3BHB012961R0001 5SHX 2645L0002 Product datasheet
Model number: |
3BHB012961R0001 5SHX 2645L0002 |
|
Module Type: |
IGCT Module |
Manufacture: |
ABB |
|
Condition: |
Brand New |
Range of Product: |
IGCT Series |
|
Lead time: |
In Stock |
Weight: |
0.96kg |
|
HS CODE: |
8537101190 |
Dimension: |
30x12.6x4.5cm |
|
MOQ: |
1 |
Product Origin: |
SWEDEN |
|
System: |
DCS |
Discontinued on: |
Active |
|
Communication Service: |
Ethernet router |
3BHB012961R0001 5SHX 2645L0002 Functional Description
The 3BHB012961R0001 5SHX 2645L0002 IGCT Module is engineered for superior power conversion performance, making it an essential component for high-efficiency industrial applications. With a rugged design and exceptional capabilities, this module excels in environments that demand precise power management and continuous operation.
Operating within a wide temperature range of -40°C to +100°C, the 3BHB012961R0001 5SHX 2645L0002 Advanced Power Control Solution guarantees reliability even under extreme conditions, making it ideal for industries like renewable energy, manufacturing, and heavy machinery.
This module features a rated current of 2000A and a switching frequency of 10kHz, providing unmatched efficiency for complex power electronics systems. Its high insulation class (Class H) ensures thermal stability, promoting long-lasting operation in challenging environments.
With an AC input voltage of 690V and DC output voltage of 400V, the 3BHB012961R0001 5SHX 2645L0002 Precision Control Module handles large-scale power demands while maintaining high performance. Its 800kW power rating supports heavy-duty operations, optimizing energy use with an impressive efficiency of 99%.
Compact and lightweight (100mm x 150mm x 250mm, 20kg), the 3BHB012961R0001 5SHX 2645L0002 gas turbine module ensures easy installation and maintenance, providing a practical and efficient solution for diverse industrial applications.
If you have other request contact our team to get customized service
ABB |
3BHE012049R0101 UFD128A101 |
ABB |
3BHE008128R0001 UNS0887A-P |
ABB |
3BHE003855R0001 UNS 2882A-P V1 |
ABB |
3BHE010751R0101 PPC902 AE101 |
ABB |
3BHE006805R0001 DDC779BE01 |
ABB |
3BHB022793R0001 ASE2 UD C920 AE01 ASE2UDC920AE01 |
ABB |
3BHE010751R0101 PP C902 AE01 |
ABB |
3BHE006805R0001 DDC779 BE01 |
ABB |
3BHB020538R0001 5SHX1060H0003 3BHE024415R0101 GV C714 A101 |
ABB |
3BHE009319R0001 UNS2881B-P,V1 |
ABB |
3BHB006338R0101 UNS0881 |
ABB |
3BHE013854R0002 PDD163 A02 |
ABB |
3BHE009319R0001 UNS2881B-P,V1 |
ABB |
3BHE023681R0101 UCD224 A101 |
ABB |
3BHB012961R0001 5SHX 2645L0002 |
ABB |
3BHE009319R0001 UNS2881B-P V1 |
ABB |
3BHE014967R0002 UNS2880B-P |
ABB |
3BHE013299R0022 LTC743CE22 |
ABB |
3BHE009319R0001 UNS2881B-P |
ABB |
3BHE006422R0001 UNS2861C-P |
ABB |
3BHE013299R0022 LTC743 CE22 |
ABB |
3BHE009319R0001 UNS 2881B-P V1 |
ABB |
3BHB006338R0001 UNS0881A-P,V1 |
ABB |
3BHB006943R0002 UNS0885A-Z,V2 |
ABB |
3BHE009017R0102 XVC724 BE102 |
ABB |
3BHB006309R0001 UNS0882A-P,V1 |
ABB |
3BHE012095R0002 UAD141A02 |
ABB |
3BHE009017R0102 XVC724BE102 |
ABB |
3BHB006208R0001 UNS0883A-P,V1 |
ABB |
3BHB006449R0002 MPS-230/24/48 |
IGCT Series INTRODUCTION
ABB IGCTs: Benchmark performance with developments on many fronts
The Integrated Gate-Commutated Thyristor (IGCT) was introduced about 15 years ago and has established itself as a preferred solution for a number of high power electronics applications. These applications have in common that the rated power level is in the megawatts (MW) and they range from industrial drives and track-side supplies to power quality and high-current breakers. In this article we highlight the features making the IGCT so attractive for high power applications and we discuss the developments that will further strengthen the IGCT’s advantages in high power applications.
Available as asymmetric and reverse conducting (with integrated diode)
ABB offers two different types of IGCTs: the asymmetric and the reverse conducting (RC). The asymmetric IGCT offers highest power levels. It is available as standard asymmetric IGCT and as the newer HPT-IGCT with improved turn-off capability. Applying asymmetric IGCTs allows choosing optimized free-wheel diodes as for instances ABBs new IGCT diodes as presented in Bodo’s Power Systems, issue May 2012. The RC-IGCT features a monolithically integrated free-wheel diode and therefore enables very compact stack designs. The RC-IGCT has been designed aiming for good performance in drive applications with moderate regeneration to the grid.