GROADA AC415V 36kW Three-Phase RLC Load Bank

Product Overview

The GROADA AC415V 36kW Three-Phase RLC Load Bank is a high-performance testing solution designed to simulate real-world electrical loads. By combining resistive (R), inductive (L), and capacitive (C) components, this load bank provides accurate power factor adjustment (lagging and leading) to ensure reliable performance verification of generators, UPS systems, inverters, battery storage units, and data center power infrastructures.

Key Technical Specifications

• Rated Power: 36 kW

• Input Voltage: AC 415V, three-phase

• Load Types: R, L, C combinations; adjustable power factor (0 to 1.0, leading/lagging)

• Control System: Advanced digital controller with local touchscreen and remote monitoring via Ethernet/RS485

• Measurement Parameters: Voltage, current, active power, reactive power, frequency, and power factor

• Safety Features: Overload protection, overtemperature alarm, short-circuit protection, fan failure detection

• Construction: Rugged cabinet design with stainless-steel resistive elements, anti-corrosion finish, and enhanced cooling system

Why RLC Load Banks Matter

RLC load banks replicate real electrical conditions that equipment faces in the field.

• Resistive Loads (R): Simulate heaters, lighting, or other purely active loads.

• Inductive Loads (L): Create lagging reactive power to replicate motors and transformers.

• Capacitive Loads (C): Create leading reactive power to simulate capacitor banks or PF correction systems.

• Adjustable Power Factor: Accurately test electrical equipment performance under varying PF conditions, ensuring compliance and reliability.

By reproducing these load conditions, operators can validate voltage stability, frequency response, fault behavior, and system compatibility before deploying equipment in critical facilities.

Applications

• Data Centers & Telecom Facilities: Full-load UPS and backup generator validation to prevent downtime.

• Power Generators: Performance verification under resistive and reactive loads, ensuring efficiency and stability.

• Renewable Energy & Inverters: Simulate variable loads for solar and wind power systems, testing grid compliance.

• Industrial Facilities: Commissioning and testing of heavy machinery, switchgear, and backup power supplies.

Industry Insights & Market Data

The global load bank market is expanding rapidly, driven by the growth of data centers, renewable energy projects, and industrial power infrastructure.

• The market size was valued at USD 278 million in 2024 and is projected to reach USD 445 million by 2034, with a CAGR of 4.8%.

• According to Fortune Business Insights, the global market is expected to grow to USD 387 million by 2032, at a CAGR of 3.7%.

• Regional growth: North America is estimated at USD 72 million in 2024, projected to reach USD 93 million by 2030 (CAGR 4.3%).

• Emerging technologies include modular load banks, automated testing systems, digital monitoring, and energy recovery solutions.

These trends highlight the critical role of advanced load testing solutions like the GROADA RLC Load Bank in modern power systems.

Customer Success Stories

XYZ Data Center (USA):
Implemented GROADA RLC Load Banks to conduct UPS and backup generator validation. The result was stable power transition under full load, improving uptime reliability.

ABC Renewable Energy (Germany):
Deployed GROADA Load Banks to test wind and solar inverters under variable PF conditions, ensuring grid compliance and optimized energy output.

Competitive Advantages

• Accurate Simulation: Realistic RLC load conditions with PF adjustment (leading/lagging).

• Advanced Monitoring: Digital control system with real-time data acquisition.

• High Safety Standards: Multiple protection layers for safe operation under heavy loads.

• Customizable Solutions: Power ratings, cooling systems, and enclosures tailored to customer needs.

• Proven Reliability: Trusted by clients in North America, Europe, and Asia.