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意大利GIVI MISURE    MP2000   Pole pitch 20+20 mm    電磁尺
意大利GIVI MISURE    ? MR    電磁尺
意大利GIVI MISURE    MR200    Pole pitch 2+2 mm    電磁尺
意大利GIVI MISURE    MR500    Pole pitch 5+5 mm    電磁尺
意大利GIVI MISURE    ? GVS 215    電磁尺
意大利GIVI MISURE    GVS 215 T50   Resolution 50 μm - Zero Magneto Set    電磁尺
意大利GIVI MISURE    GVS 215 T25   Resolution 25 μm - Zero Magneto Set    電磁尺
意大利GIVI MISURE    GVS 215 T10   Resolution 10 μm - Zero Magneto Set    電磁尺
意大利GIVI MISURE    GVS 215 T5   Resolution 5 μm - Zero Magneto Set    電磁尺
意大利GIVI MISURE    GVS 215 T1   Resolution 1 μm - Zero Magneto Set    電磁尺

MP200Z     
 Pole pitch 2+2 mm
 With reference indexes    
Pole pitch    2+2 mm (for sensors mod. MTS MxxZ)
Reference indexes    positioned upon request,
from left or right
at pitches of 4 mm or multiples
Accuracy grade    ± 15 μm
Width    10 mm
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202

MP254   Pole pitch 2.54+2.54 mm    
Pole pitch    2.54+2.54 mm (for sensors mod. MTS I, MTV I)
Accuracy grade    ± 15 μm
Width    10 mm
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202
external zero reference SME010

MP200A   Absolute code   New Absolute    
Pole pitch for incremental signal    2+2 mm (for sensors mod. AGM)
Accuracy grade    ± 20 μm high accuracy   ± 80 μm low accuracy
Width    10 mm
Thickness    1.3 mm
Max. length    30 m
Minimum bending radius    80 mm意大利GIVI MISURE    MP2000   Pole pitch 20+20 mm    電磁尺泵 
Accessories    stainless steel protective cover CV103
aluminium support SP202

MP500   Pole pitch 5+5 mm    
Pole pitch    5+5 mm (for sensors mod. MTS H, MTV H, MTR H)
Accuracy grade    ± 30 μm
Width    10 mm
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202
external zero reference SME010

MP500Z     
 Pole pitch 5+5 mm
 With reference indexes    
Pole pitch    5+5 mm (for sensors mod. MTS HxxZ)
Reference indexes    positioned upon request,
from left or right,
at pitches of 10 mm or multiples
Accuracy grade    ± 30 μm
Width    10 mm
Thickness    1.3 mm
Max. lenght    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202

MP625   Pole pitch 6.25+6.25 mm    
Pole pitch    6.25+6.25 mm (for sensors mod. MTS S, MTV S)
Accuracy grade    ± 35 μm
Width    10 mm
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202
external zero reference SME010

MP625Z     
 Pole pitch 6.25+6.25 mm
 With reference indexes    
Pole pitch    6.25+6.25 mm (for sensors mod. MTS SxxxZ)
Reference indexes    positioned upon request,
from left or right
Accuracy grade    ± 35 μm
Width    10 mm
Thickness    1.3 mm
Max. lenght    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202

MP1000   Pole pitch 10+10 mm    
Pole pitch    10+10 mm (for sensors mod. MTS E)
Accuracy grade    ± 400 μm
Width    10 mm意大利GIVI MISURE    MP2000   Pole pitch 20+20 mm    電磁尺泵 
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202
external zero reference SME010

MP2000   Pole pitch 20+20 mm    
Pole pitch    20+20 mm (for sensors mod. MTS C)
Accuracy grade    ± 500 μm
Width    10 mm
Thickness    1.3 mm
Max. length    60 m
Minimum bending radius    80 mm
Accessories    stainless steel protective cover CV103
aluminium support SP202
external zero reference SME010

MR200    Pole pitch 2+2 mm        
Pole pitch    2+2 mm (for sensors mod. MTS M, MTV M, MTR M)
Diameter    38 mm    48.7 mm    72 mm     
Number of poles    60    76    114     
System accuracy    ± 0.09°    ± 0.07°    ± 0.05°     
Thickness    17.7 mm               
Measuring range    360°               
Weight    40 g    60 g    145 g     
Accessories    SME ring for reference indexes

MR500    Pole pitch 5+5 mm    
Pole pitch    5+5 mm (for sensors mod. MTS H, MTV H, MTR H)
Diameter    38 mm    48.7 mm    72 mm     
Number of poles    24    30    46     
System accuracy    ± 0.21°    ± 0.16°    ± 0.11°     
Thickness    17.7 mm
Measuring range    360°
Weight    40 g    60 g    145 g     
Accessories    SME ring for reference indexes

GVS 215 T50   Resolution 50 μm - Zero Magneto Set    
Resolution    50 μm
Pole pitch    2+2 mm意大利GIVI MISURE    MP2000   Pole pitch 20+20 mm    電磁尺泵 
Accuracy grade    ± 15 μm
Max. traversing speed    120 m/min
Measuring length    170, 220, 270, 320, … mm
Reference indexes    selectable
Repeatability    ± 1 increment
Output signals    LINE DRIVER / PUSH-PULL
Protection class    IP 64 standard     IP 67 on request

GVS 215 T25   Resolution 25 μm - Zero Magneto Set    
Resolution    25 μm
Pole pitch    2+2 mm
Accuracy grade    ± 15 μm
Max. traversing speed    120 m/min
Measuring length    170, 220, 270, 320, … mm
Reference indexes    selectable
Repeatability    ± 1 increment
Output signals    LINE DRIVER / PUSH-PULL
Protection class    IP 64 standard     IP 67 on request

GVS 215 T10   Resolution 10 μm - Zero Magneto Set    
Resolution    10 μm
Pole pitch    2+2 mm
Accuracy grade    ± 15 μm
Max. traversing speed    120 m/min
Measuring length    170, 220, 270, 320, … mm
Reference indexes    selectable
Repeatability    ± 1 increment
Output signals    LINE DRIVER / PUSH-PULL
Protection class    IP 64 standard     IP 67 on request

GVS 215 T5   Resolution 5 μm - Zero Magneto Set    
Resolution    5 μm
Pole pitch    2+2 mm
Accuracy grade    ± 15 μm
Max. traversing speed    120 m/min
Measuring length    170, 220, 270, 320, … mm
Reference indexes    selectable
Repeatability    ± 1 increment
Output signals    LINE DRIVER / PUSH-PULL
Protection class    IP 64 standard     IP 67 on request

