

41

40

30

30

31

20

18

22


63

125

250

500

1k

2k


Surrounding Step


4k

8k

A

10V

63

38

56

57

57

55

55

51

48

B

6,6V

60

36

55

56

52

49

49

46

45

C

6,6V

60

35

53

56

52

49

48

43

41

D

4,5V

53

30

49

45

40

45

48

35

31

E

4,5V

54

27

51

48

42

41

43

32

29

F

2,7

37

26

33

28

27

28

26

20

22

47


Extract

,5 P2 SF

B

B

A

A

SFP 2,0

D 1,5 SFP

C

D

C

E F

F

E

Supply Sound power (Lw), dB(A) – Mid-frequency band, Hz Step

Tot

63

125

250

500

1k

2k

4k

8k

A

10V

84

54

60

80

74

77

77

74

68

B

7V

79

53

59

70

73

73

72

69

62

C

7V

80

51

58

72

73

74

73

70

64

D

5V

70

49

57

60

63

66

64

60

52

E

5V

71

49

57

60

63

66

64

60

52

F

3V

57

42

47

47

49

53

51

40

33



Tot

63

125

250

500

1k

2k

4k

8k

A

10V

64

39

53

60

58

56

50

52

49

B

7V

62

44

54

57

54

53

49

51

50

C

7V

62

39

50

58

56

53

47

47

43

D

5V

57

39

52

52

46

48

43

45

40

E

5V

57

38

51

53

49

49

42

37

30

F

3V

40

33

32

29

30

36

28

19

22


63

125

250

500

1k

2k

4k

8k 54

A

10V

64

34

48

60

55

56

56

55

B

7V

60

35

48

53

53

52

53

53

51

C

7V

61

32

46

55

54

52

53

51

49

D

5V

54

31

46

46

44

46

45

46

41

E

5V

54

29

45

47

46

47

46

42

39

F

3V

38

24

30

29

29

33

31

22

23

48


Surrounding Step


Hot water coil SX Water temp. °C Air flow m3/h Outdoor temp. 0°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C open by-pass Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -20°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -30°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -40°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW

Water temp. °C Air flow m3/h Outdoor temp. 0°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -10°C open by-pass Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -20°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -30°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Outdoor temp. -40°C Supply air temp. °C Water flow l/s Pressure drop kPa Capacity kW Dotted frame = open by-pass

