Low cost 500W/1000W power inverter converts 24V DC to 110V/220V AC household power. With full safety protections against over voltage, under voltage, over load, over temperature, short circuit and reverse connection, it is great choice to keep your device from damage when powering mobile phone, laptop, iPad, kindle, digital camera, fan, light, etc.
500W 24V Inverter Specification
| Model |
ATO-M500W |
| Input Voltage |
DC 24V |
| Output Voltage |
1-Phase (L, N, G) 110V/120V AC ±5% or 220V/230V/240V AC ±5%
- NOT provide split phase configuration (L1, L2+N, G) |
| Unload Current (less than) |
0.1A |
| Continuous Power |
500W |
| Peak Power |
1000W |
| Output Frequency |
50Hz±0.5Hz or 60Hz±0.5Hz |
| Output Waveform* |
Modified sine wave or Pure sine wave |
| Max. Efficiency |
90% |
| USB Port |
5V 1A |
| Outlet Type |
Universal outlet *1 |
| Input Voltage Range |
20V-31V |
| Low Voltage Alarm |
21V±0.5V |
| Low Voltage Protection |
20V±0.5V |
| High Voltage Protection |
31V±0.5V |
| Overload Protection |
Yes |
| Overheat Protection |
Yes |
| Short Circuit Protection |
Yes |
| Reverse Connection Protection |
Yes |
| Cooling Method |
Intelligent cooling fan |
| Working Temperature |
-10℃ ~ +50℃ |
| Storage Temperature |
-30℃ ~ +70℃ |
| Product Size |
225x115x60mm |
| Net. Weight |
970g |
| Warranty |
1 year |
Note: * The AC output is 1-Phase (L, N, G), NOT Split Phase like USA standard (L1, L2+N, G).
Output Sockets (Optional)
Protection Function
- Low voltage
Alarm at first; voltage continuously reduce, LED Red light on & shut down.
- Over voltage
LED Red light on, shut down
- Over load
LED Red light on, shut down
- Over temperature
Alarm at first; temperature continuously rise, LED Red light on & shut down.
- Short circuit
LED Red light on
- Input reverse polarity
Fuse burn-out
Power Inverter Applications
Tips: How to change the 24V power inverter to 12V?
It can be add a DC/DC transformer, stepping down the 24V DC to 12V DC, and the 24V inverter will be changed to 12V.
Generally speaking, the DC transformer is used for voltage conversion. It obtains energy from a certain voltage source, converts it into AC energy by using oscillators, then steps down or steps up the voltage, and then restores it to DC through rectifying circuit. When the requirements are relatively high, the feedback circuit is needed to conduct closed-loop control, so that the output voltage is relatively stable. There are two basic types of DC transformers: DC-DC converters that output the stabilized voltage and "DC transformers" that regulate the output voltage with the input.
