施耐德电气 ATV 11A 亚洲系列 异步电动机变频器 说明书
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V1
DO
(3)
+
M 3
=
PA
200...230 V
(1) (2) (3)
PB
-
+15V +15V
(
+24V )
0V
0V
W
U
V
+15 V
RC
RA
0V
(
)
Altivar 11
5
Altivar 11
3
7
ESC
ENT
RUN STOP
RUN tCC
FUn LOC
STOP tCC ( Fun LOC tCC ( Fun LOC )
- nO: - FrP: - FSt: brA - nO: - YES: AdC ACt
nO
0
1)
nO
LI 0.1 0.1 99.9 99.9
5.0 5.0 nO (dEC dE2) YES
AC2 dE2 StP
YES
- nO: - YES: tdC - Ct: SdC 3 ACT = YES SdC
3 3 0 = bFr
0Hz
dEC
FrS (drC FrS (drC )
) 0.1 s 0Hz
0 Hz
LSP
0
HSP LSP
.
ItH 0 1.5 In (1)
ItH
SP2 SP3 SP4 AIt
2 3 4
-5U: -10U: - 0A: -4A:
(2) (2) (2)
0-5 ( 0-10 ( 0-20mA 4-20mA ) )
10mm
100m
3.2m
2 )
M5
( 2 M5
131 mm
≥72 mm
≥10 m
m
S
60 mm
tHd
SUP
≥142 mm
3
Altivar ATV 11p AWG U05ppA, U09ppA, U18MpA U18F1A, U29ppA, U41ppA AWG 14 AWG 10 mm2 1.5 4 0.75 1
SP2 SP3 SP4 (1) 1 9
)
tCC = 3c LI4 LI3 tCC = 3c LI4 nO SP4 LIA LIb
10 25 50
2 3 4
0.0 0.0 0.0
200Hz 200Hz 200Hz
(1) (1) (1)
rSF - nO: - LI1 LI4: ( rP2 LI 2 2 nO: - LI1 to LI4: AC2 dE2 2 2
nPL
POS
- POS:
5V 11V
- nEG: 11V
POS bFr ( 50Hz nEG bFr 1 60Hz
11V ( (0 ) 5V ( 0V ) (0 )
+ 15V (1 ENT 2
) )
(1
) 11V
)
50
11
IPL - nO: - YES:
SCS - nO: - YES: nO
YES
FUn LOC LSr
)
ENT
ENT
ACC
ESC
015 026
ESC
1 (
)
dEC
( rdY 43.0 dcb nST )
026
ENT
SUP
(
)
6
1
:::
bFr drC Fun SUP
-5+
1
-5+
-5+
-5+
bFr
50 Hz 60 Hz FUn
50
ACC
0.1 s
99.9 s 99.9 s HSP 200 Hz
131±1 2 x 5 131±1 2 x 5 131±1 2 x 5 131±1 4 x 5
H
H
117 142
=
G a
=
=
G a
=
=
=
c
c
ATV 11P
a b mm mm 72 142
c mm 108
G mm 60±1
H mm
mm
131±1 2 x 5
2
≥ 50 mm ≥d ≥d
10C
10mm IP20
0
)
- 2: 2 kHz ( - 4: 4 kHz ( - 8: 8 kHz ( -12: 12 kHz ( -16: 16 kHz ( SFr = 2kHz SFt = HF
ACT = LF LFr ) ACT = LF LFr ) ACT = HF ) ACT = HF ) ACT = HF ) 4kHz SFr
)
( ( FUn
1= )
LSP
2 = 10Hz
3 = 25Hz
4 = 50 Hz)
I/O
2
4
ATV 11H
=
=
a b mm mm 72 72 72 142 142 147
c mm 108 132 145 163
G mm 60±1 60±1 60±1 106±1
H mm
mm
U05ppA U09ppA U18MpA U18F1A U29ppA U41ppA
20
bFr
FLG
0 1 .
