aerospace & military fans catalog€¦ · air conditioning systems avionics cooling uavs / pods...
TRANSCRIPT
AE
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• LMB About Us ............................................................................................................. p.3 From Design to Product ...................................................................................... p.3 OurCertifications ................................................................................................ p.3 Flexible Customer Support ................................................................................. p.3 •StandardLMBFanSPECIFICATION .......................................................................... p.4 •DCBrushlessFans Lenz ................................................................................................................... p.6 Thinfan50 ......................................................................................................... p.6Thinfan52 ......................................................................................................... p.6 Thinfan58.......................................................................................................... p.7Thinfan60 ......................................................................................................... p.8 Thinfan80.......................................................................................................... p.8Thinfan120 ...................................................................................................... p.9 Peltier / Pepite / Pourpier / Pluton .................................................................... p.10Optifan40 ......................................................................................................... p.12Optifan44 .......................................................................................................... p.14Optifan45 .......................................................................................................... p.16Optifan65 .......................................................................................................... p.18Optifan70 .......................................................................................................... p.20Optifan75 .......................................................................................................... p.22Optifan145........................................................................................................ p.24Optifan80 .......................................................................................................... p.26 •AC400HzFans Cumin ................................................................................................................. p.28 Candi ................................................................................................................... p.28 Cheri ................................................................................................................... p.29 Mortier-1 ............................................................................................................ p.29 Maxime2/Maxime4 ......................................................................................... p.30 Maximal2/Maximal4 ....................................................................................... p.31 Maryland-1 ......................................................................................................... p.32 Media2p5 ........................................................................................................... p.32 Mercator ............................................................................................................. p.33 Melba .................................................................................................................. p.33 Prodige/Pasteur/Persan/Pensee/Pastel ..................................................... p.34 Optifan145 ......................................................................................................... p.36 Marathon2/Marathon4 .................................................................................... p.37 •SpeedSignal ............................................................................................................ p.38• PWM ......................................................................................................................... p.39•0-5VDC ..................................................................................................................... p.40• Accessories C-Clamps ............................................................................................................ p.42 Fingersguards .................................................................................................... p.43•EquivalenceofUnits ................................................................................................. p.44•Hyperfancurves ....................................................................................................... p.47
CONTENTS
ABOUT US
LMB, founded over 100 years ago, have become one of the leading suppliers of fans, blowers, motors and specialized rotating machines.
LMB design and manufacture high performance fans and both AC (50 / 60 Hz. 400Hz and Wild Frequency) and DC (12 – 300 VDC) Brushless motors for the aerospace and defence markets with applications in aircraft, helicopters, pods and ground military vehicles.
LMB produce a wide range of fans and motors (more than 1000 off the shelf qualified products). Our engineering and manufacturing departments give us an unparalleled ability for new development. For specific requirements, we are very flexible in designing custom products in short time spans and meeting MIL / DO standards.
FLEXIBLE CUSTOMER SUPPORT
Feel free to contact us for all your requirements for standard or customized products. We will then be pleased to demonstrate all our capabilities of reactivity and flexibility to adapt our standard products to your specific needs.
AIR CONDITIONING SYSTEMS AVIONICS COOLING UAVs / PODs / MISSILES RACK & BAY VENTILATION SCAVENGE COUNTER MEASURE SYSTEMS CABIN TEMPERATURE SENSOR RADAR
OUR CERTIFICATIONS
ISO 9001 v2000 EN/AS 9100 PART 21G PART 145
FROM DESIGN TO PRODUCTION
LMB offer all the capabilities to design, develop and produce on site your FANS, BLOWERS and MOTORS.
Design Prototype development Performance and endurance tests Winding workshop Electronic workshop Machining line Assembly line
FEEL FREE TO CONTACT US ABOUT OUR OTHER PRODUCTS (HIGH PERFORMANCE FANS, CENTRIFUGAL BLOWERS AND ELECTRICAL MOTORS).email : [email protected]
www.lmbaerospace.com
2 3
LMB FANS ARE DESIGNED TO FULFILL THE FOLLOWING ENVIRONMENTAL CONDITIONS :
•Operating temperature range -55 / +85°C
•Storage temperature range -55 / +105°C (MIL-STD-810E, method 501.3 & 502.3)
•Altitude MIL-STD-810E Method 500.3, Procedure 1 and 2Normal operation for altitude variations up to 5000 ft/min up to an altitude of 50000 ft.
•Humidity MIL-STD-810E Method 507.3, Procedure 1 Normal operation when relative humidity is higher or equal to 95% throughout the temperature range.
•Sand and dust MIL-STD-810E Method 510.3Normal operation with 50% reduced sand and dust concentration.Increased tip clearance (sand and dust) for 100 % concentra-tion available as option.
•Sea spray MIL-STD-810E Method 509.3, Procedure 1 (NaCl : 5%)Operating : 96 hrs / Non operating : 120 hrs
•Fungus MIL-STD-810E Method 508.4 (28 days)
• Vibration MIL-STD-810F Method 514.5
• Shock MIL-STD-810F Method 516.5, Procedure 1
• Acceleration MIL-STD-810F Method 513.5, Procedure 2
STANDARD LMB FAN SPECIFICATION
MECHANICAL CONDITIONS
CLIMATIC CONDITIONS
LMB IS FLEXIBLE IN DESIGNING CUSTOM PRODUCTS :
MECHANICAL• Servo ring• Square flange• 3 mounting points• Round flange• Flatted flange
ELECTRICAL • Flying leads• Shielded leads• Terminal block• MS Connector• D38999 Connector
NOMINAL VOLTAGE• From 12VDC to 48VDC
INPUT SIGNAL• 0-5VDC speed control• PWM speed control• Two-speed
SPEED SIGNAL• Low Speed Warning (LSW)• Fan Performance Signal (FPS) - Open Collector - 5VDC, 7.5VDC, 10VDC or 12VDC - 30/rpm or 60/rpm
HARSH ENVIRONMENTAL CONDITIONS• IP68 (potting)• Painting finish• Increased tip clearance for sand and dust
LMB CUSTOMIZATION
4 5
THINFAN 50
THINFAN 52
THINFAN 58
LENZ
Part Number PowerSupply
Speed (rpm)
Input Power(Watts)
Input Current(Amps)
Starting Current(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve Speed Signal
F.P.S L.S.W
00000664 12VDC 18000 27 2,2 - 0.32/0.71 87 Fig.1 Fig.A - -00000958 28VDC 18000 27 0,85 - 0.32/0.71 87 Fig.1 Fig.B - -
Fig.A
Part Number PowerSupply
Speed (rpm)
Input Power(Watts)
Input Current(Amps)
Starting Current(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve Speed Signal
F.P.S L.S.WSpeed Control**
PWM
00-85001589-001 28VDC 3000 0,6 0,022 0,15 0.035/0.077 32 Fig.1 Fig.A √ - -00-85001590-001 28VDC 7500 2,7 0,097 0,15 0.035/0.077 38 Fig.2 Fig.B √ - -
Part Number PowerSupply
Speed (rpm)
Input Power(Watts)
Input Current(Amps)
Starting Current(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve Speed Signal
F.P.S L.S.WSpeed Control**
PWM
