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.
本系列研討會將包含六個主題，邀請多位技術專家針對現今最熱門的建築安全、建築自動化、電力傳輸、馬達驅動與控制、工廠自動化及測試與測量等應用領域分享實務與設計上的知識與經驗。德州儀器將展示 2018 年各種最新工業應用解決方案，協助您輕鬆打造更具智慧高效的工業系統。
無論是測試與量測系統或是馬達元件，無不講究高精度與高效設計。德州儀器 ( TI ) 量測 x 馬達技術線上直播網路研討會，廣聚多位技術專家，針對測試與量測系統的資料截取系統 (DAQ)、 半導體製造設備的電壓/電流測試與電池測試設備等系統，詳細分享系統設計的實務案例。馬達專家則針對無刷 DC 馬達元件、Servo 驅動器控制模組與交流驅動功率模組，剖析節能、精準控制的設計指南。從理論介紹到實務驗證，深入剖析最新技術趨勢！
Understand the performance and trade-offs of the traditional low noise and high efficiency approach of using a DC/DC followed by an LDO, through a deep dive into TIDA-01566. The size, quiescent current, efficiency, temperature rise, noise, and adaptability of three different approaches are compared: DC/DC + LDO, DC/DC only, and LDO only.
Noise and EMI can be detrimental to sensitive analog signal chain circuitry. For this reason, many engineers automatically default to linear regulators. But, in doing so, they are essentially trading one problem (noise) for another (heat dissipation). In this section we will discuss what types of signal chain loads can be driven directly by a switching regulator to get low noise and EMI without sacrificing efficiency. We will also discuss when a linear regulator is absolutely needed to reach levels of noise not possible with a switcher.
Mitigating switching regulator EMI and noise is seen by engineers as a black art. Mess with the feng shui of the PCB layout too much, and the system may not pass CISPR standards. Because of this, many power designers simply turn to linear regulators as a guaranteed way to avoid the headache of reducing emissions.