GVS 215 T1   Resolution 1 μm - Zero Magneto Set    
Resolution    1 μm
Pole pitch    2+2 mm
Accuracy grade    ± 15 μm
Max. traversing speed    60 m/min
Measuring length    170, 220, 270, 320, … mm
Reference indexes    selectable
Repeatability    ± 1 increment
Output signals    LINE DRIVER / PUSH-PULL
Protection class    IP 64 standard     IP 67 on requestON
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max static pressure reachable without alarm filter
operating.
? DIP-SWITCH POSITION / CONSTANT AIRFLOW :
Correspondence between dip-switches position and
the value of the constant airflow.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
pressione statica massima raggiungibile senza l’entrata
in funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PORTATA COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della portata costante.
DDE 10/10 M9H8 1F 6p 8QK D
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 1000 2000 3000 4000 5000
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
Static pressure [Pa]
64.1
61.9
59.4
56.9
69.7
66.7
64.8
63.5
68.5 dB(A)
66.7
65.4
65
69.1
68.1
66.4
69.6
68.7
70.7
70
68.9
62.1
59.2
54.8
Constant flow
ra
te
curves :
1 - 2000 m3/h
2 - 2300 m3/h
3 - 2600 m3/h
4 - 2900 m3/h
5 - 3200 m3/h
6 - 3500 m3/h
7 - 3800 m3/h
8 - 4000 m3/h
2
3 4 5
6
7 8
56.9 62.4
1
33
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 6.8
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610550
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 12/9
Motor: 1419H8
Test nr.: 2817.*
Date: 04/03/03
Watt: 750
Volt: 230
Hz: 50
Poles: 6
mF:
1 0.00 – 1.25 1600 m3/h 77.57 mm Hst
2 1.25 – 2.51 1800 m3/h 72.00 mm Hst
3 2.51 – 3.76 2000 m3/h 67.50 mm Hst
4 3.76 – 5.02 2200 m3/h 63.20 mm Hst
5 5.02 – 6.27 2400 m3/h 59.90 mm Hst
6 6.27 – 7.53 2600 m3/h 55.75 mm Hst
7 7.53 – 8.78 2800 m3/h 55.33 mm Hst
8 8.78 – 10.04 3000 m3/h 54.10 mm Hst
LEGEND :
? INPUT SIGNAL / CONSTANT AIRFLOW :
Correspondence between input signal and the
value of the constant airflow.
? INPUT SIGNAL / FILTER ALARM :
Correspondence between input signal and the
max static pressure reachable without alarm
filter operating.
LEGENDA :
? SEGNALE / PORTATA COSTANTE :
Corrispondenza tra il segnale ed il valore
della portata costante.
? SEGNALE / ALLARME FILTRO :
Corrispondenza tra il segnale e la pressione statica
massima raggiungibile senza l’entrata in funzione
del filtro allarme.
DDE 12/9 M9H8 1F 8QK SV
INPUT
SIGNAL
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500 3000 3500
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
Static pressure [Pa]
69.1
66.8
59.6
54.3
67
55.9
70.1
66.8
64.7
57
72.1 dB(A)
69.9
68.2
66.2
64.1
68.9
67.5
65.9
63
59.7
71
67
64.8
60.6
70.5
69.7
68.4
66.9
66.6
63.2
61.8
69.3
63.3
61.3
54.2
Constant flow
rate curves :
1 - 1600 m3/h
2 - 1800 m3/h
3 - 2000 m3/h
4 - 2200 m3/h
5 - 2400 m3/h
6 - 2600 m3/h
7 - 2800 m3/h
8 - 3000 m3/h
1
2 3
4
5
6
7 8
34
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 7.3
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610551
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 12/12
Motor: 1419H8
Test nr.: 2818.*
Date: 05/03/03
Watt: 750
Volt: 230
Hz: 50
Poles: 6
mF:
1 0.00 – 1.25 1600 m3/h 71.90 mm Hst
2 1.25 – 2.51 1800 m3/h 65.20 mm Hst
3 2.51 – 3.76 2000 m3/h 62.00 mm Hst
4 3.76 – 5.02 2300 m3/h 60.50 mm Hst
5 5.02 – 6.27 2600 m3/h 55.50 mm Hst
6 6.27 – 7.53 2900 m3/h 47.80 mm Hst
7 7.53 – 8.78 3200 m3/h 45.00 mm Hst
8 8.78 – 10.04 3500 m3/h 40.25 mm Hst
LEGEND :
? INPUT SIGNAL / CONSTANT AIRFLOW :
Correspondence between input signal and the
value of the constant airflow.
? INPUT SIGNAL / FILTER ALARM :
Correspondence between input signal and the
max static pressure reachable without alarm
filter operating.
LEGENDA :
? SEGNALE / PORTATA COSTANTE :
Corrispondenza tra il segnale ed il valore
della portata costante.
? SEGNALE / ALLARME FILTRO :
Corrispondenza tra il segnale e la pressione statica
massima raggiungibile senza l’entrata in funzione
del filtro allarme.
DDE 12/12 M9H8 1F 8QK SV
INPUT
SIGNAL
CONSTANT
AIRFLOW
FILTER
ALARM
35
0 500 1000 1500 2000 2500 3000 3500 4000
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
Static pressure [Pa]
67.4
64.5
61.5
57.5
52.6
71.7
69.3
67.3
65.3
63
60.5
69.9
68.3
65.2
62.7
58.6
53.7
70.2
68.4
66
63.6
62.4
54.1
69.6
67.3
65.3
63.8
61.6
56.9
70.1
67.7
66.2
64.8
61.5
59.7
57.5
68.1 dB(A)
66.4
65
64.1
62
60.5
72.9
69.1
63.5
58.1
53.6
Constant flow
rate curves :
1 - 1600 m3/h
2 - 1800 m3/h
3 - 2000 m3/h
4 - 2300 m3/h
5 - 2600 m3/h
6 - 2900 m3/h
7 - 3200 m3/h
8 - 3500 m3/h
1
2
3 4
5
6
7 8
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 7.9
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610546
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 12/12
Motor: 1419H9
Test nr.: S2354.*
Date: 06/06/03
Watt: 1050
Volt: 230
Hz: 50
Poles: 6
mF:
2500 m3/h 67.25 mm Hst
2800 m3/h 66.00 mm Hst
3100 m3/h 55.25 mm Hst
3400 m3/h 54.50 mm Hst
3700 m3/h 48.50 mm Hst
4000 m3/h 46.00 mm Hst
4300 m3/h 44.50 mm Hst
4600 m3/h 32.50 mm Hst
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max static pressure reachable without alarm filter
operating.
? DIP-SWITCH POSITION / CONSTANT AIRFLOW :
Correspondence between dip-switches position and
the value of the constant airflow.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
pressione statica massima raggiungibile senza l’entrata
in funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PORTATA COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della portata costante.
DDE 12/12 M9H9 1F 8QK D
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
36
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
950
1000
Static pressure [Pa]
71.8
67
65.8
62.8
60.1
56.3
52.9
72.3
69
68.4
66.5
65.3
63.6
61.4
69.8
63.4
59.7
57.1
69.4
66.9
64.9
62.9
61.8
59.6
68.2
67.8
66.4
65.3
64.3
62.9
60.7
68.8
68.2
67.4
66
65.6
62.7
62.4
67.5 dB(A)
67.1
66.7
66.3
64.8
65
64.7
64.5
73.2
56.6
Constant flow
ra
te
curves :
1 - 2500 m3/h
2 - 2800 m3/h
3 - 3100 m3/h
4 - 3400 m3/h
5 - 3700 m3/h
6 - 4000 m3/h
7 - 4300 m3/h
8 - 4600 m3/h
1
2 3
4
5
6
7 8
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
VENTILATORI A PRESSIONE
COSTANTE
CONSTANT PRESSURE FANS
370 W 326 185 262 167 318 155 232 349 117
9/7 TIGHT
550 W 326 185 262 167 318 155 232 364 132
370 W 326 185 262 167 318 155 298 393 95
9/9 TIGHT
550 W 326 185 262 167 318 155 298 396 98
A B C E F G H L P
Taglia
Size
Motore
Motor mm mm mm mm mm mm mm mm mm
370 W 387 215 262 160 380 185 232 349 117
9/7
550 W 387 215 262 160 380 185 232 364 132
370 W 387 215 262 160 380 185 298 393 95
9/9
550 W 387 215 262 160 380 185 298 396 98
10/8 tutti i motori - all motors 443 249 289 178 425 203 265 378 113
10/10 tutti i motori - all motors 443 249 289 178 425 203 331 421 90
12/9 tutti i motori - all motors 521 294 341 213 491 230 309 401 92
12/9 1050 W 521 294 341 213 491 230 309 400 91
12/12 tutti i motori - all motors 521 294 341 213 491 230 395 487 92
12/12 1050 W 521 294 341 213 491 230 395 486 91
ORIENTAMENTO SCATOLA MOTORE - MOTOR BOX ORIENTATION
QUOTE DIMENSIONALI - DIMENSIONS
38
Amp. Max: 6.1
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610553
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 10/10
Motor: 1419K1
Test nr.: S2394.*
Date: 29/07/03
Watt: 550
Volt: 230
Hz: 50
Poles: 6
mF:
39
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max airflow reachable without alarm filter operating.
? DIP-SWITCH POSITION / CONSTANT PRESSURE :
Correspondence between dip-switches position and
