Search Results for safe obt-2043mb pcb board
Leap On Board Transceivers | OBT | Optical Interconnect - Amphenol CS
SMALL, FAST AND POWER EFFICIENT. Amphenol's 300Gb/s Leap ® High-Speed Optical Module is faster, smaller, and more cost and power efficient than most conventional datacenter interconnects. Supports non-standard protocols in this range of datarates. Note CDR operational bit rate of 25-25.8Gb/s.
Leap | Products | Amphenol Aerospace
The LEAP is faster, smaller, more cost and power-efficient than most conventional card-edge datacenter interconnects and is capable of speeds of up to 25Gbps with 300Gbps of total through-put that requires only one square-inch of board space and 5.4W of power.
10140369-101LF | OBT-MODULES | Amphenol
Click on the Check Sample (if available) button to check the allowed sample quantity in the cart. You can also purchase additional quantity in the cart or buy directly using the Buy Now button below. The information below is for reference only. For more technical details, refer to product specification and application specification.
LEAP OBT Socket | Amphenol Active Optics Products
The LEAP® OBT socket has been designed to host the LEAP OBT optical modules (standard & rugged). The socket is soldered onto the PCB. The socket is soldered via the corner solder pads and the electrical interfaces consists of 225 BGA solder balls.
Leap® On-Board Transceiver - amphenol-aerospace.com
Amphenol AOP 300Gb/s Leap® High-Speed Optical Module is faster, smaller, more cost and power efficient than most conventional datacenter interconnects. *Transceiver is shown with attached optical cable. 101410369 electrical socket is not shown. Supports non-standard protocols in this range of datarates. Note CDR operational bit rate of 25-25.8Gb/s.
LEAP OBT 12-TRX 192G NRZ - RUGGED - Amphenol AOP
The LEAP® On-Board Transceiver is a rugged 12-channel duplex optical transceiver capable of running data-rates of up to 16Gbps per channel (192Gbps cumulative) on multi-mode fiber.
Products - Accessories - Amphenol Aerospace
Amphenol’s Integrated Solutions team can design and manufacture rugged DC/DC power supplies for all types of embedded systems applications. The LEAP® OBT socket has been designed to host the LEAP OBT optical modules (standard & rugged). The socket is soldered onto the PCB.
LEAP ON-BOARD TRANSCEIVER 300Gb/s High Speed Optical Module
§ Compatible with Amphenol socket § No through holes to connect transceiver – one side of board only § Easy to install § Two wire control and diagnostic interface § Allows for transceiver optimization and monitoring connection
Board-Level Connectors | Products - Amphenol
Amphenol SOCAPEX offers a wide range of board to board (PCB) & board to cable connectors. Our solutions cover different types of technologies using copper and/or fiber optic are proposed as high pin count connector or high speed solutions.
10-242047-59p | Amphenol Global Search | Amphenol
leap obt 12-trx 192g nrz - rugged. Contact: Amphenol AOP Marketing[email protected] Description: The LEAP® On-Board Transceiver is a rugged 12-channel duplex optical transceiver capable of running data-rates of up to 16Gbps per channel (192Gbps cumulative) on multi-mode fiber: Operating case temperature: (-40°C;+85°C)
radsok-smt-radsert-power-to-board-ptb-data-sheet-amphenol-industrial
RADSERTTM interconnects are low profile, single point, high current contacts that can be applied to a PCB or busbar. Also available with “Super Twist” technology for enhanced lead in and radial mis-alignment tolerance to accommodate multiple mating positions or blind mate applications.
Amphenol Invotec
Operating from facilities in Tamworth and Telford, our financial, human and technological resources make us a leading European player in the production of complex PCBs, and position us as an extension to our customers' engineering, design, manufacturing and logistics operations.
Leap® On-Board Transceiver - amphenol-cs.com
Amphenol AOP 300Gb/s Leap® High-Speed Optical Module is faster, smaller, more cost and power efficient than most conventional datacenter interconnects. *Transceiver is shown with attached optical cable. 101410369 electrical socket is not shown. Supports non-standard protocols in this range of datarates. Note CDR operational bit rate of 25-25.8Gb/s.
Repair and Maintenance Returning Equipment Contact Information Safety ...
standard safety precautions to avoid personal contact with this voltage. This symbol on the unit indicates that the user should refer to the operating instructions located in the manual. This symbol indicates safety, earth ground.
ENABLING THE ELECTRONICS REVOLUTION Leap® On-Board Transceiver
Leap®On-Board Transceiver Evaluation Board w/ GUI Design-in support: • Simulation models available (under NDA) • PRBS generator/checker integrated Full documentation available: • Design guide • Application Notes OBT Evaluation Support
Printed Circuits | Products - Amphenol
We custom design printed circuit boards (PCBs), rigid-flex assemblies, flex circuits, radio frequency (RF), backplane assemblies, and many others for high-speed, high-complexity and high-reliability system solutions.
Board-to-Board RF Connectors - Amphenol RF
The P-SMP connector series is a board-to-board solution for RF applications requiring high power. With a minimum board spacing of 12.6 mm, the three-piece design allows maximum flexibility for high-density board spacing.
Breakaway Safety Cables | PCB Piezotronics
Designed to interface directly with handheld data collectors and to withstand the harshest industrial environments, these safety connectors help prevent accidents involving portable data collector cables.
PSD-0089 Product Safety Datasheet - 4-20mA PCB for EC4 Sensors
Take care when wiring up the connector leads to avoid applying incorrect voltages to the pins on the PCB. Although this would not produce a hazardous situation, some damage could be caused to the circuitry of the PCB.
Understanding Safety Integrity Levels - PCB
Functional Safety of Electrical/Electronic/Programmable Electronic Safety-Related Systems. The standard lays out a safety life cycle that can be divided into two major phases: Analysis of unmitigated hazards and their resulting risk levels. Implementation of mitigation solutions (ie.