Compact 0402 ceramic capacitors for surface-mount electronic circuits
Manufacturer: taiyo-yuden
# Introduction to the LMK105BJ104KV - F Product Series
## Overview
The LMK105BJ104KV - F product series represents a cutting - edge range of electronic components that are designed to meet the diverse and demanding requirements of modern electronic circuits. These components are engineered with precision and incorporate advanced technologies to ensure high performance, reliability, and stability in a wide variety of applications.
## Key Specifications
### Capacitance
The "104" in the model number indicates a capacitance value. In the common capacitor coding system, 104 represents a capacitance of 10 × 10⁴ picofarads (pF), which is equivalent to 0.1 microfarads (μF). This capacitance value makes the LMK105BJ104KV - F suitable for a range of filtering, coupling, and decoupling applications in electronic circuits.
### Voltage Rating
The "KV" in the model number suggests a relatively high voltage rating. This component is capable of withstanding a significant amount of electrical potential difference across its terminals. The high - voltage rating makes it ideal for use in circuits where there are high - voltage transients or where the operating voltage of the circuit is relatively high. It provides a safety margin and ensures that the capacitor can operate without breakdown under normal and abnormal voltage conditions.
### Tolerance
The "B" in the model number typically represents a capacitance tolerance. A "B" tolerance usually means a tolerance of ± 0.1 pF for very small - value capacitors or ± 10% for larger - value capacitors like the 0.1 μF in this series. This level of tolerance ensures that the actual capacitance value of the component is within an acceptable range of the specified value, which is crucial for the proper functioning of the circuit.
### Temperature Coefficient
Although not explicitly stated in the model number, the LMK105BJ104KV - F series is likely to have a well - defined temperature coefficient. The temperature coefficient determines how the capacitance value of the capacitor changes with temperature. A stable temperature coefficient ensures that the performance of the capacitor remains consistent over a wide temperature range, making it suitable for use in environments with varying temperatures.
## Physical Characteristics
### Size and Dimensions
The LMK105BJ104KV - F components are designed to have a compact form factor. This is important for modern electronic devices, which are constantly being miniaturized. The small size allows for easy integration into printed circuit boards (PCBs) with limited space, enabling the design of more compact and lightweight electronic products.
### Packaging
The series is available in a suitable packaging format, such as surface - mount technology (SMT) packages. SMT packages are widely used in the electronics industry because they offer several advantages, including ease of automated assembly, better electrical performance due to shorter lead lengths, and improved mechanical stability on the PCB.
## Performance Features
### Low ESR (Equivalent Series Resistance)
The LMK105BJ104KV - F capacitors have a low equivalent series resistance. Low ESR is beneficial in applications where high - frequency performance is required. It reduces power losses in the capacitor, minimizes heat generation, and improves the efficiency of the circuit. In power supply decoupling applications, low ESR helps to filter out high - frequency noise and ripple more effectively.
### High Insulation Resistance
These components exhibit high insulation resistance between their terminals. High insulation resistance ensures that there is minimal leakage current flowing through the capacitor when it is in operation. This is important for maintaining the integrity of the circuit and preventing unwanted power dissipation. It also helps to improve the overall reliability of the electronic system.
### Good Frequency Response
The LMK105BJ104KV - F series offers a good frequency response. It
0402 (MK105)
xMK Series_0402
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