creating air movement for innovation...pumps 52 evaporative cooler 52 high temperature application54...
TRANSCRIPT
CREA
TIN
GA
IRM
OV
EMEN
TFO
RIN
NO
VATI
ON
......
......
......
..
This
Fan
! 14t
h ed
ition
2
Page Page
Introduction 2 This Fan CertificationAbout ebm-papstEC TechnologyFan Identificationebm-papst Part Numbers & Label Location
4569
1014
Axial Fans 18 Motorised Impeller 20
Square & Round Plate 22
Large Square Plate 24
Basket Grille 26
Compact Range 30
ESM Fans 32
Motors 34 iQ- and Q-Motors 34
Radial Fans 40 Backward Curved 42
Forward Curved – Single Inlet 46
Forward Curved – Double Inlet 48
Pumps 52 Evaporative Cooler 52
High Temperature Application 54 Oven Fans & Heaters 54
Control Equipment 56 Controllers & Sensors 56
Technical Information 58 Velocity Pressure – Air (Pv) ChartHooke‘s Law for FansHumidity Classes
585960
Wiring Diagrams 61 Wiring Connection DiagramsEC Wiring Diagrams
6171
3
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Page Page
Introduction 2 This Fan CertificationAbout ebm-papstEC TechnologyFan Identificationebm-papst Part Numbers & Label Location
4569
1014
Axial Fans 18 Motorised Impeller 20
Square & Round Plate 22
Large Square Plate 24
Basket Grille 26
Compact Range 30
ESM Fans 32
Motors 34 iQ- and Q-Motors 34
Radial Fans 40 Backward Curved 42
Forward Curved – Single Inlet 46
Forward Curved – Double Inlet 48
Pumps 52 Evaporative Cooler 52
High Temperature Application 54 Oven Fans & Heaters 54
Control Equipment 56 Controllers & Sensors 56
Technical Information 58 Velocity Pressure – Air (Pv) ChartHooke‘s Law for FansHumidity Classes
585960
Wiring Diagrams 61 Wiring Connection DiagramsEC Wiring Diagrams
6171
This Fan 14th editionIndex_2019
4
This is a short form catalogue directed at the replacement market, and therefore is intentionally brief.
Local Productebm-papst stocks a large variety of different fans and motors in Australia and New Zealand for the local market. This catalogue covers the products typically used in Australia and New Zealand.
Imported ProductsThere are overseas manufacturers‘ products imported into Australia and New Zealand using our fans and motors, which we may not stock locally. Usually a locally stocked fan or motor will satisfactorily replace the original. As we have products for a wide range of different power supplies, when replacing components of imported product it is very important to check operating voltage and frequency as well as air flow direction.
Product IdentificationIdentification labels are placed on all fans before leaving the factory; correct identification makes replacement an easy exercise – see page 15 to 17 for more identification information.
Warranty All ebm-papst labelled products sold in AU & NZ carry 2 years warranty from date of purchase, subject to correct use and application. Specific warranty details are available on request.
Availability To locate your nearest wholesaler contact ebm-papst on (03) 9360 6400 in Australia or (09) 525 0245 in New Zealand or check our website www.ebmpapst.com.au or www.ebmpapst.co.nz.
This Fanebm-papst, a certified company
5
Sound DataThe suction-side sound power levels L�(A) and sound pressure levels at 1m Lp(A) provided in this publication are measured as per ISO 13347. The acoustic values given are only valid under the measurement conditions and will vary depending on the installation situation.
Disclaimer Whilst every care has been taken in compilation of this catalogue, ebm-papst A&NZ Pty Ltd takes no responsibility for any errors or inaccuracies.
For more information please contact your ebm-papst representative.
Quality ISO 9001
EnvironmentISO 14001
In this catalogue, we have identified all high efficiency EC products with green text and logo.
EC fans can lower power consumption by up to 90%.
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
6
About ebm-papstThe engineer's choice
The engineers choice!ebm-papst provides a wide range of high quality and highly efficient air movement systems. Combined with excellent customer service and local engineering support, it is a brand you and your customer can rely on.
Our offices in Melbourne, Sydney and Auckland consist of a team of qualified engineers, developers, logistics and other highly qualified professionals, accounting for more than 100 years of combined fan engineering experience.
Specialising in aerodynamics, motor technology and controls allows us to offer the best air-movement solution for your application.
7
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
sAbove: AIRAH Awards Night 2018 – Winner 'Excellence in Diversity and Inclusion Award'
Above: ebm-papst A&NZ Team gathering 2019
8
Technical SupportOur sales team is supported by highly qualified local engineers. If you need support on site, we aim to be there within 24 hours.
LogisticsWe work closely with your supply team to ensure adequate stock availability and delivery when you need it.
EC UpgradesTogether with our partners we can find an upgrade solution for your existing system.We upgrade your HVAC-R installation to boost performance, save energy or reduce maintenance cost. In most cases, there is no need to invest in new capital equipment to benefit from innovative fan technologies: Simply switch to Green Intelligence EC fans.
Excellent Sales TeamOur sales representatives are engineers with excellent product knowledge, who work in close collaboration with you to select the most suitable fan product. We aim to not just be a fan supplier, but be your development partner.
Development and EngineeringOur recently launched Centre of Excellence allows our project and design engineers to develop local fan products and accessories to provide an innovative solution to your air-movement requirement. We aim to maximise the performance of our products in your application and offer free testing on our local air performance test rig.
Experience ebm-papst A&NZ:
EC TechnologyUpgrade to EC
9
0
25
50
75
100
25 50 75 100
Inpu
t Pow
er P
[%]
Air Flow qv [%]
Power Consumption
AC
EC
Low energy consumption: The bars show the power input of fans that are activated incrementally as needed. The air performance is reduced by 50% if 50% of the fans are shut off. The blue line shows the power input with continuous speed adjustment. If all EC fans are reduced to 50% of their maximum speed, the power is reduced by 87.5%, compared to 50% reduction when half of the AC fans are turned off.
Lower noise: While shutting off half of the fans (one-half of the air flow) decreases the noise level by only about 3 dB. When reducing the speed of all fans to 50% of the maximum speed, the noise is reduced by 15dB(A).
ebm-papst EC technology (EC = electronically commutated) is an environmentally sound and a more cost-effective alternative to AC technology. ebm-papst EC fans and motors give you high-performance, silent
speed control and long life expectancy in a product which is the same size as the power hungry AC products it replaces.
More information and case studies are available on ECupgrades.com.au.
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
1. W
hat d
oes
the
impe
ller l
ook
like?
Look
s lik
e a
prop
elle
rA
xial
(A, B
or C
)
Look
s lik
e a
rota
ting
drum
Cent
rifug
al o
r rad
ial (
D, E
or F
)
2. W
hat i
s th
e di
amet
er o
f the
impe
ller?
Axi
al
Up
to 1
600m
m
Radi
al
Up
to 1
250m
m
3. W
hat d
o th
e bl
ades
look
like
?
Axi
al
Stra
ight
bla
des
(typ
ical
ly 5
bla
des)
‘A’ B
lade
s (A
)
Sick
le s
hape
d bl
ades
(5, 7
or 9
bla
des)
‘S’ B
lade
s (B
)
HyB
lade
(3 o
r 5 b
lade
s, p
last
ic)
HyB
lade
(C)
Radi
al
Few
bla
des
Back
war
d cu
rved
cet
rifug
al (D
or F
)
Man
y Bl
ades
Forw
ard
curv
ed c
entr
ifuga
l (E)
AB
C
DE
F
Fan
Iden
tific
atio
n H
elpf
ul h
ints
for f
an id
entif
icat
ion
4. W
hat i
s th
e m
ater
ial o
f the
bla
des?
Axi
al
Die
-cas
t allo
y‘S
’ Bla
de (b
olte
d fa
sten
ing)
(A)
Wel
ded
shee
t ste
el(B
1 or B
2)
HyB
lade
(com
posi
te p
last
ic)
(C)
Radi
al
Plas
tic(D
, K o
r L)
Alu
min
um(E
, I o
r J)
5. W
hat i
s th
e m
ount
ing
Styl
e or
Hou
sing
?
Axi
al
Wal
l pla
te s
quar
e or
roun
d(F
1 or F
2)
Bask
et g
rille
(G)
Flat
gril
le(H
)
No
mou
ntin
g(A
, B o
r C)
Radi
al
No
hous
ing
(Com
mon
ly) b
ackw
ard
curv
ed (D
or E
)
Hou
sing
(Com
mon
ly) f
orw
ard
curv
ed (I
, J, K
or L
)
Scro
ll ho
usin
g 1
inle
t(I)
Scro
ll ho
usin
g 2
inle
ts(J
, K o
r L)
11
AB
1B
2
IH
GF 2
F 1E
D
C LK
J
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
6. Is
it a
n A
C or
EC
Mot
or (E
C ha
s el
ectr
onic
s bu
ilt in
to th
e ba
ck o
f the
mot
or)?
AC
(A)
EC(B
)
7. W
hich
way
doe
s th
e ai
r flo
w?
Axi
al
Whe
n lo
okin
g at
roto
r (sp
inni
ng p
art)
doe
s th
e ai
r:
Blow
tow
ards
you
?A
irflo
w ‘A
’
Blow
aw
ay fr
om y
ou?
Airf
low
‘V’ (
out o
ver m
ount
ing
brac
kets
)
Radi
al
At 9
0° a
ngle
to th
e m
otor
BA
Wha
t fan
is th
at?
Hel
pful
hin
ts fo
r fan
iden
tific
atio
n
13
8. W
hat i
s th
e po
wer
sup
ply
(Lea
d co
unt i
s no
t an
indi
catio
n)
Sing
le-p
hase
(230
V),
thre
e-ph
ase
(400
V) o
r DC
If a
capa
cito
r is
pres
ent
Sing
le-p
hase
Oth
er v
olta
ge m
ay a
pply
if fr
om im
port
ed e
quip
men
t
9. Is
the
equi
pmen
t man
ufac
ture
d lo
cally
or o
vers
eas
Impo
rted
equ
ipm
ent
We
can
only
off
er th
e cl
oses
t alte
rnat
ive
Loca
l equ
ipm
ent
We
may
be
able
to fi
nd th
e m
odel
de
pend
ing
on th
e br
and
10. W
hat i
s th
e fa
n sp
eed?
