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Improve Electrical Performance. Reduce Losses. Protect Critical Assets.
Poor Power Quality silently impacts electrical systems long before it becomes visible as a failure. Poor power factor, harmonics, overheating, capacitor failures, nuisance tripping, transformer loading and unexplained equipment issues can all lead to higher operating cost, lower reliability and unnecessary maintenance.
At TEAMS International, we help customers improve the electrical health of their facilities through practical, application-focused Power Quality solutions.
Why Power Quality Matters
Modern electrical networks are no longer simple. Buildings, Data Centres and Industries today use more and more power electronics in HVAC systems, Variable Frequency Drives, UPS systems, Automation Systems, LED lighting, compressors, pumps, IT loads and sensitive electronics. These loads change the electrical profile of the installation to large extend.
Without proper Power Quality management, customers may face:
- Poor Power Factor
- Higher electrical losses
- Transformer and cable overheating
- Capacitor bank failures
- Harmonic distortion
- Nuisance tripping
- Reduced equipment life
- Unstable electrical performance
- Higher maintenance risk
- Poor utilisation of electrical infrastructure
A properly selected Power Quality solution helps improve system performance, reduce avoidable losses and enhance the reliability of the electrical network.
Know more about Power Quality
Facility Type
Solution Type
Frequently Asked Questions
What is Power Quality?
Power Quality refers to the condition of electrical power supplied to equipment. Good Power Quality means that voltage, current, frequency, Power Factor and harmonics remain within acceptable operating limits.
Why is Power Quality important?
Power Quality affects energy efficiency, equipment life, electrical reliability and maintenance cost. Poor Power Quality can result in losses, overheating, failures and operational disruptions.
What are common Power Quality problems in LV installations?
Common issues include low Power Factor, harmonics, capacitor failure, transformer heating, cable overheating, nuisance tripping and voltage distortion.
When should we conduct a Power Quality study?
A Power Quality study is recommended when a facility experiences poor Power Factor, capacitor failures, repeated tripping, overheating, high electrical losses or unexplained equipment issues.
Can Power Quality problems increase electricity cost?
Yes. Poor Power Factor and higher electrical losses can increase operating cost. Improving Power Quality can help reduce avoidable losses and improve electrical efficiency.
What is the difference between APFC, SVG and AHF?
APFC panels improve Power Factor using capacitor banks. SVGs provide fast dynamic reactive power compensation. Active Harmonic Filters reduce harmonic distortion from non-linear loads.
Can APFC panels with reactor remove harmonics?
APFC panels are mainly used for Power Factor correction. The blocking reactors only prevent harmonic current to enter capacitor circuit, but do not eliminate them. If harmonics are present, the system must be carefully designed. In harmonic-rich networks, Active Harmonic Filters or hybrid solutions may be required.
When should we consider SVG?
SVGs are suitable where loads change quickly, where precise compensation is required, where space is limited, or where conventional capacitor-based systems are not delivering stable results.
When should we consider Active Harmonic Filters?
Active Harmonic Filters should be considered when harmonics from drives, UPS systems, rectifiers, LED lighting or electronic loads are affecting the electrical network.
Can TEAMS support both new and existing projects?
Yes. TEAMS supports existing facilities through Power Quality studies and solution implementation. For new projects, TEAMS can support design-level recommendation or quotation based on consultant specification.