• Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000 System 1
  • Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000 System 2
  • Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000 System 3
Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000

Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000

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100 pc
Supply Capability:
10000 pc/month

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 Features

.Power range 1kw-112kw
.12/24v/48v input optional
.Powerful Charge Rate Up to 100Amp
.Inbuilt pure copper transformer
.Pure sine wave output
.LED+LCD display
.MPPT solar charge controller 40A 45A 60A
.50/60HZ automatic sensing
.RS232 with free CD
.Battery priority function
.DC Start & Automatic Self-Diagnostic Function
.High Efficiency Design & “Power Saving Mode” to Conserve Energy

Specifications

Model

 

1.0KW1.5KW2.0KW3.0KW4.0KW5.0KW6.0KW8.0KW10.0KW12.0KW
Inverter outputContinuous output power1.0KW1.5KW2.0KW3.0KW4.0KW5.0KW6.0KW8.0KW10.0KW12.0KW
Surge rating (20ms)3.0KW4.5KW6.0KW9.0KW12.0KW15.0KW18.0KW24.0KW30.0KW36.0KW
Output waveformPure sine wave/ same as input (bypass mode)
Nominal efficiency>88% (peak)
Line mode efficiency>95%
Power factor0.9-1.0
Nominal output voltage RMS100-110-120VAC/220-230-240VAC
Output voltage regulation±10% RMS
Output frequency50Hz ± 0.3Hz / 60Hz ± 0.3Hz
Short circuit protectionYes (1sec after fault)
Typical transfer time10ms (max)
THD< 10%
DC inputNominal input voltage12.0VDC / 24.0VDC / 48.0VDC24.0VDC /48.0VDC48.0VDC
Minimum start voltage10.0VDC /10.5VDC for12VDC mode*2 for 24VDC, *4 for 48VDC
Low battery alarm10.5VDC /11.0VDC for12VDC mode
Low battery trip10.0VDC /10.5VDC for12VDC mode
High voltage alarm16.0VDC for12VDC mode
Low battery voltage recover15.5VDC for12VDC mode
Idle consumption-search mode<25W when power saver on. (refer to table)
ChargerOutput voltageDepends on battery type (refer to table 2.5.2)
Charger breaker rating10A15A20A20A20A30A30A40A40A40A
Max charge power rate1/3 Rating power (refer to table 2.5.3)
Battery initial voltage for start10-15.7VDC for 12VDC mode*2 for 24VDC, *4 for 48VDC
Over charge protection S.D.15.7VDC for 12VDC mode
BTSBattery temperature sensor (optional)Yes (refer to the table) Variances in charging voltage & S.D. voltage base on the battery temperature.
Bypass & protectionInput voltage waveformSine wave (grid or generator)
Nominal voltage110VAC120VAC220VAC230VAC230VAC
Max input AC voltage150VAC for 120VAC LV mode; 300VAC for 230VAC HV mode.
Nominal input frequency50Hz or 60Hz
Low freq trip47 ± 0.3Hz for 50Hz; 57 ± 0.3Hz for 60Hz
High freq trip55 ± 0.3Hz for 50Hz; 65 ± 0.3Hz for 60Hz
Overload protection (SMPS load)Circuit breaker
Output short circuit protectionCircuit breaker
Bypass breaker rating10152030404040506363
Transfer switch rating30Amp for UL & TUV40Amp for UL80Amp for UL
Bypass without battery connectedYes (optional)
Max bypass current30Amp40Amp80Amp
Solar charger
(optional)
Rated voltage12.0VDC / 24.0VDC / 48.0VDC
Solar input voltage range15-30VDC / 30-55VDC / 55-100VDC
Rated charge current40-60A
Rated output current15A
Self consumption<10mA
Bulk charge (default)14.5VDC for12VDC mode*2 for 24VDC, *4 for 48VDC
Floating charge (default)13.5VDC for12VDC mode
Equalization charge (default)14.0VDC for12VDC mode
Over charge disconnection14.8VDC for12VDC mode
Over charge recovery13.6VDC for12VDC mode
Over discharge disconnection10.8VDC for12VDC mode
Over discharge reconnection12.3VDC for12VDC mode
Temperature compensation-13.2mVDC/℃ for12VDC mode
Ambient temperature0-40℃ (full load) 40-60℃ (derating)
Mechanical specificationsMountingWall mount
Inverter dimensions (L*W*H)388*415*200mm488*415*200mm588*415*200mm
Inverter weight (solar chg) KG21+2.522+2.523+2.527+2.538+2.548+2.549+2.560+2.566+2.570+2.5
Shipping dimensions (L*W*H)550*520*310mm650*520*310mm750+520+310mm
Shipping weight (solar chg) KG23+2.524+2.525+2.529+2.540+2.550+2.551+2.562+2.568+2.572+2.5
DisplayLED+LCD
Standard warranty1 year

 

Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000

Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000

Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000

 

Warranty

provides a 13 year limited warranty (“Warranty”) against defects in materials and workmanship for its Uninterruptible power supply, Power inverter/chargers, Solar charge controllers, Battery Products (“Product”).