(Cus
tom
ers
may
not
kno
w th
is if
the
labe
l has
wor
n of
f)
~280
0rpm
2 po
le
~144
0rpm
4 po
le
~960
rpm
6 po
le
~720
rpm
8 po
le
Not
app
licab
le to
EC
mot
ors
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
11. W
hat i
s th
e ap
plic
atio
n?
To b
ette
r und
erst
and
your
nee
ds, a
nd to
pro
pose
a s
uita
ble
repl
acem
ent,
the
mor
e yo
u kn
ow a
nd c
an te
ll us
abo
ut th
e ap
plic
atio
n, th
e be
tter
we
can
help
you
.
Exam
ples
of t
ypic
al a
pplic
atio
ns:
Evap
orat
or: c
ool r
oom
, fre
ezer
room
, dis
play
cab
inet
Cond
ense
r: ro
ofto
p, b
ottle
coo
ler
Air
con
diti
onin
g: a
ir ha
ndlin
g un
it (A
HU
), fa
n co
il un
it, s
uppl
y/re
turn
air
fans
Ve
ntila
tion
: exh
aust
, inl
ine
Hig
h te
mpe
ratu
re a
pplic
atio
n: o
ven,
hea
ter
12
34
56
S4
E3
00
AS
72
44
1
Axi
al fa
nsRa
dial
/Cen
trifu
gal
A =
Bar
e fa
n an
d m
otor
S =
With
gril
leW
= W
ith w
all p
late
M =
Mot
or
R =
Bare
fan
and
mot
orD
= F
orw
ard
curv
ed (d
oubl
e in
let)
with
hou
sing
G =
For
war
d cu
rved
(sin
gle
inle
t) w
ith h
ousi
ngK
= C
entr
ifuga
l ass
embl
y
22,
4,6
or 8
= N
umbe
r of p
oles
(spe
ed)
1 or
3 =
1 o
r 3 c
ore
EC p
rodu
cts,
it is
not
repr
esen
tativ
e of
spe
ed
3
D=
Thre
e-ph
ase
mot
orE
= Si
ngle
-pha
se m
otor
G =
EC
mot
orS
= Sh
aded
pol
e m
otor
Q =
Squ
are
mot
or
4Im
pelle
r dia
met
er
5 6Fa
n an
d m
otor
con
figur
atio
n
CT
Indi
cate
s ca
rton
ver
sion
Ebm
-pap
st A
xial
and
Rad
ial/C
entr
ifuga
l Pa
rt n
umbe
r sys
tem
15A
C ax
ial –
labe
lA
xial
wal
l pla
teA
C ax
ial –
pri
ntA
C do
uble
inle
t
Par
t Num
ber /
Lab
el L
ocat
ion
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Par
t Num
ber/
Labe
l Loc
atio
ns EC a
xial
EC a
xial
wal
lpla
te –
mot
orCo
mpa
ct fa
nEC
axi
al w
allp
late
– p
late
17
EC d
oubl
e in
let
Rad
ial c
ube
desi
gnEC
spi
der m
ount
Q-m
otor
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Axi
al F
ans
19
As
the
nam
e su
gges
ts, A
xial
fans
mov
e ai
r in
an a
xial
dire
ctio
n. L
ooki
ng a
t the
roto
r, th
ey c
an e
ither
pus
h ai
r aw
ay fr
om y
ou
(V-f
low
) or t
owar
ds y
ou (A
-flo
w).
Axi
al fa
ns a
re ty
pica
lly u
sed
for h
igh
air v
olum
e, lo
w p
ress
ure
appl
icat
ions
. With
this
fan
type
it is
reco
mm
ende
d to
use
a
hous
ing
with
full
inle
t noz
zle
as it
pro
vide
s th
e be
st a
erod
ynam
ic p
erfo
rman
ce. N
ot u
sing
a h
ousi
ng w
ith fu
ll in
let n
ozzl
e ca
n re
sult
in p
erfo
rman
ce lo
sses
of 1
0-15
%, a
redu
ctio
n in
eff
icie
ncy
and
an in
crea
se in
noi
se. Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
Styl
eA
BC
DE
A2E
200A
K38
01S
198
6148
6445
0A
2E20
0AI3
801
S19
757
3962
450
A4S
200A
H04
01S
197
5439
6245
0A
4S20
0AI0
401
S19
755
3962
450
A2E
250A
L060
1S
251
5234
7245
0A
2E25
0AE6
502
A25
066
3983
450
A4S
250A
H02
01S
251
5234
7245
0A
2E30
0AC4
702
A30
050
2098
450
A4E
300A
S720
1-CT
0H
yBla
de30
071
5873
450
A4E
300A
S720
2-CT
0H
yBla
de30
058
5180
450
A4E
350A
A10
32-C
T0A
353
9170
102
350
A4E
350A
N02
01H
yBla
de35
297
8710
560
0A
4D40
0AP
1620
S39
294
6811
725
00A
6E40
0AP
1012
-CT0
S39
286
8810
412
50A
4D45
0AO
1401
HyB
lade
446
103
9614
8JB
A4E
450A
O09
09H
yBla
de44
610
396
148
600
A6E
450A
J081
1-CT
0S
446
100
9312
215
00A
6E45
0AQ
0511
-CT0
S44
696
9211
715
00A
4D50
0AJ0
301
HyB
lade
497
108
105
124
JBA
6E50
0AJ0
305-
CT0
HyB
lade
497
108
105
124
1800
JB =
Junc
tion
Box
AS
HyB
lade
Axi
al F
ans
Mot
oris
ed Im
pelle
r
21
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
Styl
eV
Hz
m3 /h
rR
PM
WA
dB(A
)°C
μF/
Vkg
A2E
200A
K38
01S
V23
050
930
FA26
7060
0.3
5765
1.5/
450
1.3
A1
AC
A2E
200A
I380
1S
A23
050
890
FA26
0064
0.3
6565
1.5/
450
1.3
A1
AC
A4S
200A
H04
01S
V23
050
470
FA13
7030
0.21
4275
–1.
2B
AC
A4S
200A
I040
1S
A23
050
470
FA13
7030
0.21
4275
–1.
2B
AC
A2E
250A
L060
1S
V23
050
1820
FA24
5011
50.
5169
653.
0/40
02
A1
AC
A2E
250A
E650
2A
A23
050
1610
FA25
5011
50.
5172
554.
0/40
02.
2A
1A
CA
4S25
0AH
0201
SV
230
5010
00FA
1390
690.
5354
50–
1.7
BA
CA
2E30
0AC4
702
AA
230
5024
40FA
2650
140
0.62
7555
5.0/
400
2.5
A1
AC
A4E
300A
S720
1-CT
0H
yBla
deV
230
5018
00M
L13
2072
0.32
5350
2.0/
400
1.8
A1
AC
A4E
300A
S720
2-CT
0H
yBla
deA
230
5018
00M
L13
2072
0.32
5350
2.0/
4.00
1.8
A1
AC
A4E
350A
A10
32-C
T0A
V23
050
3100
FA14
0013
00.
55n/
a45
4.0/
400
3.1
A1
AC
A4E
350A
N02
01H
yBla
deV
230
5033
00M
L13
4016
50.
7356
654.
0/40
03.
5A
1A
CA
4D40
0AP
1620
SV
400
Δ/4
00 Y
5041
80/3
780
FA14
40/1
300
170/
115
0.53
/0.2
167
/65
55/8
5–
4.3
F1a
/ F2a
AC
A6E
400A
P10
12-C
T0S
V23
050
3290
n/a
940
120
0.56
5955
3.0/
450
n/a
A1
AC
A4D
450A
O14
01H
yBla
deV
400
Δ/4
00 Y
5070
70/6
030
ML
1360
/111
048
0/34
00.
98/0
.58
6265
–7.
2F1
b / F
2bA
CA
4E45
0AO
0909
HyB
lade
V23
050
7070
ML
1310
490
2.36
6265
10.0
/400
7.3
A2a
AC
A6E
450A
J081
1-CT
0S
V23
050
4445
ML
850
160
0.7
n/a
554.
0/40
03.
7A
1A
CA
6E45
0AQ
0511
-CT0
SV
230
5044
75FA
910
155
0.7
6270
4.0/
450
4A
1A
CA
4D50
0AJ0
301
HyB
lade
V40
0 Δ
/400
Y50
9030
/767
0M
L13
40/1
060
710/
480
1.4/
0.8
64/5
860
–7.
7F1
b / F
2bA
CA
6E50
0AJ0
305-
CT0
HyB
lade
V23
050
6100
ML
915
270
1.18
5665
8.0/
400
7.5
A2a
AC
FA =
Fre
e ai
r at 0
Pa
ML
= M
axim
um lo
ad
Rou
nd P
late
Dim
ensi
ons
Par
t No.
AB
CD
W2E
200C
H38
0120
080
280
250
W2E
200C
I380
120
080
280
250
W4S
200C
I040
120
080
280
250
W2E
250C
L060
125
787
320
295
W2E
250C
E650
2 25
785
320
295
W4S
250C
I020
1 25
787
320
295
W2E
300C
C470
2 32
680
397
380
W4E
300C
S72C
T-00
132
611
339
738
0W
4E30
0CS7
2CT-
002
327
113
397
380
Squa
re P
late
Dim
ensi
ons
W2E
200D
H38
0120
064
312
260
W2E
200D
I380
120
062
312
260
W4S
200D
I040
120
062
312
260
W2E
250D
E650
2 25
783
370
320
W4S
250D
I020
1 25
673
370
320
W2E
300D
C470
2 32
698
430
380
W4E
300D
S72C
T-00
232
711
343
038
0
Rou
nd W
all P
late
Squa
re W
all P
late
Axi
al F
ans
Squa
re a
nd R
ound
Pla
te
Rou
nd P
late
Squa
re P
late
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Cμ
F/V
kgW
2E20
0CH
3801
W2E
200D
H38
01V
230
5093
0FA
2600
640.
365
651.
5/45
02.
3A
1A
CW
2E20
0CI3
801
W2E
200D
I380
1A
230
5089
0FA
2600
640.