100% 100%
20
UFr
IR ( Ufr )
0
200%
50
nCr CLI nSL nSL = Nn = Ns = SLP FrS (1 - Nn/Ns)
0.25 0.5 0
1.5 In (1) 1.5 In (1) 10.0 Hz 1.5 In
0
150% nSL
100
nSL SLP) COS (1) In = cos 0.50 1.00
1
12 LI3 LI4
34 ACC ( LSP ( ItH ) ( (bFr) dEC ( 50Hz ( ) ) ) ) HSP ( ) SP2-SP3-SP4
56-
drC
Altivar 11 - L11 L12 - L13 L14 4 AL1 R1 DO
(RUN/STOP
10
FLr 2 -nO: (tCC = 2C) -YES: tCt = LEL PFO ( (Ct)
dO ACt
nO
1
)
/
DO
rFr
- nO: - OCr: = 200% rFr: = - FtA: = SrA: = CtA: = (1 ) Ftd ACt = FtA 0 200Hz Ftd 0 1.5In Ctd
Atr - nO: - YES: 1s 5s 10s OHF tCt = LEL
HSP
100% (1 (1 Ctd ) )
Ctd
(In =
ACt = CtA
) = bFr In nO
1 OLF PFO OBF 2 OSF PHF
6
( tCC = 2C )
LSr
LOC
- LOC: - tEr:
LOC tEr AI1 ENT 2
(
8
FUn
ENT ESC
FUn
ESC
tCC
ENT
ESC
ESC
FCS
ENT
tCC ACt 2C = 2 3C= 3 LOC
LOC =
2
(
+15 V LI1 LIx
RUN/STOP (
/
))
LI1: LIx: 3
(
)
+15 V LI1 LI2 LIx
LI1: LI2: LIx:
tCC rrS tCt 2 ( LEL: 0 1 trn: ( ) PFO: LEL rrS nO: LI1 PS2 LI4: tCt Atr tCC = 2C
≥ 50 mm
-10C 40C 50C
40C: 50C: 60C:
d ≥ 50 mm d=0 ( d ≥ 50 mm d ≥ 50 mm 1C
) ( ( 2.2%
( IP20) IP20)
IP20) 50C
ATV 11PppppppA 40C 10 0.12m2 ( )
(
)
(
0.09m2 72 ) 142 ( )
ENT 2 PS2 (LIA LIb) ) trn
tCC = 2C: LI2 tCC = 3C: LI3
tCC = LOC
( tCC LSr=LOC LIA LIb=0 = LIA = 1 LIb = 0 = SP2 LIA = 0 LIb = 1 = SP3 LIA = 1 LIb = 1 = SP4 LIA LIA - nO: - LI1 to LI4: LIA LIb LIb - nO: - LI1 to LI4: LIb SP2 LIA SP3
+ 15V (
(
)
0
+15V
15% 100mA
4
100...120 V
L1 L1
200...240 V
200...230 V
L2
ATV11ppppM2A
N
ATV11ppppF1A
L2
L1
L3
ATV11ppppM3A
(2) (1)
LI1
LI2
LI3
LI4
PA / +
PC / -
+5V
AI1
W1
U1
(
)
Hz Hz A V
100% 100% 100% 80%
118% 118%
OLF OHF
( (
% %
12
t t
-
rdY
nSt
OSF
ObF
PHF
OHF
OLF
OSF
SOF ObF
OHF PHF
OLF
OCF
t t t t
/
/
SCF
InF CFF SOF OHF OLF OSF ObF PHF
t t t t t t t t t
Altivar 11 Telemecanique
!"#$% ATV 11ppppppA !
!
Building a New Electric World
.............................................................................................. 2 ......................................................................................................... 2 ......................................................................................................... 2 .............................................................................................. 3 ......................................................................................................... 4 ............................................................................................................ 5 .......................................................................................... 6 ......................................................................................................... 7 ................................................................................. 13
0V AI1 +5V DO
I/O
0V 30V 40k 0 +10V 0 + 5V 0 - 20mA 4 - 20m A 250 ( )
2.2
10k
2kHz
-0 + 5% 10mA PWM 30V 30V 1k 100k 30V ) 5V 0 5V 1 10mA 50mA 5K 11V 1 11V
LI1 LI2 LI3 LI4 + 15V
(
) FUn FCS
0.0 0.0 0.0
200 Hz 200 Hz 200 Hz
10 25 50 5U
5U, 10U, 0A, 4A
(1) In = (2)
FUn 7
drC
ENT
ENT
drC
ESC
UnS
ESC
ESC
ENT
COS
ESC
cos
UnS FrS
StA
100 40
500 V 200 Hz 0 1 100% 100% 50 / 60Hz
tdC SdC SFt ACt - LFr: 2 4kHz - LF: 2 4kHz - HF: 8 12 16kHz SFr
SdC
.
LI tdC 0.1 30.0 1.2In (In =
1 ACT = YES Ct
0.5 0.7 In LF SFr SFr SFr Act=LF LFr ) 12 ( Act= HF ) 4(
nO EEPROM SCS
FCS - nO: - rEC:
SCS FCS rEC nO FCS rEC InI ENT 2
nO
- InI : nOJ0@
ESC
Value
ENT
ESC
ESC ENT
Value
( ENT ( 2 ENT
FrH )
)
FrH rFr LCr ULn tHr ) tHd )
Nm
0V AI 1 +5V DO LI 1 LI 2 LI 3 LI 4 + 15V
RC RA
1.5 mm2 - AWG 16 0.5 Nm.
RC RA
24V ( ) 30V 30V
10mA 250V 250V
(cos= 0.4 - L/R = 7ms) 2A (cos= 1 - L/R = 0) 5A