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Inverter Hybrid 5kw
# Parallel Function up to maximum 9 units : Enlarge More Loads .
# Communication option: External WIFI, Supervise at Any Time.
# Slim Body, Convenient Installation And Transportation, Cheaper Freight by Air,Sea and Land.
# PF1.0, High Efficiency, Lower consumption : Energy Conservation/Environmental Protection/Electricity Saving/Cost Saving.
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Product Introduction
Shenzhen Benwei Lighting Technology Co., Ltd. is one of the best manufacturers and suppliers of inverter hybrid 5kw in China. Welcome to buy durable products for sale here and get pricelist from our factory. All customized products are with high quality and competitive price.
inverter hybrid 5kw
Feature:
# Parallel Function up to maximum 9 units : Enlarge More Loads .
# Communication option: External WIFI, Supervise at Any Time.
# Slim Body, Convenient Installation And Transportation, Cheaper Freight by Air,Sea and Land.
# PF1.0, High Efficiency, Lower consumption : Energy Conservation/Environmental Protection/Electricity Saving/Cost Saving.
# Support working without battery:Reduce solar system cost and save money.
# High precision of output voltage,±5%,take care of your appliances.
Product Parameters:
| BWGA inverter hybrid 5kw | ||||
| Model | GA3024ML | GA3024MH | GA5048MH | |
| Input | Phase | L+N+PE | ||
| Nominal Voltage | 208/220/230/240VAC | |||
| Voltage Range | 154-264VAC±3V(Normal Mode) 185-264VAC±3V(UPS Mode) | |||
| Frequency Range | 50Hz/60Hz(Adaptive) | |||
| Output | Rated Power | 3000W | 3000W | 5000W |
| Output Voltage(AC) | 208/220/230/240VAC±5% | |||
| Output Frequency | 50/60Hz±0.1% | |||
| Waveform | Pure sine wave | |||
| Transfer Time( Optional) | 10ms for computer , 20ms for home appliances | |||
| Peak power | 6000VA | 6000VA | 10000VA | |
| Overload | Battery Mode: 1min@102%~110% Load 10s@110%~130% Load 3s@130%~150% Load 200ms@>150% Load | |||
| Peak efficiency (battery mode) | >94% | >94% | >94% | |
| Battery | Rated voltage | 24Vdc | 24Vdc | 48Vdc |
| Constant voltage charging voltage (Optional) | 28.2Vdc | 28.2Vdc | 56.4Vdc | |
| Floating charge voltage (Optional) | 27Vdc | 27Vdc | 54Vdc | |
| charger | PV charging method | MPPT | MPPT | MPPT |
| PV max input power | 1500W | 3500W | 5500W | |
| MPPT tracking range | 30~115Vdc | 120~430Vdc | 120~430Vdc | |
| Max PV input voltage | 145Vdc | 450Vdc | 450Vdc | |
| Max PV charging current | 60A | 60A | 80A | |
| Max AC charging current | 60A | 60A | 80A | |
| Max charging current | 120A | 60A | 80A | |
| Display | LCD display | Operating mode/load/input/output, etc. | ||
| Communication port | RS232 | 5PIN/Pitch2.0mm, baud rate 2400 | ||
| Expansion & configuration port | 2×5PIN/Pitch2.54mm, lithium battery BMS communication card, WIFI card, dry contact card, etc. | |||
| Parallel interface | No | Yes | ||
| Environmental parameters | Operating environment temperature | 0~40℃ | ||
| Operating environment humidity | 20%~95%(Non condensing) | |||
| Storage temperature | -15~60℃ | |||
| Altitude | The altitude should not exceed 1000m, derating above 1000m, up to 4000m, refer to IEC62040 | |||
| Noise | ≤50db | |||
| Certifications | EN-IEC 60335-1, EN-IEC 60335-2-29, IEC 62109-1 | |||
GRID SERVICES AND INVERTERS
Grid operators manage electricity supply and demand on the electric system by providing a range of grid services. Grid services are activities grid operators perform to maintain system-wide balance and manage electricity transmission better.
When the grid stops behaving as expected, like when there are deviations in voltage or frequency, smart inverters can respond in various ways. In general, the standard for small inverters, such as those attached to a household solar system, is to remain on during or “ride through” small disruptions in voltage or frequency, and if the disruption lasts for a long time or is larger than normal, they will disconnect themselves from the grid and shut down. Frequency response is especially important because a drop in frequency is associated with generation being knocked offline unexpectedly. In response to a change in frequency, inverters are configured to change their power output to restore the standard frequency. Inverter-based resources might also respond to signals from an operator to change their power output as other supply and demand on the electrical system fluctuates, a grid service known as automatic generation control. In order to provide grid services, inverters need to have sources of power that they can control. This could be either generation, such as a solar panel that is currently producing electricity, or storage, like a battery system that can be used to provide power that was previously stored.
Another grid service that some advanced inverters can supply is grid-forming. Grid-forming inverters can start up a grid if it goes down—a process known as black start. Traditional “grid-following” inverters require an outside signal from the electrical grid to determine when the switching will occur in order to produce a sine wave that can be injected into the power grid. In these systems, the power from the grid provides a signal that the inverter tries to match. More advanced grid-forming inverters can generate the signal themselves. For instance, a network of small solar panels might designate one of its inverters to operate in grid-forming mode while the rest follow its lead, like dance partners, forming a stable grid without any turbine-based generation.
Reactive power is one of the most important grid services inverters can provide. On the grid, voltage— the force that pushes electric charge—is always switching back and forth, and so is the current—the movement of the electric charge. Electrical power is maximized when voltage and current are synchronized. However, there may be times when the voltage and current have delays between their two alternating patterns like when a motor is running. If they are out of sync, some of the power flowing through the circuit cannot be absorbed by connected devices, resulting in a loss of efficiency. More total power will be needed to create the same amount of “real” power—the power the loads can absorb. To counteract this, utilities supply reactive power, which brings the voltage and current back in sync and makes the electricity easier to consume. This reactive power is not used itself, but rather makes other power useful. Modern inverters can both provide and absorb reactive power to help grids balance this important resource. In addition, because reactive power is difficult to transport long distances, distributed energy resources like rooftop solar are especially useful sources of reactive power.
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