Topvex SX03 HWL 60/40 70/50 80/60 90/70 1080 1080 1080 1080

Topvex SX04 HWL 60/40 70/50 80/60 90/70 1440 1440 1440 1440

Topvex SX06 HWL 60/40 70/50 80/60 90/70 2160 2160 2160 2160

25.1 0.06 2.20 4.9

29.8 0.08 3.60 6.6

34.5 0.10 5.30 8.3

39.2 0.12 7.20 10.0

25.3 0.08 4.40 6.6

29.9 0.11 7.10 8.9

34.4 0.13 10.20 11.1

38.9 0.16 13.90 13.2

23.1 0.10 2.90 8.4

27.3 0.14 4.80 11.4

31.4 0.18 7.10 14.4

35.4 0.21 9.80 17.3

22.5 0.07 2.80 5.6

27.3 0.09 4.30 7.3

32.0 0.11 6.10 9.0

36.6 0.13 8.10 10.7

22.7 0.09 5.50 7.6

27.3 0.12 8.40 9.8

31.8 0.15 11.80 12.0

36.3 0.17 15.60 14.1

20.3 0.12 3.70 9.6

24.5 0.15 5.80 12.6

28.5 0.19 8.20 15.6

32.6 0.23 11.00 18.5

19.0 0.08 3.70 6.6

23.8 0.10 5.40 8.3

28.41 0.12 7.3 9.98

33.0 0.14 9.50 11.7

19.1 0.11 7.30 8.8

23.7 0.13 10.50 11.0

28.18 0.16 14.1 13.2

32.7 0.19 18.20 15.4

16.45 0.14 4.9 11.3

20.56 0.17 7.2 14.28

24.62 0.21 9.9 17.22

28.65 0.25 12.9 20.15

19.99 0.08 3.40 6.3

24.7 0.10 5.10 8.0

29.4 0.12 7.00 9.7

34.0 0.14 9.10 11.4

20.1 0.10 6.80 8.5

24.7 0.13 9.90 10.7

29.2 0.16 13.50 12.9

33.7 0.18 17.50 15.0

17.5 0.13 4.50 10.8

21.6 0.17 6.80 13.8

25.7 0.20 9.40 16.8

29.7 0.24 12.40 19.7

17.4 0.08 4.10 7.0

22.1 0.11 5.90 8.7

26.8 0.13 7.90 10.4

31.4 0.15 10.10 12.1

17.5 0.11 8.10 9.4

22.0 0.14 11.50 11.6

26.5 0.17 15.20 13.8

31.0 0.20 19.40 15.9

14.7 0.15 5.50 12.1

18.8 0.18 7.90 15.0

22.9 0.22 10.70 18.0

26.9 0.26 13.80 20.9

14.9 0.09 4.90 7.7

19.6 0.11 6.80 9.4

24.2 0.14 8.80 11.1

28.8 0.16 11.20 12.8

14.9 0.12 9.60 10.3

19.4 0.15 13.10 12.5

23.9 0.18 17.10 14.7

28.4 0.21 21.40 16.8

11.9 0.16 6.50 13.3

16.0 0.20 9.10 16.2

20.0 0.23 12.00 19.2

24.0 0.27 15.20 22.1

Topvex SX03 HWH 60/30 60/30 60/40 60/40 540 1080 540 1080

Topvex SX04 HWH 60/30 60/30 60/40 60/40 720 1440 720 1440

Topvex SX06 HWH 60/30 60/30 60/40 60/40 1080 2160 1080 2160

31.7 0.03 1.3 3.65

28.4 0.05 3.1 6.11

38.38 0.06 4.1 4.86

33.81 0.1 10 8.07

29.58 0.04 0.7 4.36

26.77 0.06 1.7 7.36

36.93 0.07 2.5 6.13

32.4 0.12 6.1 10.07

30.29 0.05 1.7 6.79

26.84 0.09 4 11.08

36.75 0.11 5.6 9.13

32.03 0.18 13.4 14.84

31.05 0.03 1.7 4.34

26.99 0.06 4.1 7.23

37.4 0.07 5.1 5.5

32.23 0.11 12.5 9.12

29.01 0.04 1 5.3

25.29 0.07 2.4 8.81

35.85 0.08 3.2 6.96

30.7 0.14 7.6 11.43

29.39 0.07 2.3 8.1

25.21 0.11 5.4 13.16

35.59 0.13 7 10.34

30.25 0.2 16.7 16.81

29.89 0.04 2.4 5.26

24.93 0.07 5.7 8.72

35.99 0.08 6.6 6.37

30.02 0.13 16.2 30.02

27.85 0.05 1.4 6.52

23.1 0.09 3.4 10.75

34.31 0.1 4.1 8.08

28.33 0.16 9.9 13.27

27.98 0.08 3.2 9.83

22.86 0.13 7.5 15.95

33.95 0.15 9.1 11.99

27.77 0.24 21.8 19.51

30.22 0.04 2.2 5.01

25.51 0.07 5.3 8.32

36.38 0.07 6.2 6.13

30.63 0.12 15.1 10.17

28.2 0.05 1.3 6.19

23.71 0.08 3.1 10.22

34.74 0.09 3.8 7.78

28.98 0.15 9.2 12.77

28.38 0.08 3 9.36

23.51 0.12 6.9 15.19

34.3 0.14 8.5 11.54

28.45 0.23 20.3 18.77

29.33 0.05 2.7 5.67

23.97 0.08 6.5 9.39

35.34 0.08 7.3 6.76

29 0.14 18 11.21

27.26 0.06 1.6 7.05

22.07 0.09 3.9 11.6

33.6 0.1 4.6 8.59

27.24 0.17 11 14.1

27.3 0.09 3.7 10.6

21.78 0.14 8.6 17.19

33.19 0.15 10.2 12.73

26.64 0.25 24.3 20.71

28.38 0.05 3.3 6.31

22.4 0.08 7.9 10.45

34.29 0.09 8.6 7.38

27.36 0.15 21 12.25

26.24 0.06 2 7.89

20.39 0.1 4.7 12.96

32.44 0.11 5.4 9.39

25.48 0.19 12.9 15.42

26.16 0.1 4.4 11.81

20 0.15 10.4 19.16

31.97 0.17 11.9 13.92

24.81 0.27 28.5 22.65

49

Heater battery, electric SX

0°C -10°C -10°C -20°C -30°C -40°C

0°C -10°C -10°C -20°C -30°C -40°C

Topvex SX04 12 12 12 12 1260 1620 1980 2340 Supply air temp. °C >30 >30 29 26 >30 28 25 22 28 22 18 30 24 20 17 25 19 21

16 1440

Outdoor

Topvex SX03 6 6 6 720 1080 1440 Supply air temp. °C >30 >30 28 24 >30 >30 23 19 >30 25 17 >30 27 19 >30 22 >30 18

6 360

Outdoor

Outdoor


0°C -10°C -10°C -20°C -30°C -40°C

>30 >30 >30 >30 >30 26

Topvex SX06 16 16 16 1980 2520 3060 Supply air temp. °C >30 30 27 30 25 22 24 19 26 21 18 30 21 17

Dotted frame = open by-pass An extract air temperature of 21°C and a heat exchanger efficiency of 55% has been used for the calculations below. In practice the heat exchanger efficiency or extract air temperature may be higher, which may give a few degrees higher supply air temperatures than in the above tables.