365
651.
5/45
02.
4A
1A
CW
4S20
0CI0
401
W4S
200D
I040
1A
230
5047
0FA
1370
300.
2142
75–
1.2
BA
CW
2E25
0CL0
601
V23
050
1820
FA24
5011
50.
5169
653.
0/40
01.
9A
1A
CW
2E25
0CE6
502
W2E
250D
E650
2 A
230
5016
10FA
2550
115
0.51
7255
4.0/
400
4.1
A1
AC
W4S
250C
I020
1 W
4S25
0DI0
201
A23
050
1000
FA13
9069
0.53
5450
–3.
1B
AC
W2E
300C
C470
2 W
2E30
0DC4
702
A23
050
2440
FA26
5014
00.
6275
555.
0/40
04.
7A
1A
CW
4E30
0CS7
2CT-
001
V23
050
1800
ML
1320
720.
3253
502.
0/40
03.
7A
1A
CW
4E30
0CS7
2CT-
002
W4E
300D
S72C
T-00
2A
230
5018
00M
L13
2072
0.32
5350
2.0/
4.00
4A
1A
C
FA =
Fre
e ai
r
ML
= M
axim
um lo
ad
23
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
AB
CD
W4D
500G
J031
154
217
660
056
0W
3G50
0GN
3307
542
170
600
560
W3G
500G
M56
9454
217
065
661
5W
4D63
0GD
0101
696
227
805
750
W3G
630G
U23
0169
625
080
575
0W
6D80
0KG
1301
923
336
970
910
W8D
800K
G01
0192
333
697
091
0W
3G80
0KS3
903
923
334
970
910
W3G
800K
U21
0392
333
497
091
0W
3G91
0KS3
503
1022
338
1070
1010
W3G
910K
U25
0310
2233
810
7010
10
Axi
al F
ans
Larg
e Sq
uare
Pla
te
D C
nice
axi
Bla
de p
ic p
lus
on c
over
<"V
"
"A"
>
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
Styl
eV
Hz
m3 /h
rR
PM
WA
dB(A
)°C
kgW
4D50
0GJ0
311
HyB
lade
V40
0 Δ
/400
Y50
9030
/767
0M
L13
40/1
060
710/
480
1.4/
0.8
64 /
5860
14F1
b / F
2bA
CW
3G50
0GN
3307
HyB
lade
V38
0-48
050
/60
1039
0M
L16
0098
01.
668
6015
.8L2
ECW
3G50
0GM
5694
HyB
lade
V20
0-27
750
/60
9245
ML
1420
750
3.4
6660
14.8
L7EC
W4D
630G
D01
01H
yBla
deV
400
Δ /4
00 Y
5019
890
/166
80M
L13
20/1
050
2630
/175
04.
78/2
.95
73/6
760
38.9
F1b
/ F2b
AC
W3G
630G
U23
01H
yBla
deV
380-
480
50/6
021
190
ML
1510
3200
578
6540
L5EC
W6D
800K
G13
01*
Axi
Blad
e V
400
Δ /4
00 Y
50/5
023
030/
1907
0M
L87
0/65
014
30/8
402.
8/1.
674
/64
60/6
044
F1b
/ F2b
AC
W8D
800K
G01
01*
Axi
Blad
e V
400
Δ /4
00 Y
50/6
017
890/
1559
0 M
L68
0/54
0 73
0/46
0 2.
0/0.
96
65/5
8 60
/60
44F1
b / F
2bA
CW
3G80
0KS3
903
Axi
Blad
e V
380-
480
50/6
025
740
ML
940
1950
3.1
7960
43RP
6EC
W3G
800K
U21
03A
xiBl
ade
V38
0-48
050
/60
2951
0M
L10
8029
004.
485
6047
.5RP
6EC
W3G
910K
S350
3A
xiBl
ade
V38
0-48
050
/60
2914
5M
L85
017
702.
879
6045
RP6
ECW
3G91
0KU
2503
Axi
Blad
eV
380-
480
50/6
033
630
ML
980
2250
3.9
7560
48RP
6EC
FA =
Fre
e ai
r
ML
= M
axim
um lo
ad*D
ata
show
n is
for 5
0Hz
Δ/Y
25
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
AB
CD
S2D
170B
A04
0617
022
04
63S4
E300
AR
26CT
-002
300
360
100
49S4
E300
AS7
2CT-
001
300
360
115
23S4
E300
AS7
2A2-
CT0
300
360
99.5
49.4
S1G
300F
O01
11-C
T030
036
068
.533
.8S3
G30
0AK
1358
-CT0
300
360
116
28S3
G30
0AK
1360
-CT0
300
360
126
28S4
E350
AN
02CT
-048
352
422
122
55S4
E350
AN
02CT
-060
352
442
111
65S3
G35
0AN
01CT
-002
352
442
116
56S3
G35
0AP
0160
-CT0
352
422
126
58
VA
C
BA
D
Axi
al F
ans
Bask
et G
rille
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
Styl
eV
Hz
m3 /h
rR
PM
WA
d
B(A
)°C
μF/
Vkg
S2D
170B
A04
06A
V40
0 Y
5047
0FA
2750
450.
1364
75–
1.4
C2A
CS4
E300
AR
26CT
-002
SV
230
5019
35FA
1380
700.
3259
552.
0/40
03.
1A
1A
CS4
E300
AS7
2CT-
001
HyB
lade
V23
050
1800
ML
1330
700.
3153
402.
0/40
03
A1
AC
S4E3
00A
S72A
2-CT
0 H
yBla
deA
230
50/6
018
00M
L13
2072
0.32
5350
2.0/
4.00
2.9
A1
AC
S1G
300F
O01
11-C
T0H
yBla
deV
200-
240
50/6
015
50M
L12
50 (h
igh
spee
d)62
0.55
5640
–1.
6ES
MEC
S3G
300A
K13
58-C
T0H
yBla
deV
200-
240
50/6
019
75M
L13
6060
0.53
5460
–2.
5H
3EC
S3G
300A
K13
60-C
T0S
V20
0-24
050
/60
2265
ML
1500
850.
858
60–
2.7
H4
ECS4
E350
AN
02CT
-048
HyB
lade
V23
050
3305
ML
1340
165
0.73
5640
4.0/
400
5.1
A1
AC
S4E3
50A
N02
CT-0
60H
yBla
deV
230
5033
05M
L13
4016
50.
7356
404.
0/40
05.
1A
1A
CS3
G35
0AN
01CT
-002
SV
200-
240
50/6
034
20M
L14
5016
01.
357
40–
3.7
H3
ECS3
G35
0AP
0160
-CT0
SV
200-
240
50/6
039
25M
L14
7516
51.
3557
60–
4.3
H4
EC
FA =
Fre
e ai
rM
L =
Max
imum
load
27
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
wCo
n-tr
ols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
AB
CD
S4E4
00A
P02
44-C
T039
247
011
767
S4E4
50A
U03
37-C
T044
552
211
657
S4E4
50B
U03
35-C
T044
552
236
107
S4D
500A
M03
01-C
T049
756
512
684
S4E5
00A
M03
01-C
T049
756
512
684
S3G
500A
M56
CT-0
0149
756
510
864
S6E5
60A
N01
0155
270
010
210
8S6
D63
0AN
0101
626
750
124
86S6
E630
AN
0101
626
750
124
86S3
G63
0AU
2301
627
750
178
76S6
E710
AR
0301
703
853
155
70
VA
C
BA
D
Axi
al F
ans
Bask
et G
rille
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
Styl
eV
Hz
m3 /h
rR
PM
WA
dB(A
)°C
μF/
Vkg
S4E4
00A
P02
44-C
T0S
V23
050
4235
FA14
3016
00.
7367
606.
0/40
06.
1A
1A
CS4
E450
AU
0337
-CT0
SV
230
5057
70M
L13
0035
01.
5570
558.
0/40
07
A1
AC
S4E4
50B
U03
35-C
T0S
V23
050
5770
ML
1300
350
1.55
-55
8.0/
450
6.3
A1
AC
S4D
500A
M03
01-C
T0H
yBla
deV
400
Δ /4
00 Y
5091
95/8
255
ML
1390
/118
072
0/55
01.
41/0
.965
/62
65-
13F1
b/F2
bA
CS4
E500
AM
0301
-CT0
HyB
lade
V23
050
8905
ML
1300
680
365
6512
.0/4
5013
A2b
AC
S3G
500A
M56
CT-0
01H
yBla
deV
200-
277
50/6
092
45M
L14
2075
03.
466
60-
10.5
L1EC
S6E5
60A
N01
01H
yBla
deV
230
5081
05M
L92
039
01.
7861
7510
.0/4
0014
.5A
2bA
CS6
D63
0AN
0101
HyB
lade
V40
0 Δ
/400
Y50
1127
0/96
20M
L89
0/69
060
0/40
01.
2/0.
6860
/55
65-
14F1
b/F2
bA
CS6
E630
AN
0101
HyB
lade
V23
050
1102
0M
L86
060
02.
6261
5514
.0/4
0014
A2b
AC
S3G
630A
U23
01H
yBla
deV
380-
480
50/6
021
190
ML
1510
3200
578
65-
32.4
L5EC
S6E7
10A
R03
01H
yBla
deV
230
5011
700
ML
900
630
2.79
7065
14.0
/450
19.3
A2b
AC
FA =
Fre
e ai
rM
L =
Max
imum
load
29
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
Case
Sty
leA
BC
D83
14B
8032
725
8556
NB
8038
723
3956
B92
2583
444
12FM
-CT0
B11
925
105
499
56-C
T1B
119
2510
54
4314
-CT0
B11
932
105
541
84N
X-C
T1B
119
3810
56
4650
Z-CT
1B
119
3810
510
4650
N-C
T1B
119
3810
56
4656
Z-CT
1B
119
3810
510
4656
N-C
T1B
119
3810
56
ACi
4420
HH
R-CT
1B
119
3810
56
5958
B12
738
113
772
14N
A15
0d55
162d
662
24N
C17
2d51
162d
–W
2S13
0AA
0363
A15
0d55
162d
6W
2S13
0BM
0301
A15
0d55
162d
6W
1G13
0AA
2511
A15
0d58
162
10W
2E14
2BB
0101
A15
3d38
162d
11W
2E20
0HK
3801
D22
580
170
7
DC
BA
Axi
al F
ans
Com
pact
Ran
ge
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Speed
Power Input
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Approximate Weight
Lead
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
dB(A
)°C
kg83
14V
24–
5433
002.
