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264 Results
Local oscillator and GHz clocks requirements in Radio applications systems with LMX2594.

Introduction video 1 of 5: Local oscillator and GHz clocks requirements in Radio applications systems with LMX2594.

Date:
April 29, 2017

Duration:
05:49
This video discusses the key requirements of local oscillator in microwave/RF and GHz clocks in  radio applications.

JESD204B Physical Layer

Date:
August 6, 2015

Duration:
06:39
This video describes the JESD204B physical layer and the impact on channel integrity.  Mitigation techniques utilizing pre-emphasis and de-emphasis are illustra

JESD204B training, part 1 of 3: Overview

Date:
April 29, 2016

Duration:
46:05
An introduction to the JESD204B interface

JESD204B training, part 2 of 3: Debug, tools and tips

Date:
April 29, 2016

Duration:
48:31
An overview of JESD204B debug, tools and tips

JESD204B training, part 3 of 3: Multi-device synchronization

Date:
April 29, 2016

Duration:
30:13
An overview of JESD204B multi-device synchronization

JESD204B Video Blog Series

The JESD204B video blog series explores the basic concepts related to the JESD204B SerDes standard in relation to High Speed Data Converter products.

JESD204B: Transport Layer

Date:
August 6, 2015

Duration:
04:12
This video addresses the transport layer of JESD204B standard specifically breaking down how the data converters digital data is mapped into the SerDes frames.

Lessons for Precision DACs

This series provides lessons on some basic topics regarding precision digital-to-analog converters (DACs). The videos in this series cover a variety of topics including code-to-code glitch, calibration, common sources for error, and much more. 

Lessons for Precision DACs: Code-to-code glitch

Date:
December 11, 2015

Duration:
02:37
This video covers methods for mitigating code-to-code glitch in precision DACs. Watch to learn where code-to-code glitch in precision DACs originates

Lessons for Precision DACs: MDAC overshoot

Date:
December 11, 2015

Duration:
01:56
Learn why MDAC overshoot happens, and how to prevent it. This video explains why MDAC overshoot occurs and what can be done to mitigate it.

Lessons for Precision DACs: Power sequencing

Date:
December 11, 2015

Duration:
01:44
Learn about the importance of sequencing power rail bring-up. This video discusses some potential issues that improper sequencing can cause, and reiterate

Lessons for Precision DACs: Power-on glitch

Date:
December 11, 2015

Duration:
02:53
Learn how to reduce the effects of power-on glitch

Lessons for Precision DACs: Settling time vs. update rate

Date:
December 11, 2015

Duration:
04:42
Learn  how to calculate update rate and what the difference is between settling time and update rate. In this video we discuss what the differen

Lessons for Precision DACs: Three common sources for errors

Date:
December 11, 2015

Duration:
03:20
Learn about the three most common errors when designing with precision DACs. This video covers the which three things to check, and gives some real life e

Lessons for Precision DACs: True endpoints

Date:
December 12, 2015

Duration:
02:55
Learn how to achieve true endpoints in your precision DAC system. In this video, we will look at the sources of non-linearity and suggest solutions t

Lessons for Precision DACs: Calibration

Date:
December 11, 2015

Duration:
03:28
 Learn about the benefits of and method for calibrating gain and offset errors out of a precision DAC.

Lessons for Precision DACs: Digital feedthrough

Date:
December 11, 2015

Duration:
01:56
This video explains the source of digital feedthrough in precision DACs and methods to reduce its effects.

LMH2832 Digital Variable Gain Amplifier Overview

Date:
October 19, 2016

Duration:
03:50
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
TI Precision Labs – ADCs

Low-power SAR ADC System Design

These videos describe how to design a low-power data acquisition system using a successive approximation register analog-to-digital converter (SAR ADC).

Measuring RTD sensors with Delta-Sigma ADS1220 family

ADS1220 Delta-Sigma family uses the ratiometric approach for measuring RTD sensors with the built-in current excitation source. Offset and gain calibration are required before the resistance measurement is converted into a temperature reading by the application MCU.
264 Results
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