Logo
Choose your language
  • Deutsch DE
  • English (INT) EN
  • Español ES
  • English (US) US
  • Choose your industry
    • Data centers

      Efficiency and high availability for critical infrastructure

    • Critical Infrastructure

      Reduce operating costs and environmental footprint

    • Power utilities

      Measurement at all levels

    • Manufacturing

      Measurement technology for efficient production

  • Transparent energy consumption
    • Reduce CO₂ footprint

      Monitoring and lowering emissions

    • Energy management

      Reduce energy consumption and increase energy efficiency

    Reliable energy supply
    • Residual current monitoring

      Ensure high availability and increase fire protection

    • Power quality

      Prevent breakdowns, fires, and excessive wear on equipment

  • Transparent energy consumption
    • Energy analyzerUMG 800

      Power meters for complete transparency of energy flows

    Product: Reliable energy supply
    • Power analyzer

      Expandable power analyzers for monitoring energy consumption, power quality, and residual currents

    • Power quality analyzer

      Power Quality Analyzer for highly accurate power quality recording

    • Residual current monitoring devices

      Measurement devices for recording and analyzing residual currents

    More
    • GridVis®9.2

      Power Grid Monitoring Software

    • Current transformer
    • Accessories
    • The Janitza product portfolio

      Janitza offers an extensive product portfolio. You will receive an individual solution for every requirement.

      Show all products
  • Services
    • International network
    Information
    • Downloads
    • Knowledge base
    • Product discontinuations
    • Product registrations
    • Software Addons
    Insights & Tools
    • Whitepaper
    • Current transformer tool
    • Application reports
    Immediate assistance
    • Technical Support
    • Downloads
    • Service ticket
  • Contact
    • Contact US
    • Technical Support
    • Germany
    • International
    Latest
    • News
    • Events
    • WebinarsNew
    Career
    • Overview
    Company
    • About Janitza
    • CO₂ neutrality
    • Our portfolio
    • Certification & standards
Logo

Information material

  • Downloads

Latest news

  • Latest news

  • Events

  • Newsletter registration

Contact persons

  • Sales partner US

Immediate assistance

  • Technical Support

  • Contact US

  • Downloads

  • Service ticket

© 2010 - 2025 Janitza electronics GmbH. All rights reserved.

Cookies

Unbalance in the voltage results in the following effects:

  • Increased current load and losses in the network.
  • For the same load power, phase currents can reach 2 to 3 times the value, and losses can reach 2 to 6 times the value. Lines and transformers can then only be loaded to half or one third of their rated power.
  • Increased losses and vibration torques in electrical machines.
  • The field built up by the negative sequence component of the currents runs against the direction of rotation of the rotor and induces currents in it that lead to increased thermal stress.
  • Rectifiers and inverters react to an unbalanced supply voltage with uncharacteristic harmonic currents.
  • In three-phase systems with a Y connection, a current flows through the neutral conductor.

The detailed formulas can be found in the formulary.

Strom-Spannungsunsymmetrie-3
Fig.: Unbalance representation in the phasor diagram
Strom-Spannungsunsymmetrie-1
Fig.: Symmetry

Symmetry in a three-phase system is said to exist when the three phase-to-phase voltages and currents are equal and 120° out of phase with each other. Unbalance occurs when one or both conditions are not met. In most cases, the cause for unbalance lies in the loads.

Knowledge database

Voltage unbalance and current unbalance

In high voltage and MV grids, the loads are usually three-phase and symmetrical, although large single-phase or two-phase loads may also be present here (e.g. grid frequency induction furnaces, resistance furnaces, etc.). In the low-voltage network, the electrical loads are often also single-phase (e.g. PCs, consumer electronics, lighting systems, etc.) and the associated load circuits should be distributed as evenly as possible over the three phase conductors within the electrical cabling. Depending on the balancing of the single-phase loads, the grid is operated more or less symmetrically or asymmetrically, and the compatibility level for the degree of unbalance in steady-state operation of the voltage caused by all grid consumers is set at ≤2%. In relation to individual consumer installations, the resulting degree of unbalance is limited to = 0.7%, with averaging over 10 minutes.

Strom-Spannungsunsymmetrie-2
Fig.: Unbalance