Açıklama
SX 400V; Uyum içindeki Kuvvet ve Akış
Yeni SX 400V invertör, pompalar, fanlar, kompresörler veya üfleme makinelerinden vinçler, kırma makineleri, öğütücüler veya karıştırıcılar gibi yüksek güçlü uygulamalar için sürücü olarak tasarlanmıştır. Standart invertör, uygulama tabanlı dahili yazılıma sahiptir ve donanım tasarımı kullanıcıya esneklik sağlar.
- 90kW’tan 1000kW’a kadar 500V – 690V güç kaynağı
- 0,75 kW’tan 800 kW’a kadar 400V güç kaynağı
- Kompakt tasarım IP54 tam aralık
- C3 Sınıfına uygun dahili filtre
- EN13849-1 ve EN62601 standartlarına uygun güvenlik
- Yük eğrisi kontrolü
- Lojik programlanabilirliği
- Çoklu pompa kontrolü veya Vinç uygulamaları gibi dahili özel uygulama fonksiyonları
- Donanım özelleştirme (Ana anahtar, Sıvı soğutma, 12 pulslu redresör, …)
- Fieldbus haberleşme: EtherCAT, PROFINET, Modbus, DeviceNet, PROFIBUS, Modbus TCP
Özellikler ve sipariş bilgisi
Ordering information
SX
|
Specifications
|
Order code
|
|
Voltage
|
Heavy duty
|
Normal duty
|
IP54 model
|
IP20 model
|
|
Direct torque control
|
V/F
|
Direct torque control
|
V/F
|
|
400 V
|
0.55 kW
|
2.0 A
|
0.75 kW
|
2.5 A
|
SX-D40P7-EF
|
SX-D40P7-EV
|
–
|
–
|
|
1.1 kW
|
3.2 A
|
1.5 kW
|
4.0 A
|
SX-D41P5-EF
|
SX-D41P5-EV
|
|
1.5 kW
|
4.8 A
|
2.2 kW
|
6.0 A
|
SX-D42P2-EF
|
SX-D42P2-EV
|
|
2.2 kW
|
6.0 A
|
3 kW
|
7.5 A
|
SX-D43P0-EF
|
SX-D43P0-EV
|
|
3 kW
|
7.6 A
|
4 kW
|
9.5 A
|
SX-D44P0-EF
|
SX-D44P0-EV
|
|
4 kW
|
10.4 A
|
5.5 kW
|
13 A
|
SX-D45P5-EF
|
SX-D45P5-EV
|
|
5.5 kW
|
14.4 A
|
7.5 kW
|
18 A
|
SX-D47P5-EF
|
SX-D47P5-EV
|
|
7.5 kW
|
21 A
|
11 kW
|
26 A
|
SX-D4011-EF
|
SX-D4011-EV
|
|
11 kW
|
25 A
|
15 kW
|
31 A
|
SX-D4015-EF
|
SX-D4015-EV
|
|
15 kW
|
29.6 A
|
18.5 kW
|
37 A
|
SX-D4018-EF
|
SX-D4018-EV
|
|
18.5 kW
|
37 A
|
22 kW
|
46 A
|
SX-D4022-EF
|
SX-D4022-EV
|
|
22 kW
|
49 A
|
30 kW
|
61 A
|
SX-D4030-EF
|
SX-D4030-EV
|
|
30 kW
|
59 A
|
37 kW
|
74 A
|
SX-D4037-EF
|
SX-D4037-EV
|
|
37 kW
|
72 A
|
45 kW
|
90 A
|
SX-D4045-EF
|
SX-D4045-EV
|
|
45 kW
|
87 A
|
55 kW
|
109 A
|
SX-D4055-EF
|
SX-D4055-EV
|
|
55 kW
|
117 A
|
75 kW
|
146 A
|
SX-D4075-EF
|
SX-D4075-EV
|
|
75 kW
|
140 A
|
90 kW
|
175 A
|
SX-D4090-EF
|
SX-D4090-EV
|
|
90 kW
|
168 A
|
110 kW
|
210 A
|
SX-D4110-EF
|
SX-D4110-EV
|
|
110 kW
|
200 A
|
132 kW
|
250 A
|
SX-D4132-EF
|
SX-D4132-EV
|
|
132 kW
|
240 A
|
160 kW
|
300 A
|
SX-D4160-E1F
|
SX-D4160-E1V
|
SX-A4160-EF
|
SX-A4160-EV
|
|
160 kW
|
300 A
|
200 kW
|
375 A
|
SX-D4200-E1F
|
SX-D4200-E1V
|
SX-A4200-EF
|
SX-A4200-EV
|
|
200 kW
|
344 A
|
220 kW
|
430 A
|
SX-D4220-E1F
|
SX-D4220-E1V
|
SX-A4220-EF
|
SX-A4220-EV
|
|
220 kW
|
400 A
|
250 kW
|
