Rockwell Automation 20G PowerFlex 755 IP00 NEMA/UL Open Drive - Frames 8-10 User Manual
Page 75
Rockwell Automation Publication 750-IN020C-EN-P - May 2012
75
PowerFlex 755 IP00, NEMA/UL Open Type Drive
69
0 V
olt
A
C Input (continued
)
932
V DC Input
80
0 kW
9
79
5
Heav
y
20
G11T
F960
2
1193
14
40
74
9
900
10
00
95
0
475
17
00
950
47
5
220
0
2200
95
0
100
0
79
5
N
orm
al
20
G11T
F460
2
875
13
50
74
9
900
10
00
95
0
475
17
00
950
47
5
220
0
2200
95
0
100
0
79
0
Light
20
G11T
F370
2
869
–
744
900
10
00
95
0
475
17
00
950
47
5
220
0
2200
95
0
100
0
85
0 kW
9
86
0
Light
20
G11T
F415
2
946
–
810
900
10
00
10
00
50
0
18
00
100
0
500
240
0
2400
10
00
100
0
90
0 kW
9
96
0
Norm
al
20
G11T
F960
2
1056
14
40
90
4
900
10
00
11
50
57
5
20
00
115
0
575
270
0
2700
11
50
100
0
96
0
Light
20
G11T
F460
2
1056
–
904
900
10
00
11
50
57
5
20
00
115
0
575
270
0
2700
11
50
100
0
10
86
5
H
eav
y
20
G11T
F370
3
1298
15
60
81
5
900
10
00
10
00
50
0
18
00
100
0
500
240
0
2400
10
00
100
0
10
00 kW
9
10
20
Light
20
G11T
F460
2
1122
–
961
900
10
00
12
00
60
0
22
00
120
0
600
290
0
2900
12
00
100
0
10
10
40
Norm
al
20
G11T
F370
3
1144
15
60
98
0
900
10
00
12
50
62
5
22
00
125
0
625
290
0
2900
12
50
100
0
11
00 kW
10
11
50
Light
20
G11T
F370
3
1265
13
80
1083
900
10
00
13
50
67
5
24
00
135
0
675
320
0
3200
13
50
100
0
11
20 kW
10
11
60
Heav
y
20
G11T
F500
3
1740
21
00
1093
900
10
00
13
50
67
5
25
00
135
0
675
330
0
3300
13
50
100
0
14
00 kW
10
14
00
Norm
al
20
G11T
F500
3
1540
21
00
1319
900
10
00
16
50
82
5
30
00
165
0
825
400
0
4000
16
50
100
0
15
00 kW
10
14
85
Light
20
G11T
F500
3
1634
17
82
1399
900
10
00
17
50
87
5
31
00
175
0
875
420
0
4200
17
50
100
0
(1)
“Ap
plied
Ra
ting
” r
efers
to
the mot
or tha
t will
be
c
onne
ct
ed t
o the driv
e.
F
or e
xample
, a
“F4
00” driv
e
ca
n be
used
in N
ormal
D
ut
y mode on a
400 kW mot
or
, in
Hea
vy D
ut
y mode on
a 355
k
W
mot
or or in Lig
ht D
ut
y mode on a 4
50 kW mot
or
. T
he driv
e c
an be
pr
ogr
ammed
for e
ach
mode
. W
iring
and
fuses c
an be
siz
ed base
d on the
pr
og
ra
mmed mode
. F
or an
y giv
en
driv
e
ca
talog
number
, Normal D
ut
y
mode
pr
ovides
higher c
ontinuous c
urr
ent but smaller
ov
er
load c
urr
en
t with r
esp
ec
t t
o
Hea
vy
D
ut
y mo
de
. S
ee par
amet
er 30
6 [D
ut
y Ratin
g].
Re
fe
r t
o Spe
cif
ic
at
io
ns f
or a
n e
xpl
ana
tion of
Dut
y Ra
tings
.
(2
)
Thes
e A
C li
ne f
use
s (w
ith bl
ow
n f
use
indi
ca
to
rs)
ar
e
inc
lude
d in the
driv
e t
o
pr
ov
ide
driv
e s
hor
t ci
rc
uit pr
ot
ec
tion. A
C i
np
ut pr
ot
ec
tion dev
ic
es for branch c
irc
uit pr
ot
ec
tion based
on U
S
NE
C ar
e list
ed in
the
table
. E
ach driv
e ba
y has one f
use p
er ph
as
e.
(3)
M
inimum pr
ot
ec
tion devic
e siz
e is th
e l
ow
est ra
ted d
evi
ce
that sup
pl
ie
s m
ax
imum p
rot
ec
tion without nuisance trip
ping
.
(4)
M
aximum pr
ot
ec
tion devic
e siz
e is the hi
ghest r
at
ed devic
e tha
t sup
plies
dr
iv
e pr
ot
ec
tion
. F
or U
S N
EC
, mi
nim
um si
ze
is
12
5%
of
motor FL
A. R
ating
s shown are ma
xi
mum
.
(5
)
Circui
t B
rea
ke
r -
in
ve
rse
ti
m
e br
ea
ke
r. F
or U
S NEC, m
ini
mu
m s
iz
e is
1
25%
of
motor FL
A. R
ating
s s
hown are m
axi
m
um.
(6)
Rec
ommended Mot
or cir
cuit p
rot
ec
to
r - Instan
taneous trip cir
cuit br
eak
er
. T
he trip setting
sh
ould
be set t
o the in
pu
t curr
en
t of
the
driv
e and should be sized for the con
tinuo
us c
urr
ent
of
the syst
em
.
(7
)
Thes
e DC
li
ne f
use
s (w
ith bl
ow
n f
use
indi
ca
to
rs)
ar
e
inc
lude
d in the
driv
e t
o
pr
ov
ide
driv
e s
hor
t ci
rc
uit pr
ot
ec
tion.
Ap
pli
ed
Ra
ti
ng
(1
)
Equi
v. F
ram
e
Co
nt
.
Ou
tp
u
t
Amps
D
u
ty
Ca
talo
g
Numb
er
Quan
tit
y
Ou
tp
u
t
O
ver
load Amps
Co
ntinuo
us
AC
In
p
u
t
AC
Input Inte
gral
Semico
ndu
ct
or
Fu
se S
iz
e
(170M
)
(2
)
DC B
ay to
Ba
y
Integra
l
Se
m
ic
on
d
u
ct
or
Fu
se
S
ize
(170M6
648)
AC
Inpu
t Protec
ti
on De
vices Recomm
end
ed f
or Branch Circ
uit Protec
tion
DC Inpu
t Integr
al
Semico
ndu
ct
or
Fu
se
S
ize
(170
M6253
)
(7
)
D
u
al E
lem
ent Ti
me De
la
y
Fu
se
N
on-
Time
Dela
y F
u
se
Ci
rc
u
it
B
re
ak
er
Ma
x Si
ze
(5
)
Motor
C
irc
ui
t
Prote
ctor
(6
)
1 m
in
3 se
c
Amps
Amps
Am
ps
1/
Phas
e
Min
(3)
2/
Ph
as
e
Mi
n
(3)
Ma
x
(4)
1/P
has
e
Mi
n
(3
)
2/
Ph
as
e
Min
(3)
Ma
x
(4)
Am
ps