Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 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
| 1.0KW | 1.5KW | 2.0KW | 3.0KW | 4.0KW | 5.0KW | 6.0KW | 8.0KW | 10.0KW | 12.0KW | |
Inverter output | Continuous output power | 1.0KW | 1.5KW | 2.0KW | 3.0KW | 4.0KW | 5.0KW | 6.0KW | 8.0KW | 10.0KW | 12.0KW |
Surge rating (20ms) | 3.0KW | 4.5KW | 6.0KW | 9.0KW | 12.0KW | 15.0KW | 18.0KW | 24.0KW | 30.0KW | 36.0KW | |
Output waveform | Pure sine wave/ same as input (bypass mode) | ||||||||||
Nominal efficiency | >88% (peak) | ||||||||||
Line mode efficiency | >95% | ||||||||||
Power factor | 0.9-1.0 | ||||||||||
Nominal output voltage RMS | 100-110-120VAC/220-230-240VAC | ||||||||||
Output voltage regulation | ±10% RMS | ||||||||||
Output frequency | 50Hz ± 0.3Hz / 60Hz ± 0.3Hz | ||||||||||
Short circuit protection | Yes (1sec after fault) | ||||||||||
Typical transfer time | 10ms (max) | ||||||||||
THD | < 10% | ||||||||||
DC input | Nominal input voltage | 12.0VDC / 24.0VDC / 48.0VDC | 24.0VDC /48.0VDC | 48.0VDC | |||||||
Minimum start voltage | 10.0VDC /10.5VDC for12VDC mode | *2 for 24VDC, *4 for 48VDC | |||||||||
Low battery alarm | 10.5VDC /11.0VDC for12VDC mode | ||||||||||
Low battery trip | 10.0VDC /10.5VDC for12VDC mode | ||||||||||
High voltage alarm | 16.0VDC for12VDC mode | ||||||||||
Low battery voltage recover | 15.5VDC for12VDC mode | ||||||||||
Idle consumption-search mode | <25W when power saver on. (refer to table) | ||||||||||
Charger | Output voltage | Depends on battery type (refer to table 2.5.2) | |||||||||
Charger breaker rating | 10A | 15A | 20A | 20A | 20A | 30A | 30A | 40A | 40A | 40A | |
Max charge power rate | 1/3 Rating power (refer to table 2.5.3) | ||||||||||
Battery initial voltage for start | 10-15.7VDC for 12VDC mode | *2 for 24VDC, *4 for 48VDC | |||||||||
Over charge protection S.D. | 15.7VDC for 12VDC mode | ||||||||||
BTS | Battery temperature sensor (optional) | Yes (refer to the table) Variances in charging voltage & S.D. voltage base on the battery temperature. | |||||||||
Bypass & protection | Input voltage waveform | Sine wave (grid or generator) | |||||||||
Nominal voltage | 110VAC | 120VAC | 220VAC | 230VAC | 230VAC | ||||||
Max input AC voltage | 150VAC for 120VAC LV mode; 300VAC for 230VAC HV mode. | ||||||||||
Nominal input frequency | 50Hz or 60Hz | ||||||||||
Low freq trip | 47 ± 0.3Hz for 50Hz; 57 ± 0.3Hz for 60Hz | ||||||||||
High freq trip | 55 ± 0.3Hz for 50Hz; 65 ± 0.3Hz for 60Hz | ||||||||||
Overload protection (SMPS load) | Circuit breaker | ||||||||||
Output short circuit protection | Circuit breaker | ||||||||||
Bypass breaker rating | 10 | 15 | 20 | 30 | 40 | 40 | 40 | 50 | 63 | 63 | |
Transfer switch rating | 30Amp for UL & TUV | 40Amp for UL | 80Amp for UL | ||||||||
Bypass without battery connected | Yes (optional) | ||||||||||
Max bypass current | 30Amp | 40Amp | 80Amp | ||||||||
Solar charger (optional) | Rated voltage | 12.0VDC / 24.0VDC / 48.0VDC | |||||||||
Solar input voltage range | 15-30VDC / 30-55VDC / 55-100VDC | ||||||||||
Rated charge current | 40-60A | ||||||||||
Rated output current | 15A | ||||||||||
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 disconnection | 14.8VDC for12VDC mode | ||||||||||
Over charge recovery | 13.6VDC for12VDC mode | ||||||||||
Over discharge disconnection | 10.8VDC for12VDC mode | ||||||||||
Over discharge reconnection | 12.3VDC for12VDC mode | ||||||||||
Temperature compensation | -13.2mVDC/℃ for12VDC mode | ||||||||||
Ambient temperature | 0-40℃ (full load) 40-60℃ (derating) | ||||||||||
Mechanical specifications | Mounting | Wall mount | |||||||||
Inverter dimensions (L*W*H) | 388*415*200mm | 488*415*200mm | 588*415*200mm | ||||||||
Inverter weight (solar chg) KG | 21+2.5 | 22+2.5 | 23+2.5 | 27+2.5 | 38+2.5 | 48+2.5 | 49+2.5 | 60+2.5 | 66+2.5 | 70+2.5 | |
Shipping dimensions (L*W*H) | 550*520*310mm | 650*520*310mm | 750+520+310mm | ||||||||
Shipping weight (solar chg) KG | 23+2.5 | 24+2.5 | 25+2.5 | 29+2.5 | 40+2.5 | 50+2.5 | 51+2.5 | 62+2.5 | 68+2.5 | 72+2.5 | |
Display | LED+LCD | ||||||||||
Standard warranty | 1 year |
Warranty
provides a 1~3 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 voltage unbalance in the grid?
