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TI.com 线上采购专场:智能楼宇篇

Date:
September 11, 2020

Duration:
33:56
TI.com 线上采购专场:智能楼宇篇
instrumentation amplifiers

TI Precision Labs - Introduction to instrumentation amplifiers

Date:
December 30, 2019

Duration:
06:53
What is an instrumentation amplifier?
Troubleshooting amplifier high speed amplifiers oscillation oscillations integrated circuit PCB printed circuit board application linear AMP output voltage datasheet verification failure analysis debugging debug submission FA customer return

Troubleshooting Tips: Op Amps - Oscillations

Date:
December 11, 2019

Duration:
04:28
In this training we demonstrate how to check for signs of oscillations of an amplifier.
Troubleshooting amplifier amplifiers output swing VOH VOL SLAM VOS input offset integrated circuit PCB printed circuit board application linear AMP offset output voltage datasheet verification failure analysis rail from debug submission FA customer return

Troubleshooting Tips: Op Amps - Output Swing

Date:
December 11, 2019

Duration:
05:43
In this training we demonstrate how to verify the output swing voltage of an amplifier using the TI product datasheet test conditions.
TI Precision Labs - Current Sense Amps: Example Circuits

TI Precision Labs - Current Sense Amplifiers: Example Circuits

Date:
August 23, 2019

Duration:
06:12
Learn several useful example circuits for current sensing.

Dual active bridge DC:DC power stage for a level 3 (fast) EV charging station (pile)

Date:
June 27, 2019

Duration:
01:04:25
Bi-directional, dual active bridge reference design for level 3 electric vehicle charging stations.

Designing 6.6kW Bidirectional HEV/EV On-Board-Charger with SiC and Embedded Technologies

In this series of presentations, we go through the HEV/EV market status and history, OBC specifications, technology trend, topology selections and design considerations of an OBC system. Complete test results of a 6.6kW OBC reference design (Including AC-DC rectifier and isolated DC-DC converter) will be shown in the end of this paper to demonstrate the performance of our TIDesigns as well as TI SiC and embedded Technologies.

6.6kW Bi-directional On-Board Charger (OBC): Introduction and Overview

Date:
April 1, 2019

Duration:
13:39
Designing 6.6kW Bidirectional HEV/EV On-Board-Charger (OBC) with SiC and Embedded Technologies

6.6kW Bi-directional OBC_CLLLC Resonant DAB Converter

Date:
April 1, 2019

Duration:
19:25
Designing 6.6kW Bidirectional HEV/EV On-Board-Charger with SiC and Embedded Technologies

Predictive and preventative maintenance in heat ventilation and air conditioner (HVAC) systems

Date:
March 27, 2019

Duration:
33:50
An overview of predictive and preventative maintenance and their applications within the heating ventilation and air conditioning (HVAC) systems
Time of Flight & LIDAR (ToF) - Optical Front End Reference Design

Time of Flight & LIDAR - Optical Front End Reference Design

Date:
December 13, 2018

Duration:
04:46
Reference design overview that showcases TI high speed amplifiers, comparators, and time-to-digital converters in a optical time of flight (ToF) system.
TIPL 1901 Thumbnail

TI Precision Labs - Op Amps: Board Level Troubleshooting

Date:
November 26, 2018

Duration:
14:52
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.
Automotive Current Shunt Monitoring

Automotive Current Monitoring Using High Speed Amplifiers

Date:
May 24, 2018

Duration:
05:11
Automotive Current Monitoring Using High Speed Amplifiers
Latest Current Sense Technologies-System-Level Benefits over Discrete Designs Historically Used

Latest Current Sense Technologies-System-Level Benefits over Discrete Designs Historically Used

Date:
April 11, 2018

Duration:
35:38
This is a comparison video of various current sensing methods and the benefits of each.
10kW 3-Phase 3-Level SiC Grid Tie Inverter Reference Design

10kW 3-Phase 3-Level SiC T-Type Inverter Reference Design

Date:
March 7, 2018

Duration:
04:59
Highlights TI's verified reference design that provides an overview on how to implement a three-level, three phase SiC based DC:AC T-type inverter stage
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