Description

Technical Parameters

Function of Inverter

Inverters are devices that convert direct current (DC) electricity into alternating current (AC) electricity. They are widely used in a variety of applications, including solar power systems, wind power systems, electric vehicles, uninterruptible power supply (UPS) systems, and grid-tie systems. Inverters are an essential component in modern energy systems and play a crucial role in many industries.

The basic principle of an inverter is to convert DC electricity into AC electricity by using inductors and capacitors. There are various types of inverters, such as single-phase inverters, three-phase inverters, general-purpose inverters and special-purpose inverters. Each type has its own specific application scenarios and advantages and disadvantages.

Applications of Inverter

6000 Watt Inverter For Solar System is suitable for routers, PCs, POS communication processors and industrial products in

enterprises, governments, scientific research, transportation, national defense, information, education and other industries.

Solar Power Systems

Solar power systems are one of the most common applications of inverters. Solar panels generate DC electricity, but households and industries use AC electricity, so an inverter is needed to convert the solar energy into AC electricity. The same is true for wind power systems and electric vehicles; they all require an inverter to convert DC electricity into AC electricity.

UPS Systems

Inverters also play an important role in uninterruptible power supply (UPS) systems. When there is a power outage, the batteries in the UPS system supply power and the inverter converts the DC electricity into AC electricity to power the equipment. This ensures that the system continues to operate during a power outage.

Grid-tie Systems

In grid-tie systems, inverters are used to feed the solar and wind energy generated into the grid. This reduces the burden on the grid and improves grid stability. With the increasing popularity of green energy and renewable energy, the demand for inverters is also increasing. Therefore, researching and developing more advanced, efficient and safer inverters will become an important direction in the future energy field.

Power Quality and Smart Energy Management

In recent years, inverters also play an important role in power quality and smart energy management. Due to the unpredictability of most renewable energy systems, inverters can maintain grid stability by adjusting frequency and voltage. Additionally, inverters can be used to improve power quality, such as suppress harmonics on the grid and reduce power imbalance. This is very important for grid stability and security. Smart energy management systems also use inverters for energy usage optimization such as by automatically adjusting grid frequency and voltage, adjusting energy consumption and energy storage.

Inverter Feature

6000 Watt Inverter For Solar System has the following charatcharacteristics.

Pure sine wave inverter
AVR and Colds start function
Compatible to mains voltage or generator output
Auto restart, Overload and short circuit protections while AC is recovering
Smart battery charger design so optimized battery performance
Remote control function USB and RS232 communication function

Inverter Setting and Selectable

Selectable INV MODE range 100Vac-290Vac or UPS MODE 160Vac-275Vac for home appliances and personal computers
Setting Configurable AC/Solar input priority through LCD setting
Setting of battery shutdown voltage
Setting of battery voltage from solar priority to AC priority
Selectable high power AC charging current of 5A/10A/20A/30A/45A
Selectable solar charging current from 10A to 60A (not included solar charging)
Built-in MPPT controller for option (not included)

Inverter Introduction

Product Parameter

6000 Watt Inverter For Solar System MPS Series (Hybrid Solar invterter with MPPT solar charger)
Model #	1012	1024	1512	1524	2012	2024	3024	3048
Capacity	1000W	1000W	1500W	1500W	2000W	2000W	3000W	3000W
Front and rear panel
DISPLAY
Indicator panel	LCD display
AC MODE
Input voltage(INV. Mode)	100~290±5Vac
Input voltage(UPS Mode)	160~275±5Vac
Input frequency	45~65Hz
Output voltage(INV. Mode)	120~252±5Vac
Output voltage(UPS mode	198~242±5Vac
Efficiency	≥96%(AC Mode)
INVERTER MODE
No load current & power	0.6A/7.2W	0.6A/14.4W	0.8A/9.6W	0.7A/16.8W	1A/12W	0.8A/19.2W	0.8A/19.2W	0.6A/28.8W
THD	＜3%(linear load)
Output voltage	230Vac
Output frequency	50±0.1Hz/60±0.1Hz(Auto sensing)
Output wave form	Pure sine wave
Transfer time	＜10ms(Typical)
Efficiency	≥80%(DC Mode)
Overload capbility	(100%
	(120%
	(140%
Overcurrent protection	System shuts down auotomatically within 20ms.
Output short circuit protection	Yes
BATTERY
DC voltage	12V	24V	12V	24V	12V	24V	24V	48V
Battery type	8 types of battery
AC charging current	5A/10A/20A/30A/45A/(60A) Max.
Solar charging current	10A/20A/30A/40A/50A/60A
PHYSICAL
Net weight (1pc, kg)	21	21.0	23.7	23.7	24.9	24.9	29	29
Unit dimension (LWH)	526277282mm
ENVIRONMENT
Environment	Temperature 0℃~40℃, Humidity 20%~90%
Noise Level	≤40dB(1m)
Altitude	≤1000m( Altitude exceeds 1000m, full power can't reach)
Note:	Please contact our sales for more details of futher requirements.
*Product specifications are subject to change without further notice.

How to Choose an Inverter For Solar System?

