Search Results for wireless technolgy computer mean
About PCTEL | PCTEL
PCTEL, Inc., an Amphenol company, is a leading global provider of wireless technology solutions, including purpose-built Industrial IoT devices, antenna systems, and test and measurement products.
MXflex® Scanning Receiver | Test & Measurement - PCTEL
Designed for benchmarking and co-managing multiple wireless network technologies across sub-6 GHz spectrum, it features concurrent scanning for fast multi-technology and multi-channel measurements. View MX flex ® Brochure
Understanding Wi-Fi 6E Technology and The Future of Wireless Connectivity
Wi-Fi 6, otherwise known as 802.11ax Wi-Fi, and AX Wi-Fi, is the next-generation industry standard for Wi-Fi technology. Its systems and proliferation will be dependent on the interconnectivity provided by cable assemblies and radio frequency (RF) connectors such as those produced by Amphenol.
PCTEL | Antennas, Industrial IoT Devices, Testing Solutions
PCTEL is a global provider of purpose-built antennas, Industrial IoT devices, and network test and measurement solutions that enable wireless connectivity.
What Does Bandpass Mean? Definition & Modern Applications - Q Microwave
But what exactly does "bandpass" mean? The “bandpass” only allows the right frequencies to pass, ensuring clear and crisp communications. Typically, when engineers refer to "bandpass," it is followed by the word "filters," denoting the devices responsible for the selective frequency filtration.
Glossary of RF Terms - Amphenol RF
(1) In a local computer network, a branching broadcast communications system for carrying digital data packets among locally distributed computing stations. (2) A two-level, baseband, local-area data communications network developed by Xerox and supported by DEC and Intel, among others.
M4 and Mx Computer System - Marport
The M4 is our heavyweight acoustic receiver, combining the latest digital signal processing with the smartest software. This means that true multifunction channel operation is available and there is no compromise between transmission range and signal detection.
Amphenol
Amphenol is one of the world’s largest providers of high-technology interconnect, sensor and antenna solutions. Our products Enable the Electronics Revolution across virtually every end market including Automotive, Broadband Communications, Commercial Aerospace, Defense, Industrial, Information Technology and Data Communications, Mobile ...
IT Datacom | Markets - Amphenol
With our industry-leading high-speed, power and fiber optic technologies, together with superior simulation and testing capability and cost-effectiveness, Amphenol is a market leader in interconnect development for the information technology (IT) and datacom market.
Industrial Automation | Applications | Connectors & Cable Solutions ...
Industrial automation involves the integration of advanced technologies to automate and simplify complex manufacturing processes. This approach is transforming factories with high-performance industrial computers, smart robotics, and reliable machine-to-machine communication.
Optical Transceivers | Fiber Optic Transceivers | Form Factors
An optical transceiver is a single unit with the functionality of both a transmitter and receiver. Through fiber optic technology, in the form of pulses of light, optical transceivers convert the electrical signal from a switch or router to an optical signal that can be transmitted and received.
In-Building & Enterprise Wireless | Solutions - PCTEL
Optimize WiFi, cellular and IoT coverage for challenging in-building applications with the right antenna solutions. Tune, troubleshoot and optimize wireless network performance for enhanced operational connectivity. Enable reliable wireless performance with purpose-built antennas built to withstand extreme weather conditions.
High-Performance Industrial Computing with CompactPCI Serial - Amphenol CS
Unlike previous generations, CompactPCI serial enables concurrent support of PCI Express Gen 4 (up to 16 Gb/s), SATA/SAS (up to 6 Gb/s), USB 2.0/3.0 and 10 Gb Ethernet. CompactPCI serial architectures are used in rugged applications across various fields like telecom, transportation, medical, military, industry, and instrumentation.
User Guide MANUAL - Marport
Read this section to get a basic knowledge of your M6 system. The M6 Pro system works with an Apple Mac mini, an Mx computer and two Mx receivers. The Mx computer processes the signal and displays the data on a screen connected to the Mac. You can configure the sensors and display data to suit your needs.
Basics of Fiber Optics
In order to comprehend how fiber optic applications work, it is important to understand the components of a fiber optic link. Simplistically, there are four main components in a fiber optic link (Figure 1). The transmitter converts the electrical signals to optical.
TEDS Sensors and technology - Introduction - PCB
Learn about TEDS Sensors and theory behind the Transducer Electronic Data Sheets. View TEDS equipped Impact Hammers, Impedance Heads, Single Axis & Triaxial Accelerometers and Microphones from PCB Piezotronics.
High Speed Connectors | Products - Amphenol
Combines our extensive legacy of Mil-Spec connectors with the latest in high-speed technology, providing both a durable and high-bandwidth system that supports data rates up to 56 Gbps in a lightweight, aluminum MIL-DTL-38999 shell.
Whip & Aerial WiFi/Bluetooth Antennas - PCTEL
These high performance, durable, and super flexible WiFi/Bluetooth/BLE antennas support critical communications, Industrial IoT, intelligent transportation, smart cities, FirstNet, in-building and enterprise wireless applications.
Artificial Intelligence Machine Learning | AI / ML | Amphenol
Though Neural networks, which form the foundation for Machine Learning (ML) or Deep Learning in Artificial Intelligence (AI), were projected decades ago, the computing power to put them into practice was created recently. Learn more about how Amphenol is enabling this technology revolution and providing you with solutions.
Signal Conditioning Basics | PCB Piezotronics
Recent developments in state-of-the-art integrated circuit technology have made possible great advances in piezoelectric sensor instrumentation. The intent of this guide is to enhance the usefulness of today's advanced sensor concepts by acquainting the user with the advantages, limitations and basic theory of sensor signal conditioning.