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IMAX3512-120KW
EMAX
Product Description:
The 120KW-RLC Load Bank for Anti-Islanding Test is an essential tool designed for rigorous testing and verification of distributed generation systems, particularly solar photovoltaic (PV) inverters. Engineered to simulate real-world electrical conditions, this load bank is crucial in ensuring the safety and reliability of grid-tied systems by effectively testing their anti-islanding protection features.
The 120KW-RLC Load Bank is primarily used in the following applications:
Testing and Certification of PV Inverters: Ensures compliance with international standards for anti-islanding protection.
Utility Grid Maintenance: Supports utilities in maintaining grid stability by simulating load conditions.
Research and Development: Aids in the development of new inverter technologies and improving existing ones.
Educational Purposes: Used in academic institutions for training and experimentation with real-world electrical systems.
To ensure optimal performance and accuracy of the 120KW-RLC Load Bank, the following conditions should be met:
Proper Ventilation: The load bank should be placed in a well-ventilated area to prevent overheating.
Stable Power Supply: A consistent and stable power supply is necessary to avoid interruptions during testing.
Regular Maintenance: Periodic checks and maintenance are recommended to ensure the load bank remains in peak condition.
Trained Personnel: Operation should be conducted by trained technicians to ensure accurate and safe testing procedures.
By investing in this advanced testing equipment, you are not only ensuring the quality of your products but also contributing to the overall reliability and safety of the power grid.
Product Description:
The 120KW-RLC Load Bank for Anti-Islanding Test is an essential tool designed for rigorous testing and verification of distributed generation systems, particularly solar photovoltaic (PV) inverters. Engineered to simulate real-world electrical conditions, this load bank is crucial in ensuring the safety and reliability of grid-tied systems by effectively testing their anti-islanding protection features.
The 120KW-RLC Load Bank is primarily used in the following applications:
Testing and Certification of PV Inverters: Ensures compliance with international standards for anti-islanding protection.
Utility Grid Maintenance: Supports utilities in maintaining grid stability by simulating load conditions.
Research and Development: Aids in the development of new inverter technologies and improving existing ones.
Educational Purposes: Used in academic institutions for training and experimentation with real-world electrical systems.
To ensure optimal performance and accuracy of the 120KW-RLC Load Bank, the following conditions should be met:
Proper Ventilation: The load bank should be placed in a well-ventilated area to prevent overheating.
Stable Power Supply: A consistent and stable power supply is necessary to avoid interruptions during testing.
Regular Maintenance: Periodic checks and maintenance are recommended to ensure the load bank remains in peak condition.
Trained Personnel: Operation should be conducted by trained technicians to ensure accurate and safe testing procedures.
By investing in this advanced testing equipment, you are not only ensuring the quality of your products but also contributing to the overall reliability and safety of the power grid.
No | Project | Technical Indices |
1 | Model | IMAX3512-120kW |
2 | Name | AC RLC load bank |
3 | Rated Voltage | AC400V(△-Triangle) |
4 | Phase | Three-Phase |
5 | Resistive power | 120kW |
6 | Inductive power | 120kVar |
7 | Capacitive power | 120kVar |
8 | Switching method | Manually switch through external copper bars |
9 | Control method | 1. Three phases can be independently adjustable; 2. Independently adjustable resistive capacitance; 3. Power adjustment can be automatically performed through software |
10 | PF | 1 |
11 | Rated frequency | 50Hz |
12 | Characteristic | RLC load bank |
13 | Step | min 10W, max 50kW |
14 | Protection alarm | Short circuit protection, overcurrent protection, overvoltage protection, fan air volume protection, door limit protection, high temperature fault, emergency stop and other protection functions. |
15 | Measurement and control parameters | Display three-phase voltage, three-phase current, active power, reactive power, apparent power, power factor, frequency and other basic functions |
16 | Adjusting accuracy | 1W/1Var |
17 | Adjusting step size | 10W/10Var |
18 | Chassis Structure | Cabinet type |
19 | mode of transport | With brake casters and handles |
20 | way of working | Continuous operation |
21 | Lighting | There are explosion-proof lighting and power sockets inside the box, signal indicator lights at the back of the box, and alarm lights outside the control room. |
22 | Noise | ≤80dB |
23 | Cooling method | orced air cooling (air enters from the side and exhausts the air); the top faces the rear |
24 | Insulation level | F |
25 | Display Accuracy | 0.5 |
26 | way to control | Touch screen manual control/host computer control: reserved Ethernet/RS485 access to remote system control. |
27 | Weight | 1100kg |
28 | Dimensions | L1500mm× W1200mm× H1800mm |
29 | Load bearing requirements | ≥550kg/m² |
30 | Cabinet color | RAL7035 |
No | Project | Technical Indices |
1 | Model | IMAX3512-120kW |
2 | Name | AC RLC load bank |
3 | Rated Voltage | AC400V(△-Triangle) |
4 | Phase | Three-Phase |
5 | Resistive power | 120kW |
6 | Inductive power | 120kVar |
7 | Capacitive power | 120kVar |
8 | Switching method | Manually switch through external copper bars |
9 | Control method | 1. Three phases can be independently adjustable; 2. Independently adjustable resistive capacitance; 3. Power adjustment can be automatically performed through software |
10 | PF | 1 |
11 | Rated frequency | 50Hz |
12 | Characteristic | RLC load bank |
13 | Step | min 10W, max 50kW |
14 | Protection alarm | Short circuit protection, overcurrent protection, overvoltage protection, fan air volume protection, door limit protection, high temperature fault, emergency stop and other protection functions. |
15 | Measurement and control parameters | Display three-phase voltage, three-phase current, active power, reactive power, apparent power, power factor, frequency and other basic functions |
16 | Adjusting accuracy | 1W/1Var |
17 | Adjusting step size | 10W/10Var |
18 | Chassis Structure | Cabinet type |
19 | mode of transport | With brake casters and handles |
20 | way of working | Continuous operation |
21 | Lighting | There are explosion-proof lighting and power sockets inside the box, signal indicator lights at the back of the box, and alarm lights outside the control room. |
22 | Noise | ≤80dB |
23 | Cooling method | orced air cooling (air enters from the side and exhausts the air); the top faces the rear |
24 | Insulation level | F |
25 | Display Accuracy | 0.5 |
26 | way to control | Touch screen manual control/host computer control: reserved Ethernet/RS485 access to remote system control. |
27 | Weight | 1100kg |
28 | Dimensions | L1500mm× W1200mm× H1800mm |
29 | Load bearing requirements | ≥550kg/m² |
30 | Cabinet color | RAL7035 |