Description
IS215UCVGH1A GE Steam Turbine System
высотой 3U, расположенный в раме управления под DSPX.
волоконно – оптический разъем на передней панели и передаются в модуль обнаружения заземления.
ABB: Запасные части для промышленных роботов серии DSQC, Bailey INFI 90, IGCT, например: 5SHY6545L0001 AC1027001R0101 5SXE10 – 0181, 5SHY3545 L0009, 5SHI3545L0010 3BHB013088 R0001 3BHE009681R0101 GVC750BE101, PM866, PM861K01, PM864, PM510V16, PPD512, PPPD113, PP836A, P865A, 877, PPP881, PPPP885, PPSL500000 4 3BHL00390P0104 5SGY35L4510 и т.д.
General Electric: запасные части, такие как модули, карты и приводы. Например: VMVME – 7807, VMVME – 7750, WES532 – 111, UR6UH, SR469 – P5 – HI – A20, IS230SRTDH2A, IS220PPDAH1B, IS215UCVEH2A, IC698CPE010, IS200SRTDH2ACB и т.д.
Система Bently Nevada: 350 / 3300 / 1900, предохранительные зонды и т.д., например: 3500 / 22M, 3500 / 32, 3500 / 15, 3500 / 23500 / 42M, 1900 / 27 и т.д.
Системы Invis Foxboro: Серия I / A, управление последовательностью FBM, трапециевидное логическое управление, обработка отзыва событий, DAC,
обработка входных / выходных сигналов, передача и обработка данных, такие как FCP270 и FCP280, P0904HA, E69F – TI2 – S, FBM230 / P0926GU, FEM100 / P0973CA и т.д.
Invis Triconex: Модуль питания, модуль CPU, модуль связи, модуль ввода – вывода, например 300830937214351B, 3805E, 831235114355X и т.д.
Вудворд: контроллер местоположения SPC, цифровой контроллер PEAK150, например 8521 – 0312 UG – 10D, 9907 – 149, 9907 – 162, 9907 – 164, 9907 – 167, TG – 13 (8516 – 038), 8440 – 1713 / D, 9907 – 018 2301A, 5466 – 258, 8200 – 226 и т.д.
Hima: модули безопасности, такие как F8650E, F8652X, F8627X, F8678X, F3236, F6217, F6214, Z7138, F8651X, F8650X и т.д.
Honeywell: Все платы DCS, модули, процессоры, такие как: CC – MCAR01, CC – PAIH01, CC – PAIH02, CC – PAIH51, CC – PAIX02, CC – PAON01, CC – PCF901, TC – CR014, TC – PD011, CC – PCNT02 и т.д.
Motorola: серии MVME162, MVME167, MVME172, MVME177, такие как MVME5100, MVME5500 – 0163, VME172PA – 652SE, VME162PA – 344SE – 2G и другие.
Xycom: I / O, платы VME и процессоры, такие как XVME – 530, XVME – 674, XVME – 957, XVME – 976 и т.д.
Коул Морган: Сервоприводы и двигатели, такие как S72402 – NANA, S6201 – 550, S20330 – SRS, CB06551 / PRD – B040SSIB – 63 и т. Д.
Bosch / Luxer / Indramat: модуль ввода / вывода, контроллер PLC, приводной модуль, MSK060C – 0600 – NN – S1 – UP1 – NNN, VT2000 – 52 / R900033828, MHD041B – 144 – PG1 – UN и т.д.
According to reports, ABB”s technical expertise and experience in many industries will be combined with Microsoft”s Azure intelligent cloud system and B2B
engineering capabilities to create greater value for customers. Combined with ABB”s more than 70 million connected devices installed globally and more than
70,000 running control systems, ABB and Microsoft will join forces to create one of the world”s largest IIoT industrial cloud platforms.
It is worth noting that IoT expert Guido Jouret (formerly general manager of Cisco’s IoT department) became the group’s chief digital officer on October 1, 2016.
This marks that ABB is accelerating digital transformation and comprehensively building a new “Internet of Things+” ecosystem. ABB also hopes to obtain higher
profits from this, and has proposed a financial target for 2015-2020 of pre-tax profit growth of 11%-16%.
FANUC
FANUC recently established the IoT platform Fanuc Intelligent Edge Link and Drive (FIELD), which uses NVIDIA artificial intelligence system. FIELD can realize the
connection of machine tools, robots, peripheral equipment and sensors in the automation system and provide advanced data analysis to improve the production quality,
efficiency, flexibility and equipment reliability in the production process – thereby improving the overall efficiency of the equipment ( OEE) and promote the improvement of production profits.
The system can also improve robot productivity through artificial intelligence and bring autonomous learning capabilities to automated factory robots around the
world. FANUC will use a series of GPUs and deep learning software designed and produced by NVIDIA to enable AI artificial intelligence to be used in clouds, data centers
and embedded devices.
When talking about the cooperation with FANUC, NVIDIA co-founder and CEO Jensen Huang said that the era of AI artificial intelligence has officially arrived.
Through the deep learning function of GPU, it will stimulate a
new wave of software learning and machine inference calculations. The most exciting of these is the ability of robots to understand their surroundings and
interact with humans. NVIDIA is very happy to work with FANUC, the global leader in automated factories and robots, to build intelligent machines to benefit the future of mankind.
It is reported that FIELD continues the success of the existing Fanuc ZDT (zero downtime function), which effectively combines Cisco cloud technology,
IoT data collection software and point-to-point security. After connecting the robot through the use of an industrial Ethernet switch, it is then connected to Cisco”s UCS server – the system runs
based on FANUC and Cisco”s ZDT data collection software. Automotive industry users can immediately realize reductions in downtime and cost savings after using the system.
