Small ceramic capacitors for high-precision electronic circuits
Manufacturer: murata
# Introduction to the GCM1885C2A8R0DZ13 Product Series
## 1. Overview
The GCM1885C2A8R0DZ13 product series represents a cutting - edge offering in the field of electronic components. These components are designed with high precision and advanced technology to meet the diverse and demanding requirements of modern electronic systems. Whether it's for consumer electronics, industrial automation, or telecommunications, this series provides reliable performance and functionality.
## 2. Physical Characteristics
### Size and Dimensions
The GCM1885C2A8R0DZ13 components are engineered with a compact form factor. The specific dimensions of the series are carefully optimized to fit into a wide range of circuit board designs. This compact size allows for high - density PCB layouts, which is crucial in today's miniaturized electronic devices. It enables designers to save valuable board space and create more streamlined and efficient products.
### Packaging
The components in this series come in a well - designed packaging that ensures protection during transportation and storage. The packaging is also designed to facilitate easy handling during the assembly process. It may be available in tape - and - reel packaging, which is compatible with automated pick - and - place machines commonly used in mass production environments. This helps to increase the efficiency of the manufacturing process and reduce production costs.
## 3. Electrical Performance
### Capacitance
The GCM1885C2A8R0DZ13 series offers a specific capacitance value. The capacitance is a key electrical parameter that determines the ability of the component to store electrical charge. This particular value is carefully selected to meet the requirements of various applications, such as filtering, coupling, and energy storage in electronic circuits. The capacitance value is maintained within a tight tolerance range, ensuring consistent performance across different components in the series.
### Voltage Rating
These components have a defined voltage rating, which indicates the maximum voltage that the component can safely withstand without experiencing electrical breakdown. The voltage rating is chosen to be suitable for a wide range of power supply levels commonly found in electronic systems. This allows the GCM1885C2A8R0DZ13 series to be used in different voltage environments, providing flexibility in circuit design.
### Frequency Response
The series exhibits excellent frequency response characteristics. It can effectively operate over a wide frequency range, making it suitable for both low - frequency and high - frequency applications. In high - frequency circuits, the component's low equivalent series resistance (ESR) and equivalent series inductance (ESL) values help to minimize signal losses and ensure efficient power transfer. In low - frequency applications, it can provide stable filtering and energy storage functions.
## 4. Material and Construction
### Dielectric Material
The GCM1885C2A8R0DZ13 series uses a high - quality dielectric material. The choice of dielectric material is crucial as it affects the component's electrical performance, such as capacitance stability, temperature coefficient, and insulation resistance. The dielectric material used in this series is selected for its excellent electrical properties, high dielectric constant, and good temperature stability. This ensures that the component can maintain its performance under different operating temperatures.
### Electrodes
The electrodes in the components are made of high - conductivity materials. The high - conductivity electrodes help to reduce the resistance in the circuit, which in turn improves the overall efficiency of the component. The electrodes are also designed to have good adhesion to the dielectric material, ensuring a stable and reliable electrical connection.
## 5. Applications
### Consumer Electronics
In consumer electronics, such as smartphones, tablets, and laptops, the GCM1885C2A8R0DZ13 series can be used for power management, signal filtering, and decoupling. For example, it can be used to
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