A device according to proposed method, using multiple magnetic field sensing elements at different positions below a magnetic target allows highly accurate measurement of angular positions controlling or tolerating the placement of a magnet as the input source. The sensed signals are used to select or combine the sensing elements for the best approach to the actual orientation of the magnet.
F.32 International patent
COBISS.SI-ID: 10875220Prior to logging of a process flags for locking at all addresses of a logging area of a tag are set to predefided state. A low and a high limit of an interval of values of a physical parameter are pre-determined, which are proper for preserving usability of a tagged article and are acquired, converted and stored into flagged - loging area in dense mode and can not be modified later.
F.32 International patent
COBISS.SI-ID: 10891860Some restrictions and workarounds for automatic HDL code generation are presented. Key advantages and drawbacks of single-rate and multi-rate decimator implementations are discussed, followed by the programmable decimation rate example. Power reduction and switching noise problems in high-precision systems are illustrated by an elaborated example, supplemented by circuit simulation results.
F.03 Increased qualifications of the research and development staff
COBISS.SI-ID: 10958164The purpose of this paper is to present how the THz sensor and THz waves can be applicable for such precise object position sensing and its material properties in real time. One of the additional features of such a THz sensor array is also the ability to see behind barriers that are transparent for THz waves. This allows the system to obtain precise dimensions, position, and material properties of the object, which are invisible for visible light or anyhow obscured to other vision systems. Furthermore, a 3D THz image of the object can also be obtained and, in cases when a visual picture is available, its fusion with a THz image is possible.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 10693204In this work we describe high level Matlab model of a sensor system for vapor trace detection of target molecules in the air using array of differently functionalized capacitive sensors and extremely sensitive electronic detection system. The model includes a simple model of adsorption/desorption process together with high level model of a low noise analog and digital signal processing electronics. The proposed model makes possible to study the selectivity and sensitivity of the sensor system in an efficient way and forms the basis for efficient design of modules of the sensor system for vapor trace detection of different molecules in the air.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 10851156