Manufacturer Part Number
LMH6574MAX
Manufacturer
Texas Instruments
Introduction
The LMH6574MAX is a high-performance video 4:1 multiplexer/demultiplexer component designed for professional video signal processing applications.
Product Features and Performance
High -3db Bandwidth of 500MHz allowing for high-speed video signal processing.
Operates with a flexible supply voltage, supporting both single (6V to 12V) and dual (±3V to 6V) power supplies.
Features buffered outputs for enhanced signal integrity.
Surface Mount 14-SOIC package facilitates compact and efficient PCB design.
Product Advantages
Exceptional bandwidth suitable for high-definition video applications.
Flexible voltage compatibility enhances design versatility across various systems.
Buffered outputs prevent signal degradation over long distance transmissions.
Key Technical Parameters
Multiplexer/Demultiplexer Circuit: 4:1
Number of Channels: 1
Voltage Supply, Single (V+): 6V ~ 12V
Voltage Supply, Dual (V±): ±3V ~ 6V
-3db Bandwidth: 500MHz
Operating Temperature: -40°C ~ 85°C
Mounting Type: Surface Mount
Package / Case: 14-SOIC
Quality and Safety Features
Designed in compliance with industry-standard quality and safety norms.
Operates reliably within a broad range of temperatures (-40°C to 85°C).
Compatibility
The surface-mount 14-SOIC package is widely used, making it compatible with a vast range of PCB designs.
Application Areas
Professional video signal processing
High-definition video switching and routing applications
Product Lifecycle
The product is marked as Obsolete, indicating it is no longer in production.
Customers are advised to seek replacements or consult Texas Instruments for potential upgrades.
Several Key Reasons to Choose This Product
High bandwidth capability fitting for advanced video applications.
Supports both single and dual power supply modes, offering design flexibility.
Buffered outputs maintain signal quality over distances.
Robust operating temperature range ensures reliability in varied environments.
Though Obsolete, it might still offer unmatched performance for specific legacy systems.