FIELD provides users and application developers with advanced machine learning and artificial intelligence capabilities and brings manufacturing to
new heights of productivity and efficiency. Currently, FANUC has applied these new technologies to robotic bulk picking, production anomaly detection and fault
prediction. Because FIELD combines artificial intelligence and cutting-edge computer technology, distributed learning is possible. The operating data of robots and
equipment are processed in real time on the network,
which also enables more intelligent coordination of production between various equipment, making complex production coordination that was previously difficult to
achieve easily completed.
In fact, many years ago, FANUC began to cooperate with Cisco to carry out the “non-stop” zero downTIme plan. In the plan, FANUC and Cisco will join forces to
build an Internet of Things system that will allow FANUC to supervise
every robot in the factory, predict abnormal conditions of the robots, and send more technicians to repair the robots before problems occur. So far, the program has
tested 2,500 robots, including FANUC”s major customer GM General Motors. According to FANUC, the test program saved customers $38 million.
YASKAWA
After talking so much about the Internet of Things strategy of the industrial robot giant, let’s take a break here at Yaskawa and talk about the past.
Midea and KUKA have officially received their marriage certificates, but you must know that as early as August 2015, Midea announced its
robot strategy and established two joint venture subsidiaries with Japan”s Yaskawa Electric.
The two subsidiaries are respectively for industrial robots and service robots, including Guangdong Yaskawa Midea Industrial Robot Co.
, Ltd. (Midea”s equity accounted for 49%) and Guangdong Midea Yaskawa Service Robot Co., Ltd. (Midea”s equity accounted for 60%).
This shows that as early as 2015, Midea was actually “in love” with Yaskawa, but by 2016, she married Kuka.
UF C719 AE 3BHB003041R0101 I/O CONTROL BOARD IOEC
UF C721 BE101 3BHE021889R0101 ADCVI-Board Coat
UFC911B106 3BHE037864R0106 ABB
UF C760 BE43 3BHE004573R0043 ABB MAIN CIRC. INTER.
U FC760 BE42 3BHE004573R0042 ABB CONVERTER CONTROL
UFC762AE101 3BHE006412R0101 ABB CVMI
PP C381 CE01 ABB CONVERTER CONTROL PPC381CE01
3BHE007599R0101 ABB CONVERTER CONTROL
UA A326 AE04 ABB UAA326AE04 HIEE300024R0004 Input Output Unit
PP B022 CE ABB PPB022CE HIEE300550R1 PSR CONTROLLER
UPC090AE01 HIEE300661R0001 ABB FIELDBUS COUPL
PP B022 DE01 ABB PPB022DE01 PSR CONTROLLER
LD MUB-01 ABB LDMUB-01 UNIT BOARD
UB C717 AE01 ABB UBC717AE01 OVERVOLTAGE MEASU OVVP
UNS 0017A-P ABB UNS0017A-P HIEE305106R0001 FIRING UNIT
LD CCB-01 ABB LDCCB-01 ONVERTER CONTROL BOARD
PP C380 AE01 ABB PPC380AE01
PP C902 AE01 ABB PPC902AE01 processor fieldbus
PP C322 AE ABB PC BOARD PPC322 AE
PP C380 AE102 ABB PPC380AE102 APPLIC.& MOTOR
PP C902 AE101 ABB PPC902AE101
PP C380 AE ABB PPC380AE APPLIC.& MOTOR
PP C907 BE ABB PPC907BE APPLIC&MOTORCTRL
XV C767 AE102 ABB XV C767 AE102 3BHB007209R0102
PP C381 CE01 ABB CONVERTER CONTROL PPC381CE01
XV C724 A01 ABB XVC724A01 SHORT CIRCUIT DET VLSCD
XV C724 A02 ABB XVC724A02 SHORT CIRCUIT DET VLSCD Long Description:
XV C724 AE104 ABB XVC724AE104 VLSCD-BOARD 2k9V
XV C723 AE16 ABB CURRENT MEAS.SCAL XVC723AE16
XV C723 AE17 ABB XVC723AE17 URRENT MEAS.SCAL
XV C723 AE11 ABB CURRENT MEAS.SCAL XV C723 AE11
XV C723 AE12 ABB XVC723AE12 CURRENT MEAS.SCAL
XV C723 AE14 ABB CURRENT MEAS.SCAL XVC723AE14
XV C723 AE15 ABB XVC723AE15 CURRENT MEAS
XV C724 A03 ABB XVC724A03 SHORT CIRCUIT DET VLSCD
XV C769 AE101 ABB OEI-BOARD XVC769AE101
XV C768 AE102 ABB XVC768AE102 CURRENT MEAS.SCAL
XV C768 AE106 ABB XVC768AE106 CURRENT MEAS.SCAL
XV C768 AE105 ABB XVC768AE105 CURRENT MEAS. SCAL
XV C767 AE102 ABB XVC767AE102 module
XV C723 AE07 ABB XVC723AE07 CURRENT MEAS.SCAL
XV C768 AE11 ABB XV C768 AE11 SUBPRINT SCA
XV C722 AE016 ABB XVC722AE016 rectifier supervisi
XV C768 AE111 ABB XVC768AE111 SUBPRINT SCA
XV C768 AE113 ABB XVC768AE113 SUBPRINT SCA
XV C768 AE121 ABB XVC768AE121 BOARD (SUBPRINT)
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