500 A
|
SX-D4250-E1F
|
SX-D4250-E1V
|
SX-A4250-EF
|
SX-A4250-EV
|
|
250 kW
|
480 A
|
315 kW
|
600 A
|
SX-D4315-E1F
|
SX-D4315-E1V
|
SX-A4315-EF
|
SX-A4315-EV
|
|
315 kW
|
520 A
|
355 kW
|
650 A
|
SX-D4355-E1F
|
SX-D4355-E1V
|
SX-A4355-EF
|
SX-A4355-EV
|
|
355 kW
|
600 A
|
400 kW
|
750 A
|
SX-D4400-E1F
|
SX-D4400-E1V
|
SX-A4400-EF
|
SX-A4400-EV
|
|
400 kW
|
688 A
|
450 kW
|
860 A
|
SX-D4450-E1F
|
SX-D4450-E1V
|
SX-A4450-EF
|
SX-A4450-EV
|
|
450 kW
|
800 A
|
500 kW
|
1,000 A
|
SX-D4500-E1F
|
SX-D4500-E1V
|
SX-A4500-EF
|
SX-A4500-EV
|
|
500 kW
|
960 A
|
630 kW
|
1,200 A
|
SX-D4630-E1F
|
SX-D4630-E1V
|
SX-A4630-EF
|
SX-A4630-EV
|
|
630 kW
|
1,200 A
|
800 kW
|
1,500 A
|
SX-D4800-E1F
|
SX-D4800-E1V
|
SX-A4800-EF
|
SX-A4800-EV
|
① Panel kit
|
Type
|
Description
|
Function
|
Order code
|
|
Panel kit
|
Panel kit
|
Complete panel kit including operator
|
SX-OP02-00-E
|
|
Blank panel kit
|
Complete panel kit including a blank operator
|
SX-OP02-01-E
|
|
Operator
|
External control panel
|
External control panel (SX-D40P7 to SX-D47P5)
|
SX-OP02-71-E
|
|
External blank panel
|
External blank panel (SX-D4011 to SX-D4022)
|
SX-OP02-81-E
|
|
Handheld control panel
|
Complete handheld control panel
|
SX-OPHH-00-E
|
|
Digital operator
|
Inverter digital operator
|
SX-OP01-00-E
|
|
Blank operator
|
Blank operator
|
SX-OP01-11-E
|
② I/O option board
|
Description
|
Function
|
Order code
|
|
Additional I/O option
|
Provides 3 extra relay outputs and 3 additional digital inputs
|
01-3876-01
|
|
Crane option
|
Dedicated option board for crane application, including additional I/O and functions
|
01-3876-07
|
③ Communication option board
|
Description
|
Function
|
Order code
|
|
RS232/485
|
MODBUS RTU serial communication by RS232 or RS485 interface with galvanic isolation
|
01-3876-04
|
|
PROFIBUS-DP
|
Used for operating the inverter through PROFIBUS-DP communication with the host controller
|
01-3876-05
|
|
DeviceNet
|
Used for operating the inverter through DeviceNet communication with the host controller
|
01-3876-06
|
|
Modbus/TCP, Ethernet
|
Used for operating the inverter through Modbus/TCP communication with the host controller
|
01-3876-09
|
|
EtherCAT
|
Used for operating the inverter through EtherCAT communication with the host controller
|
01-3876-10
|
|
PROFINET (1-port)
|
Used for operating the inverter through PROFINET communication with the host controller
|
01-3876-11
|
|
PROFINET (2-ports)
|
01-3876-12
|
④ Encoder feedback option card
|
Description
|
Function
|
Order code
|
|
Encoder option
|
Used for connection of the actual motor speed via encoder.