Dimensions SX SX03 Min space to door 630 mm 271

375

960

271

315

418

ø315

106

470

1320

750

1600

SX04-06

Min space to door 698/824 mm

SX04 SX06

50

A 800 800

B 500 600

C 250 300

D 187 180

E 167 167

F 150 100

G 1041 1127

H 171 164

I 183 183

J 30 30

K 1747 2000

L 520 520

X 355 410

Y 212 210

Z 106 105

Technical data SX Voltage/Frequency V/50 Hz Phase ~ Input power, motors W Input power, el heating battery kW Fuse A Weight kg Filter (Supply/extract)

SX03 EL 400 3N 2x496 6 3x16 213 F7/F5

SX03 HW 230 1 2x496 – 13 213 F7/F5

SX04 EL 400 3N 2x1069 12 3x25 260 F7/F5

SX04 HW 400 3N 2x1069 – 3x10 260 F7/F5

SX06 EL 400 3N 2x1052 16 3x32 308 F7/F5

SX06 HW 400 3N 2x1052 – 3x10 308 F7/F5

Accessories SX Topvex SX03

Topvex SX04

Topvex SX06

Repeater 1

E0-R230K

E0-R230K

E0-R230K

Shut-off damper

EFD 315

EFD 50-25

EFD 60-30

Valve actuator

AQM

AQM

AQM

Valve, 2-way

STV15-1.0/0.63

STV15-1.6/1.0

STV15-1.6/1.6

Valve, 3-way

STR15-1.6/1.0

STR15-2.1/1.6

STR15-2.7/2.1


PGK 50-25

PGK 60-30

PGK 60-35


DXRE 50-25

DXRE 60-30

DXRE 60-35

Step controller. DX cooling

SC2/D

SC2/D

SC2/D


U-EK

U-EK

U-EK


PSS48

PSS48

PSS48

Combi grille

CVVX 315

CVVX 400

CVVX 500

Silencer

LDC 315

LDR 50-25

LDR 60-30

Timer

T 120

T 120

T 120

Presence detector

IR24-PC

IR24-PC

IR24-PC


CO2RT-DR

CO2RT-DR

CO2RT-DR

Water-lock

Water-lock

Water-lock


BFRO SR03 F5

BFT SX04 F5

BFT SX06 F5


BFRO SR03 F7

BFT SX04 F7

BFT SX06 F7

Water-lock

2

1


2

When risk of condensation in outdoor air side of heat exchanger

Ordering code SX • Model: SX03, SX04, SX06 • Heating coil: electric = EL, water = HW Available power: SX03: 6kW SX03 HW: HWL - low power, HWH - high power SX04: 12kW SX04 HW: HWL - low power, HWH - high power SX06: 16kW SX06 HW: HWL - low power, HWH - high power • Right or left model (The side were the supply air is located when viewed from access side)

51

Functions included in the Standard, E17S controller: Menu Languages

More than 20 different languages.

Temperature control

Constant supply air. Constant supply air with outdoor temp. compensation. Extract air (cascade).

Air flow control

Week timer, two separate running periods/twenty-four hours.

Fan control

Stepless settable between 0-100%. Transformer control.


Rotating heat exchanger (on/off). By-pass damper, cross/counter flow exchanger (stepless).

Re-heater control

Hot water coil (0...10V control signal). Electric heating.

Cold water cooler control

External coil (0...10V control signal).

DX cooling control

External coil (Step controller SC2/D is required, accessory).

Cool recovering

Automatically recovers the cold in the indoor air to cool down the warmer outdoor air.

Night cooling (free cooling)

Night/Free cooling is used during the summer to cool the building night-time by using cool outdoor air, thereby reducing the need for cooling during the day and thereby saving energy.

Demand ventilation

The units have one digital input for extended/forced running using an external signal, e.g. an external timer, movement detector, CO2-sensor or similar sensor with a voltage free contact. Extended/forced running is when the unit goes from shut down mode, low or medium fanspeed to the chosen fan speed.

