New product announcements

Powerbox’s Battery Backup Unit System Reduces Railway Modernization Times
Posted: 2017-9-29

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has announced the launch of its second generation Battery Backup Unit System (BBU-S) to support the modernization of railway networks and industrial applications that require flexible power backup systems with extended monitoring and control. Responding to the needs of a large range of applications and designed for use in enclosed outdoor environments, Powerbox’s BBU-S comprises an industry standard 19-inch rack unit with sub-modules. System-wise, the BBU-S includes an active power factor corrected input, micro controlled smart charging, automatic battery test, output distribution and several control and monitoring signals. Developed for fast deployment in heterogeneous railway and industrial applications, the versatile BBU-S is available with AC or DC input voltage and can charge and control multiple battery pack configurations. The BBU-S starts at 340W and is available up to 1200W. For remote monitoring and control, the BBU-S offers multiple options such as LAN interface, a radio communications module (GSM, 3G, LTE) and can be reconfigured to match specific demands as needed for different applications.

Combining a high efficiency switching topology with advanced control and monitoring, the new generation of PRBX BBU-S is the ideal solution to power railway trackside applications such as signaling, offering a significant cost and energy saving compared to conventional technology. The BBU-S includes a range of products that can be quickly modified to meet specific demands such as adaptive voltage and power to suit the length of the track, and to the number of systems installed in the signaling network.

The BBU-S power supplies are enclosed in metal cases with individual components being protected by conformal coating and delivering a regulated voltage to the signaling equipment. The BBU-S also incorporates a power supply backup system with monitoring and control, ensuring that batteries are always operational. To guarantee an ‘always-on’ condition, the BBU-S includes dual redundancy battery strings.

Railway and demanding industrial applications have mandatory requirements that any parts installed in a critical system must have the provision to be quickly and easily repaired or replaced. Based on a range of plug-and-play modules, the PRBX BBU-S can be installed, maintained, repaired and eventually decommissioned with the minimum possible downtime of service, often just minutes.

“Railway modernization programs are now integrating digital control and additional safety functionalities that require a new generation of equipment for signaling, one that includes monitoring and independent battery backup. Most, if not all modernization programs will require it necessary to maintain and upgrade existing systems without any traffic disruption. This demands a high degree of flexibility in the power solution deployed at the trackside.” said Patrick Le Fèvre, Powerbox’s Chief Marketing and Communication Officer.“ To achieve this goal, we developed the modular concept BBU-S, making it easy to adjust and adapt to different configurations. Existing power modules and monitoring units can be substituted by fitting the new generation ones into the existing chassis, and in the cases of expansion or high level upgrades that require a very short time to achieve operational status, the new modular racks can be customized to specific configurations to power new signaling equipment such as optical fiber transmission.”

For more information, visit


Powerbox releases full range of high input voltage DC/DC converters for microgrids and datacenters
Posted: 2017-9-4

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has announced a new range of high-voltage input DC/DC converters for microgrid, datacenters and industrial applications. Part of its industrial line, the new series of HVDC/DC converters operate with an input voltage range of 180VDC to 425VDC, and deliver output power levels from 150W to 750W. The range of applications powered by high-voltage DC supplies is rapidly expending, and from the latest microgrids and datacenters using high voltage DC (HVDC) bus voltages to reduce power losses through to industrial systems, all of these applications require ready to use, board-mounted power converters. Powerbox’s PQB-PHB-PFB300S series is specially designed for such applications. They are built around a high efficiency topology, have a layout optimized for thermal conduction, an input/output isolation of 3,000VAC minimum and deliver output voltages from 3.3VDC to 48VDC.

Energy network managers and systems architects developing electronic equipment connected to microgrids are concerned about energy efficiency and utilizing direct conversion from the 350VDC bus for specific applications. In many cases the voltage conversion is achieved using single stage, modular HVDC/DC converters stepping down the bus voltage to the load. The same is now happening in the latest generation of datacenters, increasing energy utilization by the reduction of power losses by migrating from AC distribution to HVDC. High voltage DC distribution is also very common in industrial electrical vehicles such as are used in the mining and tunnel industries. These require fully encapsulated power modules able to operate within a wide temperature range, and down to -40 degrees C. Such applications are what the PRBX PQB-PHB-PFB300S HVDC/DC converters series is designed for.

In order to provide a solution for any application powered from a high-voltage bus, the PRBX PQB-PHB-PFB300S series includes four power levels (150, 300, 600 and 750W) in three industry-standard packaging formats and footprints; quarter, half and full-brick.

Designed for use in industrial environments, the PQB-PHB-PFB300S series can be operated within a wide temperature range of -40 to +100 degrees C and in 95% of non-condensing relative humidity. The modules’ thermal shutdown is set to protect the units when the housing reaches 105 degrees C.

All products in the PRBX PQB-PHB-PFB300S series include under-voltage, over-voltage protection and lockout, continuous short circuit protection, current limiting and over-temperature protection. Both positive and negative remote ON/OFF types are available. The output voltage can be adjusted via the trim pin and all products feature voltage sensing and compensation pins.
The products are encapsulated in a plastic case with an aluminum baseplate to facilitate cooling and power dissipation. All units operate at a fixed switching frequency and including input filters (Pi or C types).

As required for HVDC bus voltage applications, all products have an input to output isolation of 3,000VAC minimum. The input to case isolation is 2,500VAC and output to case is 500VAC. The isolation resistance is 107 (10 to the power of 7) ohms minimum. The PRBX PQB-PHB-PFB300S series meet the requirements of UL60950-1, EN60950-1 and IEC60950-1 standards and CE mark 2014/30/EU.

For more information, visit

CUI New Medical Wall Plug Power Adapters Comply with IEC 60601-1 4th Edition Standards
Posted: 2017-7-26

CUI’s Power Group announced the addition of a new line of wall plug-in power adapters to its portfolio of external medical power supplies. The SWM6, SWM6 USB, SWM12, and SWM30 series, available with either North American or European input blades, are all certified to the medical 60601-1 edition 3.1 safety standards for 2 x MOPP applications and 4th edition EMC requirements. Featuring high efficiency, class II construction, and no-load power consumption as low as 0.075 W, these ac-dc power supplies are a continuation of CUI’s initiative to provide customers with the most efficient global power solutions for medical, dental, and home healthcare equipment.

The compact 6 W, 12 W, and 30 W wall plug adapters all feature a wide universal input voltage range of 90 to 264 Vac and input-to-output isolation of 4,000 Vac, with output voltage options from 5 to 48 Vdc, depending upon the series. The SWM6, SWM6 USB, and SWM12 series offer horizontal and vertical blade orientations, while the SWM6 USB series also incorporates an integrated USB connector. Protections for over voltage, over current, and short circuit are included for all models as well as a range of dc output connector options.

Models with input blades for North American applications carry medical UL/cUL 60601-1 safety certifications and meet FCC Part 15B Class B limits for EMI/EMC, while models with European input blades carry medical TUV EN 60601-1 safety approvals and bear the CE mark.

For more information on the IEC 60601-1 medical design standards, click here

PSMA Power Technology Roadmap 2017 Report Is Now Available
Posted: 2017-7-21
The 2017 edition includes 551 page report plus USB drive with recorded webinars covering individual sections

The Power Sources Manufacturers Association (PSMA) announces that The Power Technology Roadmap 2017 is now available for purchase by both PSMA members and non-members. This is the tenth edition in the roadmap series, which is published every two years. A preview of the report, including the Table of Contents and Foreword, is available on the homepage of the PSMA website,

The 2017 report forecasts the power technology and power delivery trends through 2021 and includes a USB memory drive version containing the complete report and the graphics and the presentation in color as well as the recorded webinars which provided up-to-date industry information used in the final report. The webinar recordings add much to the report because the listener can understand the context and the subtext of the materials in the presenter's own voice.

In this edition, a new section on Component Technologies has been added. It is widely recognized that the power technology growth is strongly impacted by the growth (or lack thereof) of underlying component technologies. In prior roadmaps, the component angle was covered through the webinar presentations, but it is hoped that the addition of this new section will provide further insights and value to the readers.

The 2017 report continues with essay contributions by the industry experts on Applications Trends and Emerging Technologies. The Application Trends section covers diverse segments such as automotive, consumer, computing, lighting, motor control, medical, and portable charging. This year, an energy harvesting segment makes a debut to keep up with the changing trends in power electronics.  The Emerging Technologies section includes 3D packaging, additive manufacturing, high-frequency magnetics, integrated magnetics and use of nanofluids in electronic cooling. There is much valuable information in these essays. 

"The end result of the webinars, surveys, presentations and discussions is a comprehensive report by the PSMA that offers a consolidated view of the latest trends in the power management, power control and power delivery technologies," said Dhaval Dalal, Co-Chair of the organizing committee. "This latest edition of the PTR provides the most extensive, forward-looking view of our industry. It is an invaluable resource for any organization involved in the power electronics technology marketplace."

"Power electronics technology has emerged, or should we say re-emerged, as an enabling technology in its own right. Part of our industry is now shaping the technology for a large part of the electronics industry." said Conor Quinn, Co-Chair of the organizing committee. "The breadth and depth of the information in this report is unprecedented and together captures the technical trends and issues facing the power sources industry. We hope industry professionals will find our 2017 report useful, thought provoking and valuable."

A copy of the printed and USB memory drive versions of 2017 PSMA Power Technology Roadmap has been sent to PSMA Regular and Associate member companies as a benefit of their membership. Additional copies may be purchased at the member price of $190. PSMA Affiliate members may also purchase the report for $190. The report will be available to non-members June 15 for purchase on the PSMA website ( at the price of $2,990.

Vicor: New MIL-COTS DC-DC Converters
Posted: 2017-7-12

Vicor's new MIL-COTS parts help simplify designs and optimize SWaP-C attributes.The DCM is an isolated, regulated DC-DC converter, operating from an unregulated, wide range input to generate an isolated output.


  • Up to 93% efficient
  • External companion filter meets MIL-STD-461 and MIL-STD-704/1275
  • Thermally adept VIA package:Chassis mount or PCB mount options


  • Quickly develop power dense, low profile, high performance products
  • Comprehensive range of EMI and transient spec compliance
  • Easier thermal and mechanical design 

For more information, visit

CUI Next Generation Dc Switching Regulators Maximize Economy and Performance
Posted: 2017-7-11

CUI’s Power Group announced the addition of four new series to its family of non-isolated dc switching regulators. The next generation VX78 500, VXO78 500, VX78 1000, and VXO78 1000 series are extremely efficient, typically up to 96%, and balance maximizing economy while delivering a high level of performance as a direct alternative to using linear regulators. Utilizing switching technology, the models are footprint compatible with TO-220 package LM78XX and LM79XX model regulators and unlike linear regulators, do not require a heat sink. This makes them ideal for use in portable devices, battery-fed equipment, and embedded designs where board space is at a premium and energy efficiency is a concern.

For more information, visit


CUI 3 W Isolated Dc-Dc Converter Series Delivers 4:1 Input Range in Compact, SMT Package
Posted: 2017-6-27

CUI’s Power Group today announced the addition of a new 3 W isolated dc-dc converter series to its portfolio of low power dc-dc converters. The PQME3 series housed in a compact, industry standard 14 pin surface mount package measuring 0.76 x 0.71 x 0.40 in (19.20 x 18.10 x 10.16 mm), provides a rugged, low power solution for a variety of industrial, test and measurement, and telecommunication applications, thanks to its encapsulated design.

Ideal for converting and isolating fluctuating dc voltages, the 3 W series features 4:1 input ratio ranges of 9 to 36 Vdc and 18 to 75 Vdc, single regulated outputs of 3.3, 5, 9, 12, 15, and 24 Vdc, remote on/off control, and 1500 Vdc input to output isolation. For devices where energy consumption is a concern, the PQME3 series offers efficiency up to 84% and no-load power draw less than 0.1 W. Operating temperatures range from -40 up to +71°C at full load, derating to 60% load at +85°C, making the low power modules suitable for harsh environments.

For more information, visit

Now available: TI CMOS mmWave Sensors
Posted: 2017-6-20
High accuracy range, velocity and angle detection

TI’s IWR sensors enable highly precise results for a wide range of applications like traffic monitoring, drones, and level sensing. Operating in a frequency range between 76-81 GHz enables mmWave technology to detect 2-3 times higher measurements than solutions on the market today, regardless of environmental conditions. The IWR mmWave sensors integrate a DSP and MCU with an Analog Front End into a single chip with a package roughly 25% the size of a stamp- now save up to 50% on both board space and power consumption. Enabled by TI’s mmWave Software Development Kit (SDK), developers can get started in less than 30 minutes! 

Featured specs

  • Frequency Range - 76  81GHz
  • Minimum Range - less than 5 cm
  • Maximum range - 250 meters
  • Angle accuracy - 1°
  • Max relative velocity - 300 km/hr
  • Power output - 12dBm


Ericsson’s award-winning advanced bus converter upgraded to include burst-mode capability for peak power demand
Posted: 2017-6-20
  • Third-generation BMR458 quarter-brick advanced bus converter upgraded to deliver burst-mode capability and handle 1079W of power for one second
  • New capability negates need for second converter module in parallel
  • BMR458 handle delivers up to 650W for range of Information and Communication Technologies (ICT) applications
  • Designed to meet the demands of high-end and high power applications based on intermediate bus conversion (IBC) and dynamic bus voltage (DBV) architectures

Ericsson Power Modules today announced that its award-winning BMR458 third-generation 3E* quarter-brick advanced bus converter has been upgraded to integrate burst-mode operation, which enables the module to handle 1079W of peak power for a brief period of time, up to a maximum of one second.

Increasingly high-performance microprocessors and ASICs will require brief bursts of high current demand that is typically well in excess of normal system operation. Importantly, this burst-mode or peak-power capability eliminates the need for a second converter module to be placed in parallel.

The BMR458 delivers industry-leading performance to system architects developing equipment for Information and Communication Technology (ICT) applications, including datacom and server and storage systems. The module is ideal for high-power applications that are powered by multi-cell batteries or rectifiers commonly used in the ICT industry and employ intermediate bus conversion (IBC) or dynamic bus voltage (DBV) architectures.

“This upgrade of the BMR458 meet the needs of leading customers to handle peak current, commonly demanded by the latest system processors, ASICs and other system-on-chip devices,” said Martin Hägerdal, Head of Ericsson Power Modules. “Once again, Ericsson has extended its technological leadership with this further augmentation of capabilities to deliver the most advanced and highest power capable advanced bus converter available on the market today.”

Other features of the BMR458 include: the highest power delivery (650W) in the industry for a digitally operated quarter-brick advanced bus converter controlled via the PMBus, reducing the number of required modules in very high power applications; and highly accurate current sharing, as well as it being the only advanced bus converter available today to offer active- or droop-current sharing. Other key features including dynamic load compensation, snapshot parameter capture, and a PMBus v1.3 interface.

This new version of the BMR458 has been built to the highest quality design and manufacturing standards, enabling Ericsson to deliver to customers a continued high level of confidence in its power modules.

For further information, please visit

Powerbox Reveals Its High Reliability Power Solution for Subsea Applications
Posted: 2017-6-16

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has announced a new technology platform to power industrial applications requiring high reliability and resilience in extreme environments. Designed to power subsea equipment such as gas and oil monitoring and control systems situated on the seafloor, fed from an AC or DC high voltage line feeder the PRBX VB410-380 power solution delivers 48V DC with very high reliability and resilience. The unit comprises a pre-stage converter and a secondary stage with redundant power modules and for monitoring and control, a full set of communications and interfaces.

Industrial applications such as gas and oil situated on the seafloor, or long distance transmission cables require very specific power solutions to supply a subset of electronic equipment operating 24/7 with no downtime, and where maintenance is either very expensive or simply not an option. These applications are usually powered from the shore or from a technical platform generator via a high voltage line, which depending on the power station could be AC or DC voltage within the range of 300 to 900VAC, or 400 to 1500VDC, ultimately requiring a 48V DC intermediate bus voltage to power electronic equipment.  Outputs need to be able to operate in parallel in order to increase the power or to offer redundancy.

