Description
3BHL000986P0006 Модуль ввода / вывода ABB
Швейцария, и входит в десятку крупнейших швейцарских транснациональных корпораций.3BHL000986P0006
химическая, нефтехимическая, фармацевтическая, целлюлозно – бумажная, нефтепереработка; Оборудование приборов: электронные приборы, телевизоры и оборудование для передачи данных,
генераторы, гидротехнические сооружения; Каналы связи: интегрированные системы, системы сбора и распространения;3BHL000986P0006Строительная промышленность: коммерческое и промышленное строительство.
Many emerging industry application cases are designed to be highly latency-sensitive, but today”s 4G and 5G networks cannot
guarantee sustained and stable low latency and high reliability. This new solution is designed to meet this need and deliver on all the promises of 5G.
5G’s leading use cases in time-sensitive applications since 2017
Ericsson is committed to trialling 5G time-critical use cases with customers and industry partners, including BT and Hyperbat,
Einride and Sweden Telecom, Boliden, ABB, Audi, Fraunhofer IPT DT and Rockwell.
Recently, Ericsson cooperated with Deutsche Telekom and Telstra to successfully demonstrate the advantages of L4S (low
latency, low loss, scalable throughput) technology in reducing the latency of interactive cloud games. L4S is one of the new f
eatures in the Time-Critical Communications toolbox. In addition, Ericsson and MediaTek reached a new milestone and proved
that 5G can provide sustained low latency of 1 millisecond and 99.99% reliability in both uplink and downlink in the millimeter wave band.
Tomohiro Sekiwa, Executive Director and Chief Network Officer of SoftBank, said: “We believe “time-critical communications” are
key to realizing the full potential of 5G. This solution will revolutionize industries such as automotive and transportation. With reliable,
sustained low-time With extended connectivity, 5G can also significantly improve public health and safety, transport efficiency and increase the sustainability of the transport industry.”
Channa Seneviratne, director of technology development and solutions at Telstra, said: “We have been working with our technology
partner Ericsson to continuously improve the customer experience through enhanced network capabilities. “Time-critical communications” tools such as
L4S provide sustained low latency performance, which is critical for applications such as real-time video, AR/VR and cloud gaming. ”
JS Pan, general manager of wireless systems and partnerships at MediaTek, said: “Together with Ericsson, we have demonstrated that 5G can
deliver sustained low latency and high reliability in both uplink and downlink. This key milestone is proof that 5G The most demanding and delay-sensitive
applications can be implemented, such as real-time control of industrial automation systems.”
3BDH000741R1 ABB Rectifier power supply panel
CP450-T-ETH ABB Control Panel 10.4” TFT Touc
1SNA684252R0200 ABB Serial Data Converter
81001-451-61-R Allen-Bradley Silicon controlled inverter module
81001-524-51-R Allen-Bradley Silicon controlled inverter module
81001-524-53-R Allen-Bradley Silicon controlled inverter module
81001-503-54-R Allen-Bradley Silicon controlled inverter module
81001-451-61-R Allen-Bradley Silicon controlled inverter module
81001-614-56-R Allen-Bradley Silicon controlled inverter module
81001-503-53-R Allen-Bradley Silicon controlled inverter module
81001-717-02-R Allen-Bradley Silicon controlled inverter module
81001-717-01-R Allen-Bradley Silicon controlled inverter module
81001-717-03-R Allen-Bradley Silicon controlled inverter module
81001-717-04-R Allen-Bradley Silicon controlled inverter module
81001-717-05-R Allen-Bradley Silicon controlled inverter module
81001-938-01-R Allen-Bradley Silicon controlled inverter module
81001-956-51-R Allen-Bradley Silicon controlled inverter module
81001-956-56-R Allen-Bradley Silicon controlled inverter module
81001-956-52-R Allen-Bradley Silicon controlled inverter module
81001-956-55-R Allen-Bradley Silicon controlled inverter module
81001-956-54-R Allen-Bradley Silicon controlled inverter module
81001-956-60-R Allen-Bradley Silicon controlled inverter module
81001-956-59-R Allen-Bradley Silicon controlled inverter module
81001-956-53-R Allen-Bradley Silicon controlled inverter module
81001-956-64-R Allen-Bradley Silicon controlled inverter module
81001-355-73-R Allen-Bradley Silicon controlled inverter module
SYHNC100-NIB-24-P-D-E23-A012 R900978416 Amplifier Technical support
SYHNC100-NIB-2X/W-24-P-D-E23-A012 R900978416 Controller Ready in 2022
81001-373-51-R Allen-Bradley Silicon controlled inverter module
SYHNC100-NIB-23/W-24-P-D-E23-A012 R900978416 Controller Ready in 2022
81001-410-51-R Allen-Bradley Silicon controlled inverter module
81001-410-52-R Allen-Bradley Silicon controlled inverter module
HSZ10-26916-AA/G24N9K4M01 R901025684 controller ready in 2022
4WRSE10V80-32/G24K0/A1V-695 R900247749 R900842748-K controller
4WE6Y62/EG24N9K4 R900561276 amplifier technical support
81001-410-56-R Allen-Bradley Silicon controlled inverter module
81001-414-01-R Allen-Bradley Silicon controlled inverter module
81001-410-54-R Allen-Bradley Silicon controlled inverter module
81001-436-55-R Allen-Bradley Silicon controlled inverter module
81001-448-52-R Allen-Bradley Silicon controlled inverter module
81001-436-56-R Allen-Bradley Silicon controlled inverter module
81001-449-07-R Allen-Bradley Silicon controlled inverter module
81001-451-72-R Allen-Bradley Silicon controlled inverter module
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