736
750.
1731
0D
C85
56N
V23
050
5028
0012
3190
0.49
310
AC
3956
V23
050
5926
5011
3580
0.28
PIN
AC
4412
FM-C
T0V
12–
140
2400
3.2
3875
0.17
531
0D
C99
56-C
T1V
230
5011
724
5014
3770
0.8
PIN
AC
4314
-CT0
V24
–17
028
005
4575
0.22
310
DC
4184
NX
-CT1
A24
–18
032
004.
949
700.
39PI
ND
C46
50Z-
CT1
V23
050
160
2650
1940
500.
54PI
NA
C46
50N
-CT1
A23
050
160
2650
1946
550.
55PI
NA
C46
56Z-
CT1
V23
050
160
2650
1940
750.
54PI
NA
C46
56N
-CT1
A23
050
160
2650
1947
850.
55PI
NA
CA
Ci44
20H
HR-
CT1
V19
5-26
550
/60
180
3350
4.4
4275
0.25
PIN
EC59
58V
230
5018
027
5018
4460
0.57
PIN
AC
7214
NV
24–
360
3050
1253
720.
725
365
DC
6224
NV
24–
410
3400
1855
720.
82PI
ND
CW
2S13
0AA
0363
V23
050
340
2800
4549
501.
1315
00A
CW
2S13
0BM
0301
A23
050
385
2700
4760
501.
133
0A
CW
1G13
0AA
2511
V23
050
/60
370
3200
2355
700.
815
00EC
W2E
142B
B01
01V
230
5032
028
0027
5155
0.8
PIN
AC
W2E
200H
K38
01V
230
5088
025
5064
5860
2.1
Term
inal
AC
PIN
con
nect
ors
requ
ire s
eper
ate
lead
. LZ1
26 L
ead
+ Pl
ug 1
000m
m
31
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Dim
ensi
ons
Par
t No.
Type
AB
CD
EW
1G17
2EC9
101-
CT0
stan
dard
172
208
222
78.5
35W
1G20
0EC9
110-
CT0
trun
cate
d20
023
625
078
.540
W1G
200E
C914
5-CT
0st
anda
rd20
023
625
078
.540
W1G
230E
B91
22-C
T2tr
unca
ted
250
266
280
78.5
50
Stan
dard
Trun
cate
d
Axi
al F
ans
ESM
Fan
s
Airflow Direction
Nominal Voltage
Frequency
Airflow at 0Pa
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Speed Step
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Ckg
W1G
172E
C910
1-CT
0V
230
50/6
052
525
0022
0.18
5450
high
–low
0.8
ESM
ECW
1G20
0EC9
110-
CT0
V23
050
/60
750
2100
310.
2454
50hi
gh–l
ow1
ESM
ECW
1G20
0EC9
145-
CT0
V23
050
/60
750
2100
310.
2454
50hi
gh–l
ow1
ESM
ECW
1G23
0EB
9122
-CT2
V23
050
/60
1060
1600
320.
3n/
a50
high
–low
1ES
MEC
33
ebm
-pap
st e
nerg
y-sa
ving
mot
ors
(ESM
fans
) hav
e 2
prog
ram
mab
le s
peed
s w
ith
a m
otor
and
ele
ctro
nics
sys
tem
that
is ro
bust
, mai
nten
ance
-fre
e an
d du
rabl
e. E
SM fa
ns a
re
desi
gned
for r
efri
gera
tion
app
licat
ions
, esp
ecia
lly fo
r dis
play
cas
es a
nd b
ottl
e co
oler
eva
pora
tors
.
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
The
iQ-m
otor
has
bee
n de
sign
ed a
s a
high
ef
ficie
ncy
repl
acem
ent f
or th
e ex
isti
ng
Q-m
otor
s cu
rren
tly
used
in m
any
diff
eren
t ap
plic
atio
ns. W
ith
up to
93%
pow
er s
avin
gs
ther
e is
an
iQ-m
otor
sui
tabl
e fo
r alm
ost a
ll re
plac
emen
t app
licat
ions
.
One
iQ-m
otor
par
t num
ber c
an re
plac
e se
vera
l Q-m
otor
par
t num
bers
.
The
iQ36
12 a
nd iQ
C361
2 ca
n re
plac
e al
l 5W
, 7W
and
10W
Q-m
otor
s.
The
iQ36
20 c
an re
plac
e al
l 16W
and
18W
Q
-mot
ors
as w
ell a
s 2
3W, 2
5W a
nd 3
4W
Q-m
otor
s up
to a
cer
tain
impe
ller s
ize.
For
de
tails
, ref
er to
pag
e 38
.
Mot
ors
iQ- a
nd Q
-Mot
ors
Tech
nica
l Dat
aTy
pica
l iQ
-mot
or
com
bine
d w
ith d
iffer
ent
axia
l im
pelle
rs (s
peed
1,
300
RPM
)
Airflow @ 0Pa*
iQ-Motor Power Consumption
Q-Motor Power Consumption
SAVE
Airflow @ 0Pa*
iQ-Motor Power Consumption
Q-Motor Power Consumption
SAVE
Airflow @ 0Pa*
iQ-Motor Power Consumption
Q-Motor Power Consumption
SAVE
mm
m3 /h
WW
%m
3 /hW
W%
m3 /h
WW
%
Impe
ller d
iam
eter
Bla
de p
itch
22
degr
ees
Bla
de p
itch
28
degr
ees
Bla
de p
itch
34
degr
ees
154
170
229
93%
190
2.8
2990
%22
03.
329
89%
172
230
2.6
2991
%27
02.
929
90%
310
3.8
2987
%20
036
03.
431
89%
410
5.3
3183
%47
07.
331
76%
230
520
636
83%
710
13.1
3664
%75
016
.936
53%
254
710
11.3
5881
%98
023
.158
60%
1010
28.4
6254
%30
013
8024
.362
61%
*Fre
e ai
rflo
w w
ith
wal
l rin
g
35
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Dim
ensi
ons
Par
t No.
AB
C+D
M4Q
045B
D01
38-C
T042
7627
M4Q
045C
A01
38-C
T042
8225
M4Q
045C
A01
72A
01-C
T042
8225
M4Q
045C
A03
38A
01-C
T042
8225
M4Q
045C
A03
75B
01-C
T042
8225
iQ36
12-0
0-CT
043
.582
27iQ
C361
2-00
-CT0
43.5
8530
.5M
4Q04
5CF0
138-
CT0
4287
25M
4Q04
5CF0
175B
01-C
T042
8725
M4Q
045D
A05
38-C
T054
9325
M4Q
045D
A05
75B
01-C
T054
9325
M4Q
045E
A01
38-C
T059
103
26iQ
3620
-01-
CT0
43.5
8227
M4Q
045E
F013
8-CT
079
125
43M
4Q04
5EF0
175B
01-C
T079
125
43
See
page
39
for i
mpe
ller s
izes
iQ m
otor
Q m
otor
Mot
ors
iQ- a
nd Q
-Mot
ors
iQC
mot
or
Direction of Rotation
Power Output
Voltage
Frequency
Speed
Power Input
Current
Bearing
Max. Perm. Amb. Temperature
Approximate Weight
Lead Length
Motor Type
Par
t No.
WV
Hz
RP
MW
A°C
kgm
mM
4Q04
5BD
0138
-CT0
CCW
523
050
1300
290.
19G
K40
0.9
450
AC
M4Q
045C
A01
38-C
T0CC
W7
230
5013
0031
0.2
GK
401.
145
0A
CM
4Q04
5CA
0172
A01
-CT0
CCW
723
050
1300
310.
2G
K40
1.1
380
AC
M4Q
045C
A03
38A
01-C
T0CC
W10
230
5013
0036
0.25
GK
401.
245
0A
CM
4Q04
5CA
0375
B01
-CT0
CCW
1023
050
1300
360.
25G
K40
1.2
1500
AC
iQ36
12-0
0-CT
0*CC
W≤1
522
0-24
050
/60
1300
23≤0
.2K
L50
0.6
1500
ECiQ
C361
2-00
-CT0
*CC
W≤1
522
0-24
050
/60
1300
/150
020
/22
0.18
/0.1
9K
K50
0.5
2000
ECM
4Q04
5CF0
138-
CT0
CCW
1623
050
1300
600.
42G
K40
1.3
450
AC
M4Q
045C
F017
5B01
-CT0
CCW
1623
050
1300
600.
42G
K40
1.3
1500
AC
M4Q
045D
A05
38-C
T0CC
W23
230
5013
0086
0.62
KL
401.
645
0A
CM
4Q04
5DA
0575
B01
-CT0
CCW
2323
050
1300
860.
62K
L40
1.6
1500
AC
M4Q
045E
A01
38-C
T0CC
W25
230
5013
0090
0.62
KL
402
450
AC
iQ36
20-0
1-CT
0CC
W≤2
522
0-24
050
/60
1300
32≤0
.22
KL
500.
815
00EC
M4Q
045E
F013
8-CT
0CC
W34
230
5013
0011
00.
75K
L40
2.2
450
AC
M4Q
045E
F017
5B01
-CT0
CCW
3423
050
1300
110
0.75
GK
402.
215
00A
C
KL
= B
all b
eari
ngG
K =
Sle
eve
bear
ing
*Als
o av
aila
ble
wit
h Ly
all a
nd A
MP
plu
g co
nnec
tor o
n re
ques
t
Dim
ensi
ons
Par
t No.
