Description
hardware flow control. It is an ideal choice in the field of industrial automation.
ABB launches IRB 1100 robot, its most compact and lightweight six-axis robot yet
At the 2018 China International Industry Fair in Shanghai, ABB launched the IRB 1100 robot, ABB’s most compact and lightweight robot to date, and is part of its expanding small
parts assembly solutions. The IRB 1100 is designed to meet the unique challenges of semiconductor, pharmaceutical and electronics manufacturers who require high speed, high
efficiency and high quality processing of small and fragile parts.
– Takt time shortened by 35%, achieving higher production efficiency
– Leading positioning repeatability for high-quality manufacturing
– The floor space is reduced by 10%, the weight is reduced by more than 20%, and the installation is flexible and convenient.
The IRB 1100 improves productivity by reducing cycle times by 35% and offers leading repeat positioning accuracy. IRB 1100 is equipped with ABB”s new OmniCore™ controller,
which has advanced motion control functions and is ideal for rapid assembly, pick and place, and material handling.
Flexibility is another important consideration in small parts assembly, as manufacturers increasingly need to cope with the production needs of low-volume, high-variety, and
shortening product life cycles. Compared with previous generations of robots, the IRB 1100 has a footprint that is 10% smaller, a weight that is 20% lighter, and a
thinner body that can be flexibly deployed in narrow spaces and existing automated production lines. In addition to increasing flexibility in production space layout, the IRB 1100
also enables more flexible heavy-duty operations with complex tools or end effectors.
Ni Side, global president of ABB”s Robotics business unit, said: “Today, manufacturers need to explore any value creation opportunities from their automation systems and
even factory space. IRB 1100 supports this and creates opportunities to improve every inch of the production process. efficiency. It is ABB’s most compact and lightweight robot to
date and an important part of our small parts assembly solutions.”
IRB 1100 is one of ABB”s first new era robot products developed based on a new flexible design concept. This design concept will help develop robots with more diverse sizes
and versions and become an integral part of customized solutions. The IRB 1100 will be certified for cleanroom applications in the future and will be available in two models: one
with a load capacity of 4kg and a working range of 475mm; the other with a load capacity of 4kg and a working range of 580mm.
ABB”s cost-effective equipment monitoring system uses Windows Embedded Server
ABB is one of the world”s top 500 companies. It occupies a leading position in the electric power field and the production of power transmission/transformation
equipment. It is especially powerful in power automation protection, telemetry, remote sensing, and real-time signal control of lines and front-end equipment.
ABB”s SYS 600C is a host-based solution based on MicroSCADA Pro (data acquisition and supervisory control system) technology for production process control
and scheduling automation. It uses Microsoft Windows Embedded Server as the technology platform and can monitor and control on-site operating equipment to achieve
data collection, equipment control, measurement, parameter adjustment and signal alarm. This solution can improve the reliability
, safety and economic benefits of power grid operation, and realize the automation and modernization of power dispatching.
At present, MicroSCADA Pro technology is mature, and its main product, Compact SCADA SYS 600C, is widely recognized. Behind the success, Microsoft”s
Windows Server 2003 R2 For Embedded Systems plays an irreplaceable role. Compact SCADA SYS 600C is currently protecting China’s power grid.
Needs and Challenges
As the world”s leading provider of protection and control solutions, it is particularly important to solve the domestic power grid transmission and
distribution capacity, optimize the use value of resources, and maximize the distribution network. This is what ABB needs to consider first. . Under this premise, ABB
has worked closely with China Power Grid to develop a power automation protection system to facilitate deployment in power grid centers in various districts
to ensure the highest security and stability.
However, during the system architecture design and development process, ABB found that it needed to focus on solving the following challenges:
* Stable and reliable
Stability and Reliability Since the power industry faces special circumstances, the priority is to solve the problem of
stable operation of the system. Therefore, the system needs to take into account the power system operation process and conduct
overall optimization and debugging, which includes optimizing and building the system kernel, operating system, permission control and other levels.