00-85001386-001 28VDC 3000 0,6 0,022 0,15 0.035/0.077 32 Fig.1 Fig.A √ -00-85001387-001 28VDC 6500 1,8 0,063 0,15 0.035/0.077 38 Fig.2 Fig.B √ -00-85001389-001 12VDC 6500 1,4 0,12 0,2 0.035/0.077 38 Fig.2 Fig.B √ -00-85001402-001 12VDC 6500 1,4 0,12 0,2 0.035/0.077 38 Fig.1 Fig.B √ -00-85001403-001 28VDC 6500 1,8 0,063 0,15 0.035/0.077 38 Fig.1 Fig.B √ -00-85001440-001 28VDC 7500 2,7 0,097 0,15 0.035/0.077 38 Fig.2 Fig.C √ -00-85001525-001 28VDC 7500 2,7 0,097 0,15 0.035/0.077 38 Fig.1 Fig.C √ -00-85001574-001 28VDC 7500 2,7 0,097 0,15 0.035/0.077 38 Fig.1 Fig.C √ √
Part Number PowerSupply
Speed (rpm)
Input Power(Watts)
Input Current(Amps)
Starting Current(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve Speed Signal
F.P.S L.S.WSpeed Control**
PWM
00-85001642-001 12VDC 5500 3 0,25 0,35 0.055/0.121 38 Fig.1 Fig.A √ - -00-85001701-001 28VDC 5500 3 0,1 0,25 0.055/0.121 38 Fig.1 Fig.A √ - -00-85001845-001 12VDC 5500 3 0,25 0,35 0.055/0.121 38 Fig.1 Fig.A √ - √
*Refer to page 38 speed signal, FPS: type5
*Refer to page 38 speed signal, FPS: type5 / Refer to page 42 «accessories» /** Refer to page 39 "PWM"
*Refer to page 38 speed signal, FPS: type3 / ** Refer to page 39 "PWM"
Fig.A
Fig.A
Fig.B
Fig.B Fig.C
0
1
2
3
4
5
6
7
8
0 50 100 150 200 250 300 350 400
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0.0402
1.75 3.5 5.25 7 8.75 10.5 12.25 14
0.0804
0.1206
0.1608
0.201
0.2412
0.2814
0.3216
0
1
2
3
4
5
6
7
8
0 50 100 150 200 250 300 350 400
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0.0402
1.75 3.5 5.25 7 8.75 10.5 12.25 14
0.0804
0.1206
0.1608
0.201
0.2412
0.2814
0.3216
0
10.0402
1.75 3.5 5.25 7 8.75 10.5 12.25
0.0804
0.1206
0.1608
0.201
0.2412
2
3
4
5
6
0 50 100 150 200 250 300 350
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0,0
0,50,00201
0.7 1.4 2.1 2.8 3.5 4.2 4.9 5.6 6.3
0.0402
0.0603
0.0804
0.1005
0.1206
0.1407
1,0
1,5
2,0
2,5
3,0
3,5
0 20 40 60 80 100 120 140 160 180
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0,0
0,50,00201
0.7 1.4 2.1 2.8 3.5 4.2 4.9 5.6 6.3
0.0402
0.0603
0.0804
0.1005
0.1206
0.1407
1,0
1,5
2,0
2,5
3,0
3,5
0 20 40 60 80 100 120 140 160 180
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0,1407 0,3216
0,28140,1206
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
3,5 8
7
6
5
4
3
2
1
0 50 100 150 200 250 300 350 400
2,5
1,5
1,0
0,5
00 20 40 60 80 120 140 160 180
2,0
3,0
Fig.A
0,1005
0,0804
0,0603
0,0402
0,00201
0,7 1,4
Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM
2,1 2,8 3,5 4,2 4,9 5,6 6,3
0,2412
0,201
0,1608
0,1206
0,0804
1,75 3,5 5,25 7 8,75 10,5 12,25 14
0,0402
0,1407
0,201
0,1608
0,1206
0,0804
0,0402
0,1206
0,1005
0,0804
0,0603
0,00201
0,0402
3,5 68
7
6
5
4
3
2
1
00 50
1,75
5
4
3
2
1
00 50 100 150 200 250 300 350
1,75 10,5 12,25
3,0
2,5
2,0
1,5
0,5
00 20 40 60 80 100 120 140 160 180
1,0
Volumetric Flow Rate, L/mn - CFM0,7 1,4 2,1 2,8 3,5 4,2 4,9 5,6 6,3 3,5 5,25 7 8,75
Volumetric Flow Rate, L/mn - CFM
0,24120,3216
0,2814
0,2412
0,201
0,1608
0,1206
0,0804
0,0402
Volumetric Flow Rate, L/mn - CFM
100 150 200 250 300 350 4003,5 5,25 7 8,75 10,5 12,25 14
Fig.2
0.169" ±.01"4X Ø4.5 ±0.3
50 ±0.7
24 ±
0.3
24 ±0.3
40
40
20
20
5.5 Maxi
12 Maxi
Airflow
25 m
ini
300
min
i
Rotation
1.97" ±.03"
1.9
7"
±.0
3"
0.9
84
.94
" ±
.01
"
. 94" ±.01"
11
.81
1 .57"
1.5
7"
.79"
.79
"
0 .21"
.47"
Fig.1
0.169" ±.01"4X Ø4.5 ±0.3
50 ±0.7
24 ±
0.3
50
±0
.7
40
Rotation
Airflow
40
20
20
300
min
i
12 mini
25 m
ini
1.97" ±.03"
.94" ± .01"
.94"
±.0
1"
11.8
1
1.97
" ±
.03"
1.57"
.79".47"
.47"
1.57
"
0.98
4
Fig.1
.17" ±.01"
2.36" ±.02"
2.3
6"
±.0
2"
1 .97" ±.01".47" ±.01"
12
.2"
min
0.9
8"
min
i2
5 m
ini
31
0 m
ini
4X Ø4.3 ±0.3
60 ±0.5
60 ±
0.5
12 ±0.3
AirflowSens de l'air
50 ±0.3
1.9
7"
±.0
1"
50 ±
0.3
Fig.1
0.169" ±.01" 2.05" ±.02"
.47"
2.05
" ±
.02"
1.57" ±.01"
1.57
" ±
.01"
4X Ø4.5 ±0.3 52 ±0.5
40 ±0.3
52 ±
0.5
40 ±
0.3
300
min
i
25 m
ini
12 maxi
11,8
1
0,98
4
Fig.2
0.169" ±.01" 2.05" ±.02"
2.05
" ±
.02"
.47"1.57" ±.01"
1.57
" ±
.01"
4X Ø4.5 ±0.3
40 ±0.3
40 ±
0.3
52 ±0.5
5.5 maxi12 maxi
0.21
52 ±
0.5
300
min
i
25 m
ini
11,8
1
0,98
4
Fig.1
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
1003,5 7
500 60010,5 14 17,5 21
4,500,18
0,16
0,14
0,12
0,10
0,08
0,06
0,04
0,02
4,00
3,50
2,50
1,50
0,50
00
1,00
3,00
2,00
200 300 400
Volumetric Flow Rate, L/mn - CFM
0
0
6 7
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00-85001620-001 12VDC 12000 12 1 2,3 0.115/0.253 60 Fig.1 Fig.A √ - -00-85001621-001 12VDC 12000 12 1 2,3 0.115/0.253 60 Fig.1 Fig.A - √ -00-85001622-001 28VDC 12000 12 0,43 2,3 0.115/0.253 60 Fig.1 Fig.A √ - -00-85001623-001 28VDC 12000 12 0,43 2,3 0.115/0.253 60 Fig.1 Fig.A - √ -00-85001624-001 28VDC 12000 12 0,43 2,3 0.115/0.253 60 Fig.1 Fig.A √ - √
*Refer to page 38 speed signal, FPS: type 2 / **Refer to page 39 «PWM» / Refer to page 42 «Accessories»
THINFAN 120
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control0-5 VDC PWM
00-85001630-001 24VDC 8000 34 1,4 5,0 0,45/1,0 35 Fig.1 Fig.A √ - - -00-85001563-002 28VDC 11000 78 2,8 5,0 0.45/1,0 65 Fig.1 Fig.B √ - - -00-85001613-001 28VDC 11000 78 2,8 5,0 0.45/1,0 65 Fig.1 Fig.B √ - √ -00-85001714-001 28VDC 11000 78 2,8 5,0 0,45/1,0 65 Fig.1 Fig.B √ - - √00-85001762-001 28VDC 15000 196 7 10 0,6/1,32 68 Fig.2 Fig.C √ - - -
THINFAN 80
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00-85001790-001 24VDC 10500 32,4 1,35 2,4 0.35/0.62 70 Fig.1 Fig.A √ - -00-85001746-001 28VDC 14000 56 2,0 3,0 0.35/0.62 76 Fig.1 Fig.B √ - -
*Refer to page 38 speed signal, FPS: type1
Fig.A Fig.B
Fig.A
Fig.C
Fig.B
0,0
20,0
40,0
60,0
80,0
100,0
120,0
140,0
0,0
0,80
1,61
2,41
3,21
4,01
4,82
5,62
0 1000 2000 3000 4000 5000 6000 7000
0 35,3 70,6 105,9 141,3 176,6 211,9 247,2
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
Fig.A
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
0,0
0,08
0,16
0,24
0,32
0,40
0,48
0,56
0 200 400 600 800 1000 1200 14000 7,1 14,1 21,2 28,2 35,3 42,4 49,4
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Volumetric Flow Rate, L/mn - CFM
0,56
0,48
0,40
0,32
0,24
0,16
0,08
7,1 14,1 21,2 28,2 35,3 42,4 49,4
14,0
12,0
10,0
8,0
6,0
4,0
2,0
00 200 400 600 800 1000 1200 1400
140,0
120,0
100,0
80,0
60,0
40,0
20,0
00 1000 2000 3000 4000 5000 6000 7000
5,62
4,82
4,01
3,21
2,41
1,61
0,80
35,3 70,6 105,9 141,3 176,6 211,9 247,2
Stat
ic p
ress
ure
Rise
, daP
a in
.H20
Fig.1
[ 1
1.8
1"
Min
]
[ 1 .96" Min ]300
Min
i119 ±0.75
119
±0.
75
2x4x Ø4.3 ±0.20
H
38 ±0.75
4 ±0.304 ±0.30
0.4 Maxi0.02" Max
104.8 ±0.25
104.
8 ±
0.25
[ 4.69" ±0.03" ]
[ 4.
69"
±0.
03"
]
[ 1.5" ±0.03" ]
[ 0.16" ±0.01" ][ 0.16" ±0.01" ]
[ 4.13" ±0.01" ]
[ 4.
13"
±0.
01"
]
[ 2x4xØ 0.17" ±0.01" ]
H
50 Mini
Black heat shrinkable sleeving(gaine thermorétractable noire)
ROTATION
AIRFLOW
Manufacturer label
Fig.2
[ 2
2"
Min
]
[ 1
9.7
" M
in ]
[ 4
.13
" ±
0.0
1"
]
[ 4
.69
" ±
0.0
3" ]
[ 2x4x Ø0.17" ± 0.01" ]
[ 4.13" ±0.01" ]
[ 4.69" ±0.03" ]
[ 0.37" ±0.04" ]9.5 ±19.5 ±1
Partie rigide 25 Typ
[ 0.02" Max ]
[ 0.16" ± 0.01" ]
[ Rigid part 0.98" Typ ]
500
Min
i
560
Min
i11
9 ±
0.75
2x4x Ø4.3 ±0.20
104.8 ±0.25
119 ±0.75
104.
8 ±
0.25
Bonding area ROTATION
AIRFLOW
Manufacturer Label
[ 0.16" ±0.01" ]
[ 1.5" ±0.03" ]
4 ±0.30 0.4 Maxi
4 ±0.3038 ±0.75
Fig.1
3.15" ±0.004"0.24" ±0.02" 0.24" ±0.02"
3.15" ±0.01"
2.81" ±0.01"
1.5" ±0.02"
0.39" ±0.02"
12.2" ±0.39"
0.39" ±0.02"
80 ±0.3
310 ±10
38 ±0.5
6 ±0.5
80 ±0.3
71,5 ±0.2
8X UNC 6-32
10 ±0.5
Airflow
6 ±0.5
10 ±0.5
Fig.1
*Refer to page 38 speed signal, FPS: type 2 / ** Refer to page 39 "PWM" / *** Refer to page 41 "0-5 VDC"
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Volumetric Flow Rate, L/mn - CFM
602,4
2,0
1,6
1,2
0,8
0,4
18 35 53 70 88 105
50
40
30
20
10
0 500 1000 1500 2000 2500 3000 3500
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Volumetric Flow Rate, L/mn - CFM
803,2
2,8
2,4
2,0
1,6
1,2
0,8
0,4
70
60
50
40
30
20
10
0 500 1000 1500 2000 2500 3000 3500 4000 450018 35 53 70 88 105 123 140
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Volumetric Flow Rate, L/mn - CFM
60
50
40
30
20
10
00 1000 2000 3000 4000
35 70 105 140
2,4
2,0
1,6
1,2
0,8
0,4
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
.H2O
Volumetric Flow Rate, L/mn - CFM
250
200
150
100
50
00 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
35 70 105 140 175 210 245 280 315
10,0
8,0
6,0
4,0
2,0
60 ±0.3
32 ±0.3
6 Maxi
Airflow
4x M3 8+10
50 ±0.2
2.36" ±.01"
1.26" ±.01"
0.24" Max
1.97" ±0.01"
0
THINFAN 60
0
98 9
PELTIER / PEPITE / POURPIER / PLUTON
Fig.CFig.BFig.A
Fig.FFig.EFig.D
Fig.H Fig.I
0
50.201
35 70 105 140 175 210 245
0.402
0.603
0.804
1.005
1.206
1.407
1.608
10
15
20
25
30
35
40
0 1000 2000 3000 4000 5000 6000 7000
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
Fig.G
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*/**F.P.S L.S.W
PELTIER 00000737 26VDC 5500 7 0.26 1.6 0.210/0.463 55 Fig.1 Fig.A √ –
PEPITE
00000914 26VDC 3700 4 0.15 1 0.310/0.685 60 Fig.2 Fig.G – –00000936 26VDC 4035 5 0.19 1.2 0.310/0.685 62 Fig.2 Fig.H – –00000507 26VDC 6400 13 0.5 3 0.310/0.685 72 Fig.2 Fig.B – –
POURPIER
00000628 12VDC 5000 9 0.8 2.25 0.23/0.51 66 Fig.3 Fig.C – –00000790 26VDC 5600 12 0.46 2 0.23/0.51 66 Fig.3 Fig.C √ –00001255 26VDC 7300 22 0.8 3.5 0.23/0.51 73 Fig.3 Fig.F √ –
PLUTON
00000625 26VDC 3500 8 0.3 1.34 0.45/1 63 Fig.4 Fig.D √** –00000771 24VDC 3800 9 0.4 1.9 0.45/1 63 Fig.4 Fig.E √** –00001274 28VDC 6000 42 1.5 3 0.45/1 68 Fig.4 Fig.I √* –
* Refer to page 38 «speed signal», FPS: type 3 ** Refer to page 38 «speed signal», FPS: type 1 / Refer to page 42 «accessories»
Fig.1
Fig.2
Fig.3
Fig.4
[0.16"
[0.16" ]
4
4
38.1 ±0.75
119 ±0.75
119
±0.