the value of the constant pressure.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
portata massima raggiungibile senza l’entrata in
funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PRESSIONE COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della pressione costante.
150 Pa 3800 m3/h
200 Pa 3800 m3/h
250 Pa 3700 m3/h
300 Pa 3400 m3/h
350 Pa 3200 m3/h
400 Pa 3050 m3/h
450 Pa 2550 m3/h
500 Pa 2150 m3/h
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
DDE 10/10 M9K1 1F 8PK D
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500 3000 3500 4000
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
650
700
750
800
850
900
Static pressure [Pa]
58.5
58.2
61 62.9
65
62.1 60.6
63.6
65.4
67.7
64.7
63.2 63.3
67.1
67 65.8
66
68.1
68.7
67.2
67.4
68.7
70.1 68.4
68.9
71.6
70 72.6
55.1 55
58 60.4
62.6 67.5
Constant Pressure Curves
A -- Fan Max Working Limit
1 - 500 Pa
2 - 450 Pa
3 - 400 Pa
4 - 350 Pa
5 - 300 Pa
6 - 250 Pa
7 - 200 Pa
8 - 150 Pa
73.1
71.8
70.9
70.1
68.4
68.3 dB(A)
72.3
69.6
65.7
1
2
3
4
5
6
7
8
A
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 6.8
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
40
COD. 610557
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 10/10
Motor: 1419K0
Test nr.: S2552.*
Date: 04/02/04
Watt: 750
Volt: 230
Hz: 50
Poles: 6
mF:
50 Pa 3700 m3/h
100 Pa 3900 m3/h
150 Pa 4060 m3/h
200 Pa 4120 m3/h
250 Pa 4110 m3/h
300 Pa 3800 m3/h
350 Pa 3650 m3/h
400 Pa 2680 m3/h
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max airflow reachable without alarm filter operating.
? DIP-SWITCH POSITION / CONSTANT PRESSURE :
Correspondence between dip-switches position and
the value of the constant static pressure.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
portata massima raggiungibile senza l’entrata in
funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PRESSIONE COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della pressione statica costante.
DDE 10/10 M9K0 1F 8PK D
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500 3000 3500 4000 4500
Flow rate [m3/h]
0
100
200
300
400
500
600
700
800
900
1000
Static pressure [Pa]
74.9
72.4dB(A)
71.4
69.9
70.5
Constant Pressure curves :
A -- Fan Max Working Limit
1 - 400Pa K
2 - 350Pa K
3 - 300Pa K
4 - 250Pa K
5 - 200Pa K
6 - 150Pa K
7 - 100Pa K
8 - 50Pa K
1
2
3
4 5
6 7
8
A
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 6.7
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
41
COD. 610552
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DDE 12/12
Motor: 1419K0
Test nr.: S2632.*
Date: 06/04/04
Watt: 750
Volt: 230
Hz: 50
Poles: 6
mF:
180 Pa 3950 m3/h
200 Pa 4000 m3/h
220 Pa 4050 m3/h
240 Pa 4000 m3/h
260 Pa 4030 m3/h
280 Pa 4000 m3/h
300 Pa 3940 m3/h
300 Pa 3970 m3/h
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max airflow reachable without alarm filter operating.
? DIP-SWITCH POSITION / CONSTANT PRESSURE :
Correspondence between dip-switches position and
the value of the constant static pressure.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
portata massima raggiungibile senza l’entrata in
funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PRESSIONE COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della pressione statica costante.
DDE 12/12 1419K0 750W 8PK D
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500 3000 3500 4000 4500
Flow rate [m3/h]
0
100
200
300
400
500
600
700
800
900
1000
1100
1200
Static pressure [Pa]
73
72.1
70.3 dB(A)
69.1
67.6
66.8
65.8
Constant Pressure Curves :
A - Fan Max Working Limit
1 - 180 Pa K
2 - 200 Pa K
3 - 220 Pa K
4 - 240 Pa K
5 - 260 Pa K
6 - 280 Pa K
7 - 300 Pa K
8 - 320 Pa K
8 7
6 5
4 3
2
A
62.7
61
1
62.4
62.7 63.4 64.8 65.5
55.5 56.9 58.7 62.9
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
VENTILATORI BINATI
TWIN FANS
44
DD2E 185/240 M9K2 Mot. 370W 0-10V cod. 610554
DD2E 7/7 M9K3 Mot. 750W 8QK cod. 610555
Amp. Max: 4.1
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610554
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DD2E 185/240
Motor: 1419K2
Test nr.: S2285.*
Date: 03/03/03
Watt: 370
Volt: 230
Hz: 50
Poles: 6
mF:
45
600 m3/h 37.00 mm Hst
1000 m3/h 35.25 mm Hst
1200 m3/h 33.87 mm Hst
1400 m3/h 33.00 mm Hst
1600 m3/h 30.90 mm Hst
1800 m3/h 28.00 mm Hst
2000 m3/h 25.00 mm Hst
2200 m3/h 20.06 mm Hst
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
1 2 3 4 5 6
ON
? DIP-SWITCH POSITION / FILTER ALARM :
Correspondence between dip-switches position and
the max static pressure reachable without alarm filter
operating.
? DIP-SWITCH POSITION / CONSTANT AIRFLOW :
Correspondence between dip-switches position and
the value of the constant airflow.
? POSIZIONE DIP-SWITCH / ALLARME FILTRO :
Corrispondenza tra la posizione dei dip-switch e la
pressione statica massima raggiungibile senza l’entrata
in funzione del filtro allarme.
LEGEND :
LEGENDA :
? POSIZIONE DIP-SWITCH / PORTATA COSTANTE :
Corrispondenza tra la posizione dei dip-switch ed il
valore della portata costante.
DD2E 185/240 1419K2 1F 8QK DG + SQ SP
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
Static pressure [Pa]
62.2
61
58.6
56
51.9
48
61.5
59.6
56.8
55
62
60.1
57.9
55.4
52.7
62.3
60.8
59.1
56.4
62.4
61.1
59.1
56.8
55.7
54.8
64.5 dB(A)
59.9
57.7
57.1
63.5
62.4
61.3
60.6
59.2
59.2
60.4
57.7
53.8
51.3
43.6
Constant flow
ra
te
curves :
1 - 600 m3/h
2 - 1000 m3/h
3 - 1200 m3/h
4 - 1400 m3/h
5 - 1600 m3/h
6 - 1800 m3/h
7 - 2000 m3/h
8 - 2200 m3/h
1 2
3
4 5
6
7
8
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Amp. Max: 7.55
Prot.: IP 54
T.H.: YES-IN
Ins. CI.: F
COD. 610555
This test data obtained in a laboratory
registered by AMCA for AMCA 210/99
air performance testing.
Data is not certified by AMCA.
Type: DD2E 7/7
Motor: 1419K3
Test nr.: S2360.*
Date: 12/06/03
Watt: 750
Volt: 230
Hz: 50
Poles: 6
mF:
46
0 – 1.25 V 2100 m3/h 42.83 mm Hst
1.25 – 2.51 V 2400 m3/h 39.75 mm Hst
2.51 – 3.76 V 2700 m3/h 38.00 mm Hst
3.76 – 5.02 V 3000 m3/h 36.00 mm Hst
5.02 – 6.27 V 3300 m3/h 34.00 mm Hst
6.27 – 7.53 V 3600 m3/h 30.00 mm Hst
7.53 – 8.78 V 3900 m3/h 24.83 mm Hst
8.78 – 10.04 V 4200 m3/h 17.80 mm Hst
? INPUT SIGNAL (0-10V) / FILTER ALARM :
Correspondence between imput signal (0-10V) and
the max static pressure reachable without alarm filter
operating.
? INPUT SIGNAL (0-10V) / CONSTANT AIRFLOW :
Correspondence between imput signal (0-10V) and
the value of the constant airflow.
? SEGNALE (0-10V) / ALLARME FILTRO :
Corrispondenza tra il segnale (0-10V) e la pressione
statica massima raggiungibile senza l’entrata in funzione
del filtro allarme.
LEGEND :
LEGENDA :
? SEGNALE (0-10V) / PORTATA COSTANTE :
Corrispondenza tra il segnale (0-10V) ed il valore della
portata costante.
DD2E 7/7 1419K3 + FL 8QK SV
DIP-SWITCH
POSITION
CONSTANT
AIRFLOW
FILTER
ALARM
0 500 1000 1500 2000 2500 3000 3500 4000 4500
Flow rate [m3/h]
0
50
100
150
200
250
300
350
400
450
500
550
600
Static pressure [Pa]
68
65.3
63.6
61.9
57
65.8
64
61.3
61.2
58.4
69.2
67.4
66.8
64.1
62.2
61.4
69.3
67.4
66.4
64.7
62.8
69.6
68.2
67.7
66.8
66.1
64.6
70 dB(A)
69.7
68.6
67.4
66.8
66.6
70
69.1
68.6
68.7
68.1
67.6
67.1
66
64
62.6
61.1
58.7
56
Constant flow
ra
te
curves :
1 - 2100m3/h
2 - 2400 m3/h
3 - 2700 m3/h
4 - 3000 m3/h
5 - 3300 m3/h
6 - 3600 m3/h
7 - 3900 m3/h
8 - 4200 m3/h
1 2
3
4
5
6
7
8
Air Density ( ): 1.20 kg/m3
Installation type "B": free inlet, ducted outlet
dB(A) free field noise measurements at 1 m
Zingonia g
Fan test laboratory
AMCA 210/99 Fig. 12
10000 m3/h test chamber
Nicotra Gebhardt S.p.A
Via Modena, 18
24040 Ciserano - Loc. Zingonia (BG), Italy
