Motor Drivers for Low- and Mid-Power Systems, Encapsulated DC-DC Converters, 950 V Superjunction MOSFETS and TWO Raffles for Free Stuff!
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| Motor Drivers Provide Solution for Low- to Mid-Power Applications STMicroelectronics has released the STSPIN830 and STSPIN840 single-chip drivers that simplify the design of low-to-mid-power motor controls in the 7 V to 45 V range. The devices contain flexible control logic and low Rds(on) power switches for industrial applications, medical technology and home appliances. The STSPIN830 for driving 3-phase brushless DC motors has a mode-setting pin that lets users control the three half bridges of the integrated power stage with direct U, V and W pulse-width modulated (PWM) inputs, or by applying signals to each gate individually for higher control flexibility. A dedicated sense pin for each inverter leg simplifies setting up three-shunt or single-shunt current sensing for field-oriented control. The STSPIN840 can drive two brushed DC motors or one larger motor leveraging ST's paralleling concept. This approach enables the integrated full bridges to be configured as two separate bridges or as a single bridge using the two sets of MOSFETs in parallel for lower Rds(on) and higher current rating. CONTINUE READING Implementing an IoT Edge Device While Minimizing NRE FREE White Paper -- One designer in a garage, a small startup and even small groups within large companies are designing IoT edge devices. These designers need to keep non-recurring expense (NRE) down by using affordable design tools that are easy to use to quickly produce results and by minimizing IP and fabrication costs. This white paper discusses an approach to minimize NRE for IoT edge device implementation. This white paper discusses an approach to minimize NRE for IoT edge device implementation. GET THE FREE WHITE PAPER Fuel-Gauge ICs Target Mobile and Portable Devices Maxim Integrated Products has announced the MAX17262 single-cell and MAX17263 single-/multi-cell fuel-gauge ICs. The MAX17262 features just 5.2 µA quiescent current, along with integrated current sensing. The MAX17263 features just 8.2 µA quiescent current and drives 3 to 12 LEDs to indicate battery or system status. Such LEDs are useful in rugged applications that do not feature a display. According to the company, electronic products powered by small Li-ion batteries struggle to extend device run-times to meet user expectations. Factors such as cycling, aging and temperature can degrade Li-ion battery performance over time. Inaccurate state of charge (SOC) data from an unreliable fuel gauge forces the designer to increase the battery size or compromise the run-time by prematurely shutting the system down, even if there is usable energy available. Such inaccuracies can contribute to a poor user experience due to abrupt shutdown or an increase in device charging frequency. The MAX17262 and MAX17263 combine traditional coulomb counting with the novel ModelGauge m5 EZ algorithm for high battery SOC accuracy without requiring battery characterization. With their low quiescent current, both fuel-gauge ICs prevent current loss during long periods of device standby time, extending battery life in the process. CONTINUE READING | Current Issue SEE INSIDE Subscriber Login Learn More About Circuit Cellar Sample Issue Editorial Calendar Shop Archive Magazine Issues Books Subscribe Advertise We can get your message out to the professional engineering community. Contact Hugh Heinsohn today at [email protected]! Stay Connected |
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950 V Superjunction MOSFETs Boast High Thermal Efficiency Infineon Technologies has added a new member to its CoolMOS P7 family, the 950 V CoolMOS P7 Superjunction MOSFET. It is designed to meet the needs of applications such as lighting, smart meters, mobile chargers, notebook adapters, AUX power supplies and industrial SMPS applications. This semiconductor solution combines excellent thermal and efficiency performance with lower bill of materials and overall production costs. The 950 V CoolMOS P7 attributes include outstanding DPAK R-DS(on) enabling higher density designs. In addition, the excellent V-GS(th) and lowest V-GS(th) tolerance make the MOSFET easy to drive and design in. Similar to the other members of the P7 family from Infineon, this component comes with integrated Zener diode ESD protection. This results in better assembly yields and therefore less cost, and fewer ESD-related production issues. The 950 V CoolMOS P7 enables up to a 1% efficiency increase and from 2˚C to 10˚C lower MOSFET temperature for more efficient designs. This component offers also up to 58% lower switching losses compared to previous generations of the CoolMOS family. Compared to competing technologies in the market the improvement is more than 50%, according to the company. CONTINUE READING |
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