75
104.8 ±0.25
2x4x Ø4.2 ±0.25
104.
8 ±
0.25
[4.69" ±0.03"]
[4.6
9" ±
0.03
"]
[4.13" ±0.01"]
[4.1
3" ±
0.01
"]
300
Min
i
50 Mini
[1.96" Min]
[1.5" ±0.03"]
[11.
81"
Min
]
0
0.0"
0.0"-0.4
-0.02"
-0.02"
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
40
6 740
35
30
25
20
15
10
5
1000 3000 4000 5000 6000 700000
00
65
5
4
4
33
22
1 1
200 2001000 10001200 12000 00
0
35
30
25
20
15
10
5
500 10000
0
1,6
0,24 0,281,608
1,407
1,206
1,005
0,804
0,603
0,402
0,201
35
0,240,20
0,20
0,16
0,16
0,120,12
0,080,08
0,04 0,04
70
0 0
735 3542 42
1,4
1,2
1,0
0,8
0,6
0,4
0,2
180
0
35Volumetric Flow Rate, L/mn - CFM
1500 2000 2500 3000 350052 70 88 106 123
0400 400600 600800 800
Volumetric Flow Rate, L/mn - CFM
200070 105 140 175 210 245
-0.40
]
]
14 21 28Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM
14 21 28
10 11
OPTIFAN 40
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00001086 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.1 Fig.A √ - -00001153 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.1 Fig.A - √ -00001121 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.2 Fig.A √ - -00001154 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.2 Fig.A - √ -00001155 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.3 Fig.A √ - -00001156 26VDC 17000 9 0,35 2,2 0,08/0,18 62 Fig.3 Fig.A - √ -00001157 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.1 Fig.B √ - -00001158 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.1 Fig.B - √ -00001159 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.2 Fig.B √ - -00001160 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.2 Fig.B - √ -00001161 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.3 Fig.B √ - -00001162 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.3 Fig.B - √ -
00-85001445-001 26VDC 26000 26 1 2,2 0,08/0,18 78 Fig.1 Fig.B √ - √
* Refer to page 38 «speed signal», FPS: type 2 / ** Refer to page 39 «PWM» / Refer to page 42 «accessories»
Fig.B
Fig.A
Fig.1
Fig.2
Fig.3
12 13
OPTIFAN 44
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00001283 12VDC 9500 3,2 0,25 0,8 0,09/0,2 58 Fig.1 Fig.A √ - -00001261 28VDC 9500 3,2 0,12 0,8 0,09/0,2 58 Fig.1 Fig.A √ - -00001265 28VDC 9500 3,2 0,12 0,8 0,09/0,2 58 Fig.2 Fig.A √ - -00001163 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.1 Fig.B √ - -00001164 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.1 Fig.B - √ -00001165 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.2 Fig.B √ - -00001166 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.2 Fig.B - √ -00001167 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.3 Fig.B √ - -00001168 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.3 Fig.B - √ -
00-85001384-001 28VDC 15000 6,5 0,23 2,2 0,09/0,2 68 Fig.4 Fig.B - √ -00001032 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.1 Fig.C √ - -00001169 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.1 Fig.C - √ -00001081 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.2 Fig.C √ - -00001170 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.2 Fig.C - √ -00001171 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.3 Fig.C √ - -00001172 28VDC 19000 12 0,43 2,2 0,09/0,2 74 Fig.3 Fig.C - √ -00001033 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.1 Fig.D √ - -00001173 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.1 Fig.D - √ -00001080 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.2 Fig.D √ - -00001174 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.2 Fig.D - √ -00001115 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.3 Fig.D √ - -00001175 28VDC 27000 24 0,85 2,2 0,09/0,2 84 Fig.3 Fig.D - √ -
00-85001367-001 28VDC 32000 37 1,29 2,2 0,09/0,2 85 Fig.1 Fig.E √ - -00-85001369-001 28VDC 32000 37 1,29 2,2 0,09/0,2 85 Fig.1 Fig.E - √ -00-85001446-001 28VDC 32000 37 1,29 2,2 0,09/0,2 85 Fig.1 Fig.E √ - √
Fig.A
0
5
10
15
200.804
0.603
0.402
0.201
1.75 3.5 5.25 7 8.75 10.5 12.25 140 50 100 150 200 250 300 350 400
Sta
tic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
Fig.D
Fig.B
Fig.E
0
20
3.5 7 10.5 14 17.5 21 24.5 28 31.5 35 38.5 42 45.5 49
40
60
80
100
120
140
160
180
0 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400
Sta
tic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0.8
1.6
2.4
3.2
4.0
4.8
5.6
6.4
7.2
Fig.C
* Refer to page 38 «speed signal», FPS: type 2 / ** Refer to page 39 «PWM» / Refer to page 42 «accessories»
Fig.1
Fig.3
Fig.44
Hol
es Ø
3.2
+ 0.
20
Fig.2
14 15
OPTIFAN 45
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00-85001375-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.1 Fig.A √ - -00-85001447-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.1 Fig.A - √ -00-85001448-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.2 Fig.A √ - -00-85001449-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.2 Fig.A - √ -00-85001450-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.3 Fig.A √ - -00-85001451-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.3 Fig.A - √ -00-85001452-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.4 Fig.A √ - -00-85001453-001 28VDC 9500 6,5 0,23 2,2 0,12/0,27 60 Fig.4 Fig.A - √ -00-85001382-001 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.5 Fig.B √ - -
00001043 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.1 Fig.B √ - -00001176 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.1 Fig.B - √ -00001005 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.2 Fig.B √ - -00001177 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.2 Fig.B - √ -00001178 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.3 Fig.B √ - -00001179 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.3 Fig.B - √ -00001001 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.4 Fig.B √ - -00001180 28VDC 14500 18 0,6 2,2 0,12/0,27 71 Fig.4 Fig.B - √ -00001038 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.1 Fig.C √ - -00001181 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.1 Fig.C - √ -00001182 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.2 Fig.C √ - -00001183 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.2 Fig.C - √ -00001184 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.3 Fig.C √ - -00001185 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.3 Fig.C - √ -00000954 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.4 Fig.C √ - -00001186 28VDC 18000 25 0,9 2,2 0,12/0,27 78 Fig.4 Fig.C - √ -00001123 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.1 Fig.D √ - -00001187 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.1 Fig.D - √ -00001188 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.2 Fig.D √ - -00001189 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.2 Fig.D - √ -00001190 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.3 Fig.D √ - -00001191 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.3 Fig.D - √ -00000979 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.4 Fig.D √ - -00001192 28VDC 20000 34 1,2 2,2 0,12/0,27 80 Fig.4 Fig.D - √ -00001109 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.1 Fig.E √ - -00001193 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.1 Fig.E - √ -00001194 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.2 Fig.E √ - -00001195 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.2 Fig.E - √ -00001023 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.3 Fig.E √ - -00001196 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.3 Fig.E - √ -00001132 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.4 Fig.E √ - -00001197 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.4 Fig.E - √ -
00-85001420-001 31VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.6 Fig.E √ - -00-85001411-001 28VDC 22000 42 1,5 2,2 0,12/0,27 85 Fig.1 Fig.E √ - √
* Refer to page 38 «speed signal», FPS: type 2 / ** Refer to page 39 «PWM» / Refer to page 42 «accessories»
Fig.A Fig.B Fig.C
0
50.201
3.5 7 10.5 14 17.5 21 24.5 28
0.402
0.603
0.804
0.804
1.206
10
15
20
25
30
0 100 200 300 400 500 600 700 800
Sta
tic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
Fig.1 Fig.2
Fig.3
Fig.5
Fig.4
Fig.6
Fig.D Fig.E
[ 1.47” ± 0.03” ][ 0.093” ± 0.003” ]
[ 0.06” ± 0.03” ]
[ 1.41” ± 0.03” ]
[ 0.093” ± 0.003” ]
[ 0.06” ± 0.03” ]
[ Ø
1.9
9”
± 0
.01
” ]
[ Ø
2.18
” ±
0.0
1” ]
[ Ø
2.1
8”
± 0
.01”
]
[ Ø
1.9
9”
± 0
.01
” ]
[ 1 .99” ]
[ 1.65” ]
[ 1
.65
” ]
[ 0.37” ± 0.02” ][ 0.37” ± 0.02” ]
[ 0.1” ± 0.01” ]
[ Ø
1.1
6”
Ma
x ]
[ Ø
1.1
1”
± 0
.03
” ]
[ Ø
1.1
1”
± 0
.03
” ]
[ Ø
1.98
” ±
0.0
1” ]
[ 1.
