Danfoss RFI DU VACON NXP Air Cooled User Manual

Danfoss RFI DU VACON NXP Air Cooled

Product Information

Specifications

• Product: AC Drives RFI-, du/dt-, and Sine-Filters
• Document ID: DPD01805C
• Revision Release Date: 12.08.2020

General

The AC Drives RFI-, du/dt-, and Sine-Filters user manual provides information on the intended use, safety instructions, grounding, screening, and general information about AC drives.

Intended Use

This document covers the following filter types:

• RFI-Filters
• du/dt-Filters
• Sine-Filters

Safety Notice

WARNING: All internal components and component boards, except for the galvanically separated input and output terminals, are connected to high voltage when the AC drive is connected to the mains. Touching these live parts can cause severe injury or  death.
NOTE! The I/O terminals are separated from the high potential of the mains, but the relay outputs and other I/O terminals may carry high voltages even if the AC drive is not connected to the mains.

General Safety Instructions

• WARNING: Installation and service work should only be performed by qualified electricians.
• WARNING: Do not perform any work on an operating unit. Contact with the electrical parts may be fatal, even after disconnection from the power network.
• WARNING: Before servicing the unit, wait at least the voltage discharge time stated in the user guide for the corresponding AC drive to avoid electrical shock hazards.
• WARNING: Never attempt to repair a defective unit.
• WARNING: The unit surface temperature rises during operation. Avoid any contact.

Grounding

WARNING: The unit must be grounded before switching the power on. Please refer to the data sheet for detailed information.

Screening

It is recommended to use shielded cables to reduce noise, and electromagnetic interference, and prevent malfunctions in the installation. Preferably, take measures such as cable segregation and mounting in earthed cable trays to avoid the possibility of cross-couplings with other cables carrying sensitive signals.

Filter Types

This section provides information about different filter types used in AC drives.

Drawings and Diagrams

This section contains drawings and diagrams related to dU/dt-filters in enclosed drives, safe operating area for dU/dt-filters, and output current for frequency operation.

dU/dt-Filters in Enclosed Drive

This subsection provides specific information, drawings, and diagrams related to dU/dt-filters used in enclosed drives.

Safe Operating Area for dU/dt-Filters

This subsection provides information about the safe operating area for dU/dt- filters and any relevant diagrams.

Output Current for Frequency Operation

This subsection provides information about the output current for frequency operation and any relevant diagrams.

Local Contacts

For local contacts and further assistance, please visit: https://www.danfoss.com/en/contact-us/contacts-list/

FAQ

• Q: What are the filter types covered in this user manual?
  A: The user manual covers RFI-Filters, du/dt-Filters, and Sine-Filters.

• Q: Can I touch the internal components of the AC drive?
  A: No, it is extremely dangerous to touch the internal components and component boards, except for the galvanically separated input and output terminals, as they are connected to high voltage. Touching them may cause severe injury or death.

• Q: Can the AC drive carry high voltages even when it is not connected to the mains?
  A: Yes, the relay outputs and other I/O terminals may carry high voltages even if the AC drive is not connected to the mains.

• Q: Who should perform installation and service work on the AC drive?
  A: Only qualified electricians should perform installation and service work on the AC drive.

• Q: Can I repair a defective unit myself?
  A: No, never attempt to repair a defective unit. Seek professional assistance.

• Q: What precautions should I take regarding the unit surface temperature during operation?
  A: The unit surface temperature rises during operation, so avoid any contact with it.

• Q: Why is grounding important for the AC drive?
  A: Grounding is important to ensure safety and proper functionality of the AC drive. Please refer to the data sheet for detailed grounding information.

• Q: Why is it recommended to use shielded cables?
  A: Using shielded cables helps reduce noise, electromagnetic interference, and prevents malfunctions in the installation. It is advisable to take measures such as cable segregation and mounting
  in earthed cable trays to avoid cross-couplings with other cables carrying sensitive signals.

• Q: What is the common-mode voltage in AC drives?
  A: AC drives do not supply a smoothly changing AC voltage to the motor, but a pulsed DC voltage. The sum of the three-phase voltages does not sum to zero, leading to the presence of a common-mode voltage between the motor coils and ground.

Local Contacts

For local contacts and further assistance, please visit: https://www.danfoss.com/en/contact-us/contacts-list/

NOTE! Download the English and French product manuals with applicable safety, warning and caution information from https://www.danfoss.com/en /service-and-support/.

GENERAL

Intended use
This document covers the following filter types:

• RFI – filters on the input side, and
• dU/dt – filters and sine – filters on the output side of the VACON® NX AC drive.

Safety notice

WARNING : All internal components and component boards, with the exception of the galvanically separated input and output terminals are connected to high voltage when the AC drive is connected to the mains. It is extremely dangerous to touch these live parts. Touch may cause severe injury or death.

NOTE!
The I/O terminals are separated from the high potential of the mains, but the relay outputs and other I/O terminals may carry high voltages even if the AC drive is not connected to the mains.

NOTE!
Do not perform any high pot tests (megger) on the filters. The VACON® RFI filters are intended for use in grounded supplies only. For ungrounded (IT) supplies, contact our representative or us.

General safety instructions

• WARNING: Installation and service work only by qualified electricians.
• WARNING: No work on an operating unit. Contact with the electrical parts may be fatal, even after disconnection from the power network.
• WARNING: To avoid electrical shock hazard:
  • Before servicing the unit, wait at least the voltage discharge time stated in the user guide for the corresponding AC drive.
  • Dangerouse voltage may be on the unit even when the motor is not rotating.
• WARNING: Never attempt to repair a defective unit.
• WARNING: The unit surface temperature rises during operation. Avoid any contact.

Grounding

WARNING : The unit must be grounded before switching the power on. Please refer to the data sheet for detailed information

Screening

It is recommended to use shielded cables to reduce noise, electromagnetic interference and to prevent malfunctions in the installation. Preferably:

• Screened and/or twised cable between the converter output and unit input (U1, V1, W1).
• Shielded cables between the unit output (U2, V2, W2) and the motor.
• In case of unscreened cables it should be ensured that the installation minimizes the possibility of cross-couplings with other cables which are carrying sensitive signals. This can be achieved by mea-sures such as cable segregation and mounting in earthed cable trays.

General

• AC drives do not supply a smoothly changing AC voltage to the motor, but a pulsed DC voltage. The sum of the three phase voltages does not sum to zero, as in the case of mains supply, leading to the presence of a common-mode voltage between the motor coils and ground.
• The pulses fed to the motor have very steep flanks, and the rate of voltage change (dU/dt) may reach several kV/μs. Unloaded IGBTs will switch at speeds of about 6 – 8 kV/μs, when a motor cable and motor is connected, and the speed will drop to about 2 kV/μs. The voltages caused by these steep pulses may be dangerous to the insulation of the motor.
• The high switching speeds give rise to EMC effects, both as radiated disturbances as well as disturbance currents in galvanically connected cables. The radiated interference is usually grounded by the metallic enclosure of the drive as well as through the use of shielded cable, and does not cause any problems in the environment. The galvanically coupled interference may have to be filtered in order to achieve EMC compliance. The VACON® NX range of AC drives contain an internal filter for bringing the drives into compliance with the standard (specifically IEC 61800- 3:2004). In some cases, additional filtering is required. Both input and output filters are available for the VACON® NX range of drives. The drive may also have to be protected against various overvoltages occurring in the supply. On the input side RFI filters and additional chokes can be installed, on the output side dU/dt filters or sine filters.

Type code

FILTER TYPES

RFI-filters General Table 1 shows the filters used to make the VACON® NX range of AC drives comply with EN/IEC 61800-3 for the domestic and industrial environment, in case the basic drive does not comply. All enclosure sizes 4 – 9 comply with the requirements of EN/IEC 61800-3, ed 2 for the categories 1 and 2, the 690 V versions for category 3. The common DC bus system components and drives which have rated current higher than 400 A are designed to category 4. Therefore the basic modules do not have any specific compliance, but the whole installation has to be designed to comply with the requirements.
The stand – alone and VACON® NXC solutions comply with category 3 requirements.

Definitions:

First environment Environment that includes domestic premises and establishments directly connected without intermediate transformers to a low- voltage power supply network, which supplies buildings used for domestic purposes
NOTE! Houses, apartments, commercial premises or offices in a residential building are typical examples of the first environment location.

Second environment

• An environment that includes all establishments other than those directly connected to a low voltage power supply network, which supplies buildings used for domestic purposes.
  NOTE! Industrial areas, and technical areas of any building fed from a dedicated transformer are typical examples of the second environment locations (IEC 923/04).

• EMC designation C => fulfills the requirements of category 1: PDS (power drive system (AC drive plus motor)) of rated voltage less than 1000 V, intended for use in the first environment.

• EMC designation H => fulfills the requirements of category 2: PDS of rated voltage less than 1000 V, which is neither a plug-in device nor a movable device and, when used in the first environment, is intended to be installed and commissioned only by a professional.
  NOTE! A professional is a person or an organization having the necessary skills in installing and/or commissioning power drive systems, including their EMC aspects.

• EMC designation L => fulfills the requirements of category 3: PDS of rated voltage less than 1000 V, intended for use in the second environment and not intended for use in the first environment.

• EMC designation N => fulfills the requirements of category 4: PDS of rated voltage equal to or above 1000 V, or rated current equal to or above 400 A, or intended for use in complex systems in the second environment.
  NOTE! In this case, the compliance has to be verified case by case.

• The filters must be correctly installed and grounded.

