company blog about Intel 10M25DCF256I7G High Performance 450MHz Field Programmable Gate Array IC

Intel 10M25DCF256I7G High Performance 450MHz Field Programmable Gate Array IC

Shenzhen Mingjiada Electronics Co., Ltd., as a globally renowned authorised independent distributor of electronic components, specialises in supplying Intel's high-performance 10M25DCF256I7G Field-Programmable Gate Array (FPGA) chips. This product, based on the Intel MAX® 10 series, features 25,000 logic cells, a 450MHz operating frequency, and 178 I/O interfaces, making it an ideal choice for industrial control, communication equipment, and embedded system development.

Product Overview and Technical Specifications of the 10M25DCF256I7G:

The 10M25DCF256I7G is a high-performance product within the MAX® 10 series of field-programmable gate arrays (FPGAs), featuring an advanced 256-FBGA package, optimised for embedded systems requiring high flexibility and performance.

In terms of core parameters, the 10M25DCF256I7G demonstrates outstanding technical characteristics:

Logic Capacity: Provides 25,000 logic elements (LE) to support the implementation of complex logic functions

Operating Frequency: Maximum operating frequency of 450MHz to meet high-speed data processing requirements

I/O interfaces: Features 178 programmable I/O pins, offering a wide range of connectivity options

Storage resources: Includes 675 kbit of embedded memory, reducing reliance on external storage

Power characteristics: Operating voltage range of 1.15V to 1.25V, with a typical operating voltage of 1.2V

Temperature range: Supports industrial-grade temperature range (-40°C to 100°C), suitable for harsh environments

Package Type: 256-ball FineLine BGA package, compact size, suitable for space-constrained applications

A notable feature of the MAX® 10 series FPGA is its non-volatile characteristics. The 10M25DCF256I7G incorporates flash configuration memory, enabling instant startup without external configuration devices, simplifying system design and reducing overall costs. This feature makes it particularly suitable for applications requiring rapid startup, such as industrial control, automotive electronics, and medical devices.

In terms of architectural advantages, the 10M25DCF256I7G device employs mature FPGA technology, featuring 1,562.5 logic array blocks (LABs), each composed of multiple logic units, providing an efficient and flexible logic implementation platform. The device also integrates various hard IP modules, including:

Embedded Memory Block (EMB)

Digital Signal Processing (DSP) Block

Phase-Locked Loop (PLL) Clock Management Circuit

Analogue-to-Digital Converter (ADC) Interface

These integrated functional modules significantly reduce the need for external components, enabling more compact system designs while enhancing reliability and performance.

Application Areas and Solutions for the 10M25DCF256I7G:

The 10M25DCF256I7G FPGA demonstrates broad application potential across multiple industries due to its high performance, low power consumption, and reconfigurable characteristics.

Industrial automation and control systems are the traditional strongholds of the 10M25DCF256I7G FPGA:

Real-time control: Utilising a high operating frequency of 450MHz and 178 I/O interfaces to achieve real-time tasks such as multi-axis motion control and PLC logic processing

Machine vision: Accelerating image acquisition and pre-processing algorithms through parallel processing capabilities to improve detection efficiency

Industrial communication: Hardware acceleration for multiple industrial fieldbus protocols (e.g., PROFIBUS, EtherCAT)

Predictive maintenance: Combines built-in ADCs for equipment condition monitoring and anomaly detection algorithms

In the field of communication devices, the 10M25DCF256I7G demonstrates outstanding signal processing capabilities:

Protocol Conversion: Flexibly bridges different communication standards

Packet Processing: High-speed processing of network data streams, supporting QoS policy implementation

Wireless Baseband Processing: Used for small base stations and RF front-end control

Interface Expansion: Provides additional serial or parallel interfaces for the processor

Consumer electronics and IoT devices also benefit from the features of the 10M25DCF256I7G FPGA:

Smart home control: Integrates multiple sensor interfaces and communication protocols

Display processing: Drives high-resolution displays and implements image enhancement algorithms

Edge computing: Performs data pre-processing at the edge to reduce the burden on cloud transmission

Low-power design: 1.2V operating voltage and power management features extend battery life

For automotive electronics applications, the industrial-grade temperature range (-40°C to 100°C) of the 10M25DCF256I7G enables it to withstand the harsh demands of in-vehicle environments:

In-vehicle infotainment systems: Supports multi-display driving and audio processing

Advanced driver-assistance systems (ADAS): Pre-processing for sensor data fusion

Body control: Integrates control logic for door locks, lighting, air conditioning, etc.

In-vehicle network gateway: Enables conversion between bus protocols such as CAN, LIN, and FlexRay

Medical device manufacturers can also utilise the 10M25DCF256I7G FPGA to develop high-performance products:

Medical imaging: Signal acquisition and pre-processing for ultrasound, X-ray, and other devices

Patient monitoring: Real-time processing of multi-parameter physiological signals

Portable devices: Low-power design suitable for battery-powered medical instruments

Device control: Closed-loop control of precision motors and mechanical devices