ヒント:複数の語句はコンマで区切ってください

入力例:09/20/2021

入力例:09/20/2021

ヒント:複数の語句はコンマで区切ってください

入力例:09/20/2021

入力例:09/20/2021

並べ替え:

282 結果
ADC drive topologies: using an INA

Determining a SAR ADC’s Linear Range when using Instrumentation Amplifiers

日付:
2017年 4月 14日

所要時間::
09:17
This video shows how to design a front-end instrumentation amplifier drive circuit for linear operation.

Introduction to Frequency Domain

日付:
2017年 4月 14日

所要時間::
11:18
This video introduces the concept of the frequency domain.
Fast Fourier Transforms (FFT)

Fast Fourier Transforms (FFTs) and Windowing

日付:
2017年 4月 14日

所要時間::
10:46
This video introduces the FFT as well as the concept of windowing to minimize error sources.
Coherent Sampling

Coherent Sampling and Filtering to Improve SNR and THD

日付:
2017年 4月 14日

所要時間::
06:59
This video introduces the concept of coherent sampling and filtering for accurate characterization.

Building the SAR ADC Model

日付:
2017年 4月 14日

所要時間::
12:17
This video walks through the process of creating a TINA Spice Model for a SAR ADC.

Refine the Rfilt and Cfilt Values on ADC Drive

日付:
2017年 4月 14日

所要時間::
13:43
This video walks through the process for optimizing the selection of the external R and C values.

Final SAR ADC Drive Simulations

日付:
2017年 4月 14日

所要時間::
06:36
This video shows the simulation results using the external R and C components from the previous videos.

Math Behind the R-C Component Selection

日付:
2017年 4月 14日

所要時間::
06:10
This video walks through the mathematical algorithm used in the ADC SAR Drive Calculator.

Selecting and Verifying the Driver Amplifier

日付:
2017年 4月 14日

所要時間::
09:02
This video walks through the process of selecting the driver amplifier and verifying its SPICE model.

Using SPICE Monte Carlo Tool for Statistical Error Analysis

日付:
2017年 4月 14日

所要時間::
07:09
This video shows how the TINA-SPICE Monte Carlo analysis can be used for statistical error analysis.

Understanding and Calibrating the Offset and Gain for ADC Systems

日付:
2017年 4月 14日

所要時間::
13:22
This video discusses how gain and offset errors can be calculated and eliminated through calibration.
Alias and Anti-Alias Filters

Aliasing and Anti-aliasing Filters

日付:
2017年 4月 14日

所要時間::
13:19
This video introduces the concept of frequency domain aliasing and why anti-aliasing filters are needed.

Hands-on Experiment – Reference Drive

日付:
2017年 4月 14日

所要時間::
20:41
This hands-on experiment looks at the impact of reference bandwidth on ADC AC and DC performance.

SAR Reference Input – The CDAC

日付:
2017年 4月 14日

所要時間::
09:58
The video provides insight into the origin of transient current pulses on the reference input of the SAR ADC.
Analog-to-Digital Converters (ADCs) TI Precision Labs

TI Precision Labs - ADCs

On-demand courses and tutorials covering ADCs (analog-to-digital converters or A/D converters).

Anti-tamper Techniques to Thwart Attacks on Smart Meters— Summary

日付:
2017年 4月 12日

所要時間::
01:00
In this short module, a summary of the entire “Anti-tamper Techniques to Thwart Attacks on Smart Meters” training series will be covered.
Free webinar - SAR ADCs vs. Delta-Sigma ADCs: Different Architectures for Different Applications

Webinar - SAR ADCs vs. Delta-Sigma ADCs: Different Architectures for Different Applications

日付:
2017年 4月 4日

所要時間::
26:45
This presentation covers the architecture details for the two most common types of precision analog-to-digital converters (ADCs) that are widely used in a variety of consumer, automotive and industrial applications.

THS4551/2 Fully Differential Amplifier Product Overview

日付:
2017年 2月 7日

所要時間::
05:57
The 150 MHz single channel THS4551 and dual channel THS4552 fully differential amplifiers are drivers for high resolution SAR and Delta-Sigma ADCs.

OPA2836 Dual Channel Amplifier Product Overview

日付:
2017年 2月 7日

所要時間::
04:10
The 205 MHz, rail-to-rail output, voltage feedback amplifier provides ultra-low distortion and stellar input voltage noise and is available in a AEC Q100 versio

LMH6401 Digital Variable Gain Amplifier Product Overview

日付:
2017年 2月 6日

所要時間::
04:37
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.
282 結果
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