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Precision Top

TI Precision Labs

TI Precision Labs (TIPL) is the most comprehensive online classroom for analog signal chain designers. From foundational knowledge to advanced concepts, our logical, sequenced and comprehensive teaching approach is both intuitive and practical. The training series, which includes videos and downloadable reference materials, will deepen the technical expertise of experienced engineers and accelerate the development of those early in their career.

switches and muxes introduction

TI Precision Labs - Switches and Multiplexers: Introduction

Develop your basic understanding of analog switches and multiplexers. Learn about common switch architectures, how to distinguish switches and multiplexers, the difference between ideal and non-ideal switches, and how to recognize configurations and channels.

SPDT Load Switch

Date:
July 8, 2015

Duration:
01:21
This design allows customers to make their own SPDT switches and add a customized break-before-make delay.
bandwidth crosstalk THD+noise - switches

TI Precision Labs - Switches and Muxes: Bandwidth, Channel-to-Channel Crosstalk, Off-Isolation and THD+Noise

Date:
July 19, 2016

Duration:
12:57
Overview of multiplexer bandwidth, channel-to-channel crosstalk, off-isolation, and THD+Noise specifications.
On resistance and on capacitance - swtiches and muxes

TI Precision Labs - Switches and Muxes: On-Resistance Flatness and On-Capacitance

Date:
July 19, 2016

Duration:
10:27
This TI Precision Labs - Op Amps training video provides an overview of the DC performance parameters of multiplexers.

MUX Performance Demonstration Kit

Date:
June 8, 2016

Duration:
04:50
This video will demonstrate how to set-up and use TI’s MUX36S08 and MUX36D04 evaluation modules.
ESD protection, overvoltage and latchup - switches

TI Precision Labs - Switches and Muxes: Electrical Overstress

Date:
December 21, 2016

Duration:
18:08
This TI Precision Labs - Op Amps training video provides an overview of multiplexer electrical overstress conditions.
taillight demo

TPS92830-Q1 RCL Taillight Demo Live at CES

Date:
January 11, 2018

Duration:
01:28
In this live RCL taillight demonstration at CES in Las Vegas, you can see the capabilities of the TPS92830-Q1 Automotive LED controller.

TPS92830-Q1 Automotive LED controller demo

Date:
November 28, 2017

Duration:
03:17
The TPS92830-Q1 automotive LED controller allows you to achieve higher power in your automotive lighting design. View the device's capabilities in this video.

Webinar Series

Join our webinar series, as we explore different industry trends and technologies across our diverse product portfolio. Over the coming months, our experts will cover the latest analog, power management and embedded processing topics, across both automotive and industrial applications.

Over-voltage Protection- Integrated Protection Multiplexers

System Level Protection for High-Voltage Multiplexers in Multi-Channel Data Acquisition Systems- Multiplexers with Integrated Fault Protection

Date:
April 16, 2019

Duration:
06:16
System Level Protection for High-Voltage Multiplexers in Multi-Channel Data Acquisition Systems- Multiplexers with Integrated Fault Protection
Over-voltage Protection- Comparison and conclusion

System Level Protection for High-Voltage Multiplexers in Multi-Channel Data Acquisition Systems- Comparison and conclusion

Date:
April 4, 2019

Duration:
05:32
System Level Protection for High-Voltage Multiplexers in Multi-Channel Data Acquisition Systems- Comparison and conclusion
Over-voltage Protection for Multiplexers

System Level Protection for High-voltage Multiplexers in Muti-channel Data Acquisition Systems

  • In the first module, The architecture of a multi-channel data acquisition system and how a multiplexer can be used to facilitate the implementation. Possible causes of fault condition in a typical data acquisition system are discussed, and how the fault condition can severely impact the normal operation of the system is explained.
  • In the second module, protection schemes that can be implemented to protect the system in fault condition using discrete components are discussed.
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