The term of this Warranty begins on the Product(s) initial purchase date, or the date of receipt of the Product(s) by the end user, whichever is later. This must be indicated on the invoice, bill of sale, and/or warranty registration card submitted to MUST-Solar. This Warranty applies to the original MUST-Solar Product purchaser, and is transferable only if the Product remains installed in the original use location.

 

 

FAQ

1.    How fast will my system respond to a power outage?

Our solar inverters typically transfer to battery power in less than 16 milliseconds (less than 1/50th of a second).

2.    What kind of batteries do the systems include?

Our solar backup electric systems use special high-quality electric storage batteries.

3.    How do I install my system?

A solar backup inverter is connected to a home electric system , we will supply detailed installation manual and videos for our customers .

Q:How does a solar inverter handle power factor correction?
A solar inverter handles power factor correction by converting the DC power generated by solar panels into AC power that is synchronized with the utility grid. It adjusts the phase and magnitude of the AC output to match the power factor requirements of the grid, ensuring efficient power transfer and reducing reactive power.
Q:Can a solar inverter be used with different types of electrical appliances?
Yes, a solar inverter can be used with different types of electrical appliances. Solar inverters are designed to convert the direct current (DC) generated by solar panels into alternating current (AC) that is compatible with standard household appliances. As long as the electrical appliances operate on AC power within the inverter's specified power range, they can be used with a solar inverter.
Q:Can a solar inverter be used with different types of energy storage systems?
Yes, a solar inverter can be used with different types of energy storage systems. Solar inverters are designed to convert the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power electrical devices. The AC output from the solar inverter can be connected to various energy storage systems, such as batteries, to store excess energy generated by the solar panels for later use. Therefore, solar inverters are compatible with different types of energy storage systems, allowing for efficient utilization of solar energy.
Q:Can a solar inverter be used in commercial applications?
Yes, a solar inverter can be used in commercial applications. Solar inverters are designed to convert the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power electrical devices and appliances. This makes them suitable for a wide range of commercial applications such as offices, retail stores, factories, and other commercial buildings where solar energy can be harnessed to reduce electricity costs and promote sustainability.
Q:What is the lifespan of the warranty on a solar inverter?
The lifespan of a warranty on a solar inverter can vary depending on the manufacturer and model. Generally, most warranties for solar inverters range from 5 to 10 years.
Q:How does a solar inverter handle variations in temperature?
A solar inverter manages variations in temperature by having built-in thermal management systems that ensure optimal functioning within a specified temperature range. These systems include heat sinks, fans, or liquid cooling to dissipate excess heat generated during operation. Additionally, advanced inverters incorporate temperature sensors and algorithms to monitor and adjust their performance accordingly, maintaining efficiency and protecting the internal components from overheating or freezing in extreme temperatures.
Q:How does a solar inverter communicate with monitoring systems?
A solar inverter communicates with monitoring systems through various means such as wireless technologies like Wi-Fi, Bluetooth, or Zigbee, or through wired connections like Ethernet or RS485. These communication channels allow the inverter to transmit important data and performance metrics to the monitoring systems in real-time.
Q:Can a solar inverter be connected to a smartphone app for monitoring?
Yes, a solar inverter can be connected to a smartphone app for monitoring. Many modern solar inverters have built-in Wi-Fi or Bluetooth capabilities that allow them to connect to a smartphone app. This app provides real-time monitoring of the solar system's performance, including energy production, consumption, and any potential issues or faults. It also allows users to remotely control and adjust settings of the inverter for optimized energy management.
Q:What is the role of reactive power control in a solar inverter?
The role of reactive power control in a solar inverter is to manage and optimize the flow of reactive power between the solar PV system and the grid. This control allows the inverter to regulate the power factor, which is the ratio of real power to apparent power, ensuring that the system operates efficiently and in compliance with grid requirements. By adjusting the reactive power output, the inverter can compensate for voltage fluctuations and stabilize the grid, improving the overall performance and reliability of the solar power generation system.
Q:Can a solar inverter be used for both single-phase and three-phase applications?
No, a solar inverter cannot be used for both single-phase and three-phase applications. The type of inverter required depends on the specific electrical requirements of the system. Single-phase inverters are designed for single-phase applications, while three-phase inverters are specifically designed for three-phase applications.

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