Manufacturer Part Number
MAX7418EUA+T
Manufacturer
Analog Devices
Introduction
The MAX7418EUA+T is an elliptic, low-pass switched capacitor filter designed for applications requiring precise frequency cutoffs in the 45kHz range.
Product Features and Performance
Operates as an elliptic, low-pass switched capacitor filter
Precise 45kHz frequency cutoff
Single filter configuration
5th order filter provides sharper cutoff slope
Requires 4.5V to 5.5V supply voltage for operation
Surface mount technology for compact and efficient design
Packaged in an 8-TSSOP, 8-MSOP (0.118", 3.00mm width) format for easy integration into various systems
Product Advantages
Provides high-quality signal filtering
Sharp cutoff characteristics ideal for various signal processing applications
Low power consumption enhancing device efficiency
Minimal external components needed due to integrated switched capacitor design
Compact and lightweight design suitable for high-density PCB layouts
Key Technical Parameters
Filter Type: Elliptic, Low Pass Switched Capacitor
Frequency Cutoff or Center: 45kHz
Number of Filters: 1
Filter Order: 5th
Voltage Supply: 4.5V ~ 5.5V
Mounting Type: Surface Mount
Package / Case: 8-TSSOP, 8-MSOP
Quality and Safety Features
Manufactured by Analog Devices, ensuring high quality and reliability
Complies with standard industry safety and quality norms
Compatibility
Designed for straightforward compatibility with surface mount technologies
Application Areas
Signal processing
Audio equipment
Data communication devices
Medical instruments
Industrial control systems
Product Lifecycle
Status: Active
Not nearing discontinuation, with availability of replacements and upgrades through Analog Devices
Several Key Reasons to Choose This Product
Precision filtering capabilities with a sharp cutoff at 45kHz
Low power consumption suitable for battery-powered devices
High quality and reliability backed by Analog Devices
Minimal external component requirement simplifies design and reduces system cost
Compact form factor enables integration into various electronic systems without sacrificing performance