Equipment deployed in extreme environments such as the seafloor must be designed for very high reliability and resilience and able to operate within a temperature range of -25 to +80 degrees C without derating, using conduction cooling only. Subsea electronic equipment is often contained within a very tight tubular container fixed to the cable. Powerbox’s PRBX VB410-380 is designed to guarantee the maximum level of isolation between the high-voltage input and the low-voltage output, but with sufficient physical isolation between the different components to allow for tight integration.

“Delivering power to extreme applications such as subsea ones is always a challenge for designers. But in developing standardized, easily reusable sub-systems such as the VB410-380 we have shortened the design cycle and time-to-market for our customers” said Patrick Le Fèvre, Powerbox’s Chief Marketing and Communication Officer. “Expanding sales opportunities, its design philosophy makes it eminently suitable for other applications such as the chemical industry and in highly restricted areas where human intervention is both complicated and risky.”

Using an advanced switching topology the complete system (high voltage input to low voltage output) energy efficiency is over 85%, which compared to earlier generation, similar products is some 10% higher. The PRBX VB410-380 layout is designed and optimized to conduct heat from the dissipative elements to the cold plate, reducing the possibility of internal hot spots and contributing to higher reliability.

The VB410 primary module converts the line voltage to an internal voltage of 380VDC. It includes an active Power Factor Corrector (PFC) and an RS-232 communication bus for the network manager to supervise the power unit. The module is designed with an ‘inrush current free topology’, cleverly reducing peaks on the main line and reducing component stress.

The secondary stage of the PRBX VB380 includes four independent output modules each delivering 95W (48V / 2A). Each output has its own current limiting capability, and an integrated digital controller, used to monitor voltage and current that is readable through a CAN-Bus. Each output can be ON/OFF controlled or made redundant. The CAN-Bus is also used for diagnostic and predictive actions (e.g. to shutdown modules when not required or enable in order to maintain peak power).

Designed to meet specific systems’ requirements, Powerbox’s PRBX VB410-380 complies with all safety, EMI and other regulations relevant to the system.

For more information, visit

CUI: New Line of Compact, Encapsulated Ac-Dc Power Supplies Ranging From 6 W to 20 W
Posted: 2017-6-16

CUI’s Power Group introduced a new line of low power, encapsulated ac-dc power supplies ( ) to their broad power portfolio ranging from 1 W to 12 kW. Housed in a compact, encapsulated board mount package with industry standard pin-outs, the new PSK series offers models with 6, 10, 15, and 20 W of continuous power. Thanks to their compact footprints measuring as small as 2 x 1 x 0.659 in (50.8 x 25.4 x 16.74 mm), these rugged, encapsulated modules are ideally suited for low power ITE, consumer electronics, and industrial control applications where board space limitations and environmental contaminants are a concern.

The PSK‑6B, PSK‑10B, PSK‑15B, and PSK‑20B series all offer 4 kVac isolation, no-load power consumption less than 100 mW, and operating temperature ranges at full load from ‑25 up to +50°C, derating to 50% load at +70°C. A wide universal input voltage range of 85 to 264 Vac is featured with single output voltages of 5, 9, 12, 15, 24, and 48 Vdc, depending upon the series. Carrying UL/cUL and TUV 60950-1 safety certifications while meeting EN 55032 Class B and FCC Class B limits for radiated emissions, all models come standard with short circuit, over current, and over voltage protections. Calculated per MIL‑HDBK‑217F, the 6 W to 20 W modules also carry a minimum MTBF of 300,000 hours at 115 Vac at +25°C ambient.

The PSK‑6B, PSK‑10B, PSK‑15B, and PSK‑20B series are available immediately with prices starting at $9.69 per unit at 100 pieces through distribution. Please contact CUI for more information.

ON Semiconductor Improves Imaging Performance for High Resolution Industrial Applications
Posted: 2017-6-16
New 29-megapixel CCD image sensor combines high resolution with enhanced imaging performance for high-end security, machine vision, and aerial surveillance

ON Semiconductor, driving energy efficient innovations, is improving performance for industrial imaging applications that require both high resolution image capture and maximum image uniformity.

The new 29 megapixel KAI-29052 image sensor provides up to twice the imaging sensitivity of the existing KAI-29050 in the wavelength range of 500 nanometer (nm) to 1050 nm. This improved performance is particularly beneficial to applications operating in near-infrared (NIR) wavelengths, such as 850 nm. This enhanced pixel design retains isolation of charge from one photodiode to another, enabling this increase in sensitivity without any reduction to image sharpness (Modulation Transfer Function, or MTF). In addition, an improved amplifier design reduces read noise by 15%, increasing the linear dynamic range available from the device to 66 decibel (dB). With these enhancements, the KAI-29052 serves as a new performance benchmark for high resolution image capture.

“The evolving needs of industrial imaging applications such as high end security, machine vision, and aerial surveillance and mapping require continued advancements in the portfolio of image sensors serving this market,” said Herb Erhardt, Vice President and GM, Industrial Solutions Division, Image Sensor Group at ON Semiconductor. “The enhanced performance available from the KAI-29052 is a further demonstration of ON Semiconductor’s ongoing commitment to provide the most advanced CCD and CMOS image sensors for these demanding markets.”

For more information, visit

Cornell Dubilier Introduces New Type HHT Ruggedized Axial Leaded Aluminum Electrolytic Capacitor
Posted: 2017-6-16

Cornell Dubilier Electronics, Inc. (CDE) has announced a new line of axial-lead aluminum electrolytic capacitors, for applications demanding very high-performance under all operating conditions.  The HHT is the only axial-lead electrolytic featuring a glass-to-metal seal to prevent dry-out of the capacitor electrolyte.  Shelf life is an extraordinary10 years and operational rated life is 2,000 hours at rated voltage and +175 °C.  At 150 °C and full-rated voltage, HHT capacitors outperform competitive technologies in a 5,000 hr test with ripple currents of up to 10 Arms.  This level of performance makes the HHT an excellent match for high-stress applications in military, aerospace, down-hole and off-road transportation applications.  Nine values are offered, from 470 µF to 4,700 µF, with ratings from 16 Vdc to 40 Vdc.

The CDE HHT Series is the only aluminum electrolytic capacitor available in the market with +175 °C performance.  This is usually the domain of the considerably more expensive wet tantalum technology.     The HHT’s glass-to-metal seal is the reason.   Without the seal, high temperatures will cause conventional electrolytics to lose electrolyte over time.  This causes a drop in capacitance and an increase in ESR.   With capacitance stability at high temperature, low leakage current and very competitive ESR and ripple current specifications, these devices provide new options for mission-critical applications.   Like other CDE capacitors, the HHT Series is subject to the industry’s most rigorous dynamic testing.  The 20g vibration testing follows procedures outlined in MIL-STD-202, method 204.

Since its founding in 1909, CDE has been dedicated to advancing capacitor technology for new applications. The company combines innovative products with engineering expertise to provide reliable component solutions for inverters, wind and solar power, electric vehicles, power supplies, motor drives, HVAC, motors, welding, aerospace, telecom, medical equipment and UPS systems.

For more information on this series visit:

CUI: 300 W Medical Ac-Dc Power Supply Series Complies with 4th Edition EMC Standards
Posted: 2017-6-16
300 W Medical Ac-Dc Power Supply Series Complies with 4th Edition EMC Standards

CUI’s Power Group today announced the addition of a compact 300 W series to its line of internal ac-dc medical power supplies. The VMS‑300A series, available in industry standard 3” x ” open frame and metal enclosed packages, delivers efficiencies up to 94% and high power densities up to 14.5 W/in3. Meeting EN 60601-1 edition 3.1 safety standards and 4th edition EMC requirements, these single output, medical power supplies are designed for energy-conscious, 2 x MOPP (Means of Patient Protection) hospital, home healthcare, and dental applications.

The open frame VMS‑300A and metal enclosed VMS‑300A‑CNF series carry UL/cUL and TUV 60601-1 safety marks while meeting EN 55022 Class B and FCC Class B limits for radiated emissions. The series features a wide universal input voltage range of 90 to 264 Vac with output voltage options of 12, 24, 36, and 48 Vdc. All models also offer 4000 Vac input-to-output isolation and 1500 Vac output-to-ground isolation. Additional features include power factor correction, remote voltage sense, a 5 V standby, and remote on/off control as well as over voltage, over current, over temperature, and short circuit protections.

The open frame version of the VMS‑300A series measures 3.00 x 5.00 x 1.38 in (76.2 x 127 x 35.1 mm) and provides an operating temperature range at full load from -40 up to +50°C with forced air cooling, derating to 60% load at +70°C. Dimensions for the metal enclosed package measure slightly larger at 3.46 x 5.35 x 1.59 in (88 x 136 x 40.4 mm), while carrying an operating temperature range at full load from -40 up to +60°C with forced air cooling, derating to 60% load at +80°C.

For more information, please contact CUI

ON Semiconductor: Advanced Synchronous Rectifier Controller Brings Best-In-Class Simplicity, Reliability and Efficiency to LLC-Based Power Supply Designs
Posted: 2017-6-16
Dual MOSFET driver controller requires minimal external components for LLC topologies

ON Semiconductor, driving energy efficient innovations, has introduced an advanced synchronous rectifier (SR) controller optimized for LLC resonant converter topologies. The FAN6248 requires minimal additional components, delivers high efficiency, eases thermal management, improves overall system reliability and simplifies the design of LLC power supplies.

The FAN6248 is an ideal solution for modern, high-performance power supply units (PSU) where high levels of reliability and efficiency are required in a small space. Typical applications include server and desktop computing, gaming, large screen LCD TV and OLED TV, networking, telecom and LED lighting applications.

"The FAN6248 comprehensively addresses the needs of modern LLC PSU designers. Innovations such as the mixed control methodology and adaptive parasitic inductance compensation ensure reliable and highly efficient operation," said Shane Chilton, General Manager of the Power Conversion Solutions at ON Semiconductor. "With only two resistors and MOSFETs required to realize an advanced state-of-the-art LLC converter, the controller will prove popular with all engineers that are designing for applications that require high levels of performance."


Bel Power Solutions Introduces The First-Ever AC-DC Power Supply Using Transphorm GaN FETS
Posted: 2017-6-16
New Power Supply First to Achieve Titanium Efficiency Using Bridgeless Totem-Pole Power Factor Correction

Transphorm Inc., the leader in the design and manufacturing of JEDEC-qualified 650V gallium nitride (GaN) semiconductors, stated today that the recently announced high efficiency TET3000-12-069RA power supply marks another GaN industry milestone. Developed by Bel Power Solutions, a Bel group company and premier global manufacturer of power management devices, the AC to DC front-end TET3000 uses a GaN-based bridgeless totem-pole power factor correction (PFC) topology to achieve greater than 96 percent efficiency. 

The TET3000 is a 3kW power supply designed for enterprise reliability server, router and network switching subsystems. Bel Power designed the supply with GaN to serve three critical customer needs: power density, size and performance reliability. The TET3000’s volume power density is 31.7W/in3. The device size is 2.72 x 1.59 x 21.85 inches, small enough to meet 1U end-system design requirements. Lastly, the TET3000 is certified for 80 Plus Titanium efficiency and earned a CE Mark per the European Commission’s Low Voltage Directive, an initiative ensuring European citizen protection from electrical equipment.

Inside the TET3000: Bridgeless Totem-Pole PFC
GaN designs implementing the bridgeless totem-pole PFC topology achieve a number of system benefits when compared to a standard interleaved boost converter:

  • Smaller size/higher power density: Lower component count and EMI filter size, delivering the same power in a smaller footprint
  • Higher efficiency: Faster switching speeds lowers crossover losses and increases system efficiency, and removing the bridge rectifier decreases losses by 20 to 30 percent
  • Lower cost: GaN enables increased performance and higher power density using twice the on-resistance as Si to help reduce system cost

“Bel Power’s legacy of leading the global power management industry is built on responsible innovation that empowers our customers,” said Alain Chapuis, CTO, Bel Power Solutions. “The TET3000 is a result of that commitment. After considerable R&D weighing various semiconductor materials and power system designs, Transphorm’s GaN within a totem-pole PFC configuration proved the most reliable, highest performing solution possible today. In turn, our customers gain access to a next generation power supply that stands to outperform incumbent solutions while delivering a greater ROI.”

The TET3000 uses Transphorm’s TPH3205WSB 49 milliOhm (mΩ) GaN FETs. To learn more about the system benefits of implementing a bridgeless totem-pole PFC, contact Transphorm’s Center of Excellence customer support team at

Ericsson introduces duo of isolated eighth-brick DC/DC converters delivering world-leading efficiency
Posted: 2017-6-16
  • New pair of DC/DC converters with respective 5V and 3.3V outputs for distributed power architectures
  • Delivering industry’s highest efficiencies of 95% in eighth-brick-format 40A class of power modules
  • PKB4211D and PKB4110D target high-end and high-power ICT applications
  • Excellent thermal performance from duo delivers outstanding usable power in airflow-limited environments, including industry-leading thermal performance at 85C ambient temperatures at 3.3V out in a 40A class eighth-brick format

Ericsson announced the launch of a pair of DC/DC converter modules in eighth-brick formats that are able to handle currents of up to 40A and deliver world-leading efficiency. Enabling reduced energy and cooling costs, these two modules are the most efficient 40A-class eighth-brick-format power modules in the industry: the PKB4211D and PKB4110D deliver respective efficiencies of up to 95.3% and 94.7%, with tightly regulated 5V and 3.3V outputs at 50% load. Competitive products will typically dissipate approximately 8% more power at a full load of 40A when compared to the PKB4211D, or even more when compared to the PKB4110D.

The two new modules target high-end and high-power applications that are powered by multi-cell batteries or rectifiers, commonly used in the Information and Communication Technologies (ICT) industry. Designed for distributed power architecture systems, they meet the needs of a wide range of ICT applications including telecommunications and networking, servers and storage systems, and industrial equipment.

A key feature of the PKB4000 series is its ability to deliver higher usable power in high ambient temperatures and environments with limited airflow. The PKB4211D can deliver full power of 5V at 40A in an ambient temperature of 70°C with 200 LFM (linear feet per minute) airflow in an open-frame unit with no baseplate. The module can also deliver the same load in an ambient temperature of 80°C with 200 LFM airflow with optional heatsink.

“The excellent thermal properties of these modules deliver high-power conversion across a wide input voltage range, while keeping power losses low,” said Martin Hägerdal, Head of Ericsson Power Modules. “This results in highly efficient power conversion of more than 95%, delivering exemplary performance and high reliability in applications that feature limited airflow.”

Offering an MTBF (mean time before failure) of 9.33 million hours, the modules meet safety requirements according to IEC/EN/UL 60950-1 and offer input/output isolation of 2250V DC. The series also includes many protection features including output-over-voltage protection (OVP), input-under-voltage shutdown, over-temperature protection (OTP), output short-circuit protection, and monotonic start-up and remote control capability.

Both units are available in through-hole and surface-mount versions, thereby providing flexibility for board assembly. The modules have been designed and manufactured by Ericsson to meet the highest standards available for DC/DC power converters. They deliver the levels of quality and confidence required by power system designers to develop long-term and high-performance platforms.

For more information, visit

CUI: Low Power Open Frame Ac-Dc Power Supplies Housed in Compact, Board Mount Package
Posted: 2017-6-16

CUI’s Power Group announces the addition of four low power, open frame ac-dc power supply series to its VOF product family. The VOF-6B, VOF-10B, VOF-15B, and VOF-20B series are 6, 10, 15, and 20 W power additions to CUI’s general purpose ac-dc power supply portfolio now ranging from 6 W to 300 W. Housed in compact, board mount packages measuring as small as 1.913 x 0.917 x 0.638 in (48.6 x 23.3 x 16.2 mm), the new models feature industry standard pin-outs, 4 kVac isolation and no-load power consumption less than 100 mW, making them ideal for space-constrained, low power ITE, industrial, consumer, and smart home applications.

