ON Semiconductor CNY17F1SR2M Optocoupler

The ON Semiconductor CNY17F1SR2M is a high-quality optocoupler device that provides an efficient and reliable solution for electrical signal isolation. This optocoupler, also known as an opto-isolator, is designed to transmit data signals between two isolated circuits by using light waves to prevent high voltages from affecting the system receiving the signal.

Featuring a phototransistor output, the CNY17F1SR2M offers a Current Transfer Ratio (CTR) of 40% to 80%, ensuring a well-balanced and stable response when converting the input LED light into an electrical signal. This component is particularly useful in applications where signal integrity and insulation are critical, such as in industrial control systems, power supply management, and communication devices.

The CNY17F1SR2M is packaged in a compact DIP-6 package, which is both space-efficient and easy to integrate into a wide range of electronic assemblies. It is capable of withstanding isolation voltage ratings of 5000Vrms, providing a robust barrier against electrical noise and transient voltages that could potentially damage sensitive circuitry.

Key features of the CNY17F1SR2M include:

• Phototransistor Output
• Current Transfer Ratio (CTR): 40% to 80%
• Input-Output Isolation Voltage: 5000Vrms
• Standard DIP-6 Package
• UL Recognized: File #E52744
• VDE Approved: File #102497
• SEMKO Approved
• NEMKO Approved
• DEMKO Approved
• FIMKO Approved

With certifications from multiple international safety organizations, including UL, VDE, and various Nordic approvals, the CNY17F1SR2M from ON Semiconductor meets stringent safety and reliability standards. This makes it an excellent choice for designers who require a high degree of confidence in the isolation characteristics of their electronic components.

Whether you're designing power supplies, motor controllers, or digital communication interfaces, the CNY17F1SR2M offers the performance and peace of mind needed to maintain system integrity and protect against electrical hazards.