• There are no standards at present for IT supplies (floating supplies) – the EMC code T shows that the drives and drive modules have very small ground capacitance making them suitable for use on

• IT supplies. The small capacitance is required as larger values would cause the installed ground circuit monitoring circuits to fail. We recommend the use of monitors manufactured by Bender

The VACON® NX AC drives comply with the immunity requirements EN/IEC 61800-3; 2004, second environment as standard.
Note that the filters RFI-0012-5-IP54 to RFI-0105-5-IP54 are designed to fit mechanically directly to the corresponding drive. All others are loose and must be connected to the drive separately.

RFI filter types

__

Filter type code

| Drawing number| Manufacturer’s part code| Rated voltage, 3~, 50- 60 Hz [V AC]| Nominal current at 50°C [A]| Dimensions W x H x D [mm]| __

W[kg]

| IP

class

---|---|---|---|---|---|---|---
RFI-0012-5-IP54| 70CTC1100857| FS32821-16-99| 520| 16| 128 x 395 x 61.5| 2.8| IP54
RFI-0031-5-IP54| 70CTC1100865| FS32821-42-99| 520| 42| 144 x 490 x 61.5| 4.4| IP54
RFI-0061-5-IP54| 70CTC1100869| FS32821-75-99| 520| 75| 195 x 625 x 90| 8.2| IP54
RFI-0105-5-IP54| 70CTC1100887| FS32821-130-99| 520| 130| 230 x 745 x 100| 15.5| IP54

Suitability
Table 2. Drive suitability for 200 V AC and 500 V AC air-cooled drives, enclosure sizes 4-7

__

Filter type code

| Drawing number| Manufacturer’s part code| Rated vol- tage, 3~, 50- 60 Hz [V AC]| Nominal current at 50°C [A]| Dimensions W x H x D [mm]| __

W[kg]

| IP

class

---|---|---|---|---|---|---|---
RFI-0012-5-IP54| 70CTC1100857| FS32821-16-99| 520| 16| 128 x 395 x 61.5| 2.8| IP54
RFI-0031-5-IP54| 70CTC1100865| FS32821-42-99| 520| 42| 144 x 490 x 61.5| 4.4| IP54
RFI-0061-5-IP54| 70CTC1100869| FS32821-75-99| 520| 75| 195 x 625 x 90| 8.2| IP54
RFI-0105-5-IP54| 70CTC1100887| FS32821-130-99| 520| 130| 230 x 745 x 100| 15.5| IP54

Installation

Footprint RFI-filter types can be installed in two ways. Back installation procedure is shown in Figure 3 and side installation procedure is shown in Figure 4.

Dimension data
Detailed dimension drawings in Chapter 3.1.

External RFI filter types
The external filters must be mounted close to the input of the drive or drive system. Note that the cable layout must be such, that the maximum physical separation exists between the filter input and output cables. Otherwise the effect of the filter could be negated.

__

Filter type code

| Manufacturer’s part code| Rated voltage, 3~, 50-60 Hz [V AC]| Nominal current at 50°C [A]| Nominal current at 40°C [A]| Power loss [W]| __

IP class

---|---|---|---|---|---|---
RFI-0130-5-0| FN3258H-130-35| 520| 130| 142.4| 43.1| IP20
RFI-0150-5-0| FN3359-150-28| 520| 150| 164| 24| IP00
RFI-0250-5-0| FN3359-250-28| 520| 250| 250| 49| IP00
RFI-0320-5-0| FN3359-320-99| 520| 320| 350| 19| IP00
RFI-0400-5-0| FN3359-400-99| 520| 400| 438| 29| IP00
RFI-0600-5-0| FN3359-600-99| 520| 600| 657| 44| IP00
RFI-1000-5-0| FN3359-1000-99| 520| 1000| 1095| 60| IP00
RFI-0042-6-0| FN258HV-42-33| 690| 42| 46| 30| IP20
RFI-0100-6-0| FN258HV-100-35| 690| 100| 109.5| 30| IP20
RFI-0180-6-0| FN3359HV-180-28| 690| 180| 197| 34| IP00
RFI-0300-6-0| FN3359HV-320-99| 690| 320| 350| 19| IP00
RFI-0400-6-0| FN3359HV-400-99| 690| 400| 438| 29| IP00
RFI-0600-6-0| FN3359HV-600-99| 690| 600| 657| 44| IP00
RFI-1000-6-0| FN3359HV-1000-99| 690| 1000| 1095| 60| IP00

Table 3. External RFI filter types

Suitability

RFI-0042-6-0
NX_0140 2| RFI-0150-5-0| NX_0140 5| RFI-0150-5-0| NX_0041-0080 6| RFI-0100-6-0
NX_0170-0205 2| RFI-0250-5-0| NX_0168-0205 5| RFI-0250-5-0| NX_0125-0170 6| RFI-0180-6-0
NX_0261-0300 2| RFI-0320-5-0| NX_0261-0300 5| RFI-0320-5-0| NX_0208-0261 6| RFI-0300-6-0
 |  | NX_0385| RFI-0400-5-0| NX_0325-0385 6| RFI-0400-6-0
 |  | NX_0520-0590 5| RFI-0600-5-0| NX_0416-0590 6| RFI-0600-6-0
 |  | NX_0650-0920 5| RFI-1000-5-0| NX_0650-820 6| RFI-1000-6-0
500 V AC drive| Filter| 690 V AC drive| Filter
---|---|---|---
NX_0087-0105 5| RFI-0130-5-0| NX_0170 6| RFI-0180-6-0
NX_0140 5| RFI-0150-5-0| NX_0208-0261 6| RFI-0300-6-0
NX_0168-205 5| RFI-0250-5-0| NX_0325-0385 6| RFI-0400-6-0
NX_0261-0300 5| RFI-0320-5-0| NX_0416-0590 6| RFI-0600-6-0
NX_0385 5| RFI-0400-5-0| NX_0650-0920 6| RFI-1000-6-0
NX_0460-0590 5| RFI-0600-5-0|  |
NX_0650-0920 5| RFI-1000-5-0|  |

Installation recommendations:

• The motor cable must be kept as short as possible both inside and outside the enclosure. This means that the optimum location for the drive is close to the driven motor in wall mounted units or close to the cable conduit hole in enclosed units.
• Separate the supply cable and the motor cable by at least 20 cm (8 in). If it is not possible to achieve spatial separation, use a separator shield, which must be solidly and multiply grounded. The cable from the filter to the drive must be shielded. The grounding must be done through a large area.
• If several drives are used, check if it is feasible to use one common filter for all drives. In that case, additional filtering of the drives is unnecessary. The cable between the filter and the drives should be kept as short as possible. This usually means, that the drives and filter are mounted adjacent to one another.
• Ground the filter over a large surface to the mounting plate or the back of the enclosure. If the plate is varnished, remove the varnish to ensure a good electrical connection at the screw locations.
• All metal parts of the enclosure must be connected to one another with low impedance, large area cables. The door must be grounded through short flexible leads to the frame of the enclosure
• Cross the cables at the right angle (90°)
• Connect all unused poles of all cables to the ground

Dimension data

70CMC10379

| 300| 260| 115| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 440| 221| 122|  | | 60| 25| 6| 15| 40| 11|  |  |  | 10.5
RFI-0400-5-0| 70CMC10376

70CMC10379

| 300| 260| 115| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 440| 221| 122|  | | 60| 25| 6| 15| 40| 11|  |  |  | 10.5
RFI-0600-5-0| 70CMC10376

70CMC10379

| 300| 260| 135| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 510| 241| 177|  | | 60| 25| 8| 15| 40| 11|  |  |  | 11
RFI-1000-5-0| 70CMC10376

70CMC10379

| 350| 280| 170| 230| 145| 255| 12| 3| 53| M12| 25| 25|  | 510| 241| 177|  | | 60| 40| 8| 20| 50| 14|  |  |  | 18
RFI-0042-6-0| 70CMC10378| 329| 70| 185| 300| 314| 45| 7| 2| 25| M6| 35| 130| |  |  |  |  |  |  |  |  |  |  |  | AWG8| 500±10| 12| 2.6
RFI-0100-6-0| 70CMC10378| 379| 90| 220| 350| 364| 65| 7| 2| 45| M10| 45| 130| |  |  |  |  |  |  |  |  |  |  |  |  |  |  | 5.6
RFI-0180-6-0| 70CMC10377| 300| 210| 120| 160| 120| 185| 12| 2| 33| M10| 55| 30|  | 420| 171| 127|  |  | 50|  |  |  |  |  |  |  |  | 6.5
RFI-0300-6-0| 70CMC10376

70CMC10379

| 300| 260| 115| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 440| 221| 122|  | | 60| 25| 6| 15| 40| 11|  |  |  | 10.5
RFI-0400-6-0| 70CMC10376

70CMC10379

| 300| 260| 115| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 440| 221| 122|  | | 60| 25| 6| 15| 40| 11|  |  |  | 10.5
RFI-0600-6-0| 70CMC10376

70CMC10379

| 300| 260| 135| 210| 120| 235| 12| 2| 43| M12| 20| 20|  | 440| 221| 142|  | | 60| 25| 8| 15| 40| 11|  |  |  | 11
RFI-1000-6-0| 70CMC10376

70CMC10379

| 350| 280| 170| 230| 145| 255| 12| 3| 53| M12| 25| 25|  | 510| 241| 177|  | | 60| 25| 8| 20| 50| 14|  |  |  | 18

dU/dt filters

General

• The VACON® NX drives use IGBT transistors as an output element. These semiconductors create the correct voltage to the motor switching it at very high speed (4 – 6 kV/s) with an unloaded IGBT.

• This high speed will, under certain circumstances, cause extra voltage stress on the main insulation of the motor.

