Electromagnetic Compatibility, EMC
Electromagnetic Compatibility, EMC
Electromagnetic Disturbances of Signals and Devices
This product meets the EMC requirements according to the standard IEC 61800-3 if the measures described in this manual are implemented during installation.
Signal interference can cause unexpected responses of the drive and of other equipment in the vicinity of the drive.
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SIGNAL AND EQUIPMENT INTERFERENCE |
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oOnly operate the drive with the specified external mains filter. oInstall the wiring in accordance with the EMC requirements described in the present document. oVerify compliance with the EMC requirements described in the present document. oVerify compliance with all EMC regulations and requirements applicable in the country in which the product is to be operated and with all EMC regulations and requirements applicable at the installation site. |
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Failure to follow these instructions can result in death, serious injury, or equipment damage. |
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ELECTROMAGNETIC DISTURBANCES OF SIGNALS AND DEVICES |
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Use proper EMC shielding techniques to help prevent unintended device operation in accordance with the standard IEC 61800-3. |
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Failure to follow these instructions can result in death, serious injury, or equipment damage. |
These types of devices are not intended to be used on a low-voltage public network which supplies domestic premises. Radio frequency interference is expected if used in such a network.
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RADIO INTERFERENCE |
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Do not use these products in domestic electrical networks. |
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Failure to follow these instructions can result in death, serious injury, or equipment damage. |
Layout Control Cabinet (Enclosure)
The prerequisite for compliance with the specified limit values is an EMC compatible layout. Depending on the application, the following measures can improve the EMC-dependent values:
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EMC measures |
Objective |
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Use galvanized or chromium-plated sub plates, bond metallic parts across large surface areas, remove paint layer from contact surfaces. |
Good conductivity by surface area contact. |
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Ground control cabinet (enclosure), door, and sub plates by using grounding strips or grounding cables with a cross-section of 10 mm2 (AWG 6). |
Reduce emission. |
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Supplement switch devices such as contactors, relays, or magnetic valves with interference suppression combinations or spark suppressor elements (for example, diodes, varistors, RC elements). |
Reduces mutual interference. |
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Fit power and control components separately. |
Reduces mutual interference. |
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EMC measures |
Objective |
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Connect large surface areas of cable shields, use cable clamps and ground straps. |
Reduce emission. |
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Ground shields of digital signal wires at both ends by connecting them to a large surface area or via conductive connector housings. |
Reduce interference action on signal cables, reduce emissions. |
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Ground shield of analog signal cables directly on the device (signal input), insulate the shield at the other cable end or ground the same through a capacitor, such as 10 nF. |
Reduce grounding loops by low frequency interferences. |
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EMC measures |
Objective |
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Do not route fieldbus cables and signal wires in a single cable duct together with lines with DC and AC voltages of more than 60 V. (Fieldbus cables, signal lines, and analog lines may be in the same cable duct) Recommendation: Use separate cable ducts at least 20 cm (7.84 in) apart. |
Reduces mutual interference. |
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Keep cables as short as possible. Do not install unnecessary cable loops, use short cables from the central grounding point in the control cabinet to the external ground connection. |
Reduces capacitive and inductive interference. |
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Use equipotential bonding conductors (stranded wire of equal potential at all grounding locations connected to an equipotential grounding plane) in the following cases: wide-area installations, different voltage supplies, and installation across several buildings. |
Reduces current in the cable shield, reduces emissions. |
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Use stranded wire potential equalization conductor. |
Discharging of high frequency interference currents. |
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If motor and machine are not connected in a conducting fashion, for example, due to an insulated flange or a connection not across a full surface, the motor must be grounded via a grounding cable with a minimum 4 mm2 (AWG 11) cross-section or a grounding strip with a length as short as possible. |
Reduce emissions, increase interference resistance. |
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Use twisted pair for 24 Vdc signals. |
Reduce interference action on signal cables, reduce emissions. |
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EMC measures |
Objective |
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Operate product on mains with grounded neutral point. |
Enables effectiveness of mains filter. |
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Use surge arrester if there is a risk of overvoltage. |
Reduces the risk of damage caused by overvoltage. |
Additional Measures for Improving the EMC
Depending on the respective application, the following measures may lead to an EMC compatible layout:
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EMC measures |
Objective |
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Upstream connection of mains line reactor (choke) |
Reduction of the harmonic network oscillations, extension of the service life of the product. |
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Upstream connection of external mains filters |
Improvement of the EMC limit values. |
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Special EMC-appropriate layout, for example, within an enclosed control cabinet complete with 15 dB attenuation of the interferences emitted |
Improvement of the EMC limit values. |
