The LM6172AMJ-QML (5962-9560401QPA) is a high-speed, low-power, dual operational amplifier from Texas Instruments (formerly National Semiconductor). This amplifier is designed for applications requiring high bandwidth and slew rate, such as video amplifiers, ADC buffers, and high-speed signal processing. The QML (Qualified Manufacturers List) designation ensures that this part meets stringent military and aerospace standards.

Applications:

• Video Amplifiers
• ADC Buffers
• High-Speed Signal Processing
• Military and Aerospace Systems
• Instrumentation

Features:

• High Slew Rate: 100 V/µs typical
• Wide Bandwidth: 100 MHz gain-bandwidth product
• Low Supply Current: 2.6 mA per amplifier
• Low Input Bias Current: 10 nA typical
• Wide Supply Voltage Range: ±5V to ±15V
• Output Short-Circuit Protection: Prevents damage from short circuits
• QML Certified: Meets stringent military and aerospace standards

Benefits:

• High-Speed Performance: Delivers fast signal processing and amplification.
• Low Power Consumption: Reduces power consumption for energy-efficient operation.
• Versatile Application: Suitable for a wide range of applications, including video, data acquisition, and instrumentation.
• Robust Design: Provides reliable performance in demanding environments.
• Meets Military Standards: QML certification ensures high reliability and performance for military and aerospace applications.

Additional Details:

The LM6172AMJ-QML (5962-9560401QPA) offers excellent high-speed performance with a high slew rate and wide bandwidth. The low supply current reduces power consumption, making it suitable for battery-powered and energy-sensitive applications. The amplifier is designed to operate over a wide supply voltage range, providing flexibility in system design.

The QML certification ensures that this amplifier meets the stringent requirements of military and aerospace applications, including radiation hardness and extended temperature range operation. The output short-circuit protection prevents damage from accidental short circuits, enhancing the reliability of the system.