1. High capacity and high precision: Communication equipment needs to use high-precision capacitors, which have precise capacitance and low steady-state leakage current, and can meet the requirements of signal transmission quality.
2. Wide operating frequency: Communication equipment needs to use broadband high-speed capacitors, which can work smoothly in high-frequency circuits, which is crucial to the guarantee of signal transmission.
3. Stable temperature characteristics: Communication equipment needs to use capacitors with stable temperature characteristics, which can operate for a long time under harsh environmental conditions, such as low temperature and high temperature, humidity and dryness, etc.
4. High-current discharge: communication equipment needs to use high-current discharge capacitors, which can operate stably in the circuit while ensuring the safety and reliability of the circuit.
1. Filter: Capacitors are widely used as filters in communication equipment, which can remove clutter interference signals in the circuit and ensure the clarity and accuracy of the signal.
2. Signal coupler: Capacitors are widely used as signal couplers in communication equipment. Using their high-precision capacitance characteristics, the signal can be transmitted to the designated position in the circuit.
3. Tuner: Capacitors are widely used as tuners in communication equipment, which can help users adjust the frequency and oscillation mode of the circuit according to the needs of the circuit to achieve better results.
4. Large capacitors: In the field of high-end communication equipment, capacitors are widely used in large-capacitance discharge circuits, which can output large currents in a short time to meet specific signal transmission requirements.
Capacitors have a wide range of applications in the field of communication equipment, covering many different application scenarios. They can not only filter out noise signals in circuits, ensure clear and accurate signal transmission, but also provide Different functional characteristics such as high-precision capacitors, large capacitors, and high-speed capacitors can meet the different requirements of users for signal transmission. At the same time, as the requirements of communication equipment for specific data transmission scenarios continue to increase, the application of capacitors will also be further expanded, injecting more application possibilities and values into the communication field.
Solid state stacking
Solid state patch type
Conductive polymer tantalum electrolytic capacitor