HSMC-C130 High-Speed Data Converter Module | Compact Plug-and-Play Package

HSMC-C130 Overview

The HSMC-C130 is a versatile semiconductor component optimized for demanding industrial applications requiring high precision and reliable performance. Engineered to deliver stable operation across a wide temperature range, it integrates advanced circuitry that supports efficient signal processing with minimal power consumption. This device is particularly suited for environments where accuracy and durability are critical, making it an ideal choice for complex control systems and embedded solutions. For sourcing quality and technical assurance, visit Fabricant de circuits intégrés.

HSMC-C130 Technical Specifications

Paramètres	Spécifications
Tension de fonctionnement	3.3 V ?? 5%
Plage de température de fonctionnement	De -40°C à +85°C
Input Signal Type	Analog and Digital Compatible
Maximum Input Frequency	130 MHz
Consommation électrique	1.2 W typical
Type d'emballage	QFN 24-pin
Rapport signal/bruit (SNR)	?? 75 dB
Interface	SPI and I2C supported

HSMC-C130 Key Features

• High-frequency operation: Supports input frequencies up to 130 MHz, enabling precise signal processing in fast-switching industrial systems.
• Large gamme de températures de fonctionnement : Ensures reliable performance from -40??C to +85??C, suitable for harsh environmental conditions.
• Faible consommation d'énergie : Typical power draw of 1.2 W reduces thermal load and extends device longevity in embedded applications.
• Multi-interface compatibility: Supports both SPI and I2C communication protocols, facilitating seamless integration with various microcontrollers.
• Compact QFN package: The 24-pin form factor allows for space-efficient PCB layouts without sacrificing connectivity.
• High signal integrity: Achieves a signal-to-noise ratio of 75 dB or higher, critical for accurate data acquisition and control.
• Robust input compatibility: Handles both analog and digital signals, enhancing flexibility across diverse industrial scenarios.

HSMC-C130 Advantages vs Typical Alternatives

This device offers superior high-frequency handling and lower power consumption compared to typical alternatives, delivering enhanced accuracy and reliability in industrial environments. Its broad temperature tolerance and multi-protocol support provide greater integration flexibility and operational stability under demanding conditions, making it a preferred choice for engineers seeking durable and efficient semiconductor solutions.

Applications typiques

• Industrial control systems: Utilized in precise motor and process controls where stable signal processing and temperature resilience are essential for system reliability.
• Embedded signal processing: Ideal for integration in embedded designs requiring dual analog and digital signal compatibility with efficient communication interfaces.
• Automation equipment: Supports fast data acquisition and control loops in automated manufacturing and robotics applications.
• Sensor interface modules: Provides accurate signal conditioning for sensors in harsh and variable environmental conditions.

HSMC-C130 Brand Info

The HSMC-C130 is part of a product line known for robust industrial semiconductor components designed by a leading IC manufacturer. This product exemplifies the brand??s commitment to delivering high-performance, reliable devices tailored for challenging industrial applications. Emphasizing precision engineering, the product supports a wide range of industrial and embedded system needs with consistent quality and technical support.

FAQ

What operating conditions is the device designed to withstand?

The device is engineered to operate reliably within a temperature range of -40??C to +85??C, accommodating harsh environments commonly found in industrial applications. This wide temperature tolerance ensures consistent performance despite fluctuating thermal conditions.

Which communication protocols are supported for interfacing with this component?

It supports both SPI and I2C interfaces, allowing compatibility with a broad spectrum of microcontrollers and embedded systems. This dual-interface capability simplifies integration and communication in complex control architectures.

How does power consumption affect its suitability for embedded applications?

With a typical power consumption of 1.2 W, the device minimizes thermal dissipation and energy usage, which is crucial for embedded systems where efficiency and heat management are priorities. This low power draw helps extend the operational lifespan of the entire system.

Can the device handle both analog and digital input signals?

Yes, the component is designed to accept both analog and digital input signals. This flexibility enables its use across a wide variety of signal processing tasks, providing versatility in system design and application.

What packaging options are available and how do they benefit PCB design?

The device comes in a compact QFN 24-pin package, which provides a small footprint and low profile. This packaging facilitates high-density PCB layouts and improves thermal dissipation, making it easier to design space-efficient, reliable systems.