99”
± 0
.01”
]5
0,5
5±
0,2
5
4x Ø3,2 42
42
Ø2
8,2
±0
,80
Ø2
8,2
±0
,80
Ø5
5,2
7 ±
0,2
5
Ø5
5,2
7 ±
0,2
5
2 ,36 ±0,080
Rotation
Air Flow
35,81 ±0,80
Ø5
0,5
5 ±
0,2
5
Ø5
0,5
5 ±
0,2
5
1 ,5 ±0,80
Ø5
0,2
±0
,25
Ø2
9,5
Max
i
9 ,5 ±0,509,5 ±0,50
2,36 ±0,08
1,52 ±0,80
2,5 ±0,25
37,3 ±0,80
Manufacturer label(plaque signalétique)
Air Flow
2 Maxi
50,55
[ 0.08” Max ]
[ 0.13” ]+ 0.01”0”
[ 1
.44
”
]+
0.0
4”
0”
15
Rotat ion
[ 0.59” ]+ 0”0.04”
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
50 70
60
50
40
30
20
10
00
40
30
20
10
00
2,0 2,8
2,4
2,0
1,6
1,2
0,8
0,4
1,6
1,2
0,8
0,4
200 400 600 800 1000 12007 14 21 28 35 42
Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM
200 400 600 800 1000 1200 14007 14 21 28 35 42 49
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
70
60
50
40
30
20
10
200 400 600 800 1000 1200 140000
00
2,8
2,4
2,0
1,6
1,2
0,8
0,4
7 14 21 28 35 42 49Volumetric Flow Rate, L/mn - CFM
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
100
90
80
70
60
50
40
30
20
10
200 400 600 800 1000 1200 1400 1600 180000
00
4,0
3,6
3,2
2,8
2,4
2,0
1,6
1,2
0,8
0,4
7 14 21 28 35 42 49 56 63Volumetric Flow Rate, L/mn - CFM
0-1
+0,2
36
,5+
1 0
0
36
,5+
1 0
[ 1
.43
”
]+
0.0
4”
0”
[ 0 .59” ]+ 0,0”0.04”
15 0-1
16 17
OPTIFAN 65
Fig.E Fig.FFig.D
Fig.A Fig.B Fig.C
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*/** F.P.S L.S.W
00001198 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.1 Fig.A √** -00001199 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.1 Fig.A - √00001200 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.2 Fig.A √** -00001201 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.2 Fig.A - √00001202 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.3 Fig.A √** -00001203 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.3 Fig.A - √00000941 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.4 Fig.A √** -00001204 28VDC 9500 12 0,4 2,2 0,3/0,66 70 Fig.4 Fig.A - √00001205 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.1 Fig.B √** -00001206 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.1 Fig.B - √00001207 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.2 Fig.B √** -00001208 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.2 Fig.B - √00001209 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.3 Fig.B √** -00001210 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.3 Fig.B - √00001129 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.4 Fig.B √* -00001211 28VDC 11000 21 0,8 2,2 0,3/0,66 73 Fig.4 Fig.B - √00001212 28VDC 15000 48 1,4 7 0,35/0,77 80 Fig.2 Fig.C √** -00001213 28VDC 15000 48 1,4 7 0,35/0,77 80 Fig.2 Fig.C - √00001141 28VDC 15000 48 1,4 7 0,35/0,77 80 Fig.4 Fig.C √** -00001214 28VDC 15000 48 1,4 7 0,35/0,77 80 Fig.4 Fig.C - √00001215 28VDC 18000 84 3 7 0,35/0,77 84 Fig.2 Fig.D √** -00001216 28VDC 18000 84 3 7 0,35/0,77 84 Fig.3 Fig.D - √00001217 28VDC 18000 84 3 7 0,35/0,77 84 Fig.4 Fig.D √** -00001218 28VDC 18000 84 3 7 0,35/0,77 84 Fig.4 Fig.D - √00001219 28VDC 20000 118 4,2 7 0,35/0,77 87 Fig.2 Fig.E √** -00001220 28VDC 20000 118 4,2 7 0,35/0,77 87 Fig.2 Fig.E - √00001221 28VDC 20000 118 4,2 7 0,35/0,77 87 Fig.4 Fig.E √** -00001222 28VDC 20000 118 4,2 7 0,35/0,77 87 Fig.4 Fig.E - √00001223 28VDC 22000 120 4,3 7 0,35/0,77 90 Fig.2 Fig.F √** -00001224 28VDC 22000 120 4,3 7 0,35/0,77 90 Fig.2 Fig.F - √00001225 28VDC 22000 120 4,3 7 0,35/0,77 90 Fig.4 Fig.F √** -00001226 28VDC 22000 120 4,3 7 0,35/0,77 90 Fig.4 Fig.F - √00001264 28VDC 22000 120 4,3 7 0,35/0,77 90 Fig.5 Fig.F - √
* Refer to page 38 «speed signal», FPS: type 2 / ** Refer to page 38 «speed signal», FPS: type 1 / Refer to page 42 «accessories»
Fig.1 Fig.2
Fig.3 Fig.4
Fig.5
[ 0.59” ± 0.02” ]15 ± 0.5
4x 4±0,20x45°4x Ø3,2±0,10
Ø71
,425
±0,
500
Ø40
,8+
0,6
0
60,19±0,70
2,5±0,309 Maxi
Air Flow
72±0,20
56,57
49 M
axi
Rotation
[ 1.
93”
Max
]
[ 2 .83” ± 0.01” ]
[ 0.35” Max ][ 4x Ø0.126” ±0.004” ]
[ Ø
2.8
1”
±0
.02
” ]
[ 2 .37” ±0.03” ]
[ 0.1” ±0.01” ]
72 [
2,8
3” ]
72 [ 2,83” ]
4 Holes Ø3,2 [ Ø0,13” ]
Ø71
,425
[ Ø
2,81
” ]
Ø40
,8 [
Ø1,
61”
]
Ø71
,425
[ Ø
2,81
” ]
9 Maxi [ 0,35” max ] 2,5 [ 0,10” ]
60,19 [ 2,37” ]
56,5
7 [2
,23”
]
56,57 [2,23”]
[ 2.23” ]
[ Ø
1.61
”
]+
0.0
2”
0”
[ 0.59” ±0.02” ]15 ±0.5
49 M
axi
[ Ø
3”
±0
.01
” ]
[ Ø
2.8
1”
±0
.01
” ]
[ Ø
2.8
1”
±0
.01
” ]
[ 0 .35” Max ]
[ 0.06” ±0.03” ]
[ 0.09” ±0” ]
[ 2.31” ±0.01” ]
[ 0.06” ±0.03” ]
[ 0.09” ±0” ]
[ Ø
3”
±0
.01
” ]
Ø7
6,2
[Ø
3,0
0”]
Ø7
6,2
[Ø
3,0
0”]
Ø4
0,8
[Ø
1,6
1”]
9 Maxi [0,35”max]
75
Ma
xi [
2,9
5”m
ax]
2 ,362 [0,09”] 2,362 [0,09”]
1,52 [0,06”] 1,52 [0,06”]
58,67 [2,31”]
Ø7
1,4
25
[Ø
2,8
1”]
Ø7
1,4
25
[Ø
2,8
1”]
[ 1
.93
” M
ax
] [ Ø
1.61
”
]+
0.0
2”
0”
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
25
100 100 120
100
80
60
40
20
500 1000 1500 2000 2500 3000 3500 4000 45000000
90 90
80 80
70 70
60 60
50 50
40 40
30 30
20 20
10 10
500 5001000 10001500 15002000 20002500 25003000 30003500 35004000 400000 00
00
00
30 60
50
40
30
20
10
500 1000 1500 2000 2500 30000000
25
20
15
10
5
500 1000 1500 2000 25000000
20
15
10
5
200 400 600 800 1000 1200 1400 1600 1800 200000
00
Volumetric Flow Rate, L/mn - CFM
Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM
Volumetric Flow Rate, L/mn - CFM Volumetric Flow Rate, L/mn - CFM
2,0
4,0 4,0 4,8
4,0
3,2
2,4
1,6
0,8
18 35 52 70 88 106 123 140 158
3,6 3,6
3,2 3,2
2,8 2,8
2,4 2,4
2,0 2,0
1,6 1,6
1,2 1,2
0,8 0,8
0,4 0,4
18 1835 3552 5270 7088 88106 106123 123140 140
1,2 2,4
2,0
1,6
1,2
0,8
0,4
18 35 52 70 88 106
1,0
0,8
0,6
0,4
0,2
18 35 52 70 88
0,8
0,6
0,4
0,2
7 14 21 28 35 42 49 56 63 70
Ø40
,8
Ø76
,2 ±
0,25
9 Maxi
Ø76
,2 ±
0,25
1,52 ±0,70
58,67 ±0,30
1,52 ±0,70
2,36 ±0,07
2,36 ±0,07
Ø71
,425
±0,
250
Ø71
,425
±0,
250
+0,
60
76,2
±0,
25 [
Ø3,
00±
0,01
”]
76,2
±0,
25 [
Ø3,
00±
0,01
”]
Ø71
,425
±0,
25 [Ø
2,81
±0,
01”]
Ø71
,425
±0,
25 [
Ø2,
81±
0,01
”]
9 Maxi [0,35” Max]
2,362±0,07 [0,09”±0,003”] 2,362±0,07 [0,09”±0,003”]
58,67±0,7 [2,31”±0,03”]
1,52±0,7 [0,06”±0,03”] 1,52±0,7 [0,06”±0,03”]
Ø40
,8+
0,6
0
Ø0,2
18 19
OPTIFAN 70
Fig.C Fig.D
Fig.BFig.A
0
5
10
15
200.804
0.603
0.402
0.201
7 14 21 28 35 42 49 56 630 200 400 600 800 1000 1200 1400 1600 1800
Stat
ic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
Speed Control**
PWM
00-85001438-001 28VDC 8400 5 0,18 2,2 0,22/0,48 57 Fig.5 Fig.A - √ -00001227 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.1 Fig.B √ - -00001228 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.1 Fig.B - √ -00001229 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.2 Fig.B √ - -00001230 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.2 Fig.B - √ -00001231 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.3 Fig.B √ - -00001232 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.3 Fig.B - √ -00001139 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.4 Fig.B √ - -00001233 28VDC 10000 7 0,25 2,2 0,17/0,38 60 Fig.4 Fig.B - √ -
00-85001416-001 28VDC 10000 7 0,25 2,2 0,22/0,48 60 Fig.5 Fig.B √ - -00-85001409-001 28VDC 10000 7 0,25 2,2 0,22/0,48 60 Fig.5 Fig.B - √ -
00001103 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.1 Fig.C √ - -00001234 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.1 Fig.C - √ -00001235 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.2 Fig.C √ - -00001236 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.2 Fig.C - √ -00001237 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.3 Fig.C √ - -00001238 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.3 Fig.C - √ -00001239 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.4 Fig.C √ - -00001240 28VDC 12000 11 0,4 2,2 0,17/0,38 64 Fig.4 Fig.C - √ -00001241 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.1 Fig.D √ - -00001242 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.1 Fig.D - √ -00001243 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.2 Fig.D √ - -00001244 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.2 Fig.D - √ -00001245 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.3 Fig.D √ - -00001246 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.3 Fig.D - √ -00001118 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.4 Fig.D √ - -00001102 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.4 Fig.D - √ -
00-85001385-001 28VDC 22000 40 1,4 2,2 0,22/0,48 77 Fig.5 Fig.D - √ -00-85001454-001 28VDC 22000 40 1,4 2,2 0,17/0,38 77 Fig.4 Fig.D √ - √
* Refer to page 38 «speed signal», FPS: type 2 / ** Refer to page 39 «PWM» / Refer to page 42 «accessories»
Fig.1 Fig.2
Fig.3 Fig.4
Fig.5
[ 3
.09
” ±
0.0
2”
]
[ 2.
