Description
hardware flow control. It is an ideal choice in the field of industrial automation.
Comment: With product trends such as smartphones and smart hardware, demand in the semiconductor electronics industry has grown rapidly and has become one
of the main markets for robots. It is expected to soon exceed the demand in the automotive industry and become the dominant market for industrial robots. Xinsong”s
acquisition of FA Company, a subsidiary of Xinsheng, provides a bridge for the company to enter the semiconductor field and take a share of the largest application market for robots in the future.
Honda halts ASIMO humanoid robot development project
The research and development process of robots requires a lot of investment in money and manpower, especially in products with special functions. In July this year, Japanese
car manufacturer Honda stated that it would stop developing the humanoid robot ASIMO. As the world”s first humanoid robot, the product has completed its seventh iteration
and is already capable of running, jumping, climbing stairs, opening drinks, and kicking. It has many abilities including football and even dancing, being able to hear and
understand three people speaking at the same time, and interpret gestures and respond to various commands.
Although the research and development of the ASIMO project has stopped, the project retains a number of technologies that can be used in mobile robots and self-driving cars,
because many technologies in ASIMO are still world-leading. ASIMO has gone through a long period of research and development upgrades, but it is still far from commercial
application, and the price is difficult for users to accept. Honda finally chose to give up.
Comments: Technology innovation and research and development to real commercial applications need to cross many gaps. Currently, humanoid robots are still a difficult
problem to break through in commercial applications. In addition to pleasing the audience, humanoid robots are difficult to form real commercial value. At this stage, the market
needs products that meet the application needs of various industries, such as four- and six-axis industrial robots, collaborative robots, etc., so the robot R&D
department needs to make appropriate choices.
FANUC Robotics” new factory starts construction in Guangzhou
On March 28, Fanuc, a leading company in the global robotics industry, held a groundbreaking and opening ceremony for its new factory in Guangzhou Science City.
In order to meet the needs of the market, Shanghai Fanuc Co., Ltd. cooperated with the Guangzhou Development Zone to build a new factory in the Science City and
established a subsidiary, Guangzhou Fanuc Robot Co., Ltd. The new company has a registered capital of 150 million yuan and the company occupies an area of The area is
close to 40,000 square meters.
The construction of the new factory means that Fanuc will form two major formations in China: Shanghai Fanuc and Guangzhou Fanuc. Guangzhou will integrate
Fanuc”s resources in the south to form a South China base that integrates robot sales, display and training. . As a core area for intelligent equipment, Guangzhou is
committed to promoting the development of the intelligent manufacturing industry. This cooperation will further promote the intelligent transformation and upgrading of the
Pearl River Delta manufacturing industry.
Comment: China has become the world”s largest industrial robot market for five consecutive years. As a major manufacturing country in the world, it is
promoting the transformation of China”s manufacturing into China”s intelligent manufacturing, and at the same time, it has given birth to a huge robot market. Against this
background, domestic and foreign robot manufacturers are making plans one after another, and Fanuc”s investment in building new factories is also fully optimistic about the
Chinese robot market. In addition, the new factory in Guangzhou will make up for Shanghai Fanuc”s shortcomings in the south and further reduce the transportation costs of products.
