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Technical Features
Current
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Figure 1: Wireless charging offers multiple benefits for users and device manufacturers
Stephan Schächer, Head of Technical & System Marketing, DCDC Milko Paolucci, Senior Application Engineer, Infineon Technologies
Data has been wireless for some time. Now consumers are demanding the ability to charge wirelessly and technology enablers are responding. In this technical article, Infineon will review the current state-of-art and compare the benefits of advanced wireless charging solutions using a totally integrated approach.
Background
Every
Figure 1. A 12-layer winding planar transformer incorporating primary and secondary windings using copper, FR4 material and two identical substrates.
Cathal Sheehan, Technical Market Manager, Bourns, Inc.
There is a growing importance to improve industrial power supply electrical efficiencies that is being driven by environment and economic factors. Even a small efficiency enhancement can translate into energy reductions that lead to costs savings and more productive and, many times, more reliable and longer
Kevin Parmenter, PSD Contributor
Opening Statements by Panel Moderator:
Kevin Parmenter, PSD Contributor
It was my distinct pleasure to chair a podium session at PCIM in Nuremburg Germany in May. The subject of the session was enabling next generation
Figure 1. Structure of a fire alarm system whose network for the fire detectors is based on a double ring topology. The audible alarms (sounders), on the other hand, operate in a star network topology.
Bettina Renz, Dipl.-Ing. (FH), Product Marketing Manager, TDK
Office blocks, hotels, airports, shopping malls: Buildings designed for large numbers of people must be equipped with automatic fire alarm systems. These are complex systems consisting of sensors, actuators, power supplies and data transmission units. The individual fire detectors are generally linked over a
Figure 1. Demorad 24 GHz radar platform solution.
John Morrissey, Analog Devices
24 GHz, silicon-based millimeter wave radar technology is enabling a new generation of real-world, no contact smart sensors that are increasingly being used in mass market applications such as automotive, UAVs/ drones, broad industrial, and consumer.
These radar sensors provide real-time information
Figure 1. A brushed DC motor in its very simplest form, using a permanent magnet for the stator field, safety pins as the brushes and a wire coil as the armature winding. It draws its power straight from a battery.
Robert Huntly, contributing on behalf of Mouser Electronics
A brushed DC motor will start turning when you apply a DC power source to its brushes. These make contact with the commutator (part of the moving rotor) and cause a current to flow through it. The fixed part of the motor – the stator – provides the constant magnetic field that interacts with the current
Figure 1. LT3045 Typical Application Schematic & Features
Amit P. Patel, Senior Design Engineer, & Steve Knoth, Senior Product Marketing Engineer, Linear Technology Corporation
Linear regulators are integrated circuits that step a voltage down from a higher voltage to a lower voltage without the need of an inductor. The low dropout linear regulator (LDO) is a special type of linear regulator in which the dropout voltage – the differential between the input-to-output voltages needed
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Figure 1. Streaming or averaging type instruments
Anoop Gangadharan, Yokogawa
In response to pressures to optimise energy efficiency throughout industry, a number of trends are emerging across the power landscape:
· In the automotive sector, we are seeing increased electrification of the power train and the growing adoption of hybrid, electric, plug-in
Andreas Mangler, Rutronik, Dr.-Ing. Olfa Kanoun and Dipl.-Ing. Thomas Günther, Chemnitz University of Technology
When Li-ion batteries age, their performance drops. Current methods still require complex instrumented laboratory-based tests to determine how quickly and to which degree this occurs. In contrast, a procedure developed by Chemnitz University of Technology now enables quick and precise diagnosis. It ensures the
Figure 1. Extending the frequency and voltage range of a probe requires a front-end network of resistors and capacitors.
Andy Heltborg, Tektronix
Low-power circuits combine high speed and low-power consumption in a single component, presenting a number of probing and testing challenges. Since many low-power devices are also high-speed systems, there is a need to test and verify their performance. Testing the low-power components for compliance with industry
Figure 1. Power rail voltages and tolerances required by ICs continue to decrease. These dynamics challenge traditional oscilloscope measurement approaches as the noise of the scope and probe system impairs the ability to make accurate measurements of small signals.
Joel Woodward, Strategic Oscilloscope Planner at Rohde & Schwarz in Munich
Development teams face increasing power integrity challenges. FPGAs, ASICs, and standard components semiconductor devices continue to increase in gate count. Each of the millions of gates on an integrated circuit requires current to switch. As devices can consume tens of amps and total power must be managed,
Herman van Eijkelenburg, Director of Marketing, Adaptive Power Systems
Recent developments in electric vehicle designs are pushing power test equipment levels ever higher. To overcome range anxiety on the part of potential EV buyers, manufacturers are looking to increase battery capacity while at the same time improving electric drive train efficiencies. Both tactics require the
Programmable AC and DC power sources have been widely used to implement and support a wide range of development and test applications where an engineer needs the ability to fully control voltage, frequency and current to the unit under test. These programmable sources are used to simulate various power
Figure 1. Small Wireless Earbuds Challenge the Size and Battery Life of Electronics
Scott Kim, Chad L. Olson, Nazzareno (Reno) Rossetti, Maxim
Hearable devices are an emerging market at the intersection of wireless stereo earbuds and fitness monitoring. However, the small form factor escalates the miniaturization challenge for electronics and presents additional challenges for battery life. This article presents an innovative power management
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