Passive Components Blog
No Result
View All Result
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    TDK Releases 140C Compact Vibration Robust Automotive Aluminum Capacitors

    DigiKey Presents Factory Tomorrow Season 5 Video Series

    Samsung MLCCs Lineup for In-Vehicle Infotainment

    source: Samtec

    Best Practices for Cable Management in High-Speed and High-Density Systems

    Würth Elektronik Unveils Compact Common-Mode Data Lines Chokes

    Bourns Releases TCO 240 Watt USB Mini-Breaker

    Littelfuse Adds 600W Automotive TVS Diodes for High-Energy Transient Protection

    Vishay Releases Harsh Environment Robust DC-Link Film Capacitor

    Bourns Releases Automotive High Creepage and Clearance Transformer

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    Ripple Steering in Coupled Inductors: SEPIC Case

    SEPIC Converter with Coupled and Uncoupled Inductors

    Coupled Inductors in SEPIC versus Flyback Converters

    Non-Linear MLCC Class II Capacitor Measurements Challenges

    Percolation Phenomenon and Reliability of Molded Power Inductors in DC/DC converters

    Root Causes and Effects of DC Bias and AC in Ceramic Capacitors

    How to Calculate the Output Capacitor for a Switching Power Supply

    Switched Capacitor Converter Explained

    Understanding Inductor Dot Markings and Their Application in LTspice

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • Suppliers
    • Who is Who
  • Events
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    TDK Releases 140C Compact Vibration Robust Automotive Aluminum Capacitors

    DigiKey Presents Factory Tomorrow Season 5 Video Series

    Samsung MLCCs Lineup for In-Vehicle Infotainment

    source: Samtec

    Best Practices for Cable Management in High-Speed and High-Density Systems

    Würth Elektronik Unveils Compact Common-Mode Data Lines Chokes

    Bourns Releases TCO 240 Watt USB Mini-Breaker

    Littelfuse Adds 600W Automotive TVS Diodes for High-Energy Transient Protection

    Vishay Releases Harsh Environment Robust DC-Link Film Capacitor

    Bourns Releases Automotive High Creepage and Clearance Transformer

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    Ripple Steering in Coupled Inductors: SEPIC Case

    SEPIC Converter with Coupled and Uncoupled Inductors

    Coupled Inductors in SEPIC versus Flyback Converters

    Non-Linear MLCC Class II Capacitor Measurements Challenges

    Percolation Phenomenon and Reliability of Molded Power Inductors in DC/DC converters

    Root Causes and Effects of DC Bias and AC in Ceramic Capacitors

    How to Calculate the Output Capacitor for a Switching Power Supply

    Switched Capacitor Converter Explained

    Understanding Inductor Dot Markings and Their Application in LTspice

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • Suppliers
    • Who is Who
  • Events
No Result
View All Result
Passive Components Blog
No Result
View All Result

Würth Elektronik Present Efficient Motor Controller Evaluation Kit

8.7.2025
Reading Time: 2 mins read
A A

Würth Elektronik and Nexperia present motor driver evaluation kit for faster development of efficient motor controllers.

Würth Elektronik and Nexperia have developed the NEVB-MTR1-KIT1 modular motor driver evaluation kit. The kit, created in collaboration, can be configured for use in under two minutes and is conveniently powered via USB-C.

RelatedPosts

Würth Elektronik Unveils Compact Common-Mode Data Lines Chokes

SEPIC Converter with Coupled and Uncoupled Inductors

Würth Elektronik Releases Push-Button and Main Switches

Thanks to the open architecture, microcontrollers and components can be easily exchanged. Open-source firmware enables rapid adaptation and development of motor controllers under real-world conditions.

A particular highlight of the kit is the high-current connectors integrated by Würth Elektronik, which enable evaluations up to 1 kW at 48 V. The kit includes a 3-phase inverter board, a motor controller board, a microcontroller development board, pre-wired motor connections, and a BLDC (brushless DC) motor.

The demands on dynamics, fault tolerance, and energy efficiency in modern drive systems are rising steadily. The development of motor control systems has therefore become increasingly complex – a multidimensional technical task in which hardware and software must interact seamlessly.