• Usually there are no problems with motors designed for a 400 V supply. Such motors are usually designed for a voltage level of 1200 V, which exceeds the AC drive induced stress. In 500 V supplies the motor has to withstand at least 1600 V. A dU/dt filter is often required with these motors in order not to exceed the allowable voltage stress. In 690 V supplies the motor has to withstand at least 1800 V, and a dU/dt filter is required in these cases.
  NOTE! In uncertain cases, confirm the rating of the motor in AC drive application with the motor manufacturer.
  NOTE! Set the switching frequency parameter to correspond to the value printed on the nameplate of the filter and the output voltage level. Do not increase the switching frequency above the rated value of the filter. Decreasing it below is allowed.

• The high switching speed (about 2 kV/s) with the motor and cable connected, creates a travelling wave in the cable. The speed of this wave is set by the cable’s wave impedance, usually about 50 – 100 Ω. This is less than the motor’s wave impedance, which is on the order of 1 kΩ. As the travelling voltage wave hits this discontinuity, it is reflected back, increasing the instantaneous voltage on the motor winding. The wave is reflected back and forth between motor and drive and finally the steady state voltage is reached.

Winding voltage stresses

The rapid change in voltage is not distributed equally over all windings, but the first windings show higher voltage stresses than the inner ones, due to the capacitive coupling between the windings.
Modern motors can withstand a voltage rise times of < 2 kV/μs. In case of doubt, use a dU/dt filter or contact the motor manufacturer.

Voltage stress

• The reflected voltage maximum value is 2 × DC-link voltage, in practice 1.8 …1.9 × U DC. The voltage is fully developed at cable lengths > 5 m.
• Note that the DC-link voltage is increased if the supply is high or if an active front end maintains a high DC-link voltage or if the drive is in a regenerative (braking) mode. If this voltage stress is too high, it is recommended to use the dU/dt filters.
• A dU/dt filter is an undammed serial LC filter, with a resonance frequency of about 120 kHz – this will limit the voltage rise speed to < 1000 V/μs. If lower speeds are required, the capacitance can be increased.
• The filter, cable and motor form a complex high frequency circuit, which causes a voltage at the motor with different rise times and peak values depending on the cable length, type, etc.

Typical values as a function of cable length are as follows:

• Due to the inductance in series with the load there is a voltage drop across the dU/dt filter, decreasing the voltage available for the motor. At full rated current this drop is about 5 V. Filters are chosen so that their rated current > drive rated current. They will thermally withstand the same overload specifications as the drive. For VACON® NX there is only one range of filters, suitable for the voltage range from 380 to 690 V. The filters can also be used at lower voltages, if required.
• NOTE! The dU/dt filters are designed for a switching frequency of 1.5 kHz for 690 V AC and 3.6 kHz for 500 V AC voltage level. DO NOT EXCEED THIS VALUE, as there is a risk of overheating. Using lower switching frequencies is not a problem.
• NOTE! The dU/dt filters are designed for the maximum output frequency of 70 Hz. If this value is exceeded there is a risk of overheating. If higher output frequency is requested then the drive output current is needed to decrease. Motor frequency de-rating for different filter types is shown in Chapter 3.4

Recommendations:
Figure 8, Table 7 and Table 8 show the filter and motor requirements based on the nominal voltage level and IEC & NEMA motor standards

Figure 8. IEC 60034-25-ed3: Limiting curves of impulse voltage Upk as a function of the peak rise time tr, measured between two motor phase terminals.

• Curve A 500/690 V = Typical electrical machines
• Curve B 500/690 V = Electrical machines with older insulation system

A 500 V – IEC60034-25
__

420 V ≤ Un ≤ 500 V

| dU/dt filter is needed for motor insulation according to curve A 500 V – IEC60034-25 or

No filters required if the motor insulation is according to curve A 690 V – IEC60034-25

__

500 V ≤ Un ≤ 690 V

| dU/dt filter is needed for motor insulation according to curve A 690 V – IEC60034-25 or

No filter if motor is wound with medium voltage technology – form wound

dU/dt filter types
The available IP ratings are IP00, IP21 and IP54

__

Filter type code

| Manufacturer’s part code| Rated voltage, 3~ [V AC]| Nominal current at 40°C [A]| Nominal current at 50°C [A]| Power loss at 40°C [W]| __

IP class

---|---|---|---|---|---|---
DUT-0012-6-0| DUDT12D| 200-690| 12| 10.6| 70| IP00
DUT-0025-6-0| DUDT25D| 200-690| 25| 22| 120| IP00
DUT-0055-6-0| DUDT55D| 200-690| 55| 48| 175| IP00
DUT-0080-6-0| DUDT80D| 200-690| 80| 70| 205| IP00
DUT-0130-6-0-P| 942-1062| 200-690| 130| 115| 185| IP00
DUT-0210-6-0-P| 945-1017| 200-690| 210| 185| 210| IP00
DUT-0280-6-0-P| 957-952| 200-690| 280| 245| 350| IP00
DUT-0350-6-0-P| 958-936| 200-690| 350| 310| 410| IP00
DUT-0420-6-0-P| 958-934| 200-690| 420| 370| 450| IP00
DUT-0600-6-0-P| 959-904| 200-690| 600| 530| 580| IP00
DUT-0820-6-0-P| 959-905| 200-690| 820| 720| 750| IP00
DUT-1200-6-0-P| 978-925| 200-690| 1200| 1055| 980| IP00
DUT-1500-6-0-P*| 983-916| 200-690| 1500| 1320| 1100| IP00
DUT-2300-6-0-P| 998-917| 200-690| 2300| 2020| 2900| IP00
DUT-0012-6-2-P| 917-964/S1| 200-690| 12| 10.5| 65| IP21
DUT-0034-6-2-P| 918-1004/S1| 200-690| 34| 30| 85| IP21
DUT-0055-6-2-P| 923-947/S1| 200-690| 55| 48| 120| IP21
DUT-0100-6-2-P| 928-956/S1| 200-690| 100| 88| 150| IP21
DUT-0210-6-2-P| 945-1017/S1| 200-690| 210| 185| 210| IP21
DUT-0012-6-5-P| 913-940| 200-690| 12| 10.5| 45| IP54
DUT-0034-6-5-P| 918-1009| 200-690| 34| 30| 75| IP54
DUT-0055-6-5-P| 927-944| 200-690| 55| 48| 80| IP54
DUT-0100-6-5-P| 943-1018| 200-690| 100| 88| 110| IP54
DUT-0210-6-5-P| 958-949| 200-690| 210| 185| 180| IP54
DUT-0280-6-0-S| FS7203-280-99-03| 200-690| 280| –| –| IP00
DUT-0420-6-0-S| FS7203-420-99-03| 200-690| 420| –| –| IP00
DUT-0590-6-0-S| FS7203-590-99-03| 200-690| 590| –| –| IP00
DUT-0820-6-0-S| FS7203-820-99-03| 200-690| 820| –| –| IP00
DUT-1250-6-0-S| FS7203-1250-99-03| 200-690| 1250| –| –| IP00
DUT-1600-6-0-S| FS7203-1600-99-03| 200-690| 1600| –| –| IP00

IP00 filters DUT-0012-6-0 … DUT-1500-6-0-P types are also available in UL listed accessories models. Filter type code syntax is -UL and manufacturer’s part code /UL e.g. DUT-0130-6-0-P-UL, 942-1062/UL. Filter rated voltage for UL usage is 600 V AC.

