Manufacturer Part Number
MACH211SP-7VC
Manufacturer
Lattice Semiconductor
Introduction
The MACH211SP-7VC is a high-performance, low-power Complex Programmable Logic Device (CPLD) from Lattice Semiconductor. It offers a versatile and configurable logic solution for a wide range of embedded applications, with a unique combination of features and performance.
Product Features and Performance
4 Logic Elements/Blocks
64 Macrocells
32 I/O Pins
5 ns Maximum Delay Time (tpd(1))
75V to 5.25V Internal Voltage Supply
0°C to 70°C Operating Temperature Range
Surface Mount, 100-LQFP Package
Product Advantages
High-performance logic with low power consumption
Flexible and configurable architecture for diverse applications
Reliable and robust design for industrial and embedded use
Easy integration and implementation in various systems
Key Reasons to Choose This Product
Exceptional speed and efficiency for time-critical applications
Broad compatibility and adaptability to different design requirements
Proven reliability and longevity in the field
Excellent value and cost-effectiveness for budget-conscious projects
Quality and Safety Features
Rigorously tested and validated for quality and reliability
Compliance with industry standards and safety regulations
Robust design and thermal management for industrial environments
Compatibility
The MACH211SP-7VC is compatible with a wide range of embedded systems, industrial automation equipment, and other applications that require high-performance, configurable logic solutions.
Application Areas
Industrial automation and control systems
Embedded systems and IoT applications
Telecommunications and networking equipment
Automotive and transportation electronics
Medical and healthcare devices
Product Lifecycle
The MACH211SP-7VC is an active product in our website's sales team's portfolio. There are no immediate plans for discontinuation, and the team continues to provide support and updates for this model. However, as technology evolves, customers should contact our website's sales team for the latest information on equivalent or alternative models that may be available in the future.
