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2018 South Asia Industrial Webinar Series

The topics will cover system design issue and solution for Building Automation, Power Delivery and Test & Measurement. TI experts introduce the latest technology and innovation system reference design. Discover ways to enhance the time-to-market and create safer and efficient industrial systems.

1. Design considerations for USB type-C power delivery

The presentation addresses the design consideration of USB Type-C power delivery. USB Type-C is the new trend of Industrial, automotive and personal electronics devices. In the training, audience will be able to learn more about USB Type-C power delivery (PD) requirement and understand architecture of USB Type-C PD, AC/DC power source.

# 標題 時間長度
1.1 Design considerations for USB type-C power delivery Part 1
Part 1: The speaker briefly introduce the USB connector milestone and its features, priority of power modes, USB Type-C ECO system and its application...etc....
14:51
1.2 Design considerations for USB type-C power delivery Part 2
Part 2: In the part, the training covers the PD load transient requirement, AC/DC single port power delivery design example and introduces several USB...
15:41
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2. Demystifying circuit design with Precision DAC

The presentation addresses the Precision DAC Architecture overview, DAC spec parameters and the theory of operation & Design example. All the information is importer for engineer when work on the system design.

# 標題 時間長度
2.1 Demystifying circuit design with Precision DAC Part 1
Part 1: Speaker starts from a Precision DAC portfolio table to introduce the features as well as the popular application in the industrial market.
14:53
2.2 Demystifying circuit design with Precision DAC Part 2
Part 2: In this speaker addresses the resistor ladder (3-bit), the theory and the way it works. Also introduce the R-2R DAC’s advantage, disadvantage and...
15:38
2.3 Demystifying circuit design with Precision DAC Part 3
Part 3: Some people may be confuses about the zero code error and offset error. In this session, speaker also briefs on the gain error, DNL, monotonic...
10:30
2.4 Demystifying circuit design with Precision DAC Part 4
Part 4: In this part, the speaker further introduces Glitch and its sources, major carry transition, glitch vs. DAC structure, glitch reduction techniques...
14:19
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3. Environmental sensor for building automation design

Building automation system is a communication network infrastructure that manages the building service. This training will introduce the environmental sensor black diagram, key reference design and the solution for IC temperature sensor, power saving analog temperature sensor, digital temperature sensor … etc.

# 標題 時間長度
3.1 Environmental sensor for building automation design Part 1
Part 1: The speaker introduces what building automation about, what is the role of humidity and temperature senor play here and further explains the design...
15:39
3.2 Environmental sensor for building automation design Part 2
Part 2: The training addresses the design consideration of the humidity and temperature sensor and provides a clear guide for layout. The speaker also...
19:23
3.3 Environmental sensor for building automation design Part 3
Part 3: The training introduce the passive infrared (PIR) sensor in building automation application, its design consideration and product brief on low...
15:43
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4. SAR ADC Design

Targeting the Test and Measurement application, this section includes many topics relevant to designing with SAR ADC devices.

# 標題 時間長度
4.1 TI Precision Labs – ADCs: Determining a SAR ADC’s Linear Range when using Operational Amplifiers
This video shows how to design the front-end op-amp drive circuit for linear operation.
17:19
4.2 TI Precision Labs – ADCs: Hands-on Experiment – Crossover Distortion
This hands-on experiment shows how the front-end driver impacts SAR ADC performance.
11:37
4.3 TI Precision Labs – ADCs: Calculating the Total Noise for ADC Systems
This video walks through how to predict the overall system noise for an ADC, amplifier, and reference.
10:11
4.4 TI Precision Labs – ADCs: Introduction to SAR ADC Front-End Component Selection
This video describes how to select the best external components to achieve optimal ADC performance.
17:37
4.5 TI Precision Labs - ADCs: Voltage Reference Overview
This section covers reference specifications, to gain a deeper understanding of how the voltage reference impacts the performance of the ADC system.
12:13
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5. Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC

The “conventional wisdom” is that the Phase Shifted Full Bridge (PSFB) topology is the best choice for high power DC/DC converter applications. However, the “conventional wisdom” has been challenged by the users who are choosing the Full Bridge LLC (FB-LLC) topology for applications where we would normally suggest the PSFB topology. The speaker provides a clear comparison between the two typologies and tries to indicate which is best in a given application
# 標題 時間長度
5.1 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 1
Part 1: The speaker introduces the high power battery chargers, including typical high power DC/DC system, battery, CI/CV operation… etc.
12:57
5.2 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 2
Part 2: What we will care about when the engineer work on the DC/DC conversion design and what we can do for it.
16:11
5.3 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 3
Part 3: In this part, the speaker talks about how PSFB and Full Bridge LCC work in details.
16:46
5.4 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 4
Part 4: The speaker further addresses what is Full Bridge LCC and what’s the difference between PSFB and Full Bridge LCC.
16:09
5.5 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 5
Part 5: In this part, the speaker further talks about the difference of FSFB and FB-LLC, including the synchronous rectification, transformer secondary...
11:09
5.6 Introduce high power DC/DC conversion design: comparison of PSFB and FB-LLC Part 6
Part 6: The speaker has more comparison for the component stresses and in the end provides a conclusion of PSFB and FB-LLC and guideline of how to choose...
12:28
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6. Overview of commonly-used interface for industrial application

The training provides a very comprehensive introduction of the commonly-used interface including RS-485, RS-422, ProfiBus, RS-232, IO-Link, CAN and LIN. These interfaces are used in the application of Factory Automation and some other industrial application. For the engineer who needs to deal with interface system design, this is a very useful training.

# 標題 時間長度
6.1 Overview of commonly-used interface for industrial application Part 1
Part 1: First the speaker shows the communication hierarchy of all the interface type and how it impact on the communication design. Then the training...
10:26
6.2 Overview of commonly-used interface for industrial application Part 2
Part 2: The speaker further addresses the RS-485 grounding, termination and external failsafe biasing and application tips.
10:15
6.3 Overview of commonly-used interface for industrial application Part 3
Part 3: The speaker introduces a RS485 passive equalization reference design – TIDA00790 and other useful interface references.
10:16
6.4 Overview of commonly-used interface for industrial application Part 4
Part 4: In the training, the speaker introduces the RS-232, its features, TIA standard and how it works in the system. Also address what is IO Link.
09:59
6.5 Overview of commonly-used interface for industrial application Part 5
Part 5: In this part, speaker focuses on the CAN and further introduces its features and how it works in the system.
08:12
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