Suitability

200 V AC drive| Filter, IP00 class| 200 V AC drive| Filter, IP 21 class| Filter, IP 54 class
---|---|---|---|---
NX_0003-0012 2| DUT-0012-6-0| –| NX_0003-0012 2| DUT-0012-6-2-P| DUT-0012-6-5-P
NX_0017-0025 2| DUT-0025-6-0| –| NX_0017-0031 2| DUT-0034-6-2-P| DUT-0034-6-5-P
NX_0031-0048 2| DUT-0055-6-0| –| NX_0048 2| DUT-0055-6-2-P| DUT-0055-6-5-P
NX_0061-0075 2| DUT-0080-6-0| –| NX_0061-0088 2| DUT-0100-6-2-P| DUT-0100-6-5-P
NX_0088-0114 2| DUT-0130-6-0-P| –| NX_0114-0205 2| DUT-0210-6-2-P| DUT-0210-6-5-P
NX_0140-0205 2| DUT-0210-6-0-P| –| –| –| –
NX_0261 2| DUT-0280-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0300 2| DUT-0350-6-0-P| DUT-0420-6-0-S| –| –| –
500 V AC drive| Filter, IP00 class| 500 V AC drive| Filter, IP 21 class| Filter, IP 54 class
---|---|---|---|---
NX_0003-0012 5| DUT-0012-6-0| –| NX_0003-0012 5| DUT-0012-6-2-P| DUT-0012-6-5-P
NX_0016-0022 5| DUT-0025-6-0| –| NX_0016-0031 5| DUT-0034-6-2-P| DUT-0034-6-5-P
NX_0031-0045 5| DUT-0055-6-0| –| NX_0038-0045 5| DUT-0055-6-2-P| DUT-0055-6-5-P
NX_0061-0072 5| DUT-0080-6-0| –| NX_0061-0087 5| DUT-0100-6-2-P| DUT-0100-6-5-P
NX_0087-0105 5| DUT-0130-6-0-P| –| NX_0105-0205 5| DUT-0210-6-2-P| DUT-0210-6-5-P
NX_0140-0205 5| DUT-0210-6-0-P| –| –| –| –
NX_0261 5| DUT-0280-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0300 5| DUT-0350-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0385 5| DUT-0420-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0460-0590 5| DUT-0600-6-0-P| DUT-0590-6-0-S| –| –| –
NX_0650-0730 5| DUT-0820-6-0-P| DUT-0820-6-0-S| –| –| –
NX_0820 5| 2 x DUT-0420-6-0-P| 2 x DUT-0420-6-0-S| –| –| –
NX_0920-1030 5| 2 x DUT-0600-6-0-P| 2 x DUT-0590-6-0-S| –| –| –
NX_1150 5| DUT-1200-6-0-P| DUT-1250-6-0-S| –| –| –
NX_1300-1450 5| DUT-1500-6-0-P| DUT-1600-6-0-S| –| –| –
NX_1770 – 2150 5| 2 x DUT-1200-6-0-P| 2 x DUT-1250-6-0-S| –| –| –
NX_2700 5| 2 x DUT-1500-6-0-P| 2 x DUT-1600-6-0-S| –| –| –
690 V AC drive| Filter, IP00 class| 690 V AC drive| Filter, IP 21 class| Filter, IP 54 class
---|---|---|---|---
NX_0005-0010 6| DUT-0012-6-0| –| NX_0004-0010 6| DUT-0012-6-2-P| DUT-0012-6-5-P
NX_0013-0022 6| DUT-0025-6-0| –| NX_0013-0034 5| DUT-0034-6-2-P| DUT-0034-6-5-P
NX_0027-0052 6| DUT-0055-6-0| –| NX_0027-0052 6| DUT-0055-6-2-P| DUT-0055-6-5-P
NX_0062-0080 6| DUT-0080-6-0| –| NX_0062-0080 6| DUT-0100-6-2-P| DUT-0100-6-5-P
NX_0100-0125 6| DUT-0130-6-0-P| –| NX_0100-0208 6| DUT-0210-6-2-P| DUT-0210-6-5-P
NX_0144-0208 5| DUT-0210-6-0-P| –| –| –| –
NX_0261 6| DUT-0280-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0325 5| DUT-0350-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0385-0416 6| DUT-0420-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0460-0590 6| DUT-0600-6-0-P| DUT-0590-6-0-S| –| –| –
NX_0650 6| 2 x DUT-0350-6-0-P| 2 x DUT-0420-6-0-S| –| –| –
NX_0750-0820 6| 2 x DUT-0420-6-0-P| 2 x DUT-0420-6-0-S| –| –| –
NX_0920-1080 6| DUT-1200-6-0-P| DUT-1250-6-0-S| –| –| –
NX_1500 6| 2 x DUT-0820-6-0-P| 2 x DUT-0820-6-0-S| –| –| –
NX_1900-2250 6| 2 x DUT-1200-6-0-P| 2 x DUT-1250-6-0-S| –| –| –
500 V AC drive| Filter, IP00 class| 500 V AC drive| Filter, IP 21 class| Filter, IP 54 class
---|---|---|---|---
NX_0016-0022 5| DUT-0025-6-0| –| NX_0016-0031 5| DUT-0034-6-2-P| DUT-0034-6-5-P
NX_0031-0045 5| DUT-0055-6-0| –| NX_0038-0045 5| DUT-0055-6-2-P| DUT-0055-6-5-P
NX_0061-0072 5| DUT-0080-6-0| –| NX_0061-0087 5| DUT-0100-6-2-P| DUT-0100-6-5-P
NX_0087-0105 5| DUT-0130-6-0| –| NX_0105-0205 5| DUT-0210-6-2-P| DUT-0210-6-5-P
NX_0140-0205 5| DUT-0210-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0261 5| DUT-0280-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0300 5| DUT-0350-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0385 5| DUT-0420-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0460-0590 5| DUT-0600-6-0-P| DUT-0590-6-0-S| –| –| –
NX_0650-0820 5| DUT-0820-6-0-P| DUT-0820-6-0-S| –| –| –
NX_0920-1150 5| DUT-1200-6-0-P| DUT-1250-6-0-S| –| –| –
NX_1370 5| DUT-1500-6-0-P| DUT-1600-6-0-S| –| –| –
NX_1640 5| 2 x DUT-0820-6-0-P| 2 x DUT-0820-6-0-S| –| –| –
NX_2060-2300 5| 2 x DUT-1200-6-0-P| 2 x DUT-1250-6-0-S| –| –| –
NX_2470-2950 5| 2 x DUT-1500-6-0-P| 2 x DUT-1600-6-0-S| –| –| –
NX_3710-4140 5| 4 x DUT-1200-6-0-P| 4 x DUT-1250-6-0-S| –| –| –
690 V AC drive| Filter, IP00 class| 690 V AC drive| Filter, IP 21 class| Filter, IP 54 class
---|---|---|---|---
NX_0170-208 6| DUT-0210-6-0-P| DUT-0280-6-0-S| NX_0170-208 6| DUT-0210-6-2-P| DUT-0210-6-5-P
NX_0261 6| DUT-0280-6-0-P| DUT-0280-6-0-S| –| –| –
NX_0325 6| DUT-0350-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0385-0416 6| DUT-0420-6-0-P| DUT-0420-6-0-S| –| –| –
NX_0460 6| DUT-0600-6-0-P| DUT-0590-6-0-S| –| –| –
NX_0502-590 6| DUT-0600-6-0-P| DUT-0590-6-0-S| –| –| –
NX_0650-0820 6| DUT-0820-6-0-P| DUT-0820-6-0-S| –| –| –
NX_0920-1180 6| DUT-1200-6-0-P| DUT-1250-6-0-S| –| –| –
NX_1300-1500 6| DUT-1500-6-0-P| DUT-1600-6-0-S| –| –| –
NX_1700-2340 6| 2 x DUT-1200-6-0-P| 2 x DUT-1250-6-0-S| –| –| –
NX_2700 6| 2 x DUT-1500-6-0-P| 2 x DUT-1600-6-0-S| –| –| –
NX_3100 6| 2 x DUT-2300-6-0-P| 2 x DUT-1600-6-0-S| –| –| –

Installation
The connection of the dU/dt and sine filters is shown in the figure below .

NOTE! The maximum motor cable length for P-type dU/dt-filter is 100 m. In case of multiple cables, the length is defined as a total length of the cables. Cabling capacitance and the switching current grow as a cable length function. Therefore there is a risk of filter overheating, when long cabling lengths are used. If the cable length is not sufficient enough, it is recommended to use a filter one size larger or sine filters.
S-type dU/dt filters safe operation area as a function of the switching frequency of the drive and motor cable length is shown in Chapter 3.3. Note that diagrams show values based on pre-defined cable capacitance. The values should be scaled in accordance with the actual capacitance of the cable. In case of multiple cables the capacitance is defined as a sum of the cable capacitances.
NOTE! Cooling of P-type dU/dt filters is based on natural air convection (AN). Therefore, proper ventilation and placement inside the enclosure must be ensured during assembly. Suitability forbase or wall mounting is show in Table 17
The S- type dU/dt filters are forced air cooled and require a 220 V AC power supply for their fans.
The filter has a build-in thermal switch, which indicates if the filter temperature has exceeded the safe limits. This NC contact can be wired to the External fault input of the drive – see the wiring schematic in Figure 10.
Check the input parameterization from the relevant drive application manual. If the external fault input is used for other purposes, you can also connect the fault contact in series with the RUN or the RUN ENABLE command – for their terminal assignment see the relevant application manual

There are enclosure restrictions and details for selection and mounting when using UL-listed accessories, and IP00 dU/dt-filter models. These restrictions and details should be noted during the filter assembly. For details of drive selection and enclosure restrictions, see Table 15.

• Suitable for use on a circuit capable of delivering not more than 100 000 rms symmetrical amperes, 600 V maximum, or equivalent.
• Use 60/75 C CU wire only or equivalent copper/aluminum busbars.
• Tightening torque and wire range for field wiring terminals are mentioned in the manual or on the wiring diagram.

Filter, IP00 class, UL listed accesories| Compatible VACON® NX drive enclosure sizes| Figures of the enclosure and quantity of dU/dt filters in the same enclosure
---|---|---
DUT-0012-6-0| FR4, FR6| No enclosure restrictions
DUT-0025-6-0| FR4, FR5, FR6
DUT-0055-6-0| FR5, FR6, FR7| __

__

Figures 30, 31, 34 1-2 pcs

DUT-0080-6-0| FR6, FR7, FR8
DUT-0130-6-0- P-UL| FR7, FR8, FR9, FI9
DUT-0210-6-0- P-UL| FR7, FR8, FR9, FI9
DUT-0280-6-0- P-UL| FR8, FR9, FR10, FR11, FR12, FI9, FI10, FI12| __

__

__

Figures 30, 31, 33 1-2 pcs

DUT-0350-6-0- P-UL| FR8, FR9, FR10, FR11, FR12, FI9, FI10, FI12
DUT-0420-6-0- P-UL| FR9, FR10, FR11, FR12, FI10, FI12
DUT-0600-6-0- P-UL| FR9, FR10, FR11, FR12, FI10, FI12
DUT-0820-6-0- P-UL| FR10, FR11, FI13, FI14| __

Figures 32 and 35, 1 pcs

DUT-1200-6-0- P-UL| FI13, FI14, FR13, FR14
DUT-1500-6-0- P-UL| FI13, FI14, FR13, FR14

Dimension data

__

__

70CMC10253

| 120±2| 103±2| 155±2| 80±2| 78±2| –| 63±1| 6×8| –| –| –| –| –| –| –| –| –| –
DUT-0025-6-0| 180±2| 125±2| 215±2| 102±2| 120±2| –| 80±1| 8×11| –| –| –| –| –| –| –| –| –| –
DUT-0055-6-0| 205±2| 130±2| 220±2| 130±2| 156±2| –| 78±1| 11×14| –| –| –| –| –| –| –| –| –| –
DUT-0080-6-0| 241±2| 135±2| 265±2| 101±2| 170±2| –| 80±1| 10×13| –| –| –| –| –| –| –| –| –| –
DUT-0130-6-0-P| 240±2| 157±5| 304±2| 131±2| 190±2| 109±1| 95±1| 11×8| –| –| –| –| –| –| –| –| –| –
DUT-0210-6-0-P| 240±2| 181±5| 331±2| 151±2| 190±2| 129±1| 115±1| 11×8| –| –| –| –| –| –| –| –| –| –
DUT-0280-6-0-P| __

