The DC-DC Converter may be damaged if it is not powered on for a long time

An electrolytic capacitor is a commonly used electronic component that consists of two conductive foils (aluminum or tantalum) with an insulating medium (usually an oxide film or polypropylene film) sandwiched between them. Its primary functions are charge storage and filtering.

Principle of Operation: The working principle of electrolytic capacitors is based on ion conduction. When a voltage is applied to the capacitor, positive and negative ions within the electrolyte collide and accumulate on the respective plates, resulting in the formation of charges. These accumulated charges establish an electric field between the plates, enabling the capacitor to store charge.

During charging, positive ions migrate toward the negative plate while negative ions move toward the positive plate until equilibrium is reached, balancing the charges on both plates. Upon discharging, positive ions flow from the positive plate to the negative plate, while negative ions flow from the negative plate to the positive plate, depleting the stored charges on the plates.

Also Read: How to reduce the ripple of DC-DC converter

Overall, electrolytic capacitors exploit ion conduction phenomena to facilitate the storage and release of electrical energy, allowing for their usage in various applications such as smoothing power supply voltages and coupling signals in electronic circuits.

If an electrolytic capacitor in a DC-DC converter remains unpowered for an extended period, it may experience breakdown or deterioration. Although electrolytic capacitors generally have long lifespans, prolonged inactivity can lead to aging and subsequent performance degradation or damage. This is primarily due to the oxidation or drying out of the capacitor’s medium when not energized.

When a capacitor remains unpowered for an extended duration, the dielectric material inside can undergo oxidation, forming an oxide film. This oxide film acts as a hindrance to current flow, resulting in reduced capacitance. Additionally, the absence of electrical charge can cause the dielectric to dry out, which further affects its conductivity. A dried-out dielectric increases leakage current within the capacitor, leading to a shortened lifespan.

Furthermore, the temperature of an unpowered capacitor tends to rise over time. Capacitors generate heat during charging and discharging processes. Without regular energization, the temperature within the capacitor continues to increase, ultimately causing performance degradation or potential damage.

To ensure optimal performance and longevity, it is advisable to periodically power up and utilize electrolytic capacitors, especially if they have been inactive for an extended duration.

How to prevent the capacitor in the DC-DC Converter from being damaged if it is not powered on for a long time

In order to prevent the capacitor from being damaged if it is not energized for a long time, the following measures can be taken:

1. Periodic energization: Even if you do not need to use a capacitor, it should be energized at regular intervals. This keeps the dielectric of the capacitor moist and prevents it from drying out and aging. Normally, it is recommended to power on once a month.
2. Avoid excessive discharge: When using capacitors, excessive discharge should be avoided. Excessive discharge will cause the dielectric of the capacitor to dry out and age, thereby affecting its performance and life. Therefore, when using a capacitor, the discharge time and discharge current should be controlled as much as possible.
3. Avoid overcharging: When using capacitors, overcharging should be avoided. Overcharging will cause the dielectric of the capacitor to be oxidized and aged, thus affecting its performance and life. Therefore, when using a capacitor, the charging time and charging current should be controlled as much as possible.
4. Avoid high temperature environment: The working temperature of capacitors is generally between -50°C~+105°C. If it is in a high temperature environment for a long time, it will cause the dielectric aging and damage of the capacitor. Therefore, when using capacitors, you should try to avoid exposing them to high temperature environments