정렬 기준:
Settling time
날짜:
기간::
2015년 3월 23일
기간::
13:51
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.
Signal response
날짜:
기간::
2015년 3월 23일
기간::
11:22
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.
Simplifying calculations
날짜:
기간::
2015년 3월 23일
기간::
16:21
In this video we provide several rules of thumb for simplifying noise calculations by identifying the dominant sources.Learn more about the
Slew rate - Lab
날짜:
기간::
2015년 3월 23일
기간::
06:26
In this training lab we discuss calculations, simulations, and real world measurements that reinforce the concepts in the slew rate video series.
Slew rate introduction
날짜:
기간::
2015년 3월 23일
기간::
10:32
In this video we discuss the theory behind slew rate and compare the slew rate and current consumption of different TI amplifiers.
Spectral density
날짜:
기간::
2015년 3월 23일
기간::
14:23
In this video we define intrinsic noise, introduce the different types of noise, and discuss noise spectral density.
Spice simulation
날짜:
기간::
2015년 3월 23일
기간::
06:30
In this video we explain how to perform open loop simulations in SPICE to obtain rate of closure and phase margin of op amp circuits.
Stability - Introduction
날짜:
기간::
2015년 3월 23일
기간::
08:23
In this video we discuss the common causes of op amp stability issues and how to identify these issues in the lab.
Stability - Lab
날짜:
기간::
2015년 3월 23일
기간::
14:50
In this training lab we discuss calculations, simulations, and real world measurements that reinforce the concepts in the stability video series.
Testing for robustness
날짜:
기간::
2015년 3월 23일
기간::
11:20
In this video we discuss how a device is damaged by transient electrical energy and introduce the tests used to determine a product's robustness against it.
Verifying the noise model
날짜:
기간::
2015년 3월 23일
기간::
07:52
In this video we show a comprehensive method for verifying simulation noise models and creating your own if necessary.