HSME-C265 High-Speed Data Converter Module | Compact OEM Board Package

HSME-C265 Overview

The HSME-C265 is a high-performance microcontroller designed for industrial and embedded applications requiring robust processing capabilities coupled with efficient power management. Featuring a 16-bit core architecture, it supports real-time control and communication tasks with precision. Its integrated peripherals and versatile I/O options make it suitable for complex control systems, automation equipment, and instrumentation. Engineered with reliability and scalability in mind, this device enables developers to optimize system performance while maintaining low power consumption. For seamless integration and enhanced system design, the HSME-C265 is offered by IC Manufacturer.

HSME-C265 Technical Specifications

HSME-C265 Key Features

• 16-bit CISC core: Delivers efficient processing for real-time control tasks, enabling fast response times in embedded systems.
• Integrated 10-bit ADC: Facilitates accurate analog signal measurement, critical for sensor interfacing and instrumentation.
• Multiple communication interfaces: SPI, I2C, and UART support allows flexible connectivity options for varied industrial protocols.
• Low power operation: Operating voltage range of 2.7 V to 5.5 V ensures energy efficiency in battery-powered and portable applications.
• Robust GPIO availability: With 32 programmable pins, the device supports extensive control and monitoring inputs/outputs.
• Wide temperature tolerance: Suitable for harsh industrial environments, maintaining performance from -40??C up to +85??C.
• Compact 64-pin LQFP package: Enables high-density PCB layouts while supporting necessary pin functions.

HSME-C265 Advantages vs Typical Alternatives

The device offers a balanced combination of processing power and peripheral integration that outperforms typical microcontrollers in similar classes. Its 16-bit core optimizes instruction execution speed while maintaining low power consumption. The inclusion of a 10-bit ADC and multiple communication interfaces simplifies system design by reducing the need for external components. Additionally, its extended operating temperature range enhances reliability under demanding industrial conditions, making it a preferred choice for precision control and monitoring applications.

Typical Applications

• Industrial automation control systems requiring precise timing, sensor data acquisition, and communication with higher-level controllers.
• Embedded instrumentation devices that benefit from integrated ADC and versatile I/O for accurate measurement and control tasks.
• Battery-powered portable equipment where low voltage operation and energy efficiency are critical for extended runtime.
• Communication modules needing multiple serial interfaces for protocol flexibility in industrial networking.

HSME-C265 Brand Info

Produced by the trusted supplier IC Manufacturer, the HSME-C265 exemplifies the company??s commitment to delivering reliable semiconductor solutions tailored for industrial and embedded markets. The product line focuses on combining processing efficiency with flexible peripheral integration, backed by rigorous quality standards. This microcontroller embodies the brand??s expertise in creating components that support demanding applications while facilitating streamlined development cycles and robust system performance.

FAQ

What is the maximum clock frequency supported by the HSME-C265?

The device supports an operating frequency up to 40 MHz. This clock speed provides a good balance between processing performance and power consumption for industrial control and embedded applications.

Which communication interfaces are available on this microcontroller?

It includes SPI, I2C, and UART interfaces, enabling flexible connectivity options for a wide range of serial communication protocols commonly used in industrial and embedded systems.

Can this microcontroller operate in harsh environments?

Yes, it is designed to operate reliably within an industrial temperature range of -40??C to +85??C, making it suitable for environments with wide temperature variations and challenging conditions.

What type of analog-to-digital conversion capabilities does it provide?

The microcontroller integrates a 10-bit ADC, which allows for accurate analog signal measurement. This feature is essential for interfacing with sensors and performing precise data acquisition tasks.

How many GPIO pins are available for user applications?

There are 32 programmable general-purpose input/output pins available, providing flexibility for custom control, monitoring, and interfacing with external devices or peripherals.