RPS-7000
The RPS-7000 is a high-performance power simulation and testing system for the new energy industry. It features a full four-quadrant regenerative AC/DC power source that can operate as a current source or load . With 6kVA/kW to 18kVA/kW per unit, up to three systems can be paralleled for 54kVA/kW.
Empowering new energy testing
Constant Power and High Current output
The RPS-7000 Series offers a versatile range of power capacities, including 6, 9, 12, 15, 18, and 22.5 kVA. Utilizing next-generation SiC MOS technology, it supports phase voltages up to 400 VL-N and line voltages up to 690 VL-L for high-voltage applications like wind power systems. Its constant power output capability ensures high current at low voltages and low current at high voltages, eliminating the need for manual range switching and maximizing testing efficiency.
Compared to floor-standing products (such as the RPS-5000 series), which have advantages in volume, thermal management, and system architecture cost, the rack-mounted version of the RPS-7000 offers benefits in terms of power density, compactness, and standard rack compatibility. It is suitable for laboratory and medium-to-low power applications.
Main specifications and applications
In the rapidly evolving AI data center market, the RPS-7000 serves as the ultimate Programmable AC Source for rigorous Power Shelf testing. Our system delivers stable, high-fidelity Dual Vac Input to simulate real-world grid conditions for critical AI infrastructure.
- High-Order Harmonic Synthesis: Supports up to 50th order harmonics to evaluate Power Shelf resilience.
- OVP & Performance Verification: Integrates with DC sources and electronic loads to conduct comprehensive Over Voltage Protection (OVP) and efficiency tests.
- Intelligent Monitoring: Supports multiple communication protocols including CAN and PMBus.
KEY FEATURES
- Output Power: 6 kVA – 18 kVA; 22.5 kVA (Optional)
- Output Voltage: 0 – 350 V; 0 – 400 V (Optional)
- Frequency: DC, 15– 100 Hz; 15 – 1500 Hz (Optional)
- Maximum current increased by 35%
- Key component cooling efficiency + 20%
- Parallel connection for high power capacity
- Output Modes: Single-phase, three-phase, or split-phase (up to 200% of rated voltage)
- Three Operating Modes: Constant Voltage, Constant Current, and Constant Power
- LIST, STEP, PULSE, and TRANSIENT modes
- Arbitrary Waveform Editing & Power Line Disturbance (PLD) Simulation
- Harmonic disturbance/waveform superposition
- Harmonic Analysis: Voltage and current measurements up to the 50th harmonic
- Compliant with Grid Connection Standards such as LVRT, Phase Shift, Frequency Variation, Harmonic Injection
- Standards Compliance: IEC 61000 -3-2/-3-3/-3-11/-3-12/-4-11/-4-13/-4-14/-4-28/-4-34 testing
- Interfaces Supported: USB, LAN, GPIB, CAN, and Std I/O
Applications
- AI server, Data center, and HDVC applications
- EV chargers, BOBC, V2G, V2H, V2X, EV charging cables and components
- Solar PV inverters, grid-connected inverters, and wind power systems
- Industrial and residential Energy Storage Systems (ESS), Power Conversion Systems (PCS)
- Uninterruptible Power Supplies (UPS) and Power Distribution Units (PDUs)
- Regulatory Testing: IEEE 1547, UL 1741, IEC 62116, etc.
- Micro-grid Testing, PHIL (Power Hardware-in-the-Loop), and Anti-Islanding Protection.
Core Technology Highlights
Unmatched Capacity
Delivers a formidable 22.5kVA of power within a compact 3U rack space , representing a 20%+ increase in power density over industry competitors.
Modular & Scalable Architecture
Built on a modular platform allowing up to 3 units in parallel to reach 54kVA. Integrated calibration data within modules ensures rapid maintenance and N+1 redundancy for mission-critical reliability.
High-Precision Simulation & Analysis
Features advanced 50th-order harmonic synthesis and quantitative analysis. Perfectly suited for simulating complex grid environments for EV chargers, AI servers, and renewable energy sectors.
Superior Current Performance
Supports peak single-phase currents up to 48A / 144Arms. AC current capacity is increased by 35% , complemented by full-rated 100% DC power output.
Low Power Standby Architecture
Optimized control circuits and cooling systems automatically transition to low-current states during standby to minimize power draw.
