MX34028SF1 Overview
The MX34028SF1 is a high-performance, precision analog-to-digital converter designed for industrial and instrumentation applications requiring exceptional accuracy and reliability. This device features a 24-bit resolution with low noise performance, making it ideal for sensitive measurement systems. With integrated reference and flexible input configurations, it simplifies system design and enhances signal integrity. Its robust architecture supports a broad input voltage range, ensuring compatibility with various sensor types. The MX34028SF1 balances power efficiency and processing speed, providing engineers with a dependable solution for precise data acquisition. For detailed technical information, visit IC 製造商.
MX34028SF1 Technical Specifications
| 參數 | 規格 |
|---|---|
| 解析度 | 24 bits |
| 輸入電壓範圍 | ??2.5 V |
| Power Supply | +5 V 5% |
| 取樣率 | Up to 60 SPS (Samples Per Second) |
| 輸入類型 | Differential or Single-Ended |
| Noise Performance | 2.5 ??V RMS (typical) |
| Reference Voltage | Integrated 2.5 V ??0.1% |
| 操作溫度 | -40 至 +85°C |
| 介面 | SPI-compatible serial interface |
| 包裝 | 28-pin SSOP |
MX34028SF1 Key Features
- 24-bit high-resolution ADC: Enables precise measurement of low-level signals, critical for industrial sensor accuracy.
- Integrated stable voltage reference: Reduces external component count and improves overall signal integrity and reliability.
- Flexible input configuration: Supports both differential and single-ended inputs, allowing compatibility with a wide range of sensors and transducers.
- Low noise and low drift: Minimizes measurement errors over time and temperature, enhancing long-term system stability.
- Robust SPI-compatible interface: Facilitates easy integration with microcontrollers and digital signal processors in embedded systems.
- 寬廣的操作溫度範圍: 確保在惡劣的工業環境中可靠運作。
- Compact 28-pin SSOP package: Saves PCB space while maintaining thermal dissipation and ease of assembly.
MX34028SF1 Advantages vs Typical Alternatives
This device offers superior resolution and noise performance compared to typical 16- or 18-bit ADCs, providing enhanced sensitivity for precision measurement. The integrated voltage reference and flexible input options simplify system design and improve reliability. Additionally, the low power consumption and robust industrial-grade temperature range make it a preferred choice over alternatives that lack comprehensive integration or operate under narrower environmental conditions.
暢銷產品
典型應用
- Precision industrial instrumentation: Ideal for data acquisition systems requiring accurate analog signal conversion with minimal noise interference in factory automation and control.
- Weighing scales: Supports high-resolution load cell measurement with stable reference for consistent weight readings.
- Medical devices: Provides reliable and precise analog-to-digital conversion for diagnostic and monitoring equipment.
- Environmental monitoring: Suitable for sensor interfaces measuring temperature, humidity, or gas concentrations where low drift and high resolution are critical.
MX34028SF1 Brand Info
The MX34028SF1 is a product of a leading semiconductor manufacturer specializing in precision analog and mixed-signal integrated circuits. This brand is recognized for delivering high-quality ADC solutions tailored to industrial and instrumentation markets. The MX34028SF1 reflects the company??s commitment to innovation, reliability, and performance, ensuring engineers and system designers receive dependable components for demanding applications.
常見問題
What is the maximum input voltage range supported by this ADC?
The device supports an input voltage range of ??2.5 V, enabling it to handle both positive and negative differential signals within this span. This range accommodates many industrial sensors and transducers directly without external attenuation.
精選產品
Does the MX34028SF1 include an integrated voltage reference?
Yes, it features a built-in 2.5 V voltage reference with ??0.1% accuracy, which reduces the need for external reference components and improves overall measurement stability and accuracy.