CT-Concept Technologie AG
- Johann-Renfer Stasse 15
Biel
2504
Switzerland - +41 32 344 47 47
- http://igbt-driver.com
- +41 32 344 47 40
CT-Concept Technologie AG Articles
Compact IGBT gate drivers reduce traction applications
PCIM 2014: Single driver cores for IGBT modules have been introduced by CT-Concept Technologie. The 1SC0450V cores have blocking voltages of 4.5 and 6.5kV. The core measures 60 x 90mm and the partial-discharge-free, low-coupling-capacitance, high voltage DC/DC transformer height is just 27.5mm.
3D STEP files & models aim to speed IGBT system design
Targeted at designers who need to model new systems faster and more accurately, 3D STEP files of all CT-Concept Technologie's SCALE-2 IGBT gate drivers have now been made freely available. 3D interactive models of the company’s drivers are also included in new application manuals.
IGBT-driver cores target 10 to 75 kVA inverters and servo drives
CT-Concept Technologie has today announced the launch of a new IGBT-driver core designed to suit inverters operating in the power range from 10-75 kVA. The new dual-channel 2SC0106T drivers simplify the design process and provide a cost-effective, high-performance alternative to competing designs based on discrete components and optocouplers.
Dual-channel 4.5 kV IGBT-driver with transformer-based signal interface
CT-Concept Technologie has launched a new dual-channel IGBT-driver core which can handle voltages of up to 4.5 kV. Featuring transformer-based signal isolation - rather than more expensive fibre-optic technology - and an on-board power supply, the new 2SC0635T units are cost-effective, compact and reliable.
New Compact 6.5 kV IGBT-driver Cores From CONCEPT Feature Reduced Component Count for High Reliability
CT-Concept Technologie has launched the 1SC0450V, a compact and robust single-channel gate-drive solution for 6.5 kV IGBT modules. The driver is able to support the operation of up to four IGBT modules in parallel, and the use of CONCEPT’s proprietary SCALE-2 ASIC technology results in a significantly lower component count compared to a discrete solution.