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Home » News » Industry News » Ultimate Guide To VLF Ultra-Low Frequency Withstand Voltage Testing: Principles, Standards, And Equipment Selection

Ultimate Guide To VLF Ultra-Low Frequency Withstand Voltage Testing: Principles, Standards, And Equipment Selection

Views: 6     Author: Site Editor     Publish Time: 2026-07-07      Origin: Site

Ultimate Guide To VLF Ultra-Low Frequency Withstand Voltage Testing: Principles, Standards, And Equipment Selection



For medium and high voltage power equipment—XLPE cables, generators, and large motors—insulation withstand testing is mandatory under routine preventive maintenance programs. Traditional 50Hz power frequency withstand voltage testing requires a large capacitive load, resulting in bulky equipment; while DC withstand voltage testing can cause space charge to accumulate in XLPE insulation, leading to irreversible damage. The 0.1Hz VLF test has become the globally recognized best alternative, combining equivalence and safety.


Synchronous Motor Ultra-Low Frequency Withstand Voltage Test Standard


1.Two standards are widely used for 0.1Hz VLF withstand testing of synchronous generators and large motors. Choose the one that applies to your project location:

  • IEEE 433-2022: Mainstream European and American standard for ultra-low frequency testing of rotating electrical machines;

  • DL/T 849.4-2004: General standard for the power industry in China and Southeast Asia.

Both standards specify 0.1Hz as the test frequency and apply conversion factors to deliver defect detection equivalent to 50/60Hz power frequency testing.


StandardIEEE 433-2022DL/T 849.4-2004

Applicable to 3.3kV~30kV AC motors, with a fixed conversion coefficient of 1.63:

  • UAC(RMS)=2U0+1000 VUAC(RMS)=2U0+1000 V

  • UVLF(Peak)=UAC(RMS)×1.63UVLF(Peak)=UAC(RMS)×1.63

Where U0U0 is the motor stator rated line-to-line voltage (kV).

Example: For a 10.5kV motor → Power frequency withstand voltage = 2×10.5+1=22kV2×10.5+1=22kV → VLF peak voltage = 22×1.63≈36kV22×1.63≈36kV

UVLF(Peak)=2×β×K×U0

  • β=1.2β=1.2: Equivalent conversion coefficient between 0.1Hz and power frequency;

  • KK: 1.5 for commissioning/major overhaul, 1.3 for routine preventive testing;

  • U0U0: Rated line-to-line voltage (kV).

Example: For a 10.5kV motor during commissioning → 2×1.2×1.5×10.5≈26.7kV≈27kV2×1.2×1.5×10.5≈26.7kV≈27kV

Engineering documents commonly cite 26kV; the precise value is 26.7kV, and 27kV is recommended for greater accuracy.For 10.5kV motors, a comparison of the two standards is as follows: IEEE ≈ 36kV peak, DL/T ≈ 27kV peak. International projects follow the IEEE standard; domestic routine projects follow the DL/T standard.
Note: All voltage values in both standards and all display readings on our VLF generators are defined as peak values, which eliminates the need for manual √2 conversion by operators and avoids calculation errors in field testing.


2.Withstand Voltage Time Requirements

Both IEEE 433-2022 and DL/T 849.4-2004 standards consistently stipulate that the full-voltage withstand time for the stator windings of a synchronous motor in VLF ultra-low frequency testing is 1 minute.

Supplementary Note: For aging units with degraded insulation performance, the test time can be extended to 3-5 minutes without increasing the test voltage to 

allow for continuous observation of partial discharge phenomena. This is a field practice, not a mandatory standard requirement, and should be approved by the 

owner or technical supervisor beforehand.


3.Test Connection and Diagnostic Advantages

  1. Connection Method: Phase-by-phase testing is required—a high voltage is applied to the phase under test while the other two phases are short-circuited and directly grounded to eliminate interphase electric field interference.