__

__

__

__

70CMC10254

| 300±2| 225±2| 299±2| 165±2| 250±2| 142±1| 120±1| 61±2| 243±2| 200±2| 20±0.5| 14±0.5| min 45| –| –| –| –| –
DUT-0350-6-0-P| 300±2| 236±2| 299±2| 177±2| 250±2| 154±1| 132±1| 61±2| 243±2| 200±2| 20±0.5| 14±0.5| min 45| –| –| –| –| –
DUT-0420-6-0-P| 300±2| 228±2| 349±2| 177±2| 250±2| 154±1| 132±1| 64±2| 293±2| 200±2| 20±0.5| 14±0.5| min 45| –| –| –| –| –
DUT-0600-6-0-P| 300±2| 243±2| 449±2| 192±2| 250±2| 169±1| 147±1| 68±2| 389±2| 200±2| 20±0.5| 14±0.5| min 45| –| –| –| –| –
DUT-0820-6-0-P| 300±2| 257±2| 499±2| 192±2| 250±2| 169±1| 147±1| 66±2| 443±2| 200±2| –| 14±0.5| min 55| 14±0.5| 22±0.5| –| –| –
DUT-1200-6-0-P| 420±2| 325±2| 499±2| 253±2| 350±2| 214±1| 196±1| 220±2| 410±2| 280±2| –| 14±0.5| min 65| 17±0.5| 26±0.5| –| –| –
DUT-1500-6-0-P| 480±2| 358±2| 599±2| 270±2| 425±2| 232±1| 214±1| 290±2| 525±2| 320±2| –| 14±0.5| min 85| –| –| 20±0.5| 40±0.5| 40±0.5
DUT-2300-6-0-P| 660±2| 381±2| 693±2| 290±2| 580±2| 252±1| 228±1| 136±2| 575±2| 440±2| –| 14±0.5| min 85| –| –| 20±0.5| 40±0.5| 50±0.5
DUT-0280-6-0-S| __

__

__

__

70CMC10321

| max 304| 420| 335| 380| 380±1.5| 125±1| Ø12| Ø11| 350| 390±2| 290| –| –| –| –| –| –| –
DUT-0420-6-0-S| max 304| 470| 345| 430| 400±1.5| 125±1| Ø12| Ø11| 400| 445| 300| –| –| –| –| –| –| –
DUT-0590-6-0-S| max 304| 470| 345| 430| 400±1.5| 125±1| Ø12| Ø11| 400| 445| 300| –| –| –| –| –| –| –
DUT-0820-6-0-S| max 306| 665±3| 330 (?)| 635±2| 610±2| 125±1| Ø12| Ø13| 551.5| 625| 290| –| –| –| –| –| –| –
DUT-1250-6-0-S| __

__

70CMC10322

| max 475| 745| max 190| 680| 650±2| 150±1| 250±1| Ø13| Ø12| 68| 150| 603| 26| –| –| –| –| –
DUT-1600-6-0-S| max 475| 745| max 190| 680| 650±2| 150±1| 250±1| Ø13| Ø12| 68| 150| 603| 26| –| –| –| –| –
__

Filter type code

| Drawing number| Connection size| Connection torque (Nm)| Weight (kg)| Mounting
---|---|---|---|---|---
Terminal| Grounding| Terminal| Grounding|  | Base| Wall
DUT-0012-6-0| __

__

__

70CMC10253

| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.6 – 0.8| 1.5 – 1.8| 2.4| x| x
DUT-0025-6-0| 0.5 – 10 mm²| 0.5 – 10 mm²| 1.5 – 1.8| 1.5 – 1.8| 8.9| x| x
DUT-0055-6-0| 2.5 – 35 mm²| 4 – 16 mm²| 3.2 – 3.7| 2.5 – 3.0| 9.1| x| x
DUT-0080-6-0| 4 – 70 mm²| 4 – 16 mm²| 6 – 7| 2.5 – 3.0| 13.1| x| x
DUT-0130-6-0-P| 50 – 95 mm²| M6| 6 – 12| 8 – 10| 22| x| x
DUT-0210-6-0-P| 35 – 150 mm²| M8| 12 – 20| 22 – 25| 32| x| x
DUT-0280-6-0-P| __

__

__

__

__

70CMC10254

| busbar, Ø14 mm| M10| 25 – 30| 40 – 50| 40| x| –
DUT-0350-6-0-P| busbar, Ø14 mm| M10| 25 – 30| 40 – 50| 50| x| –
DUT-0420-6-0-P| busbar, Ø14 mm| M10| 25 – 30| 40 – 50| 52| x| –
DUT-0600-6-0-P| busbar, Ø14 mm| M12| 25 – 30| 75 – 85| 76| x| –
DUT-0820-6-0-P| busbar, Ø14 mm| M12| 25 – 30| 75 – 85| 92| x| –
DUT-1200-6-0-P| busbar, Ø14 mm| M16| 25 – 30| 190 – 200| 151| x| –
DUT-1500-6-0-P| busbar, Ø14 mm| M16| 25 – 30| 190 – 200| 190| x| –
DUT-2300-6-0-P| busbar, Ø14 mm| M16| 25 – 30| 190 – 200| 420| x| –
DUT-0280-6-0-S| __

__

70CMC10321

| busbar, Ø11 mm| –| –| –| 37| –| –
DUT-0420-6-0-S| busbar, Ø11 mm| –| –| –| 50| –| –
DUT-0590-6-0-S| busbar, Ø11 mm| –| –| –| 50| –| –
DUT-0820-6-0-S| busbar, Ø13 mm| –| –| –| 90| –| –
DUT-1250-6-0-S| 70CMC10322| busbar, Ø13 mm| –| –| –| 95| –| –
DUT-1600-6-0-S| busbar, Ø13 mm| –| –| –| 95| –| –
Filter type code| Drawing number| Dimensions
---|---|---
A| B| C| D| E| F| G| H| I| J| K| L| M| N| P| Q| R| S
DUT-0012-6-2-P| __

__

__

70CMC10255

| 195±2| 265±2| 145±2| 235±2| 170±1| 250±1| 6,5±0,5| 21| –| –| –| –| –| –| –| –| –| –
DUT-0034-6-2-P| 195±2| 265±2| 145±2| 235±2| 170±1| 250±1| 6,5±0,5| 21| –| –| –| –| –| –| –| –| –| –
DUT-0055-6-2-P| 237±2| 330±2| 170±2| 300±2| 175±1| 318±1| 6,5±0,5| 29| –| –| –| –| –| –| –| –| –| –
DUT-0100-6-2-P| 289±2| 430±2| 205±2| 360±2| 228±1| 408±1| 9±0,5| 53| –| –| –| –| –| –| –| –| –| –
DUT-0210-6-2-P| 480±2| 540±2| 235±2| 470±2| 400±2| 518±1| 9±0,5| 2×53| –| –| –| –| –| –| –| –| –| –
DUT-0012-6-5-P| __

__

70CMC10256

| 150±2| 206+4/-2| 132±2| 150±2| 180±2| 80±1| 9±0,5| 11-16| 91±2| 50±2| ~175| –| –| –| –| –| –| –
DUT-0034-6-5-P| 200±2| 256+4/-2| 133±2| 200±2| 230±2| 150±1| 9±0,5| 19-27| 87±2| 60±2| ~240| –| –| –| –| –| –| –
DUT-0055-6-5-P| 300±2| 356+4/-2| 215±2| 300±2| 330±2| 250±2| 9±0,5| 19-27| 150±2| 80±2| ~340| –| –| –| –| –| –| –
DUT-0100-6-5-P| 600±2| 456+4/-2| 215±2| 400±2| 431±2| 550±2| 9±0,5| 24-35| 100±2| 90±2| ~645| –| –| –| –| –| –| –
DUT-0210-6-5-P| 70CMC10257| 440±2| 610±2| 460±2| 520±2| 240±2| 400±2| 11±0,5| 38-48| 340±2| 120±2| 30| 15| –| –| –| –| –| –
Filter type code| Drawing number| Connection size| Connection torque (Nm)| Weight (kg)| Mounting
---|---|---|---|---|---
Terminal| Grounding| Terminal| Grounding| Base| Wall
DUT-0012-6-2-P| __

__

__

70CMC10255

| M5| M5| 3 -5| 3 – 5| 6.4| –| x
DUT-0034-6-2-P| M5| M5| 3 – 5| 3 – 5| 8.6| –| x
DUT-0055-6-2-P| M6| M6| 8 – 10| 8 – 10| 13.7| –| x
DUT-0100-6-2-P| M6| M6| 8 – 10| 8 – 10| 23| –| x
DUT-0210-6-2-P| M8| M8| 20 – 25| 20 – 25| 42| –| x
DUT-0012-6-5-P| __

__

70CMC10256

| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.5 – 0.8| 0.5 – 1.0| 5.5| x| x
DUT-0034-6-5-P| 2.5 – 16 mm²| 0.5 – 16 mm²| 2.0 – 4.0| 1.2 – 1.4| 11| x| x
DUT-0055-6-5-P| 2.5 – 35 mm²| 2.5 – 16 mm²| 2.0 – 5.0| 2.5 – 16| 26| x| x
DUT-0100-6-5-P| 16 – 70 mm²| 16 – 70 mm²| 6 – 7| 6 – 7| 35| x| x
DUT-0210-6-5-P| 70CMC10257| 35 – 150 mm²| M8| 12 – 20| 20 – 25| 75| x| –

