Interconnect cables play an important role in electronics testing. As high-speed signal communications continue to advance, cabling solutions will need to keep up with high-speed, multiport testing.

Analyzing high speed datacom interfaces is an important task and ensures signal integrity. One major challenge of this analysis is the connection between the physical interface and the oscilloscope, ...

The rapid spread of cloud computing services and smartphones is causing a steady increase in network transmission capacities, so much so that the momentary traffic at some Internet exchanges is ...

With the clean transmission of high-speed signals a key priority in today’s electronic products and systems, design engineers continue to face the task of designing and implementing interconnection ...

Signal integrity is a critical design consideration in modern electronic systems, particularly those that depend on high-speed interconnects. As data rates climb and interconnect geometries become ...

Amphenol states that its OverPass cable system provides superior signal-integrity performance combined with greater design control. The straightforward connector concept allows for high-speed signal ...

Maintaining the quality and reliability of electrical signals as they travel through interconnects is proving to be much more challenging with chiplets and advanced packaging than in monolithic SoCs ...

Many of today’s computing and communications applications demand almost unimaginable processing capability and high-bandwidth access to memory. For example, many data center systems using high-end ...

Many noise sources can plague high-speed radio-frequency (RF) analog signal chains, making design considerations that much more challenging. Both megahertz and sub-terahertz sampling-rate converters ...

TOKYO — July 22, 2024 — NTT Corporation and The University of Tokyo announced they have generated and controlled graphene plasmon wave packets with a pulse width of 1.2 picoseconds. They said this ...

A Small-Satellite-Mounted 256-Element Ka-Band CMOS Phased-Array Transmitter Achieving 63.8dBm EIRP Under 26.6W Power Consumption Using Single/Dual Circular Polarization Active Coupler, 2023 IEEE ...