  2. Advantages over Power Frequency Testing: In power frequency testing, the capacitor charging current flowing through the stator anti-corona semiconductor layer is very large, resulting in a significant voltage drop on the semiconductor layer. This masks the actual voltage applied to the terminal winding insulation layer, making terminal defects difficult to detect.

  3. At an ultra-low frequency of 0.1Hz, the frequency drops to 1/500th of the power frequency, and the capacitor current decreases accordingly. The voltage drop on the semiconductor layer becomes negligible, allowing the terminal winding insulation layer to withstand the full test voltage. This makes hidden defects—end-winding delamination, surface corona, and internal voids—far easier to spot than they would be under power frequency testing.


4.Overcurrent Protection Setting Rules

The overcurrent protection threshold can be steplessly adjusted from 0 to the rated current value on the touchscreen. 


The recommended three-step setup method for field testing is as follows:

1. Calculate the theoretical capacitance current of the test object using the formula;

2. Multiply the calculated value by a safety factor of 1.5 to obtain the protection setting value;

3. Directly enter the value in the parameter setting interface, and the device will automatically execute overcurrent protection.


This device supports a test time range of 0-99 minutes, fully covering standard durations, such as 60 minutes for handover testing, 15 minutes for preventative testing, and 1 minute for motor testing. It also supports custom durations for special test requirements. The setting logic is completely consistent with the withstand voltage test of power cables.


5.Test qualification criteria

  • During the entire 1-minute voltage withstand process, all of the following conditions must be met simultaneously to determine that the winding voltage withstand test is qualified:

  • Insulation without breakdown, flashover, or persistent partial discharge phenomenon;

  • The motor body has no abnormal noise, smoke, or pungent odor, and the current has no sudden and violent changes;

  • The instrument displays the ultra-low frequency output voltage and leakage current values in real-time, which are stable without significant fluctuations;

  • No overvoltage or overcurrent protection shutdown was triggered due to insulation defects in the winding itself.


Selection guide for ultra-low frequency withstand voltage tester

Selecting a VLF tester comes down to three factors: rated voltage, load capacitance, and field portability. Get these right, and you will avoid both under-specifying and over-buying.

  • Matching of rated output voltage

The rated peak voltage of the equipment must be higher than the calculated peak voltage of the test sample:

3-10kV medium voltage cable, small unit: choose 30kV/40kV model

20-35kV high-voltage cables, large and medium-sized motors: choose 50kV~90kV models

  • Capacity matching of loaded capacitors

The lower the test frequency, the larger the capacitance that can be carried by the test sample. It is necessary to estimate the equivalent capacitance of the test sample 

before selecting the appropriate type


Test frequencyMaximum carrying capacityApplicable Scenarios
0.1Hz0.5 μshort distance distribution cable, small generator
0.05Hz 1.1 μ Fmedium length 10kV/35kV cable
0.02Hz2.2 μ Flong-distance underground cable, large capacity unit
0.01Hz 5.5 μ Fultra long submarine cable, large turbine/hydro generator

Key note for selection: If the capacitance of the test object is less than 0.05μF,such as short cables, small transformers or low-voltage motors, ordinary VLF testers will suffer from waveform distortion or even fail to output normally. A qualified VLF tester should be equipped with a standard compensation capacitor, which can be connected in parallel to stabilize the sine wave output without additional procurement.


Portability and environmental adaptability

Prioritize the controller+booster split design to reduce the weight of individual handling and adapt to outdoor transitions:

  • 30/40kV level: 4kg controller, 20kg booster, suitable for distribution network inspection

  • 50-80kV level: Controller 4kg, booster 40-50kg, suitable for substation testing

  • 90kV level: 4kg controller, 55kg booster, suitable for power plant generator testing

  • Environmental requirements: Environmental requirements: Operating temperature -10℃~+40℃, humidity ≤85%RH. For on-site testing without mains power, this equipment is compatible with portable diesel generators. The generator only needs to meet the requirements of output power ≥3kW, voltage 220V±5%, and frequency stability at 50Hz; no additional voltage regulator is required.