Sine filters
General

__

Filter type code

| Manufacturer’s part code| Rated voltage, 3~[V AC]| Nominal current at 40°C [A]| Nominal current at 50°C [A]| Power loss at 40°C [W]| __

IP class

---|---|---|---|---|---|---
SIN-0010-5-0-P| 921-937| 500| 10| 8.8| 100| IP00
SIN-0018-5-0-P| 927-939| 500| 18| 16| 140| IP00
SIN-0032-5-0-P| 940-972| 500| 32| 28| 170| IP00
SIN-0048-5-0-P| 943-991| 500| 48| 42| 190| IP00
SIN-0075-5-0-P| 957-962| 500| 75| 66| 350| IP00
SIN-0110-5-0-P| 969-941| 500| 110| 97| 550| IP00
SIN-0180-5-0-P| 970-943| 500| 180| 155| 600| IP00
SIN-0270-5-0-P| 970-940| 500| 270| 235| 940| IP00
SIN-0410-5-0-P| 978-929| 500| 410| 360| 1200| IP00
SIN-0600-5-0-P| 984-962| 500| 600| 525| 1500| IP00
SIN-0840-5-0-P| 984-960| 500| 840| 740| 1800| IP00
SIN-1160-5-0-P| 998-926| 500| 1160| 1020| 2400| IP00
SIN-1480-5-0-P| 999-924| 500| 1480| 1302| 3300| IP00
SIN-0005-6-0-P| 918-1007| 690| 4.5| 4| 50| IP00
SIN-0008-6-0-P| 921-942| 690| 7.5| 6.6| 80| IP00
SIN-0014-6-0-P| 927-943| 690| 14| 12| 140| IP00
SIN-0023-6-0-P| 941-922| 690| 23| 20| 180| IP00
SIN-0035-6-0-P| 945-1021| 690| 35| 31| 210| IP00
SIN-0052-6-0-P| 957-966| 690| 52| 45| 350| IP00
SIN-0085-6-0-P| 969-940| 690| 85| 75| 540| IP00
SIN-0122-6-0-P| 970-944| 690| 122| 107| 600| IP00
SIN-0185-6-0-P| 978-938| 690| 185| 160| 820| IP00
SIN-0287-6-0-P| 983-923N| 690| 287| 250| 1100| IP00
SIN-0390-6-0-P| 984-963N| 690| 390| 340| 1410| IP00
SIN-0460-6-0-P| 984-964N| 690| 460| 400| 1550| IP00
SIN-0620-6-0-P| 998-927N| 690| 620| 545| 2000| IP00
SIN-0780-6-0-P| 998-928N| 690| 780| 680| 2700| IP00
SIN-0920-6-0-P| 999-925N| 690| 920| 810| 2900| IP00
SIN-1180-6-0-P| 999-926N| 690| 1180| 1040| 3150| IP00
SIN-0004-5-5-P| 917-966| 500| 4.3| 3.8| 60| IP54
SIN-0008-5-5-P| 918-1001| 500| 7.6| 6.7| 75| IP54
SIN-0012-5-5-P| 926-919| 500| 12| 10.5| 110| IP54
SIN-0016-5-5-P| 640-974| 500| 16| 14| 125| IP54
SIN-0023-5-5-P| 942-1066| 500| 23| 20| 140| IP54
SIN-0032-5-5-P| 945-1022| 500| 32| 28| 165| IP54
SIN-0038-5-5-P| 956-995| 500| 38| 33| 220| IP54
SIN-0046-5-5-P| 958-943| 500| 46| 40| 270| IP54
SIN-0055-5-5-P| 968-948| 500| 55| 48| 315| IP54
SIN-0061-5-5-P| 969-937| 500| 61| 53| 350| IP54
SIN-0072-5-5-P| 969-938| 500| 72| 63| 360| IP54

• If the motor cannot withstand any additional voltage stresses, or the dU/dt filter does not decrease them sufficiently, a sine filter can be used. The sine filter is also an LC filter, but with resonance frequency < 50% of the switching frequency, i.e. about 600 Hz for the 690 V drives and about 1.2 kHz for the 500 V drives. Hence there are two different ranges. The filter removes the carrier frequency, leaving only the output frequency and thus eliminating all voltage stress on the motor.

• At full load the voltage drop is about 30 V – a significant part of the available voltage. This has to be taken into account when the motor sizing is done. The voltage drop can be partly compensated by decreasing the field weakening point level; feeding the motor the correct voltage up to this point, but the motor will not receive full voltage at nominal speed. The voltage drop can also be compensated by using an active front end drive, increasing the DC-link voltage.
  NOTE! The sine filters are designed for a switching frequency of 1.5 kHz for 690 V AC and 3.6 kHz for 500 V AC, which corresponds to the nominal switching frequency of VACON® NX drives. It is safe to increase the switching frequency, but IT IS NOT ALLOWED TO DECREASE THIS VALUE below nominal, as there is a risk of overheating.

• The VACON® NX drive has a switching frequency foldback feature on overtemperature for the drive. This has to be disabled for 500 V drives when sine filters are used. See the drive application manual.
  NOTE! The sine filters are designed for a maximum output frequency of 70 Hz. If this value is exceeded there is a risk of overheating. If higher output frequency is requested, the drive output current must be decreased. De-rating for motor frequency for different filter types is shown in Chapter 3.4.

• The filters are designed in such a way, that their nominal current is higher than the nominal current of the drive. The filters are thermally designed for the same overload cycle as the drives

Sine filter types

The available IP ratings are IP00 and IP54.

Suitability

SIN-0005-6-0-P
NX_0012-0016 5| SIN-0018-5-0-P| NX_0004-0007 5| SIN-0008-5-5-P| NX_0007 6| SIN-0008-6-0-P
NX_0022-0031 5| SIN-0032-5-0-P| NX_0009-0012 5| SIN-0012-5-5-P| NX_0010-0013 6| SIN-0014-6-0-P
NX_0038-0045 5| SIN-0048-5-0-P| NX_0016 5| SIN-0016-5-5-P| NX_0018-0022 6| SIN-0023-6-0-P
NX_0061-0072 5| SIN-0075-5-0-P| NX_0022 5| SIN-0023-5-5-P| NX_0027-0034 6| SIN-0035-6-0-P
NX_0087-0105 5| SIN-0110-5-0-P| NX_0031 5| SIN-0032-5-5-P| NX_0041-0052 6| SIN-0052-6-0-P
NX_0140-0168 5| SIN-0180-5-0-P| NX_0038 5| SIN-0038-5-5-P| NX_0062-0080 6| SIN-0085-6-0-P
NX_0205-0261 5| SIN-0270-5-0-P| NX_0045 5| SIN-0046-5-5-P| NX_0100 6| SIN-0122-6-0-P
NX_0300-0385 5| SIN-0410-5-0-P| NX_0061 5| SIN-0061-5-5-P| NX_0125-0170 6| SIN-0185-6-0-P
NX_0460-0590 5| SIN-0600-5-0-P| NX_0072 5| SIN-0072-5-5-P| NX_0208-0261 6| SIN-0287-6-0-P
NX_0650-0730 5| SIN-0840-5-0-P| –| –| NX_0325-0385 6| SIN-0390-6-0-P
NX_0820 5| 2xSIN-0410-5-0-P| –| –| NX_0416-0460 6| SIN-0460-6-0-P
NX_0920-1030 5| 2xSIN-0600-5-0-P| –| –| NX_0502-0590| SIN-0620-6-0-P
NX_1150 5| SIN-1160-5-0-P| –| –| NX_0650-0750 6| 2xSIN-0390-6-0-P
NX_1300-1450 5| SIN-1480-5-0-P| –| –| NX_0820 6| 2xSIN-0460-6-0-P
NX_1770 5| 2xSIN-1160-5-0-P| –| –| NX_0920 6| SIN-0920-6-0-P
NX_2150 5| 2xSIN-1480-5-0-P| –| –| NX_1030-1180 6| SIN-1180-6-0-P
NX_2700 5| 2xSIN-1480-5-0-P| –| –| NX_1500 6| 2xSIN-0920-6-0-P
–| –| –| –| NX_1900 6| 2xSIN-1180-6-0-P
–| –| –| –| NX_2250 6| 2xSIN-1180-6-0-P
500 V AC drive| Filter, IP00 class| 500 V AC drive| Filter, IP 54 class| 690 V AC drive| Filter, IP00 class
---|---|---|---|---|---
NX_0016 5| SIN-0018-5-0-P| NX_0016 5| SIN-0016-5-5-P| NX_0170 6| SIN-0185-6-0-P
NX_0022-0031 5| SIN-0032-5-0-P| NX_0022 5| SIN-0023-5-5-P| NX_0208-0261 6| SIN-0287-6-0-P
NX_0038-0045 5| SIN-0048-5-0-P| NX_0031 5| SIN-0032-5-5-P| NX_0325-0385 6| SIN-0390-6-0-P
NX_0061-0072 5| SIN-0075-5-0-P| NX_0038 5| SIN-0038-5-5-P| NX_0416-0460 6| SIN-0460-6-0-P
NX_0087-00105 5| SIN-0110-5-0-P| NX_0045 5| SIN-0046-5-5-P| NX_0502-0590 6| SIN-0620-6-0-P
NX_0140-0168 5| SIN-0180-5-0-P| NX_0061 5| SIN-0061-5-5-P| NX_0650-0750 6| SIN-0780-6-0-P
NX_0205-0261 5| SIN-0270-5-0-P| NX_0072 5| SIN-0072-5-5-P| NX_0820-0920 6| SIN-0920-6-0-P
NX_0300-0385 5| SIN-0410-5-0-P| –| –| NX_1030-1180 6| SIN-1180-6-0-P
NX_0460-0590 5| SIN-0600-5-0-P| –| –| NX_1300-1500 6| 2xSIN-0780-6-0-P
NX_0650-0820 5| SIN-0840-5-0-P| –| –| NX_1700-2340 6| 2xSIN-1180-6-0-P
NX_0920-1150 5| SIN-1160-5-0-P| –| –| NX_2700-3100 6| 4xSIN-0920-6-0-P
NX_1370 5| SIN-1480-5-0-P| –| –| –| –
NX_1640 5| 2xSIN-0840-5-0-P| –| –| –| –
NX_2060 5| 2xSIN-1160-5-0-P| –| –| –| –
NX_2300-2470 5| 2xSIN-1480-5-0-P| –| –| –| –
NX_2950 5| 4xSIN-0840-5-0-P| –| –| –| –
NX_3710-4140 5| 4xSIN-1160-5-0-P| –| –| –| –

Installation

• The sine filter connection is shown in Figure 9 on page 22.
• NOTE! The maximum motor cable length for the sine filter is 300 m. If a longer cable is used, it is recommended to select one current class higher sine-filter type to prevent overheating.
• NOTE! Cooling of the sine filters is based on natural air convection (AN). Therefore a proper ventilation and placement inside the enclosure must be ensured during assembly. Suitability for base or wall mounting is shown in Table 26.