Selecting the right switches (MOSFETs, IGBTs), gate drivers, and protection elements is crucial. Only an optimally matched driver-switch combination enables high efficiency and reliability. Inadequate selection, on the other hand, can lead to increased switching losses, critical thermal behavior, or unstable dynamics. The behavior of the components must be carefully validated under real-world conditions, taking into account factors such as parasitic elements, switching transients, and EMI.

This is where the modular kit makes things much easier for developers: it is designed so that different motors and control concepts can be operated – even using sensors.

Playground for engineers

“Our collaboration with Würth Elektronik brings together the strengths of both companies to support engineers in pushing the boundaries of what’s possible,” said Oleg Krapivner, Marketing Senior Director at Nexperia. “By combining passive components and power semiconductors on a single board, we’re providing a practical platform that helps accelerate innovation at the heart of designs. We’re offering more than just an evaluation tool – it’s a playground for engineers to experiment, iterate, and bring new ideas to life.”

“The NEVB-MTR1-KIT1 marks a paradigm shift in our evaluation boards, says Alexander Gerfer, CTO at the Würth Elektronik eiSos Group. “Rather than forcing engineers to adopt a fixed reference design, the board becomes a modular, developer-friendly platform that can be adapted to a wide range of motors, control algorithms, and test setups. This flexibility not only speeds up motor controller development but also enables faster iterations, testing, and optimization – exactly what modern development projects need.”

Related

Source: Würth Elektronik

Recent Posts

Würth Elektronik Unveils Compact Common-Mode Data Lines Chokes

3.9.2025
18

Ripple Steering in Coupled Inductors: SEPIC Case

27.8.2025
20

SEPIC Converter with Coupled and Uncoupled Inductors

26.8.2025
43

Coupled Inductors in SEPIC versus Flyback Converters

26.8.2025
31

Common Mistakes in Flyback Transformer Specs

15.8.2025
82

High Voltage MLCCs Meeting the Growing Demand for Efficiency in Power Conversion

12.8.2025
196

KYOCERA AVX Releases Hermaphroditic WTW and WTB Connectors

8.8.2025
24

Radiation Tolerance of Tantalum and Ceramic Capacitors

8.8.2025
128

How to Calculate the Output Capacitor for a Switching Power Supply

6.8.2025
97

PCNS 2025 Final Program Announced!

4.8.2025
107

Upcoming Events

Sep 16
17:00 - 18:00 CEST

EMI Shielding Challenges

Sep 22
September 22 @ 13:00 - September 25 @ 15:15 EDT

Pre Cap Visual Inspection per Mil-Std-883 (TM 2017)

Sep 30
September 30 @ 12:00 - October 2 @ 14:00 EDT

MIL-Std-883 TM 2010

Oct 17
12:00 - 14:00 EDT

External Visual Inspection per MIL-STD-883 TM 2009

Oct 20
October 20 - October 23

Digital WE Days 2025 – Virtual Conference

View Calendar

Popular Posts

  • Buck Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Boost Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Flyback Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • LLC Resonant Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • What is a Dielectric Constant and DF of Plastic Materials?

    4 shares
    Share 4 Tweet 0
  • Dual Active Bridge (DAB) Topology Explained

    0 shares
    Share 0 Tweet 0
  • Ripple Current and its Effects on the Performance of Capacitors

    3 shares
    Share 3 Tweet 0
  • How to Design an Inductor

    0 shares
    Share 0 Tweet 0
  • Core Materials, Permeability and Their Losses

    0 shares
    Share 0 Tweet 0
  • SEPIC Converter Design and Calculation

    0 shares
    Share 0 Tweet 0

Newsletter Subscription

 

Passive Components Blog

© EPCI - Leading Passive Components Educational and Information Site

  • Home
  • Privacy Policy
  • EPCI Membership & Advertisement
  • About

No Result
View All Result
  • Home
  • Knowledge Blog
  • Premium Suppliers

© EPCI - Leading Passive Components Educational and Information Site

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version