WVC-1200 (Wireless) Using IP65 waterproof streamline design, Can effectively prevent rainwater on the surface erosion, Built-in high-performance Maximum Power Point Tracking(MPPT)Function,Better able to track changes in the solar luminosity and control different output power, Effectively capture and collect sunlight. AC electric power transmission using the reverse transmission technology, Is one of our patented technology, The inverter output power can provide load priority use, Extra electricity to the grid, Efficient use of the inverter to the power emitted, Electricity transmission rate of up to 99%.Communication:The the inverter communicates with the collector using the wireless communication 433/462 MHz mode, and the collector communicates with the computer using the RS232 serial port mode. Intelligent monitoring system can collect real-time inverter data, can control the inverter boot/shut down/power adjustment function.
• High performance maximum power point tracking (MPPT)
• Reverse power transmission
• Intelligent monitoring management
• Input /output is fully isolated to protect the electrical safety
• Multiple parallel stacking
• Digital control system
• Simplify maintenance (user serviceable)
• Operation and maintenance costs low
• Flexible installation
• Use the wireless 433/462 MHz communication mode
①PV Panel Input 1
②PV Panel Input 2
③PV Panel Input 3
④PV Panel Input 4
⑤AC Input(Connect to the Previous)
⑥AC Output(Connect to the Next)
⑦433/462 MHz Wireless Line
⑧LED Display
A:Inverter is only accept AC input, but solar inverter not only accept AC input but also can connect with solar panel to accept PV input, it more save power.
Q:What's the solar pumping inverters?
A:Advanced solar pumping inverters convert DC voltage from the solar array into AC voltage to drive submersible pumps directly without the need for batteries or other energy storage devices. By utilizing MPPT (maximum power point tracking), solar pumping inverters regulate output frequency to control the speed of the pumps in order to save the pump motor from damage.
Q:How to choose the right inverter for your solar system, string inverter or central inverter?
The decision on whether to use a central inverter or string inverters needs to be made on a case-by-case basis taking into account primarily two elements: (1) total system cost (including space constraints) and (2) total energy production.
Total System Cost:Notice that the first consideration, total system cost, is not the same as comparing the cost of the central inverter to the cost of the aggregate number of string inverters needed to handle the same production of electricity. Here are the primary pros and cons related to system cost:
Inverter Type | Pros | Cons |
Central Inverters | Lower DC watt unit cost. Fewer component connections. | Higher installation cost. Higher DC wiring and combiner costs. Larger inverter pad footprint. |
String Inverters | Lower balance of systems costs. Lower ongoing maintenance costs. Simpler design and modularity; ideal for limited inverter pad spaces. | Higher DC watt unit cost. More inverter connections. Requires more distributed space to mount inverters. |
Total Energy Production: The efficiency of string inverters versus central inverters is essentially a wash, string inverters often may be slightly more efficient, but the difference is often negligible. Other key inverter differentiations related to system production are set forth below:
Inverter Type | Pros | Cons |
Central Inverters | Optimal for large systems where production is consistent across arrays. Proven field reliability. | Less optimal for systems with different array angles and/or orientations. |
String Inverters | Modularity of string inverters is better for systems with different array angles and/or orientations. Fewer arrays are impacted with one inverter failure. | Newer and less field-tested product. |