| INSTRUMENTATION TECHNOLOGIES D.D. Patent applications |
| Patent application number | Title | Published |
|---|
| 20100278541 | Optical System for Transfer of Timing Reference - The present invention relates to an optical system for transfer of timing reference signal and radio frequency synchronisation of multiple events with femtosecond precision on multiple remote locations such as within a particle accelerator, where synchronisation scheme with a low phase jitter and a long term stability is required using standard telecommunications single-mode optical fibre. Said system comprises a transmitter ( | 11-04-2010 |
| 20090295471 | Method for Compensating the Non-Linear Distortions of High-Frequency Signals and Device for Carrying Out Said Method - The present invention refers to a method for compensating the non-linear distortions of high-frequency signals, especially when observing the amplitude modulated signals with narrow band receiver. The invention refers also to a device to carry out the said method. In the invention it is supposed that the ratio between the frequency f | 12-03-2009 |
| 20090295365 | Method for the Precise Measurement of Dependency on Amplitude and Phase of Plurality of High Frequency Signals and Device for Carrying Out Said Method - The present invention refers to a method for the precise measurement of dependency on amplitude and phase of a plurality of high frequency signals, preferably in the synchrotron accelerator of elementary particles. The essence of the solution according to the invention lies in that with a single measuring device and without any aliasing it is achieved a resolution of 0.2 micron and repeatability of measurements of 1 micron down to the lower frequency limit of a few MHz. A method according to the invention includes alternately directing, with a radio frequency (RF) switch, each analogue input signal to each of a plurality of RF processing units; amplifying each analogue input signal in each RF processing unit in order to adjust signals to the measuring range of a plurality of analog-digital (A/D) converters; directing each amplified analogue input signal to each of a plurality of A/D converters; converting the analogue signals to digital signals; directing the digital signals to a digital corrector; correcting the digital signals by means of correcting signals from the inverse models of evaluated systematic errors; collecting corrected digital signals in a digital switch and directing the ordered recombined number of digital signals to each of a plurality of digital receivers; and filtering the recombined number of digital signals in a plurality of low-pass filters. | 12-03-2009 |