13”
Max
]
[ 0 .16” Max ]
[ Ø
1.11
” ±
0.03
” ]
[ Ø
3.0
6”
±0
.01
” ]
[ 0.37” ±0.02” ]
[ 0.12” ±0.01” ]
[ 1.31” ±0.03” ]
[ 3.09” ±0.02” ]
[ 2.67 ]
[ 2
.67
” ]
[ 0 .6” ]
[4x Ø0.17” ]+ 0.01”0.0”
[ Ø
1.11
” ±
0.03
” ]
Ø28
,2±
0.80
Manufacturer label(plaque signalétique)
[ Ø
3.2
5”
±0
.01
” ]
[ Ø
3.25
” ±
0.01
” ]
[ Ø
3.0
6”
±0
.01
” ]
[ 0.37” ±0.02” ][ 0.06” ±0.03” ]
[ 0.06” ±0.03” ]
[ 0.15” Max ]
[ 0.093” ±0.003” ]
[ 0.093” ±0.003” ]
[ 1.25” ±0.03” ]
[ Ø
3.06
” ±
0.01
” ]
Ø77
,83±
0,25
1,52±0,70
1,52±0,70
31,8±0,80
9,5±0,502,36±0,08
2,36±0,08
Ø82
,55±
0,25
[ 2
.12
” M
ax
]
[ 0 .59” ]
54
Ma
xi
(15)
Rotat ion4 Maxi
9,5[0,37”] 4 Maxi [0,16”max]
Ø77
,83
[Ø3,
064”
]
1,52 [0,06”]1,52 [0,06”]
2,36 [0,09”]2,36 [0,09”]
31,8 [1,25”]
Ø82
,55
[Ø3,
250”
]Ø2
8,2
[Ø
1,1
1”]
A i r F low
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
Volumetric Flow Rate, L/mn - CFM
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
25
20
15
10
5
200 400 600 800 1000 1200 1400 1600 18000
0
1,0
0,8
0,6
0,4
0,2
7 14 21 28 35 42 49 56 63Volumetric Flow Rate, L/mn - CFM
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
30
25
20
15
10
5
500 1000 1500 20000
0
1,2
1,0
0,8
0,6
0,4
0,2
18 35 52 70Volumetric Flow Rate, L/mn - CFM
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
90
80
70
60
50
40
30
20
10
500 1000 1500 2000 2500 3000 3500 40000
0
3,6
3,2
2,8
2,4
2,0
1,6
1,2
0,8
0,4
18 35 52 70 88 106 125 140Volumetric Flow Rate, L/mn - CFM
67,9 [2,67”]
67,9
[2,
67”] Ø
28,2
[Ø1,
11”]
Ø82
,55±
0,25
[Ø
3,25
±0,
01”]
Ø77
,83
[Ø3,
064”
]
1,52±0,7 [0,06”±0,03”]3±0,7 [0,12”±0,03”]
33,32 [1,31”]
2,36±0,08 [0,09”±0,003”]
9,5[0,37”] 4 Maxi [0,16” max]
78,5
5±0,
50 54 M
axi
Ø28
,2±
0,80
9,5±0,5067,9
78,55±0,503±0,25
33,32±0,80
4 Maxi
Ø77
,8±
0,25 Air Flow
67,9
(15)
Rotation
78,5
5 [
3,09
”]
78,55 [ 3,09”] 4 Holes Ø4,2 [0,165”]4 Holes Ø4,2 [0,165”]
Ø0,2
4xØ4,2+0,25
0
67,9
67,9
[2x4x0,1±0,02”x45°]2x4x2,5±0,50x45°
(CO
G :
4,8
)
75 M
axi
[2,9
5” M
ax]
[3,1
1”±
0,02
”]
[3,11”±0,02”]
4x79
±0,
50
4x79±0,50
[2,6
7”]
[2,67”]
8xØ4,2
Ø28
,2±
0,80
3±0,25 3±0,25
33,32±0,80
9,5±0,50[0,12”±0,01”] [0,12”±0,01”]
[1,31”±0,03”]
[0,37”±0,02”]
4 Maxi
(COG : 15,1)
[1,1
1”±
0,03
”]
[0,15” Max]
+0,250
[8x0,17” ]+0,01”0,0”
20 21
OPTIFAN 75
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*/**F.P.S L.S.W
00001247 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.1 Fig.A √* -00-85001455-001 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.1 Fig.A - √
00001248 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.2 Fig.A √* -00-85001456-001 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.2 Fig.A - √
00001249 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.3 Fig.A √* -00-85001457-001 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.3 Fig.A - √
00000974 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.4 Fig.A √* -00-85001458-001 26VDC 6800 18 0,6 3 0,38/0,84 62 Fig.4 Fig.A - √
00001250 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.1 Fig.B √* -00-85001459-001 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.1 Fig.B - √
00001251 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.2 Fig.B √* -00-85001460-001 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.2 Fig.B - √
00001252 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.3 Fig.B √* -00-85001461-001 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.3 Fig.B - √
00001026 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.4 Fig.B √* -00-85001462-001 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.4 Fig.B - √00-85001344-001 28VDC 8600 30 1,1 3 0,38/0,84 66 Fig.5 Fig.B √ -00-85001401-001 28VDC 10000 45 1,6 3 0,38/0,84 68 Fig.5 Fig.C √ -
00001148 28VDC 15000 126 4,5 7 0,42/0,93 80 Fig.6 Fig.D √** -00001101 28VDC 15000 126 4,5 7 0,42/0,93 80 Fig.6 Fig.D - √00001253 28VDC 15000 126 4,5 7 0,42/0,93 80 Fig.7 Fig.D √**00001254 28VDC 15000 126 4,5 7 0,42/0,93 80 Fig.7 Fig.D - √
00-85001346-001 28VDC 16000 182 6,5 10 0,42/0,93 80 Fig.6 Fig.E √** -00-85001347-001 28VDC 16000 182 6,5 10 0,42/0,93 80 Fig.6 Fig.E - √00-85001348-001 28VDC 16000 182 6,5 10 0,42/0,93 80 Fig.7 Fig.E √**00-85001349-001 28VDC 16000 182 6,5 10 0,42/0,93 80 Fig.7 Fig.E - √
Fig.A Fig.B
Fig.D
Fig.C
Fig.E
0
50.201
17.5 35 52.5 70 87.5 105 122.5 140 157.5 175
0.402
0.603
0.804
1.005
1.206
1.407
1.608
1.809
2.01
2.211
2.412
10
15
20
25
30
35
40
45
50
55
60
0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0
200.804
35 70 105 140 175 210 245 280 315
1.608
2.412
3.216
4.02
4.824
5.628
6.432
7.236
40
60
80
100
120
140
160
180
0 1000 2000 3000 4000 5000 6000 7000 8000 9000
Stat
ic P
ress
ure
Ris
e, d
aPa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
2.050
1.845
1.640
1.435
1.230
1.025
0.820
0.615
0.410
0.205
0
20 40 8060 100 120 140 160500 1000 20000 1500 2500 3000 3500 4000
Stat
ic P
ress
ure
Ris
e, d
aPa
- in.
H2O
Volumetric Flow Rate, L/mn - CFM
* Refer to page 38 «speed signal», FPS: type 3 ** Refer to page 38 «speed signal», FPS: type 1 / Refer to page 42 «accessories»
Fig.1 Fig.2
Fig.6
Fig.7
Fig.5
Fig.4Fig.3
[ 3
.56
” ±
.01
” ]
[ 3 .56” ±.01” ]
90
,5±
0,3
0
90
,5[
3,5
6”]
90 ,5[ 3,56”]
4 HolesØ4,2[Ø0,17”]
5,5[0,22”]
2,36 [0,09”] 2,36 [0,09”]
1,52 [0,06”]
43,9 [1,73”]
Ø45
Max
i [Ø
1,77
”Max
]
2xØ
95,2
[Ø
3,75
”]
2xØ
90,4
8 [Ø
3,56
”]
Ø45
Max
i [Ø
1,77
” M
ax]
8,5 Maxi [0,33” Max]
Ø45
Max
i [Ø
1,77
”max
]
5,5 [0,22”]
Ø90
,48
[Ø3,
56”]
8,5 Maxi [0,33”]
Ø45
Max
i [Ø
1,77
”max
]
3 [0,12”]45,4 [1,79”]
3 [0,12”]
4 Holes Ø0,17”
Rotat ion
(4 t rous Ø4,2)
76
,5
76 ,5
[ 0.22” ±0.01” ]
[ 0.33” Max ]
[ Ø
1.77
” M
ax ]
[ Ø
1.7
7”
Ma
x ]
[ 0.12” ±0.01” ] [ 0.12” ±0.01” ]
[ 1.79” ±0.01” ]
[ 3.
01”
]
[ 3.01” ]
[ 2
.2”
Ma
x ]
[ 0 .59” ]+ 0.0”-0.04”
[ Ø
3.7
5”
±0
.03
” ]
Ø9
5,2
±0
,80
28,5 Maxi [1,12" max]
Ø95
,2 [
Ø3,
75"]
Ø46
,5 M
axi [
Ø1,
83"
max
]
95,2 [ 3,75"]
95,2
[3,
75"]
Ø46
,5 M
axi [
Ø1,
83"
Max
]
Ø45
Max
i [Ø
1,77
" M
ax]
Ø90
,48
[Ø3,
56"] 8,5 Maxi [0,33" Max]
28,5 Maxi [1,12" Max]
45,42 [1,79"]
3 [0,12"] 3 [0,12"]
4 Holes Ø4,2 [Ø0,17"]
Ø45
Max
i [Ø
1,77
" m
ax]
Ø95
,2 [
Ø3,
75"]
Ø90
,48
[Ø3,
56"]
Ø90
,48
[Ø3,
56"]
8,5 Maxi [0,33" max]
1,52 [0,06"] 1,52 [0,06"]
2,36 [0,09"] 2,36 [0,09"]43,9 [1,73"]
1,52±0,80
2,36±0,082,36±0,08
43,9±1,50
Ø9
0,4
8±
0,2
5
Ø4
5 M
axi
Ø4
5 M
axi A i r F low
[ 0.093” ±0.003” ][ 0.093” ±0.003” ]
[ 0.06” ±0.03” ]
[ 1.73” ±0.06” ]
[ Ø
3.5
6”
±0
.01
” ]
[ Ø
1.77
” M
ax ]
[ Ø
1.77
” M
ax ]
[ 2
.2”
Ma
x ]
56
Ma
xi
[ 0 .3” Max ]7,6 Maxi
[ 0.33” Max ]8,5 Maxi[ 0.59” ]+ 0”
-0.04”
15
56
Ma
xi
5 ,5±0,20
(Ø9
0,5
)[Ø
3,5
6”]
8 ,5 Maxi
Ø4
5 M
axi
Ø4
5 M
axi
3±0,20 3±0,20
45,4±0,20
Air F low
0-1
90,5±0,30
76
,5[3
,01
6”]
76 ,5[3,01”]
Ø0,2
15 0-1
Ø0,2
69,3 [2,73"]
69,3
[2,
73"]
22 23
OPTIFAN 145
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*/**F.P.S L.S.W
00-85001465-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.1 Fig.A √ -00-85001466-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.1 Fig.A - √00-85001467-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.2 Fig.A √ -00-85001468-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.2 Fig.A - √00-85001469-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.3 Fig.A √ -00-85001470-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.3 Fig.A - √00-85001471-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.4 Fig.A √ -00-85001472-001 24 4800 44 2,0 3 1.0/2.2 73 Fig.4 Fig.A - √00-85001473-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.1 Fig.B √ -00-85001474-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.1 Fig.B - √00-85001475-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.2 Fig.B √ -00-85001476-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.2 Fig.B - √00-85001477-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.3 Fig.B √ -00-85001478-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.3 Fig.B - √00-85001479-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.4 Fig.B √ -00-85001480-001 24 5500 70 2,8 3 1.0/2.2 76 Fig.4 Fig.B - √00-85001481-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.1 Fig.C √ -00-85001482-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.1 Fig.C - √00-85001483-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.2 Fig.C √ -00-85001484-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.2 Fig.C - √00-85001485-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.3 Fig.C √ -00-85001486-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.3 Fig.C - √00-85001487-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.4 Fig.C √ -00-85001488-001 28 3000 18 0,6 3 1.0/2.2 63 Fig.4 Fig.C - √00-85001489-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.1 Fig.D √ -00-85001490-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.1 Fig.D - √00-85001491-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.2 Fig.D √ -00-85001492-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.2 Fig.D - √00-85001493-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.3 Fig.D √ -00-85001494-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.3 Fig.D - √00-85001495-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.4 Fig.D √ -00-85001496-001 28 4500 41 1,6 3 1.0/2.2 72 Fig.4 Fig.D - √00-85001497-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.1 Fig.E √ -00-85001498-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.1 Fig.E - √00-85001499-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.2 Fig.E √ -00-85001500-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.2 Fig.E - √00-85001501-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.3 Fig.E √ -00-85001502-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.3 Fig.E - √00-85001503-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.4 Fig.E √ -00-85001504-001 28 6000 87 3,5 7 1.0/2.2 78 Fig.4 Fig.E - √
* Refer to page 38 «speed signal», FPS: type 4 / Refer to page 42 «accessories»
Fig.1
Fig.3
Fig.2
Fig.4
Fig.A Fig.B
Fig.D
Fig.C
Fig.E
0
5
10
15
20
0.201
35 70 105 140 175 210 245
0.402
0.603
0.804
0 1000 2000 3000 4000 5000 6000 7000
Sta
tic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
0
100.402
0.804
1.206
1.608
2.01
2.412
2.814
20
30
40
50
60
70
70 140 210 280 350 420 490
Stat
ic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
05
1015202530354045505560
Sta
tic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
0.201
0.402
0.603
0.804
1.005
1.206
1.407
1.608
1.809
2.01
2.211
0.201
70 140 210 280 350 420
2.412
0
5
10
15
20
25
30
35
40
0.201
35 70 105 140 175 210 245 280 315 385
0.402
0.603
0.804
1.005
1.206
1.407
1.608
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000
Stat
ic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
0
5
10
15
20
25
30
35
40
45
0.201
35 70 105 140 210 280 350 385315245175
0.402
0.603
0.804
1.005
1.206
1.407
1.608
1.809
0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000
Stat
ic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
5.92" ±.03"
.172" ±.010" .172" ±.010"
.172" ±.010".172" ±.010"
2.23" ±.03"
2.23" ±.03"
.87" ±.03"
.87" ±.03"
.83" ±.03"
.83" ±.03"
3.38
"3.