The 6 W to 20 W modules feature a wide universal input voltage range of 85 to 264 Vac with single output voltages of 5, 9, 12, 15, 24, and 48 Vdc, depending upon the series. Operating temperatures at full load range from -25 up to +50°C, derating to 50% load at +70°C. All models carry UL/cUL and TUV 60950-1 safety certifications while meeting EN 55032 Class B and FCC Class B limits for radiated emissions. Protections for short circuit, over current, and over voltage come standard. The series also carry a minimum MTBF of 300,000 hours at 115 Vac at +25°C ambient, calculated per MIL-HDBK-217F.


Microchip Unveils the SAM R30 System in Package for Wirelessly Connected Designs
Posted: 2017-5-5
Combining an Ultra-Low Power MCU with an 802.15.4 Radio, the SAM R30 Enables Long-Lasting Battery Life for Connected Devices

The SAM R30 System in Package (SiP), a single-chip RF microcontroller (MCU), is now available from Microchip Technology Inc. The SAM R30 SiP incorporates an ultra-low power microcontroller with an 802.15.4 sub-GHz radio, providing multi-year battery life in a compact 5 mm package. The SAM R30 SiP delivers design flexibility and proven reliability all in a small package, making it ideally suited for connected home, smart city and industrial applications. For more information about the SAM R30 SiP, visit:

As the demand for battery-powered wirelessly connected systems continues to rise, the low-power SAM R30 meets the extremely power-conscious needs of these markets with features that extend battery life for multiple years. The SiP is built using the SAM L21 MCU which leverages the Cortex® M0+ architecture, the most energy-efficient ARM®-based architecture available. The SAM R30 features ultra-low power sleep modes, with wake from serial communication or General-Purpose Input/Output (GPIO) while consuming a mere 500 nA.

With the ability to operate within the 769-935 MHz range, the SAM R30 SiP gives developers the flexibility to implement a point-to-point, star or mesh network. Microchip helps developers get started immediately with Microchip’s free MiWi™ point-to-point/star network protocol stack. Mesh networking capabilities will be available later this year. Nodes outfitted with the SiP can be positioned as far as one kilometer apart, with the ability to double the range in a star topology. When used in a mesh network, the SAM R30 delivers reliable wide-area coverage for applications such as street lighting or wind and solar farms.

“This SAM R30 SiP offers an excellent migration path from a discrete MCU and radio to a single-chip solution for more compact, cost-effective designs,” said, Steve Caldwell, vice president of Microchip’s wireless solutions group. “The combination of our industry-proven connectivity technology with the high performance of the SAM L21 MCU creates a reliable, extremely low-power solution.”

For more information, visit

Powerbox’s encapsulated power supply is ready for industrial system integration
Posted: 2017-5-5

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has introduced a 100W encapsulated AC/DC power supply, ready for industrial systems integration. Aimed at compact industrial systems applications with limited space, the ENI100 has a narrow width of 31.7mm and a length of 140mm making it easy to fit in even the smallest of places. The unit’s input voltage range is from 90 to 264VAC and the output delivers a fixed 24V at 4A. Based on Powerbox’s flyback topology and proprietary ‘Always On’ regulation mode, the power supply intelligently ‘self-controls’ its output behavior to guarantee continuous operation and quick recovery in the case of a load or temperature fault. The ENI100 is CB certificated according to EN60950-1.

Industrial systems integrators often require small, compact power supplies able to operate in very specific environments such as high electrical fields with the threat of arcing, and that are simple to install, delivering a local safety voltage of 24VDC to the electronic equipment. In such conditions, no exposed metal parts are allowed, resulting in a plastic case with crimped terminals without a physical connection between the internal heatsink and the host equipment chassis. To optimize cooling the ENI100 includes an internal heatsink that distributes the heat to minimize hot spots, simultaneously maximizing the area of contact with the plastic case.

Powerbox’s type ENI100-5138 power supply has a nominal input of 100 to 240VAC although it can be operated with a small derating between 90 and 264VAC. The output voltage is factory adjusted to 24VDC and delivers an output current of 4A. The output is protected against over-current and short-circuit damage by a current limitation operating in ‘Always On’ mode, guaranteeing that the unit will always return to full operation after the output fault is removed. Powerbox’s ‘Always On’ technology also adjusts the available output power while taking cognizance of the unit’s internal temperature in order to keep it in a safe operating zone.
“Industrial system integration often requires compact power supplies that are ready to use, with a footprint as small as possible.” says Martin Fredmark, Powerbox’s VP Product Management. “The ENI100 is mechanically designed to optimize space and to guarantee safe operation in high electrical field applications.”

With safety in mind, the ENI100 has a leakage current less than 100 µA, which for an industrial product is very low and complies with a level of isolation Class I (double isolation between the input and output). The ENI100 fulfills safety standards IEC 60950-1 and is designed to meet UL508. The unit is CB certified according to IEC 60950-1 and complies with related EMC standards and class B. Able to be installed outdoors or exposed to a humid atmosphere (5 to 95% non-condensing) the ENI100 is designed to meet an ingress protection level of 54 (IP54). Input and output cables are fixed to the unit with crimped terminals for easy connection. The product is RoHS II and REACH compliant.


For more information, visit


TI: Industry's first bidirectional current controller for 48V to 12V automotive power conversion
Posted: 2017-5-5

TI's LM5170-Q1 is a highly integrated controller with advantages over discrete solutions, including better performance, speedier design, and higher reliability. It eliminates most external components, thereby enabling a smaller, more cost-optimized design.

With its bidirectional buck/boost operation and built-in protection features, this part is designed for high-powered applications such as automotive dual-battery systems, battery backup, power conversion, and uninterrupted power supplies.

Key features and benefits:

  • 1% current regulation accuracy per phase=Greater control and precision in handling power transfers under different operating conditions
  • Multiphase operation = Accurate and balanced current sharing
  • Strong gate drive=Offers more power per phase
CUI New Line of Peltier Modules Features Unique Construction that Delivers High Performance and Longer Life
Posted: 2017-5-5

CUI’s Thermal Management Group today announced a new line of high performance Peltier modules that boasts superior performance and reliability, thanks to its innovative arcTEC™ structure. This unique construction utilizes a combination of thermally conductive resin between the ceramic and copper on the cold side of the module, high temperature solder, and larger P/N elements made from premium silicon ingot. The elasticity of arcTEC’s resin layer allows for thermal expansion and contraction during the repeated heating and cooling of normal operation, which reduces stress on the elements, resulting in a better thermal connection, superior mechanical bond, and no marked drop-off in performance over time. High temperature solder and larger silicon elements are incorporated to enable faster and more uniform cooling.

The CP20H, CP30H, CP39H, CP60H, and CP85H series all employ the arcTEC structure and range in size from 15 mm to 40 mm, with profiles as low as 3.1 mm. These thermoelectric modules are available with a ∆Tmax of 77°C (Th=50°C) and current ratings ranging from 2.0 A to 8.5 A. 

Thanks to their reliable solid state construction, precise temperature control, and quiet operation, these thermoelectric coolers are ideally suited to high density, high power medical and industrial applications as well as refrigeration and sealed environments where forced air cooling is not an option.

For more information, visit

ON Semiconductor Unveils High Performance 5.1 Megapixel Imaging Solution for High-End Security Camera Applications
Posted: 2017-5-5
High resolution AR0521 delivers high frame rate and improved low-light sensitivity with high dynamic range

ON Semiconductor, driving energy efficient innovations, has unveiled AR0521 CMOS image sensor - the first imaging product based on a 2.2 micrometer (µm) Back Side Illuminated (BSI) pixel technology platform targeted specifically at security and surveillance applications.

The AR0521 is a small optical format 1/2.5-inch (7.13mm), 5 megapixel (MP) digital image sensor with an active pixel array of 2592 (H) x 1944 (V). It captures images in either linear or high dynamic range (HDR) modes with rolling-shutter readout, and includes sophisticated camera functions such as binning, windowing, and both video and single frame modes.

The advanced imaging solution offers 8, 10 or 12-bit outputs and boasts excellent video performance at 5MP 60 frames per second (fps) with a 1440p mode for 16:9 video. The superior low-light performance - often an important requirement in security camera applications - is largely due to the larger 2.2 µm BSI pixel that offers higher linear full well and lower noise than a smaller pixel.

Incorporating both an electronic rolling shutter and global reset release, the AR0521 also offers advanced line synchronization controls for multi-camera (stereo) support. The ability of the AR0521 to produce extraordinarily clear and sharp images is enhanced by sophisticated digital processing functions, including integrated color and lens shading correction, digital gain and dynamic defect correction.

Primarily aimed at remote video surveillance applications, the AR0521 consumes very little power even when operating at full resolution of 60 fps at 10-bit output. The operating temperature range of -30°C to +85°C ambient allows the device to be used successfully outdoors in harsh environments.

"The ability to deliver high resolution, high quality video feeds in low-light conditions is becoming increasingly important in many applications," said Gianluca Colli, Vice President and General Manager of Consumer Solutions Division, Image Sensor Group at ON Semiconductor. "This new device pushes the performance boundaries and will enable the development of enhanced indoor and outdoor security systems. Particularly key to its success will be the higher resolution that does not impact low light performance and the ability to generate high dynamic range output at frame rates of 30 fps."

As a result of the programmable optical format (4:3, 16:9 & 1:1) the AR0521 is suitable for multiple use cases in mid- to high-end security applications, including panoramic security cameras, birdseye security cameras, long range security cameras and speed dome security cameras.

For more information, visit


Powerbox’s rugged power modules are perfect for harsh environments in extreme industrial automotive applications
Posted: 2017-4-22

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has introduced a 400W DC/DC converter for use in industrial automotive applications in extreme environments. Designed for free air convection cooling, the ENA400-M is packaged in an aluminum enclosure with built in heatsink and potted with heat conductive polyurethane to improving thermal dissipation. Ratified for IP67 operation and with a power efficiency of 95%, the DC/DC converter can be operated in ambient temperatures from -40 to +50 degrees C using free air convection. Suitable for 24V and 48V industrial bus voltages, the converter meets ISO7637-2 and EN12895. The ENA400-M’s high efficiency and highly optimized thermal design contribute to an increased lifetime in harsh environments.

Industrial automotive applications such as vehicles in the mining, timber and construction industries, agricultural machinery, trucks, and general outdoor infrastructures require extremely robust DC/DC power supplies that are able to operate flawlessly in humid and dusty conditions with high levels of vibration and often with little or no ventilation. Such conditions require power supplies to include state of the art power switching technology to reduce power dissipation, and thorough mechanical and thermal designs to ensure long life times in such demanding conditions and applications.

“Industrial automotive manufacturers require energy efficient power supplies that are able to guarantee full operation in harsh environments yet are easy to use” says Martin Fredmark, Powerbox’s VP Product Management. “The ENA400-M series is part of PRBX’s ‘one package to fit all’ program developed with our customers that simplifies inventory management and reducing Time-to-Market.”

Built on planar technology with thermal-drains and low ESR MOSFET technology, the ENA400-M has a typical power efficiency of 95%. By the use of a manufacturing practice known as ‘back-flip assembling’, the dissipated power is directly conducted from the components to the top of the case, thus increasing cooling capacity.

Powerbox’s ENA400-M DC/DC converter series has a galvanic isolation level of 500VDC input to output, and input/output to case. All products meet the immunity standard EN61000 (relevant chapters), the EN55022B (conducted and radiated) and a surge test level of 2kV.

Industrial automotive applications are often exposed to water, diesel fumes or dirt, and it is very important that the DC/DC converter cannot be adversely affected by such an aggressive environment. To prevent against any risk of corrosion or water penetration, the aluminum case is protected by a coating layer and encapsulated with a polyurethane resin guaranteeing the product complies with the Ingress Protection rating of 67 (IP67 – Protected from dust and against the effects of immersion in water to depth between 15 cm and 1 meter). The product can sustain 100% relative humidity – non-condensing.
To combat high levels of vibration that it may encounter in harsh environment conditions, the ENA400-M is tested to meet the profile of 5–50 HZ with an acceleration of +/-7.35m/s2 per axis.

Ericsson’s pioneering PKB4413DA advanced bus converter delivers industry-leading efficiency
Posted: 2017-4-22
  • The new PKB4413DA advanced bus converter gives power system designers industry-leading 408W and 34A output with inputs from 36-75V, thanks to Ericsson’s sophisticated Hybrid Regulated Ratio (HRR) topology
  • Ideal for high-power, high-performance applications, the module cuts cooling and energy costs by delivering industry-leading efficiency of up to 96% at 12V output
  • The converter’s outstanding thermal derating makes it perfect for environments where airflow is limited or ambient temperatures are high
  • The high-performance DC/DC converter is ideal for intermediate bus conversion applications in networking and telecoms, thanks to its tightly regulated power delivery

Ericsson’s newly launched PKB4413DA is a low-profile, 408W DC/DC converter module, designed to provide point-of-load (POL) DC/DC converters with tightly regulated 12V output at up to 34A. The module’s five-pin, 1/8-brick footprint is compatible with the Distributed-power Open Standards Alliance’s (DOSA) standard and has a full 36-75V telecom input range. This combination makes it ideal for intermediate bus conversion in information and communication technologies (ICT) applications.

Designers who choose the PKB4413DA will benefit from Ericsson’s pioneering Hybrid Regulated Ratio (HRR) technology, which minimises power losses while delivering high-power conversion from a wide range of input voltages. The module offers class-leading performance in thermally challenging situations. Efficiency can be up to 96% with a 48V input and 12V output at half-load. This means the PKB4413DA cuts energy and cooling costs considerably.

Ericsson’s module meets the deployment requirements for intermediate bus voltage and distributed power architectures, and is primarily aimed at high-performance, high-power use cases in industrial, networking, telecoms, servers and data storage equipment.

The HRR topology, found in the PKB4413DA, was first used in Ericsson’s premier quarter-brick PKM-NH family. Because the PKB4413DA responds well to load and line transients, this guarantees that output voltage remains stable, and won’t be affected by the voltage deviations that occur as a result of system bus power disturbances. For power system architects, this ensures intermediate bus voltage integrity remains within the required tolerance.

Thanks to its outstanding thermal performance, even in challenging conditions, the PKB4413DA reliably delivers higher usable power in environments with limited airflow or high ambient temperatures. Its tellurium copper pins give excellent thermal transport, while the module is connected to a coldplate or heatsink via a baseplate. The thermal path from the thermally critical components to the baseplate has been carefully designed, resulting in a flat thermal profile for the key elements, along with excellent heat transfer to the heatsink or baseplate.

Martin Hägerdal, Head of Ericsson Power Modules, said: “The 408W PKB4413DA delivers industry-leading efficiency and output power in an advanced intermediate bus converter. It’s ideal for customers who require an input range between 36V and 75V for high-power industrial, telecoms and networking uses.

“Using Ericsson’s HRR topology, the module delivers a blend of tightly regulated voltage capabilities, best-in-class thermal handling, high efficiency and high current and power handling.”

For more information, visit

CUI: 30 W and 40 W Desktop Power Adapters Comply with DoE Level VI and CoC Tier 2 Standards
Posted: 2017-4-22

CUI’s Power Group today announced the addition of 30 W and 40 W desktop ac-dc power adapters to its portfolio of DoE Level VI and CoC Tier 2 compliant external power supplies. The SDI30-U, SDI30-UD, SDI40-U, and SDI40-UD series are all designed to meet the current average efficiency and no-load power requirements mandated by the US Department of Energy (DoE) under the Level VI standard. All models also meet the European Union’s (EU) proposed CoC Tier 2 directive, under review to become law in 2018, which looks to further tighten the efficiency requirements enforced by Level VI while adding a new power consumption limit at 10% load levels. Both standards aim to significantly lower the amount of power consumed when the end application is not in use or is no longer connected to the system.

