MX34007SF4 Overview
The MX34007SF4 is a high-performance analog multiplexer designed to facilitate efficient signal routing in complex electronic systems. This semiconductor device supports multiple input channels with low on-resistance and fast switching times, enabling precise signal selection and minimal signal distortion. Ideal for industrial and instrumentation applications, it delivers reliable performance under varying electrical conditions. The device’s compact form factor and robust design make it suitable for integration in automated test equipment, data acquisition systems, and communication devices. For detailed technical support and procurement, visit IC Manufacturer.
MX34007SF4 Technical Specifications
| Parameter | Specification |
|---|---|
| Number of Channels | 8 Single-Ended Inputs |
| On-Resistance (RON) | Typical 70 ?? |
| Supply Voltage Range | +5 V to +15 V |
| Control Logic | 3-bit Binary Address |
| Signal Bandwidth | Up to 10 MHz |
| Input Leakage Current | ??1 nA (max) |
| Operating Temperature Range | -40??C to +85??C |
| Package Type | 16-pin SOIC |
MX34007SF4 Key Features
- Low On-Resistance: Ensures minimal signal attenuation and high fidelity during switching operations, critical for precision analog signal processing.
- Wide Supply Voltage Range: Operates reliably from 5 V to 15 V, offering flexibility for various system voltage requirements and enhancing compatibility with multiple platforms.
- High-Speed Switching: Fast channel selection reduces latency in multiplexing, supporting real-time data acquisition and measurement applications.
- Low Leakage Current: Maintains signal integrity by minimizing leakage, which is essential in high-impedance sensor and instrumentation circuits.
MX34007SF4 Advantages vs Typical Alternatives
Compared to typical analog multiplexers, this device offers superior low on-resistance and minimal leakage current, contributing to enhanced signal accuracy and reduced distortion. Its broad supply voltage range and fast switching speed improve integration flexibility and system responsiveness. These advantages make it a reliable choice for precision industrial applications where signal integrity and operational stability are paramount.
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Typical Applications
- Data Acquisition Systems: Enables efficient multiplexing of sensor inputs, supporting high-speed measurement and monitoring in industrial automation environments.
- Automated Test Equipment: Facilitates routing of multiple test signals with low distortion, improving the accuracy and reliability of electronic testing processes.
- Communication Devices: Supports signal selection and switching in analog front-end circuits, enhancing system performance and flexibility.
- Instrumentation Panels: Integrates easily into measurement and control systems requiring precise analog signal routing and low noise operation.
MX34007SF4 Brand Info
The MX34007SF4 is part of the MX series from a reputable semiconductor manufacturer specializing in analog and mixed-signal integrated circuits. This series is recognized for its high reliability, precision, and ease of integration into diverse industrial systems. Designed with strict quality controls, the MX34007SF4 reflects the brand??s commitment to innovation and customer-centric solutions in signal processing components.
FAQ
What is the maximum operating temperature for the MX34007SF4?
The device is rated for an operating temperature range from -40??C to +85??C, making it suitable for a wide variety of industrial and commercial environments where temperature conditions may vary significantly.
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How does the low on-resistance benefit the signal performance?
Low on-resistance minimizes voltage drop across the switch, preserving signal amplitude and reducing distortion. This is critical in applications requiring high accuracy and signal integrity, such as sensor interfaces and precision measurement systems.
What kind of control logic is used for channel selection?
This multiplexer uses a 3-bit binary address control logic, allowing straightforward digital control of the eight input channels, simplifying system design and programming for engineers.
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Can the device handle signals beyond 10 MHz?
The device??s typical signal bandwidth is up