Extended running

The units have a digital input for extended/forced running. The function activates by using an external signal from e.g. a push button or a timer. The function can also be activated by using the control panel. Extended running can be set between 0-240 minutes.

Week schedule

Two separate running periods/week day.

Damper control

24V output to control one or two shut-off dampers.

Alarm

Alarm messages in clear text. Sum alarm output (24V). Fire alarm input (potential free contact). Stop the unit or continuous running.

Communication

When more than 10 meter cable between the unit and control panel is needed a repeater (E0-R accessory) can be used. One E0-R can control up to 6 AHU's. Standard – Exoline and Modbus via RS 485. Option – Exoline via TCP/IP. Option – LON.

52

Functions included in the Advanced, E28 controller: Menu Languages

More than 20 different languages.

Temperature control

Supply air. Supply air with outdoor temp. compensation. Extract air. Cascaded room temperature control. Outdoor temperature dependent switching between room control and supply air control. Outdoor temperature dependent switching between exhaust air control and supply air control.

Air flow control

Year-based clock function. This means that a week-schedule with holiday periods for a full year can be set. Each day has up to two individual running periods for normal speed and reduced speed.

Fan control

Constant air volume control, CAV. Constant duct pressure control, VAV. Outdoor temperature compensated air volume/duct pressure.


Rotating heat exchanger (stepless). By-pass damper, cross/counter flow exchanger (stepless). Liquid connected exchanger (0...10V control signal or by two digital outputs). Mixing dampers (0...10V control signal).

Re-heater control

Hot water coil (0...10V control signal). Electric heating. Hot water coil and Electric heating.

Cold water cooler control

External coil (0...10V control signal).

DX cooling control

External coil (Up to 3-step, binary control).

Cool recovering

Automatically recovers the cold in the indoor air to cool down the warmer outdoor air.

Night cooling (free cooling)

Night/Free cooling is used during the summer to cool the building night-time by using cool outdoor air, thereby reducing the need for cooling during the day and thereby saving energy.

Demand ventilation

In applications with varying occupancy the fan speeds or mixing dampers can be controlled by the air quality as measured by a CO2-sensor. It is also possible to use a digital input for extended/forced running using an external signal, e.g. an external timer, movement detector or a similar sensor with a voltage free contact.

Extended running

The units have a digital input for extended/forced running. The function activates by using an external signal from e.g. a push button or a timer. The function can also be activated by using the control panel. Extended running can be set between 0-240 minutes.

Yearly schedule

Year-based clock function. This means that a week-schedule with holiday periods for a full year can be set. Each day has up to two individual running periods for normal speed and reduced speed. Digital timer channels for door locks, lighting etc.

Damper control

24V output to control one or two shut-off dampers.

Alarm

Alarm messages in clear text. Alarm priorities, alarms can be given different priority levels, A-alarm, B-alarm, C-alarm or not active. Sum alarm output (24V). Fire alarm input (potential free contact). Different fan control modes at fire.

Communication

When more than 10 meter cable between the unit and control panel is needed a repeater (E0R accessory) can be used. One E0-R can control up to 6 AHU's. Standard – Exoline and Modbus via RS 485. Option – Exoline/Built-in Web via TCP/IP. Option – LON.

E-tool software

A PC-based commissioning software.

53

Damper for outdoor air

Shutter damper EFD is a shut-off damper suitable for Topvex. The damper is provided with 24V AC motors with spring-return actuators. EFD are made in leakage performance class 3 according to EN 1751:1998 Annex C.2. Outdoor air dampers are used to prevent the hot water battery from freezing and also prevent cold air to chill down the building if the unit stops. EFD is connected to terminals in the electrical connection box.

Circular damper The circular damper consists of a tubular housing equipped with a damper blade pivoting on an axle. The blade fits into the circular duct. The connection ends are equipped with silicon rubber sealing rings. The damper is made from hot-dip galvanised sheet steel. The shut-off damper is prepared for external insulation and has arrows showing the damper blade position.

Rectangular damper The rectangular multi-leaf damper comprises a number of opposed blades, swivelling on nylon bearings in a sheet metal framework. The blades are connected via a system of linkages (protected) on the outside of the frame. The damper is made of hot-dip galvanised sheet steel. The shut-off damper is prepared for external insulation and has arrows showing the damper blade position.

