1.High stability

Solid capacitor (Solid aluminum electrolytic capacitor) can continue to work stably in high temperature environments. Solid aluminum electrolytic capacitors can directly improve the performance of the motherboard. At the same time, it is suitable for power supply filtering due to its stable impedance over a wide temperature range. It can effectively provide a stable and abundant power supply, which is especially important in overclocking.

Solid capacitors still work well in high temperature environments, maintaining a variety of electrical performance. Its capacitance does not vary by more than 15% over the full temperature range, significantly better than liquid electrolytic capacitors. At the same time, the capacitance of the solid electrolytic capacitor is basically independent of its working voltage, thus ensuring its stable operation in a voltage fluctuation environment.

2. Long life

Solid aluminum electrolytic capacitors have an extremely long service life (more than 50 years of service life). Compared with liquid aluminum electrolytic capacitors, it can be counted as “long life”. It will not be broken down, and there is no need to worry about the electrolyte electrolyte drying and leakage affecting the stability of the motherboard. Due to the lack of liquid electrolyte problems, solid aluminum electrolytic capacitors make the motherboard more stable and reliable.

Solid electrolytes do not evaporate and even burn like liquid electrolytes in high heat environments. Even if the temperature of the capacitor exceeds its tolerance, the solid electrolyte is only melted, which does not cause the capacitor metal casing to burst and is therefore safe.

The working temperature directly affects the life of the electrolytic capacitor. The solid electrolytic capacitor and the liquid electrolytic capacitor have a significantly longer life in different temperature environments.

solid capacitor

3. Low ESR and high rated ripple current

ESR (Equivalent Series Resistance) refers to the series equivalent resistance, which is a very important indicator of capacitance. The lower the ESR, the faster the capacitor charge and discharge. This performance directly affects the decoupling performance of the microprocessor power supply circuit. The advantages of the low ESR characteristics of the solid electrolytic capacitor in the high frequency circuit are more obvious. It can be said that the low ESR characteristic at high frequencies is a watershed between the performance difference between solid electrolytic capacitors and liquid capacitors. Solid aluminum electrolytic capacitors have very low ESR with very little energy dissipation. The extremely low ESR characteristics of solid capacitors under high temperature, high frequency and high power operating conditions can fully absorb the high amplitude voltage generated between the power lines in the circuit to prevent its interference with the system.

At present, the CPU power consumption is very large, the main frequency has far exceeded 1GHz, and the peak current of the CPU reaches 80A or more, and the output filter capacitor is close to the working critical point. On the other hand, the CPU uses a variety of operating modes, most of which are in the conversion process of the operating mode. When the CPU changes from a low-power state to a full-load state, the large amount of energy required for the instantaneous (usually less than 5 milliseconds) switching of the CPU comes from the capacitance in the CPU power supply circuit. At this time, the high-speed charge and discharge characteristics of the solid capacitor can be instantaneous. Output high peak current to ensure sufficient power supply and ensure stable CPU operation.