Up to 100 kHz with TTL and HTL incremental encoders with 5/24 V power supply
|
01-3876-03
|
⑤ PTC/PT100 option card
|
Description
|
Function
|
Order code
|
|
Thermal protection
|
Allows to connect a motor thermistor to the inverter
|
01-3876-08
|
⑥ Braking chopper and braking resistor
All inverter sizes could be fitted with an optional built-in brake chopper from factory but is not possible to install it later. The choice of the resistor depends on the application switch-on duration and duty-cycle. Following tables describes the activation level of the built-in braking chopper and the minimum resistor that could be used depending on the input voltage.
|
R for different input voltage ( Ω)
|
Order code
|
R for different input votlage ( Ω)
|
Order code
|
|
220-240 VAC
|
380-415 VAC
|
440-480 VAC
|
220-240 VAC
|
380-415 VAC
|
440-480 VAC
|
|
43
|
43
|
50
|
SX-40P7
|
3.8
|
3.8
|
4.4
|
SX-4075
|
|
43
|
43
|
50
|
SX-41P5
|
3.8
|
3.8
|
4.4
|
SX-4090
|
|
43
|
43
|
50
|
SX-42P2
|
2.7
|
2.7
|
3.1
|
SX-4110
|
|
43
|
43
|
50
|
SX-43P0
|
2.7
|
2.7
|
3.1
|
SX-4132
|
|
43
|
43
|
50
|
SX-44P0
|
2 × 3.8
|
2 × 3.8
|
2 × 4.4
|
SX-4160
|
|
43
|
43
|
50
|
SX-45P5
|
2 × 3.8
|
2 × 3.8
|
2 × 4.4
|
SX-4200
|
|
43
|
43
|
50
|
SX-47P5
|
2 × 2.7
|
2 × 2.7
|
2 × 3.1
|
SX-4220
|
|
26
|
26
|
30
|
SX-4011
|
2 × 2.7
|
2 × 2.7
|
2 × 3.1
|
SX-4250
|
|
26
|
26
|
30
|
SX-4015
|
3 × 2.7
|
3 × 2.7
|
3 × 3.1
|
SX-4315
|
|
17
|
17
|
20
|
SX-4018
|
3 × 2.7
|
3 × 2.7
|
3 × 3.1
|
SX-4355
|
|
17
|
17
|
20
|
SX-4022
|
3 × 2.7
|
3 × 2.7
|
3 × 3.1
|
SX-4400
|
|
9.7
|
9.7
|
N/A
|
SX-4030
|
4 × 2.7
|
4 × 2.7
|
4 × 3.1
|
SX-4450
|
|
9.7
|
9.7
|
N/A
|
SX-4037
|
4 × 2.7
|
4 × 2.7
|
4 × 3.1
|
SX-4500
|
|
3.8
|
3.8
|
4.4
|
SX-4045
|
6 × 2.7
|
6 × 2.7
|
6 × 3.1
|
SX-4630
|
|
3.8
|
3.8
|
4.4
|
SX-4055
|
–
|
|
Supply voltage (VAC)
|
Built-in brake chopper trigger level (VDC)
|
|
220-240
|
380
|
|
380-415
|
660
|
|
440-480
|
780
|
⑦ Output coils
Output coils above SX-D4132-E should be order from factory as they should be installed inside of the cabinet
|
Voltage
|
Inverter model
|
Rated current
|
Inductance
|
Rated voltage
|
Max. carrier
|
Max. output frequency
|
Max. temp
|
Order code
|
|
400 V
|
SX-40P7-E
|
2.8 A
|
1.5 mH
|
800 V
|
10 KHz
|
200 Hz
|
40ºC
|
473160 00
|
|
SX-41P5-E
|
4.4 A
|
1.0 mH
|
473161 00
|
|
SX-42P2-E
|
6.6 A
|
0.65 mH
|
473162 00
|
|
SX-43P0-E
|
11.0 A
|
0.4 mH
|
473163 00
|
|
SX-44P0-E
|
|
SX-45P5-E
|
14.3 A
|
0.3 mH
|
473164 00
|
|
SX-47P5-E
