Multi-frequency Transformer Induction Voltage Withstand Tester with Pure Sine Wave Output Multi-frequency 50Hz-200Hz and Touchscreen Operation

Basic Properties
Place of Origin: WUHAN HUBEI CHINA
Brand Name: Huagao
Model Number: HGDBP
Trading Properties
Minimum Order Quantity: ONE
Price: $2,500 – $38,000
Payment Terms: D/P,D/A,L/C
Supply Ability: Three units (sets) are supplied per week.
Specifications
Capacity: 10kVA Input voltage: Single-phase AC 220V ±10% Or Three-wire AC 380V
Power frequency: 50 Hz Output voltage: 0–400 V
Output frequencies: 50Hz, 100Hz, 150Hz, 200Hz (or Any Manual Output Setting) Waveform distortion rate: ≤2%
Product Description
HGDBP Multi-frequency Transformer Induction Voltage Withstand Comprehensive Test Instrument
(Other common names: Multi-Frequency Test Power Supply, Inductive Voltage Withstand Tester, Multi-Frequency Voltage Generator, Triple-Frequency Voltage Generator)
I. Product Specification, Model, and Name

HGDBP Series Multi-Frequency Inductive Voltage Withstand Comprehensive Tester

II. Introduction to National Standards and Regulatory Requirements Regarding Transformer Induction Voltage Withstanding Capacity

In accordance with the GB 50150-2006 national standard "Standard for Handover Testing of Electrical Equipment in Electrical Installation Projects" and the GB 1027-1997 national standard specification for voltage transformers, the testing requirements are as follows:

  1. For electromagnetic voltage transformers (including the electromagnetic unit of capacitive voltage transformers), when encountering high core magnetic flux density, the induction withstand voltage test shall be conducted in accordance with the following specifications:
    1. The test voltage shall be applied between the primary terminals; the test may employ secondary winding excitation, with the applied voltage sufficient to induce the specified test voltage in the primary winding; the on-site induced withstand voltage test voltage shall be 80% of the factory test voltage.
    2. The test power frequency and test voltage duration shall comply with the provisions of Clause 4 in Section 7.0.13.
    3. Before and after the induction withstand voltage test, measure the no-load current at the rated voltage once each; the two measured values should show no significant difference.
    4. When performing the induced voltage withstand test on the intermediate voltage transformer of a capacitive voltage transformer, the voltage divider capacitor must be disassembled. If disassembly is not feasible at the site due to product structural constraints, the induced voltage withstand test may be omitted.
  2. The measurement of no-load current and excitation curve for electromagnetic voltage transformers shall comply with the following requirements:
    1. Typically, excitation curve measurement points are set at 20%,50%,80%,100%, and 120% of the rated voltage. For voltage transformers with directly grounded neutral points (N-terminal grounded), the maximum measurement point is 190% for transformers rated at 35 kV or below, and 150% for transformers rated at 66 kV or above.
    2. At the rated voltage measurement point (100%), the excitation current shall not exceed 30% of the measured values specified in the factory test report and type test report. For voltage transformers of the same batch, model, and specification, the excitation current at this point shall not differ by more than 30%.
III. Scope of Product Application
  • Testing of the induced withstand voltage and no-load current characteristics for electromagnetic voltage transformers rated at 1.35 kV and below;
  • Inductive withstand voltage test for distribution transformers of 2.10 kV and below (requires an intermediate excitation test transformer);

The induced voltage withstand test for transformers and current transformers is a critical procedure ensuring product quality complies with national standards. The longitudinal insulation induced voltage withstand tests for windings—including inter-turn, inter-layer, inter-segment, and inter-phase insulation—are essential components of insulation testing. These tests employ a frequency multiplier power supply to apply test voltages and conduct withstand evaluations. Our company's multi-frequency induced voltage withstand testing system features manual and automatic voltage escalation capabilities, a color touchscreen interface, and versatile functionality, effectively meeting the requirements for transformer and current transformer insulation withstand testing. It is capable of performing induced voltage withstand tests, as well as excitation characteristic, no-load current, and power (no-load loss) measurements for electromagnetic voltage transformers up to 220 kV.

IV. Main Technical Parameters
Parameter Value
Capacity 10kVA
Input voltage single-phase AC 220V ±10% or three-wire AC 380V
Power frequency 50 Hz
Output voltage 0–400 V
Output frequencies 50Hz, 100Hz, 150Hz, 200Hz (or any manual output setting)
Waveform distortion rate Pure sine wave, distortion rate ≤2%
Minimum voltage resolution 0.1 V
Minimum current resolution 0.01 A
Voltage and current accuracy Voltage ±1%, Current 0.5%
Overcurrent protection range 0A–50A
Overvoltage protection range 0V–520V
Test time range 任意
Working time 30 minutes (at rated full load)
Protection Device Equipped with multiple protection and alarm functions including overvoltage, overcurrent, overload, and overheating protection.
Operating noise ≤40 dB
Ambient temperature -30ºC to +40ºC
Operating temperature 0℃ to 45℃
Relative humidity 0–90% (non-condensing state)
V. Main Performance Features

The Multi-frequency Induction Voltage Withstand Comprehensive Tester employs cutting-edge power electronics technology and advanced electronic components, with its core internal unit featuring a novel vector-based high-performance frequency converter. It offers features such as parameter presetting, reliable protection, frequency selection, and automatic voltage regulation control. Equipped with the latest human-machine interface and touchscreen operation, it enables automatic data saving and printing. The device incorporates a high-speed computer and an 8-inch color touchscreen display, supporting data storage capacity of up to 1,000 sets.

  1. The system supports preset test frequencies of 50Hz, 100Hz, 150Hz, and 200Hz (or manual frequency selection for flexible output), enabling fully automated testing or touch-controlled voltage adjustment with real-time coarse/fine step adjustments available at 1V,2V,5V, and 10V. This configuration facilitates convenient multi-frequency induction withstand voltage tests for current transformers.
  2. The no-load current excitation characteristic parameters of the current transformer can be tested (by applying a 50 Hz voltage to the low-voltage side as required; typical measurement voltages are 20%,50%,80%,100%, and 120% of the low-voltage winding's rated value, with a maximum of 190%, and other measurement points can be set arbitrarily). This allows for the plotting of the excitation characteristic curve and no-load losses, which can then be saved and printed.
  3. The built-in LC filter circuit ensures that the waveform distortion rate remains within the specified range.
  4. Compared to the operating principle of traditional three-phase five-column triple-frequency generators, this product offers distinct advantages:
    • Pure sine wave output, free from the harmonic interference present in traditional electromagnetic triple-frequency outputs;
    • Compact and lightweight design for easy portability, making it particularly suitable for field testing operations.
    • It not only generates triple frequency but also produces experimental voltage outputs at 1-,2-,3-, and 4-fold frequencies.
    • The human-machine interface features user-friendly operation and robust multi-layer protection, significantly reducing on-site labor intensity.
    • Fully automated testing with data save and print capability; or export to USB drive for editing and printing of test reports (optional feature).
VI. Product completeness (The high-voltage monitoring voltage divider requires separate customization)
  1. One multi-frequency induction voltage withstand tester
  2. 1 power input cable
  3. 2 output test lines
  4. 1 grounding wire
  5. One copy of the Factory Inspection Report
  6. Product Manual: 1 copy
  7. 1 copy of the product qualification certificate