AB
C+D
M4Q
045B
D01
38-C
T042
7627
M4Q
045C
A01
38-C
T042
8225
M4Q
045C
A01
72A
01-C
T042
8225
M4Q
045C
A03
38A
01-C
T042
8225
M4Q
045C
A03
75B
01-C
T042
8225
iQ36
12-0
0-CT
043
.582
27iQ
C361
2-00
-CT0
43.5
8530
.5M
4Q04
5CF0
138-
CT0
4287
25M
4Q04
5CF0
175B
01-C
T042
8725
M4Q
045D
A05
38-C
T054
9325
M4Q
045D
A05
75B
01-C
T054
9325
M4Q
045E
A01
38-C
T059
103
26iQ
3620
-01-
CT0
43.5
8227
M4Q
045E
F013
8-CT
079
125
43M
4Q04
5EF0
175B
01-C
T079
125
43
See
page
39
for i
mpe
ller s
izes
37
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Rec
omm
ende
d Im
pelle
rs
Part
No.
Pow
er
Out
put
154m
m17
2mm
200m
m23
0mm
254m
m30
0mm
22°
28°
34°
22°
28°
34°
22°
28°
34°
22°
28°
34°
22°
28°
34°
22°
28°
34°
M4Q
045B
D01
38-C
T05
XX
XX
XX
XM
4Q04
5CA
0138
-CT0
7X
XX
XM
4Q04
5CA
0172
A01
-CT0
7X
XX
XM
4Q04
5CA
0338
A01
-CT0
10X
XX
XM
4Q04
5CA
0375
B01
-CT0
10X
XX
XiQ
3612
-00-
CT0
≤15
XX
XX
XX
XX
XX
XX
XX
iQC3
612-
00-C
T0≤1
5X
XX
XX
XX
XX
XX
XX
XM
4Q04
5CF0
138-
CT0
16X
XM
4Q04
5CF0
175B
01-C
T016
XX
M4Q
045D
A05
38-C
T023
XX
M4Q
045D
A05
75B
01-C
T023
XX
M4Q
045E
A01
38-C
T025
XX
iQ36
20-0
1-CT
0≤2
5X
XX
XM
4Q04
5EF0
138-
CT0
34X
XX
M4Q
045E
F017
5B01
-CT0
34X
XX
Mot
ors
iQ- a
nd Q
-Mot
ors
Impe
ller P
art N
umbe
r
Par
t No.
‘V’ F
low
Par
t No.
‘A’ F
low
Size
& B
lade
Ang
le73
801-
2-36
3473
761-
2-36
3415
4mm
22°
± 1
°30’
7380
2-2-
3634
7376
2-2-
3634
154m
m 2
8° ±
1°3
0’73
803-
2-36
3473
763-
2-36
3415
4mm
34°
± 1
°30’
7380
4-2-
3634
7376
4-2-
3634
172m
m 2
2° ±
1°3
0’73
805-
2-36
3473
765-
2-36
3417
2mm
28°
± 1
°30’
7380
6-2-
3634
7376
6-2-
3634
172m
m 3
4° ±
1°3
0’73
807-
2-36
3473
767-
2-36
3420
0mm
22°
± 1
°30’
7380
8-2-
3634
7376
8-2-
3634
200m
m 2
8° ±
1°3
0’73
809-
2-36
3473
769-
2-36
3420
0mm
34°
± 1
°30’
7381
0-2-
3634
7377
0-2-
3634
230m
m 2
2° ±
1°3
0’73
811-
2-36
3473
771-
2-36
3423
0mm
28°
± 1
°30’
7381
2-2-
3634
7377
2-2-
3634
230m
m 3
4° ±
1°3
0’73
813-
2-36
3473
773-
2-36
3425
4mm
22°
± 1
°30’
7381
4-2-
3634
7377
4-2-
3634
254m
m 2
8° ±
1°3
0’73
815-
2-36
3473
775-
2-36
3425
4mm
34°
± 1
°30’
7381
6-2-
3634
7377
6-2-
3634
300m
m 2
2° ±
1°3
0’73
817-
2-36
3473
777-
2-36
3430
0mm
28°
± 1
°30’
7381
8-2-
3634
7377
8-2-
3634
300m
m 3
4° ±
1°3
0’
39
Intr
oduc
tion
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
ps
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Cont
rols
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
Rad
ial F
ans
41
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
The
air i
ntak
e of
a ra
dial
fan
runs
in p
aral
lel w
ith th
e sh
aft.
The
air
flow
is th
en d
iver
ted
by 9
0° in
the
impe
ller a
nd
disc
harg
ed in
a c
entr
ifuga
l dire
ctio
n.
Back
war
d cu
rved
fans
hav
e a
free
-run
ning
impe
ller a
nd d
o no
t nee
d a
scro
ll ho
usin
g. B
ackw
ard
curv
ed fa
ns a
re ty
pica
lly
used
for a
pplic
atio
ns w
ith m
ediu
m a
ir vo
lum
e an
d m
ediu
m to
hig
h ba
ck p
ress
ure.
It is
alw
ays
reco
mm
ende
d to
use
ba
ckw
ard
curv
ed fa
ns w
ith in
let r
ings
.
In c
ontr
ast t
o ba
ckw
ard
curv
ed fa
ns, f
orw
ard
curv
ed fa
ns m
ust h
ave
a sc
roll
hous
ing
for o
ptim
um a
ir flo
w. T
he h
ousi
ng c
an
eith
er h
ave
sing
le in
let,
mea
ning
air
inta
ke o
nly
from
one
sid
e, o
r dou
ble
inle
t, w
ith a
ir in
take
from
2 s
ides
. Due
to th
e re
quire
men
t of a
hou
sing
and
air
dire
ctio
n, fo
rwar
d cu
rved
fans
are
oft
en a
lso
calle
d fo
rwar
d cu
rved
blo
wer
s.
Dim
ensi
ons
Par
t No.
Type
AB
CD
R2S
133A
E170
5-CT
0A
133
9391
61R
1G17
5AB
6359
-CT0
A17
513
169
62R
2E18
0CB
2809
-CT0
A18
013
255
48R
2E19
0RA
2651
-CT0
A19
013
269
63R
3G19
0RB
0101
-CT0
A19
013
369
63R
3G19
0RD
4503
A19
013
391
63K
3G19
0RD
4509
B22
613
310
263
R2E
220R
A38
01-C
T0A
220
161
7163
.7R
3G22
0RC0
503-
CT0
A22
016
171
64K
3G22
0RD
5303
B27
016
111
164
R2E
225R
A92
09-C
T0A
225
154
9988
R3G
225R
E070
3A
225
154
101
88K
3G22
5RE0
703
B27
015
413
188
R2E
250R
A50
01A
250
173
9985
R4E
250R
A01
05A
250
173
9385
R2E
280A
E520
5A
281
191
125
82R
4E28
0AD
0805
A28
119
112
511
2R
3G28
0RR
03H
1A
294
188
190
127
AC
BA
Rad
ial F
ans
Back
war
d Cu
rved
Direction of Rotation
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Cμ
F/V
kgR
2S13
3AE1
705-
CT0
CW23
050
280
FA 2
780
360.
2555
40–
0.9
BA
CR
1G17
5AB
6359
-CT0
CW24
–55
5FA
3100
341.
6n/
a60
–0.
85n/
aEC
R2E
180C
B28
09-C
T0CW
230
5044
0FA
2550
600.
28n/
a40
1.5/
450
1.4
A1
AC
R2E
190R
A26
51-C
T0CW
240
5054
0M
L24
0050
0.25
5455
1.5/
450
1.2
A1
AC
R3G
190R
B01
01-C
T0CW
200-
240
50/6
064
0M
L27
1057
0.43
6060
–1
H3
ECR
3G19
0RD
4503
CW20
0-24
050
/60
975
ML
4120
169
1.35
6660
–1.
38H
4EC
K3G
190R
D45
09CW
200-
240
50/6
097
5M
L41
2016
91.
3563
60–
2H
4EC
R2E
220R
A38
01-C
T0CW
230
50/6
088
5M
L21
0088
0.39
5250
2.0/
450
1.3
A1
AC
R3G
220R
C050
3-CT
0CW
200-
240
50/6
010
15M
L25
8085
0.7
n/a
60–
1.13
H4
ECK
3G22
0RD
5303
CW20
0-24
050
/60
1290
ML
3230
168
1.4
6645
–2.
1H
4EC
R2E
225R
A92
09-C
T0CW
230
5011
95M
L25
0015
50.
6863
703.
5/45
02.
3A
1A
CR
3G22
5RE0
703
CW20
0-24
050
/60
1300
ML
2860
170
1.4
6060
–1.
75H
4EC
K3G
225R
E070
3CW
200-
240
50/6
013
00M
L28
6017
01.
460
60–
2.5
H4
ECR
2E25
0RA
5001
CW23
050
1420
ML
2500
210
0.93
5870
5.0/
400
2.9
A1
AC
R4E
250R
A01
05CW
230
5077
5M
L13
5047
0.22
4355
1.5/
400
1.9
A1
AC
R2E
280A
E520
5CW
230
5021
10FA
2700
225
1n/
a40
7.0/
400
3.5
A1
AC
R4E
280A
D08
05CW
230
5014
25FA
1420
780.
35n/
a40
2.5/
450
3.18
A1
AC
R3G
280R
R03
H1
CW20
0-27
750
/60
3415
ML
2700
500
2.2
6660
–5
P5
EC
FA =
Fre
e ai
rM
L =
Max
imum
load
43
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Dim
ensi
ons
Par
t No.
Type
AB
CD
K3G
250P
R04
H2
K40
035
023
529
8K
3G25
0PR
17I9
K40
035
025
127
0K
3G28
0PR
04I2
K40
035
025
929
4K
3G31
0AZ
8802
K50
045
032
836
0K
3G35
5PH
4932
K50
045
039
840
5K
3G40
0PI9
202
K50
045
044
645
5K
3G45
0PA
23B
1K
630
580
477
530
K3G
450P
A31
03K
630
580
440
530
K3G
500P
A23
71K
630
580
508
585
K3G
500P
B24
03K
630
580
471
585
K3G
500P
B33
31K
630
580
587
585
K3G
560R
B31
75K
800
750
415
570
K3G
560P
C043
1K
800
750
658
655
K3G
630R
B32
71K
800
750
463
660
K3G
630P
V04
01C
760
666
664
716
K3G
710P
V05
01C
960
880
749
806
K3G
800P
V13
01C
960
880
858
909
K3G
900A
R10
01C
1180
950
748
n/a
D
A B
C
AB
C
Spid
er m
ount
(K)
Cube
des
ign
(C)
Rad
ial F
ans
Back
war
d Cu
rved
Dim
ensi
ons
Par
t No.
