Shenzhen Yima Power Supply Co., Ltd.
steven(王总 目前英文名称待定)
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A wall-mounted off-grid inverter is a device used to convert DC (direct current) power from a battery or solar panels into AC (alternating current) power for running electrical appliances in off-grid or standalone power systems. Unlike grid-tied inverters, which are designed to work with a utility power grid, off-grid inverters are specifically designed for standalone power systems that are not connected to the grid.
Power Conversion: Off-grid inverters convert DC power from batteries or solar panels into AC power that can be used to run household or commercial appliances. They provide a reliable source of electricity in off-grid locations or areas with limited or unreliable access to the utility grid.
Voltage and Power Capacity: Off-grid inverters come in various voltage and power capacities to match the specific requirements of the system. It's important to select an inverter that is compatible with the voltage and power rating of your battery bank or solar panels.
Pure Sine Wave Output: High-quality off-grid inverters produce a pure sine wave AC output, which is similar to the smooth and clean power supplied by the utility grid. This ensures compatibility with a wide range of appliances and minimizes the risk of damage to sensitive electronics.
Charger Functionality: Many wall-mounted off-grid inverters also include built-in battery chargers. These chargers allow the inverter to draw power from an AC source, such as a generator or utility grid, to recharge the battery bank. This can be useful during periods of low solar production or when backup power is needed.
Monitoring and Control: Some off-grid inverters offer monitoring and control capabilities, allowing users to monitor the system's performance, adjust settings, and receive alerts or notifications. These features can help optimize the system's efficiency and troubleshoot any issues.
System Integration: Off-grid inverters need to be compatible with other components in the off-grid power system, such as batteries, charge controllers, and solar panels. It's crucial to ensure compatibility and proper integration to achieve optimal system performance.
HX Series parameter table
| Model HX | HX-350 | HX-500 | HX-600 | HX-800 | HX-1000 | HX-1200 | ||
| power | rated power | 350W | 500W | 600W | 800W | 1KW | 1.2KW | |
| Peak power | 1050W | 1500W | 1800W | 2400W | 3KW | 3.6KW | ||
enter | Standard battery voltage | 12VDC/24VDC | ||||||
| Mains input voltage range | 145-275VAC | |||||||
| Mains input frequency | (50Hz/60Hz±5Hz)Automatic Identification | |||||||
| Output | Conversion efficiency | ≥87% | ||||||
| The output voltage | 220VAC ±2%(Battery mode) ±5%(Mains mode) | |||||||
| Output frequency | 50/60Hz±0.3Hz(Battery mode)Automatic tracking(Mains mode) | |||||||
| Output waveform | Pure sine wave | |||||||
other | protection | With overvoltage, overload, low pressure, high temperature and short circuit protection | ||||||
| display | LCD with LEDdisplay | |||||||
| cooling method | Intelligent speed regulation and air cooling | |||||||
| communication | RS-232/USB/SNMP(Optional) | |||||||
| Mains charging | Mains charging voltage | 13.8VDC( 12V)27.6VDC(24V) | ||||||
| Mains charging current | 10-50A | |||||||
| Maximum charging current | 01 | Mains priority mode | ||||||
| Maximum efficiency | 02 | Energy saving mode | ||||||
| Temperature compensation | 03 | Battery priority mode | ||||||
| working environment | temperature | -10~50℃ | ||||||
| humidity | <95%(No condensation) | |||||||
| Product Size | L*W*H(mm) | 280*275*120 | ||||||
| net weight(kg) | 7.5 | 8.1 | 8.3 | 9 | 9.1 | 9.3 | ||
| Product | L*W*H(mm) | 345*315*187 | ||||||
| packaging size | Gross weight(kg) | 8 | 8.6 | 8.8 | 9.5 | 9.7 | 10 | |
If the product model specification changes without notice