Preparations for use
4.16 Converter operation
Selecting and connecting the cable:
As far as possible, use symmetrically arranged, shielded connection cables. The cable
shielding, made up of as many strands as possible, must have good electrical conductivity.
Braided shields made of copper or aluminum are very suitable.
● The shield is connected at both ends, at the motor and converter.
● To ensure good discharging of high-frequency currents, provide contacting over a large
● If the cable shield is connected as described, then it ensures the specified equipotential
● If the cable shield is not connected due to special secondary conditions, or not adequately
Overall system design
To specifically reduce bearing currents, you must consider the system as a whole, which
comprises the motor, converter, and driven machine. The following measures support you
when reducing bearing currents and help to avoid damage:
● In the overall system, set up a properly meshed grounding system with low impedance.
● Use the common-mode filter (damping cores) at the converter output. The Siemens sales
● Limit the rise in voltage by using output filters. Output filters dampen the harmonic content
– as contact established through 360° at the converter
– at the motor, for instance with EMC glands at the cable entries
bonding between the motor enclosure and converter. A separate RF equipotential bonding
conductor is then not necessary.
Concentric copper or aluminum shield
connected, then the specified equipotential bonding is not provided. In this particular case,
use a separate RF equipotential bonding conductor:
– Between the motor enclosure and protective ground rail of the converter.
– Between motor enclosure and driven machine
– Use braided flat copper straps or high-frequency cables with finely-stranded conductors
for the separate RF equipotential bonding cable.
– Ensure that the contacts are established over a large area.
representative is responsible for selection and dimensioning.
in the output voltage.
SIMOTICS TN Series N-compact 1LA8
Operating Instructions 08/2017