Power |
Output voltage and current |
Input voltage |
Product size |
25W |
12V 2A/24V 1A |
176-264V |
90*40*22 |
36W |
12V 3A/24V 1.5A |
176-264V |
100*40*22 |
60W |
12V 5A/24V 2.5A |
176-264V |
114*49.5*22 |
100W |
12V 8.5A/24V4.25A |
176-264V |
138*49.5*22 |
150W |
12V 12.5A/24V6.25A |
176-264V |
178*49.5*22 |
200W |
12V 16.7A/24V8.35A |
176-264V |
178*49.5*22 |
300W |
12V 25A/24V 12.5A |
176-264V |
205*49.5*22 |
400W |
12V 33.3A/24V 16.65A |
176-264V |
238*49.5*22 |
400W |
12V 33.3A/24V 16.65A |
185-265V |
238*50*22 |
300W wide pressure |
12V 25A/24V 12.5A |
110V/220V |
234*49.5*22 |
400W wide pressure |
12V 33.3A/24V 16.65A |
110V/220V |
264*49.5*22 |
Product Description
Voltage stability
The voltage stability of the low-voltage power supply refers to the fluctuation range of the output voltage of the power supply under various load conditions. The power supply with high voltage stability can keep the output voltage stable when the load changes, reducing the interference and damage to the equipment .
Ripple coefficient
The ripple coefficient refers to the content of the AC component in the output voltage of the power supply, usually expressed as the ratio of the AC component of the output DC voltage to the DC component. Power supplies with low ripple coefficients provide a cleaner DC output and reduce interference with sensitive electronics .
efficiency
The efficiency of the power supply refers to the ratio of the input power to the output power, indicating the ability of the power supply to convert energy. High efficiency power supplies reduce energy loss and improve overall system energy efficiency .
Load adaptability
Load adaptability refers to the stable output capacity of the power supply under different load conditions. Good load adaptability can ensure that the power supply can work stably under different load conditions and avoid large fluctuations in output voltage