The SDI30 and SDI40 series are available with C8 or C14 inlets and single output voltages of 12, 15, 19, and 24 Vdc. Both series are housed in a compact package measuring 4.37 x 2.05 x 1.27 in (111 x 52 x 32.3 mm) with a wide universal input voltage range of 90 to 264 Vac. The adapters carry UL/cUL, GS, PSE, and CE marks and meet the radiated and conducted emission requirements for FCC Part 15B Class B. Protections for over voltage and short circuit are also included.

Featuring no-load power consumption less than 0.075 W, these external desktop ac-dc power supplies are ideal for a variety of consumer, industrial, and ITE applications where energy consumption is a concern.

Cornell Dubilier: Ruggedized Axial-Leaded Aluminum Electrolytic Capacitor Meets Specs from -40 ° to +150 °C
Posted: 2017-4-22
High-performance device handles up-to 28A RMS continuous ripple current and 20g vibration

Cornell Dubilier Electronics, Inc. (CDE) has introduced a new line of axial-lead aluminum electrolytic capacitors for applications which require very high-performance under all operating conditions.  The AXLH is a uniquely-designed axial-lead electrolytic that has the performance characteristics required for mission-critical circuitry.  Continuous ripple current is rated at up to 28 amps RMS.  With a load life rating of 2,000 hours at full-rated voltage and 150 °C, and a shelf life of 10 years, the AXLH will stand the test of time. 

Targeted application fields include military, aerospace, off-road vehicles, infrastructure system electronics.  Nine values are available, from 470 µF to 4,700 µF, with ratings from 25 Vdc to 63 Vdc.  Maximum ESR ranges from 13 to 32 m at100 kHz.

Where other electrolytics may lose performance under very hot conditions, a hallmark of the AXLH is its ability to handle high ripple current at elevated temperature.  Like other CDE capacitors, the AXLH Series is subject to the industry’s most rigorous dynamic testing.  Procedures outlined in MIL-STD-202, method 204 are used to record the 20g vibration tests. 

AXLH case diameter is a low-profile 20 mm for all values.   Depending on values, lengths vary from 26.5 to 42.5 mm.  The axial-lead wires are a substantial 1 mm.   The devices are RoHS compliant and free of conflict materials.

CDE is dedicated to advancing capacitor technology for new applications. The company combines innovative products with engineering expertise to provide reliable solutions for inverters, wind/solar power, electric vehicles, power supplies, motor drives, HVAC, motors, welding, aerospace, telecom, medical equipment and UPS systems.

A global company, Cornell Dubilier has ISO-9001 certified manufacturing and distribution facilities in Liberty, SC; New Bedford, MA; Mexicali, Mexico; and Hong Kong.

For more information on this series visit:

Microchip Simplifies the Development of Smart, Connected and Secure Solutions with a Hardware Cryptography-Enabled Microcontroller
Posted: 2017-4-22
The CEC1702 Full-Featured Microcontroller Streamlines Security Implementation for an Increasingly Connected World

The CEC1702 hardware cryptography-enabled microcontroller is now available from Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions. The CEC1702 addresses the increasing need for security measures, such as secure boot, driven by the continual growth of Internet of Things (IoT) applications. 

The CEC1702 is a full-featured ARM® Cortex®-M4-based microcontroller with a complete hardware cryptography-enabled solution in a single package. This low-power but powerful, programmable 32-bit microcontroller offers easy-to-use encryption, authentication, private and public key capabilities and allows customer programming flexibility to minimize customer risk. The CEC1702 also provides significant performance improvements when compared to firmware-based solutions. The device’s hardware cryptographic cipher suite reduces compute time by orders of magnitude over software solutions, and, as an example, provides 20-50x performance improvement for PKE acceleration as well as 100x improvement for encryption/decryption. This robust hardware-based feature set results in applications that can run security measures quickly, effectively and with significantly lower cost and power consumption.

Protecting system integrity has never been more important. Whether it’s being used as a security coprocessor or a standalone microcontroller, the CEC1702 delivers a multi-dimensional defense against attacks, including:

Pre-boot authentication of system firmware: Providing an immutable identity and a root of trust to ensure that the firmware is untouched and hasn’t been corrupted

Firmware update authentication: Verifying that the firmware update has not been corrupted and is from a trusted source

Authentication of system critical commands:  Attesting that any system-critical command is from a known source with authorization to make the given change, preventing potentially devastating actions

Protection of secrets with encryption: Safeguarding code and data to prevent theft or malicious activities

“The acceleration of the Internet of Things has brought higher visibility to the security considerations of new designs,” said, Ian Harris, vice president of Microchip’s computing products group. “One of the hardest challenges to solve in a connected system is the ability to ensure that the boot code has not been compromised. The CEC1702 eliminates this issue by making it easy for designers to verify pre-boot authentication and then provide firmware updated from known, trusted resources.”

For more information about the CEC1702, visit:

Texas Instruments: Industry's first 48V to POL GaN single-stage DC/DC controller
Posted: 2017-4-22

Expanding the GaN ecosystem, TI is introducing the first GaN FET controller, TPS53632G. This D-CAP+™ control mode, half-bridge PWM controller is optimized for driving GaN power stages and MOSFETs for 48V to point-of-load (POL) single-stage DC/DC conversion while the built-in I2C interface enables control and telemetry. The TPS53632G enables single-stage DC/DC conversion from telecom 48V input voltage to POL rails eliminating the need for an intermediate bus converter, increasing efficiency, power density and reliability, and decreasing component count.

Start designing today with the LMG5200POLEVM-10, a 48V to 1V POL evaluation module that pairs the TPS53632G with TI’s LMG5200, GaN FET power stage. 

Microchip: New PIC18 Family Offers a Versatile Array of Core Independent Peripherals to Simplify Complex Designs
Posted: 2017-4-22
PIC18F “K42” Family Features Highest Integration of Core Independent Peripherals with DMA and Vectored Interrupts for Improved System Performance with Less Code

The PIC18F “K42” family, which combines an extensive array of Core Independent Peripherals (CIPs), high-resolution analog, on-chip Direct Memory Access (DMA) and vectored interrupts for fast processing, is now available from Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions. The DMA controller enables data transfers between memory space and peripherals without Core Processing Unit (CPU) involvement, improving system performance and lowering power consumption. When interrupts are required, vectored interrupts provide faster response times with fixed latency reducing software overhead. Code development is also simplified with the user-friendly MPLAB® Code Configurator, making the PIC18F “K42” family  well suited for an extensive range of applications and markets, including touch sensing, automotive, industrial control, Internet of Things (IoT), medical and white goods.

The PIC18F “K42” family features the largest total memory of any 8-bit PIC® MCU with up to 128 KB Flash and 8 KB RAM.  CIPs simplify the implementation of common system functions like sensor interface, signal generation, power conversion, motor control, safety management and system communications. The PIC18F “K42” features a 12-bit ADC with computation which automates analog signal analysis for real-time system response. The MCUs also include Configurable Logic Cells, low-power modes (IDLE, DOZE and Peripheral Module Disable) to reduce power consumption and improved serial communications including UART with support for asynchronous systems, DMX, DALI and LIN protocols along with higher-speed, standalone I2C and SPI.

“The latest PIC18F ‘K42’ family is an important expansion to the 8-bit PIC® family,” said Steve Drehobl, vice president of Microchip’s 8-bit MCU division. “This latest family allows customers in every market space to do more with system functions performed in hardware requiring less application code and high-resolution intelligent analog for signal conditioning.”  

For more information, visit:

Powerbox’s COTS/MOTS power supplies make meeting highly demanding applications a reality
Posted: 2017-3-7

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has announced the release of its new Defense Line of ruggedized power solutions for highly demanding environments. The launch includes seven series of new power supplies, comprising three DC/DC (DAA-DAB-DAC), four AC/DC (DBA-DBB-DBC-DBD) and embracing a power range from 50W up to 1,200W.  In metal chassis format with a baseplate for conduction cooling, the DAx and DBx series can be used with a baseplate operating temperature range of -40 up to +100 degrees C. For extremely demanding applications they can be configured with a conformal coating and mechanically ruggedized as well as electrically ruggedizing to withstand harsh transients and demanding EMC performance requirements as required with most common defense, marine, avionics, rugged industrial and railway standards. Designed for high availability, short time-to-market and to meet commercial and military off-the-shelf (COTS/MOTS) business models, the modular build style of the DAx and DBx series allows up to six outputs which can be connected in serial, parallel or used as a standalone output – very versatile products.

Ready to use, Defense Line DC/DC DAA/DAB/DAC power supplies include a very efficient input filter, reverse voltage protection internal diode, input transient protection and an internal fuse to protect against damage in the event of failure. Each output is protected against accidental and permanent short-circuit situations. An internal over-temperature circuit (OTP) protects the units in the case of over-heating, with automatic recovery. To cover the large range of applications in defense or ruggedized industrial areas, the DAA/DAB/DAC series is available for use with five input bus voltages, 12, 24, 48, 72, and 110VDC and with a large range of output voltages from 3.3VDC up to 48VDC. Each output voltage is adjustable, and higher power outputs are compensated using the provided senses.

"The release of Powerbox Defense Line products strengthens Powerbox’s COTS/MOTS product offering ‘when standard is not enough’ “, says Martin Fredmark, VP Product Management. “Combining state of the art design with a built in flexibility for demanding applications such as defense and avionics, our flexible, modular design concept further enhances our service leadership strategy.”

The Powerbox AC/DC Defense Line series includes four conduction-cooled models suitable for applications in the 150W to 1200W power range. As for DC/DC, the AC/DC DBx series is design-optimized for ready to use power solutions in ruggedized applications. The DBA-DBB-DBC-DBD series include an input filter, active inrush current limiter and a power factor corrector (PFC).

From defense to industrial, the addressable range of applications requiring ruggedized power solutions is extremely large. Accordingly, Powerbox’s DAx and DBx series include additional options to meet higher levels of environmental standards and requirements. Option ‘M’ for electrical and mechanical ruggedizing covers higher levels of shock and vibration, harsh transient protection and additional EMC filtering such as specified by MIL-STD 461E CE102, MIL-STD 1275, MIL-STD 1399-300A and MIL-STD 810E.  Option ‘T’ includes qualified products guaranteeing full operation at temperature as low as -40 degrees C. For application exposed to high humidity, salt mist, diesel fumes, sand, dust or other contaminants, option ‘V’ includes a conformal coating. In cases where convection cooling is required, a range of heatsinks have been developed for the DAx and DBx series, these are known as option ‘H’.

The products are RoHS lead free compliant and manufactured with full respect for, and in accordance with environmental regulations.

For more information visit

Microchip Debuts Advanced Motor Control Tool with Auto Tuning and Self-Commissioning Capability
Posted: 2017-3-4
motorBench™ Development Suite Available Now with Initial Board and Motor

An advanced motor control software plug-in for Microchip’s MPLAB® X Integrated Development Environment (IDE) with auto tuning and self-commissioning capability is now available from Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions. The plug-in, called motorBench™ Development Suite, is a Graphical User Interface (GUI)-based tool with automatic tuning of feedback control gains and offline accurate measurement of critical motor parameters such as resistance, inductances and the back electromagnetic force (EMF) constant.

This plug-in collects all the information relevant to the motor control system and automatically tunes the control algorithm gains. The software then uses this information to generate MPLAB X IDE project code ready to run on Microchip’s dsPIC33EP family of Digital Signal Controllers (DSCs). The generated code can then be reviewed and edited as needed and flashed as motor control firmware.

“Developing solutions with Permanent Magnet Synchronous Motors (PMSM), including tuning the control loops for speed and torque, can be time consuming and complicated to get the motor spinning reliably,” said Joe Thomsen, vice president of Microchip’s MCU16 business unit. “With the motorBench Development Suite this process is automated so customers can focus on other parts of firmware development and speed their time to market. This initial launch is just the start of what we expect will be a game changer for our motor control customers.”

The motorBench Development Suite is currently available using Microchip’s dsPICDEM™ MCLV-2 Development Board (Part # DM330021-2) with a dsPIC33EP256MC506 External Op Amp Motor Control Plug-in-Module (PIM) (Part # MA330031-2) and a 24V 3-phase Brushless DC Motor with Encoder (Part # AC300022), all available today through microchipDIRECT or one of Microchip’s authorized distribution partners.

For more information about Microchip’s motorBench Development Suite visit:

Microchip: Family of Live Updateable Controllers for Digital Power Expanded
Posted: 2017-3-4
The dsPIC33EP128GS808 Digital Signal Controller Family now Offers up to 128 KB of Flash while Enabling Firmware Updates to Power Supplies with Zero Down-Time

The latest high-performance, live updateable dsPIC® digital signal controller (DSC) family is now available from Microchip Technology Inc. (NASDAQ: MCHP), a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions. The new dsPIC33EP128GS808 devices have up to 128 KB of dual-partition Flash memory with live update capability, advanced analog features and enhanced Core Independent Peripherals (CIPs) suitable for high-end digital power applications such as AC/DC power supplies, DC-DC converters, power inverters and advanced lighting applications.

These devices offer high-resolution pulse width modulators optimized for digital power applications. In addition, the devices include advanced analog features and peripherals. There are five separate high-speed 12-bit Analog-to-Digital Converter (ADC) modules each with 300 ns conversion latency. Up to 22 input channels are shared across these five ADC units. There are also four analog comparators, each with their own dedicated 12-bit reference Digital-to-Analog Converter (DAC); and two programmable gain amplifiers to reduce external component count.

New features include a peripheral trigger generator, which is a user-programmable state machine that can respond to events faster than a firmware-driven implementation while offloading the processor for other tasks. In addition, a four-channel Direct Memory Access (DMA) unit is included to further increase the controller’s overall system performance. These devices also have configurable logic cells that can be used to create combinatorial Pulse Width Modulation (PWM) signals for advanced applications or to minimize the need for external glue logic in the design. They also contain up to two CAN communication interfaces for automotive and industrial applications. Select new variants in the family of dsPIC digital signal controllers are offered in an 80-pin package giving designers increased memory and more interface pins to fulfill the requirements of more sophisticated designs.

“Design engineers are under a lot of pressure to get products to market on-time,” said Joe Thomsen, vice president of Microchip’s MCU16 business unit. “The dsPIC33EP128GS808 family has the DSP performance, advanced peripherals and memory options that designers need. Plus, the family is supported by Microchip’s free Digital Compensator Design Tool (DCDT), advanced SMPS libraries, evaluation platforms and reference designs which all help customers accelerate the overall process of designing their digital power supply.”

The dsPIC33EP128GS808 family is supported by the MPLAB® ecosystem including   MPLAB X Integrated Development Environment (IDE) and XC16 compiler.

For more information, visit:

Powerbox reveals breakthrough coreless power conversion technology for high magnetic field applications
Posted: 2017-1-26

Powerbox, one of Europe’s largest power supply companies and a leading force for four decades in optimizing power solutions for demanding applications, has announced the release of its new coreless technology platform to power medical and industrial equipment operating in very high magnetic field environments such as magnetic resonance imaging or particle accelerators. Using the latest technology in high-frequency switching topologies and digital control with proprietary firmware to optimize efficiency and voltage regulation, Powerbox’s GB350 buck-converter module is the first building block in its category that is able to operate safely when exposed to high radiation magnetic fields of 2 to 4 Tesla. GB350 delivers an output power of 350W and when higher power levels are required it can be paralleled using an interleaving mode thus reducing EMI.

Medical and industrial applications such as magnetic resonance imaging (MRI) and particle accelerators (PA) generate high magnetic fields to induce the RF energy required to activate the hydrogen nuclei in the case of imaging, or to accelerate particles in research and industrial equipment.

Modern MRI systems usually generate 1.5 to 4 Tesla, making conventional power supplies using ferrite material useless due to inductance saturation as a result of the MRI magnet disturbing the energy transfer. To prevent parasitic saturation, power supplies are traditionally positioned outside the shielded operation room.  Installing the power supplies remotely requires long cables with subsequent power losses, and it is also a big challenge to power the latest generation of measuring equipment that require stable and tightly regulated voltages under fast transient load conditions.