|
18.2 A
|
0.25 mH
|
473165 00
|
|
SX-4011-E
|
26.4 A
|
0.175 mH
|
6 KHz
|
473166 00
|
|
SX-4015-E
|
32 A
|
0.15 mH
|
473167 00
|
|
SX-4018-E
|
65 A
|
0.1 mH
|
473168 00
|
|
SX-4022-E
|
|
SX-4030-E
|
|
SX-4037-E
|
90 A
|
0.1 mH
|
473169 00
|
|
SX-4045-E
|
|
SX-4055-E
|
146 A
|
0.05 mH
|
473170 00
|
|
SX-4075-E
|
|
SX-4090-E
|
175 A
|
0.05 mH
|
473171 00
|
|
SX-4110-E
|
275 A
|
0.032 mH
|
1.5 KHz
|
100 Hz
|
473172 00
|
|
SX-4132-E
|
⑧ Overshoot clamp
Note: Only two types of overshoot clamps could be order for after mounting
|
Inverter
|
Function
|
Order code
|
|
SX-40P7 to SX-4132
|
Together with the output coils, the overshoot clamp restricts the voltage and the dV/dt on the motor winding.
Inverters must be ordered including the option DC+/DC- connectors.
|
52163
|
|
SX-4160 to SX-4800
|
Together with the output coils, the overshoot clamp restricts the voltage and the dV/dt on the motor winding.
Doesn´t require the “DC+/DC-” option.
|
52220
|
Computer software
|
Installation
|
Order code
|
|
Configuration and monitoring software tool
|
CX-Drive
|
|
Configuration and monitoring software tool
|
CX-One
|
|
Software tool for energy saving calculation
|
€Saver
|
Specifications
|
Three-phase: SX- _ 4 ___ -E _
|
0P7
|
1P5
|
2P2
|
3P0
|
4P0
|
5P5
|
7P5
|
011
|
015
|
018
|
022
|
030
|
037
|
045
|
055
|
|
Motor kW
|
For HD setting
|
0.55
|
1.1
|
1.5
|
2.2
|
3
|
4
|
5.5
|
7.5
|
11
|
15
|
18.5
|
22
|
30
|
37
|
45
|
|
For ND setting
|
0.75
|
1.5
|
2.2
|
3
|
4
|
5.5
|
7.5
|
11
|
15
|
18.5
|
22
|
30
|
37
|
45
|
55
|
|
Output
characteristics
|
Max output current (A) _ -EF
|
3.8
|
6.0
|
9.0
|
11.3
|
14.3
|
19.5
|
27.0
|
39.0
|
46.0
|
55.0
|
69.0
|
92.0
|
111
|
108
|
131
|
|
Max output current (A) _ -EV
|
3.0
|
4.8
|
7.2
|
9.0
|
11.4
|
15.6
|
21.6
|
31.0
|
37.0
|
44.0
|
55.0
|
73.0
|
89.0
|
108
|
131
|
|
Rated output current (A) at HD
|
2.0
|
3.2
|
4.8
|
6.0
|
7.6
|
10.4
|
14.4
|
21.0
|
25.0
|
29.6
|
37.0
|
49.0
|
59.0
|
72.0
|
87.0
|
|
Rated output current (A) at ND
|
2.5
|
4.0
|
6.0
|
7.5
|
9.5
|
13.0
|
18.0
|
26.0
|
31.0
|
37.0
|
46.0
|
61.0
|
74.0
|
90.0
|
109
|
|
Output voltage
|
0 to Mains supply voltage
|
|
Max. output frequency
|
400 Hz
|
|
Power
supply
|
Rated input voltage and frequency
|
3-phase 230 to 480 V 50/60 Hz
|
|
Allowable voltage fluctuation
|
10% to -15% (-10% at 230V)
|
|
Allowable frequency fluctuation
|
45 to 65 Hz
|
|
Three-phase: SX- _ 4 ___ -E _
|
075
|
090
|
110
|
132
|
160
|
200
|
220
|
250