Type
AB
CD
K3G
250P
R04
H2
K40
035
023
529
8K
3G25
0PR
17I9
K40
035
025
127
0K
3G28
0PR
04I2
K40
035
025
929
4K
3G31
0AZ
8802
K50
045
032
836
0K
3G35
5PH
4932
K50
045
039
840
5K
3G40
0PI9
202
K50
045
044
645
5K
3G45
0PA
23B
1K
630
580
477
530
K3G
450P
A31
03K
630
580
440
530
K3G
500P
A23
71K
630
580
508
585
K3G
500P
B24
03K
630
580
471
585
K3G
500P
B33
31K
630
580
587
585
K3G
560R
B31
75K
800
750
415
570
K3G
560P
C043
1K
800
750
658
655
K3G
630R
B32
71K
800
750
463
660
K3G
630P
V04
01C
760
666
664
716
K3G
710P
V05
01C
960
880
749
806
K3G
800P
V13
01C
960
880
858
909
K3G
900A
R10
01C
1180
950
748
n/a
Direction of Rotation
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Conduit and Cable Glands
Anti-Vibration Mount
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Ckg
K3G
250P
R04
H2
CW20
0-27
750
/60
2990
ML
3080
500
2.3
6640
–N
o8.
8P5
(RP3
)EC
K3G
250P
R17
I9CW
200-
277
50/6
034
35M
L34
5075
03.
373
40–
No
9.5
P5 (R
P3)
ECK
3G28
0PR
04I2
CW20
0-27
750
/60
4000
ML
3000
750
3.3
6945
–N
o9.
1P5
(RP3
)EC
K3G
310A
Z88
02CW
380-
480
50/6
062
30M
L41
0032
404.
984
40CF
K00
1N
o25
M3
(RP1
)EC
K3G
355P
H49
32CW
380-
480
50/6
072
30M
L28
7019
003.
073
55CF
K00
1N
o25
M3
(RP1
)EC
K3G
400P
I920
2CW
380-
480
50/6
010
020
ML
2450
2500
3.8
7440
CFK
001
No
26M
3 (R
P1)
ECK
3G45
0PA
23B
1CW
380-
480
50/6
012
265
ML
2140
2900
4.5
7460
CFK
001
No
37M
5 (R
P2)
ECK
3G45
0PA
3103
CW38
0-48
050
/60
1400
0M
L24
8045
006.
878
40–
No
33.2
RP6
ECK
3G50
0PA
2371
CW38
0-48
050
/60
1520
0M
L19
1034
505.
376
40CF
K00
1N
o38
.7M
5 (R
P2)
ECK
3G50
0PB
2403
CW38
0-48
050
/60
1593
5M
L20
0042
006.
479
45–
No
43.3
RP6
ECK
3G50
0PB
3331
CW38
0-48
050
/60
1816
0M
L22
5057
009.
080
40CF
K00
2N
o45
.5M
3 (R
P1)
ECK
3G56
0RB
3175
CW38
0-48
050
/60
1433
5M
L16
5029
004.
4369
55CF
K00
1N
o42
.6M
5 (R
P2)
ECK
3G56
0PB
3103
CW38
0-48
050
/60
1930
0M
L17
0044
006.
675
40–
No
53.3
RP6
ECK
3G56
0PC0
431
CW38
0-48
050
/60
2126
5M
L17
6050
007.
777
40CF
K00
2N
o68
M3
(RP1
)EC
K3G
630R
B32
71CW
380-
480
50/6
016
845
ML
1300
2800
4.2
7055
CFK
001
No
55M
5 (R
P2)
ECK
3G63
0PV
0401
CW38
0-48
050
/60
2522
0M
L17
5070
6010
.878
40CF
K00
2Ye
s97
.3M
3 (R
P1)
ECK
3G71
0PV
0501
CW38
0-48
050
/60
3056
5M
L14
3070
5010
.776
40CF
K00
2Ye
s12
8.7
M3
(RP1
)EC
K3G
800P
V13
01CW
380-
480
50/6
037
840
ML
1215
7950
12.1
7640
CFK
002
Yes
148.
3M
3 (R
P1)
ECK
3G90
0AR
1001
CW38
0-48
050
/60
3943
5M
L86
075
2011
.573
40CF
K00
2Ye
s22
2M
3 (R
P1)
EC
FA =
Fre
e ai
rM
L =
Max
imum
load
45
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Dim
ensi
ons
Par
t No.
AC
EF
IK
MG
2E12
0CR
2603
110
9867
.577
9917
118
0G
2E14
0AI2
801
130
120
9294
100
227
248
G2E
160A
Y47
0113
012
092
9410
022
724
8
Rad
ial F
ans
Forw
ard
Curv
ed -
Sing
le In
let
Dim
ensi
ons
Par
t No.
AC
EF
IK
MG
2E12
0CR
2603
110
9867
.577
9917
118
0G
2E14
0AI2
801
130
120
9294
100
227
248
G2E
160A
Y47
0113
012
092
9410
022
724
8
Direction of Rotation
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
A°C
μF/
Vkg
G2E
120C
R26
03CW
240
5029
0FA
2200
800.
3460
2.0/
450
1.9
A1
AC
G2E
140A
I280
1CW
230
5050
0FA
2400
160
0.7
704.
0/40
03.
5A
1A
CG
2E16
0AY
4701
CW23
050
590
FA21
0024
01.
0550
6.0/
400
4A
1A
C
FA =
Fre
e ai
rM
L =
Max
imum
load
47
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Dim
ensi
ons
Par
t No.
Case
St
yle
AC
EF
IK
M
D2E
133D
M47
01-C
T0B
––
104
232
232
203
213
D2E
133A
M83
98-C
T0B
––
7121
521
517
118
0D
2E14
6AP
4722
-CT0
C27
014
210
223
323
220
521
9D
4E14
6AA
0702
-CT0
B–
–10
423
223
220
521
9D
3G14
6LV
1330
-CT2
D27
211
698
226
244
202
209
D2E
146H
S970
4-CT
2A
173
162
150
Roun
d19
422
021
6D
2E14
6HT6
701-
CT2
A17
316
215
0Ro
und
199
223
216
Type
A a
nd D
requ
ire p
lug
and
lead
opt
ion
CDB
A
Rad
ial F
ans
Forw
ard
Curv
ed -
Dou
ble
Inle
t
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Capacitor
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Cμ
F/V
kgD
2E13
3DM
4701
-CT0
230
5076
0M
L16
5017
50.
7858
403.
0/45
03.
8A
1A
CD
2E13
3AM
8398
-CT0
230
5070
5FA
1500
185
0.81
6035
3.0/
500
3.7
ebm
-5-s
peed
AC
D2E
146A
P47
22-C
T023
050
970
ML
2050
300
1.31
6330
8.0/
400
4.4
A1
AC
D4E
146A
A07
02-C
T023
050
835
FA10
0010
00.
4455
502.
0/45
03.
3A
1A
CD
3G14
6LV
1330
-CT1
200-
240
50/6
011
55FA
1550
167
1.3
6160
–2.
9H
6EC
D2E
146H
S970
4-CT
123
050
760
FA13
5019
50.
8657
455.
0/40
0 (P
2)3.
4eb
m-4
-spe
edA
CD
2E14
6HT6
701-
CT1
230
5010
60M
L18
5035
51.
5566
558.
0/45
0 (P
2)3.
44eb
m-4
-spe
edA
C
FA =
Fre
e ai
rM
L =
Max
imum
load
49
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Dim
ensi
ons
Par
t No.
Case
Sty
leA
CE
FK
MK
3G14
6AD
0101
A67
711
698
226
202
209
K
M
A
FF
EC
A
Rad
ial F
ans
Forw
ard
Curv
ed -
Fan
Coil
Uni
t
Nominal Voltage
Frequency
Airflow at 0Pa
Nominal Data at
Speed
Power Input
Current Draw
Sound Pressure Level at 1m
Max. Perm. Amb. Temperature
Approximate Weight
Wiring Diagram
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
AdB
(A)
°Ckg
K3G
146A
D01
0120
0-24
050
/60
2295
ML
1400
243
1.8
6340
4.2
H6
EC
ML
= M
axim
um lo
ad
51
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
87
9
4
104
44
LEAD
LEN
GTH
1000
mm
eb
m p
ap
st
MOT
OR D
IAM
ETER
MOU
NTIN
G PL
ATE
PUM
P M
ODEL
ON
SIDE
OF
CASE
OUTL
ET S
UITA
BLE
FOR
20m
m P
VC H
OSE
4.5m
m F
IXIN
G HO
LE
92
20
81
105
57
135
157
225
3M
AX
WATE
R
NOTE
: ALL
DIM
ENSI
ONS
ARE
IN m
m
MIN
WA
TER
30
6352
.5
Pum
psEv
apor
ativ
e Co
oler
Nominal Voltage
Frequency
Speed
Power Input
Flow rate at 1m head
Flow rate at 2 m head
Approximate Weight
Motor Type
Par
t No.
VH
zR
PM
WL/
sL/
skg
EBM
ALP
HA
-CT0
240
5027
0050
3225
1.4
AC
53
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
ps
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
s
Hig
h Te
mpe
ratu
re A
pplic
atio
nsO
ven
Fans
/ H
eate
rs
R2K
150
Article Number
Nominal Voltage
Frequency
Airflow at 0Pa
Speed
Power Input
Current Draw
Max. Perm. Amb. Temperature
Approximate Weight
Motor Type
Par
t No.
VH
zm
3 /hr
RP
MW
A°C
kgR
2K15
0AC0
325
5546
6.32
180
230
5020
020
0032
0.27
120
0.9
AC
RLA
108/
0034
A76
*55
461.
2176
023
050
162
2520
54n/
a10
5/15
01.
