In this video we discuss a technique known as the A-B-A swap, as well as an introduction to PCB parasitics and the importance of PCB cleanliness.

This video discusses FDA stability and open-loop gain. You will also learn how to calculate and simulate with TINA-TI for FDAs.

This video discusses the various noise sources of an FDA and the effects of using large resistors in the feedback network of high-speed FDAs.

This video discusses how to estimate an FDAs common-mode and differential swing at the inputs and the outputs and its dependence on the amplifier configuration

This video discusses the basics of differential signaling, its advantages over single-ended signaling and the three basic rules that govern how an FDA operates

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.

LMH6401 Evaluation Module (EVM) Overview

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

This video provides an overview of the LMH2832 fully differential, 2-channel, 1.1-GHz digital variable gain amplifier (DVGA). The LMH2832 provides high bandwid

In this video we discuss external sources of distortion, such as resistors, capacitors, and power supply impedance.

In this video we discuss distortion sources from an op amp's output stage.

In this video we discuss distortion sources from the op amp's input stage.

In this video we discuss the power dissipation of amplifiers, the op amp thermal model, and op amp temperature ratings.

In this video we discuss the details of output swing with respect to different output stage topologies and the effects of output loading and temperature.

In this video, we discuss the sources of common-mode voltage limitations in the op amp and the advantages and disadvantages of different op amp topologies.

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

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 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