All Products
HV510 380V VFD Drive Air Cooling Variable Frequency Drive for Smooth and Stable Operation
| Place of Origin | China |
|---|---|
| Brand Name | COENG |
| Certification | EC |
| Model Number | HV510 |
| Minimum Order Quantity | 1 |
| Packaging Details | Carton, plywood case |
| Delivery Time | 10-30working days |
| Payment Terms | L/C, T/T, Western Union |
| Supply Ability | 20000/sets |
Contact me for free samples and coupons.
WhatsApp:0086 18588475571
Wechat: 0086 18588475571
Skype: sales10@aixton.com
If you have any concern, we provide 24-hour online help.
xProduct Details
| Input Voltage | 380V (-15%) - 480V (+10%), Three-phase | Input Power Frequency | (50Hz/60Hz)±5% |
|---|---|---|---|
| Input Voltage Imbalance | ≤3% | Output Voltage | 0V-input Voltage |
| Output Frequency | 0Hz-1500Hz | Protection Rating | IP20 |
| Cooling Method | Air Cooling | Humidity | 15%-95%, No Condensation |
| Highlight | 380V VFD Drive,Air Cooling VFD Drive,Air Cooling Variable Frequency Drive |
||
Product Description
HV510 Inverter: Functions and Advantages
The HV510 inverter is a high-performance inverter designed for various applications, particularly in solar energy systems. Here’s an overview of its key functions and advantages:
Key Functions
-
High Efficiency Conversion:
- The HV510 inverter converts DC (direct current) from solar panels into AC (alternating current) with high efficiency, typically exceeding 95%. This maximizes energy yield from the solar array.
-
Grid-Tied Operation:
- It is designed for grid-tied applications, allowing excess energy generated to be fed back into the grid, which can result in financial benefits through net metering.
-
Advanced MPPT Technology:
- The inverter features Maximum Power Point Tracking (MPPT), optimizing the power output from solar panels by adjusting the electrical operating point of the modules.
-
Monitoring and Communication:
- Equipped with monitoring capabilities, the HV510 allows users to track performance metrics in real-time via a mobile app or web interface, facilitating efficient energy management.
-
User-Friendly Interface:
- The inverter typically includes an intuitive interface for easy setup and operation, making it accessible for both installers and end-users.
-
Multiple Input Channels:
- It supports multiple input channels, allowing for flexible configurations and the ability to connect various solar panel arrays.
Advantages
-
Cost-Effective:
- By maximizing energy production and enabling grid feed-in, the HV510 helps reduce electricity costs and can provide a fast return on investment.
-
Robust Design:
- Built to withstand harsh environmental conditions, the HV510 is often designed with enhanced durability and protection features, such as IP65 or higher ratings for dust and water resistance.
-
Scalability:
- The inverter can be easily integrated into larger solar systems, making it suitable for residential, commercial, and industrial applications.
-
Enhanced Safety Features:
- Incorporation of safety mechanisms, such as anti-islanding protection and overvoltage protection, ensures safe operation and compliance with local regulations.
-
Support for Energy Storage Systems:
- Some models may offer compatibility with energy storage solutions, allowing users to store excess energy for use during peak demand times or outages.
-
Sustainability:
- By facilitating the use of renewable energy, the HV510 contributes to reducing carbon footprints and promoting sustainability.
Conclusion
The HV510 inverter stands out due to its high efficiency, advanced features, and robust design, making it an excellent choice for various solar energy applications. Its ability to optimize energy production while providing user-friendly monitoring options makes it a valuable component in renewable energy systems.