 1
Centrifugal Fans
single inlet
with direct drive
Issue 1.4
July 2013
A
ηe = Pu(s) / Pe(d) · Cc
ηm ηT ηr
ηe
P
e(d) Pe Pu(s)
C
c
2013 58 58 61 37 42
2015 62 61 64 44 49
ηe = Pu(s) / Pe
Depending on the model of the fan, the efficiency grade “N” set in
accordance with the ErP Directive must be achieved from 2013 and
2015 respectively.
The efficiency grade designates a parameter in the calculation
of the target energy efficiency of a fan depending on the electric
input power when operating at the optimal energy efficiency point.
The figure of parameter “N” corresponds to the target energy
efficiency with a power of 10 kW.
To make the selection easier for our customers, we offer
complete systems as defined by the ErP Directive!
In order to compare the systems, the total efficiency ηe of the fan
without speed regulation is considered.
If the system has speed regulation, it will be taken into account with
the “part load compensation factor” Cc (see below):
without speed regulation: Cc = 1
with speed regulation Ped ≥ 5 kW: Cc = 1.04
with speed regulation Ped < 5 kW: Cc = -0.03 ln(Ped) + 1.088
In order to take the speed regulation into account via the part load
compensation factor Cc, the following mathematical losses arise
in accordance with the formula prescribed by ErP for the following
typical motor powers:
Ped = 4.00 kW: Cc = 1.05 (5 %)
Ped = 2.20 kW: Cc = 1.06 (6 %)
Ped = 0.75 kW: Cc = 1.10 (10 %)
Efficiency grade “N” to ErP-Directive
P
ed = Input power of speed regulator when operating at the optimal energy efficiency point
C
c = part load compensation factor
Complete systems by Nicotra Gebhardt
Nicotra Gebhardt can supply complete systems in all product
categories which meet the ErP requirements. We offer highly efficient
fan systems
with matching components and “high efficiency drives” –
belt and direct drive.
with integrated or external control to regulate speed.
with IEC standard motors (IE2) or internal rotor motors with
brushless DC technology.
and with AC external rotor motors or brushless DC external
rotor motors.
Building blocks for best values
Thanks to the decades-long experience of Nicotra Gebhardt all the
components of our fans contribute to their high performance.
Impellers and blades are optimised for turbulence and therefore
particularly efficient. An example: With the latest development,
the RLM Evo impeller, the free-running centrifugal fans of
Nicotra Gebhardt achieve system efficiency grades never reached
before.
In addition, the brushless DC drives which Nicotra Gebhardt
offers for its direct drive fans improve the system efficiency grades.
The fan technology of Nicotra Gebhardt delivers highly
efficient systems for all applications.
Year
Centrifugal fans
with backward curved blades
without
housing
static
with
housing
static total
Centrifugal fans with forward
curved blades
with
housing
static total
The overall picture will decide
ηe = Total efficiency
P
u(s) = Fan gas power when operating at the optimal
energy efficiency point
P
e = Electric input power when operating at the
optimal energy efficiency point
B
6.000 m3/h
10.000 m3/h
18.000 m3/h
22.000 m3/h
100.000 m3/h
200.000 m3/h
40 °C
60 °C
80 °C
ATEX
REM 40 REM 10 TEM
P P P
P P P
P P
P
P P P
P P P
P P P
P P P
P
P P
P P P
P P P
P P P
Flow rate Media
temperature
Speed
control
Impeller Casing
material
Inlet
type
Voltage
Brushless-DC
External Inverter
Forward curved blades
galvanised sheet steel
Backward curved blades
coated steel
Galvanised steel
Coated steel
Single inlet
Double inlet
ErP status See details See details See details
2
proSELECTA II
proSELECTA II is a technical selection program that allows you to
configure your own individually designed fan. It provides you with
the opportunity to choose from the entire range of fan types and
their associated options.
Simple and reliable selection
The result from proSELECTA II is the provision of all the technical
data for your fan, including sound level data, dimension
specifications and accessories. Apart from that, as a registered
user, your purchase prices are provided. Additionally fully
dimensioned drawings in dxf format are available, which can be
downloaded and transferred straight into your CAD system.
So that you can be sure. Models and options that are technically
not permissible, are automatically excluded in proSELECTA II.
So there is no chance that you will configure a “wrong” device
option.
You can register as a proSELECTA II user with us, which enables
us to offer you faster order processing. What this means for you is:
The complete configuration of your fan with its associated system
accessories and belt drive layout.
The possibility to produce fans that operate via a frequency
inverter.
The option of saving your own fan configuration on our server.
The opportunity to modify your saved configuration, even over the
phone to your Nicotra Gebhardt representative.
Nicotra Gebhardt technologies like ...
Automated manufacture of compact scroll and impeller with forward curved blades Own motor production for optimal tuniung
of motor and fan!
ErP status See details See details See details
3
Fittings REM 40 REM 10 TEM
Accessories
Technical
Description
Fittings / Accessories
complete system accessories
fittings and options
Technical Description
Descriptions
Operating limits
Notes
High performance centrifugal fans TEM
single inlet, with flanged IEC standard motor out of air stream,
Impeller with forward curved blades of galvanised steel plate,
with or without pedestal for horizontal or vertical mounting
High performance centrifugal fans REM 10
single inlet, with flanged IEC standard motor out of air stream,
Impeller with true airfoil blades, welded and painted,
with or without pedestal for horizontal or vertical mounting
High performance centrifugal fans REM 40
single inlet, with flanged IEC standard motor out of air stream,
Impeller with backward curved blades, welded and painted,
with or without pedestal for horizontal or vertical mounting
4
Powerful centrifugal fans for universal use
The product ranges TEM
The fan ranges TEM offered by Nicotra Gebhardt do present a large fan programme
of single inlet centrifugal fans which are universally usable for many ventilation
purposes either in HVAC or in machinery design industry and heavy duty installation
business.
The fans are available with forward curved impellers.
The fans are equipped with IEC flanged (B5) standard motors, protection IP55, class
F, and they are suitable for frequency inverter controlled operation.
Benefits:
compact design because of direct drive
cost effective by maintenance-free operation
speed controlled by frequency inverter
universally usable due to different options, such as
without brackets as a directly fitted unit for operation with vertical shaft arrangement
with brackets for operation with horizontal shaft
ATEX execution for explosion hazardous areas and applications
Ex II 3G c IIB T3
5
TEM 01-0160/-0355
TEM 08-0160/-0355
The universal technology for various applications
TEM ranges
Sizes from 0160 up to 0355
Volume flow up to 9000m3/h
also available in 60Hz execution
also available in ATEX execution 3G
motor with PTC in flange execution
Impeller with forward curved blades
For applications in HVAC-facilities, big kitchen or for clean room technologie.
For every application, the suitable fan:
Version Description Figure
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
forward curved blades, without pedestal, for vertical or horizontal mounting.
