TIL-3000 Three Phase Inductive Load
Three-Phase Inductive Load Bank for Testing Industrial Systems, Motors, and Transformers
₦950000.00
Applications:
Industrial Motor Testing:
Simulates inductive loads typically encountered by industrial motors, allowing for comprehensive motor performance testing.
Transformer Testing:
Ideal for testing transformers under real inductive load conditions to ensure their operation and reliability in the field.
Power Supply Testing:
Used to test three-phase power supplies under inductive loads, ensuring they can handle reactive components like transformers and motors.
HVAC and Industrial Equipment Testing:
Simulates inductive loads from HVAC systems and other industrial machinery that use three-phase motors and equipment.
Research and Development:
Used in R&D to develop and test new inductive components and equipment, including transformers, induction motors, and reactive elements.
Specifications:
Power Rating: 3000W (per phase)
Input Voltage: 380V AC (three-phase)
Frequency: 50Hz / 60Hz
Load Type: Inductive (designed for testing systems that operate under inductive load conditions, such as motors and transformers)
Inductance Range: Adjustable for various testing scenarios
Cooling: Fan-cooled to ensure proper heat dissipation during continuous operation
Dimensions: Compact design for integration into testing environments
Weight: Approximately 25–35 kg (depending on specific configuration)
Features:
Three-Phase Inductive Load: Specifically designed for testing three-phase systems under inductive load conditions, commonly found in industrial equipment.
Adjustable Load Settings: Provides flexibility to simulate different inductive load conditions, including various levels of inductance and power factor adjustments.
High Efficiency: Optimized for minimal power loss, ensuring accurate and reliable testing of electrical systems under inductive loads.
Easy Integration: Compact and portable design, making it suitable for integration in laboratories, industrial environments, or test stations.
Power Factor Control: Adjustable power factor control, providing the ability to simulate various real-world inductive load scenarios.