Tata Solar Inverter String Grid-Tied PV Inverter Blue-G 3000D / 3600D / 4000D / 4200D / 4600D / 5000D / 6000D

Tata Solar Inverter String Grid-Tied PV Inverter Blue-G 3000D / 3600D / 4000D / 4200D / 4600D / 5000D / 6000D System 1

Tata Solar Inverter String Grid-Tied PV Inverter Blue-G 3000D / 3600D / 4000D / 4200D / 4600D / 5000D / 6000D System 2

Tata Solar Inverter String Grid-Tied PV Inverter Blue-G 3000D / 3600D / 4000D / 4200D / 4600D / 5000D / 6000D System 3

Tata Solar Inverter String Grid-Tied PV Inverter Blue-G 3000D / 3600D / 4000D / 4200D / 4600D / 5000D / 6000D

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 50 pc

Supply Capability:: 15000 pc/month

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Product Description:

★Max. PV voltage up to 600V DC/AC ratio up to 1.5

★Type II DC SPD/Type III AC SPD IP65 protection

★High efficiency up to 98.3% Smaller and lighter

★Compatible for big capacity PV panel WiFi / 4G Plug optional

One Stop Solution Compatible with any type of Demand

Our BluE series covers single phase 1 to 6kw, three phase 3-25kw and up to 20kwh Energy Storage System. This range is predominantly designed for modern house and small commericial energy demands.

One App to monitor your power flow for different systems;

One Call for pre-sales training & after-sales service;

Technical Specifications:

MODEL	BluE-G 3000D	BluE-G 3600D	BluE-G 4000D	BluE-G 4200D	BluE-G 4600D	BluE-G 5000D	BluE-G 6000D
Input(DC)
Max. DC Voltage	600Vdc	600Vdc	600Vdc	600Vdc	600Vdc	600Vdc	600Vdc
Nominal Voltage	380Vdc	380Vdc	380Vdc	380Vdc	380Vdc	380Vdc	380Vdc
Start Voltage	100V	100V	100V	100V	100V	100V	100V
MPPT Voltage Range	80V-560V	80V-560V	80V-560V	80V-560V	80V-560V	80V-560V	80V-560V
Number of MPP Tracker	2	2	2	2	2	2	2
Strings Per MPP Tracker	1	1	1	1	1	1	1
Max. Input Current Per MPPT	15A	15A	15A	15A	15A	15A	15A
Max. short-circuit Current Per MPPT	18A	18A	18A	18A	18A	18A	18A
Output(AC)
Nominal AC Output Power	3000W	3600W	4000W	4200W	4600W	4600W	4600W
Max. AC Apparent Power	3000VA	3960VA	4400VA	4620VA	5060VA	5500VA	6000VA
Nominal AC Voltage	230V L-N	230V L-N	230V L-N	230V L-N	230V L-N	230V L-N	230V L-N
AC Grid Frequency Range	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz	50Hz / 60Hz±5Hz
Max. Output Current	14.4A	17A	19A	20A	22A	24A	26A
Power Factor (cosφ)	0.8 leading to 0.8 lagging
THDi	<3%< td="">
Efficiency
Max. Efficiency	98.10%	98.10%	98.30%	98.30%	98.30%	98.30%	98.30%
Euro Efficiency	97.70%	97.70%	97.90%	97.90%	97.90%	97.90%	97.90%
Protection devices
DC switch	Yes	Yes	Yes	Yes	Yes	Yes	Yes
Anti-islanding Protection	Yes	Yes	Yes	Yes	Yes	Yes	Yes
Output Over Current	Yes	Yes	Yes	Yes	Yes	Yes	Yes
DC Reverse Polarity Protection	Yes	Yes	Yes	Yes	Yes	Yes	Yes
String Fault Detection	Yes	Yes	Yes	Yes	Yes	Yes	Yes
Surge Protection	DC Type III;AC Type III
Insulation Detection	Yes	Yes	Yes	Yes	Yes	Yes	Yes
AC Short Circuit Protection	Yes	Yes	Yes	Yes	Yes	Yes	Yes
General Specifications
Dimensions W x H x D	380380150mm
Weight	10kg	10kg	11kg	11kg	11kg	11kg	11kg
Operating Temperature Range	–25℃~+60℃
Cooling Type	Natural
Max. Operation Altitude	≤4000m
Max. Operation Humidity	0-100%
AC Output Terminal Type	Quick Connector
IP Class	IP65
Topology	Transformer-less
Communication Interface	RS485/WIFI/4G
Display	LCD
Certification & Standard	EN/IEC62109-1/2；IEC/EN61000-6-2;IEC/EN61000-6-4;IEC61683;IEC60068;IEC60529;IEC62116; IEC61727;EN50549-1;AS 4777.2;NRS 097;VDE-AR-N-4105;VDE 0126-1-1;CEI0-21;G98;G99;C10/C11;TED749; UNE217001;UNE217002;NB/T32004-2018；GB/T19964-2012;INMETRO

Q:How the output voltage of the PV inverter and the grid-connected voltage are determined

Inverter is the DC power (battery, battery) into alternating current (usually 220V, 50Hz sine wave). It consists of inverter bridge, control logic and filter circuit. Widely used in air conditioning, home theater, electric wheel, power tools, sewing machines, DVD, VCD, computer, TV, washing machine, range hood, refrigerator, video recorders, massage, fan, lighting and so on. In foreign countries

Q:Installation and maintenance of photovoltaic grid - connected inverter

only when the local power sector permission by the professional and technical personnel to complete all the electrical connection before the inverter can be connected.

Q:What is the difference between a PV grid-connected inverter and an off-grid inverter?