To reduce energy consumption and to guarantee the level of quality required by integrated equipment, systems manufacturers are now integrating local power supplies near to the load.  However, placing equipment directly in the radiated magnetic field requires an innovative power solution known as ‘coreless power units’ and a state of the art switching power stage.

Designed to respond to this demand and to guarantee the highest efficiency and tightly regulated output voltage at any load-condition, Powerbox’s GB350 coreless power unit is fully controlled by a digital processor that manages the complete power unit from switching parameters (e.g. dead-time and duty-cycle optimization) to output voltage characterization. To guarantee a high level of flexibility and the possibility to re-profile the power unit characteristics when equipment manufacturers upgrade new hardware or implement a software revision, the GB350 micro-controller can be programed with optimized configuration files downloaded through the digital interface.

“Combining the latest technology in digital power and very advanced coreless energy transfer, the GB350 is an important component of the Powerbox Custom Power Solution toolbox,” said Tomas Isaksson, Chief Technology Officer at Powerbox. “With more than 3,500 Custom Power projects delivered to market, it is very important to rely on a strong platform portfolio, reducing time to market in demanding applications such as medical magnetic resonance imaging.”

As part of Powerbox’s Custom Power Solution Toolbox, the GB350 and products based on that technology are tested, verified and qualified in accordance to end customers’ specifications.

For more information, visit

Texas Instruments: Maximize Battery and Sensor Life
Posted: 2017-1-25
Industry’s first precision nanopower operational amplifiers maximize battery and sensor life

TI introduces the first precision nanopower operational amplifiers (op amps) that enable power consumption as low as 320 nA without the use of duty cycling. The new LPV811 family of op amps – with up to 60 percent lower power consumption than competitive precision op amps – extends battery and sensor life for applications such as building automation, wired and wireless sensor nodes and wearables.

In addition, the LPV811 family of amplifiers can drive the ADS7042 family SAR analog to digital converter, helping to deliver an ultra-low power analog front end. 
Key features and benefits:

  • Low-power consumption to improve battery life and reduce replacement costs. 
  • High precision with offset voltage as low as 300 µV to help detect low concentrations of environmental gases.
  • Low-voltage operation for continuous performance under low-voltage battery conditions.
  • High EMI immunity to save design time for EMI-sensitive applications and enable rapid system qualification by international standards organizations. 

Learn more at


Highly Integrated Capacitive-Digital Converter Delivers Superior Gesture Sensing and Enhanced Touch Performance to Automotive and Industrial Systems
Posted: 2017-1-18
Eight-channel device exhibits sensitivity up to 150 mm away to support gesture recognition

ON Semiconductor, driving energy efficient innovations, has introduced a new touch/proximity sensing solution that combines industry-leading performance, cost-effectiveness and convenience in a single chip. The LC717A30UJ high dynamic range capacitance-to-digital converter uses mutual capacitance to detect changes in capacitance down to femtofarad (fF) levels. Parasitic capacitance cancellation raises the detector sensitivity, while its built-in noise rejection mechanism combats the effects of electromagnetic interference (EMI).

The eight capacitance-sensing input channels make the LC717A30UJ highly optimized for use in systems where an array of switches is required. The device includes an integrated multiplexer for input channel selection, analog-to-digital converter, dual-stage amplifier that determines capacitance changes plus outputs analog amplitude values, system clock, power-on reset circuit, and all the necessary control logic to create a total solution. Both I2C and SPI interfaces are selectable based on the system application needs.

As the device's sensitivity has a range of 150 millimeters (mm) - beyond the scope of any competing device on the market - its higher sensitivity enables gesture motions as well as offering conventional touch functionality, thereby enhancing users' control options to address a wide range of application scenarios. In addition, it is capable of operating with an airgap between the sensor/PCB and the protective cover - so engineers can eliminate the inclusion of a light guide from the assembly and reduce overall complexity. This device also includes an integrated automatic calibration function which optimizes and self-calibrates total capacitance according to electrode, line capacitance, and surrounding environment, thus significantly accelerating system development cycle time as well as robustness in the field.

The LC717A30UJ delivers rapid responsiveness, with a measurement time of 16 milliseconds (ms) for its 8 sensing channels and runs off a +2.6 volt (V) to +5.5 V supply with a low-power standby mode of one microampere (µA). The high degree of integration means that minimal external components are required, thereby further reducing the bill of materials. To support the needs of automotive applications such as vehicle entry systems and dashboard controls, the device is AEC-Q100 compliant. With its high integration level and wide dynamic range, it can also be employed in a range of touch or gesture human interfaces in industrial and consumer end products such as induction cookers, refrigerators, home entertainment systems, building automation equipment, industrial equipment, and lighting controls.

"As we all know, touch technology has witnessed widespread uptake within the consumer electronics sector over the course of the last decade. Now there are an ever-increasing number of opportunities for its utilization in various nonconsumer sectors," said Ikuya Kawasaki, General Manager of the Intelligent Power Solutions Group at ON Semiconductor. "This new device possesses the key attributes needed to address these demands, by providing a robust, simple to deploy solution that successfully combines low price and superior performance."


Wolfspeed Introduces New SiC MOSFET for EV Drive Trains
Posted: 2017-1-10
New 900V, 10mΩ chip enables new improvements in range, battery usage and vehicle design

Wolfspeed, a Cree Company and a leader in silicon carbide (SiC) power products, has introduced a 900V, 10mΩ MOSFET rated for 196 A of continuous drain current at a case temperature of 25°C. This device enables the reduction of EV drive-train inverter losses by 78 percent based on EPA combined city/highway mileage standards. This efficiency improvement offers designers new options in terms of range, battery usage and vehicle design.

Recently Wolfspeed supplied Ford Motor Company—in a collaboration with the U.S. DoE―with a full-SiC, 400A power module designed around the 900V, 10mΩ chip.  The module, designed and produced by Wolfspeed, contains four MOSFETs connected in parallel to achieved a remarkable 2.5mΩ Rds(on). Wolfspeed engineers have since demonstrated the capability to use these chips to create an 800A, 1.25mΩ module.

“With the commercial release of the 900V 10mΩ device, electric vehicles can now reap the benefits of SiC in all aspects of their power conversion,” said John Palmour, CTO of Wolfspeed. “With the continued expansion of our Gen3 MOSFET portfolio in new package options, our devices can now support significant efficiency improvements in onboard chargers, offboard chargers, and now EV drive trains.

Commercially qualified and rated for a maximum operating temperature of 175˚C, Wolfspeed’s new chip offers high-reliability in harsh environments, like those found in vehicle drive-trains.

For more complete technical information about Wolfspeed’s new 900V, 10mΩ MOSFET, visit

ON Semiconductor and Hexius Semiconductor Expand Scope of Analog Functionality for Next Generation Mixed Signal ASICs
Posted: 2017-1-10
New intellectual property offering will accelerate time to market and reduce development-cycle risk

ON Semiconductor, driving energy efficient innovations, has announced a collaboration with Hexius Semiconductor to qualify several of their analog intellectual property (IP) blocks in its popular ONC18 0.18 µm CMOS process. This enables ON Semiconductor to better serve its customers with proven analog IP that can ultimately reduce design cycles and time-to-market. The eight initial designs resulting from this collaboration include a variety of analog-to-digital converters, digital-to-analog converters, voltage references and current references. There is provision, if needed, for the designs to be custom-tailored to match particular application demands. Further data converter and PLL designs are currently being developed for introduction later this year.

ON Semiconductor's ONC18 process relies on a 0.18 micrometer (µm) CMOS architecture and due to its high voltage capabilities is extremely well suited to automotive, industrial, military and medical deployment. By having access to an expansive portfolio of qualified IP that supports this process, customers will be able to benefit from ASIC implementations that are highly optimized for their specific requirements, without needing to allocate too much of their own engineering resources to the task. As a result, much quicker design cycles, reduced risk of re-spins and lower associated costs can all be realized.

"The mixed signal ASIC market continues to grow as systems need to utilize the real-word data that is captured by sensors and user interface," states Rocke Acree, Director of the Custom Foundry business unit at ON Semiconductor. "OEMs are looking to integrate more effective proprietary designs, rather than relying on standard off-the-shelf components. Through this, performance levels can be enhanced, board space saved and unit costs significantly lowered. By working together, ON Semiconductor and Hexius Semiconductor are delivering qualified analog IP needed to facilitate this migration and enabling a new era of mixed signal design."

"Through the combination of the respective skill sets that our two companies possess, we are in a position to supply the industry with qualified analog IP macrocells on superior semiconductor processes that will deliver clear performance and logistical advantages. This will allow OEMs to respond more quickly to market opportunities that they have identified by taking products from the concept phase right through to full commercial production in the shortest possible time," adds Chris Cavanagh, CEO at Hexius Semiconductor.

Visit ON Semiconductor's External Intellectual Property page for more information. 

Rollout of Microchip’s MOST150 Technology at Audi Continues with Launch of the Q2 Compact SUV
Posted: 2017-1-5
MOST150 Technology Ensures Highest Quality In-Vehicle Infotainment

Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, today announced that Audi has included MOST150 technology in their latest compact SUV model, the Q2. Media Oriented Systems Transport (MOST®) technology is designed for in-vehicle infotainment platforms. MOST enables the deployment of a large variety of automotive premium surround sound audio systems and driver information systems such as full digital instrument clusters and heads-up displays.

Audi has been using MOST150 technology for many years, also deploying it in their best-selling A4 Sedans, the Q7 SUV and TT Coupé models. This Q2 deployment utilizes the MOST150 Intelligent Network Interface Controllers (INIC) OS81110 and OS81118.

MOST technology is designed to ensure digital multi-channel audio streaming in the highest quality. It offers a robust and proven method of system management and control with superior and reliable Quality of Service (QoS). Compared with alternatives, it is an established deployment that comes with a complete scalable system solution that is low risk and allows for fast time-to-market.

MOST technology is a mature network solution and comes with a complete eco-system. The complete network solution comprises of a variety of tools from several different vendors, a software stack, schematics, layout reviews and multimedia companion IC products.

“The Audi Q2 is a compact SUV that meets and reflects the needs of today’s car drivers,” said Dan Termer, vice president of Microchip’s Automotive Division. “We have worked with Audi for many years and are proud to be a part of helping them deploy the latest models with the very best technology for infotainment and connectivity.”

The MOST Cooperation standards enable automotive OEMs and their Tier 1 suppliers with a proven and well-supported methodology for defining and implementing high-bandwidth infotainment and Advanced Driver Assistance (ADAS) systems, including a standard physical layer and a robust method for system management and control with superior reliability and Quality of Service (QoS). Using MOST technology also reduces weight for easier compliance with environmental regulations.

For more information, visit the Microchip website at

Ericsson scales new heights for power handling and thermal management with advanced bus converter
Posted: 2016-12-15
  • New advanced bus converter leverages Ericsson’s advanced Hybrid Regulated Ratio (HRR) topology to deliver up to 450W and 37.5A for high-power, high performance applications
  • PKB4413D offers up to 96% efficiency at 12V output, significantly reducing energy and cooling costs
  • Advanced design offers excellent thermal derating, making it ideal for use in environments with high ambient temperatures or limited airflow
  • High-performance DC/DC converter delivers tightly regulated power for intermediate bus conversion applications in telecom and networking markets

Ericsson has launched a low-profile, 450W DC/DC converter module that is designed to deliver a tightly regulated 12V output voltage at up to 37.5A to point-of-load (POL) DC/DC converters. Offered in a 5-pin 1/8-brick footprint, compatible with the DOSA (Distributed-power Open Standards Alliance) standard, the new PKB4413D advanced bus converter has an input range from 36V to 60V and is ideal for intermediate bus conversion in ICT (Information and Communication Technologies) applications.

The PKB4413D incorporates the company’s cutting-edge HRR (Hybrid Regulated Ratio) technology to deliver high-power conversion from a wide input voltage range, while keeping power losses low. Offering class-leading performance in thermally challenging environments and delivering a typical efficiency of 96%, with a 48V input and 12V output at half-load, the module significantly reduces energy and cooling costs. Competitive products typically dissipate 18% or more of their input power at 30A loads.

Meeting the deployment requirements for distributed power and intermediate bus voltage architectures, the module particularly targets high-power and high-performance use in networking and telecommunications equipment, servers and data storage applications, as well as industrial equipment.

Ericsson has leveraged its highly innovative HRR topology in the development of the PKB4413D. Initially introduced in the company’s high-end quarter-brick PKM-NH family, the technology has been further enhanced to deliver even better utilization of the powertrain. The module’s excellent response to line and load transients guarantees the output voltage will remain stable and immune from voltage deviations that are due to power disturbances on the system bus. This retains intermediate bus voltage integrity within the tolerance band required by power system architects.

Delivering excellent thermal performance in challenging circumstances, the converter provides higher useable power in high ambient temperatures or limited-airflow environments leading to higher reliability. The use of tellurium copper pins provides excellent thermal transport, and a baseplate connects the module to a heatsink or coldplate as standard. In addition, careful attention was given to the design of the thermal path from the thermally critical components to the baseplate. This has resulted in a flat thermal profile for the critical components and outstanding heat transfer to the baseplate or heatsink.

“Targeting customers looking for high power capabilities in telecom, networking and industrial applications, the new 450W PKB4413D is the second in a new series of high-power advanced intermediate bus converters,” said Martin Hägerdal, Head of Ericsson Power Modules. “The module builds upon the company’s HRR topology to offer high power and current handling, together with high efficiency, tightly regulated voltage capabilities and best-in-class thermal handling.”

The PKB4413D has been designed and manufactured by Ericsson to meet the highest standards available for DC/DC power converters in the industry, delivering the levels of quality and confidence that are required by power system designers to develop long-term and high-performance platforms.

For more information, visit

Pagani Huayra BC Supercar Features Microchip’s MOST® Technology
Posted: 2016-12-13
MOST Enables Premium Surround Sound Audio and Feature-rich Infotainment in One of the World’s Most Technologically Advanced Sports Coupes

One of the most technologically advanced sports coupes in the world features Media Oriented Systems Transport (MOST®) technology for powering the vehicle’s premium surround sound audio and infotainment system. Pagani Automobili’s Huayra BC supercar is using MOST technology Intelligent Network Interface Controllers (INICs) from Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions.

MOST INICs are powering the infotainment systems in all ranges of vehicles from compact cars to ultra-high end sports cars like the Huayra BC. Pagani is using Microchip’s OS81050 INIC to transport video, audio, packet and control data throughout the vehicle.

“MOST technology gives Pagani the highest quality network on which we can develop a no-compromise, exclusive, premium high-end audio system for the Huayra BC,” said Hannes Zanon, marketing director of Pagani Automobili S.p.A. “We are delighted that MOST technology gives us a flexible platform to further develop exciting applications for our demanding customers.”

The MOST Cooperation standards enable automotive OEMs and their Tier 1 suppliers to ensure digital multi-channel audio streaming in the highest quality. This proven and well-supported methodology for defining and implementing high-bandwidth infotainment provides a robust method for system management and control with superior reliability and Quality of Service (QoS). Using MOST technology also results in reduced weight by transmitting control and audio data over lightweight plastic optical fiber (POF).

“The Huayra BC is a fascinating supercar, and we are excited about the selection of our MOST technology in its infotainment system to provide high quality digital audio,” said Dan Termer, vice president of Microchip’s Automotive Information Systems Division. “Pagani chose MOST for what they call their ‘most technologically advanced Huayra Coupe yet,’ which is now benefiting from a flexible and feature-rich infotainment system.”

To facilitate development, MOST technology comes with a complete ecosystem of tools, software and support. Tools vendors include the OptoLyzer® MOCCA family and OptoLyzer Studio, both from K2L; the software stack can be MOST Linux® driver or MOST NetServices; schematics and layout reviews such as MOST Check are available; and multimedia companion IC products include video encoding, DTCP content protection, I/O expansion and power management.

