STTS75M2E Overview
The STTS75M2E is a high-precision digital temperature sensor designed for accurate thermal monitoring in industrial and consumer electronics applications. Featuring an I2C-compatible interface, it delivers reliable temperature readings across a broad operating range, making it suitable for embedded systems requiring compact, low-power temperature measurement solutions. Its small footprint and low supply current ensure seamless integration into space-constrained designs while maintaining efficient power consumption. For engineers and sourcing specialists seeking a robust thermal sensing component, this device balances accuracy, ease of use, and system compatibility, backed by proven semiconductor technology from ICメーカー.
STTS75M2E Technical Specifications
| パラメータ | 仕様 |
|---|---|
| 温度測定範囲 | -40℃~+125℃の範囲 |
| 決議 | 9-bit, programmable to 12-bit |
| Operating Voltage (VDD) | 2.7 V~5.5 V |
| 供給電流 | Up to 12 ??A (typical) |
| インターフェース | I2C-compatible (SMBus 2.0 compliant) |
| Conversion Time | Up to 30 ms at 12-bit resolution |
| パッケージタイプ | DFN-6 (2 x 2 mm) |
| 動作温度 | -40℃~+125℃の範囲 |
| 精度 | ??1.5??C (typical over full range) |
STTS75M2E Key Features
- High-resolution temperature sensing: Programmable from 9-bit to 12-bit resolution allows precise thermal measurements tailored to application needs, enhancing system reliability.
- 低消費電力: Operating current as low as 12 ??A supports battery-powered and energy-sensitive designs, extending device lifetime.
- Compact DFN-6 package: Small 2 x 2 mm footprint facilitates integration into space-constrained PCBs without compromising performance.
- I2C-compatible interface: Ensures seamless communication with standard microcontrollers and processors, simplifying embedded system design.
代表的なアプリケーション
- Thermal monitoring in industrial automation systems where precise temperature measurement is critical for process control and safety.
- Consumer electronics requiring compact and low-power temperature sensing solutions for device protection and performance optimization.
- Embedded systems in IoT devices that demand efficient temperature data acquisition with minimal power consumption.
- Battery management systems in portable devices to monitor thermal conditions and prevent overheating.
STTS75M2E Advantages vs Typical Alternatives
This temperature sensor offers superior integration with its compact DFN-6 package and programmable resolution, providing a flexible solution compared to traditional thermistors or analog sensors. Its low power consumption and digital I2C interface reduce system complexity and enhance energy efficiency. The device??s accuracy and fast conversion times give engineers reliable thermal data essential for critical industrial and consumer applications, making it a preferred choice over less precise or higher-power alternatives.
ベストセラー商品
STTS75M2E Brand Info
The STTS75M2E is manufactured by STMicroelectronics, a global leader in semiconductor technology known for delivering high-quality and innovative sensor solutions. STMicroelectronics specializes in advanced integrated circuits and sensor devices that serve a wide range of markets including industrial automation, consumer electronics, and automotive. The STTS75 series exemplifies the brand??s commitment to precision, reliability, and ease of integration, supporting engineers worldwide with components that meet demanding performance and quality standards.
よくあるご質問
What communication protocol does this temperature sensor use?
The device uses an I2C-compatible interface that is also SMBus 2.0 compliant. This allows straightforward integration with most microcontrollers and processors, facilitating easy data exchange for temperature monitoring applications.
注目商品
What is the operating voltage range for this sensor?
The sensor operates reliably within a voltage supply range of 2.7 V to 5.5 V, allowing compatibility with a wide variety of power sources in embedded and industrial systems.
How accurate is the temperature measurement across the specified range?
The typical accuracy is ??1.5??C over the full temperature range of -40??C to +125??C, which is suitable for many applications requiring dependable thermal monitoring without additional calibration.