38"
6.375" ±.01"
6.375" ±.01"
6.375" ±.01"
6.375" ±.01"
6.75
" ±
.03"
6.75
" ±
.03"
6.75
" ±
.03"
6.75
" ±
.03"
5.92
" ±
.03"
5.92
" ±
.03"
5.92
" ±
.03"
.09" ±.03"
.09" ±.03" .09" ±.03"
.09" ±.03".09" ±.03"
.09" ±.03" .09" ±.03"
.09" ±.03"
.29" ±.03"
.29" ±.03" .29" ±.03"
.29" ±.03"2" ±.03"
2" ±.03" 2" ±.03"
2" ±.03"
150.4 ±0.8
2X Ø161.93 ±0.250
2X Ø161.93 ±0.250
2X Ø161.93 ±0.250
2X Ø161.93 ±0.250
Ø17
1.5
±0.
80
Ø17
1.5
±0.
80
Ø17
1.5
±0.
80
Ø17
1.5
±0.
80
Ø15
0.4
±0.
8
Ø15
0.4
±0.
8
Ø15
0.4
±0.
8
2.4 ±0.8
2.4 ±0.8 2.4 ±0.8
2.4 ±0.82.4 ±0.8
2.4 ±0.8 2.4 ±0.8
2.4 ±0.8
50.8 ±0.8
50.8 ±0.8 50.8 ±0.8
50.8 ±0.88X 7.4 ±0.8
8X 7.4 ±0.8 8X 7.4 ±0.8
8X 7.4 ±0.82X 55.5° ±
2°
2X 55.5° ±2°
2X 55.5° ±2°
2X 55.5° ±2°
2X 55.5° ±2°
2X 55.5° ±2°
2X 55.5° ±2°
2X 55.5° ±2°
8X Ø4.37 ±0.25 8X Ø4.37 ±0.25
8X Ø4.37 ±0.258X Ø4.37 ±0.25
56.6 ±0.80
56.6 ±0.80
22.2 ±0.80
22.2 ±0.80
85.8
Max
i85
.8 M
axi
21 ±0.80
21 ±0.80
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
1,62,8
2,4
2,0
1,6
1,2
0,8
0,4
1,4
1,2
1,0
0,8
0,6
0,4
0,2
2,4 0,8
0,6
0,4
0,2
2,2
2,0
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
24 25
OPTIFAN 80
PartNumber
PowerSupply
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*/**F.P.S L.S.W
00-85001617-001 28VDC 9000 17 0,6 2,5 0,62/1,37 73 Fig.1 Fig.A √ -00-85001522-001 28VDC 12000 62 2,2 5 0,62/1,37 79 Fig.1 Fig.B √ -00-85001523-001 28VDC 16000 155 5,5 7 0,62/1,37 85 Fig.1 Fig.C √ -
Fig.C
0
20
40
60
80
100
120
140
160
0.804
35 42 49 56 637 14 21 28 70 77
1.608
2.412
3.216
4.02
4.824
5.628
6.432
0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200
Sta
tic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
Fig.B
0
10
20
30
40
50
60
70
80
90
0.402
7 14 21 28 35 42 49 56 63
0.804
1.206
1.608
2.01
2.412
2.814
3.216
3.618
0 200 400 600 800 1000 1200 1400 1600 1800
Stat
ic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
Fig.A
0
5
10
15
20
25
30
35
40
45
50
0.201
7 14 21 28 35 42 49
0.402
0.603
0.804
1.005
1.206
1.407
1.608
1.809
2.01
0 200 400 600 800 1000 1200 1400
Sta
tic P
ress
ure
Ris
e,da
Pa
-in.
H2O
Volumetric Flow Rate, L/mn - CFM
* Refer to page 38 «speed signal», FPS: type 6 / Refer to page 42 «accessories»
Fig.1
(20)
Ø92
79,99 ±0,8
Ø71,4 ±0,7
610
min
i
599
min
i
17 ±1
3,55 ±0,8 3,55 ±0,8
76,2 ±0,8
4X Ø5,4 ±0,3.213" ±.012"
3,149" ±.031"
.14 ±.031"
2,811" ±.028"
.67" ±.04"
24"
22"
.14 ±.031"
3" ±.031"
3,62"
45°
(Ø69)
( .7
9" )
( 2,72" )
2,0
1,8
1,6
1,4
1,2
1,0
0,8
0,6
0,4
0,2
3,6
3,2
2,8
2,4
2,0
1,6
1,2
0,8
0,4
6,4
5,6
4,8
4,0
3,2
2,4
1,6
0,8
2726
CANDI
CUMIN
Fig.A
Fig.1
Fig.A
Fig.1
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000372 200V/3Phases/400Hz - 22000 8 0.05 0.07 0.05/0.11 52 Fig.1 Fig.A - -00000373 115V/3Phases/400Hz - 22000 8 0.08 0.11 0.05/0.11 52 Fig.1 Fig.A - -00000198 115V/1Phase/400Hz 0.3 22000 8 0.08 0.11 0.05/0.11 52 Fig.1 Fig.A - -
* Capacitor (not supplied) : 150 VAC
* Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000169 200V/3Phases/400Hz - 21500 6 0.03 0.07 0.07/0.154 57 Fig.1 Fig.A - -00001257 115V/1Phase/400Hz 21500 6 0.33 0.75 0.07/0.154 57 Fig.1 Fig.A - -00000311 20V/1Phase/400Hz 0.3 21500 6 0.33 0.75 0.07/0.154 57 Fig.1 Fig.A - -
MORTIER-1
CHERI
Fig.A
Fig.1
PartNumber
PowerSupply
Cap(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000105 200V/3Phases/400Hz - 22000 11 0.05 0.1 0.07/0.14 58 Fig.1 Fig.A - -
Fig.B
Fig.A
Fig.1
* Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000913 115V/1Phase/400Hz 0.3 11000 10 0.05 0.1 0.1/0.22 55 Fig.1 Fig.A - -00000955 200V/3Phases/400Hz - 22000 17 0.09 0.2 0.1/0.22 67 Fig.1 Fig.B - -00000822 115V/1Phase/400Hz 0.47 22000 16 0.17 0.4 0.1/0.22 67 Fig.1 Fig.B - -
Stat
ic P
ress
ure
Ris
e, d
aPa
- in
H2O
20
15
10
5
50 100 150 200 250 300 35000
00
0,8
0,6
0,4
0,2
2 4 5 7 9 11 12Volumetric Flow Rate, L/mn - CFM
28 29
MAXIME 2 / MAXIME 4
Fig.A Fig.B
Fig.1 Fig.2
* Refer to page 38 «speed signal»** Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap**(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
MAXIME 4
00000051 200V/3Phases/400Hz - 10500 10 0.05 0.07 0.1/0.22 55 Fig.1 Fig.A - -00000434 115V/1Phase/400Hz 0.3 10500 10 0.09 0.11 0.1/0.22 55 Fig.1 Fig.A - -00000950 115V/3Phases/400Hz - 10500 10 0.09 0.11 0.1/0.22 55 Fig.1 Fig.A - -
MAXIME 2
00000046 200V/3Phases/400Hz - 21500 21 0.01 0.21 0.1/0.22 67 Fig.1 Fig.B - -00000949 115V/1Phase/400Hz 0.47 21500 21 0.17 0.32 0.1/0.22 67 Fig.1 Fig.B - -00000428 115V/3Phases/400Hz - 21500 21 0.17 0.32 0.1/0.22 67 Fig.1 Fig.B - -00001087 200V/3Phases/400Hz - 21500 21 0.1 0.21 0.12/0.26 67 Fig.2 Fig.B √ -00000047 115V/1Phase/400Hz 0.47 21500 21 0.17 0.32 0.12/0.26 67 Fig.2 Fig.B √ -
MAXIMAL 2 / MAXIMAL 4
Fig.A Fig.B
PartNumber
PowerSupply
Cap**(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal*F.P.S L.S.W
MAXIMAL 4
00000433 200V/3Phases/400Hz - 10500 18 0.1 0.14 0.12/0.27 58 Fig.1 Fig.A - -00000956 115V/1Phase/400Hz 0.68 10500 18 0.18 0.24 0.12/0.27 58 Fig.1 Fig.A - -00000431 115V/3Phases/400Hz - 10500 18 0.2 0.23 0.12/0.27 58 Fig.1 Fig.A - -
MAXIMAL 2
00000429 200V/3Phases/400Hz - 21500 55 0.22 0.5 0.12/0.27 79 Fig.1 Fig.B - -00000256 115V/1Phase/400Hz 1.5 21500 55 0.45 0.75 0.12/0.27 79 Fig.1 Fig.B - -00000993 200V/3Phases/400Hz - 21500 55 0.1 0.21 0.14/0.31 79 Fig.2 Fig.B √ -00001272 115V/1Phase/400Hz 1.5 21500 55 0.45 0.75 0.14/0.31 79 Fig.2 Fig.B √ -
Fig.1 Fig.2
* Refer to page 38 «speed signal»** Capacitor (not supplied) : 150 VAC
30 31
MARYLAND-1
Fig.A
* Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000729 200V/3Phases/400Hz - 21500 190 0.65 2.5 0.42/0.94 88 Fig.1 Fig.A - -00000523 115V/1Phase/400Hz 1.5 21500 230 1.7 4.1 0.42/0.94 88 Fig.1 Fig.A - -
Fig.A
Fig.1
* Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000986 200V / 3 Phases / 400Hz - 21000 80 0.3 1 0.36 / 0.8 80 Fig.1 Fig.A - -00000985 115V / 1 Phase / 400Hz 1 21000 80 0.6 1.45 0.36 / 0.8 80 Fig.1 Fig.A - -
MEDIA 2P5
MERCATOR
Fig.B
Fig.A
Fig.2
Fig.AFig.1
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000984 115V/1Phase/400Hz 1 11300 30 0.4 1.5 0.32/0.7 73 Fig.1 Fig.A - -00-85001578-0001 200V/3Phases/400Hz - 22000 120 0.4 1.5 0.32/0.7 88 Fig.2 Fig.B √ -
00000983 115V/3Phases/400Hz - 22000 120 1.2 4 0.32/0.7 88 Fig.1 Fig.B - -
PartNumber
PowerSupply
Cap(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
