This blog contains information on new products and services related to engineering, electronics, manufacturing, and industrial process automation fields.
Smallest MOSFETs in 1 x 0.6 mm DFN Package
NXP now offers one of the largest portfolios of MOSFETs with twelve new products in DFN1006B-3. The world’s smallest discrete transistor package, DFN1006B-3 is the perfect solution for today's space-constrained applications, delivering superior thermal performance combined with the ultimate in miniaturization. These news products are ideal for ultra-small load switches, power converters and charger switches in small, thin applications like smartphones and tablets where it's all about power density and efficiency.
With a portfolio of more than 60 MOSFETs in 2x2 mm and 1x0.6 mm DFN packages, NXP is one of the major players for MOSFETs addressing requirements for the lowest RDSon on the smallest footprint.
When selecting the proper fuse for short circuit protection in motor starting applications, it is important to not only ensure that the fuse will not nuisance open during motor start up times, but also that the fuse will coordinate as required with overload relays. When sizing fuses between 125% and 150% of the motor nameplate current, several advantages, including ease of coordination with an overload device, a smaller disconnect, and increased short circuit protection from a lower fuse rating, can be achieved. However, if sizing at this level prevents the motor from starting, it may then be necessary to increase the fuse ampere rating and it then becomes important to know the NEC sizing limitations. As of June 1, 2016, the US Department of Energy has mandated that newly manufactured electric motors will need to meet NEMA Premium® efficiency standards. As motor efficiencies increase, motor locked rotor currents can also be expected to increase. In addition to this, with across-the-lin
Amid the multitude of advanced technologies being integrated into automated packaging operations today, one of the most reliable and versatile component s - inductive sensors - have been holding their own for decades. These simple sensors pack a big punch for OEMs and end users alike. We have compiled a list of the top five places where inductive sensors can positively impact productivity. Many factors make inductive sensing attractive to modern packaging applications. Because the sensor uses inductive variations in an internally generated magnetic field to detect the presence of metallic objects, there is no need for the sensor to physically contact the target itself. That feature alone offers a host of advantages - consistent performance fo r a variety of product or machine position and counting applications in harsh and sanitary environments, resistance to dirt and other substances, adaptability to high - speed functions , and many more. SICK Inductive Proximity Sensor
Pressure sensors - commonly referred to as pressure transducers, pressure transmitters, pressure indicators or pressure switches - are used to measure the pressure of gases and liquids (fluids). Pressure is an expression of the force and is normally stated in terms of force per unit area. A pressure sensor will generate an electrical signal relating to the pressure imposed. This signal is either analogue or digital in more modern designs, although optical, visual and auditory signals are also common. Industrial pressure transducers normally have a diaphragm type design that uses strain gauges, which are either bonded to, or diffused into it, with the strain gauges acting as resistive elements. Under the pressure-induced strain, the resistive values change. In capacitive technology, the pressure diaphragm is a single plate of a capacitor that