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74 Results

Synchronization of High Speed Multichannel JESD204B Compliant Clocks Part 1

Date:
July 17, 2018

Duration:
07:50
Learn about the high speed multi-channel clocking requirements and challenges.

Synchronization of High Speed Multichannel JESD204B Compliant Clocks Part 2

Date:
July 25, 2018

Duration:
09:56
Learn about the JESD204B compliant high speed multichannel synchronized clocking architecture

Synchronization of High Speed Multichannel JESD204B Compliant Clocks Part 3

Date:
July 25, 2018

Duration:
11:22
Learn about the high channel count clocking solution.
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.

TI Precision Labs - Clocks and Timing: System Design Considerations

The videos in this series will discuss distributed vs. centralized clock tree, synchronous vs. free-running designs and other selection criteria requirements to help narrow down a clock tree solution. We will discuss other design considerations including frequency planning, spurious and EMI noise reduction techniques, system clock optimization/tuning and clocking for JESD204 B/C systems.

Fully Differential Amplifiers - FDA stability and simulating phase margin

TI Precision Labs – Fully Differential Amplifiers – FDA Stability and Simulating Phase Margin

Date:
July 10, 2017

Duration:
17:38
This video discusses FDA stability and open-loop gain. You will also learn how to calculate and simulate with TINA-TI for FDAs.
Introduction to FDAs and Differential Signaling

TI Precision Labs – Fully Differential Amplifiers – Introduction to FDAs and Differential Signaling

Date:
July 10, 2017

Duration:
12:21
This video discusses the basics of differential signaling, its advantages over single-ended signaling and the three basic rules that govern how an FDA operates
Fully Differential Amplifiers - Noise analysis, advanced compensation technique and variable gain FDAs

TI Precision Labs – Fully Differential Amplifiers – Noise Analysis, Advanced Compensation Techniques and Variable Gain FDAs

Date:
July 10, 2017

Duration:
15:55
This video discusses the various noise sources of an FDA and the effects of using large resistors in the feedback network of high-speed FDAs.
Fully Differential Amplifiers - Input and output, common-mode and differential-swing analysis

TI Precision Labs – Op Amps: Fully Differential Amplifiers – Input and Output, Common-Mode and Differential-Swing Analysis

Date:
July 10, 2017

Duration:
14:13
This video discusses how to estimate an FDAs common-mode and differential swing at the inputs and the outputs and its dependence on the amplifier configuration

TI Solutions for Clock and Timing

Date:
December 7, 2017

Duration:
15:08
Learn about solutions to common aerospace and defense design challenges to help you simplify designs and improve performance.
1 of 5: Local oscillator and GHz clocks requirements in Radio applications systems with LMX2594.

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

Date:
April 29, 2017

Duration:
09:25
This last video discusses how to understand the key phase noise specifications with a D/S using LMX2594. 

Utilizing the AFE74xx TXTDD and RXTDD modes

Date:
March 4, 2019

Duration:
04:15
Learn how to save power by utilizing the AFE74xx TXTDD and RXTDD modes.

Webinar - What you need to know about Clock Generators, Buffers and RF Synthesizers

Date:
June 27, 2018

Duration:
54:18
Want to learn more about Clock Generators and Buffers ? You're in the right place!
LDO Thumbnail

You CAN have both - low noise AND high efficiency

For noise-critical portable applications, such as GPS receivers, connectivity, and sensing, power supply designers always had to choose between longer battery run time (from higher efficiency) or higher signal chain performance (from the increased sensor sensitivity possible with a quieter power supply). For line-powered industrial or communications equipment applications, designers have been forced to dissipate significant amounts of power in LDOs to achieve the desired noise performance. Achieving both low noise and high efficiency was impossible.

74 Results
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