To learn more about Microchip’s MOST products, visit


New Low-Power PIC24 “GA7” Microcontroller Family Now Available
Posted: 2016-12-13
Microchip’s New Low-Power Family Enables Cost-Effective, Space-Constrained Designs

The new PIC24 “GA7” family of microcontrollers (MCU) is now available from Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions. As the lowest-cost 256 KB Flash memory 16-bit MCUs available today, these PIC24 devices enable extremely cost-effective designs for Internet of Things (IoT) sensor nodes, portable medical devices and industrial control applications. 

The PIC24 “GA7” family enables developers to cut power consumption, cost and space. The devices offer low-power modes including multiple sleep modes, down to 190 nA, to greatly decrease power consumption for extended battery life in portable applications at a fraction of the cost of previous solutions. The new devices also offer up to 256 KB Flash and 16 KB RAM and are available in 28, 44 and 48 pin count package options, some as small as 4 x 4mm.

Products in the PIC24 “GA7” family support Core Independent Peripherals (CIPs) such as configurable logic cell (CLC), Multi-output Capture Compare Pulse Width Modulation module (MCCP) and Direct Memory Access (DMA), which allow developers to accomplish tasks in hardware while freeing up the central processing unit (CPU) to do other tasks or to go to sleep. The new microcontrollers also features a robust peripheral set including 12-bit, 200 ksps Analog to Digital Converter (ADC), up to seven timers and two Universal Asynchronous Receiver/Transmitters (UARTs).

“Designers are demanding more program memory in smaller pin count packages. With the PIC24 ‘GA7’ family, Microchip offers a cost-effective solution packing 256 KB Flash into small 4 x 4 mm packages,” said Joe Thomsen, Vice President of Microchip’s MCU16 Division. “This PIC24 family also offers various power-down modes for power-sensitive and handheld applications.”

For more information, visit the Microchip website at

Lin Engineering Partners with CUI to Release a Highly Efficient and Reliable Stepper Motor and Encoder Combo
Posted: 2016-12-8

CUI Inc announces a partnership with Lin Engineering, a leading manufacturer of stepper motors, to integrate CUI’s innovative AMT encoder technology with Lin’s latest, high performance motor series.

Lin Engineering’s G3718V series is a NEMA 17 sized motor with a length of 0.90 inches (22.86 mm) that can produce up to 50% more torque than motors of a similar size. Thanks to its design, the G3718V also features improved passive cooling, increasing overall efficiency and lowering operating costs.

With a step angle of 1.8°, the G3718V offers smooth motion and high accuracy similar to a 0.9° motor. The series also provides up to 25 oz-in (0.18 N-m) of holding torque. Various shaft options are available and windings can be customized to ensure maximum torque at desired operating speeds.

Integrating with Lin Engineering’s top-of-line stepper motor will be CUI’s innovative AMT encoder technology. CUI’s AMT series is a range of rugged, high accuracy modular encoders available in incremental, absolute and commutation versions. Thanks to its innovative design, the AMT series is not susceptible to contaminants such as dirt, dust and oil that typically plague encoders in industrial environments.

Due to the digital nature of the encoder design, the AMT series also comes with a number of programmable features, including resolutions up to 4096 PPR, zero position, line drivers, and in the case of the absolute version, a 12-bit absolute output. Combined with an operating temperature from -40 up to +125°C, high accuracy, simple assembly and low current draw, the AMT provides a compelling solution for a range of applications.

“Lin Engineering is excited to partner with a well-respected company like CUI. The adoption of their AMT encoder technology with our latest stepper motor provides a uniquely rugged and efficient all-in-one solution unrivaled in the industry,” stated Mindy Cheng, R&D Manager at Lin Engineering.

“The high performance and reliability of Lin Engineering’s stepper motor paired with our innovative AMT encoders presented a tremendous opportunity for both companies,” said Jeff Smoot, CUI’s VP of Motion Control and Application Engineering. “This partnership is the culmination of those efforts to provide a motor and motion control solution in one package and we are thrilled to work with Lin Engineering moving forward,” Smoot concluded.

For more information, visit

ON Semiconductor to Debut First to Market, Truly Scalable Design Platform for Next Generation Wearable Technology at CES 2017
Posted: 2016-11-29
Flexible development kit comprises hardware, firmware, integrated development environment (IDE) & downloadable SmartApp to support creation of everything from simple fitness trackers to complex smart watches

ON Semiconductor, driving energy efficient innovations, has utilized its strength and depth in a broad range of semiconductor disciplines - including analog, power management, sensor interface and signal conditioning - to introduce a comprehensive development resource for the wearable electronics sector. The new Wearable Development Kit (WDK1.0) combines a wide array of highly optimized components, with the objective of assisting OEMs in bringing differentiated products to market. Using it can significantly accelerate design cycles for wearable electronics while mitigating heavy engineering costs.

"Despite the growing interest in wearable electronics, to date there is simply not a solution on the market that provides the scope needed by OEMs to help them develop feature rich designs that will attract strong consumer uptake," states AJ ElJallad, senior manager, corporate strategy and business development at ON Semiconductor. "The WDK1.0 is a multi-faceted design asset that will allow wearable technology projects to be expedited - shortening time to market and curbing the associated investment in engineering by leveraging the extent of ON Semiconductor's product portfolio."

For this new offering, a high efficiency programmable NCP6915 DC-DC converter has been specified to take care of the power management tasks. An NCP1855 battery charger IC, plus an LC709203F fuel gauge and a 10 watt (W) rated SCY1751 wireless charging front-end controller (supporting AirFuel compatible magnetic resonance charging) have also been incorporated. The kit's sensor capabilities stem from the MEMS-based FIS1100 inertial measurement unit (IMU), with 3-axis gyroscope and 3-axis accelerometer operation enabling accurate multi-dimensional motion tracking. There is also an embedded temperature sensor included and an LC898301 driver IC for initiating haptic feedback.

Critical to the WDK1.0 is its wireless connectivity, which is addressed via an ultra-lower power nRF52832 multi-protocol system-on-chip (SoC) from Nordic Semiconductor. This features a 32-bit ARM® CortexTM processor core and a 2.4GHz transceiver - offering support for Bluetooth Low Energy (BLE) and other relevant wireless technologies. The kit is complemented by a SmartApp which can be downloaded directly from Android PlayStore and Apple AppStore. Using this, various pieces of information can be transposed, such as the steps taken, calories burnt, distance covered and activity period, as well as human machine interface aspects like screen brightness adjustment, clock face control, alarm settings and establishing fitness goals. An Eclipse-based IDE accompanies the kit. This presents engineering teams with all the resources they need to rapidly create and subsequently debug code necessary for designs. A highly intuitive Project Wizard further facilitates the development process, by giving engineers access to numerous useful wearable-related project examples.

For more information, visit


CUI: Ultra-Compact Open Frame Ac-Dc Power Supplies are Ideal for Space-Constrained Applications
Posted: 2016-11-18

CUI Inc announces a family of ultra-compact ac-dc power supplies in an open frame SIP package. The 3 W and 5 W configurations of the PBO series measure as small as 35 x 11 x 18 mm (1.38 x 0.43 x 0.71 in), allowing them to occupy less board real-estate than other power solutions. The 3 W models are also available in low-profile, right-angle versions measuring as small 35 x 18 x 11 mm (1.38 x 0.71 x 0.43 in), making them ideal for applications where vertical board space is at a premium.

Available with typical efficiencies up to 80%, the high density PBO series offers a wide input voltage range of 85 to 264 Vac or 70 to 400 Vdc for high voltage dc-dc systems. Single output voltages of 3.3, 5, 9, 12, 15 and 24 Vdc are available depending upon the series. For use in challenging environments, the 3 W models offer a wide operating temperature range of -40 to +85°C while the 5 W models provide a range from -25 to +85°C.  Additionally, all models are designed to provide 3,000 Vac input to output isolation.

The PBO series also meets UL60950-1/EN 60950-1 standards, complies with EN55022 Class B limits for conducted and radiated emissions and includes over current and short circuit protections. The ultra-compact models are ideally suited for a variety of applications including industrial systems, automation equipment, security, telecommunications and smart home devices.

For more information, please visit or contact CUI at

ON Semiconductor Continues to Expand IoT Portfolio with Sigfox Certification for North American Market
Posted: 2016-11-17
Robust, energy efficient and ready-to-use wireless connectivity solutions enable device-to-cloud for adoption of IoT in the energy sector

ON Semiconductor, driving energy efficient innovations, has announced the expansion of the certification of its Sigfox wireless connectivity-based solutions to the North American market at this year's European Utility Week. This complements the existing certification of the robust, easy-to-use Sigfox products for Europe, and precedes a planned roll-out to Australia, New Zealand, Japan and Korea by the end of 2016.

ON Semiconductor's Sigfox portfolio provides an important enabler for the implementation and proliferation of Internet of Things (IoT) applications across an almost limitless number of market sectors, including smart energy. The portfolio includes certified modules with protocol software stacks, transceivers, microcontrollers (MCUs) and System-on-Chip (SoC) solutions. In addition, a range of hardware and software development tools are available to help speed and ease new designs for customers.

"Robust and dependable wireless connectivity is an essential element of smart energy, an exciting market with huge potential for rapid growth," said Ryan Cameron, VP and GM of the Industrial and Offline Power Division at ON Semiconductor. "By achieving North American certification and FCC compliance for our Sigfox products, we are significantly extending the geographic coverage of our range of solutions."

"Sigfox certification for the North American market is an important milestone for both ON Semiconductor and Sigfox, and demonstrates our common commitment to enable a global IoT ecosystem for our customers," said Tony Francesca, Sigfox vice president of Global Ecosystem Partners.

In addition to featuring ON Semiconductor's Sigfox portfolio, the company's booth at European Utility Week 2016 will also include exhibits and demonstrations of a number of other products and technologies for the smart energy industry that support the energy efficiency and sustainable development goals of the sector. These include a connected PIR sensor developed in cooperation with Sigfox and running on thethings.IO IoT platform.

Another demonstration will feature ON Semiconductor's IoT Development Kit (IDK). This modular tool provides engineers with all of the hardware and software building blocks needed to speed the evaluation, design and implementation of industrial, medical and smart home IoT applications. Finally, visitors will be able to see a connected "smart" water meter, which utilizes ON Semiconductor's Sigfox products to provide a system for MODBUS and MBUS, pushes water meter data to the Sigfox cloud, and is able to connect to the meter and operate without the need for a power connection.

Visit for more detailed product information about ON Semiconductor's Sigfox solutions.

Ericsson 120A dual-phase DC/DC converter delivers up to 480A in parallel configurations
Posted: 2016-11-10
  • New BMR467 enables current sharing with up to four modules to deliver 480A
  • Industry-leading power density of 15A/cm3 (250A/in3) achieves 120A in a 50.8 x 19.05 x 8.2mm SIP package
  • Key features include Automatic Digital Compensation and a half-load efficiency of 93.2% at 12Vin, 1.8Vout
  • Pin compatible with its predecessor, the BMR467 is also compliant with the new ‘teraAMP’ AMP (Architects of Modern Power) standard

Ericsson announced the launch of a new two-phase 120A 3E digital point-of-load (POL) DC/DC power module. The BMR467 is pin compatible with its predecessor, the BMR465, but its upgraded design delivers 30A more current. The module is also compliant with new ‘teraAMP’ standard developed by the AMP (Architects of Modern Power) Group™.

Multiple BMR467 products can easily be connected in parallel to provide loads of up to 480A, which makes it ideal for advanced network processors that require high performance power delivery with advanced software control for improved flexibility. These capabilities also make the BMR467 ready for future Software-Defined Power Architecture (SDPA) systems, which power system architects foresee as the way to achieving highly efficient and energy-optimized network architectures by 2020.

The BMR467 POL converter can be operated as a standalone unit delivering 120A at output voltages from 0.6V to1.8V, an output power up to 216W, as well as being part of a larger power system when processor boards require higher current. Built on a two-phase topology, four BMR467 modules can be connected in parallel together to deliver up to 480A. The BMR467 modules can become part of a multi-module and multiphase (up to eight-phase) power system that enables phase spreading, which reduces peak current and also the number of capacitors required by end systems. The module can easily be configured with support available via the downloadable Ericsson Power Designer software tool.

The BMR467 offers automatic digital compensation to provide stability, accurate line and load regulation, and excellent transient performance across a wide range of operating conditions, including switching frequency, input voltage, output voltage and output capacitance.

“The BMR467 delivers a high level of flexibility for power system architects, offering 120A as a stand-alone module or up 480A when paralleled with up to four modules,” said Martin Hägerdal, President, Ericsson Power Modules. “Integrating advanced power transistor technologies to provide industry-leading power density, this new point-of-load DC/DC module offers the latest in compensation-free technology as well as delivering superb line-regulation characteristics for modern advanced power applications.”

Like its previous family members, the BMR467 has been designed and manufactured by Ericsson to meet the highest standards available in the industry for DC/DC power converters. The device delivers the levels of quality and confidence expected by power system designers to develop reliable long-term and high-performance platforms.

For more information visit


ON Semiconductor Expands Support for IoT with Modular Development Platform for Industrial, Medical and Smart Home Markets
Posted: 2016-11-8

ON Semiconductor, driving energy efficient innovations, has introduced a modular IoT Development Kit (IDK) that provides engineers with all of the hardware and software building blocks needed to speed the evaluation, design and implementation of medical, home and industrial IoT applications.

ON Semiconductor offers a market-leading portfolio of power-efficient semiconductors for smart and connected IoT designs that includes sensors, power management, connectivity, processors and actuators. By combining these silicon solutions with a comprehensive software framework, the IDK offers a modular, easy-to-use and compact platform that provides developers with access to everything they need to rapidly develop cloud-based IoT designs.

The ON Semiconductor IDK incorporates a variety of module options for sensing, wired and wireless connectivity, and actuation. Its comprehensive software development framework encompasses an embedded operating system (ARM® mbedTM OS), drivers, APIs for hardware shields, a graphical user interface (GUI) and sample applications code. Built-in support for cloud software enables the platform to deliver data into the cloud for value-added services such as analytics. The extensible modular architecture includes a variety of industry-standard interfaces such as Arduino and PmodTM, allowing the seamless integration of existing and future modules from both ON Semiconductor and third parties.

"ON Semiconductor offers a one-stop-shop of leadership semiconductor elements for industrial, medical and home IoT applications. By providing a single, modular, extensible platform that combines hardware, software and support for integrating third parties, the new IDK allows engineers to quickly and easily harness the power of ON Semiconductor solutions and significantly simplify the prototyping of cloud-based applications," said Wiren Perera, IoT Strategist for ON Semiconductor.

The IDK is capable of supporting numerous application areas, including industrial automation, intelligent lighting, building automation, smart cities and a wide range of medical monitoring solutions. The ON Semiconductor booth at Electronica 2016 will feature demonstrations built using the IDK, including wireless and PoE-based smart lighting, heart rate monitoring, energy harvesting wireless sensor-based fault prevention and an automated window shutter.

As well as the IDK-based demos, visitors to the ON Semiconductor Electronica booth will have the opportunity to see other examples of IoT designs such as a PIR-based motion alarm featuring Sigfox cloud connectivity, an intelligent water meter and a smart power application.

For more information, visit


CUI Introduces High Performance Dc Fan Line to Bolster Thermal Management Portfolio
Posted: 2016-11-3

CUI’s Components Group today announced the addition of a high performance dc fan line to its existing thermal management portfolio. The CFM series with frame sizes of 40, 50, 60, 70, 80, 92 and 120 mm delivers airflow ranging from 10 CFM in the 40 mm series to over 200 CFM in the 120 mm series.

Available with rated voltages of 5, 12, 24 and 48 Vdc, all dc fans feature dual ball bearing construction for maximum reliability and come as standard with auto restart protection. Static pressure values for the CFM series range from 2.79 up to 19.8 mm H2O with low rated currents from 0.1 to 1.4 A. Options for tachometer signal, rotation detector and PWM control signal are also available depending upon the model.

The CFM series also carries UL/cUL 507 and TUV (EN 60950-1) safety approvals while complying with EN55022 Class B limits for conducted and radiated emissions. All models are RoHS compliant.

