Manufacturer Part Number
GCJ21BR71A106KE01L
Manufacturer
murata-electronics
Introduction
A high-quality ceramic capacitor designed with advanced materials for enhanced performance, specifically tailored for automotive and boardflex sensitive applications.
Product Features and Performance
Ceramic Capacitor Type
Soft Termination for improved board flex resistance
Designed to meet AEC-Q200 standards for automotive reliability
X7R Temperature Coefficient for stable capacitance across a wide temperature range
Operating Temperature Range of -55°C to 125°C
Product Advantages
High capacitance (10 µF) in a compact 0805 footprint
Durable and reliable, suitable for demanding automotive applications
Tolerance of ±10% provides consistent performance
Soft termination minimizes the risk of mechanical stress and damage
Key Technical Parameters
Capacitance: 10 µF
Voltage Rated: 10V
Temperature Coefficient: X7R
Operating Temperature: -55°C to 125°C
Packaging: Tape & Reel (TR) for efficient assembly processes
Mounting Type: Surface Mount, MLCC
Quality and Safety Features
Meets AEC-Q200 standards, ensuring automotive grade reliability and performance
Soft termination technology enhances durability against board flexing
Compatibility
Tailored for use in automotive environments and other applications sensitive to board flex
Application Areas
Automotive electronics such as engine controls, power management systems, and entertainment systems
Electronics that require high reliability and are sensitive to board flexing
Product Lifecycle
Currently Active with no immediate discontinuation notice
Continuous support and availability of replacements or upgrades anticipated
Several Key Reasons to Choose This Product
Compact size and high capacitance value provide excellent space efficiency
Proven reliability in automotive and boardflex sensitive environments
Complies with stringent automotive quality standards (AEC-Q200)
Wide operating temperature range supports diverse application needs
Soft termination technology minimizes risk of damage from mechanical stress