While LEDs offer mainstream lighting applications benefits such as long life, durability and high efficiency, the lifetime of an LED product may be significantly shortened without proper thermal management safeguards in your design.
With summer vacation on the way, keep kids occupied with engineering-like activities and projects.
Engineers at start-up companies and even some larger companies don’t want to go to a contract manufacturer that also builds zillions of complex boards and products for big companies. Instead, these engineers want the daily hand holding associated with building prototypes.
Fabricators can quickly deliver high-quality PCB prototypes. To ensure success you must play your cards right.
Industrial intellectual property (IP) offers a powerful tool to communicate and reinforce expectations associated with product quality, consistency, and performance. In all forms (whether brand names, patents, trademarks, design markings, or others), IP additionally can help point the way to reputable “tried-and-true” product solutions and draw clear distinctions in an increasingly complex global marketplace.
As systems that incorporate low-voltage logic become ever more complex, the power supplies necessary to correctly operate multiple-voltage chips such as DSPs and FPGAs similarly increase in complexity. For example, it’s now commonplace for an FPGA’s core to operate at 1.2 – 1.8V, while its I/O banks run from multiple levels to interface with external logic families. Most often, chips that have core power supplies that are independent from I/O and auxiliary levels require careful power sequencing to ensure they start up and operate correctly.
Traditionally, IGBTs have addressed applications requiring high-voltage and -current ratings and relatively slow switching frequencies. When the switching frequency is low, the inherently low conduction losses resulting from the device’s low VCE(on) (collector-to-emitter saturation voltage), which derive from the IGBT’s minority carrier operation, outweigh the
Anyone who has survived the last several years in the electronic industry know what I mean when I say that these are very turbulent times. Disruptive technologies in both the hardware and software arenas combined with the relentless pressure of convergence in functionality, marketplace, and the business itself have made life very interesting for electronic design engineers.
Jon Titus exlains that you can buy digital certificates to identify your products and provide a public/private key for each.
As electronic networks become more data-intensive and intelligent subsystems increase in number and complexity, bandwidth limits, signal interference, and device compatibility issues become important concerns. What are some ways that an electronic circuit designer can address these challenges?
“When engineers start to network devices, security becomes a top design requirement,” said Tim Stapko, lead software engineer at Digi International. “But many designers of embedded systems just don’t think about security. When they do, they might consider security as an add-in option or think of security as simply encrypting communications.”
When a product such as a child locator, surveying instrument, or autonomous vehicle requires position information, a GPS module can provide it. Prices for devices that provide this information range from less than a dollar for chips used in cell phones to hundreds of dollars for modules and boards that offer high accuracy. Cell-phone GPS receivers might get you “close enough,” but higher-end modules can offer centimeter accuracy. “At its simplest, a GPS receiver acquires satellite signals, decodes their information, and calculates a position, time, and velocity,” explained Joel Avey, director of marketing at Trimble for the company’s advanced devices.
The need for our appliances to be networked is rapidly emerging, and fortunately, so are the means with the advent of ZigBee low-cost wireless platforms.
In the area of medical switch components, current trends continue to call for further miniaturization to meet the needs of space-saving applications like hearing aids.