Thanks to their variety of frame sizes and superior airflow, CUI’s line of dc fans are the ideal cooling solution for IT and telecommunications equipment, medical devices and industrial applications.

For more information visit

Cornell Dubilier Flat Aluminum Electrolytic Capacitors with Near-Hermetic, Welded Seals Offer 5,000 Hour Life at 125 °C, Rugged Design
Posted: 2016-11-2

Cornell Dubilier Electronics, Inc. (CDE) has introduced the latest in its series of Flatpack ruggedized flat aluminum electrolytic capacitor, the MLSG.  This series targets compact power supply applications in military and aerospace, as well as other critical systems.  Design enhancements and a new electrolyte push the MLSG to nearly double the operating life of its predecessor, at no added cost.  Two principal package profiles are offered in this technology, the MLSG Flatpack which measures just 0.5” thick and 1.75” wide and the MLSG Slimpack measuring 0.5” thick by 1.00” wide, both offered in length increments of, 1.5”, 2.0”, 2.5” or 3.0”.

MLSG Flatpack capacitors can be made to withstand up to 50g vibrations (10g standard) and altitudes greater than 80,000 feet.  With stainless steel cases and near hermetic welded seals, they are built for extended duty in very harsh conditions.  Especially noteworthy is that a high level of performance is maintained over the full operating temperature range.  Capacitance retention at -55 °C is very strong, with excellent high temperature performance up to +125 °C.   The new electrolyte system is fully REACH compliant, allowing application of the components in a broad range of applications where space efficiency and extraordinarily long life are required.

A wide range of standard capacitance values from 220 µF to 24,000 µF are available, with voltage ratings up to 250 Vdc.   The unique flat package design does more than save space.  It is easily cooled, and can offer unique flexibility in ganging two or more devices in ways that conventional electrolytics can’t. 
Options include High Vibration (HV), for performance to 50g and High Reliability (HR), with burn-in at rated voltage and 85 °C.  Where a true glass-to-metal hermetic seal is required, CDE offers the MLSH Slimpack, which is similarly constructed in a flat stainless steel package.  It is available in nine values, from 120 µF to 3,200 µF, with ratings up to 250 Vdc.

“The latest MLSG Flatpack capacitors are purpose-built for their mission,” said Mike McGeachie, design and application engineer. “They provide a very high level of electrical and environmental performance.  Engineers don’t usually have such an option when selecting passives.”

For more information visit

Industry First Intelligent Charge Controller from ON Semiconductor Meets the Exacting Demands of Next Generation Power Banks
Posted: 2016-10-18
Offering an intelligent feature set along with best-in-class integration to simplify and accelerate time to market

ON Semiconductor, driving energy efficiency innovations, has introduced a highly integrated single chip power bank solution for the development of next generation Li-Ion powered products. The LC709501F total Li-Ion battery solution offers broad power and voltage/current output range of 5 volt (V), 9 V and 12 V operation, with a maximum charge/discharge capability of up to 30 watts (W) through simple FET selection.

The LC709501F determines what type of device is connected and automatically selects the fastest available method for charging. Advanced users can even reprogram the LC709501F to support custom charge/discharge profiles, as well as USB Type-C and PD "Policy Engine" functions. This single-chip solution includes integrated fuel gauge function, configurable I/O, LED drivers, I2C interface, and pre-drivers for external power MOSFETs, providing system flexibility. A design reference kit is available to realize fast time to market. The LC709501F supports various output power levels up to 30 W, by changing external MOSFETs. In addition, there is an integrated USB 2.0 Full Speed host controller.

The LC709501F's USB host controller supports connectivity with iOS and Android apps that enable the device to communicate with the connected smartphone and subsequently make use of its display to show information concerning the battery health and the charging process (charging time, battery life, number of charging cycles completed, etc.). The device works with the proprietary charging protocols (such as Fast Charge and Qualcomm® Quick ChargeTM) now being utilized by smartphone manufacturers to accelerate the charging period. To ensure operational longevity, over-current, over-voltage, and redundant battery protection mechanisms are all included, as well as a thermistor for monitoring of temperature levels. The LC709501F supports an operational temperature range of -40 °C to +85 °C.

"With a growing need for on-the-go recharging of portable electronics, power banks are certain to become more prevalent over the coming years," states Matthew Tyler, Director Strategy and Product Roadmap Definition of the Digital and DC/DC Division at ON Semiconductor. "Accurate and reliable charge capacity indication and the ability to support the latest quick charging standards are becoming more critical, especially as power bank capacities have grown over time. The level of sophistication that power banks possess is destined to increase, so that batteries can be replenished as quickly as possible and inconvenience is minimized. The new, best-in-class LC709501F charger will enable the creation of compact, highly efficient, feature-rich power banks that will simplify and accelerate time to market of next generation power bank solutions. Its breadth of functionality will enhance the user experience and mean that high degrees of safety are maintained."

For more information, visit

New Line of USB 2.0 and 3.0 Connectors Expands CUI’s Interconnect Portfolio
Posted: 2016-10-16

CUI’s Components Group announced an expansion to its existing portfolio of power, audio and signal connectors with the addition of a USB product line. The new connector family incorporates USB 2.0 and 3.0 connectors available in Type A, Type B, Micro AB, Micro B, Mini AB and Mini B USB versions. Able to support data rates up to 5 Gbps in USB 3.0 models, the new product family is ideal for a variety of I/O applications in consumer and portable electronic devices, including mobile computing equipment, digital audio devices and high volume storage products.

Offered in jack or plug connector types with horizontal or vertical orientations depending on the model, the new USB line boasts a number of mounting styles including surface mount, cable mount, mid mount SMT and through hole, allowing them to plug into virtually any design.

For more information visit

Ericsson raises the bar with high-current 780W power interface module for ATCA applications
Posted: 2016-10-16
  • Quarter-brick power interface module (PIM) converter targets high-power Advanced Telecom Computing Architecture (ATCA) server applications
  • Feature-packed ultra-high-efficiency module delivers 15A output current at 82°C with 1.5m/s (300 LFM) airflow
  • Low-EMI design meets CISPR Class B with minimal external components
  • Extensive range of energy monitoring functionalities via I2C or PMBus

Ericsson Power Modules today announced the PIM4710PD, an extension of the popular 3E* Power Interface Module (PIM) family and an even higher power version than its recently announced family member – the 600W PIM4610PD. The new module offers high current handling of 20A and increased power capability of 780W at the lower end of its input-voltage range with the capability to handle up to 1080W with a 54V input.

Compliant with the industry-standard quarter-brick footprint – measuring 57.9 x 36.8 x 21.33mm (2.28 x 1.45 x 0.84in) – the module has been optimised to simplify design in blade server applications based on ATCA and PICMG 3.7 systems. The PIM4710PD is also highly suited to server and storage systems in any industrial, telecom and data communications application that employs either distributed power or intermediate bus voltage architectures.

Martin Hägerdal, Head of Ericsson Power Modules, commented: “The PIM4710PD meets the demand for leading-edge and high-power 800W ATCA-based systems, especially in applications where there is minimal airflow. The world-class efficiency and high-power handling of this new module, in conjunction with its advanced digital capabilities, will deliver significant energy and cost savings to power system architects developing advanced blade server applications.”

Like the PIM4610PD, the new PIM offers built-in digital monitoring and an extensive range of energy-monitoring functionalities via its I2C/PMBus interface. The module also offers integrated hot-swap functionality and hold-up charge and discharge management. The inputs also include dual power feeds with OR’ing functionality and ‘enable’ signalling.

Protection features of the module include protection against input transients, reverse polarity, over-temperature, over-current, input under-voltage and inrush current. In addition, enabling the protection of processors and other key silicon devices including FPGAs, the module can be configured to enable a well-controlled shutdown procedure. The feature enables de-assertion of the Power Good pin following input power being below the assigned level.

For further information, please visit

Wolfspeed Delivers Industry’s First 1000V SiC MOSFET
Posted: 2016-10-6
Meets growing demand for efficient electric vehicle fast battery chargers

Wolfspeed, a Cree Company and a leader in silicon carbide (SiC) power products, has introduced a 1000V MOSFET that enables a reduction in overall system cost, while improving system efficiency and decreasing system-size. The new MOSFET, specially optimized for fast charging and industrial power supplies, enables a 30 percent reduction in component-count while achieving more than 3x increase in power density and a 33 percent increase in output power.

“Supporting the widespread implementation of off-board charging stations, Wolfspeed’s technology enables smaller, more efficient charging systems that provide higher power charging at lower overall cost. This market requires high efficiency and wide output voltage range to address the various electric vehicle battery voltages being introduced by automotive suppliers,” explained John Palmour, CTO of Wolfspeed.

“Wolfspeed’s new 1000V SiC MOSFET offers system designers ultra-fast switching speeds with a fraction of a silicon MOSFET’s switching losses. The figure-of-merit delivered by this device is beyond the reach of any competing silicon-based MOSFET,” Palmour added.

With the introduction of its 1000V SiC MOSFET, Wolfspeed leads the market with the industry’s most complete device portfolio. Wolfspeed was the first company to release a commercially qualified SiC MOSFET in 2011 and remains a leader today, committed to delivering great technology and value.

Designers can reduce component-count by moving from silicon-based, three-level topologies to simpler two-level topologies made possible by the 1000 Vds rating of the SiC MOSFET. The increase in output power in a reduced footprint is realized by the ultra-low output capacitance―as low as 60pF― which significantly lowers switching losses. This device enables operations at higher switching frequencies, which shrinks the size of the resonant tank elements and decreases overall losses, thus reducing heatsink requirements. Wolfspeed has determined these proof-points by constructing a 20kW full-bridge resonant LLC converter and comparing it to a market-leading 15kW silicon system.

For more complete technical information about Wolfspeed’s new 1000V MOSFET, download its datasheet here. For all other inquiries about Wolfspeed power products, please visit

Economical Open Frame Ac-Dc Power Supplies Deliver up to 280 W in a Compact Package
Posted: 2016-10-4

CUI Inc today announced the expansion of its VOF open frame ac-dc power supply family with the introduction of 185, 225 and 280 W models. The VOF 185, VOF 225 and VOF 280 series are higher-power additions to CUI’s latest-generation open frame ac-dc power portfolio ranging from 6 to 150 W. Designed to offer a combination of economy and performance in a compact, industry standard 3” x 5” footprint, the single output power supplies deliver efficiencies up to 91% and no-load power consumption as low as 0.5 W at 230 Vac for energy-conscious ITE, industrial and consumer electronics applications.

The three new VOF series feature a wide universal input voltage range of 90 to 277 Vac and offer output voltage options of 12, 15, 24, 36 and 48 Vdc.  All models provide an operating temperature range at full load from -20 up to +50°C with forced air cooling, derating to 50% load at +70°C.  The new power supply family also carries UL/cUL and TUV 60950-1 safety certifications while meeting EN 55022 Class B and FCC Class B limits for radiated emissions.

For more information visit

CUI: Waterproof Buzzers Developed for High-Moisture Environments
Posted: 2016-8-16

A new power connector family that provides impressive sealing capability and can withstand harsh environments is being released by Positronic, a company known for its reliable products and configurable design.

The innovative new Panther line of rugged electronic connectors is the first produced by the company to offer IP65/IP67 sealing capability; conformance to N45525-2 HL3, a globally recognized standard for smoke and toxicity requirements; and the ability to operate reliably at temperatures up to 200ºC. Panther also boasts up to 35 amps per contact, shock and vibration performance to EIA-364-28F test condition IV, and has an LCP insulator.

The strong and versatile Panther family is ideal for use in rail, aerospace, battery, earthmoving and other related applications. For more information, visit

2015 Edition of PSMA Roadmap Report Projects Future Power Technology Developments
Posted: 2015-6-5
Latest edition of Power Technology Roadmap includes a 542-page report plus USB drive with recorded webinars

The Power Sources Manufacturers Association (PSMA) announces that the 2015 edition of its The Power Technology Roadmap is now available. The report, which forecasts the power technology and power delivery trends through 2019, includes a printed report along with a feature-rich USB memory drive containing recorded webinars with up-to-date explanations of the information contained in the final report. The recordings are extremely helpful in that they enable the listener to understand the context and the subtext of the report materials, as explained by the actual presenters. Non-PSMA members may purchase the report at PSMA Regular and Associate member companies have been sent copies of the printed report and USB memory drive versions of 2015 edition as a benefit of their membership.

New this year to the PSMA Power Technology Roadmap report is a retroactive study that examines how the past roadmap trends from 2003 to 2013 compared with the current trends in this report. This study was added because the goal of the PSMA is not only to identify future trends, but also to examine its earlier predictions to see how they turned out. This study provides a very interesting review of the developments of trends to help industry professionals understand the micro-transitions that may have turned into major inflection points in power electronics history. Key results of this study, as well as the summary that was presented at the APEC2015 Plenary Session, are also included.

Continuing from previous editions are essay contributions by industry experts contained in the reports’ Applications Trends and Emerging Technologies sections. The 2015 Application Trends topics cover a range of segments, such as automotive, battery charging, computing, consumer, renewables, industrial, LED lighting, medical, mil/aerospace, and motor control.  This years’ Emerging Technologies section includes topics on 3D packaging, power SoCs, servers, additive manufacturing, high-frequency magnetics, high-power wireless charging, smart grid, energy storage and smart buildings.

“The culmination of the PSMA’s webinars, surveys, presentations and discussions is a comprehensive and consolidated view of the latest trends in power management, power control and power delivery technologies,” said Aung Thet Tu, Co-Chair of the organizing committee. “The 2015 report offers a trove of information both in the written report and recorded webinars.”

Eric Persson, Co-Chair of the organizing committee, said: “The breadth and depth of the information we’ve compiled for the 2015 report is unprecedented. By capturing the technical trends and issues facing the power sources industry, we hope and expect industry professionals to find this report useful, thought-provoking and valuable.”

For information about purchasing the report, please to the PSMA website at: The non-member price is $2,790. For PSMA members companies who may want to purchase additional copies, the member price is $170. PSMA Affiliate members may also purchase the report for $170.

New Technology Report Introduced at APEC 2015
Posted: 2015-3-21
Current Development in 3D Packaging With Focus on Embedded Substrate Technologies

At APEC 2015, the PSMA Packaging Committee will introduce the first comprehensive study of the feasibility of using Embedded Substrate Technologies to build power sources. The report entitled “Current Developments in 3D Packaging with Focus on Embedded Substrate Technologies” will also be discussed at the Industry Session on 3D Packaging. The report was prepared under contract by LTEC Corporation with work subcontracted to Anagenesis and Fraunhofer-Institute. The intent of this article is to provide PSMA members a high level preview of the contents of Technical Report.

The PSMA Packaging Committee believes the 340 page report with extensive illustrations of the leading edge product technologies will provide valuable insights to executives and managers in their own analysis of how currently available materials and processes could be best used for the creation of advanced high efficiency, high power-density power electronic products. The report builds upon the findings of the Phase I report - 3D Power Packaging - issued by the Power Sources Manufacturers Association (PSMA) Packaging Committee in 2014.


Let’s begin with a little background. The power electronics industry and the semiconductor industry are inseparably intertwined with one another, and both are facing unprecedented market challenges for efficiency, cost, construction and thermal issues which provide many opportunities for innovation. These industries are in the focal point of the “energy challenge” a multifaceted problem that involves mobile and cloud infrastructure systems, Internet-of-Things, renewable energy, smart grid, vehicle electrification, and across-the-board power efficiency enhancements in order to keep up with the industry's rapid growth in data consumption. These are the competiveness and sustainability challenges of the twenty-first century.

The paradigm shift we have been experiencing in semiconductor packaging technology was brought about by advanced deep submicron semiconductor technology reaching a “cost barrier” that prevented further cost reduction by adding more functions to the semiconductor die. This barrier was circumvented through the development of wafer thinning that enabled through-silicon-via (TSV) technology, and the eventual introduction of 2.5D and 3D integration that facilitated heterogeneous (“More than Moore”) integration. It will allow the power requirements of the digital load to increase 2 to 5 times, within the same footprint, in a single generation. The power sources community must now find ways to package power sources that will meet this demand, but with no increase in footprint.

