快速推進電氣化面臨許多關鍵挑戰，包括續航焦慮、電池壽命、系統效率、熱管理、安全性、防盜以及優化充電基礎設施等問題。應對這些挑戰需要先進的電機控制演算法、強有力的防盜措施、高效的熱管理以及合理佈局充電基礎設施。 Microchip的解決方案，涵蓋先進馬達控制、電池管理系統和充電解決方案等，對推動城市交通快速電氣化起著重要作用，進而大幅減少碳足跡，提升永續性。本影片幫助了解Microchip如何幫助您著手下一個電動二輪車設計，並加快產品上市。

產品特性 •雙通道，用於從一個控制器運行兩路電源輸出 •恆定電流或恆壓操作，兩種控制模式之間動態切換以及輸出電平動態調整 •具有雙向電源控制能力 •寬輸入工作電壓範圍：4.5V至42V •模擬峰值電流模式脈寬調製（PWM）控制

This session brings together technical experts from Microchip, Bourns, and Amphenol to explore Time Sensitive Networking (TSN) tools and software designed for precision, reliability, and scalability in industrial Ethernet applications.

Discover how Microchip, Bourns, and Amphenol enhance network resiliency with robust solutions designed to ensure reliable connectivity in demanding industrial and automotive environments.

Explore how Microchip, Bourns, and Amphenol are advancing Single Pair Ethernet with 10BASE-T1S technology. This innovation enables efficient, cost-effective connectivity for industrial and automotive applications.

Explore how Microchip, Bourns, and Amphenol address timing sensitivity in embedded systems, ensuring precise synchronization and performance across critical applications.

We take a look at the MPLAB® PICkit™ Basic In-Circuit Debugger from Microchip. It’s an ultra-low-cost and easy-to-use programmer/debugger that’s compatible with a broad range of Microchip’s MCUs, MPUs, and DSCs.

Discover Microchip’s AVR Dx & Ex MCUs—designed for modern embedded needs. Learn about key features, peripherals, and dev tools to choose the right microcontroller for your project.

We take a look at the Curiosity Platform Development Board from Microchip, an easy-to-use and flexible platform for developing with Microchip dsPIC33A DSCs and PIC32A MCUs.

DigiKey & Microchip at embedded world 2025! Explore the newest embedded design innovations, including Microchip's PIC32A family. Discover key features and insights for embedded system development live from the DigiKey booth.

Microchip & DigiKey experts discuss using FPGAs and the PIC16F13145 in embedded design, highlighting their flexibility and performance. They also introduce tools like the CLB synthesizer for easier FPGA design.

This video discusses Microchip Technology's wide portfolio of MEMs and crystal oscillator solutions.

We take a look at the PolarFire System on Chip FPGA Discovery Kit from Microchip, an open source FPGA development kit for rapid testing of industrial IoT, smart embedded vision, edge communications and other compute intensive applications.

Timing specifications typically include parameters such as "Phase Noise" and "Jitter", which are related to a clock's Phase Domain Spectral Power Density.

Engineers are typically accustomed to thinking in the Voltage Domain, but to understand Timing, one needs to understand how to think in the Phase Domain.

Phase Power Spectral Density -- more commonly called “Phase Noise” in Timing applications – is explained in this video and compared to FM radio modulation.

This video describes how phase noise is measured and how these measurements are used to determine whether a clock meets phase noise mask specifications for a given device.

This video explores Time Interval Error (TIE), the deviation between a real clock's rising edge and an ideal clock's edge.

Microchip’s Expert Sieg Schmalz describes some of the other parameters that engineers use to determine whether a clock is a good fit for a given application. These parameters include rise and fall time, slew rate, duty cycle, propagation delay, skew.

The video explains the relationship between Time Interval Error (TIE) and Phase Noise plots, illustrating how phase noise at specific frequency offsets represents the combined phase power of clock edges.