00000409 200V/3Phases/400Hz - 22250 240 0.8 4 0.758/1.65 100 Fig.1 Fig.A - -00000959 115V/3Phases/400Hz - 22250 240 1.4 5 0.758/1.65 100 Fig.1 Fig.A - -
* Capacitor (not supplied) : 150 VAC
MELBA
Fig.1
2,362 [0,093" ]±0,08 ±0,003"
1,52 [0,06" ]±0,7 ±0,028"
58,7 [2,31" ]±0,7 ±0,028"
Ø66
,68
[Ø
2,63
]
±0,
25±
0,01
"
Ø66
,68
[Ø
2,63
]
±0,
25±
0,01
"
Ø61
,93
[Ø
2,44
]
±0,
25±
0,01
"
Ø61
,93
[Ø
2,44
]
±0,
25±
0,01
"
Fig.1
60 102,34 0,39
Ø76
,2
Ø75
,9
5,53±0,04
Ø80
,7Ø
3,14
Ø2,
96Ø40
Ø2,
28Ø
74
Ø1,
56
Ø2,
97
+0,
2
±0,
15
±0,
2±
0,00
8
±0,
006
0
+0,
008
Ø80
,7Ø
3,14
±0,
2±
0,00
8
Ø75
,9Ø
2,96
±0,
15±
0,00
6
0
0,0580,058
1,51,5
2,3±0,1
2,3±0,10,09±0,0040,09±0,004
0
0
0
0-0,008
-0,008
-0,2
-0,2
142±1,1
name plate
2,362±0,07 [0,09"±0,003"]
300
Min
i [1
1,81
" M
in]
2,362±0,07 [0,09"±0,003"]
1,52±0,7 [0,06"±0,028"]
Ø71
,425
±0,
2 [Ø
2,81
"±0,
01"]
Ø71
,425
±0,
2 [Ø
2,81
"±0,
01"]
58,67±0,7 [2,31"±0,028"]
Ø77
±0,
2 [Ø
3"±
0,00
8"]
Ø77
±0,
2 [Ø
3"±
0,00
8"]
1,52±0,7 [0,06"±0,028"]ROTATION
32 33
PRODIGE / PASTEUR / PERSAN / PENSEE / PASTEL
Fig.CFig.BFig.A
Fig.EFig.D
* Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed SignalF.P.S L.S.W
PRODIGE00000085 200V/3Phases/400Hz - 10500 38 0.14 0.43 0.32/0.70 76 Fig.1 Fig.A - -00000008 115V/3Phases/400Hz - 10500 38 0.25 0.75 0.32/0.70 76 Fig.1 Fig.A - -
PASTEUR
00000944 200V/3Phases/400Hz - 5600 11 0.07 0.14 0.35/0.77 64 Fig.2 Fig.B - -00000054 115V/3Phases/400Hz - 5600 11 1.2 2.5 0.35/0.77 64 Fig.2 Fig.B - -00000054 115V/1Phase/400Hz 0.47 5600 11 0.13 0.21 0.35/0.77 64 Fig.2 Fig.B - -
PERSAN
00000630 200V/3Phases/400Hz - 7500 18 0.1 0.3 0.33/0.72 64 Fig.3 Fig.C - -00000945 115V/3Phases/400Hz - 7500 18 0.2 0.45 0.33/0.72 64 Fig.3 Fig.C - -00000125 115V/1Phase/400Hz 0.56 7500 18 0.2 0.4 0.33/0.72 64 Fig.3 Fig.C - -
PENSEE00000241 200V/3Phases/400Hz - 7500 73 0.35 1.3 0.62/1.35 82 Fig.4 Fig.D - -00000055 200V/1Phase/400Hz 0.68 7500 78 0.42 1 0.62/1.35 82 Fig.4 Fig.D - -
PASTEL00000457 200V/3Phases/400Hz - 5500 40 0.21 0.52 0.61/1.34 69 Fig.5 Fig.E - -00000896 115V/1Phase/400Hz 1.2 5500 40 0.4 0.75 0.61/1.34 69 Fig.5 Fig.E - -
Fig.2Fig.1
Fig.4Fig.3
Fig.5
34 35
OPTIFAN 145
PartNumber
PowerSupply
Cap*(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve Speed Signal
F.P.S L.S.W
00-85001506-001 115V/1Phase/400Hz 2,2 3400 37 0,7 0,8 0,8/1,76 66 Fig.1 Fig.A - -00-85001507-001 115V/1Phase/400Hz 2,2 3400 37 0,7 0,8 0,8/1,76 66 Fig.2 Fig.A - -00-85001443-001 115V/1Phase/400Hz 2,2 3400 37 0,7 0,8 0,8/1,76 66 Fig.3 Fig.A - -00-85001511-001 200V/3Phases/400Hz - 3400 43 0,4 0,62 0,8/1,76 66 Fig.1 Fig.A - -00-85001512-001 200V/3Phases/400Hz - 3400 43 0,4 0,62 0,8/1,76 66 Fig.2 Fig.A - -00-85001513-001 200V/3Phases/400Hz - 3400 43 0,4 0,62 0,8/1,76 66 Fig.3 Fig.A - -00-85001514-001 200V/3Phases/400Hz - 5500 80 0,6 1,25 0,8/1,76 76 Fig.1 Fig.B - -00-85001515-001 200V/3Phases/400Hz - 5500 80 0,6 1,25 0,8/1,76 76 Fig.2 Fig.B - -00-85001516-001 200V/3Phases/400Hz - 5500 80 0,6 1,25 0,8/1,76 76 Fig.3 Fig.B - -
Fig.1
Fig.2 Fig.3
Fig.B
05
1015202530354045505560
Sta
tic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
0.201
0.402
0.603
0.804
1.005
1.206
1.407
1.608
1.809
2.01
2.211
0.201
70 140 210 280 350 420
2.412
Fig.A
0
5
10
15
20
25
0.201
35 70 105 140 175 210 245 280
0.402
0.603
0.804
1.005
0 1000 2000 3000 4000 5000 6000 7000 8000
Stat
ic P
ress
ure
Ris
e,da
Pa -
in.H
2O
Volumetric Flow Rate, L/mn - CFM
MARATHON 2 / MARATHON 4
Fig.A Fig.B
Fig.2Fig.1
* Refer to page 38 «speed signal» / ** Capacitor (not supplied) : 150 VAC
PartNumber
PowerSupply
Cap**(µF)
Speed(rpm)
InputPower
(Watts)
InputCurrent(Amps)
StartingCurrent(Amps)
Weight(Kg/Lbs)
Noise(dB(A)) Drawing Curve
Speed Signal* F.P.S L.S.W
MARA-THON 4
00000939 200V/3Phases/400Hz - 11000 13 0.15 0.3 0.32/0.7 67 Fig.1 Fig.A - -00000940 115V/1Phase/400Hz 1 11000 13 0.15 0.2 0.32/0.7 67 Fig.1 Fig.A - -00000206 115V/3Phases/400Hz - 11000 13 0.14 0.16 0.32/0.7 67 Fig.1 Fig.A - -
MARA-THON 2
00000222 200V/3Phases/400Hz - 22000 78 0.28 1,4 0.32/0.7 82 Fig.1 Fig.B - -00000581 115V/1Phase/400Hz 1 22000 97 0.8 1,6 0.32/0.7 82 Fig.1 Fig.B - -00000880 200V/3Phases/400Hz - 22000 78 0.28 1,4 0.37/0.82 82 Fig.2 Fig.B √ -00001256 115V/1Phase/400Hz 1 22000 97 0.8 1,6 0.37/0.82 82 Fig.2 Fig.B √ -
8X Ø4,37±0,25
2X Ø161,93±0,250
56,6±0,80
8X Ø4,37±0,258X Ø4,37±0,25
2X Ø161,93±0,250
2X Ø161,93±0,250
6,375"±.01"
6,375"±.01"
21±0,80
85,8
Max
i
22,2±0,80 150,4±0,85,92"±.03"
Ø15
0,4±
0,8
Ø17
1,5±
0,80
Ø17
1,5±
0,80
5,92
"±.0
3"
6,75
"±.0
3"
6,75
"±.0
3"
.87"±.03"
3,38
"
2,23"±.03"
.83"±.03".172"±.010"
.172"±.010"
2,4±0,8 2,4±0,8
Ø15
0,4±
0,8
Ø17
1,5±
0,80
5,92
"±.0
3"
6,75
"±.0
3"
8X 7,4±0,850,8±0,8
.09"±.03" .09"±.03"
.29"±.03"2"±.03"
6,375"±0,1"
.172"±.010"
2X 55,5° ±2° 2X 55,5° ±2°
2X 55,5° ±2°
2X 55,5° ±2°2X 55,5° ±2°
2X 55,5° ±2°2,4±0,8 2,4±0,8 2,4±0,82,4±0,8
8X 7,4±0,8 8X 7,4±0,8
50,8±0,8 50,8±0,8
.09"±.03" .09"±.03" .09"±.03".09"±.03"
.29"±.03" .29"±.03"
2"±.03" 2"±.03"
36 37
38
SPEED SIGNAL
DESCRIPTION In order to monitor and advise potential loss of cooling airflow, LMB AC & DC fans may incorporate warning and detection devices :Fan Performance Sensor (FPS) provides a pulse output proportional to the fan speed.Low Speed Warning (LSW) detects under-speed conditions and advises the system about airflow interruption. This a logic signal (0 or 1).
FAN PERFORMANCE SENSOR FOR AC FANS
FAN PERFORMANCE SENSOR FOR DC BRUSHLESS FANS Fan Performance Sensor
Vsensor = 4.5 to 24 VDCI < 25 mA
V2 max. = VsensorV1 max. < 1 VDC
T1 ~ 0.9 T T = 60/rpm
Type 1 : Open collector•V2 = Vcollector t off = 50% of T +/-10%•V1 = 1 VDC max. t on = T – t off•Icollector = 25 mA max T = 30/rpmType 2 :•V2 = 5 VDC+/-1 VDC t off = 50% of T +/-10%•V1 = 1 VDC max. t on = T – t off•I < 1 mA T = 60/rpmType 3 :•V2 = 12 VDC +/- 2 VDC t off = 50% of T +/-10%•V1 = 1 VDC max. t on = T – t off•I < 1 mA T = 30/rpmType 4•V2 = 7.5 VDC +/- 0.5 VDC t off = 50% of T +/-10%•V1 = 1 VDC max t on = T – t off•I < 1 mA T = 30/rpmType 5•V2 = 10 VDC +/- 4 VDC t off = 50% of T +/- 10%•V1 = 1 VDC max t on = T – t off•I < 0.1 mA T = 30/rpm
38
Logic Status Electrical stateNORMAL OPERATION Grounded to 0 VDCUNDERSPEED (Fail condition)
Open collector (exter-nal pull-up resistor)
LOW SPEED WARNING :
•Physical description : - Connected by one wire : LSW. - Return path by the “0 VDC” power input.