In parallel, power semiconductor technology has been facing a “construction barrier” that prevents realization of the huge benefits new technology can offer in terms of increased power efficiency and higher power density. These new technologies which include gallium-nitrogen (GaN), silicon-carbon (SiC), and gallium-arsenic (GaAs) power semiconductor devices all require operation in an environment that is free of bond wires and minimizes parasitic interconnect elements. The best possible packaging technology to achieve this is embedding active and passive components in organic or inorganic substrates.

Overview of the Report

The report begins with a discussion of PCB embedding technology, which is fueled by the rapid evolution of low-power embedding and 3D packaging technologies, which are in high volume production. These technologies will in turn enable power electronic systems to deliver higher efficiency and higher power density.

Embedding Actives and Passives in Substrate using Shinko Electrics Molded Core Embedded Package
Embedding Actives and Passives in Substrate using Shinko Electrics Molded Core Embedded Package (MceP®)

In addition to substrates the report dedicates entire chapters to each of the passive components (resistors, capacitor, and inductors) as well interposers and additive manufacturing.

Embedding using Formed or Inserted Components
Embedding using Formed or Inserted Components

The report also discusses high temperature die and component attach technologies that are evolving rapidly in the research labs; however, a single, low-cost, “one-size-fits-all applications” high-lead solder-substitution technology is currently unavailable and addresses the fact that high power-density component embedding and 3D packaging of power semiconductor devices also have to overcome a “thermal barrier.” Simply stated, it is more challenging to remove heat generated within the body of a 3D integrated system than from a planar, two-dimensional surface. This leads to a discussion of advanced thermal management technologies which are key enablers for 3D packaging as well as PCB embedding.

The authors acknowledge and devote a chapter to the fact that high power-density component embedding and 3D packaging of power semiconductor devices also have to overcome a “thermal barrier.” Simply stated, it is more challenging to remove heat generated within the body of a 3D integrated system than from a planar, two-dimensional surface. This leads to a discussion of advanced thermal management technologies which are key enablers for 3D packaging as well as PCB embedding.

In addition to their primary research, the team conducted a worldwide literature review and analysis of research and development (R&D) published by participating organizations in the USA, Asia-Pacific Region, and the EU, and identified several potentially high-impact technologies of interest to the power electronics and the semiconductor industries.. In terms of leadership positions, Germany and the EU appear to lead in the area of high-power PCB embedding and research into vertical interconnect/high-lead replacement technology, while Japan is leading in low power, high-density embedding, high performance, low CTE, high modulus (low warpage) substrates, and organic interposer technologies.

Finally the report highlights some of the technology gaps as well as a recognition that this new technology requires updated or additional standards for manufacturing and testing. This report reviews the existing and pending new standards for PCB embedding which the IPC Association has taken the lead to author. However, much additional standard action is needed since the manufacturing supply chain is still evolving. Procedures need to evolve to establish compatibility of up-top metal-die design and PCB layout rules, testing, quality control, and for assigning ownership of failure.

In summary, there has been substantial progress and excellent opportunities lie ahead for the power electronics and semiconductor industries and the entire manufacturing ecosystem to embrace PCB embedding and 3D packaging technologies for power electronic applications. The intersection of these technologies with the emerging wide-bandgap power semiconductor technology creates truly exciting possibilities at the same time the power electronics industry faces unprecedented challenges to help mitigate the fast growing demand for electricity and environmental problems our world faces. Embedded substrate packaging technologies can be, and will be deployed in hybrid and electric vehicles, alternative energy generation and distribution systems, smart grid, industrial, and military aerospace applications in the coming years and beyond. These technologies, combined with wide-bandgap semiconductor devices will literally re-vitalize the entire power electronic infrastructure block by block, module by module, for the twenty-first century.

As a benefit of PSMA membership, the Current Development in 3D Packaging with Focus on Embedded Substrate Technologies report will be sent to all PSMA Regular and Associate member companies and Affiliate companies will be able to purchase the report at a reduced price. The report will also be offered to others in the industry at a price of $2990. You can view the report at the PSMA Exhibit booth at APEC 2015 and shortly the Table of Contents will be available on the PSMA website:


Submitted by the PSMA Packaging Committee.
Brian Narveson
  Brian Narveson   Ernie Parker  
Ernie Parker 


PSMA Publishes Technology Report: “Current Development in 3D Packaging With Focus on Embedded Substrate Technologies”
Posted: 2015-3-17
Comprehensive report is the first to address “More than Moore” digital power demands by accelerating the development of higher density power sources using new, disruptive packaging technologies

March 16, 2015—The PSMA (Power Sources Manufacturers Association) Packaging Committee announced today that it has published a report titled “Current Developments in 3D Packaging With Focus on Embedded Substrate Technologies.” The first comprehensive study on using embedded substrate technology for building power sources, the report contains extensive research and product illustrations geared to an audience of technology executives and design engineers. Its purpose is to offer an in-depth industry perspective on how currently available materials and processes can be best used for the creation of advanced high-efficiency, high-power-density power products.

The PSMA created the 3D packaging report to address the pressing demands in the power industry to accelerate the development of higher density power sources. The first challenge arose from digital semiconductor packaging technology hitting a “cost barrier” brought about when advanced deep-submicron semiconductor technology could no longer reduce cost with the addition of more functions to the semiconductor die. This barrier was circumvented through the development of wafer thinning that enabled through-silicon-via (TSV) technology and the eventual introduction of 2.5D and 3D integration, which facilitated heterogeneous (“More than Moore”) integration. This integration allowed the power requirements of the digital load to increase two to five times, within the same footprint, in a single generation. Now the power industry is tasked with finding ways news ways to package power sources that will meet this demand, but without increasing footprint.

In parallel, power semiconductor technology is facing a “construction barrier” that prevents the realization of the significant benefits new technology can offer in terms of increased power efficiency and higher power density.  These new technologies, including gallium-nitride (GaN), silicon-carbide (SiC), and gallium-arsenic (GaAs) power semiconductor devices, all require operation in a package that is free of bond wires and that minimizes parasitic interconnect elements. Both of these challenges can be addressed with power packaging utilizing embedded substrate technologies and are addressed in the report.

The PSMA’s 340-page report, prepared under contract by LTEC Corporation with work subcontracted to Anagenesis and Fraunhofer-Institute, is based on the Packaging Committee’s extensive research of over 750 articles and papers, analysis of 450 presentations/papers, and by conducting 30 industry expert interviews. Information was also derived from attendance at 10 industry conferences, workshops and seminars. The report contains 172 links and 394 citations.
The report provides detailed analysis of substrates (organic and inorganic), components (actives and passives), thermal management, high temperature die, packaging technologies, interposers, as well as additive manufacturing and laser fabrication. Each passive component (resistors, capacitors, inductors) has an entire chapter detailing which suppliers are currently shipping products usable in power sources.  Every chapter covers manufacturing issues and includes references to contract manufacturing companies already producing power products utilizing embedded substrate technology. Embedded substrate packaging leverages the large investment made by the digital industry in advanced packaging technologies and is being used to resolve the power source construction challenge. As the report demonstrates, 3D power packaging using embedded substrate technology is a disruptive technology, in that it enables large increases in power density and efficiency.

Co-chairs of the PSMA Packaging Committee, Ernie Parker of Crane Aerospace & Electronics and Brian Narveson of Narveson Consulting, described the report as “the first comprehensive document to discuss the  challenges companies will face to implement embedded substrate 3D power packaging to create the significantly higher power densities driven by the “More than Moore” digital power demands.”

The PSMA report on 3D packaging will be provided free of charge to PSMA Regular and Associate members.  Affiliate members can purchase the report for the reduced price of $190.  Others interested in the report may order a copy from PSMA for $2,990. 

Power Sources Manufacturers Association Reprints Classic Magnetics Text
Posted: 2011-7-25


MENDHAM, N.J. – June 23, 2011 − The Power Sources Manufacturers Association (PSMA) announced that it is again making available Nathan Grossner's classic treatise, Transformers for Electronic Circuits - Second Edition. The first reprint of this work sold out and this second reprint is now available. PSMA members may now purchase this important text online, directly from PSMA, at the discounted price of $55. The non-member PSMA online price is $75. Non-members may also purchase it through How2Power or through Amazon. This text is a complete, one-stop guide to transformer and inductor design and applications for everyone who designs, builds, or uses power magnetics components. Throughout this book, the author combines analysis and synthesis and all theory is related to the solution of real-world problems.

Sections of the text provide guidance in the use of transformers and inductors in power electronics and in digital and pulse circuits. Also included is design information about other forms of high-frequency magnetics such as transmission-line transformers, hybrid transformers, ferroresonant tranformers, flyback converter magnetics and inductors used in switch-mode power converter designs.

Special attention is given in the book to the proper control of dielectric stress, corona and thermal factors in high-voltage magnetics designs. Modeling methods for magnetic parts are also included and treated in some detail. This book is an essential reference book for any engineer involved in the design and development of modern-day magnetic components.

According to Steve Carlsen, co-chair of the PSMA Magnetics Committee, “Grossner's book should be an essential part of every power supply designer’s technical library. The initial PSMA reprint edition sold out and thanks to PSMA, it is once again available after being out of print for several years.”

PSMA Answers Continued Demand for Snelling Magnetics Text with 2nd Reprint
Posted: 2010-10-4

Mendham, New Jersey—June 1, 2010—The Power Sources Manufacturers Association (PSMA) has announced the renewed availability of SOFT FERRITES – Properties and Applications - Second Edition, authored by Eric Snelling. The book had been out of print for several years and was reprinted in limited quantity by the PSMA in 2006. Due to continued demand, a second reprinting is now available. The book was initially published in 1969 and was extensively revised by Snelling in 1988 to bring all eleven chapters in line with current design practices and applications of ferrite cores used in modern-day inductors and transformers. The aim of this unique 366-page reprint is to provide all the information on ferrite properties and wound-component design necessary for efficient applications of these materials. Data in the book are represented by means of extensive use of graphs and tables, and design procedures are supported by many working examples of inductors and transformers. According to Stephen Carlsen, PSMA Magnetics Committee Chair, “Snelling’s book is considered by many working design engineers as the ‘ferrite user’s bible’ and PSMA is pleased to make this wonderful text available once again.” Copies of Snelling’s classic treatise on magnetics, SOFT FERRITES – Properties and Applications - Second Edition, are available for sale at The cover price for the reprint is $150 but PSMA members, as a benefit of their membership, can purchase the text for $100. The PSMA-reprint text is also available at the non-member price at

PSMA Announces Availability of On-Line Energy Efficiency Standards Database
Posted: 2009-4-12
Database offered as a free service to the industry; provides “one-click” access to details of standards by world region, agency and application.

Mendham, New Jersey — April 9, 2009 — The Power Sources Manufacturers Association (PSMA) announces availability of its On-line Energy Efficiency Database (EEDB) as a service to the industry. The number of energy efficiency standards and the world wide agencies that generate them continue to grow daily. It is time consuming for an individual or company to keep track of the many actions and activities by government and industry groups. The PSMA on-line energy efficiency standards database provides “one click” access to the very latest global standards and initiatives.

As a result of user feedback on an earlier version of the database, PSMA has incorporated a number of improvements. Some of the useful features:

•Quick access to world region, agency, or standards application
•Expanded data includes list of specific standards generated by an agency and parametric specifications for each regulation
•Expanded description of regulations and agencies
•Enhanced descriptions that include html code for quick linking to agency site or database location
•Latest schedule of standards meetings

Dusty Becker, PSMA Board Chairman and chair of the PSMA Energy Efficiency Committee, states that "The PSMA On-line Energy Efficiency Data Base, which incorporates a number of improvements suggested by product planners to keep current, is a valuable resource for engineers. We are pleased to offer this resource free of charge to our membership and to the industry."

Though access to the PSMA EEBD is free, users are required to register on so PSMA can provide notice of special database announcements and associated PSMA activities.

About PSMA

PSMA is an active organization consisting of power supply manufacturers, users, power component suppliers, academics and consultants interested in furthering the cause of the power supply industry. It is a non-profit, democratic and participative organization whose main and common goal is to enhance the stature of the power supply industry and provide education and information about this unique industry through published reports, educational seminars, technical workshops and conference exhibits. PSMA provides leadership to the industry through its membership which includes most major power supply companies.

PSMA Announces Reprint Availability of J. K. Watson's “Applications of Magnetism”
Posted: 2008-2-4
New reprint is the fourth title in PSMA's out-of-print Classic Book Series

MENDHAM, N.J. - February 4, 2008 ─ The Power Sources Manufacturers Association (PSMA) is pleased to announce availability of a reprint of the classic book "Applications Of Magnetism" authored by the late J. K. Watson and originally published by John Wiley and Sons in 1980. According to Ed Bloom "This classic book, written by one of the most respected teachers in the field of magnetics, makes the principles of applied magnetics accessible to the practicing electronics engineer. With emphasis on practical design, the text presents the relevant principles of physics, circuit analysis, simple models and the calculations involved in designing a circuit or a magnetic device. No prior knowledge of the physics of magnetism is assumed ─ material properties are explained in a step-by-step manner, with special attention to their effects on the volt-ampere characteristics of a magnetic device, and to the physics of magnetic domain processes. Applications of magnetics, including those associated with power electronics circuits, are covered as well as reluctance modeling methods for transformers and inductors." Copies of this practical design treatment of magnetics will be available for sale at this year's Applied Power Electronics Conference (APEC 2008) to be held in Austin, Texas, February 24-28, 2008 and through the PSMA web site - Copies will sell for US$100, but members of PSMA companies can obtain a copy for US$50. To order directly from PSMA please complete the "members order form" or the "non-members order form". In the past three years, PSMA has reprinted three other classic books on magnetics including Transformers for Electronic Circuits by the late Nathan R. Grossman, Soft Ferrites - Properties and Applications by E.C. Snelling and Electronic Transformers and Circuits by the late Reuben Lee and associates. A limited number of the Snelling and Lee books are still available through About PSMA PSMA is an active organization consisting of power supply manufacturers, users, power component suppliers, academics and consultants, interested in furthering the cause of the power supply industry. It is a non-profit, democratic and participative organization, whose main and common goal is to enhance the stature of the power supply industry and provide education and information about this unique industry through published reports, educational seminars, technical workshops and conference exhibits. PSMA provides leadership to the industry through its members, which include most major power supply companies.

PSMA Announces Latest Edition of Standardized Terminology Handbook
Posted: 2007-10-6
Third edition includes print and CD versions; provides comprehensive resource of power sources industry terminology




MENDHAM, N.J.,—October 5, 2007—The Power Sources Manufacturers Association (PSMA) is pleased to announce publication of The Handbook of Standardized Terminology for the Power Sources Industry–3rd Edition. Revised and expanded, this unique handbook contains hundreds of added terms, especially selected for the power electronics professional. The third edition also contains illustrations and four new appendices, including a listing of EMI specifications, excerpts from international standards of units and symbols, along with guides for authors of technical papers. These added resources provide concise, easy-to-use references for engineers involved in technical writing and presentations. Many new magnetic terms are described in this new 126-page third edition that are of particular interest to the practicing designer and marketer of power supplies and related products. Valuable information regarding worldwide power sources, standards agencies, and military specifications has been retained, updated and expanded from the previous edition. Titles of the appendices are: • Testing and Standards Agencies; Designer's Reference; • World Voltages and Frequencies; • Military Specifications; • EMI Specifications; • Writing Technical Papers for Archival Publications; Units, Symbols and Style Guide; A Brief Writing Guide. The book comes in hard copy along with a CD containing a PDF version that can easily be searched for terms and words within the definitions, making it a valuable tool for posting on your internal network. The book price is $25 to PSMA members and $50 to nonmembers. To order directly from PSMA please complete the "members order form" or the "non-members order form".

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