- A solar inverter handles voltage unbalance in the grid by employing its control algorithms to monitor and regulate the output voltage. When the solar inverter detects an unbalanced grid voltage, it adjusts the output voltage accordingly to maintain a balanced supply. This is typically achieved by injecting reactive power or adjusting the phase angle of the output voltage to synchronize it with the grid. By actively managing voltage unbalance, a solar inverter ensures stable and reliable power conversion in the presence of grid voltage fluctuations.
- Q:Can a solar inverter be used with different types of solar tracking systems?
- Yes, a solar inverter can be used with different types of solar tracking systems. Solar inverters are designed to convert the direct current (DC) produced by solar panels into alternating current (AC) for use in homes or businesses. They are compatible with various solar tracking systems, including single-axis and dual-axis trackers, as long as the voltage and power ratings of the inverter match the requirements of the specific tracking system.
- Q:How does a solar inverter affect the overall energy consumption of a property?
- A solar inverter converts the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power electrical appliances in a property. By efficiently converting DC to AC, a solar inverter enables the property to utilize the renewable energy generated by the solar panels. This reduces the reliance on grid electricity, thereby decreasing the overall energy consumption of the property and leading to potential cost savings on electricity bills.
- Q:How does a solar inverter handle grid frequency deviations?
- A solar inverter handles grid frequency deviations by continuously monitoring the frequency of the electrical grid. If the grid frequency deviates from the standard frequency, the inverter adjusts its output frequency accordingly to maintain synchronization with the grid. This ensures that the solar power generated by the inverter is in phase with the grid frequency, allowing seamless integration of the solar power into the grid system.
- Q:How is the output voltage of a solar inverter regulated?
- The output voltage of a solar inverter is regulated through the use of advanced control mechanisms and power electronics. These components monitor the input voltage from the solar panels and adjust the inverter's internal circuitry accordingly to ensure a stable and consistent output voltage. This regulation process involves techniques such as pulse width modulation (PWM) and maximum power point tracking (MPPT) to optimize the power conversion and maintain the desired voltage level.
- Q:How does MPPT technology work in solar inverters?
- MPPT (Maximum Power Point Tracking) technology in solar inverters works by constantly monitoring the voltage and current of the solar panels and adjusting the resistance to ensure the panels are operating at their maximum power point. This optimization allows for maximum energy production from the solar panels, even in varying weather conditions and shading.
- Q:Can a solar inverter be used in conjunction with a generator?
- Yes, a solar inverter can be used in conjunction with a generator. In fact, it is a common setup in off-grid or hybrid systems. The solar inverter can work alongside the generator to provide electricity when solar power is insufficient, ensuring a continuous and reliable power supply.
- Q:Can a solar inverter be used with bifacial solar panels?
- Yes, a solar inverter can be used with bifacial solar panels. Bifacial solar panels have the ability to generate electricity from both sides, capturing sunlight from the front and reflecting light from the rear. A solar inverter is responsible for converting the generated DC (direct current) electricity from the panels into AC (alternating current) electricity for use in homes or businesses. Therefore, a solar inverter is essential for connecting and utilizing the electricity generated by bifacial solar panels.
- Q:How does a solar inverter convert DC to AC?
- A solar inverter converts direct current (DC) to alternating current (AC) by using a two-step process. First, it takes the DC electricity generated by solar panels and passes it through a device called a rectifier, which converts the DC power into a high-frequency AC signal. Then, this AC signal is passed through an inverter circuit that converts the high-frequency AC into standard frequency AC, typically 50 or 60 Hz, suitable for supplying power to household appliances and the electrical grid.
- Q:What is the lifespan of the capacitors in a solar inverter?
- The lifespan of capacitors in a solar inverter can vary depending on several factors such as the quality of the capacitors used, operating conditions, and maintenance. However, on average, capacitors in a solar inverter can have a lifespan of around 10 to 15 years.
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Pure Sine Wave Inverter With 30A Solar Charger Controller Hot Selling Excellent Quality PV 2000
- Loading Port:
- China main port
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 pc
- Supply Capability:
- 10000 pc/month
OKorder Service Pledge
OKorder Financial Service
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