The 4.5 GHz, fully differential LMH6401 digital variable gain amplifier provides simple SPI serial control of gain between +26 dB and -6 dB in 1 dB steps.

The INA149 is a precision unity-gain difference amplifier with the industry’s highest Common-Mode Rejection Ratio (CMRR) for high input common mode voltage (CMV

This video provides an quick overview of TI’s high-speed amplifiers for automotive applications.

This video gives an overview of the National Instruments VirtualBench hardware and software.

In this video we discuss units of op amp gain, bode plots and poles and zeroes, and the definition of bandwidth.

In this video we discuss open and closed loop gain, gain bandwidth product, and quiescent current versus bandwidth.

In this video we discuss the use of non-inverting gain for calculating bandwidth and some of the secondary effects on bandwidth.

In this video we discuss several bandwidth related topics, including the slope of the open loop gain curve and the effects of op amp input capacitance.

In this video we discuss the theory behind slew rate and compare the slew rate and current consumption of different TI amplifiers.

In this video we discuss the body effect's impact on slew rate as well as settling time and the difference between large signal and small signal behavior.

In this video we take a deeper look at the transition from small signal to large signal response, as well as the effects of gain on op amp behavior.

In this training lab we discuss calculations, simulations, and real world measurements that reinforce the concepts in the slew rate video series.

In this video we define intrinsic noise, introduce the different types of noise, and discuss noise spectral density.

In this video we go into further detail on the regions of op amp noise and how to convert noise spectral density to RMS noise.

In this video we continue the noise discussion by performing a full noise calculation for a simple amplifier circuit.

In this video we provide several rules of thumb for simplifying noise calculations by identifying the dominant sources.Learn more about the 

In this video we show how to perform noise simulations using TINA-TI, a free SPICE simulator.

In this video we show a comprehensive method for verifying simulation noise models and creating your own if necessary.

In this video we discuss techniques for measuring noise, including use of the oscilloscope and the spectrum analyzer.