Manufacturer Part Number
10M16SAE144I7G
Manufacturer
Intel
Introduction
Intel's 10M16SAE144I7G is a highly integrated, embedded Field Programmable Gate Array (FPGA) from the MAX® 10 series designed for versatile applications.
Product Features and Performance
1000 Logic Array Blocks/LABs
16000 Logic Elements/Cells
562176 Total RAM Bits
101 Input/Output Pins
Supports 2.85V to 3.465V Supply Voltage
Surface Mount Package
Operational temperature range from -40°C to 100°C (TJ)
Product Advantages
Optimized for low power and cost-sensitive applications
Flexible and reconfigurable logic solution
Integrates analog features, soft intellectual property (IP) cores, and memory interfaces
Provides instant-on, non-volatile capabilities
Key Technical Parameters
Number of LABs/CLBs: 1000
Number of Logic Elements/Cells: 16000
Total RAM Bits: 562176
Number of I/O: 101
Voltage - Supply Range: 2.85V to 3.465V
Mounting Type: Surface Mount
Quality and Safety Features
Strict adherence to industry quality standards
Robust thermal management design with an exposed pad package for enhanced heat dissipation
Compatibility
Compatible with other devices in the Intel MAX® 10 FPGA series
Configurable I/O standards for broad interfacing options
Application Areas
Internet of Things (IoT)
Industrial control systems
Automotive electronics
Consumer electronics
Power management systems
Product Lifecycle
Active Product Status
Indicates no immediate risk of discontinuation
Availability of support and future upgrades
Several Key Reasons to Choose This Product
High integration reduces overall system complexity and BOM cost
Instant-on functionality makes it suitable for applications requiring fast startup
Low power consumption extends device battery life and lowers thermal emissions
Intel's reputation for reliability and support in semiconductor solutions
It has a wide operating temperature range suitable for industrial and automotive applications
Ease of programmability offers product longevity through firmware updates and reconfiguration
Extensive resources including development kits, software tools, and community support
Reprogrammability and non-volatility contribute to enhanced product flexibility and life cycle management