ON Semiconductor MC10H107 - Triple 2-Input NOR Gate
The MC10H107 from ON Semiconductor is a high-performance triple 2-input NOR gate integrated circuit, designed for use in ECL systems. This device is a member of the 10H series, which are constructed with bipolar technology and utilize high-speed emitter-coupled logic. It is specifically crafted to deliver fast and reliable logic operations in demanding applications.
Key Features:
- High-Speed Performance: The MC10H107 boasts propagation delay times as low as 1.0ns, making it an excellent choice for high-speed computing, data processing, and telecommunications systems.
- Temperature Range: This device operates over a full military temperature range, from -55°C to +125°C, ensuring reliable performance in extreme conditions.
- Power Supply: It is designed to work with a power supply voltage of -4.94V to -5.46V, typical of ECL-powered systems.
- Logic Configuration: The IC comes with three independent 2-input NOR gates, providing flexibility in logic design and implementation.
- Output Current: The device can source up to 50mA of output current, allowing it to drive multiple loads simultaneously.
- Packaging: Available in a variety of packages, including DIP (Dual In-line Package) and PLCC (Plastic Leaded Chip Carrier), to suit different mounting and space requirements.
Applications:
The MC10H107 is versatile and can be used in various high-speed logic applications. Some common uses include:
- Computing systems where rapid data processing is crucial
- Telecommunication equipment that requires fast signal processing
- Instrumentation and control systems where precision and speed are necessary
- Aerospace and defense applications that demand high reliability in harsh environments
Quality and Reliability:
ON Semiconductor is committed to providing high-quality products. The MC10H107 is manufactured under strict quality control standards to ensure its performance and durability. This commitment to quality makes the MC10H107 a reliable component for any high-speed logic application.