Unsa ang Mga Prueba Ang Kinahanglan Sa Maayong Kalidad nga AIS Current Transformer?
Kamusta sa tanan, ako si Oliver, usa ka 10-taong veteran sa industriya sa sistema sa kuryente. Karon, moguli kita og usa ka praktikal nga topic — unsaon nimo mosabot kon ang current transformer (CT) nga gigamit sa Air Insulated Switchgear (AIS) maoy talyerado? Wala kini may kalabutan lang sa pagpadayon sa teknikal nga specs; direkta kini naglakip sa seguridad sa equipment, stability sa grid, ug accurate nga metering.Hayaay ta — batasan sa akong real-world experience.
Pangutana
Sa mga substations o distribution systems, ang mga current transformers magpahayag og dako nga papel. Sila ang mag-convert sa mataas nga primary currents ngadto sa manageable nga secondary signals para sa measurement, protection, ug control.
Para masigurado nga mahimong sila reliable sa tanang kondisyon, kinahanglan nga isulod ang usa ka serye sa tests — gikan sa factory testing hangtod sa on-site commissioning ug long-term maintenance.
Unsa man ang mga essential nga tests?
Hayaay ta kanila step by step.
Bahin 1: Basic Performance Testing Before Factory Delivery
(1) Insulation Resistance Test
Kini usa sa pinaka-basic — apan crucial — nga tests.
Kalihukan: Aron masabot kung ang insulation sa pagitan sa primary winding, secondary winding, ug housing maoy intact.
Paraan: Gamiton ang megohmmeter (insulation tester) aron masukat ang resistance.
Standard: Karanihan dapat naa sa itaas sa 500 MΩ, apan ang eksaktong values depende sa manufacturer specifications ug standards sama sa IEC o IEEE.
Ang low reading mao ang makapahibalo og moisture ingress, aging insulation, o manufacturing defects.
(2) Power Frequency Withstand Voltage Test (Dielectric Test)
Gikatakdang "hi-pot" test.
Kalihukan: Aron masigurado nga ang CT mahimong molihok sa high voltages wala'y breakdown sa normal operation o transient overvoltages.
Prosedura: Apply-on ang voltage several times higher than rated (e.g., 3 kV for a 1 kV-rated CT), usually for 1 minute.
Unsaon Nimo Masabot: Ania ang signs of arcing, flashover, o insulation failure.
Kini nagpasiguro nga ang CT mahimong handle sa electrical stress safely.
(3) Ratio Error Test
Ang core function sa CT mao ang accurately transform sa current.
Kalihukan: Aron masigurado nga ang actual current ratio matches the nameplate value.
Paunsa Giisulod:
Measure primary and secondary currents at various loads.
Calculate the error percentage.
Acceptable Range:
For metering CTs: ±0.5%
For protection CTs: ±1% or more, depending on application.
Accuracy matters — especially when billing or protection logic depends on it.
(4) Polarity Check
Polarity errors can cause serious issues, especially in differential protection circuits.
Purpose: To confirm the correct direction of current flow between primary and secondary windings.
Methods:
DC method: Briefly apply a DC voltage and observe the deflection on a voltmeter.
AC method: Use a standard CT to compare phase angles.
Best Practice: Always double-check after installation.
Don’t skip this — it’s easy to mess up and hard to catch later.
Bahin 2: Functional Testing After On-Site Installation
(1)Grounding Resistance Test
Proper grounding is essential for both safety and performance.
Tool: Ground resistance tester.
Target: Usually below 4 ohms, though stricter requirements may apply in sensitive environments.
Why It Matters: Poor grounding can lead to electric shock risks, equipment damage, or false tripping.
Especially important in outdoor AIS setups exposed to weather and environmental factors.
(2) Secondary Loop Continuity Test
Ensures there are no open circuits or loose connections in the secondary wiring.
Method: Use a multimeter to check for continuity across terminals.
Importance:
An open circuit can cause dangerously high voltages.
Loose connections may result in signal loss or overheating.
Never energize a CT with an open secondary!
(3) Temperature Rise Test
Overheating can degrade insulation and shorten the life of a CT.
Process: Run the CT at rated current for a set time and monitor temperature rise.
Limits: Must stay within specified thermal limits (e.g., 55K rise for Class B insulation).
Tools: Infrared thermography or embedded temperature sensors.
Helps identify poor contact points or inadequate cooling.
(4) Dynamic Response Test
Checks how well the CT responds to sudden changes in current, such as short circuits.
Method: Inject a simulated fault current and observe secondary output behavior.
Goal: Ensure fast, stable response for reliable protection triggering.
Crucial for applications involving relay protection systems.
Bahin 3: Periodic Maintenance During Long-Term Operation
(1) Partial Discharge Detection
Early signs of insulation degradation often appear as partial discharges.
Technique: Use ultrasonic or ultra-high frequency (UHF) sensors to detect discharge activity.
Frequency: At least once a year for critical systems.
Benefits: Early warning before major insulation failures occur.
Especially useful for aging equipment or units operating in harsh conditions.
(2) Accuracy Calibration
Over time, due to aging or environmental effects, CT accuracy may drift.
Approach: Remove key CTs periodically and recalibrate in a lab setting.
Interval: Varies by usage, but typically every 3–5 years for metering CTs.
Ensures continued compliance with standards and avoids billing disputes.
(3) Visual Inspection & Cleaning
Simple but effective.
Checklist:
Cracks or discoloration on housing
Corrosion on terminals
Dust buildup or blockage in ventilation
Action: Clean with dry cloth, tighten connections, replace damaged parts.
Combine with regular patrols for early detection of issues.
Final Thoughts
Testing a current transformer in air insulated switchgear isn’t something you can afford to take lightly. From basic factory checks to field commissioning and long-term monitoring — every step plays a vital role in ensuring safe, stable, and accurate operation.
Here’s a quick recap of the key tests:
If you're working with AIS CTs and have questions about any of these tests — or need help interpreting results — feel free to reach out anytime. I’d be happy to share more hands-on tips and troubleshooting techniques.
Let’s keep our CTs running strong — silently guarding our power systems behind the scenes.
— Oliver
