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The new developed laser welding technology serves the parti-cle-free encapsulation of seal electronics against dust, humidity and gases.
The invention concerns a sensor for the magnetic field gradient and applies micromechanical structures. Lorentz-forces excite these structures whereas the vibrational modes are excited by the respective components of the magnetic gradient. This allows highly selective measurements of the respective gradient components. The invention was made by researchers of the Vienna University of Technology.
This technology is based on the combination of mid-IR ATR spectroscopy and the principle of ultrasonic particle Manipulation enabling the spatial control of said
particles.This technology is based on the combination of mid-IR ATR spectroscopy and the principle of
ultrasonic particle Manipulation enabling the spatial control of said particles.
Thermoplastic polyurethane elastomers (TPU) have segmented configuration consisting of macrodiol as flexible soft block, and a combination of diisocyante and chain extender as a rigid hard block. Advantages are suitable mechanics, biocompatibility and biodegradability.
The present invention relates to the use of Tyrosylprotein Sulfotransferase (TPST) and addresses the challenges of posttranslational modifications in plant-based protein expression systems by enabling human-type Protein sulfation in plants.
The invention describes a mechanism, in which the ultrasonic impulse is time encoded, by adding a time signal to the main pulse. By alternating between time encoded and normal impulses, it is possible to determinate which of the received signals was send at an even or an uneven cycle. Faulty echo detection is prevented by this method, along with the possibility to double the sending frequency, which leads to twice the penetration depth. Furthermore it is possible to encode the ultrasonic impulse further by using amplitude modulation. With this mechanism, the received signal is spited into a measurement and a encoded signal. By doing so, it is possible to allocate time and volume information to the received signal. Because of this allocation, the occurrence of artifacts is further reduced, which leads to a higher quality of ultrasonic scans.