Silanna Semiconductor Adds All-Silicon 45W Option to Family of Ultra-Efficient Production-Ready Fast Charger Reference Designs
Active Clamp Flyback (ACF) design combines peak efficiency above 92% with no-load power consumption below 20mW
Active Clamp Flyback (ACF) design combines peak efficiency above 92% with no-load power consumption below 20mW
Infineon Technologies AG (FSE: IFX / OTCQX: IFNNY) is launching the new EDT2 IGBTs in…
Community members are encouraged to experiment with Maxim Integrated MAX40080 Current Sense Amplifier
Committed to setting new technology standards in discrete power MOSFET technologies, Infineon Technologies AG (FSE:…
Partnership with European technology specialist covering sales, technical support, and logistics
Switchtec™ Gen 4 PCIe switches provide low-latency, low-power, and high-performance connectivity for ADAS designs
Class D audio power amplifiers offer a combination of small size, low heat dissipation, high…
We are experiencing an explosive growth in demand for bandwidth that pushes the carrier frequencies to multiple decades of gigahertz. At these extremely high frequencies, consumers can enjoy wider bandwidths without the fear of overcrowding the spectrum. However, as the frequencies increase, the instrumentation solutions targeting these devices and frequencies can become extremely complex. This stems from the need for an order of magnitude better performance in instrumentation solutions to prevent impairing the device under test. In this article, we will review several methods for low phase noise signal generation. We will demonstrate the advantages and disadvantages of these methods and introduce the translation loop device, which takes the best of all frequency generation methods without their complexity to enable ultralow phase noise signal generation.
Versatile Transimpedance Amplifier
Würth Elektronik hosts the virtual “WE meet @ digital days 2022” conference