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
forward curved blades, with pedestal, for horizontal mounting.
6
TEM 01-0160
TEM 08-0160
Pa
m3/h
pF
qV
TEM ..-0160-2D-08
TEM ..-0160-2X-08-3G
400 V
50 Hz
[A1/A3]
0 1000
81 dB
79
79
83
84
200 400 600 800 1200 1400
L
wA4/7
pd2
0
200
400
600
0
Pa
m3/h
pF
qV
200
TEM ..-0160-2D-08-60
460 V
84 dB [A5] 60 Hz
400
600
800
87
83 86
L
wA4/7
83
pd2
1000
0 500 1000 1500
Pa
m3/h
pF
qV
20
TEM ..-0160-4D-05
TEM ..-0160-4X-05-3G
400 V
50 Hz
[A2/A4]
66 dB
40
60
80
70
64
68
L
wA4/7
64
pd2
100
120
140
160
180
0 100 200 300 400 500 600 700 800
0
Pa
m3/h
pF
qV
TEM ..-0160-4D-05-60
460 V
60 Hz
500
69 dB
73
68
68 72
100 200 300 400 600 700
L
wA4/7
[A6]
pd2
0 800 900
0
50
100
150
200
250
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
7
TEM 01-0160
TEM 08-0160
TEM ..- kW V Hz A 1/min °C m3/h kg
0160-2D-08 [A1] 0.55 2 71 230/400 50 g/Y 2.35/1.36 2800 60 1270 10/13
0160-4D-05 [A2] 0.18 4 63 230/400 50 g/Y 0.97/0.56 1350 60 890 8/11
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0160-2X-08-3G [A3] 0.55 2 71 230/400 50 g/Y 2.40/1.40 2785 60 1270 10/13
0160-4X-05-3G [A4] 0.18 4 63 230/400 50 g/Y 1.07/0.62 1330 60 890 8/11
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0160-2D-08-60 [A5] 0.63 2 71 460 60 Y 1.32 3400 60 1180 10/13
0160-4D-05-60 [A6] 0.21 4 63 460 60 Y 0.55 1650 60 1050 8/11
LG RD
109
54
6×M6
1×80
69+k2
101
?7
135
155
143 152
295
2×90
202
235
255 327
199
128 71
TEM 01-0160
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08 357
257
27.5
50
6×M6
?7
130 25
6×?7.0
160
?12 195
130 25
?164
?194
?214
211
211
211
410
410
410
205×105
354
211
354
211
261
261
389
389
54
1×80
69+k2
101
135
155
152 143
295
2×90
202
235
255
199
71
TEM 08-0160
295
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
8
TEM 01-0180
TEM 08-0180
Pa
m3/h
pF
qV
TEM ..-0180-2W-11
TEM ..-0180-2X-11-3G
400 V
50 Hz
400
800
1200
200
600
1000
0 500 1000 1500 2000 2500
[B1/B3]
84 dB
90
82
82 87
L
wA4/7
pd2
0
Pa
m3/h
pF
qV
TEM ..-0180-2W-11-60
TEM ..-0180-2W-10-60
460 V
60 Hz
400
800
1200
1400
1600
200
600
1000
0 500 1000 1500 2000 2500
[B5]
[B6]
87 dB
90
93
86
86
L
wA4/7
pd2
0
Pa
m3/h
pF
qV
TEM ..-0180-4D-05
TEM ..-0180-4X-05-3G
400 V
50 Hz
0 200 400 600 800 1000 1200
0
50
100
150
200
250 68 dB
74
71
L
wA4/7
[B2/B4]
67
67
pd2
0
Pa
m3/h
pF
qV
100
TEM ..-0180-4D-05-60
460 V
60 Hz
200
300
400
50
150
250
350
0 200 400 600 800 1000 1200
[B7]
72 dB
78
71 74
L
wA4/7
70
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
9
TEM 01-0180
TEM 08-0180
TEM ..- kW V Hz A 1/min °C m3/h kg
0180-2W-11 [B1] 1.10 2 80 M 230/400 50 g/Y 4.20/2.40 2835 60 1950 13/17
0180-4D-05 [B2] 0.18 4 63 230/400 50 g/Y 0.97/0.56 1350 60 1250 8/12
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0180-2X-11-3G [B3] 1.10 2 80 230/400 50 g/Y 4.30/2.50 2855 60 1950 13/17
0180-4X-05-3G [B4] 0.18 4 63 230/400 50 g/Y 1.07/0.62 1330 60 1250 8/12
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0180-2W-11-60 [B5] 1.27 2 80 M 460 60 Y 2.40 3402 60 1760 13/17
0180-2W-10-60 [B6] 0.86 2 80 M 460 60 Y 1.67 3366 60 1180 11/15
0180-4D-05-60 [B7] 0.21 4 63 460 60 Y 0.55 1650 60 1140 8/12
LG RD
121
60
6×M6
1×90
74+k2
113
?7
147
167
156 170
326
2×90
226
259
279 363
220
143 81
TEM 01-0180
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08 357
257
22
50
6×M6
?7
130 25
6×?7.0
195
?12 230
130 25
?183
?213
?233
247
247
247
467
467
467
229×117
403
247
403
247
297
297
440
440
60
1×90
74+k2
113
147
167
170 156
326
2×90
226
259
279
220
81
TEM 08-0180
361
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
10
TEM 01-0200
TEM 08-0200
Pa
m3/h
pF
qV
TEM ..-0200-2W-14
TEM ..-0200-2X-14-3G
400 V
50 Hz
0
400
800
1200
1400
200
600
1000
0 500 1000 1500 2000 2500 3000 3500
[C1]
[C3]
86 dB
85
85 89
93
L
wA4/7
pd2
Pa
m3/h
pF
qV
TEM ..-0200-2W-14-60
TEM ..-0200-2W-11-60
460 V
60 Hz
0
500
1000
1500
2000
0 500 1000 1500 2000 2500 3000 3500 4000
[C5]
[C6]
90 dB
96
89
93
L
wA4/7
89
pd2
Pa
m3/h
pF
qV
TEM ..-0200-4D-08
TEM ..-0200-4X-08-3G
400 V
50 Hz
0 200 400 600 800 1000 1200 1400 1600
0
100
200
300
350
50
150
250
[C2/C4]
71 dB
70
70 74
77
L
wA4/7
pd2
Pa
m3/h
pF
qV
TEM ..-0200-4D-08-60
460 V
60 Hz
500 1000 1500 2000
0
100
200
300
400
500
75 dB
74
74
80
77
L
wA4/7
[C7]
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
11
TEM 01-0200
TEM 08-0200
TEM ..- kW V Hz A 1/min °C m3/h kg
0200-2W-14 [C1] 2.20 2 90 L 230/400 50 g/Y 7.80/4.50 2890 60 2800 20/24
0200-4D-08 [C2] 0.37 4 71 230/400 50 g/Y 1.78/1.03 1370 60 1970 10/14
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0200-2X-14-3G [C3] 1.85 2 90 L 230/400 50 g/Y 6.85/3.95 2865 60 2730 20/24
0200-4X-08-3G [C4] 0.37 4 71 230/400 50 g/Y 1.91/1.10 1355 60 1970 10/14
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0200-2W-14-60 [C5] 2.55 2 90 L 460 60 Y 4.50 3468 60 2820 20/24
0200-2W-11-60 [C6] 1.27 2 80 M 460 60 Y 2.40 3402 60 1510 14/18
0200-4D-08-60 [C7] 0.43 4 71 460 60 Y 1.02 1670 60 1870 10/14
LG RD
134
67
6×M6
1×90
84+k2
127
?7
161
181
168 188
356
2×90
253
286
306 399
242
157 89
TEM 01-0200
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08 408
338
16
50
67
6×M6
1×90
84+k2
127
?7
161
181
130 25
6×?7.0
188 168
356
195
?12 230
130 25
2×90
253
286
306
?205
?235
?255
242
89
247
489
256×131
247
489
297
464
415
247
489
247
297
454
415
247
TEM 08-0200
368
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
12
TEM 01-0225
TEM 08-0225
Pa
m3/h
pF
qV
TEM ..-0225-2D-19
TEM ..-0225-2W-14
TEM ..-0225-2X-19-3G
400 V
50 Hz
0 1000 2000 3000 4000 5000
400
800
1200
1400
1600
200
600
1000
0
[D1]
[D4]
[D2]
90 dB
89 95
89
LwA4/7 92
pd2
0 1000 2000 3000 4000 5000
Pa
m3/h
pF
qV
TEM ..-0225-2D-19-60
TEM ..-0225-2W-14-60
460 V
60 Hz
0
500
1000
1500
2000
2500
[D6]
94 dB
96
99
93
93
L
wA4/7
pd2
[D7]
100
200
300
400
50
150
250
350
Pa
m3/h
pF
qV
TEM ..-0225-4W-11
TEM ..-0225-4X-11-3G
400 V
50 Hz
500 1000 1500 2000
75 dB
80
L 77
wA4/7
[D3/D5]
74
74
pd2
Pa
m3/h
pF
qV
TEM ..-0225-4W-11-60
460 V
60 Hz
200
400
600
100
300
500
0 500 1000 1500 2000 2500
0
[D8]
78 dB
83
78
LwA4/7 77 81
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
13
TEM 01-0225
TEM 08-0225
TEM ..- kW V Hz A 1/min °C m3/h kg
0225-2W-19 [D1] 4.00 2 112 M 400 50 g 7.80 2950 60 4500 41/46
0225-2W-14 [D2] 2.20 2 90 L 230/400 50 g/Y 7.80/4.50 2890 60 2800 21/30
0225-4W-11 [D3] 0.75 4 80 M 230/400 50 g/Y 3.01/1.74 1440 60 2640 14/19
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0225-2X-19-3G [D4] 3.30 2 112 M 230/400 50 g/Y 11.60/6.70 2875 60 3870 43/48
0225-4X-11-3G [D5] 0.75 4 80 230/400 50 g/Y 3.55/2.05 1395 60 2640 14/19
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0225-2W-19-60 [D6] 4.60 2 112 M 460 60 g 7.70 3550 60 4020 41/46
0225-2W-14-60 [D7] 2.55 2 90 L 460 60 Y 4.50 3468 60 2330 30/35
0225-4W-11-60 [D8] 0.86 4 80 M 460 60 Y 1.79 1728 60 2780 14/19
LG RD
149
74
6×M6
1×100
89+k2
142
?10
180
206
191 210
401
2×100
285
322
348 450
274
176 100
TEM 01-0225
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08 500
400
50
50
6×M6
1×100
89+k2
142
?10
180
206
6×?7.0
2×100
285
322
348
74
130 25
210 191
401
264
?12 300
130 30
?229
?259
?279
274
100
308
308
582
582
308
582
288×146
549
358
549
358
358
534
358
534
TEM 08-0225
426
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
14
TEM 01-0250
TEM 08-0250
0
Pa
m3/h
pF
qV
500
TEM ..-0250-2D-19
TEM ..-0250-2W-14
TEM ..-0250-2X-19-3G
400 V
50 Hz
[E2]
0 5000
93 dB
1000
1500
2000
97
92
95
1000 2000 3000 4000 6000 7000
L
wA4/7
[E6]
92 [E1]
pd2
0
Pa
m3/h
pF
qV
100
TEM ..-0250-4W-13
TEM ..-0250-4W-11
TEM ..-0250-4X-13-3G
400 V
50 Hz
[E4]
0 2500