Dimension data

__

__

70CMC10256

| 200±2| 256+4/-2| 133±2| 200±2| 230±2| 150±2| 9±0,5| 9-13| 95±2| 40±2| ~230| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0008-5-5-P| 200±2| 256+4/-2| 133±2| 200±2| 230±2| 150±2| 9±0,5| 9-13| 95±2| 40±2| ~230| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0012-5-5-P| 300±2| 356+4/-2| 215±2| 300±2| 330±2| 250±2| 9±0,5| 14-21| 160±2| 60±2| ~340| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0016-5-5-P| 300±2| 356+4/-2| 215±2| 300±2| 330±2| 250±2| 9±0,5| 14-21| 150±2| 60±2| ~340| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0023-5-5-P| 300±2| 356+4/-2| 215±2| 300±2| 330±2| 250±2| 9±0,5| 14-21| 150±2| 60±2| ~340| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0032-5-5-P| 300±2| 356+4/-2| 215±2| 300±2| 330±2| 250±2| 9±0,5| 9-27| 150±2| 60±2| ~340| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0038-5-5-P| __

__

__

70CMC10257

| 480±2| 520±2| 480±2| 460±2| 240±2| 440±2| 11±0,5| 19-27| 380±2| 70±2| 30| 15| 150±2| –| –| –| –| –| –| –| –| –| –
SIN-0046-5-5-P| 480±2| 520±2| 480±2| 460±2| 240±2| 440±2| 11±0,5| 19-27| 380±2| 70±2| 30| 15| 150±2| –| –| –| –| –| –| –| –| –| –
SIN-0055-5-5-P| 560±2| 660±2| 590±2| 600±2| 310±2| 520±2| 11±0,5| 19-27| 500±2| 90±2| 30| 15| 135±2| –| –| –| –| –| –| –| –| –| –
SIN-0061-5-5-P| 560±2| 660±2| 590±2| 600±2| 310±2| 520±2| 11±0,5| 24-35| 500±2| 90±2| 30| 15| 135±2| –| –| –| –| –| –| –| –| –| –
SIN-0072-5-5-P| 560±2| 660±2| 590±2| 600±2| 310±2| 520±2| 11±0,5| 24-35| 500±2| 90±2| 30| 15| 135±2| –| –| –| –| –| –| –| –| –| –
SIN-0010-5-0-P| __

__

__

__

__

__

__

__

__

__

__

70CMC10330

| 190±2| 144±5| 211±2| 82±2| 170±2| 62±1| 54±1| 8×12| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0018-5-0-P| 210±2| 171±5| 236±2| 107±2| 180±2| 85±1| 77±1| 8×12| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0032-5-0-P| 240±2| 182±5| 271±2| 121±2| 190±2| 99±1| 85±1| 11×15| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0048-5-0-P| 240±2| 205±2| 270±2| 141±2| 190±2| 119±2| 105±2| 11×18| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0075-5-0-P| 300±2| 229±5| 330±2| 165±2| 250±2| 142±2| 120±2| 11×15| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0110-5-0-P| 360±2| 290±5| 452±2| 178±2| 300±2| 156±2| 128±2| 11×23| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0180-5-0-P| 360±2| 304±5| 467±2| 193±2| 300±2| 171±2| 143±2| 11×23| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0005-6-0-P| 155±2| 145±5| 180±2| 91±2| 130±2| 75±1| 67±1| 8×12| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0008-6-0-P| 190±2| 144±5| 211±2| 82±2| 170±2| 62±1| 54±1| 8×12| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0014-6-0-P| 210±2| 170±5| 238±2| 107±2| 180±2| 85±1| 77±1| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0023-6-0-P| 240±2| 198±5| 260±2| 131±2| 190±2| 109±2| 95±2| 11×15| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0035-6-0-P| 240±2| 232±2| 268±2| 151±2| 190±2| 129±2| 115±2| 11×15| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0052-6-0-P| 300±2| 265±5| 323±2| 165±2| 250±2| 142±2| 120±2| 11×22| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0085-6-0-P| 360±2| 310±5| 455±2| 178±2| 300±2| 156±2| 128±2| 11×23| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0122-6-0-P| 360±2| 300±5| 469±2| 193±2| 300±2| 171±2| 143±2| 11×23| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
SIN-0185-6-0-P| 420±2| 380±5| 514±2| 253±2| 300±2| 214±2| 196±2| 11×20| –| –| –| –| –| –| –| –| –| –| –| –| –| –| –
Filter type code| Drawing number| Dimensions
---|---|---
A| B| C| D| E| F| G| H| I| J| K| L
SIN-0270-5-0-P| __

__

__

__

__

__

__

__

70CMC10331

| 360±2| 330±2| 500±2| 193±2| 300±2| 171±2| 143±2| 11±0,5| 475±2| –| 240±2| 319±2
SIN-0410-5-0-P| 420±2| 380±2| 525±2| 253±2| 350±2| 214±2| 196±2| 11±0,5| 500±2| –| 280±2| 371±2
SIN-0600-5-0-P| 480±2| 445±2| 492±2| 300±2| 425±2| 262±2| 244±2| 13±0,5| 475±2| 515±2| 320±2| 399±2
SIN-0840-5-0-P| 480±2| 520±2| 630±2| 300±2| 425±2| 262±2| 244±2| 13±0,5| 575±2| –| 320±2| 440±2
SIN-1160-5-0-P| 660±2| 510±2| 675±2| 290±2| 575±2| 252±2| 188±2| 18±0,5| 700±2| –| 440±2| 417±2
SIN-1480-5-0-P| 660±2| 550±2| 750±2| 320±2| 575±2| 282±2| 218±2| 18±0,5| 700±2| –| 440±2| 527±2
SIN-0287-6-0-P| 480±2| 400±2| 520±2| 270±2| 425±2| 232±2| 214±2| 13| 500±2| –| 320±2| 366±2
SIN-0390-6-0-P| 480±2| 420±2| 525±2| 300±2| 425±2| 262±2| 244±2| 13| 525±2| –| 320±2| 400±2
SIN-0460-6-0-P| 480±2| 420±2| 580±2| 300±2| 425±2| 262±2| 244±2| 13| 575±2| –| 320±2| 398±2
SIN-0620-6-0-P| 660±2| 430±2| 600±2| 290±2| 575±2| 252±2| 208±2| 18| 625±2| –| 440±2| 404±2
SIN-0780-6-0-P| 660±2| 450±2| 640±2| 300±2| 575±2| 262±2| 198±2| 18| 625±2| –| 440±2| 450±2
SIN-0920-6-0-P| 660±2| 540±2| 650±2| 330±2| 575±2| 292±2| 248±2| 18| 625±2| –| 440±2| 479±2
SIN-1180-6-0-P| 660±2| 590±2| 681±2| 350±2| 575±2| 312±2| 268±2| 18| 725±2| –| 440±2| 498±2
Filter type code| Drawing number| Dimensions
M| N| P| Q| R| S| T| U| V| W| X|
SIN-0270-5-0-P| __

__

__

__

__

__

__

__

70CMC10331

| 275±2| 390±2| min 45| 14±0,5| 20±0,5| –| –| –| –| –| –|
SIN-0410-5-0-P| 343±2| 416±2| min 45| 14±0,5| 20±0,5| –| –| –| –| –| –|
SIN-0600-5-0-P| 366±2| 383±2| min 45| 14±0,5| 20±0,5| –| –| –| –| –| –|
SIN-0840-5-0-P| 371±2| 480±2| min 85| 14±0,5| –| 20±0,5| 40±0,5| –| –| –| –|
SIN-1160-5-0-P| 367±2| 542±2| min 65| 14±0,5| –| –| –| 26±0,5| 43±0,5| –| –|
SIN-1480-5-0-P| 447±2| 585±2| min 85| 14±0,5| –| –| –| –| –| 40±0,5| 60±0,5|
SIN-0287-6-0-P| 340±2| 413±2| min 45| 14| 20| –| –| –| –| –| –|
SIN-0390-6-0-P| 372±2| 443±2| min 45| 14| 20| –| –| –| –| –| –|
SIN-0460-6-0-P| 368±2| 471±2| min 45| 14| 20| –| –| –| –| –| –|
SIN-0620-6-0-P| 367±2| 491±2| min 45| 14| 20| –| –| –| –| –| –|
SIN-0780-6-0-P| 380±2| 490±2| min 85| 14| –| 20| 40| –| –| –| –|
SIN-0920-6-0-P| 316±2| 500±2| min 85| 14| –| 20| 40| –| –| –| –|
SIN-1180-6-0-P| 445±2| 551±2| min 65| 14| –| –| –| 26| 43| –| –|
__

