World’s smallest SD card level translator from Nexperia has 40% smaller footprint
SD 3.0-compliant translator features integrated auto-direction control, EMI filter and IEC 61000-4-2 ESD protection
SD 3.0-compliant translator features integrated auto-direction control, EMI filter and IEC 61000-4-2 ESD protection
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The winning SUV featuring as highlight of the “Driving Toward Tomorrow” exhibition series
Quantum computing is expected to have a significant impact on cybersecurity, specifically on the confidentiality…
Switching to 200V and 0.8A with bandwidths of 1.6GHz and 700MHz
Infineon Technologies AG (FSE: IFX / OTCQX: IFNNY) is strengthening its commitment to the development…
Exsurgo’s Axon headset, designed for home use, is undergoing a clinical trial. Once it hits the market, it could have life changing effects on millions.
Highly flexible, lightweight and very wide operating temperature range
Mouser Electronics, Inc., the authorized global distributor with the newest semiconductors and electronic components, announces…
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.