Functions and Security Configuration

  1. Waveform: sine wave output, distortion ≤ 5%, ensuring test equivalence

  2. Automation: Touch screen control, automatic self check, boost, timing, and discharge throughout the entire process

  3. Protection: Dual protection for overvoltage/high/low voltage overcurrent, action ≤ 10ms, with independent emergency stop

  4. Data: automatic data storage, on-site printing, USB export, supporting upper computer management


Our VLFS-series touchscreen VLF generators


Our VLFS-series VLF generators are built to the selection criteria above. They meet DL/T 849.4-2004 and IEEE 433-2022, and use ARM7 control with high-speed AD acquisition—a step up from the mechanical-switch designs that have limited service life and higher failure rates. Available in six ratings from 30kV to 90kV, the VLF-series is designed specifically for field crews who need lightweight, automatic test gear that delivers results without the usual setup hassle.


Standard technical parameters

  • Output frequency: 0.1Hz/0.05Hz/0.02Hz/0.01Hz, adjustable in four levels;

  • Measurement accuracy: ± 3%, positive/negative peak voltage error ≤ 3%, waveform distortion ≤ 5%;

  • Load capacity: Unified support for four levels of capacitive loads: 0.1Hz/≤ 0.5 µ F, 0.05Hz/≤ 1.1 µ F, 0.02Hz/≤ 2.2 µ F, 0.01Hz/≤ 5.5 µ F, suitable for full scenario testing requirements from short distance distribution cables to ultra long submarine cables;

  • Power supply: 220V ± 5%, 50Hz ± 5%;

  • Usage conditions: Suitable for both indoor and outdoor use; Temperature range: -10 ℃ to+40 ℃; Humidity ≤ 85% RH.

The VLFS-series includes six models covering 30kV to 90kV ——VLFS-30, VLFS-40, VLFS-50, VLFS-60, VLFS-80, and VLFS-90, which can meet the voltage withstand testing requirements for cables ranging from 3kV distribution to 35kV transmission, as well as large and medium-sized generators and motors.


Product Advantages

  1. Fully Automatic Intelligent Control: The built-in microcomputer automatically completes self-testing, voltage boosting, constant voltage holding, shutdown, and discharge operations without manual intervention. The device identifies and displays eight operating states in real time: no-load, voltage boosting, constant voltage output, test stopped, discharge, test passed, overvoltage protection, and overcurrent protection.
    Upon power-on, automatic load detection is performed. If the boost converter or the object under test is not connected, a "no-load" message is displayed to avoid invalid voltage boosting operations. The high and low voltage closed-loop negative feedback circuit eliminates the capacitive rise effect, ensuring stable output voltage under different load capacitances.

  2. 7-inch capacitive touch screen: one click operation, real-time display of voltage waveform and measurement data

  3. Split type lightweight structure: The controller weighs only 4kg, and the step-up transformer is rated at 20-55kg, making it easy to move overhead lines, underground cables, and power plant sites, fully meeting the portability needs of outdoor operation and maintenance

  4. Multiple safety protection system: overvoltage protection, high and low voltage side overcurrent dual protection, action response time ≤ 10ms; photoelectric isolation between the controller and the booster to ensure the safety of low voltage side operators; After the experiment is completed, it will automatically discharge and come standard with a dedicated discharge rod to eliminate the risk of electric shock caused by residual charges

  5. Complete kit:Each VLFS-series unit ships with HV and control cables, grounding wire, discharge rod, compensation capacitor, spare fuses, and thermal paper. Unbox, connect, and test—no extra parts to order.

  6. Convenient data management: Equipped with a built-in thermal printer that can print test reports in real-time; The device can store up to 64 sets of historical data; The USB interface supports data export to the upper computer management software for easy archiving of test records

  7. Complete after-sales service: one-year warranty for the entire machine, lifetime maintenance


Need help selecting a model? Send us your cable voltage, length, and capacitance data. Our engineering team will recommend the VLFS model that fits your testing requirements.
Contact Person: Christine
Mobile/Whatsapp/Wechat: +86 15123029885
E-mail: gold05@hy-industry.com


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