Filter type code

| Drawing number| Connection size| Connection torque (Nm)| Weight (kg)| Mounting
---|---|---|---|---|---
Terminal| Grounding| Terminal| Grounding| Base| Wall
SIN-0004-5-5-P| __

__

__

70CMC10256

| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.5 – 0.8| 0.5 – 1.0| 9.5| x| x
SIN-0008-5-5-P| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.5 – 0.8| 0.5 – 1.0| 11.2| x| x
SIN-0012-5-5-P| 0.5 – 10 mm²| 0.2 – 6.0 mm²| 1.5 – 1.8| 0.5 – 1.0| 23.2| x| x
SIN-0016-5-5-P| 0.5 – 10 mm²| 0.2 – 10 mm²| 1.5 – 1.8| 1.2 – 2.0| 28.7| x| x
SIN-0023-5-5-P| 0.5 – 10 mm²| 0.2 – 10 mm²| 1.5 – 1.8| 1.2 – 2.0| 34.2| x| x
SIN-0032-5-5-P| 2.5 – 35 mm²| 2.5 – 16 mm²| 2.5 – 5.0| 2.5 – 5.0| 37| x| x
SIN-0038-5-5-P| __

__

__

70CMC10257

| 2.5 – 35 mm²| 2.5 – 35 mm²| 2.8 – 3.0| 2.0 – 5.0| 60| x| –
SIN-0046-5-5-P| 16 – 50 mm²| 2.5 – 35 mm²| 2.5 – 5.0| 2.0 – 5.0| 75| x| –
SIN-0055-5-5-P| 16 – 70 mm²| 16 – 70 mm²| 6.0 – 7.0| 6.0 – 7.0| 95| x| –
SIN-0061-5-5-P| 16 – 70 mm²| 16 – 70 mm²| 6.0 – 7.0| 6.0 – 7.0| 100| x| –
SIN-0072-5-5-P| 16 – 70 mm²| 16 – 70 mm²| 6.0 – 7.0| 6.0 – 7.0| 110| x| –
SIN-0010-5-0-P| __

__

__

__

__

__

__

__

__

__

__

70CMC10330

| 0.2 – 4.0 mm²| 0.2 – 6.0 mm²| 0.6 – 0.8| 0.5 – 1.0| 10| x| x
SIN-0018-5-0-P| 0.5 – 10 mm²| 0.2 – 10 mm²| 1.5 – 1.8| 1.5 – 1.8| 12.5| x| x
SIN-0032-5-0-P| 1.0 – 16 mm²| 4 – 16 mm²| 2.5 – 3.0| 1.5 – 1.8| 19| x| x
SIN-0048-5-0-P| 2.5 – 35 mm²| 4 – 16 mm²| 2.5 – 5.0| 1.5 – 1.8| 24| x| x
SIN-0075-5-0-P| 2.5 – 35 mm²| 4 – 16 mm²| 2.5 – 5.0| 1.5 – 1.8| 48| x| –
SIN-0110-5-0-P| 16 – 70 mm²| M8| 6.0 – 7.0| 20 – 25| 71.5| x| –
SIN-0180-5-0-P| 25 – 95 mm²| M8| 6.0 – 12| 20 – 25| 90.5| x| –
SIN-0005-6-0-P| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.5 – 0.8| 0.5 – 1.0| 5.9| x| x
SIN-0008-6-0-P| 0.22 – 4.0 mm²| 0.2 – 6.0 mm²| 0.5 – 0.8| 0.5 – 1.0| 7.7| x| x
SIN-0014-6-0-P| 0.5 – 10 mm²| 0.2 – 6.0 mm²| 1.5 – 1.8| 1.5 – 1.8| 13.5| x| x
SIN-0023-6-0-P| 0.5 – 10 mm²| 0.5 – 10 mm²| 1.5 – 1.8| 1.5 – 1.8| 19.5| x| x
SIN-0035-6-0-P| 2.5 – 16 mm²| 4 – 16 mm²| 2.0 – 4.0| 1.5 – 1.8| 28| x| x
SIN-0052-6-0-P| 2.5 – 35 mm²| M6| 2.5 – 5.0| 8 – 10| 45| x| –
SIN-0085-6-0-P| 16 – 50 mm²| M6| 2.5 – 5.0| 9| 77| x| –
SIN-0122-6-0-P| 25 – 95 mm²| M6| 6.0 – 12| 8 – 10| 97| x| –
SIN-0185-6-0-P| 25 – 95 mm²| M6| 6.0 – 12| 20 – 25| 158| x| –
SIN-0270-5-0-P| __

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__

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70CMC10331

| busbar, Ø14 hole| M10| 25 – 30| 40 – 50| 122| x| –
SIN-0410-5-0-P| busbar, Ø14 hole| M12| 25 – 30| 75 – 85| 190| x| –
SIN-0600-5-0-P| busbar, Ø14 hole| M12| 25 – 30| 75 – 85| 220| x| –
SIN-0840-5-0-P| busbar, Ø14 hole| M12| 25 – 30| 75 – 85| 300| x| –
SIN-1160-5-0-P| busbar, Ø14 hole| M16| 25 – 30| 190 – 200| 420| x| –
SIN-1480-5-0-P| busbar, Ø14 hole| M16| 25 – 30| 190 – 200| 500| x| –
SIN-0287-6-0-P| busbar, Ø14 hole| M12 x 30| 30| 75| 190| x| –
SIN-0390-6-0-P| busbar, Ø14 hole| M12 x 30| 30| 75| 260| x| –
SIN-0460-6-0-P| busbar, Ø14 hole| M12 x 30| 30| 75| 270| x| –
SIN-0620-6-0-P| busbar, Ø14 hole| M12 x 30| 30| 75| 360| x| –
SIN-0780-6-0-P| busbar, Ø14 hole| M12 x 30| 25-30| 75-85| 420| x| –
SIN-0920-6-0-P| busbar, Ø14 hole| M16 x 40| 30| 190| 510| x| –
SIN-1180-6-0-P| busbar, Ø14 hole| M16 x 40| 30| 190| 690| x| –

DRAWINGS AND DIAGRAMS

Dimension drawings
RFI footprint filters

External RFI filters

dU/dt- and sine-filters

dU/dt-filters in enclosed drive

• Figure 30 represents a dU/dt filter with drive and main switch in the enclosure. The main dimensions of the drive are 2200 x 600 x 600 mm (HxWxD).
• This representation includes all dU/dt filters up to 600 A with or without drive in enclosure.
• In NFS_CHK, 2 x chokes up to 650 A each in a single enclosure with semiconductor fuses. The main dimensions of the drive are 2000 x 400 x 600 mm (HxWxD).
• In IUS_12_DUT CTRL is shown 2 x dU/dt-filter up to 600 A each in a single enclosure with a control plate, control units, control auxiliaries and other accessories. The main dimensions of the drive are 2000 x 400 x 600 mm (HxWxD).

Figure 32 represents a dU/dt filter with drives in an enclosure. The main dimensions of the drive are 2200 x 800 x 600 mm (HxWxD).
This representation includes all dU/dt filters up to 1500 A with or without drive-in enclosure.

In Figure 33, there is two dU/dt filters in a single enclosure. The main dimensions of the drive are 2200 x 400 x 600 mm (HxWxD).
This representation includes two dU/dt filters up to 600 A in a single enclosure

Figure 34 represents a dU/dt filter with a drive and main switch in the enclosure. The main dimensions of the drive are 2000 x 400 x 600 mm (HxWxD).
This representation includes all dU/dt filters up to 2×80 A or 1×210 A with or without drive-in enclosure

Figure 35 represents a dU/dt filter up to 1500 A in a single enclosure with a control plate, control units, control auxiliaries and other accessories. The main dimensions of the drive are 2000 x 600 x 600 mm (HxWxD).

Safe operating area for dU/dt-filters
The safe operating area for DUT-0280-6-0-S is shown in Figure 36 – assuming a cable capacitance of 750 pf/m. The values should be scaled in accordance with the actual cable capacitance. In case of multiple cables the capacitance is the sum of the cable capacitances.

The safe operating area for DUT-0420-6-0-S is shown in Figure 37 – assuming a cable capacitance of 800 pf/m. The values should be scaled in accordance with the actual cable capacitance. In case of multiple cables the capacitance is the sum of the cable capacitances.

Figure 37. Safe operating area for DUT-0420-6-0-S

The safe operating area for DUT-0590-6-0-S is shown in Figure 38 – assuming a cable capacitance of 1700 pf/m. The values should be scaled in accordance with the actual cable capacitance. In case of multiple cables the capacitance is the sum of the cable capacitances.

The safe operating area for DUT-0820-6-0-S is shown in Figure 39 – assuming a cable capacitance of 1700 pf/m. The values should be scaled in accordance with the actual cable capacitance. In case of multiple cables the capacitance is the sum of the cable capacitances

The safe operating area for DUT-1250-6-0-S and DUT-1600-6-0-S is shown in Figure 40 – assuming a cable capacitance of 1700 pf/m. The values should be scaled in accordance with the actual cable capacitance. In case of multiple cables the capacitance is the sum of the cable capacitances

Output current for frequency operation
P-type dU/dt filters

S-type dU/dt filters

Sine filters

Local contacts: https://www.danfoss.com/en/contact-us/contacts-list/
Figure 43. Sine filters output current derating as a function of output frequency

Vacon Ltd Member of the Danfoss Group Runsorintie 7 65380 Vaasa Finland
www.danfoss.com

References

• Engineering Tomorrow | Danfoss
• Contacts list | Danfoss
• Service and support - need help? | Danfoss

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