78 dB
200
300
400
82
77
80
500 1000 1500 2000 3000 3500
L
wA4/7
[E7] [E3]
77
pd2
500
0
Pa
m3/h
pF
qV
200
TEM ..-0250-4W-13-60
TEM ..-0250-4D-10-60
460 V
60 Hz
[E8]
0 2500
81 dB
400
600
800
86
81
83
500 1000 1500 2000 3000 3500
L
wA4/7
[E9]
81
pd2
4000
0
Pa
m3/h
pF
qV
50
TEM ..-0250-6D-08
400 V
50 Hz
0
68 dB
100
150
200
71
68 69
500 1000 1500 2000
L
wA4/7
[E5]
67
pd2
0
Pa
m3/h
pF
qV
100
TEM ..-0250-6D-08-60
460 V
71 dB 60 Hz
200
300
74
72 72
L
wA4/7
[E10]
71
pd2
0 500 1000 1500 2000
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
15
TEM 01-0250
TEM 08-0250
TEM ..- kW V Hz A 1/min °C m3/h kg
0250-2W-19 [E1] 4.00 2 112 M 400 50 g 7.80 2950 60 4100 42/48
0250-2W-14 [E2] 2.20 2 90 L 230/400 50 g/Y 7.80/4.50 2890 60 2180 31/37
0250-4W-13 [E3] 1.10 4 90 S 230/400 50 g/Y 4.30/2.50 1425 60 3600 17/23
0250-4W-11 [E4] 0.75 4 80 M 230/400 50 g/Y 3.10/1.79 1440 60 2790 15/21
0250-6D-08 [E5] 0.25 6 71 230/400 50 g/Y 1.35/0.78 830 60 2190 12/18
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0250-2X-19-3G [E6] 3.30 2 112 M 230/400 50 g/Y 11.60/6.70 2875 60 3340 44/50
0250-4X-13-3G [E7] 1.00 4 90S 230/400 50 g/Y 4.30/2.50 1420 60 3390 17/23
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0250-4W-13-60 [E8] 1.27 4 90 S 460 60 Y 2.50 1710 60 3430 17/23
0250-4D-10-60 [E9] 0.63 4 80 460 60 Y 1.45 1674 60 1800 13/19
0250-6D-08-60 [E10] 0.29 6 71 460 60 Y 0.76 1060 60 2180 12/18
LG RD
167
83
6×M6
1×100
98+k2
160
?10
198
224
206 231
437
3×100
319
356
382 494
300
194 109
TEM 01-0250
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08
83
6×M6
1×100
98+k2
?10
231 206
437
608
608
300
109
500
400
40.5
50
6×?7.0
130 25
264
?12 300
130 30
?256
?286
?306
308
308
608
308
322×164
514
308
514
308
358
552
358
552
3×100
319
356
382
224
198
160
TEM 08-0250
435
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
16
TEM 01-0280
TEM 08-0280
Pa
m3/h
pF
qV
TEM ..-0280-4D-16
TEM ..-0280-4W-13
TEM ..-0280-4X-16-3G
400 V
50 Hz
0 1000 2000 3000 4000 5000
0
200
400
600
[F2]
84 dB
89
80
87
L
wA4/7
[F1]
[F4]
81
pd2
100
300
500
700
Pa
m3/h
pF
qV
TEM ..-0280-4D-16-60
TEM ..-0280-4W-13-60
460 V
60 Hz
0 1000 2000 3000 4000 5000 6000
0
200
400
600
800
1000
[F6]
88 dB
84 92
L 90
wA4/7
[F5]
85
pd2
Pa
m3/h
pF
qV
TEM ..-0280-6D-11
400 V
50 Hz
0
100
200
300
0 500 1000 1500 2000 2500 3000
75 dB
79
71
77
L
wA4/7
[F3]
72
pd2
50
150
250
Pa
m3/h
pF
qV
TEM ..-0280-6D-11-60
460 V
60 Hz
0 500 1000 1500 2000 2500 3000 3500
0
100
200
300
400
50
150
250
350 [F7]
78 dB
82
75
L 80
wA4/7
76
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
17
TEM 01-0280
TEM 08-0280
TEM ..- kW V Hz A 1/min °C m3/h kg
0280-4W-16 [F1] 2.20 4 100 L 230/400 50 g/Y 8.05/4.65 1455 60 5250 28/36
0280-4W-13 [F2] 1.10 4 90 S 230/400 50 g/Y 4.30/2.50 1425 60 3200 18/26
0280-6D-11 [F3] 0.55 6 80 230/400 50 g/Y 2.80/1.60 910 60 3300 16/24
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0280-4X-16-3G [F4] 2.00 4 100 L 230/400 50 g/Y 7.80/4.50 1420 60 5000 35/44
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0280-4W-16-60 [F5] 2.55 4 100 L 460 60 Y 4.50 1755 60 4920 28/33
0280-4W-13-60 [F6] 1.27 4 90 S 460 60 Y 2.50 1710 60 2760 18/26
0280-6D-11-60 [F7] 0.63 6 80 460 60 Y 1.55 1110 60 3030 16/24
LG RD
187
93
8×M8
1×100
113+k2
179
?10
217
243
226 258
484
3×100
358
395
421 549
333
216 122
TEM 01-0280
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08
93
8×M8
1×100
113+k2
179
?10
217
243
258 226
484
651
651
333
122
500
400
26.5
50
8×?9.5
130 30
264
?12 300
130 30
?288
?322
?348
318
318
651
318
361×183
544
318
544
318
368
584
368
584
3×100
358
395
421
TEM 08-0280
449
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
18
TEM 01-0315
TEM 08-0315
Pa
m3/h
pF
qV
TEM ..-0315-4D-19
TEM ..-0315-4D-16
TEM ..-0315-4X-19-3G
400 V
50 Hz
0 1000 2000 3000 4000 5000 6000 7000
0
200
400
600
800
1000
[G2]
87 dB
85 93
89
L
wA4/7
[G1]
[G4]
85
pd2
Pa
m3/h
pF
qV
TEM ..-0315-4D-19-60
TEM ..-0315-4D-16-60
TEM ..-0315-4W-14-60
460 V
60 Hz
0
400
800
1000
600
200
1200
0 2000 4000 6000 8000
[G6]
[G7]
90 dB
96
88
L 93
wA4/7
[G5]
89
pd2
Pa
m3/h
pF
qV
TEM ..-0315-6D-14
400 V
50 Hz
0 1000 2000 3000 4000
0
100
200
300
400
50
150
250
350
77 dB
76 83
LwA4/7 80
[G3]
76
pd2
Pa
m3/h
pF
qV
TEM ..-0315-6D-14-60
460 V
60 Hz
0
100
200
300
400
500
0 1000 2000 3000 4000 5000
[G8]
81 dB
86
80
LwA4/7 79 83
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
19
TEM 01-0315
TEM 08-0315
TEM ..- kW V Hz A 1/min °C m3/h kg
0315-4W-19 [G1] 4.00 4 112 M 400 D 50 g 8.20 1460 60 7830 47/54
0315-4W-16 [G2] 2.20 4 100 L 230/400 50 g/Y 8.05/4.65 1455 60 5200 29/40
0315-6W-14 [G3] 1.10 6 90 L 230/400 50 g/Y 5.00/2.90 940 60 4980 26/37
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0315-4X-19-3G [G4] 3.60 4 112 M 230/400 50 g/Y 13.00/7.50 1435 60 7400 49/60
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0315-4W-19-60 [G5] 4.55 4 112 M 460 60 g 8.00 1760 60 7400 47/54
0315-4W-16-60 [G6] 2.55 4 100 L 460 60 Y 4.50 1755 60 4550 40/47
0315-4W-14-60 [G7] 1.75 4 90 L 460 60 Y 3.30 1722 60 3130 33/40
0315-6W-14-60 [G8] 1.30 6 90 L 460 60 Y 3.05 1140 60 5000 26/37
LG RD
209
104
8×M8
1×100
118+k2
201
?10
239
265
247 290
537
3×100
401
438
464 613
371
242 139
TEM 01-0315
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08
104
8×M8
1×100
118+k2
201
?10
239
265
290 247
537
723
723
371
139
525
425
76
50
8×?9.5
130 30
304
?12 340
130 30
?322
?356
?382
352
352
723
352
404×205
599
352
599
352
429
671
429
671
3×100
401
438
464
TEM 08-0315
470
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
20
TEM 01-0355
TEM 08-0355
Pa
m3/h
pF
qV
TEM ..-0355-4D-19
TEM ..-0355-4D-16
TEM ..-0355-4X-19-3G
400 V
50 Hz
400
800
1200
200
600
1000
0
0 2000 4000 6000 8000 10000
[H4] [H1]
88 dB
87 95
LwA4/7 92
86 [H2]
pd2
Pa
m3/h
pF
qV
TEM ..-0355-4D-19-60
TEM ..-0355-4D-17-60
TEM ..-0355-4D-16-60
460 V
60 Hz
0 2000 4000 6000 8000 10000 12000
800
400
1200
1600
0
[H5]
[H6]
92 dB
99
91
95
L
wA4/7
[H7]
90
pd2
Pa
m3/h
pF
qV
TEM ..-0355-6D-19
400 V
50 Hz
0
100
200
300
400
500
0 1000 2000 3000 4000 5000 6000 7000
80 dB
87
78
LwA4/7 83
[H3]
78
pd2
Pa
m3/h
pF
qV
TEM ..-0355-6D-19-60
460 V
60 Hz
0 2000 4000 6000 8000
0
200
400
600
800
[H8]
83 dB
82 90
LwA4/7 87
81
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
I Operation limit, see Technical Data
– – – do not use in this area!
Direct driven centrifugal fans / TEM / Technical Data
Curves
21
TEM 01-0355
TEM 08-0355
TEM ..- kW V Hz A 1/min °C m3/h kg
0355-4W-19 [H1] 4.00 4 112 M 400 50 g 8.20 1460 60 7600 48/57
0355-4W-16 [H2] 2.20 4 100 L 230/400 50 g/Y 8.05/4.65 1455 60 4600 41/50
0355-6W-19 [H3] 2.20 6 112 M 230/400 50 g/Y 9.00/5.20 965 60 7450 46/59
Ex II 3G c IIB T3
TEM ..- kW V Hz A 1/min °C m3/h kg
0355-4X-19-3G [H4] 3.60 4 112 M 230/400 50 g/Y 13.00/7.50 1435 60 6900 50/63
60 Hz
TEM ..- kW V Hz A 1/min °C m3/h kg
0355-4W-19-60 [H5] 4.55 4 112 M 460 60 g 8.00 1760 60 6680 48/57
0355-4W-17-60 [H6] 3.45 4 100 L 460 60 Y 6.00 1755 60 5150 45/54
0355-4W-16-60 [H7] 2.55 4 100 L 460 60 Y 4.50 1755 60 3780 41/50
0355-6W-19-60 [H8] 2.55 6 112 M 460 60 Y 4.80 1165 60 7170 46/59
LG RD
234
116
8×M8
2×100
130+k2
225
?10
263
289
273 325
598
4×100
449
487
513 686
414
272 157
TEM 01-0355
ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
ZSH 08
116
8×M8
2×100
130+k2
225
?10
263
289
325 273
598
846
846
414
157
561
461
84
50
8×?9.5
130 30
304
?12 340
130 30
?361
?395
?421
432
432
846
432
453×229
705
432
705
432
500
772
500
772
4×100
449
487
513
TEM 08-0355
483
k2
63 180
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / TEM / Technical Data
Technical Data
