24V 1000 Watt Pure Sine Wave Inverter
Affordable price 24 volt 1000 watt pure sine wave inverter, 50/60Hz output frequency, USB port, LCD display, AC input voltage 110V, 220V, 230V, 240V, 100V are optional, with overheating protection, input over voltage protection, manufacturer direct sales.
Output Voltage (VAC)
Wired Control [+$15.38]
Wireless Control [+$18.69]
PRICE BREAKS - The more you buy, the more you save
24V 1000W pure sine wave inverter performs well, it can be used to run refrigerator, temporary lighting and rechargeable flashlight batteries. DC 24 volt to AC 220/230V/110V/100V, output frequency 50Hz or 60Hz.
Universal socket *1
DC 24V (19-31V)
AC Output Voltage
1- Phase (L + N, G)= 110V, 230V ±5%
Do Not provide split phase configuration (L1, L2 + N, G)
No-load Current (less-than)
50Hz or 60Hz
Pure Sine Wave
Max Working Efficiency
First alarm (breaking alarm sound is one), LED red light flashes, voltage continues to decrease and shut down
Continuous alarm, LED flashing red, off
Over Temperature Protection
First alarm (broken alarm sound is two), the temperature continues to rise, LED red light flashes and turns off
Short Circuit Protection
Short circuit protection without breaking the circuit
Undervoltage Alarm Range
Undervoltage Protection Range
Overvoltage Protection Range
Undervoltage Recovery Range
Overvoltage Recovery Range
Intelligent cold wind
2 Pure copper connection wires + 4 spare fuses
Output Sockets (Optional) Note: Inverter output voltage is 1-phase (L, N, G) only, Do Not provide split phase configuration (L1, L2 + N, G). Pure Sine Wave Inverter Remote Control & LCD Display (Optional)
Pure sine wave power inverter is available with remote control: wired control and wireless control.
LCD display shows input voltage, output voltage, output frequncy, battery capacity and power.
Intelligent integrated circuit control
Unique front and rear dual soft start technology, CPU core, SPWM pulse width control technology, special constant power technology, anti-reverse diode technology. Pure sine wave
100% pure sine wave output, low distortion, waveform and main power line AC waveform are basically the same, equipment accuracy is small, low interference, low noise, strong load capacity, can meet any type of AC load, without damaging the load. Imported parts
The materials are imported components, and the panel uses double-sided circuit boards to ensure high quality and high performance of the products, and to match the excellent quality of the detailed molds. Aluminum alloy casing
The surface of the aluminum alloy shell is sprayed and anodized, which is small in size, elegant in appearance and easy to carry. Working instructions intuitive working state
When the inverter undervoltage/overvoltage, overload, overtemperature, short circuit, the LED indicator lights. Multiple protection functions
Fault warning/buzzer alarm reminder
When the inverter high voltage, low voltage, over temperature, overload protection function is turned on, once the protection of the inverter is triggered, the inverter disconnects the power supply and the load enters the protection mode for the first time, and issues an alarm through the buzzer alarm device. Make your use more secure.
Tips: Why 1000W Pure Sine Wave Inverter Power Output Can Not Drive the Electrical 300W?
Determine if the inverter is faulty or the battery is faulty. Disconnect the battery pack and load the inverter with a load of 600 to 700 watts when the mains supply is running. Can work, indicating that the main components of the inverter are basically normal.
Measure the battery pack voltage and note the voltage value. Connect the battery pack, the AC power and the battery pack supply power to the inverter at the same time, and measure the battery pack voltage. If the value is higher than the previous measured value, the inverter charging circuit is normal. If the voltage is constant, it is the inverter. The charging part is broken. The 300 watt load cannot be used because the battery is not fully charged.
If the inverter charger is ok, it will react to the battery voltage being higher than when it is disconnected. Turn off the load, put the charging switch on the inverter into charging, and the charging ammeter on the panel should have a current reading close to one tenth of the battery capacity. Check the battery section by section with a multimeter. All battery voltages should be basically the same. If one or two voltages are too high, make a mark. Maybe these two pieces have problems. The battery is connected in series, which is equivalent to a set of series resistors for the charger. Which battery voltage is high indicates that the resistance is large, that is, the internal resistance is large. There is a problem with the internal resistance.
Turn off the mains, use the battery to supply power to the inverter, the inverter with a load of about 200 watts, use a multimeter to measure the voltage of each battery, the two high voltage when charging, then the voltage will be the lowest, further Confirm that there is a problem with these two batteries.
Remove the two batteries, focus on inspection, see if it can be repaired, can not be repaired, replaced. At this point, the problem of not being able to bring 300 watts should be basically solved.