Off-grid inverter is equivalent to their own to establish an independent small power grid, mainly to control their own voltage, is a voltage source.

Q:After the PV inverter, how to achieve the same period before the network?

Solar panel simulator: with MPPT function, simulated morning, noon, afternoon, evening, rainy weather, solar panels produced under different conditions in different voltages.

Q:Is the PV inverter a current source or a voltage source?

According to the waveform modulation method can be divided into square wave inverter, stepped wave inverter, sine wave inverter and modular three-phase inverter.

Q:Photovoltaic grid-connected inverter without DC emc how will happen

Solar photovoltaic power generation technology is the use of solar cells, the photovoltaic effect of semiconductor materials, solar radiation can be directly converted into a new type of power generation system, solar energy is a radiant energy, solar power means --- to direct conversion of sunlight Into electricity,

Q:What is the difference between low voltage grid connection and medium voltage grid connection?

For photovoltaic power plants when the power system accidents or disturbances caused by photovoltaic power plant grid voltage drop, in a certain voltage drop range and time interval, the photovoltaic power plant can ensure that non-off-line continuous operation.

Q:Is the grid side of the grid and the inverter?

The grid load side of the grid is the grid. The inverter is an important part of the PV grid-connected system and can not be regarded as an external load. Photovoltaic power generation system is included in both grid and off-grid.

Q:PV grid-connected inverter and independent inverter in the control of what is the difference

The independent inverter in the output voltage phase amplitude of the frequency control is initially set good. Independent inverter, you should refer to off-grid inverter, do not need to consider the grid situation.

Q: What are the common troubleshooting steps for a malfunctioning solar inverter?: The common troubleshooting steps for a malfunctioning solar inverter may include checking the power supply, inspecting the wiring connections, resetting the inverter, performing a firmware update, checking for error codes or error messages, and consulting the manufacturer's manual or contacting technical support for further assistance.

Q: How does a solar inverter protect against overvoltage?: A solar inverter protects against overvoltage by monitoring the voltage levels of the solar panels. When the voltage exceeds the safe operating range, the inverter automatically reduces the power output or completely shuts down to prevent any damage to the electrical system. Additionally, some inverters are equipped with surge protection devices to further safeguard against sudden voltage spikes.

Q: Are solar inverters compatible with battery storage systems?: Yes, solar inverters are compatible with battery storage systems. In fact, solar inverters play a crucial role in integrating battery storage with solar power systems. Solar inverters convert the direct current (DC) electricity generated by the solar panels into alternating current (AC) electricity that can be used to power our homes and businesses. Battery storage systems, on the other hand, store excess solar energy for later use, allowing us to use solar power even when the sun is not shining. When combined with solar inverters, battery storage systems can be charged using the excess energy generated by the solar panels during the day, and then discharge that stored energy during the night or during periods of high energy demand. To facilitate compatibility, solar inverters used in battery storage systems are equipped with additional features and functionalities. For example, they may have built-in charge controllers that regulate the charging and discharging of the batteries, ensuring their optimal performance and longevity. Additionally, advanced inverters may also include smart grid capabilities, allowing them to communicate with the utility grid and optimize energy flows based on grid conditions and electricity prices. Overall, solar inverters are essential components in ensuring the seamless integration of battery storage systems with solar power, enabling us to maximize the benefits of clean and sustainable energy.

Q: Can a solar inverter be used with a ground-mounted solar panel system?: Yes, a solar inverter can be used with a ground-mounted solar panel system. The solar inverter converts the direct current (DC) generated by the solar panels into alternating current (AC) that can be used to power homes or businesses. Whether the solar panels are mounted on the ground or on a roof, they still require an inverter to convert the electricity into a usable form.

Q: How does a solar inverter synchronize with the grid?: A solar inverter synchronizes with the grid by constantly monitoring the grid's voltage and frequency. It adjusts its own output to match the grid's characteristics, ensuring that the electricity it generates is in phase with the grid's power supply. This synchronization process allows the solar inverter to seamlessly connect and feed electricity into the grid, maximizing the efficiency and reliability of the solar power system.

Q: Are there any ongoing maintenance requirements for a solar inverter?: Yes, there are ongoing maintenance requirements for a solar inverter. Regular inspections, cleaning, and monitoring of the inverter's performance are necessary to ensure its optimal functioning. Additionally, checking for any loose connections, updating firmware, and addressing any potential issues promptly are part of the maintenance routine.

Q: What are the safety features of a solar inverter?: The safety features of a solar inverter typically include surge protection, overvoltage protection, short circuit protection, ground fault detection, and overtemperature protection. These features help to prevent damage to the inverter and the electrical system, ensuring safe and reliable operation.

Q: Can a solar inverter be used in parallel configurations for increased power output?: Yes, a solar inverter can be used in parallel configurations to increase power output. By connecting multiple inverters in parallel, the total power output can be increased, allowing for more efficient utilization of the solar energy generated. This parallel configuration allows for better distribution of the power load and helps to achieve a higher overall system capacity.

Q: What is the power factor of a solar inverter?: The power factor of a solar inverter typically refers to the ratio of the real power to the apparent power consumed by the inverter. It represents the efficiency of the inverter in converting DC power from the solar panels into AC power for use in the electrical grid. A high power factor indicates a more efficient inverter that minimizes reactive power losses.

Q: Can a solar inverter be used with a solar-powered water desalination system?: Yes, a solar inverter can be used with a solar-powered water desalination system. A solar inverter is responsible for converting the direct current (DC) power generated by solar panels into alternating current (AC) power, which is required to operate most electrical appliances and systems. In the case of a solar-powered water desalination system, the solar inverter can be used to convert the DC power generated by solar panels into AC power to run the various components of the desalination system, such as pumps, motors, and control systems.

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