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MC-TDOD63 HONEYWELL 51309154-275 MU-TDOD63 Digital Output 31-200 Vdc Solid-State
MC-TDOD54 HONEYWELL MU-TDOD54 Digital Output 3-30 Vdc Solid-State FTA
MC-TDOD53 HONEYWELL 51304650-250 Digital Output FTA SS relay
MC-TDOA53 51304648-275 HONEYWELL MU-TDOA53 Digital Output
MC-TDIY62 HONEYWELL MU-TDIY62 Digital Input 24 Vdc FTA
MC-TDID72 HONEYWELL MU-TDIA62 Digital Input 24 Vdc FTA
MC-TDID52 HONEYWELL MU-TDIA72 Digital Input 24 Vdc FTA
MC-TDIA72 HONEYWELL MU-TDIA72 Digital Input lsolated 120 Vac FTA -Packaged
MC-TDIA52 HONEYWELL Digital Input lsolated 120 Vac FTA MU-TDIA52
MC-TAOY53 HONEYWELL MU-TAOY52 Analog Output 16 FTA
MC-TAOY52 HONEYWELL Analog Output 16 FTA MU-TAOY52
MC-TAOX52 HONEYWELL Analog Output FTA MU-TAOX52
MC-TPIX52 HONEYWELL Pulse Input FTA MU-TPIX52
MC-TSTX53 HONEYWELL Smart Transmitter Interface FTA for Redundancy MU-TSTX53
MC-TAIH53 HONEYWELL High Level Analog Input FTA MU-TAIH53
Honeywell MC-TSTX13 Smart Transmitter Interface FTA for Redundancy MU-TSTX13
MC-TSTX03 Smart Transmitter Interface FTA MU-TSTX03
Honeywell MC-TAIH13 High Level Analog Input FTA for Redundancy MU-TAIH13
MC-TAIH03 High Level Analog Input FTA MU-TAIH03
Honeywell MC-TAIH12 High Level Analog Input MU-TAIH12
MC-TAIH02 High Level Analog Input MU-TAIH02
Honeywell MU-KFTA05 FTA I/O Cable 5M
MC-ILDX03 Long Distance I/O Link Extender Pair MU-ILDX03
Honeywell MC-IOLX02 I/O Link Extender Pair−Remote Location MU-IOLX02
MC-IOLM02 I/O Link Extender Pair−Main Location MU-IOLM02 51304419-150
Honeywell MU-PFPX01 Blank Filler Plate for I/O Slot
Honeywell MC-PDOY22 Digital Output 32 Processor MU-PDOY22 80363975-150
Honeywell MC-PDOX02 Digital Output Processor MU-PDOX02
Honeywell MC-PDIY22 Digital Input 24 Vdc Processor 80363972-150 MU-PDIY22
Honeywell MC-PDIS12 Digital input processor MU-PDIS12
Honeywell MC-PDIX02 Digital Input Processor MU-PDIX02
Honeywell MC-PAOX03 Analog Output Processor 80363969-150
Honeywell MC-PAOX03 Analog Output Processor
MC-TAIH52 HONEYWELL High Level Analog Input/STI FTA
honeywell MC-PPIX02 Pulse Input Processor (8 Inputs) MU-PPIX02
honeywell MC-PRHM01Remote Hardened Multiplexer IOP MU-PRHM01
honeywell MC-PAIL02 Analog input processor 51304362-350
honeywell MC-PLAM02 Analog Input Multiplexer Processor MU-PLAM02
Honeywell MC-PSIM11 Serial Interface Processor (16 Points/Port) 51304362-350
honeywell MC-PSDX02 51304362-250 Output 8-Point Processor MU-PSDX02
honeywell Processor 16 Inputs MC-PSTX03 51304516-250
honeywell MC-PDIX02 51304362-150 Analog input module
SAIA PCD3.W315 Number of inputs (channels)
DELTA TAU PMAC-2-ACC8T Control board
Automotion ALC12DE-010-1312 Automatic motion servo amplifier
PTM PSMU-350-3 Drive sensor
PROSOFT MVI56E-MNET Network interface module MVI56-PDPS
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