5A
CR
LA97
/420
0-30
30LH
5546
5.12
040
230
5010
825
2028
n/a
90/2
203
AC
Fa =
Fre
e ai
rM
L =
Max
imum
lead
*RLA
108/
0034
A76
repl
aces
G2K
108
AA
0145
& 4
6
55
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
ps
HiT
emp
HiT
emp
Cont
rols
Fan
Law
sD
iagr
ams
• EC
Fan
Dis
play
for e
asy
mon
itor
ing
• EC
Fan
Gat
eway
for m
onit
orin
g an
d in
corp
orat
ion
in B
ACn
et B
uild
ing
Man
agem
ent S
yste
m
(BM
S)
• D
ata
Cent
er F
an C
ontr
olle
r Kit
for c
ompl
ete
pres
sure
con
trol
• D
iffer
enti
al p
ress
ure
cont
rolle
r for
pre
ssur
e m
easu
rem
ent o
r clo
sed
loop
pre
ssur
e co
ntro
l
• Te
mpe
ratu
re S
enso
r for
eas
y te
mpe
ratu
re c
ontr
ol
• H
ead
Pre
ssur
e Co
ntro
ller f
or re
frig
erat
ion
syst
ems
C
DE
AB
ebm
-pap
st's
Gre
enTe
ch E
C te
chno
logy
off
ers
all-i
nclu
sive
air
mov
emen
t fro
m o
ne s
uppl
ier.
Our
EC
prod
ucts
com
e w
ith e
very
thin
g yo
u ne
ed: P
ID c
ontr
ol a
mpl
ifier
, int
erfe
renc
e su
ppre
ssio
n fil
ter,
pow
er
filte
r, m
otor
pro
tect
ion
and
a po
wer
sup
ply
for e
xter
nal s
enso
rs. T
hat’s
how
eas
y it
is w
ith “
Plug
& P
lay”
.
Brin
ging
our
sys
tem
s ap
proa
ch to
the
next
leve
l, w
e no
w in
trod
uce
our c
onnE
Ctor
rang
e. T
he c
onnE
Ctor
ra
nge
mak
es th
e be
st u
se o
f alre
ady
exis
ting
feat
ures
of o
ur G
reen
Tech
EC
prod
ucts
and
is p
erfe
ctly
-su
ited
for i
ndus
trie
s lik
e re
frig
erat
ion,
ven
tilat
ion,
air
cond
ition
ing,
info
rmat
ion
tech
nolo
gy, d
ata
cent
res,
agr
icul
ture
and
mor
e. T
he c
onnE
Ctor
rang
e he
lps
mon
itor,
cont
rol a
nd m
easu
re y
our f
an
syst
em. O
ur a
lway
s ex
pand
ing
conn
ECto
r ran
ge c
urre
ntly
incl
udes
the
follo
win
g pr
oduc
ts:
Cont
rol E
quip
men
tCo
ntro
llers
/ Se
nsor
s
Description
Type
Nominal Voltage
Comment
Par
t No.
VEC
CN01
-CT0
Dat
a ce
ntre
con
trol
ler w
ith 0
-50P
a pr
essu
re s
enso
rsE
20 to
38V
DC/
24VA
CA
pplic
atio
n gu
ide
avai
labl
e vi
a Q
R co
de o
n th
e co
ntro
ller
ECCN
01-C
T1D
ata
cent
re c
ontr
olle
r with
pot
entio
met
erE
20 to
38V
DC/
24VA
CA
pplic
atio
n gu
ide
avai
labl
e vi
a Q
R co
de o
n th
e co
ntro
ller
ECCN
02-C
T0BA
Cnet
Gat
eway
Gen
erat
ion
IIE
24V
DC/
24VA
CCo
nnec
t and
con
trol
Mod
bus
capa
ble
fans
to B
ACn
et B
MS
via
Hig
h Le
vel I
nter
face
ECCN
03-C
T0Fa
n co
nditi
on m
onito
r and
Aut
o ad
dres
sing
–20
to 3
8VD
C/24
VAC
–EC
CN04
-CT0
MO
DBU
S di
spla
y w
ith s
peed
set
ting
–20
to 3
8VD
C/24
VAC
–EC
CN05
-CT0
240V
AC
switc
h 3
spee
d co
ntro
ller
–20
to 3
8VD
C/24
VAC
–P
RES
S12-
CT0
Hea
d pr
essu
re s
enso
r ran
ge 4
to 1
2.5
bar
A10
VD
CSu
itabl
e fo
r ref
riger
ant R
-134
AP
RES
S21-
CT0
Hea
d pr
essu
re s
enso
r ran
ge 1
0 to
21
bar
A10
VD
CSu
itabl
e fo
r ref
riger
ant R
-407
C/R-
404A
/R-5
07P
RES
S28-
CT0
Hea
d pr
essu
re s
enso
r ran
ge 1
2 to
28
bar
A10
VD
CSu
itabl
e fo
r ref
riger
ant R
-410
A50
010-
1-01
74Te
mpe
ratu
re s
enso
r ran
ge +
10°C
to +
45°C
B10
VD
C–
5001
1-1-
0174
Tem
pera
ture
sen
sor r
ange
+30
°C to
+55
°CB
10 V
DC
–D
PC2
00-E
P50
0-00
1D
iffer
entia
l air
pres
sure
con
trol
ler r
ange
0 to
500
Pa
D10
-30
VD
CCa
n ac
t as
a se
nsor
or s
tand
-alo
ne c
ontr
olle
rD
PC2
00-E
P40
00-0
01D
iffer
entia
l air
pres
sure
con
trol
ler r
ange
0 to
400
0 Pa
D10
-30
VD
CCa
n ac
t as
a se
nsor
or s
tand
-alo
ne c
ontr
olle
rCL
C000
AE0
401
10 k
Ω p
oten
tiom
eter
with
hou
sing
C10
VD
CU
se fo
r man
ual a
djus
tmen
t of s
peed
57
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
p
Cont
rols
Cont
rols
Fan
Law
sD
iagr
ams
Velo
city
(v)
Dyn
amic
Pre
ssur
e (P
fd)
m/s
Pa
1.00
0.60
1.25
0.94
1.50
1.35
1.75
1.84
2.00
2.40
2.25
3.04
2.50
3.75
2.75
4.54
3.00
5.40
3.25
6.34
3.50
7.35
3.75
8.44
4.00
9.6
4.25
10.8
4.50
12.2
4.75
13.5
Velo
city
(v)
Dyn
amic
Pre
ssur
e (P
fd)
m/s
Pa
5.00
15.0
5.25
16.5
5.50
18.2
5.75
19.8
6.00
21.6
6.25
23.4
6.50
25.4
6.75
27.3
7.00
29.4
7.25
327.
5034
7.75
368.
0038
8.25
418.
5043
8.75
46
Velo
city
(v)
Dyn
amic
Pre
ssur
e (P
fd)
m/s
Pa
9.00
499.
2551
9.50
549.
7557
10.0
6012
.594
15.0
135
17.5
184
20.0
240
22.5
304
25.0
375
27.5
454
30.0
735
40.0
960
45.0
1215
50.0
1500
Tech
nica
l Inf
orm
atio
n D
ynam
ic P
ress
ure
- Air
velo
city
cha
rt a
t 20°
C am
bien
t tem
pera
ture
59
The
air v
olum
e q v c
hang
es p
ropo
rtio
nally
to
the
spee
d n:
The
stat
ic p
ress
ure
p fs c
hang
es p
ropo
rtio
nally
to
the
squa
re o
f the
spe
ed n
:Th
e in
put p
ower
P c
hang
es p
ropo
rtio
nally
to
the
thir
d po
wer
of t
he s
peed
n:
q v2 =
q v1
n 2 n 1
__P
2 =
P1
n 2 n 1
__ ( )3
p fs2
= p fs
1 n 2 n 1
__ ( )2
Tech
nica
l Inf
orm
atio
n H
ooke
's La
w fo
r Fan
s
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
ls
Tech
Info
Fan
Law
sD
iagr
ams
H0
(dry
)
• N
o w
ater
act
ion,
no
cond
ensa
tion
• M
axim
um re
lati
ve h
umid
ity
(%):
≤ 9
5
• Co
rros
ion
requ
irem
ents
: No
• Ex
ampl
e ap
plic
atio
n: C
onde
nsin
g te
chno
logy
H1
(moi
st)
• W
ater
act
ion
from
con
dens
atio
n
• M
axim
um re
lati
ve h
umid
ity
(%):
100
• Co
rros
ion
requ
irem
ents
: Yes
• Ex
ampl
e ap
plic
atio
n: R
efri
gera
ted
disp
lay
case
at a
sup
erm
arke
t
H2
(wet
)
• D
irec
t wat
er e
xpos
ure
such
as
rain
, sno
w a
nd
ice
• M
axim
um re
lati
ve h
umid
ity
(%):
100
• Co
rros
ion
requ
irem
ents
: Yes
• Ex
ampl
e ap
plic
atio
n: O
utdo
or c
onde
nser
w
itho
ut ra
in p
rote
ctio
n
Tech
nica
l Inf
orm
atio
n H
umid
ity C
lass
es
Ple
ase
chec
k ou
r web
site
ww
w.e
bmpa
pst.
com
.au
or c
atal
ogue
for c
ompl
ete
wir
ing
info
rmat
ion.
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
61
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
ls
Tech
Info
Fan
Law
s
Dia
gram
s
Dia
gram
s
The
follo
win
g in
form
atio
n ap
plie
s ge
nera
lly, b
ut n
ot e
xhau
stiv
ely,
to th
e m
ajor
ity
of A
C pr
oduc
ts s
old
in A
ustr
alia
& N
ew Z
eala
nd.
Not
es1.
BE
CARE
FUL
– al
way
s ch
eck
the
data
on
the
mot
or, i
f in
doub
t ask
an
ebm
-pap
st A
&N
Z re
pres
enta
tive
2. 3
pha
se –
cha
nge
dire
ctio
n of
rota
tion
by c
hang
ing
any
2 ph
ases
(app
lies
for A
C m
otor
s on
ly, n
ot E
C)3.
All
conn
ectio
n le
ads
brou
ght o
ut b
y eb
m-p
apst
are
‘int
erna
l lea
ds’ a
s de
fined
by
EN 6
0335
-14.
‘PE
’ = E
arth
1 ~
230
VAC
pow
er li
ne
A1.
