The LM334Z is a three-terminal adjustable current source. Like the LM134 and LM234, its current output is determined by an external resistor and no other external components are required. The LM334Z can provide a current output from 1 µA to 10 mA by adjusting the external resistor between the pin and the negative supply pin.
The TIP122 is a NPN Darlington transistor, commonly used for high-power switching and amplification applications.
Portable workstations are high-performance laptops that allow professionals to run applications such as photo and video editing, gaming, 3D rendering, CAD/CAM tasks and more. Such devices, equipped with power-hungry CPUs and GPUs, require a power supply unit (PSU) in the range of 300 W to 500 W.
The ULN2803ADWR is an application specific integrated circuit (IC) that is part of the ULN2803 series of high voltage, high current Darlington transistor arrays. It is typically used to interface between low level digital or microcontroller signals and high power devices such as relays, motors, solenoids, and lamps.
The MMBT2222A is a type of bipolar junction transistor (BJT) that belongs to the NPN (negative-positive-negative) category.
Over the past year, people have begun to realize the enormous power of AI and the innovation potential it can unleash, and the buzz around AI has been high, many of which will profoundly change the course of the technology industry and the entire world.
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The migration from internal combustion engine (ICE) to electric traction does not just demand more extensive power electronics but devices able to operate at voltages far higher than those used in the past.
The growing adoption of advanced medical devices has led to the design and utilization of a diverse range of complex medical equipment, both in hospital settings and for telecare at home.
An electric vehicle is not solely a means of transport with an electrified engine; rather, it is equipped with highly sophisticated peripherals along with refined electronics.
LVDS interface circuits can help designers overcome automotive lighting challenges related to bandwidth and signal integrity.
With the increasing number of connected devices in every household comes the challenge of managing wireless interference, especially in the 2.4GHz band. According to international professional services firm Deloitte, the average number of connected devices per home in 2022 is 22, and this number is expected to increase as consumers deploy more iot devices in their homes, from wireless sensors to security cameras to smart locks. It is important to ensure that all these connected devices can coexist in a crowded wireless network without problems with connectivity.
Driven by high-speed digital technology, the rapid development of various complex medical systems has also made many services in the medical field significantly improve in performance, accuracy and efficiency. Medical imaging systems play a vital role in early detection and diagnosis in various medical fields such as orthopedics, obstetrics, neurology, cardiology, etc.
Electronic waste (e-waste) is a pressing issue. Consumer electronics’ growth is great news for businesses, but as new hardware renders the old obsolete, it’s led to a rapidly expanding disposal problem.
Is AI the killer application that will enable widespread adoption of silicon photonics? One would think so, given the explosive growth in AI over the last couple of years driving the need for high-speed interconnections and higher bandwidths, and subsequently Ethernet optical transceivers.
Sustainable materials minimize non-renewable resources and decrease related emissions, resulting in a reduced carbon footprint.
LEO/MEO satellites have simplified worldwide internet access and enabled real-time Earth observation, but power management is a huge obstacle.
