High-capacity aluminum electrolytic capacitors for robust electronic applications
Manufacturer: panasonic
# Introduction to the EET - EE2W471LJ Product Series
## Overview
The EET - EE2W471LJ product series represents a cutting - edge range of electronic components engineered to meet the diverse and demanding requirements of modern electronic systems. These components are designed with precision and incorporate advanced technologies to ensure high performance, reliability, and compatibility in a wide array of applications.
## Key Features
### High - Quality Capacitance
One of the standout features of the EET - EE2W471LJ series is its carefully calibrated capacitance. With a capacitance value of 470 pF (as indicated by the code 471, where the first two digits are the significant figures and the third is the multiplier), these components offer a stable and accurate electrical storage capacity. This makes them ideal for applications where precise capacitance values are crucial, such as in resonant circuits, filtering applications, and timing circuits.
### Low Tolerance
The series is characterized by a low tolerance level, denoted by the 'J' in the product code, which typically represents a tolerance of ±5%. This tight tolerance ensures that the actual capacitance of each component in the series closely matches the specified value. As a result, designers can rely on consistent performance across multiple units, reducing the need for additional calibration or compensation in the circuit design.
### Wide Operating Temperature Range
The EET - EE2W471LJ components are designed to operate effectively over a wide temperature range. This allows them to be used in various environments, from industrial settings with high - temperature conditions to automotive applications where temperature fluctuations are common. The ability to maintain stable performance across different temperatures ensures the reliability and longevity of the electronic systems in which they are integrated.
### High Dielectric Strength
These components feature high dielectric strength, which means they can withstand high voltages without breaking down. This property is essential in applications where the components may be exposed to transient voltage spikes or high - voltage operating conditions. The high dielectric strength provides an extra layer of protection, preventing short - circuits and other electrical failures.
## Physical Characteristics
### Compact Size
The EET - EE2W471LJ series is designed with a compact form factor, making it suitable for use in space - constrained electronic devices. The small size allows for easy integration into printed circuit boards (PCBs) without taking up excessive space, enabling designers to create more compact and efficient electronic products.
### Robust Construction
The components are built with a robust construction that can withstand mechanical stress, vibrations, and shocks. This makes them suitable for use in applications where the electronic devices may be subject to rough handling or harsh environmental conditions, such as in automotive electronics, aerospace systems, and industrial control equipment.
## Applications
### Consumer Electronics
In consumer electronics, the EET - EE2W471LJ series can be used in a variety of devices, including smartphones, tablets, and laptops. They can be employed in power management circuits, signal filtering, and RF (radio frequency) applications. For example, in a smartphone, these components can be used in the antenna tuning circuit to optimize the signal reception and transmission.
### Automotive Electronics
Automotive electronics require components that can operate reliably in harsh environments. The EET - EE2W471LJ series is well - suited for automotive applications, such as engine control units (ECUs), infotainment systems, and advanced driver - assistance systems (ADAS). Their ability to withstand high temperatures, vibrations, and electrical noise makes them a reliable choice for these critical automotive functions.
### Industrial Automation
In industrial automation, the series can be used in control systems, sensors, and power supplies. They can help in filtering out electrical noise, stabilizing power supplies, and ensuring accurate signal processing. For instance, in a factory automation system, these components can be used in the control circuit of