Understanding Your Energy Needs

Before diving into the specifics, it's essential to assess your energy needs accurately. The first step is to evaluate your average daily electricity consumption in kilowatt-hours (kWh). This information can be found on your utility bills or by contacting your electricity provider. Having a clear understanding of your energy consumption will help you gauge how many solar panels you need to offset your usage effectively.

Solar Panel Output and Efficiency

Solar panels come in various wattages and efficiencies, which directly impact the amount of electricity they can generate. The output of a solar panel is usually specified in Watts Peak (Wp), representing the maximum power it can produce under standard test conditions. The efficiency of a solar panel refers to its ability to convert sunlight into electricity, with higher efficiency panels generating more power per unit area. When choosing solar panels for your 6000W inverter, opt for panels with a total output slightly higher than 6000W. This compensates for factors such as shading, temperature variations, and panel degradation over time. As a rule of thumb, selecting solar panels with a combined output of around 6600W to 7000W is a safe bet.

Location and Sunlight

The location of your solar panels significantly influences their performance. Different regions receive varying amounts of sunlight throughout the year, and this directly affects the efficiency of your solar panels. Areas with more sunshine generally require fewer solar panels to meet energy needs compared to regions with less sun exposure.

Calculating the Number of Solar Panels

Now that we have a basic understanding of our energy needs, solar panel output, and efficiency.

The Right Balance

While it might be tempting to install as many solar panels as possible to generate excess electricity, it's essential to strike the right balance. Investing in too many solar panels can lead to higher upfront costs without significant additional benefits. Additionally, local regulations and available space might limit the number of panels you can install.

Factors to Consider

Before finalizing your solar panel purchase, consider the following factors to ensure a successful solar energy system:

Available Roof Space: Evaluate the available roof area to determine the maximum number of solar panels you can install. Ensure that there are no obstructions or shading that could impact the performance of your panels.
Panel Orientation and Tilt: Properly orienting and tilting your solar panels towards the sun optimizes their energy production. South-facing panels typically receive the most sunlight in the Northern Hemisphere, while north-facing panels work best in the Southern Hemisphere.
Future Energy Needs: Anticipate any changes in your energy consumption in the future. If you plan to expand your household or business, it's wise to accommodate potential increases in energy needs.

FAQ

Q: What will a 6000W inverter run?

A: The 6000W nominal power and 18000W peak power ratings mean that this inverter is suitable for all standard household appliances including kitchen appliances (such as a fridge, microwave, TV, power tools, vacuum cleaner, cooker, oven, dishwasher, washing machine, air conditioning unit etc).

Q: How many solar panels do I need for 6000 watts?

A: For example, with a 6kW system requirement, an option might be to use panels with a rating of 300, in which case a total of only 20 panels would be required.

Q: What size inverter for a 6kW solar system?

A: Other factors affecting output include dirt and grime on the panels and wiring losses. So, by using a 5kW inverter with 6kW (or 6.6kW) of solar panels, you'll actually be ensuring the inverter is working at its designed performance level for more of the time.

Q: What can you power with a 5000W inverter?

A: Home entertainment systems: 5000W inverters power large-screen TVS, stereos, game consoles, and home theater systems for an enjoyable entertainment experience. Power tools: Heavy-duty power tools such as table saws, miter saws, large drills, air compressors, and welders typically require high power to operate.

Q: What will a 6000 watt solar system run?

A: A typical 6kW solar PV system produces about 8,760 kWh of energy each year, assuming five hours of peak sun per day. This is enough to power many everyday household items, including your refrigerator, washer and dryer, air conditioners, and more!

Q: How many solar panels do you need for a 5000 watt inverter?

A: To make up a 5kW solar system, you need 12 units half cell solar panels, assuming you use 450 watt solar panels – that will actually give you 5.4kW.

Q: What is an inverter used for?

A: Inverters are used in any application where a DC power source must be converted to an AC power source. The most common applications are in battery-powered mobile and marine vehicles, uninterruptible power supplies, renewable energy generation systems, and stationary battery banks.

Q: How many amps does a 6000w inverter produce?

A: This large 6000 watt 12 volt dc to 120 volt ac power inverter can operate up to 50 amps of alternating power.

Q: How long will a battery last using an inverter?

A: All you need to know are a few parameters and you are good to go. The UPS backup time depends on the power consumption of the UPS, the power of the load, and the battery capacity. In general, you can expect your inverter battery to last anywhere around 5 to 10 hours when it is fully charged.

Q: What should you not plug into an inverter?

A: Certain chargers, particularly for battery-operated portable devices that lack a separate transformer or charger, can be damaged if plugged into the inverter. These include flashlights, cordless razors, and electric toothbrushes.

Q: How can I get the price?

A: We usually quote within 24 hours after we get your inquiry(Except weekend and holidays).
If you are very urgent to get the price, please email us or contact us in other ways so that we can offer you a quote.

Q: Can I buy samples placing orders?

A: Yes.Please feel free to contact us.

Q: What is your lead time?

A: It depends on the order quantity and the season you place the order.
Usually we can ship within 7-15 days for small quantity,and about 30 days for large quantity.

Q: What is the shipping method?

A: It could be shipped by sea,by air or by express(EMS,UPS,DHL,TNT,FEDEX and etc.).Please confirm with us before placing orders.

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