|
315
|
355
|
400
|
450
|
500
|
630
|
800
|
|
Motor
kW
|
For HD setting
|
55
|
75
|
90
|
110
|
132
|
160
|
200
|
220
|
250
|
315
|
355
|
400
|
450
|
500
|
630
|
|
For ND setting
|
75
|
90
|
110
|
132
|
160
|
200
|
220
|
250
|
315
|
355
|
400
|
450
|
500
|
630
|
800
|
|
Output
characteristics
|
Max output current (A) _ -EF
|
175
|
210
|
252
|
300
|
360
|
450
|
516
|
600
|
720
|
780
|
900
|
1,032
|
1,200
|
1,440
|
1,800
|
|
Max output current (A) _ -EV
|
175
|
210
|
252
|
300
|
360
|
450
|
516
|
600
|
720
|
780
|
900
|
1,032
|
1,200
|
1,440
|
1,800
|
|
Rated output current (A) at HD
|
117
|
140
|
168
|
200
|
240
|
300
|
344
|
400
|
480
|
520
|
600
|
688
|
800
|
960
|
1,200
|
|
Rated output current (A) at ND
|
146
|
175
|
210
|
250
|
300
|
375
|
430
|
500
|
600
|
650
|
750
|
860
|
1,000
|
1,200
|
1,500
|
|
Output voltage
|
0 to Mains supply voltage
|
|
Max. output frequency
|
400 Hz
|
|
Power
supply
|
Rated input voltage and frequency
|
3-phase 230 to 480 V 50/60 Hz
|
|
Allowable voltage fluctuation
|
10% to -15% (-10% at 230V)
|
|
Allowable frequency fluctuation
|
45 to 65 Hz
|
Dimensions
|
Degree of protection
|
Drive model
|
H
|
W
|
D
|
|
|
IP20
|
SX-A4160 to SX-A4200
|
1,036
|
500
|
390
|
|
|
SX-A4220 to SX-A4250
|
1,036
|
500
|
450
|
|
SX-A4315 to SX-A4400
|
1,036
|
730
|
450
|
|
SX-A4450 to SX-A4500
|
1,036
|
1,100
|
450
|
|
SX-A4630 to SX-A4800
|
1,036
|
1,560
|
450
|
|
IP54
|
SX-D40P7 to SX-D47P5
|
416
|
202.6
|
200
|
|
SX-D4011 to SX-D4022
|
512
|
178
|
292.1
|
|
SX-D4030 to SX-D4037
|
590
|
220
|
295
|
|
SX-D4045 to SX-D4090
|
950
|
284.5
|
314
|
|
SX-D4110 to SX-D4132
|
950
|
344.5
|
314
|
|
SX-D4160 to SX-D4250
|
2,250
|
600
|
600
|
|
SX-D4315 to SX-D4400
|
2,250
|
900
|
600
|
|
SX-D4450 to SX-D4500
|
2,250
|
1,200
|
600
|
|
SX-D4630 to SX-D4800
|
2,250
|
1,800
|
600
|
Yazılım
CX-Drive
Tek bir yazılım aracı ile servoların ve invertörlerin yapılandırma, devreye alma ve bakım karmaşıklığını ve zamanını azaltın. CX-Drive, yeni Accurax G5 servo sistem ve MX2 invertörlerdeki özellikleri destekliyor.
CX-One
CX-One, kullanıcıların tek bir kuruluma ve lisans numarasına sahip olan yalnızca bir yazılım paketi kullanarak çok sayıda PLC, HMI ve hareket kontrol sistemi gibi cihazı ve ağı oluşturabilmelerini, yapılandırabilmelerini ve programlayabilmelerini sağlar. Bu, konfigürasyonların karmaşıklığını önemli ölçüde azaltır ve otomasyon sistemlerinin en az eğitim ile programlanıp konfigüre edilmesini sağlar.