Dimensions in mm, subject to change.
The given nominal motor current may not be exceeded. If the current consumption is
exceeded, the volume is to be throttled correspondingly.
For fans of the ATEX execution, the guarantee for operation in explosion endangered
areas or for the conveyance of explosive atmosphere expires when the motor nominal
current is exceeded!For information on fans of the ATEX execution see Technical
Description of this chapter.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight
TEM 01/08
22
50 Hz
TEM ..- ηe [%] "N" 2013 2015 Pe [kW] qV [m3/h] pF [Pa] N [1/min]
0160-2D-08 35.0 B 43.2 42 49 0.501 880 717 2900 1.007
0180-2W-11 43.6 B 50.5 42 49 0.823 1270 1018 2930 1.010
0200-2W-14 45.6 B 51.2 42 49 1.315 1750 1233 2960 1.012
0225-2W-19 49.3 B 53.4 42 49 2.258 2500 1603 2970 1.016
0225-2W-14 48.6 B 52.6 42 49 2.293 2500 1603 2970 1.016
0250-2W-19 51.0 B 53.3 42 49 4.301 3730 2116 2930 1.021
0250-2W-14 46.3 B 50.1 42 49 2.511 2180 1920 2970 1.019
0180-4D-05 26.3 B 37.6 42 49 0.163 630 245 1440 1.002
0200-4D-08 29.1 B 39.2 42 49 0.246 860 299 1460 1.003
0225-4W-11 39.8 B 49.1 42 49 0.340 1240 393 1470 1.004
0250-4W-13 45.1 B 52.8 42 49 0.609 1870 529 1465 1.005
0250-4W-11 46.8 B 54.6 42 49 0.587 1870 529 1465 1.005
0280-4W-16 44.0 B 50.0 42 49 1.129 2650 675 1480 1.007
0280-4W-13 45.1 B 51.1 42 49 1.103 2650 675 1480 1.007
0315-4W-19 50.6 B 55.3 42 49 1.831 3800 878 1480 1.009
0315-4W-16 52.0 B 56.8 42 49 1.781 3800 878 1480 1.009
0355-4W-19 56.2 B 59.4 42 49 3.047 5400 1141 1470 1.011
0355-4W-16 54.0 B 57.7 42 49 2.610 4600 1103 1470 1.011
0250-6D-08 32.5 B 43.1 42 49 0.217 1200 212 930 1.002
0280-6D-11 33.7 B 42.5 42 49 0.406 1720 286 960 1.003
0315-6W-14 42.4 B 50.1 42 49 0.612 2500 374 970 1.004
0355-6W-19 48.1 B 54.3 42 49 1.039 3550 507 980 1.005
Technical Data
Direct driven centrifugal fans / TEM / Description
Technical Data according to ErP-REGULATION 327/2011/EU
Overall
efficiency
Measurement
category
Efficiency
category
achieved
efficiency grade
at optimum
energy efficiency
required
efficiency
grade acc. to
ErP since
Speed
control (VSD)
Rated motor
power
at optimum
energy efficiency
Flow rate
at optimum
energy
efficiency
Pressure
at optimum
energy
efficiency
Speed
at optimum
energy
efficiency
"specific
ratio"
without
without
without
without
without
without
without
without
without
without
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
without
without
without
without
without
without
without
without
without
without
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
without
without
TOTAL
TOTAL
23
60 Hz
TEM ..- ηe [%] "N" 2013 2015 Pe [kW] qV [m3/h] pF [Pa] N [1/min]
0160-2D-08-60 35.9 B 42.9 42 49 0.779 1030 978 3390 1.010
0180-2W-11-60 45.2 B 50.8 42 49 1.296 1500 1407 3440 1.014
0180-2W-10-60 40.0 B 46.0 42 49 1.111 1180 1356 3480 1.014
0200-2W-14-60 47.3 B 51.5 42 49 2.130 2100 1726 3500 1.017
0200-2W-11-60 45.8 B 51.1 42 49 1.498 1510 1637 3530 1.016
0225-2W-19-60 50.0 B 52.8 42 49 3.691 2950 2254 3520 1.023
0225-2W-14-60 47.5 B 50.8 42 49 2.982 2330 2187 3540 1.022
0160-4D-05-60 22.7 B 34.0 42 49 0.167 530 258 1740 1.003
0180-4D-05-60 29.3 B 39.5 42 49 0.242 750 340 1690 1.003
0200-4D-08-60 33.8 B 42.9 42 49 0.362 1050 420 1720 1.004
0225-4W-11-60 43.7 B 51.9 42 49 0.513 1460 553 1740 1.006
0250-4W-13-60 49.4 B 55.9 42 49 0.923 2200 746 1740 1.007
0250-4D-10-60 40.2 B 46.8 42 49 0.906 1800 729 1750 1.007
0280-4W-16-60 48.0 B 52.9 42 49 1.690 3100 942 1750 1.009
0280-4W-13-60 45.9 B 51.0 42 49 1.548 2760 926 1750 1.009
0315-4W-19-60 53.9 B 57.2 42 49 2.940 4600 1239 1760 1.012
0315-4W-16-60 53.6 B 57.0 42 49 2.914 4550 1237 1760 1.012
0315-4W-14-60 47.5 B 51.9 42 49 2.083 3130 1139 1770 1.011
0355-4W-19-60 56.6 B 58.5 42 49 4.906 6300 1586 1730 1.016
0355-4W-17-60 55.3 B 57.9 42 49 3.943 5150 1524 1750 1.015
0355-4W-16-60 51.1 B 54.5 42 49 2.914 3780 1418 1760 1.014
0250-6D-08-60 34.6 B 44.1 42 49 0.316 1370 287 1080 1.003
0280-6D-11-60 36.2 B 43.8 42 49 0.625 2050 397 1130 1.004
0315-6W-14-60 45.7 B 52.2 42 49 0.940 2950 524 1150 1.005
0355-6W-19-60 56.0 B 61.2 42 49 1.490 4200 715 1160 1.007
Technical Data
Direct driven centrifugal fans / TEM / Description
Technical Data according to ErP-REGULATION 327/2011/EU
Overall
efficiency
Measurement
category
Efficiency
category
achieved
efficiency grade
at optimum
energy efficiency
required
efficiency
grade acc. to
ErP since
Speed
control (VSD)
Rated motor
power
at optimum
energy efficiency
Flow rate
at optimum
energy
efficiency
Pressure
at optimum
energy
efficiency
Speed
at optimum
energy
efficiency
"specific
ratio"
without
without
without
without
without
without
without
without
without
without
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
without
without
without
without
without
without
without
without
without
without
without
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
TOTAL
without
without
without
without
TOTAL
TOTAL
TOTAL
TOTAL
24
TEM 01-0160/-0355
High performance centrifugal fan TEM 01
single inlet, direct driven.
Lap-jointed scroll housing made from galvanised steel sheet, without pedestal for
vertical or horizontal mounting.
Suitable for conveying medium temperatures from -20 °C to +60 °C.
At discharge with integrated flange acc. to DIN 24159-3, at intake with possibility to
connect with flange acc. to DIN 24155-2.
Galvanised impeller with forward curved blades. B5 motor mounted outside the
airstream.
Impeller balanced in according to DIN ISO 1940, compley maintenance free.
Motor equipped with PTC Thermistors as a standard (except motors in explosion
proof execution according to ATEX 94/9/EC).
Three phase 400 V, 50 Hz, single speed.
Fan type TEM 01
Volume flow qV m3/h
Total pressure increase pF Pa
Air density at fan inlet r1 kg/m3
Air temperature t °C
Speed N 1/min
Nominal motor power PN kW
Voltage U V
Frequency f Hz
Sound power level (A weighted) LWA dB
Weight m kg
Direct driven centrifugal fans / TEM/REM / Specifications
Specifications
Fan data
Fittings / Accessories
Drain plug R1/2"
Inspection door
Corrosion protection S40
Inlet flange
Inlet flex (with flexible sleeve)
Discharge flange
Discharge flex (with flexible sleeve)
Inlet protection guard
Discharge protection guard
Isolator
Motor protection unit
25
TEM 08-0160/-0355
Fan type TEM 08
Volume flow qV m3/h
Total pressure increase pF Pa
Air density at fan inlet r1 kg/m3
Air temperature t °C
Speed N 1/min
Nominal motor power PN kW
Voltage U V
Frequency f Hz
Sound power level (A weighted) LWA dB
Weight m kg
Direct driven centrifugal fans / TEM/REM / Specifications
Specifications
High performance centrifugal fan TEM 08
single inlet, direct driven.
Lap-jointed scroll housing made from galvanised steel sheet, with pedestal for horizontal mounting.
Suitable for conveying medium temperatures from -20 °C to +60 °C.
At discharge with integrated flange acc. to DIN 24159-3, at intake with possibility to
connect with flange acc. to DIN 24155-2.
Galvanised impeller with forward curved blades. B5 motor mounted outside the
airstream.
Impeller balanced in according to DIN ISO 1940, compley maintenance free.
Motor equipped with PTC Thermistors as a standard (except motors in explosion
proof execution according to ATEX 94/9/EC).
Three phase 400 V, 50 Hz, single speed.
Fan data
Fittings / Accessories
Drain plug R1/2"
Inspection door
Corrosion protection S40
Inlet flange
Inlet flex (with flexible sleeve)
Discharge flange
Discharge flex (with flexible sleeve)
Inlet protection guard
Discharge protection guard