•Logic / electrical status :
The fan has to be electrically supplied to give proper information on the LSW output.
•Electrical characteristics :Nominal output sink current @ 28VDC :Current must be limited to 100 mA by an external pull-up resistor (not part of the fan),Maximum output voltage in open collector state : +28 VDC nominal ; +40 VDC surge with a pull-up resistor higher than 0,4KΩ.Maximum output voltage when grounded to 0 VDC : < 1,5 VDC.
•Detail operation:LSW is unlatched. During start-up LSW is not active (NORMAL_OPERA-TION) .
39
PWM SPEED CONTROL
Wire AWG Color+28VDC #24 RED0VDC #24 BLACKFPS #24 BROWN
PWMINPUT #24 BLUE
ELECTRICAL INTERFACEPOWER SUPPLY 28VDC NETWORK / 28VDC TYP, 32.2V MAX@5min / SURGE 48V@1s, 80V@100ms
MIN. STARTING VOLTAGE 12V
INPUT CURRENTSTEADYSTATE REFERTOLABEL(1)
STARTINGCURRENT 2.3ATYP.(2)
INSULATION RESISTANCELEVEL GROUP VALUE50VDC
ALLWIRESLINKEDTOGETHER/CASING>20MW
DIELECTRIC STRENGHT 500VDC <1mA
PROTECTIONS
POWERLEADS CROSSPOLARITY
PWM CONNEXIONTOGROUNDAND28VDC(CONTINUOUS)
FAN UNDERSPEED,ROTORLOCKED(3)
FPS INTERFACE
FANPERFORMANCESENSOR FAN
+28VDC
0VDC
FPS
FPS
5V (+/-1V)
0V (+1/0V)
TLOW
THIGH
T = 60 / RPM
%+/-102TTLOW
1mA MAX
PWM INTERFACE
SPEED CONTROLMODE
FAN
0VDC
PWM 12V MAX
T
TON
α (%) = TON
/T x100
PWM EXTERNAL SWITCH
CONTROLLER 100HZ< f <10KHz
+28VDC
FPS
OPENLOOPOPERATION
Typicalcurveofspeedvariation
“CAUTION/ATSTARTING,THEDUTYCYCLENEEDSTOBESET>50%DURINGATLEAST1SINORDERTOAVOIDTHEACTIVATIONOFTHEUNDERSPEEDPROTECTIONFUNCTION.
DURINGNORMALOPERATION,THEDUTYCYCLECANBESETFROM30%TO100%WITHOUTRESTRICTION.”
CLOSEDLOOPOPERATION
“CAUTION/ATSTARTING,THEDUTYCYCLENEEDSTOBESET>50%DURINGATLEAST1SINORDERTOAVOIDTHEACTIVATIONOFTHEUNDERSPEEDPROTECTIONFUNCTION.
DURINGNORMALOPERATION,THEDUTYCYCLECANBESETFROM30%TO100%WITHOUTRESTRICTION.”
CHOICEOFPWMFREQUENCY
Above1khz,someaudiblesnoisescouldappear,particularyatlowspeed.UseathighPWMfrequencycouldreducethemax.operatingtemperaturerange.
ConductedandradiatedemissionsareloweratlowPWMfrequency.HighPWMfrequencyallowsawidespeedrange
TEMPERATURE RANGEOPERATING [-40,+85°C]STORAGE [-54°C,+105°C]
(1)Standardconditions:28vdc,freedelivery,airdensity:1.2Kg/m³.(2)Averagevalue(3)Incaseofdefect,fanstops(latching).
FAN
FAN
0-5VDC SPEED CONTROL
Wire AWG Color+28VDC #24 RED(rouge)0VDC #24 BLACK(noir)
0-5Vspeedcommand #24 ORANGE(orange)FPS #24 BROWN(marron)
ELECTRICAL INTERFACEPOWER SUPPLY 28VDC NETWORK / 28VDC TYP, 32.2V MAX@5min / SURGE 48V@1s, 80V@100ms
MIN. STARTING VOLTAGE 12V
INPUT CURRENTSTEADYSTATE REFERTOLABEL(1)
STARTINGCURRENT 2.3ATYP.(2)
INSULATION RESISTANCE
LEVEL GROUP VALUE
50VDC ALLWIRESLINKEDTOGETHER/CASING >20MΩ
PROTECTIONS
POWERLEADS CROSSPOLARITY
FPS CONNEXIONTOGROUNDAND28VDC(CONTINUOUS)
0-5V INCASEOFWIREDISCONNECTION,THEFANRUNSATMAX.SPEED
FAN UNDERSPEED,ROTORLOCKED(3)
FPS INTERFACE
FANPERFORMANCESENSOR
0-5VDC SPEED CONTROL INTERFACE
SPEED CONTROLMODE
OPENLOOPOPERATION
CAUTION/DURINGSTARTING,TODON'TTRIGGERUNDERSPEEDPROTECTION,APPLY2VDURINGATLEAST1s
CLOSEDLOOPOPERATION
CAUTION/DURINGSTARTING,TODON'TTRIGGERUNDERSPEEDPROTECTION,APPLY2VDURINGATLEAST1s
MaxVoltage=5.5Vduring1mnMaxsupplycurrent=1mA
TYPICALCURVEOFSPEEDVARIATION
TEMPERATURE RANGEOPERATING [-40,+85°C]STORAGE [-54°C,+105°C]
(1)Standardconditions:28vdc,freedelivery,airdensity:1.2Kg/m³.(2)Averagevalue(3)Incaseofdefect,fanstops(latching).
40 41
42
ACCESSORIES - C CLAMPS ACCESSORIES - FINGER GUARDS
All finger guards are Stainless Steel (SS) unless otherwise noted.PRODUCTFAMILTY PARTNUMBER INTERFACE DRAWING
Optifan44 10-85024824-001 Servoring Fig.1Optifan45 10-85024824-001 Servoring Fig.1Optifan65 10-85550030-001 Servoring Fig.2Optifan70 10-85550027-001 Servoring Fig.3Optifan70 10-85550038-001 Squareflange-outletside Fig.4Optifan70 10-85550039-001 Squareflange-inletside Fig.5Optifan75 10-85550028-001 Servoring-inletside Fig.6Optifan75 10-85550031-001 Squareflange Fig.7Optifan75 10-85550032-001 Servoring-outletside Fig.8
Pluton/Thinfan120 10-85550036-001 Squareflange Fig.9Thinfan60 10-85550043-001 Squareflange Fig.10Moutingkit* 10-85024668001 Servoring Fig.11
Fig.1
Fig.4
Fig.7
Fig.11
Fig.9
Fig.2
Fig.5
Fig.8
Fig.10
Fig.3
Fig.6
*Mounting kit includes : three washer P/N 10-85025065-001 and three nuts 10-85452026-001
compm
multc
RoHSCompliant
Description Part Number
MC32696
Part Number Table
Wire Fan GuardDimensions : Inches (mm)
Notes:
Material : C1008 SteelPlating : Bright nickel chromeRing Diameter : 1.6mmRib Diameter : 1.6mm
0.181 Diameter (4.6)4 Positions
0.17 (4.4)
2.09 (53.2)
1.97 (50.0)
P/N 10480004
P/N 10480006
43
44
TEMPERATURET° (°K) = T° (°C) + 273.15T° (°C) = (T° (°F) - 32) : 1.8T° (°F) = T° (°C) x 1.8 + 32
LENGHTS1 inch = 25.4 mm (2.54 cm)1 mm = 0.039“1 cm = 0.394“
WEIGHT1 g = 0.035 oz1 kg = 2.204 lbs
DENSITY Standard air at 0.075 lbs/ft3 = 1.20 kg/m3 PRESSURE a. 1 centipieze = 1.02 mm H2O = 0.04 in H2O = 10Pa (Pascals) = 0.1 millibar b. 1mm H2O = 0.039 in HO = 0.981 centipieze = 9.8 Pa = 4.02» H2O c.1 Kpa = 102 mmHO = 100 centipiezes = 4.02“ H2O = 10 millibars d.1 millibar = 10.2 mm H2O = 0.40 in H2O = 100 Pa = 10 centipiezes e. 1 Inch H2O = 25.4 mm H2O = 249 Pa = 2.49 millibars = 24.9 centipiezes AIR FLOW a. 1 l per min = 0.017 l/s = 0.035 cfm = 0.06 m3/h b. 1 l/s = 60 l/min = 2.12 cfm = 3.6 m3/h c. 1 cfm = 0.47 l/s = 28.3 l/min = 1.7 m3/h d. 1 m3/h = 0.28 l/s = 16.7 l/mn = 0.59 cfm
45
EQUIVALENCE OF UNITS
LMB also designs and manufactures a wide range of high performance, mixed flow, and centrifugal fans such as the Hyperfans. Performance curves for some representative examples are given on page 47. Contact the factory or your local representative for details.
KEY CHARACTERISTICS :
• 28VDC & AC400Hz• 4 to 10 inch diameter• 3000 to 22000rpm• 200 to 5000 Watts
CURVE NUMBER
SYMBOL
1 Hyper 2052 Hyper 80-003 Hyper 754 Hyper 965 Hyper 95-016 Hyper 977 Hyper 115-048 Hyper 120-089 Recirculation
10 Hyper 15011 MX150-0112 Hyper 14013 Hyper 150-0114 Hyper 140 NG15 Hyper 20516 Hyper 16017 Condenser18 Hyper 11519 Hyper 16520 Hyper 17021 Hyper 15522 Hyper 18523 Hyper 18024 Hyper 190-0525 Hyper 190-0626 Hyper 19027 Hyper 250
28 Hyper 200
46 47
NOTES :
HYPERFAN CURVES
01-Hy
per2
05
AC02
-Hy
per8
0-00
DC
03-Hy
per7
5AC
04-Hy
per9
6DC
05-Hy
per9
5-01
DC
06-Hy
per9
7DC
07-Hy
per1
15-04
DC08
-Hy
per1
20-08
DC09
-Re
circulation
AC10
-Hy
per1
50
DC11
-MX1
50-01
DC12
-Hy
per1
40
AC13
-Hy
per1
50-01
DC14
-Hy
per140
NG
AC15
-Hy
per2
05
DC16
-Hy
per1
60
DC17
-Co
ndenser
AC18
-Hy
per1
15
AC19
-Hy
per1
65
AC20
-Hy
per1
70
AC21
-Hy
per1
55
AC22
-Hy
per1
85
AC23
-Hy
per1
80
AC24
-Hy
per1
90-05
DC25
-Hy
per1
90-06
AC26
-Hy
per1
90
AC27
-Hy
per2
50
AC28
-Hyper200
AC
123
914
17
18
1920
21
22
23
25
26
27
28
45 6
7
8
10
1524
16
11
13
8000
7000
6000
5000
3000
Static Pressure Rise Pa - in H2O
Volu
met
ric F
low
Rat
e L/
sec
- CF
M
2000
1000 0
32 28 24 20 12 8 4 0
4000
16
600
1271
800
1695
1000
2118
1200
2542
1400
2966
600
1271
400
847
200
423
0 0
12
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om
eve
nts
- 20
19
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