The ISOW1412DFMR is a high-performance, quad-channel digital isolator with an integrated power converter from Texas Instruments. Designed to enhance the performance and reliability of your system, this device offers a robust isolation barrier that ensures signal integrity and protects sensitive electronics from high voltage transients. With its capability to transmit data across this barrier with very low propagation delay and jitter, the ISOW1412DFMR is ideal for use in industrial, medical, and other applications where isolation is critical.

Key Features:

• Integrated Power Converter: This device includes an integrated DC-DC converter, providing isolated power and eliminating the need for a separate isolated power supply.
• High Isolation Voltage: It offers an isolation voltage of 5000 Vrms for 1 minute, providing a high level of protection against electrical noise and surges.
• Data Rate: The ISOW1412DFMR supports a data rate of up to 100 Mbps, enabling fast and efficient data communication across the isolation barrier.
• Low Propagation Delay: With a typical propagation delay of 10.7 ns, the device ensures rapid data transmission with minimal signal distortion.
• Robust Electromagnetic Compatibility (EMC): It features low emissions and high immunity to electromagnetic interference, making it suitable for harsh electrical environments.
• Wide Operating Temperature Range: The device operates over a wide temperature range of -40°C to +125°C, ensuring reliable performance in extreme conditions.

Applications:

• Industrial automation and control systems
• Medical equipment with stringent isolation requirements
• Isolated sensor interfaces and data acquisition systems
• Motor control circuits
• Power supply and management systems

The ISOW1412DFMR is available in a 16-SOIC (0.295", 7.50mm Width) package, providing a compact solution for space-constrained applications. With its advanced features and reliable performance, the ISOW1412DFMR from Texas Instruments is an excellent choice for designers looking to enhance system safety and data integrity in isolated communication networks.