Anti-vibration mounts
Isolator
Motor protection unit
26
Powerful centrifugal fans for universal use
The product ranges REM
The fan ranges REM offered by Nicotra Gebhardt do present a large fan programme
of single inlet centrifugal fans which are universally usable for many ventilation
purposes either in HVAC or in machinery design industry and heavy duty installation
business.
The fans are available with with impellers equipped with backward curved blades.
The fans are equipped with IEC flanged (B5) standard motors, protection IP55, class
F, and they are suitable for frequency inverter controlled operation.
Benefits:
compact design because of direct drive
cost effective by maintenance-free operation
speed controlled by frequency inverter
universally usable due to different options, such as
without brackets as a directly fitted unit for operation with vertical shaft arrangement
with brackets for operation with horizontal shaft
ATEX execution for explosion hazardous areas and applications
Ex II 2G c IIB T3
27
REM 11-0200/-0630
REM 18-0200/-0630
REM 13-0200/-0630
REM 19-0200/-0630
REM 41-0200/-0450
REM 48-0200/-0450
The universal technology for various applications
REM ranges
Sizes from 0200 up to 0630
Volume flow up to 20,000m3/h
also in available 60Hz execution
also available in ATEX execution 2G
motor with PTC in flange execution
Impeller with backward curved blades
For applications in the filter technologie, drying- and suction plants.
For every application, the suitable fan:
Version Description Figure
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
backward curved aerofoil blades, without pedestal, for vertical or horizontal mounting.
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
backward curved aerofoil blades, with pedestal, for horizontal mounting.
Scroll casing stitch welded with discharge flange, epoxy coated, built-in impeller with backward curved aerofoil blades, without pedestal, for vertical or horizontal mounting.
Scroll casing stitch welded with discharge flange, epoxy coated, built-in impeller with backward curved aerofoil blades, with pedestal, for horizontal mounting.
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
backward curved blades, without pedestal, for vertical or horizontal mounting.
Lap jointed scroll of galvanised sheet steel with discharge flange and built-in impeller with
backward curved blades, with pedestal, for horizontal mounting.
28
REM 18-0200
REM 19-0200
REM 11-0200
REM 13-0200
Pa
m3/h
pF
qV
REM 1.-0200-2D-07
REM 1.-0200-2X-07-2G
400 V
50 Hz
0 200 400 600 800 1000 1200
200
400
600
100
300
500
0
72 dB
74
72
L
WA
[A1/A2]
pd2
76
77
Pa
m3/h
pF
qV
REM 1.-0200-2D-07-60
460 V
60 Hz
0 200 400 600 800 1000 1200 1400
0
200
400
600
800
81
80
76 dB
78
L
WA
[A3]
76
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
Direct driven centrifugal fans / REM / Technical Data
Curves
29
REM 18-0200
REM 19-0200
REM 11-0200
REM 13-0200
Ex II 3G c IIB T3
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0200-2X-07-2G [A2] 0.37 2 71 230/400 50 g/Y 1.61/0.93 2825 60 1290 10/12/14/16
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0200-2D-07 [A1] 0.37 2 71 230/400 50 g/Y 1.73/1.00 2740 60 1290 10/12/14/16
60 Hz
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0200-2D-07-60 [A3] 0.43 2 71 460 60 Y 1.00 3288 60 1520 10/12/14/16
LG RD
134
67
6×M6
1×90
84+k2
127
?7
161
181
168 188
356
2×90
253
286
306 399
242
157 89
REM 11-0200
REM 13-0200
ZSH 08 ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
408
338
16
50
67
6×M6
1×90
84+k2
127
?7
161
181
130 25
6×?7.0
188 168
356
195
?12 230
130 25
2×90
253
286
306
?205
?235
?255
242
89
247
489
256×131
247
489
297
454
415
247
489
247
297
454
415
247
REM 18-0200
REM 19-0200
368
k2
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / REM / Technical Data
Technical Data
Dimensions in mm, subject to change.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
30
REM 18-0225
REM 19-0225
REM 11-0225
REM 13-0225
Pa
m3/h
pF
qV
REM 1.-0225-2D-07
REM 1.-0225-2X-07-2G
400 V
50 Hz
200
400
600
700
800
100
300
500
0
0 400 800 1200 1600
74 dB
77
75
L
WA
[B1/B2]
pd2
79
81
Pa
m3/h
pF
qV
REM 1.-0225-2D-07-60
460 V
60 Hz
0
400
800
1200
200
600
1000
0 500 1000 1500 2000
85
84
78 dB
81
L
WA
[B3]
79
pd2
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
Direct driven centrifugal fans / REM / Technical Data
Curves
31
REM 18-0225
REM 19-0225
REM 11-0225
REM 13-0225
Ex II 3G c IIB T3
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0225-2X-07-2G [B2] 0.37 2 71 230/400 50 g/Y 1.61/0.93 2825 60 1880 11/13/16/18
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0225-2D-07 [B1] 0.37 2 71 230/400 50 g/Y 1.73/1.00 2740 60 1880 11/13/16/18
60 Hz
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0225-2D-07-60 [B3] 0.43 2 71 460 60 Y 1.00 3288 60 2170 11/13/16/18
LG RD
149
74
6×M6
1×100
89+k2
142
?10
180
206
191 210
401
2×100
285
322
348 450
274
176 100
REM 11-0225
REM 13-0225
ZSH 08 ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
500
400
50
50
6×M6
1×100
89+k2
142
?10
180
206
6×?7.0
2×100
285
322
348
74
130 25
210 191
401
264
?12 300
130 30
?229
?259
?279
274
100
308
308
582
582
308
582
288×146
549
358
549
358
358
534
358
534
REM 18-0225
REM 19-0225
426
k2
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / REM / Technical Data
Technical Data
Dimensions in mm, subject to change.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19
32
REM 18-0250
REM 19-0250
REM 11-0250
REM 13-0250
Pa
m3/h
pF
qV
REM 1.-0250-2D-08
REM 1.-0250-2X-08-2G
400 V
50 Hz
0
400
800
200
600
1000
0 500 1000 1500 2000
78 dB
80
78
L
WA
[C1/C2]
pd2
83
84
qV m3/h
REM 1.-0250-2W-10-60
460 V
60 Hz
Pa
pF
0
400
800
1200
1400
200
600
1000
0 500 1000 1500 2000 2500 3000
83 dB
85
83
L
WA
[C3]
pd2
88
89
Density of media 1.2 kg/m3.
Measured in installation B according to ISO 5801 (ducted).
Direct driven centrifugal fans / REM / Technical Data
Curves
33
REM 18-0250
REM 19-0250
REM 11-0250
REM 13-0250
Ex II 3G c IIB T3
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0250-2X-08-2G [C2] 0.55 2 71 230/400 50 g/Y 2.42/1.40 2785 60 2550 15/17/21/23
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0250-2D-08 [C1] 0.55 2 71 230/400 50 g/Y 2.35/1.36 2800 60 2550 15/17/21/23
60 Hz
REM
11-/13-/18-/19- kW V Hz A 1/min °C m3/h kg
0250-2W-10-60 [C3] 0.86 2 80 M 460 60 Y 1.67 3366 60 3080 17/20/24/26
LG RD
167
83
6×M6
1×100
98+k2
160
?10
198
224
206 231
437
3×100
319
356
382 494
300
194 109
REM 11-0250
REM 13-0250
ZSH 08 ZSG ZKE 11 ZKF 11 ZKE 16 ZKF 16
LG 0 LG 90 LG 270 RD 0 RD 90 RD 270
83
6×M6
1×100
98+k2
?10
231 206
437
608
608
300
109
500
400
40.5
50
6×?7.0
130 25
264
?12 300
130 30
?256
?286
?306
308
308
608
308
322×164
514
308
514
308
358
552
358
552
3×100
319
356
382
224
198
160
REM 18-0250
REM 19-0250
435
k2
71 210
80 252
90 S 297
90 L 297
100 L 336
112 M 329
132 S 385
132 M 385
Direct driven centrifugal fans / REM / Technical Data
Technical Data
Dimensions in mm, subject to change.
Motor protection can take place through motor protection units with bi-metallic
releases (EUM 33) or via a thermistor (NTC) temperature sensor in connection with a
thermistor (NTC)-release device (EUM 03). See chapter "Accessories".
The direction of rotation is determined looking from the drive side.
Anti-clockwise rotation, symbol LG. Clockwise rotation, symbol RD.
Curves
Nominal
motor power Poles Motor size
Motor
voltage
Nominal
frequency Connection
Nominal
motor current
Nominal
motor speed
Max. media
Temperature
Max.
volume
flow
Weight REM
11/13/18/19