Pressure drop circular damper

Pressure drop rectangular damper

100 ps [Pa]

Accessories

50 40 30 20 10 5 4 3

Dimensions rectangular damper

2

A

1 1

3

4

5

m/s

B

Dimensions circular damper 210

95 25

170

130

10

73

100

45 175

EFD 200 250 315

54

70

50

140

50 67 45

Combi grid CVVX The Combi grid, suitable for mounting on an outside wall is produced from galvanised sheet steel, finished in dark grey enamel. The outside air intake, and exhaust air outlet are separated from each other so that the air cannot “short circuit”. Four screws on the front facilitate dismantling for cleaning of the grid. Mounting: The back plate is first screwed and fitted to the wall. The grid can be mounted with exhaust-air outlet either on the right or on the left.

20

10

øA

Maintenance We recommend preventive maintenance of the damper twice per year for optimum performance. If the damper gets dirty, the blade/s should be cleaned. The gasket sealing should be checked and the blade/s axle/s lubricated as necessary.

2

øA 200 250 315

EFD 40-20 50-25 50-30 60-30 60-40 70-30 70-40 80-35 80-40 100-35

CVVX 160 200 250 315 400 500

A 400 500 500 600 600 700 700 800 800 1000

A 420 500 680 810 1012 1162

B 362 402 550 658 694 994

B 200 250 300 300 400 300 400 350 400 350

C 215 255 350 415 465 565

øD 160 200 250 315 400 500

E 130 133 136 139 193 223

Technical data CWK

100-3-2.5

Cooling battery – water

400-3-2.5

315-3-2.5

250-3-2.5

200-3-2.5

160-3-2.5

125-3-2.5

CWK, cold water-cooling battery for circular ducts. Casing of galvanised sheet steel with copper tubes and aluminium fins. Inspection covers for easy cleaning and maintenance. Connection sleeves with rubber seal. Max working pressure 1.6 MPa (16 bar).

Air flow (m3/h) 54 54 100 100 145 145 85 85 150 150 215 215 145 145 250 250 355 355 225 225 390 390 555 555 360 360 630 630 900 900 560 560 985 985 1410 1410 900 900 1590 1590 2280 2280

Air velocity (m/s) 2 2 3.5 3.5 5 5 2 2 3 3 4.5 4.5 2 2 3.5 3.5 5 5 2 2 3.5 3.5 5 5 2 2 3.5 3.5 5 5 2 2 3.5 3.5 5 5 2 2 3.5 3.5 5 5

CWK 100-3-2.5 125-3-2.5 160-3-2.5 200-3-2.5 250-3-2.5 315-3-2.5 400-3-2.5

H±1

F±2 B+8

B±1

ødy

øD

G±3

R½"

K±1 L±5

Air pressure drop (Pa) 7 7 22 22 58 58 3 3 9 9 18 18 9 9 24 24 45 45 6 6 17 17 33 33 6 6 18 18 34 34 7 7 20 20 39 39 9 9 25 25 49 49

Air before (˚C) 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30

øD 100 125 160 200 250 315 400

B 179 253 253 328 403 479 529

Air before (% RH) 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45 50 45

Air after (˚C) 14.3 15.8 16.4 18.5 17.5 20 12.6 13.5 14.5 15.7 15.6 17.0 14.4 15.6 16.1 17.4 17.0 18.4 14.1 15.3 15.9 17.3 16.9 18.4 14.2 15.4 16.0 17.3 17.0 18.2 14.5 15.4 16.1 17.2 17.0 18.1 15.2 16.3 16.8 17.8 17.6 18.6

Capacity Water flow (kW) (l/s) 0.2 0.01 0.4 0.01 0.3 0.01 0.5 0.02 0.4 0.02 0.6 0.02 0.5 0.02 0.7 0.03 0.7 0.03 1.1 0.04 0.8 0.03 1.4 0.05 0.7 0.03 1.0 0.04 0.9 0.04 1.5 0.06 1.1 0.04 1.3 0.08 1.0 0.05 1.6 0.06 1.4 0,06 2.3 0.09 1.7 0.07 3.1 0.12 1.6 0.06 2.5 0.10 2.2 0.09 3.8 0.15 2.7 0.11 5.1 0.20 2.4 0.10 3.9 0.16 3.4 0.13 6.1 0.24 4.3 0.17 8.3 0.33 3.4 0.14 5.8 0.23 4.8 0.19 9.3 0.37 6.1 0.24 12.8 0.51

H ødy F 238 10 100 313 10 175 313 10 175 398 22 250 473 22 325 548 22 400 698 22 425

G 40 40 40 40 40 40 65

K 300 300 300 300 300 300 335

Water pressure drop (kPa) < 0.5 1 1 2 1 3 3 5 5 10 7 16 4 10 8 20 11 32 2 5 4 9 5 15 2 5 4 10 6 17 3 7 5 14 8 25 2 5 4 12 6 22

