EN
GDUP-6000 Pure Sine Wave Field AC Test Power Supply
GDUP-6000 Digital Intelligent Pure Sine Wave Field AC Test Power Supply with 3000W Continuous Output, Multi-Voltage DC/AC/USB Ports, 109.2Ah Lithium Battery, for On-Site Electrical Test and Emergency Power.
- Description
- Specifications
- Applications
- Advantages
- FAQ
- Recommended Products
Description
GDUP-6000 is a professional high-power portable pure sine wave field AC test power supply designed for on-site electrical testing, equipment maintenance and emergency power supply in substations, power plants, transmission lines, industrial sites and remote areas without mains electricity. It strictly complies with GB/T 42008-2022, DL/T 2213.1-2021 and IEC 61010-1:2010 standards, adopting advanced SPWM (Sinusoidal Pulse Width Modulation) inverter technology that provides clean, stable pure sine wave output with ≤1% total harmonic distortion (THD), suitable for powering sensitive electrical test equipment.
The instrument features 3000W continuous output power and 6000W peak power, capable of driving most electrical test instruments and tools. Its built-in 51.8V/109.2Ah high-capacity lithium iron phosphate battery provides up to 10 hours of continuous power supply for typical test equipment. It supports multi-voltage output including 220V AC, 12V DC, 24V DC, 48V DC and 5V USB, meeting the power requirements of various devices. The intelligent digital display shows real-time battery level, input/output power and remaining working time.
Specifications
| Parameter | Specification |
|---|---|
| Compliance Standards | GB/T 42008-2022, DL/T 2213.1-2021, IEC 61010-1:2010, GB/T 14715-2017 |
| Inverter Technology | SPWM (Sinusoidal Pulse Width Modulation) |
| Output Waveform | Pure sine wave |
| AC Output Parameters | |
| Rated Continuous Power | 3000W |
| Peak Power | 6000W |
| Output Voltage | 220V±1% AC (standard); 110V±1% AC (optional) |
| Output Frequency | 50Hz±0.01Hz (standard); 60Hz±0.01Hz (optional) |
| Total Harmonic Distortion (THD) | ≤1% (linear load); ≤3% (non-linear load) |
| Voltage Regulation | ±1% |
| Frequency Regulation | ±0.01Hz |
| AC Output Sockets | 3×10A universal sockets |
| DC Output Parameters | |
| 12V DC Output | 12V±0.5V, 10A max |
| 24V DC Output | 24V±1V, 20A max |
| 48V DC Output | 48V±2V, 50A max |
| USB Output | 2×5V/2A (QC3.0 fast charging) |
| Battery Parameters | |
| Battery Type | Lithium iron phosphate (LiFePO4) |
| Battery Capacity | 51.8V/109.2Ah (5.67kWh) |
| Cycle Life | >1000 cycles (70% capacity retention) |
| Self-Discharge Rate | <5% per month (25℃) |
| Charging Parameters | |
| AC Charging Input | 160V~260V AC, 50/60Hz |
| AC Charging Current | 10A max |
| Full Charge Time | 7~8 hours |
| Optional Charging | Car charging (12V/24V), solar charging (58.8V/15A max) |
| Display & Control | |
| Display Type | Intelligent digital LCD display |
| Displayed Parameters | Battery voltage, current, power, remaining capacity, working time |
| Control Mode | Intelligent microcomputer control |
| Protection Functions | Over-voltage, under-voltage, over-current, over-load, over-temperature, short-circuit, reverse polarity, low battery |
| Special Functions | Cascade expansion, LED emergency lighting, battery level indication |
| Operating Temperature | -20℃ ~ +50℃ |
| Storage Temperature | -30℃ ~ +60℃ |
| Humidity | 0% ~ 90% RH (non-condensing) |
| Dimensions (L×W×H) | 550×400×300mm |
| Weight | ~35kg (including battery) |
| Enclosure | Rugged aluminum alloy with wheels and handle |
Applications
Core Application Scenarios
- Power industry: Substation on-site test, transmission line maintenance, power equipment repair
- Industrial field: Factory equipment maintenance, construction site power supply, remote monitoring station power
- Emergency response: Disaster relief, emergency communication, medical rescue, fire fighting
- Outdoor activities: Field exploration, camping, outdoor filming, mobile office
- New energy: Photovoltaic power plant commissioning, wind farm maintenance, energy storage system test
Typical Powered Equipment
- Electrical test instruments: Relay testers, transformer testers, insulation testers, power quality analyzers
- Power tools: Drills, grinders, saws, air compressors
- Communication equipment: Radios, laptops, mobile phones, satellite phones
- Lighting equipment: LED lights, floodlights, emergency lights
- Medical equipment: Portable medical devices, oxygen concentrators
Advantages
Compliance with Latest Industry Standards
Fully meets GB/T 42008-2022, DL/T 2213.1-2021, IEC 61010-1 → ensures safe and reliable operation of sensitive test equipment
Industry-Leading Pure Sine Wave Output
≤1% THD, clean and stable power → no interference with precision test instruments, ensures accurate test results
Large-Capacity Long-Lasting Battery
5.67kWh total energy, up to 10 hours continuous operation → meets the needs of all-day on-site testing without mains electricity
Comprehensive Multi-Voltage Output
AC/DC/USB multi-voltage ports → one power supply meets the power requirements of all devices
Intelligent Cascade Expansion Function
Supports multiple units cascading → unlimited power capacity expansion, meets high-power and long-time power needs
FAQ
Q: What is the difference between pure sine wave and modified sine wave power supplies?
A: Modified sine wave power supplies produce a square wave with stepped edges, which can cause interference, overheating and even damage to sensitive electronic equipment such as test instruments, computers and medical devices. Pure sine wave power supplies produce a smooth, continuous waveform identical to mains electricity, ensuring safe and reliable operation of all types of equipment. GDUP-6000 provides pure sine wave output with ≤1% THD, making it ideal for powering precision test instruments.
Q: How long can GDUP-6000 power typical test equipment?
A: The working time depends on the power consumption of the connected equipment. For example:
- A 100W relay tester: ~50 hours
- A 300W transformer tester: ~17 hours
- A 1000W power quality analyzer: ~5 hours
- A 3000W load: ~1.5 hours
The intelligent display shows real-time remaining working time based on current power consumption.
Q: Can multiple GDUP-6000 units be connected together?
A: Yes. GDUP-6000 supports cascade expansion function. Multiple units can be connected in parallel to increase total power capacity and extend working time. The units automatically synchronize and balance the load, ensuring stable and reliable operation.