Acoustic Excellence
RPS-7000 maintains a noise profile below 80 dB even at full capacity. By boosting thermal efficiency by 20% , it delivers unwavering measurement stability while ensuring a serene, high-productivity workspace for engineers
48A in a 3U Footprint
Within the same 3U footprint, we deliver not only 22.5 kVA of power but also an industry-leading 1.4x output current (48A).
Single Unit Output (vs. 35A Industry Std).
Compact Rack Height with 22.5kVA Capacity.
Comprehensive Simulation Capabilities
Supports up to 50th-order harmonic synthesis and various waveform editing modes to accurately simulate power line disturbances (PLD) and arbitrary waveforms. Additionally, it ensures comprehensive regulatory compliance with built-in test modes for international standards such as IEC 61000 and LVRT.
Voltage Dip (Step mode)
Surge (Pulse Mode)
Harmonic Distortion (Synthesis Mode)
Seamless Parallel Capability
Massive Scaling: Up to 45kVA Total Capacity
The RPS-7000 series is built for growth. By leveraging our precision parallel technology, you can easily combine three 15kVA units to reach a 45kVA total capacity.
This modular scalability allows you to expand your testing power as project demands increase, without sacrificing rack space or measurement accuracy.
AIOT Intelligent Predictive Maintenance
Beyond Power Testing: Real-time Health Monitoring and ESG Data Visualization at Your Fingertips.
- PowerSense AI:
Real-time health monitoring analyzes behavioral deviations. - Predictive Preventive Service (PPS):
Identifies hidden risks before failure occurs. - Result:
Increases equipment availability to 95%+.
Empowering AI Data Centers: Power Shelf Test Architecture
Next-Generation Power Shelf Validation with RPS-7000
Test Application Coverage (Ver.A)
| Application Sector | Solution Focus | RPS-7000 Advantage |
EV / BOBC Testing | Bi-directional charging | 90% Energy Recovery (V2G/V2L) |
AI Data Centers | High-density Power Shelves | 50th Order Harmonic Synthesis |
Renewable Energy | Solar/ESS Inverter Verification | Grid Simulation & 1500Hz Wideband |
Compliance Labs | IEC Regulatory Standards | Built-in IEC 61000 Test Suites, including IEC 61000-4-11, 4-13, 4-14, 4-28, and 4-34 |
Test Application Coverage (ver.B)
Advanced Power Simulation & Measurement
Selection Guide
Intelligent Controller & Software Specifications
Control Interface (PowerVue): Intuitive PC-based GUI for remote control, waveform monitoring, and complex sequence editing (LIST/PULSE/STEP).
AIoT Predictive Maintenance (PowerSense AI): Real-time health monitoring and behavioral deviation analysis to ensure 95%+ equipment availability.
PPS (Predictive Preventive Service): Automated risk identification and maintenance alerts for critical components like fans and modules.
ESG Monitoring: Integrated dashboard for real-time CO₂ reduction tracking and energy efficiency visualization.
Power Source & Performance Specifications
Output Frequency: DC, 15 to 1500 Hz (Optional wideband support).
Power Capacity: High-density architecture delivering 22.5 kVA per 3U unit.
Energy Regeneration: Features a full four-quadrant regenerative AC/DC source, feeding up to 90% of energy back to the grid to reduce TCO.
Output Current: Reaching up to 48A (3Φ) / 144A (1Φ) in a single 3U chassis.
Parallel Capability: Supports up to three units in parallel for a total system capacity of 67.5 kVA.
Load Compatibility: Designed for complex loads, including RCD, Inductive, and Capacitive loads.
Mechanical & Operational Specifications
Form Factor: Compact 3U rackmount chassis for all power levels (6kVA to 22.5kVA).
Cableless Architecture: Innovative integrated internal busbar design (cableless) to minimize EMI, reduce heat fatigue, and boost cooling efficiency by 20%.
Acoustic Noise: Intelligent temperature-controlled fan logic maintaining noise levels < 80 dB even at full load operation.
Eco-Friendly Standby: Smart Sleep Mode technology reducing standby power consumption by 67% (approx. 1.18 kVA) during inactivity.
Together, we make a difference.
In the testing of new energy equipment, stability and reliability are crucial. Infilin relies on the design verification of the world's leading brands and the quality assurance of world-class smart manufacturing plants to provide you with test power solutions that can stand the test of time. Join us to help you meet stringent product performance and compliance requirements with the highest quality power support, and drive a sustainable production future!