注意:各項之間請以逗號分隔

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例如 , 10/16/2019

注意:各項之間請以逗號分隔

例如 , 10/16/2019

例如 , 10/16/2019

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35 結果

TI's Precision SAR ADCs in Wearable Devices

日期:
2016年 2月 5日

時間長度:
02:41
This video provides information and resources to show how TI's precision SAR ADCs are well suited for use in wearable devices.

Nuances in ultra-low power designs for wearable products

日期:
2016年 3月 17日

時間長度:
21:41
Learn how ultra-low power designs require a system-level approach with consideration of quiescent and shutdown current to achieve optimal power management

Overview of the ADS7042 Ultra-Low Power Data Acquisition BoosterPack

日期:
2016年 4月 7日

時間長度:
02:15
Explore the ADS7042 Ultra-Low Power Data Acquisition BoosterPack in this short overview.
DLP nHD Lightcrafter Display DLP2000 $99 EVM optical engine

Plug, Play, and Display - TI DLP® LightCrafter™ Display 2000 EVM

日期:
2017年 8月 2日

時間長度:
03:01
TI introduces most affordable way to get started with DLP® Pico™ display technology. Tiny chipset and $99 EVM make it easier to design display applications.

Wireless Multi-parameter Patient Monitor Demo

日期:
2018年 6月 1日

時間長度:
04:02
A simple, wearable, wireless, multi-parameter, patient monitor operated using coin-cell battery and supporting raw data over Bluetooth® 5

可用10年的蓝牙PIR运动检测方案

日期:
2018年 5月 11日
使用蓝牙智能和纽扣电池的长达10年使用期的超低功耗红外运动探测器设计方案分享,针对新型无线PIR检测应用,实现超长待机时间。

DLP® Pico™ DLP2000 EVM

日期:
2018年 11月 12日
DLP® LightCrafter Display 2000 is an easy-to-use, plug-and-play evaluation platform.
USB type-C power delivery

Design considerations for USB type-C power delivery Part 2

日期:
2018年 12月 12日

時間長度:
15:41
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 Type-C re

智慧医疗 - 医疗监护、可穿戴式设备及手提超声探头

日期:
2019年 7月 12日
在本次的两场直播中,您将了解到 TI 的最新医疗监护及可穿戴式设备的参考设计介绍和手提超声参考设计方案介绍,其中包括多参数患者监护仪、医疗传感器贴片、超声波智能探头等设计方案。

Wearable displays systems

日期:
2016年 8月 25日

時間長度:
18:30
Wearable display systems, including an understanding between augmented reality and virtual reality, optical architectures, and system design considerations

Wearables display applications

日期:
2016年 8月 25日

時間長度:
09:58
Overview of applications and markets for wearable displays.

How TI DLP Pico technology fits within wearable display systems

日期:
2016年 8月 25日

時間長度:
27:13
Learn how DLP Pico technology benefits a wearable display system.
Audio Measurements and Results

Audio THD+N measurements

日期:
2016年 11月 30日

時間長度:
02:49
This video briefly outlines key measurements for audio products, specifically total THD+N and level.

How to Measure ECG - ECG vs. PPG

日期:
2017年 5月 5日

時間長度:
05:39
This video discusses the differences between ECGs and PPGs.

MSP430 Capacitive Touch MCUs featuring CapTIvate™ Technology Training Series

MSP430 MCUs featuring CapTIvate technology are the most noise-immune capacitive touch MCUs, and first to feature an IEC61000-4-6 certified solution. These MCUs feature the most configurable combination of buttons, wheels, sliders and proximity sensing interfaces, as well as support for metal touch, glove-proof and moisture-tolerant designs, all at the world's lowest power.

This training series details the key features of MSP430 MCUs featuring CapTIvate technology, enabling you to get started on your next great capacitive touch design and get to market more quickly.

Audio Measurements and Results

Audio Measurements and Results

This training series outlines key measurements for audio products, specifically signal-to-noise ratio, crosstalk and gain, intermodulation distortion, frequency response and phase, THD+N and level. These videos explain the basic principles of each measurement, why it is significant and how to test and calculate correctly.

Display University

In this on-demand training series, learn about a variety of LCD and OLED display design topics from TI experts.  This series covers a broad spectrum of subject matter from display basics to more in depth videos on design considerations and overcoming specific display design challenges.  You can choose which curriculum best suits your needs  and learn at your own pace by choosing a section or specific video in the series. Get started by clicking a section or video below. 

Capacitive Touch Basics with MSP430 MCUs featuring CapTIvate Technology

This section of the video series provides an introduction to capacitive touch using MSP430 MCUs with CapTIvate technology as well as how to get started with CapTIvate Design Center and CapTIvate development tools.

Fundamental PCB Layout and Design Guidelines of MSP430 MCUs with CapTIvate Technology

This training covers the fundamental design techniques required to implement a successful capacitive sensing hardware design. This series will explore a number of design topics, including:  Basic layout guidelines overlays, back lighting; Dealing with moisture; Self capacitance sensors; Mutual capacitance sensors; and Proximity sensors.

Introduction to EMC Challenges and Design with CapTIvate MCUs

This video series provides a reference on designing capacitive touch capabilities to withstand EMC challenges commonly found in human machine interface applications.
35 結果
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