L 380 380 380 380 380 440 475

Weight 4.4 kg 6.8 kg 6.7 kg 9.7 kg 13.0 kg 16.0 kg 21.4 kg

G±3

55

PGK

Technical data PGK

70 9

16

B

R½

395

345

PGK 40-20-3-2.0 50-25-3-2.0 50-30-3-2.0 60-30-3-2.0 60-35-3-2.0 70-40-3-2.0 80-50-3-2.0 100-50-3-2.0 * use 2 pcs DE

56

B 438 538 538 638 638 738 838 1038

H 238 288 338 338 388 438 538 538

N DE R 3/4 DE 40x20 R 3/4 DE 50x25 R 3/4 DE 50x30 R 3/4 DE 60x30* R 3/4 DE 60x35* R1 DE 70x40* R1 DE 80x50* R1 DE 100x50*

1000x500-3-2.0 800x500-3-2.0 700x400-3-2.0

53

9

H

9

9

600x350-3-2.0 600x300-3-2.0 500x300-3-2.0 500x250-3-2.0

PGK, cold water-cooling battery for rectangular ducts. Casing of galvanised sheet steel with copper tubes and aluminium fins. Air vent and drain valve included. Condensation tray of stainless steel and condensate connection (R½"). Max working pressure 1.6 MPa (16 bar). For water connection left or right. Two inspection covers for cleaning and maintenance. Droplet eliminator DE as an accessory regardless of air direction. Recommended for air velocities from 3 m/s.

400x200-3-2.0

PGK

Air flow (m3/h) 576 576 864 864 1152 1152 900 900 1350 1350 1800 1800 1080 1080 1620 1620 2160 2160 1296 1296 1944 1944 2592 2592 1512 1512 2268 2268 3024 3024 1920 1920 2880 2880 3840 3840 2743 2743 4115 4115 5486 5486 3429 3429 5144 5144 6858 6858 m3/h

Air velocity (m/s) 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 2 2 3 3 4 4 m/s

Water temperature 6/12°C Air Air Air pressure before before drop (0°C) (%RH) 31 25 50 49 30 45 66 25 50 103 30 45 113 25 50 175 30 45 31 25 50 49 30 45 66 25 50 103 30 45 113 25 50 175 30 45 31 25 50 49 30 45 66 25 50 103 30 45 113 25 50 175 30 45 31 25 50 49 30 45 66 25 50 103 30 45 113 25 50 175 30 45 31 25 50 49 30 45 66 25 50 103 30 45 113 25 50 175 30 45 47 25 50 74 30 45 91 25 50 142 30 45 142 25 50 222 30 45 47 25 50 74 30 45 91 25 50 142 30 45 142 25 50 222 30 45 47 25 50 74 30 45 91 25 50 142 30 45 142 25 50 222 30 45 Pa 0°C %RH

Air after (0°C) 17.0 19.0 18.4 20.2 19.2 20.8 17.0 18.6 18.2 19.4 18.9 19.8 17.1 18.8 18.4 19.7 19.1 20.1 17.3 19.0 18.6 19.8 19.3 20.1 17.3 19.0 18.6 19.8 19.3 20.1 17.1 18.1 18.5 18.8 19.3 19.0 17.1 17.6 18.4 18.0 19.0 18.6 17.5 17.9 18.7 18.0 19.3 18.6 0°C

Capacity (kW) 1.53 2.50 1.89 3.26 2.20 4.15 2.38 4.27 3.02 6.16 3.61 8.34 2.83 4.93 3.56 6.94 4.22 9.40 3.3 5.69 4.13 8.12 4.90 11.18 3.86 6.64 4.82 9.48 5.72 13.05 5.02 8.66 6.20 12.94 7.26 18.41 7.20 13.59 9.04 21.61 10.82 28.41 8.56 16.13 10.72 26.77 12.85 35.52 kW

Water flow (l/s) 0.06 0.10 0.08 0.13 0.09 0.17 0.09 0.17 0.12 0.25 0.14 0.33 0.11 0.20 0.14 0.28 0.17 0.37 0.13 0.23 0.16 0.32 0.20 0.45 0.15 0.26 0.19 0.38 0.23 0.52 0.20 0.35 0.25 0.52 0.29 0.73 0.29 0.54 0.36 0.86 0.43 1.13 0.34 0.64 0.43 1.07 0.51 1.41 l/s

NB! Droplet eliminator DE must be ordered seperately. Pressure drop at page 58.

