Good electrical properties and stable performance
Good solder resistance and solderability, and strong high temperature compliance ability.
Good storage performance in high and low temperature environment and humid and hot environment
Product Packaging Drawing:
Application Area :
What is the role of multilayer ceramic capacitors?
1. Energy storage exchange: generate and release an electrical energy through its charging and discharging process.
2. Blocking DC (bypass and coupling)
Since the monolithic capacitor is not a conducting body, it reflects the phenomenon that both ends are charged through the regular steering of the AC. Therefore, it can be connected in parallel with other components in the circuit to allow the AC to pass through and the DC to be blocked, which acts as a bypass.
In the AC circuit, the monolithic capacitor is charged and discharged following the change of the polarity of the input signal, so that the circuit connecting the two ends of the monolithic capacitor is in a conducting state and acts as a coupling.
Generally speaking, the monolithic capacitor connected to the input end of the amplifier or op amp is the coupling monolithic capacitor; the monolithic capacitor connected to the emitter of the amplifier or op amp is the bypass monolithic capacitor.
Both are mainly class II monolithic capacitors, especially 0.1uF capacitors.
3. Frequency discrimination filter
In an AC circuit, for a multi-frequency mixed signal, we can use a monolithic capacitor to separate its parts. Generally speaking, we can use a monolithic capacitor with a reasonable capacitance to filter out most of the low-frequency signal. This is mainly based on high frequency or ultra high frequency monolithic capacitors.
4.Suppression of surge voltage
Since the monolithic capacitor is an energy storage element, in the circuit, it can remove those short-term surge pulse signals, and can also absorb the excess energy generated by the voltage fluctuations in the circuit. Filtering is mainly based on high-frequency products.