Sin
gle
phas
e ca
paci
tor m
otor
with
TO
P w
ired
inte
rnal
lyA
2a. S
ingl
e ph
ase
capa
cito
r mot
or w
ith c
onne
ctio
n fo
r ext
erna
l TO
P
CN
PEL TO
P
21
ZU
U
U 1=
blue
U 2=
blac
k
Z=
brow
n
=gr
een /
yello
w
CN
PEL
21
ZU
U
TOP
U1=
blue
U2=
blac
k
Z=
brow
n
=gr
een/
yello
w
1 ~
230
VAC
pow
er li
ne
A2b
. Sin
gle
phas
e ca
paci
tor m
otor
with
con
nect
ion
for e
xter
nal T
OP
B. S
hade
d po
le m
otor
with
TO
P w
ired
inte
rnal
ly
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
1 ~
230
VAC
pow
er li
ne
A2b
. Sin
gle
phas
e ca
paci
tor m
otor
with
con
nect
ion
for e
xter
nal T
OP
B. S
hade
d po
le m
otor
with
TO
P w
ired
inte
rnal
ly
UU2
ZTO
PTO
P
PEN
L
C
U 1=
blue
U 2=
blac
k
Z=
brow
n
=gr
een/
yello
w
Fans
with
term
inal
box
NPE
L TOP
L=
blue
N=
brow
n
=gr
een/
yello
w
63
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
Dia
gram
s
1 sp
eed
3 ~
230
VAC
pow
er li
ne1
spee
d 3
~ 40
0 VA
C po
wer
line
C1. D
elta
Con
nect
ion
(3 ~
230
VA
C po
wer
sys
tem
) with
out T
OP
C2. S
tar c
onne
ctio
n (3
~ 4
00 V
AC
pow
er s
yste
m) w
ithou
t TO
P
LL2
L
W2
2V2
UUV
W
PEU 1
=bl
ack
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een /
yello
w
LL2
L
2
VU
2V2
UWW
PEU 1
=bl
ack
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een /
yello
w
1 sp
eed
3 ~
230
VAC
pow
er li
ne1
spee
d 3
~ 40
0 or
480
VA
C po
wer
line
D1.
Del
ta C
onne
ctio
n (3
~ 2
30 V
AC
pow
er li
ne) w
ith T
OP
D2.
Sta
r con
nect
ion
(3 ~
400
or 4
80 V
AC
pow
er li
ne) w
ith T
OP
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
1 sp
eed
3 ~
230
VAC
pow
er li
ne1
spee
d 3
~ 40
0 VA
C po
wer
line
C1. D
elta
Con
nect
ion
(3 ~
230
VA
C po
wer
sys
tem
) with
out T
OP
C2. S
tar c
onne
ctio
n (3
~ 4
00 V
AC
pow
er s
yste
m) w
ithou
t TO
P
1 sp
eed
3 ~
230
VAC
pow
er li
ne1
spee
d 3
~ 40
0 or
480
VA
C po
wer
line
D1.
Del
ta C
onne
ctio
n (3
~ 2
30 V
AC
pow
er li
ne) w
ith T
OP
D2.
Sta
r con
nect
ion
(3 ~
400
or 4
80 V
AC
pow
er li
ne) w
ith T
OP
L3L2
L1
W2
2V2
U
1U
1V
1W
PETO
PU1
=bl
ack
U2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
w
L3TO
PL2
L1
1 2
V 1U
1
2V2
UWW
PEU1
=bl
ack
U2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
w
65
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
Dia
gram
s
2 sp
eeds
via
Δ /
λ-sw
itch
3 ~
400
VA
C po
wer
line
Δ F1a.
Del
ta C
onne
ctio
n (h
igh
spee
d) w
ith T
OP
F2a.
Sta
r con
nect
ion
(low
spe
ed) w
ith T
OP
Dir
ecti
on o
f rot
atio
n is
reve
rsed
by
swap
ping
2 li
ne p
hase
s
LL2
L
W2
2V2
UUV
W
PETO
PU 1
=bl
ack
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
w
LTO
PL2
L
2
VU
2V2
UWW
PEU 1
=bl
ack
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
w
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
2 sp
eeds
via
Δ /
Y-sw
itch
3 ~
400
VA
C po
wer
line
F1b.
Del
ta C
onne
ctio
n (h
igh
spee
d) w
ith T
OP
F2b.
Sta
r con
nect
ion
(low
spe
ed) w
ith T
OP
PEL
L2L
TOP
TOP
V2U2
W2
WV
U
U 1=
blac
k
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
wFa
ns
with
term
inal
box
UV
WW
2U2
V2TO
PTO
P
LL2
LPE
Fans
with
term
inal
box
U 1=
blac
k
U 2=
gree
n
V 1=
blue
V 2=
whi
te
W1
=br
own
W2
=ye
llow
=gr
een/
yello
w
67
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
Dia
gram
s
ebm
2eb
m 3
Sing
le p
hase
2 s
peed
Sing
le p
hase
3 s
peed
Rota
tion
spee
d fa
st (l
evel
II)
Rota
tion
spee
d sl
ow (l
evel
I)gr
een/
yello
w
bl b
lue
b
r bro
wn
g
b ye
llow
SW2
blac
k #
2
SW
3 bl
ack
#3
S
W5
blac
k #
5
ebm
4eb
m 5
Sing
le p
hase
4 s
peed
con
trol
Sing
le p
hase
5 s
peed
Conn
ecti
on D
iagr
am W
hen
chan
ging
spe
eds,
the
switc
h m
ust b
reak
the
circ
uit
bl b
lue
b
r bro
wn
g
e ye
llow
S
W1
whi
teSW
2 re
d
SW
3 gr
ey
SW
4 or
ange
S
W5
blac
k
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
ebm
4eb
m 5
Sing
le p
hase
4 s
peed
con
trol
Sing
le p
hase
5 s
peed
Conn
ecti
on D
iagr
am W
hen
chan
ging
spe
eds,
the
switc
h m
ust b
reak
the
circ
uit
bl b
lue
b
r bro
wn
g
e ye
llow
S
W1
whi
teSW
2 re
d
SW
3 gr
ey
SW
4 or
ange
S
W5
blac
k
69Se
e pu
blic
atio
n/do
wnl
oads
at e
bmpa
pst.
com
.au
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
Dia
gram
s
ESM
31
–El
ectr.
con
nect
ion:
Pow
er s
yste
m: 1
15 o
r 230
VAC
,50
/60
Hz
L1 N
blac
k
blue
brow
n
1 2 5Sp
eed
sele
ctio
n
115
or 2
30 V
ACL
or N
Ener
gy-
savi
ngm
otor
(ESM
)
Ø250 478
.5
Ø220
4xØ4
.3
640+10
450+20
4xØ5
Ø236
Conn
ectio
n le
ad (t
otal
leng
th 4
50 m
m) i
s fit
ted
ex w
orks
and
can
be
deta
ched
Othe
r len
gths
ava
ilabl
e as
acc
esso
ry (s
ee p
age
42).
Conn
ectio
n le
adp.
42
Cent
rifug
al m
odul
ew
ith s
uppo
rt b
rack
et
K1G
200-
AA95
-02
kg 1,2
Mass of centrifugalmodule with supportbracket
K1G
200-
AA73
-02
1,2
Wir
ing
Dia
gram
s AC
Wiri
ng C
onne
ctio
n D
iagr
ams
Wir
ing
Type
Pow
er S
uppl
yD
escr
ipti
onA
larm
Rel
ayB
us In
terf
ace
H3
1~ 2
30V
50/
60H
zTw
o sp
eed
sele
ctab
leN
oN
oH
41~
230
V 5
0/60
Hz
0-10
V s
peed
con
trol
No
No
K1
1~ 2
30V
50/
60H
z0-
10V
spe
ed c
ontr
olYe
sN
oL1
1~ 2
30V
50/
60H
zEC
Gen
I co
ntro
l int
erfa
ce
Yes
ebm
BUS
L23~
400
V 5
0/60
Hz
EC G
en I
cont
rol i
nter
face
Ye
seb
mBU
SL5
3~ 4
00V
50/
60H
zEC
Gen
II c
ontr
ol in
terf
ace
Yes
MO
DBU
SL6
3~ 4
00V
50/
60H
zEC
Gen
I co
ntro
l int
erfa
ce
Yes
MO
DBU
SL7
1~ 2
30V
50/
60H
zEC
Gen
I co
ntro
l int
erfa
ce
Yes
MO
DBU
SRP
1 (p
revi
ousl
y M
3)3~
400
V 5
0/60
Hz
EC G
en II
con
trol
inte
rfac
eYe
sM
OD
BUS
RP2
(pre
viou
sly
M5)
3~ 4
00V
50/
60H
zEC
Gen
II c
ontr
ol in
terf
ace
Yes
MO
DBU
SRP
3 (p
revi
ousl
y P5
)1~
230
V 5
0/60
Hz
EC G
en II
con
trol
inte
rfac
eYe
sM
OD
BUS
RP6
3~ 4
00V
50/
60H
zEC
Gen
III c
ontr
ol in
terf
ace
Yes
MO
DBU
S
71
Wir
ing
Dia
gram
s EC
Wiri
ng C
onne
ctio
n D
iagr
ams
Intr
oduc
tion
Axi
al F
ans
Mot
ors
Rad
ial F
ans
Pum
psH
iTem
pCo
ntro
lsFa
n La
ws
Dia
gram
Dia
gram
s
ww
w.e
bmpa
pst.
com
.au
ww
w.e
bmpa
pst.
co.n
z
2019
-05
ebm
-pap
st A
&N
Z P
ty L
td
Vic
tori
a
10 O
xfor
d Ro
adLa
vert
on N
orth
VIC
302
6Ph
one
+61
(03)
936
0 64
00sa
les@
ebm
paps
t.co
m.a
u
New
Sou
th W
ales
Uni
t 13,
19
Aer
o Ro
adIn
gleb
urn
NSW
256
5Ph
one
+61
(02)
982
7 64
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les@
ebm
paps
t.co
m.a
u
New
Zea
land
Uni
t H, 6
1 H
ugo
John
ston
Driv
ePe
nros
e A
uckl
and
1061
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e +6
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) 525
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