Water pressure drop (kPa) 1 3 2 5 2 7 2 5 3 9 4 15 1 4 2 7 3 12 1 3 2 6 3 11 1 3 2 6 3 11 1 3 1 4 2 8 1 3 1 6 2 10 1 2 1 6 2 10 kPa

AQM – Valve motor, water valve A microprocessor based actuator controlled by a 0...10 V signal from Corrigo. Supply voltage 24V AC. The actuator has automatic stroke adjustment. Technical data Supply voltage Control signal Transformer size Stroke Stroke time Force Ambient temp. Storage temp. Ambient humidity Cable connection Degree of protec.

Technical data Max. difference pressure 1.6 Mpa. Flow charac. Square Media temp. -5...+185°C Media Hot, cold, glycol mixed water or steam Connection Metric female threaded Stroke 15 mm Max leakage 0.1 % by kv Pressure rat. PN16 Rangeabillity 50:1 Mat: Body Rg5* Mat: Cone Rg5* Stem Stainless steel Packing box Self-adjusting teflon

STV/STR – Water valve/heating water, 2/3-way STV/STR is a 2 and 3-way control valve to control the hotwater to the heating battery. They are intended for use together with the AQM actuator.

24 V AC 0...10 V 6 VA 20 mm 5 s/mm 450 N 0...50°C -40...+60°C 5...95% RH Screw terminals IP54

* RG5 = gun metal SS 5204

STV

STR

2-way

3-way

This product conforms to the EMC standard CENELEC EN50081-1 och EN50082-1.

AQM

A 70

STV/STR

B1 52

B2 57

C G½"

H 71

Weight 1.3 kg

Pressure drop 122

The actuator depth is 92 mm

176

Connection nut Jam nut

NB! The actuator and the valve have an overlap of approx 15 mm when connected.

mVp kPa 10 100 5 4 3

50 40 30

2

20

1

10

0,5 0,4 0,3

5 4 3

0,2

2

0,1

1

kv

0,01 0,05

0,05 0,1

0,63

0,1

1,0

1,6 2,1 2,7 4,2 5,6

0,2 0,3 0,5 0,5

1

10

1

16

5 5

10

27

39

10 14 l/s 50 m3/h

57

• 8 standard sizes • Same model for left-hand or righthand installation (reversible coil). • Stainless steel condensate drip tray. A droplet eliminator can be fitted regardless of the direction of air flow • Easily removable drip tray to simplify cleaning and inspection.

DXRE – Duct coolers with DX Coil

Droplet eliminator DE We recommend that a droplet eliminator should be installed on the outlet side of the coil if the air velocity is in excess of 2.5 m/s. This prevents water droplets being entrained by the air flow out into the duct system. The collected water is discharged through the stainless steel condensate drip tray. The droplet eliminator is easily accessible after the drip tray has been removed.

DXRE are used for central cooling of the ventilation air in ventilation systems. The DXRE is also used for individual cooling of the air supplied to individual rooms (zones).

Operating data Max. operating press.: 2.8 MPa (28 Bar) The coils are tested for leakage. Design The casing is made of Aluzinc-coated sheet steel. The coil has copper tubes and aluminium fins. Stainless steel drip tray for collecting the condensate, with R½ drain connection. Removable drip tray for inspection and cleaning of the coil. Installation The DXRE is intended for installation in a horizontal duct, with the air flow in either direction (reversible coil).

B

R S

K

9

M

I

O

9

9 ø10 (8x)

O

H

C

40

R½"

30

9

N

DXRE duct cooler DXRE 400x200-3-2,5 DXRE 500x250-3-2,5 DXRE 500x300-3-2,5 DXRE 600x300-3-2,5 DXRE 600x350-3-2,5 DXRE 700x400-3-2,5 DXRE 800x500-3-2,5 DXRE 1000x500-3-2,5

B mm 438 538 538 638 638 738 838 1038

H mm 238 288 338 338 388 438 538 538

S mm 90 90 90 90 90 120 120 120

330 395

R mm 105 105 105 105 105 115 115 115

I mm 45 70 95 95 120 135 180 180

O mm 100 30 30 30 30 30 30 30

K mm 165 165 165 165 165 160 160 160

M N C Droplet eliminator mm ø mm Connection R Dim 60 19 1/2" DE 40x20 60 22 1/2" DE 50x25 60 22 1/2" DE 50x30 60 22 5/8" DE 60x30 60 22 5/8" DE 60x35 75 35 5/8" DE 70x40 75 35 5/8" DE 80x50 75 35 5/8" DE 100x50

NB! Droplet eliminator DE must be ordered seperately.

Pressre drop, 'p [Pa]

Pressure drop across droplet eliminator

Air velocity, v [m/s]

58

Capacity, refrigerant R407C, 5 ºC Standard sizes of DXRE The tables on the following pages give examples of the capacity for each size. If none of these is suitable, we shall be pleased to carry out a computer calculation.