Variable Frequency Drive Vector Inverter Technical Specification
|
Technical Specification |
||
|
Power |
Input voltage (Uin) |
380V (-15%) - 480V (+10%), three-phase |
|
Input power |
(50Hz/60Hz)±5% |
|
|
Input voltage |
≤3% |
|
|
Output voltage |
0V-input voltage |
|
|
Output frequency |
0Hz-1500Hz |
|
|
Control |
Motor Type |
Asynchronous motor/permanent magnet synchronous motor |
|
Control mode |
V/F, OLVC (open loop vector control), CLVC (closed loop vector control) |
|
|
Speed range |
1:10 V/F; 1:100 OLVC; 1:1000 CLVC |
|
|
Starting torque |
VF: 100% (0.5Hz); OLVC: 150% (0.5Hz); CLVC: 200% (0Hz) |
|
|
Torque precision |
≤±5%, in vector control mode |
|
|
Torque pulsation |
≤±5%, in vector control mode |
|
|
Speed stability |
OLVC: 0.2%; CLVC: 0.1% |
|
|
Torque response |
≤ 5ms, in vector control mode |
|
|
Acceleration/decel |
0.0s~3200.0s; 0.0min~3200.0min |
|
|
Torque boost |
0.0%-30.0% |
|
|
Overload capacity |
G-model: 150% 1min/5min, 180% 3s/5min |
|
|
V/F curve |
Straight-line type, multi-point type, V/F half separation mode, V/F complete separation mode |
|
|
Input frequency resolution |
Digital setting: 0.01Hz; analog setting: 0.01Hz |
|
|
Main |
Acceleration/decel eration curves |
Straight-line, S-curve |
|
Simple PLC, multi-speed reference |
16 speed segments supported through control terminals |
|
|
Automatic voltage regulation (AVR) |
Automatically keeps the output voltage constant when grid voltage varies within a certain range |
|
|
Fixed length control |
Fixed length control |
|
|
Built-in PID |
Easily forms a closed-loop control system |
|
|
Multi-motor switchover |
With 2 sets of motor parameters, the switchover between 2 motors can be realized |
|
|
Virtual IO |
With 8 sets of virtual DI/DO, simple logic control can be realized |
|
|
Overvoltage/overc urrent stall control |
The current and voltage can be automatically limited during operation to prevent frequent trips due to overcurrent and overvoltage |
|
|
Restart after power failure |
The inverter can operate automatically when powering on again after a power failure |
|
|
Fast current limiting |
Frequent overcurrent faults can be avoided |
|
|
Input and |
Frequency reference mode |
Keypad, terminal UP/DOWN, multi-reference, pulse reference, communication |
|
Analog input terminals |
AI1, AI2: 0V-10V/0 (4)mA-20mA |
|
|
Digital input terminals |
DI1-DI5, 5 programmable digital input terminals with opto-isolation, compatible with bothsinking/sourcing inputs. |
|
|
Digital output terminals |
Open-collector output; output voltage range: 0V-24V; current load capacity: 50mA. |
|
|
Analog output terminals |
1-channel 0V-10V/0(4)mA-20mA |
|
|
Relay output |
1-channel Form C contact, NO+NC |
|
|
Corresponde |
Communication protocol |
Modbus RTU (standard configuration); Profibus-DP, CANopen, Profinet IO, Modbus TCP/IP, EtherCAT, EtherNet/IP (optional configuration) |
|
Usage |
Altitude |
≤1000m: no need for derating ; 1000-3000m: with current derating by 1% per 100m increased |
|
Ambient temperature |
-25°C-+40°C (derating is allowed within 40°C-55°C) |
|
|
Humidity |
15%-95%, no condensation |
|
|
Vibration |
3M3, IEC60721-3-3 |
|
|
Storage temperature |
−40°C-+70°C |
|
|
Operating place |
Indoors without direct sunlight, flammable and corrosive gases, liquids and conductive particles, etc. |
|
|
Optional accessories |
Encoder card, communication expansion card, IO expansion card |
|
|
Protections |
Protection against short circuit , overcurrent, overload, overvoltage, undervoltage, phase loss, overtemperature, external faults, etc. |
|
|
Installation method |
Installed in a cabinet |
|
|
Protection rating |
IP20 |
|
|
Cooling method |
Air cooling |
|
Recommended Products