10uF 100V X7R +/-10% 1206 MLCC, refer to Hongda Part.NO. HLC1206X7R106K101N.
This MLCC is a versatile capacitor with a 10 µF capacitance, 100V rating, and X7R dielectric, package size 1206 making it suitable for a wide range of electronic products and circuits.
1.Construction: Multilayer ceramic structure for compactness and efficiency.
2.ESR (Equivalent Series Resistance): Low ESR, making it suitable for decoupling and filtering applications.
3.Temperature Coefficient: X7R material ensures stability in capacitance over temperature changes.
4.Applications: Commonly used in power supplies, automotive electronics, decoupling, and signal filtering circuits.
5.Reliability: High reliability for both industrial and consumer applications.
Filtering Circuits:
In energy storage battery circuits, the DC output of the power supply may contain ripples and noise. The HLC1206X7R106K101N MLCC can filter out these unwanted signals, resulting in a smoother and more stable output voltage. This ensures the delivery of clean DC power to subsequent circuits, such as battery management systems, and contributes to their stable operation.
Energy Storage Circuits:
With its energy storage capability and relatively large capacitance, this MLCC can store and release energy during the charging and discharging cycles of the battery. It acts as a buffer, stabilizing voltage and current in the circuit and protecting components from damage caused by sudden voltage or current spikes.
Coupling Circuits:
In the signal transmission of energy storage battery systems, this MLCC connects different circuit levels, allowing AC signals to pass through while blocking DC components. This facilitates effective signal transmission and isolation, ensuring the quality of communication and control within the battery system.
Decoupling Circuits:
The MLCC eliminates interference between components in the energy storage battery circuit. When a component's current changes, the capacitor can quickly provide or absorb current to maintain voltage stability. This prevents one component from interfering with others, ensuring proper operation and enhancing the reliability and stability of the circuit.
Bypass Circuits:
The capacitor provides a low-impedance path for AC signals, allowing high-frequency noise and interference signals to bypass to ground. This reduces their impact on the main signals in the circuit, ensuring signal integrity and accuracy while improving the circuit’s anti-interference performance.
The number of MLCCs used in energy storage battery circuits is not fixed and depends on several factors:
1. Circuit Function and Design
Filtering Circuits:
For simple power filtering, a few to a dozen capacitors may be placed at the input and output terminals of the energy storage battery to filter noise at various frequencies. For example, in small household energy storage systems, 3-5 capacitors per terminal are sufficient for basic filtering needs. However, for complex multi-stage filtering circuits, tens of capacitors might be required to ensure clean power output.
Energy Storage Circuits:
When used as storage capacitors, the quantity depends on parameters like battery capacity, charge/discharge current, and voltage. In small battery modules, a few to a dozen capacitors might meet the demand for instantaneous high current. For large-scale energy storage stations, ensuring system stability and reliability may require dozens or even hundreds of MLCCs.
2. System Scale and Complexity
Small Energy Storage Devices:
For portable power sources with lower power and simpler circuits, the number of MLCCs used is typically 10-30 pcs
Large Energy Storage Systems:
Grid-level energy storage stations, with extensive battery arrays and complex control circuits, require high voltage stability and current balancing. These systems may use hundreds or even thousands of MLCCs.
3. Component Layout and Space Constraints
Ample Space:
In spacious setups, such as large energy storage cabinets or outdoor systems, additional MLCCs can be added to enhance circuit performance. For instance, in some industrial energy storage systems, 50-100 MLCCs may be used without impacting the layout of other components.
Limited Space:
In compact and highly integrated energy storage products, space is at a premium. The number of MLCCs is minimized while meeting performance requirements, typically ranging from a few to a dozen.
This flexibility in usage highlights the adaptability of the 10uF 100V X7R +/-10% 1206 MLCC across various energy storage applications.
Hongda Capacitors offer wide range of MLCC. Welcome to share your parameters and application with us, so we can provide our best offer for you. Thank you.
Case size : 0201 to 2220.
Capacity : 0.1pF to 470uF.
Voltage : 2.5V-7200V.