DXRE 400x200-3-2.5

500x250-3-2.5

500x300-3-2.5

600x300-3-2.5

600x350-3-2.5

700x400-3-2.5

800x500-3-2.5

1000x500-3-2.5

Air flow (m3/h) 575 575 865 865 1150 1150 900 900 1350 1350 1800 1800 1080 1080 1620 1620 2160 2160 1300 1300 1950 1950 2600 2600 1510 1510 2270 2270 3025 3025 2015 2015 3020 3020 4030 4030 2880 2880 4320 4320 5760 5760 3600 3600 5400 5400 7200 7200

Air pressure drop (Pa) 32 36 60 68 91 107 32 36 60 69 92 108 32 36 62 70 97 110 33 37 63 71 99 112 32 36 62 70 97 110 40 44 72 83 112 130 39 44 73 84 113 131 40 45 74 86 116 134

Air in (ºC) 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30 25 30

Air in (% RH) 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50

Air out (ºC) 15,8 18,8 16,9 20,4 17,5 21,2 15,8 18,7 16,9 20,1 18 21,2 15,5 18,3 16,6 19,8 17,3 20,9 15,4 17,8 16,5 19,6 17,3 20,8 15,5 18,4 16,7 19,8 17,4 21 14,7 17,4 16,3 19,3 16,5 20,2 14,6 17,3 16,2 19,1 16,4 20,2 14,3 16,9 15,9 18,6 16,7 19,9

Output (kW) 2,2 3,2 2,7 3,9 2,8 4,4 3,4 5 4,2 6,3 4,4 7,1 4,3 6,4 5,4 7,9 6,3 8,9 5,3 8,2 6,6 9,7 7,7 11 6 8,7 7,5 11 8,6 12,4 8,6 12,5 9,6 14,7 11,2 16,9 12,4 18,1 14,1 21,8 16,2 24,5 16,3 23,6 18,7 29,1 21,4 31,9

Refrigerant flow (kg/h) 51 75 63 90 65 104 80 118 99 147 103 165 101 149 126 186 147 208 116 180 145 213 170 241 131 192 164 242 189 272 188 274 211 323 246 370 272 398 309 477 356 538 356 517 411 638 470 699

Refrigerant pressure drop (kPa) 3 6,1 4,3 8,7 4,9 11,3 3,2 6,6 5 9,8 5,2 12,1 6,1 11,9 8,8 17,6 11,6 21,7 8,4 18,5 12,6 25,2 16,7 31,5 7,5 12,8 10,1 18,6 12,5 22,6 7,6 13,3 9 17,4 11,3 20 8,8 15,7 10,6 21,2 13,2 25,9 15,1 28 19 40,2 23,8 47

59

Systemair • Inhouse studio • 2009 • Art no. E8077

www.systemair.com

Specifi cation data Topvex

Specifi cation data Topvex

Suggest Documents

TOPVEX TX04 HWH-R

INSTITUTIONAL AND ORIGIN-SPECIFI - MAFIADOC.COM

Topvex 1000R, 1500R

and Ubiquitin Specifi - PLOS

Excerpts employed for writing the formal specifi- cation of the ... - PLOS

INSTITUTIONAL AND ORIGIN-SPECIFI

Excerpts employed for writing the formal specifi- cation of the ... - PLOS

TOPVEX 1000, 1500, 2000 Kompaktowe centrale ... - InstalacjeB2B

Systemair Topvex TX - Приточно-вытяжные установки

Topvex SR07, SR09, SR11 E Воздухообрабатывающие агрегаты

ISMS was designed specifi - Hightel Consults

Automatic Testing from Formal Specifi- cations - CiteSeerX

Cation-cation contact pairing in water ... - cchem.berkeley.edu

Cation - Exchange

Automatic veri cation of GIS data using high resolution ... - CiteSeerX

Feature-based Classi cation of Time-series Data - CiteSeerX

Z. Stjepanovi~: Specifi~nost CAD/CAM aparaturne ...

Инструкция по монтажу установок TOPVEX SR 07-11

Automatic Term Identi cation and Classi cation in Biology ... - CiteSeerX

Towards Formal Speci cation and Veri cation in ... - CiteSeerX

Cation-cation clusters in ionic liquids: Cooperative hydrogen bonding

Towards Formal Speci cation and Veri cation in

Speci cation, Veri cation and Prototyping of an ... - Semantic Scholar

Group Membership Protocol: Speci cation and Veri cation ... - CiteSeerX