China Southern Power Grid”s first self-developed substation inspection robot comes on duty
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169PLUS-120N-120 GE Multilin 169Plus relay
169PLUS-10C-120VAC GE Multilin 169Plus motor management relay
169-120N-120 GE Multilin 169Plus motor management relay
169PLUS-100N-125VDC GE Multilin Motor management relay
169-10C-120169-10C-120 GE relay
169-100P-120 GE Motor management relay
MMII-PD-MOD501-120 GE Motor protection system
DAPC100 3ASC25H203 ABB PC BOARD
MMII-PD-1-2-MOD600-120 GE Multilin Motor management relay
MMII-PD-1-2-240 GE Multilin MCC controller
MMII-PD-1-2-120 GE Multilin Display motor protection system
PMA323BE ABB PMA323BE HIEE300308R1 Control board module
PPA322B HIEE300016R2 HIEE400235R1 Control board module
UAC389AE02 ABB UAC389AE02 HIEE300888R0002 Control board module
CP451-50 Yokogawa CP451-50 processor module
GRBTU ABB GRBTU 3BSE013175R1 ABB Base
3BSE005461R1 ABB DSPC174 3BSE005461R1 Processor board
DSPC 174 ABB DSPC174 3BSE005461R1 Processor board
7DI140.70 B&R 7DI140.70 Digital input module
7AO352.70 B&R 7AO352.70 analog output module
7AI261.7 B&R 7AI261.7 Analog input module
IOP114 METSO IOP114 Input module
1747-L553/A AB 1747-L553/A SLC 5/05 processor
1747-L552/A ABB 1747-L552/A SLC 5/05 processor
216AB61 ABB 216AB61 HESG324013R100 Output module
216EA61b ABB 216EA61b HESG324015R1 Output module
PFEA112-65 ABB PFEA112-65 3BSE050091R65 tension electronic sensor
216NG63 ABB 216NG63 HESG441635R1 Output module
F404002A STEIN F404002A VISTA bus interface module
PM866AK01 ABB PM866K01 3BSE050198R1 Processor unit
3500/42M 176449-02 BENTLY 3500/42M 176449-02 Preprocessor/seismic monitor
REU615E_D ABB REU615E_D voltage protection measurement and control device
2713P-T12WD Alleny-Bradle 2713P-T12WD1 Analog resistance touch screen
5069-AENTR Allen-Bradley 5069-AENTR Compact 5000 Ethernet communication adapter
SPIET800 ABB SPIET800 Ethernet CIU transmission module
PR9376/010-021 EPRO PR9376/010-021 Speed sensor
PR 9376/010-01 EPRO Speed sensor PR9376/010-01
PR9376/010-001 EPRO PR9376/010-001 Speed sensor
PR9350/12 EPRO PR9350/12 Thermal expansion sensor
PR9350/08 EPRO PR9350/08 Thermal expansion sensor
PR9350/06 EPRO PR9350/06 Thermal expansion sensor
PR9350/04 EPRO PR9350/04 Thermal expansion sensor
PR9350/02 EPRO PR9350/02 Thermal expansion sensor
PR9350/01 EPRO PR9350/01 Thermal expansion sensor
MMS 6772 EPRO MMS6772 Dual current module
MMS 6771 EPRO MMS6771 Shaft vibration monitoring panel
MMS 3910/410-01 EPRO MMS3910/410-01 Dual current module
MMS 3910/311-32 EPRO MMS3910/311-32 Dual current module
MMS 3910/311-16 EPRO MMS3910/311-16 Rotational speed redundant module
MMS 3910/311-08 EPRO MMS3910/311-08 Dual current module
MMS 3910/311-04 EPRO MMS3910/311-04 Rotational speed redundant module
MMS3910/311-01 EPRO Speed direction module MMS3910/311-01
MMS3910/311-02 EPRO MMS3910/311-02 Limiting latching module
MMS 3311 EPRO MMS3311 speed transmitter
MMS 6822 EPRO MMS6822 Communication board
MMS 6831 EPRO Communication board MMS6831
MMS 6418 EPRO MMS6418 expansion monitoring board
MMS 6410 EPRO MMS6410 expansion monitoring board
MMS 6312 EPRO MMS6312 speed monitoring board
MMS 6310 EPRO MMS6310 Key phase monitoring board
MMS6253/TS EPRO MMS 6253/TS DAPS mother board
MMS 6250/D EPRO MMS6250/D Displacement plate
MMS6250 EPRO MMS 6250 Displacement plate
MMS6220 EPRO MMS6220 eccentric monitoring plate
MMS 6210 EPRO MMS6210 displacement monitoring plate
MMS 6140 EPRO MMS6140 vibration monitoring board
MMS 6110 EPRO Axial vibration monitoring board MMS6110
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