ON Semiconductor FODM3083 Optoisolator

The ON Semiconductor FODM3083 is a robust optoisolator device designed to provide superior electrical isolation between input and output circuits. This high-performance optocoupler features a phototransistor output that delivers reliable and efficient signal transfer, making it an ideal choice for a wide range of applications including industrial controls, power supply management, and signal processing.

Key Features

• High Isolation Voltage: The FODM3083 offers an impressive isolation voltage of 3750Vrms, providing excellent protection against high voltage spikes and surges.
• Current Transfer Ratio (CTR): With a CTR range from 50% to 600%, the device ensures a consistent and predictable output for a given input current.
• Wide Operating Temperature: It operates over a broad temperature range from -55°C to +110°C, allowing for reliable performance in extreme conditions.
• Lead-Free and RoHS Compliant: The FODM3083 is environmentally friendly, complying with current RoHS directives, and is lead-free, making it suitable for use in green applications.
• Package: Available in a 4-pin DIP package, the device is easy to integrate into various circuit designs.
• Input-Output Isolation: The optoisolator provides excellent input-output isolation, which is critical in preventing ground loops and ensuring signal integrity.

Applications

The versatility of the FODM3083 allows it to be used in a variety of applications, including:

• Isolated line receivers
• Microprocessor system interfaces
• Power supply regulators
• DC/DC converters
• AC/DC input modules
• Industrial controls

Performance and Quality

ON Semiconductor is known for its commitment to quality and performance. The FODM3083 is manufactured with the highest standards, ensuring that it meets the stringent requirements of industrial and commercial applications. With its excellent isolation capabilities and robust performance, the FODM3083 from ON Semiconductor is a reliable choice for designers looking to enhance system safety and signal integrity.