Introduction to High Voltage Pulse Generators

High Voltage Pulse Generators (HVPGs) are critical instruments in electrical and electronic testing, designed to simulate transient overvoltage conditions such as surges, spikes, and electrostatic discharges. These devices ensure the reliability and safety of equipment by subjecting them to standardized high-energy pulses, verifying compliance with international regulations.

El LISUN SG61000-5 Generador de sobretensiones is a precision-engineered instrument that meets IEC 61000-4-5, EN 61000-4-5, and other key standards. It generates high-voltage pulses up to 6 kV and high-current surges up to 3 kA, making it indispensable for evaluating surge immunity in diverse industries.

Technical Specifications of the LISUN SG61000-5 Surge Generator

The SG61000-5 is engineered for high repeatability and accuracy, with the following key specifications:

The generator employs capacitive energy storage and high-speed switching to produce precise surge waveforms, ensuring consistent test conditions.

Principios y metodología de las pruebas

Surge Immunity Testing

The SG61000-5 applies standardized surge pulses to assess equipment resilience against transient disturbances. The test involves:

1. Direct Coupling – Surges are injected directly into power or signal lines.
2. Indirect Coupling – Surges are induced via capacitive or inductive coupling.

The 1.2/50 μs voltage waveform and 8/20 μs current waveform simulate lightning-induced transients and switching surges. Tested equipment must withstand these pulses without malfunction or degradation.

Key Testing Configurations

• Line-to-Line Surge Testing – Evaluates differential mode surges between conductors.
• Line-to-Ground Surge Testing – Assesses common mode surges between conductors and ground.
• Combination Wave Testing – Simultaneously applies voltage and current surges to replicate real-world conditions.

Industry Applications of High Voltage Pulse Generators

1. Lighting Fixtures

Surge testing ensures LED drivers and control circuits withstand power grid disturbances. The SG61000-5 verifies compliance with IEC 61547, which mandates surge immunity for lighting systems in industrial and residential settings.

2. Industrial Equipment

Programmable Logic Controllers (PLCs), motor drives, and automation systems are subjected to surge tests to prevent downtime in manufacturing plants. The SG61000-5’s high-current capability ensures robustness against industrial power fluctuations.

3. Household Appliances

Appliances such as refrigerators, washing machines, and air conditioners must endure voltage surges caused by grid switching. Testing with the SG61000-5 confirms adherence to IEC 60335-1, safeguarding consumer safety.

4. Productos sanitarios

Electrosurgical units, patient monitors, and imaging systems require stringent surge immunity to prevent hazardous failures. Compliance with IEC 60601-1-2 is validated using the SG61000-5’s controlled surge injections.

5. Communication Transmission Equipment

Telecom base stations, routers, and fiber-optic systems are tested for resilience against lightning-induced surges. The SG61000-5’s combination wave testing aligns with ITU-T K.44 requirements.

6. Automotive and Rail Transit Systems

Vehicle control units and railway signaling equipment undergo surge testing to ensure reliability in harsh electrical environments. The SG61000-5 meets ISO 7637-2 and EN 50155 standards.

7. Aerospace and Spacecraft Electronics

Avionics and satellite components are exposed to high-energy transients during launch and operation. The SG61000-5’s precision waveforms simulate these conditions for DO-160 and MIL-STD-461 compliance.

Competitive Advantages of the LISUN SG61000-5

1. High Precision Waveform Generation – Ensures compliance with IEC 61000-4-5 tolerances (±10%).
2. Modular Design – Supports additional coupling/decoupling networks for multi-port testing.
3. Automated Test Sequences – Enables programmable surge counts and intervals for efficiency.
4. Funciones de seguridad robustas – Includes overcurrent protection and grounding interlocks.
5. Broad Industry Compatibility – Validated for use across automotive, medical, and industrial sectors.

Scientific Data and Case Studies

A comparative study of surge generators demonstrated that the SG61000-5 maintains waveform fidelity at 6 kV, outperforming competitors in repeatability (±2% deviation over 1,000 pulses). In medical device testing, it achieved 100% compliance in 50 surge cycles per IEC 60601-1-2.

Sección FAQ

Q1: What standards does the SG61000-5 comply with?

The SG61000-5 meets IEC 61000-4-5, EN 61000-4-5, GB/T 17626.5, and related surge immunity standards.

Q2: Can the SG61000-5 test both AC and DC power lines?

Yes, it supports surge testing on AC (up to 440 V) and DC (up to 250 V) systems with appropriate coupling networks.

Q3: How does the SG61000-5 ensure test repeatability?

Its precision energy storage and triggering mechanism maintain waveform consistency within ±10% tolerance.

Q4: What industries benefit most from surge testing?

Critical sectors include medical devices, automotive electronics, industrial automation, and telecommunications.

Q5: Is the SG61000-5 suitable for high-speed data line testing?

Yes, with additional coupling networks, it can evaluate surge immunity in Ethernet and USB interfaces.

This technical analysis underscores the indispensable role of high-voltage pulse generators in modern electrical validation, with the LISUN SG61000-5 serving as a benchmark for reliability and precision.