In general, a blown fuse indicates a problem with the internal wiring of the power supply. Due to the operation of the power supply at high voltage and high current, fluctuations and surges in the grid voltage can cause an instantaneous increase in the current inside the power supply, causing the fuse to blow. The key should be to check the rectifier diode, high-voltage filtering electrolytic capacitor, inverter power switch tube, etc. at the input end of the power supply, and check if these components have breakdown, open circuit, damage, etc. If the fuse is indeed blown, you should first check the various components on the circuit board to see if their appearance has been burnt or if there is electrolyte overflow. If the above situation is not found, use a multimeter to measure whether the switch tube has a breakdown short circuit. It should be noted that when a certain component is found to be damaged, it should not be replaced and turned on directly. This is very likely that the replaced component will be damaged due to other high-voltage components still having faults. It is necessary to conduct * * inspection and measurement on all high-voltage components of the above circuit before thoroughly eliminating the fuse blowing fault. Humidity sensor probe, stainless steel electric heating tube PT100 sensor, cast aluminum heater, heating coil fluid solenoid valve

No DC tensiune ieșire sau instabil tensiune ieșire

If the fuse is intact, there is no output of DC voltage at all levels under load. This situation is mainly caused by the following reasons: open circuit and short circuit phenomena in the power supply, faults in overvoltage and overcurrent protection circuits, auxiliary power supply faults, oscillation circuit not working, excessive power load, breakdown of rectifier diodes in high-frequency rectification and filtering circuits, leakage of filtering capacitors, etc. After measuring the secondary components with a multimeter and ruling out high-frequency rectifier diode breakdown and load short circuit, if the output is zero at this time, it can be confirmed that the control circuit of the power supply has malfunctioned. If there is a partial voltage output, it indicates that the front-end circuit is working normally, and the fault is in the high-frequency rectification and filtering circuit. The high-frequency filtering circuit mainly consists of a rectifier diode and a low-voltage filtering capacitor to form a DC voltage output. The breakdown of the rectifier diode will cause the circuit to have no voltage output, and the leakage of the filtering capacitor will cause faults such as unstable output voltage. Using a multimeter to statically measure the corresponding components can detect the damaged components.

Slab putere încărcare capacitate

Slab sarcină capacitate de putere alimentare este a comun defect , care de obicei apare în de modă veche sau lung de lucru putere consumabile. Motivele principale sunt îmbătrânire din diverse componente% 2c instabil funcționare din comutator tuburi% 2c și eșec la timp căldură disipare. Accent ar trebui să fie plasat pe verificare pentru încălzire și scurgere din tensiune regulator diodă% 2c deteriorare la redresor diodă% 2c și deteriorare la de înaltă tensiune filtrare condensator.