Description
hardware flow control. It is an ideal choice in the field of industrial automation.
Double-decker train uses ABB traction transformer for the first time
Rapid urbanization has brought about problems such as traffic congestion, air pollution and population expansion, forcing railway operators and infrastructure providers
to transport more passengers on already busy rail transit systems. One solution to this outstanding contradiction is to increase the passenger capacity of existing
transportation lines.
On July 22, 2011, ABB , the world”s leading power and automation technology group, recently announced that Bombardier designed and manufactured the world”s
first traction transformer that can be installed on the top of the locomotive for its new generation double-deck EMU train . This train can be used in commuter, regional
and intercity rail transit. The use of double-decker trains is a good way to increase passenger capacity. This type of train has the best car seat ratio planning, and the improved acceleration performance
of the train also effectively shortens the travel time between stations and expands the coverage of train services.
The latest Bombardier double-decker trains have an ABB traction transformer installed on the top. They adopt an extra-wide body and better seat planning. The
number of seats per meter of the body ranges from 5 to 5.8, providing more space for passengers. Compared with similar models currently on the market, Bombardier”s
new trains can carry 35% more passengers.
ABB and Bombardier have a long-standing relationship in the field of traction equipment for regional commuter trains, high-speed trains and railway locomotives.
The traction transformer converts the grid voltage from the power grid above the train into the lower voltage required by the train”s traction system, and delivers it to the train”s
driving equipment, as well as lighting, heating, ventilation systems, on-board LCD displays, information systems and other electrical system .
In order to ensure the continuity of railway transportation and the effectiveness and reliability of the highest level of instant power supply, ABB specially designed
traction transformers for OMNEO trains. Compared with the traction transformer on the single-layer SP AC IUM* EMU train provided by Bombardier for the Francilien line
in the Paris region of France , the power supply capacity of the new transformer is increased by 25%. To save space, the roof-mounted traction system combines the
separate cooling systems for the converter and transformer. This design reduces the number of fans while reducing cost
and equipment weight. In addition, in order to save space and facilitate equipment maintenance and control, the transformer will be installed directly on the top channel
of the vehicle.
Bombardier worked with ABB to complete the design work, and the cabin baffles were installed on the inverter , cooling system and transformer to ensure that these
components fit perfectly into the arc-shaped roof and are difficult to see from the outside after installation. In order to solve the problem of the high center of gravity of the
double-decker train carriage, the transformer has also been designed accordingly to evenly distribute the weight of the equipment.
Swiss ABB will build the largest solar power plant in Northern Europe
Swiss power and automation technology group ABB announced on August 11 that it has built the largest solar power station in Northern Europe at its
low-voltage AC drive plant in Finland . The total investment in the entire solar power station project is approximately 500,000 euros, part of which comes from
the Finnish government. renewable energy investment fund.
ABB Finland”s low-voltage AC transmission plant is located in Helsinki. This solar power station is located on the roof of the factory and has a power
of 181 kilowatts. The solar power generated is mainly used to charge the factory”s forklift truck batteries and reduce the peak load of the factory”s electricity consumption.
Antti Suontausta, Senior Vice President of ABB”s low-voltage AC drives business, said: “This solar power generation system fully demonstrates the
benefits of distributed power generation near power consumption areas. Solar power generation can bring high added value to users, especially for
commercial and industrial applications . For buildings, solar power generation can reduce the building’s peak power load.”
Finland”s sunshine is not very abundant, but this solar power station can take full advantage of the region”s long sunshine hours in summer. It is
expected to generate 160,000 kilowatt hours of electricity per year, which is equivalent to the annual use of 30 local households that do not use electric
heating equipment. power. This solar power will be directly integrated into the factory power grid to charge the forklift trucks in the factory, and the excess
power can also be used by other equipment.
The solar power station uses ABB”s latest string inverters and central inverters, which are designed and produced by ABB”s transmission plant in
Helsinki. This is their first application in Finland. ABB solar inverters are mainly used to convert DC power produced by solar panels into high-quality
AC power and integrate it into the power grid.
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F7126 HIMA F 7126 power module
F7130A HIMA F 7131 power module
F7126 HIMA F 7126 power module
F8653X HIMA F8653X Central module
F8651X HIMA F8651X controller module
F8652X HIMA safety-related CPU
F8652X HIMA F 8652X safety-related CPU
F8653X HIMA F8653X Central module
B5233-2 HIMA B 5233-2 Assembly kit
B5233-1 HIMA B 5233-1 Assembly kit
B5231 HIMA B 5231 Assembly kit
B4237-2 HIMA B 4237-2 Assembly kit
B4237-1 HIMA B 4237-1 Parts of the assembly kit
B4235 HIMA B 4235 Assembly kit
B4233-2 HIMA B 4233-2 Parts of the assembly kit
SPBRC410 ABB Analog output module
SPASO11 ABB Analog output module
SPAJ140C-CA ABB Overcurrent and Ground Fault Relays
SNAT7640 3BSE003195R1 ABB Sell Control System Parts
YPK111A/YT204001-HH ABB control system parts
YPK107E/3ASD489301A410 ABB control system parts
YPI103E/YT204001-FB ABB off-the-shelf module
YPG111A 3ASD273001B1 ABB terminal interface
YPG110E YT204001-FD/1 ABB off-the-shelf module
DCF1048880P0001 YPC111B ABB YPC 111B adapter module
YL681001-AB ABB speed terminal
XZ727A-E GJR2323300R0001 ABB Bailey module
XV C768 AE102 ABB XVC768AE102 adapter module
XT376A-E HEIE420158R1 ABB module
B4231 HIMA B 4231 system module
XR8981V3 HEIE431105P1 ABB adapter module
XT377E-E HESG446624R1 ABB module
UT735A-E GJR2328100R0001 ABB adapter module
UT635A-E GJR2910300R0001 ABB Programmable Control System
ZMU-02 3AUA0000151291 ABB Inverter memory card
3AUA0000040000 RUSB-02 ABB Laptop Cable Kit
UAD142A01 3BHE012551R0001 ABB Extended output power supply
REU615 ABB Voltage Protection and Control Relays
UNITROL 1020 UNS0119A-Z,V1 3BHE030579R0003 ABB Excitation System
SPHSS03 ABB Hydraulic Servo Module
REM615E_1G HBMBCAAJABC1BNN11G ABB Feeder Protection and Control Relays
UAD155A0111 3BHE029110R0111 ABB Distributed Control System Module
CS513 3BSE000435R1 ABB communication interface module
SC510 3BSE003832R1 ABB communication module
PM511V08 3BSE011180R1 ABB processor module
PFSA140 3BSE006503R1 ABB Roll Supply
DSDX452L ABB S400 input/output
SD812F 3BDH000014R1 ABB power module
07DC92 GJR5252200R0101 ABB I/O module
DSPU131 3BSE000355R1 ABB MA200 interface board
ICSI16E1 FPR3316101R0034 ABB binary input unit
EHDB280 ABB power contactor
UDC920AE01 3BHE034863R0001 ABB power module
REX521GHHGSH51G ABB Feeder protection device
LDSTA-01 ABB motor driver
GFD563A101 3BHE046836R0101 ABB central processing unit
3HAC025338-006 ABB Main Servo Drive Unit
SD24D/492896201 ABB Expansion unit
5SGX1060H0003 ABB igct module
5SHY3545L0020 3BHE014105R0001 ABB Thyristor IGCT module
SDCS-FIS-3A DCF803-0035 ABB excitation plate
DCF803-0050 DCF503B0050 DCF503A0050 ABB Excitation module
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