1 |
Využití prvků CDTA a CFTA v elektronických obvodech a kmitočtových filtrech / Utilization of CDTA and CFTA elements in electrical circuits and frequency filtersKotlán, Petr January 2011 (has links)
Thesis deals about active component in current mode, CDTA (current differencing transconductance amplifier) and CFTA (current follower transconductance amplifier). CDTA compares two input currents. Outcome current comes trough added terminal Z to load. Caused voltage is transfered to output current by transconductance g. Output surrents shall be possitive (terminal X+) or negative (terminal X-). In contrast to CDTA, CFTA has one current input. Components were used in filters and oscillators. Some filters of second order realized simultaneously low, hight and nad pass were designed. Then, the transfer of filters with diverse topology with opperational amplifier to filter with CDTA and CFTA was shown. Some oscillators were designed. Designed circuits were simulated. Transistor models of CDTA and CFTA were created to purpose of simulation. This components can be realized by AD844 and MAX435. There are shown the conclusions of AC analysis of filters and transission analysis of oscillators. The thesis contains practical realization of second order frequency filter also. Device was made like a PCB by smd. CFTA was realized by components AD844 and MAX435.
|
2 |
Aktivní obvodové prvky s proudovými vstupy a výstupy a jejich aplikace / Current-Input Current-Output Active Circuit Elements and their ApplicationsVávra, Jiří January 2012 (has links)
The thesis deals with definitions of new current- or mixed-mode circuit elements and their implementations and applications. Based on the analysis of the state-of-the-art, novel application circuits employing the above circuit elements are designed. For the purpose of the experimental verification, the active elements are implemented via commercial integrated circuits, and their applications are simulated via PSpice. The application circuits are focused on frequency filters, rectifiers, oscillators, and current-copy circuits. Selected applications are analyzed with respect on real influences, and measurements on circuit prototypes are also performed.
|
3 |
Rubidium Oscillator Error Model for Specific Force and Magnetic Field SusceptibilityCraig, Samantha L. 09 June 2014 (has links)
No description available.
|
4 |
Mikrovlnný transvertor z 5 760 MHz na 146 MHz / Microwave transverter for 5 760 MHz to 146 MHzŠustr, Jan January 2011 (has links)
This work deals with a design of the microwave transverter for 5 760 MHz to 146 MHz. It is divided to a few parts. The first one is focused to design of the local oscillator which generates the signal at frequency f = 116.9583MHz. The oscillator is designed like a crystal oscillator. Its output signal is multiplied and amplified in a second part. The next parts deal with design of the band pass filters. There I chose the design of the filters and did the measurements. The microwave receiver and transmitter circuits are designed with the modern monolithic circuits. The main job of this part is to design low noise amplifier and the power amplifier. At the end of this work I do the measurements and the comparison with the simulations.
|
5 |
Automatic Frequency Control of Microwave Radiation SourcesPayne, Bobby D. 08 1900 (has links)
Resonant cavity controlled klystron frequency stabilization circuits and quartz-crystal oscillator frequency stabilization circuits were investigated for reflex klystrons operating at frequencies in the X-band range. The crystal oscillator circuit employed achieved better than 2 parts in 10 in frequency stability. A test of the functional properties of the frequency standard was made using the Stark effect in molecules.
|
6 |
C axis optical property of a family of a high temperature superconductors LaSrCuOYazdani, Maryam, Yazdani January 2016 (has links)
No description available.
|
Page generated in 0.0845 seconds