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    Inversine - Advanced Universal Sine-wave Filter

    INVERSINE™

    Advanced Universal Sine-wave Filter
    High dV/dT combined with a mismatch between cable and motor surge 
    impedance can result in reflective wave phenomenon at standard 
    induction motor terminals. Voltages can increase by as much as 2 to 3 
    times nominal peak levels possibly exceeding the insulation rating of 
    the feeder cables and motor magnetic wire leading to insulation stress, 
    partial discharges and eventual failure. This problem can result with 
    short cable runs but becomes magnified with long cable runs.

    Typical problems experienced can include motor and winding failure, motor noise, cable insulation degradation, premature
    ASD failure, common-mode and reflected wave phenomenon and high EMI/RFI.
    Differential Mode

    The Inversine Advanced Universal Sine-wave Filter (AUSF) is designed to address the problems resulting from pulse width
    modulation. It is a low pass filter with cut-off frequency well below the switching frequency of the inverter.

    The AUSF is much more than a simple dV/dT filter and will:

    Substantially reduce voltage rise time (dV/dt)

    Convert output voltage to near sinusoidal waveform (<3%)

    Prevent transient overvoltages at motor terminals

    Lower harmonic losses in the motor

    Reduce motor noise

    Reduce motor and cable insulation stress

    Extend life of the motor and ASD

    Common-Mode

    Common-mode is the phase-to-ground voltage that appears as a result of the instantaneous sum of the 3-phase voltages
    of the PWM inverter not being zero even when the sum of the average 3-phase voltages is zero. Common-mode voltages
    will induce common-mode currents to flow through parasitic capacitance in the motor and motor feeder cable. High frequency
    capacitive coupling exists across the motor bearings and between the feeder conductor or motor winding and ground.
    Common-mode currents can lead to premature motor bearing failure. ground. Common-mode currents can lead to premature
    motor bearing failure.

    The Inversine Common-mode Filter option will:

    Reduce shaft voltage and bearing currents

    Reduce cable leakage currents

    Reduce common-mode voltages throughout power system

    Lower harmonic losses in the motor

    Features:

    Low insertion loss and voltage drop(<2% of rated voltage)

    No damping resistors required

    Power delivered to motor >96%

    Efficiency >98%

    Improves Power Factor of the motor near unity

    Reactive power compensation

    Prevents transient overvoltages at motor terminals

    Reduces motor noise

    Filters out high frequency currents while allowing lower fundamental currents to pass

    Reliable and proven performance