Global ETD Search

1	Digital Data Transmission Using Single-Sideband Modulation Ouzas, Nicholas 10 1900 (has links) <p> The feasibility of using a partial response-encoded single-sideband (SSB) modulated signal for transmission of digital data in a radio system is considered. The principal methods of SSB signal generation and demodulation are examined, and the effects of carrier synchronization are determined. The effect of steady-state carrier phase errors on the error rate of an SSB partial response receiver is analyzed theoretically and by means of computer simulation. The analysis of a decision-directed SSB carrier phase tracking loop is presented and its performance is evaluated using computer simulation. The performance of the SSB partial response system after amplification by means of travelling-wave-tube (TWT) amplifiers is analyzed by using computer simulation. Finally, a comparison of an SSB partial response system and a quadrature partial response system (QPRS) is made.</p> / Thesis / Master of Engineering (MEngr)
2	A Solid State VHF Single Sideband Transmitter Roos, Ermi 01 January 1973 (has links) (PDF) This research report investigates a unique method of generating single sideband power, which is particularly useful in transistorized transmitters operating at VHF frequencies. Radio frequency power id developed by class C amplifiers, rather than conventional class A or B amplifiers. Currently, VHF power transistors are not well adapted for use as linear amplifiers, and will function far better in the class C mode. A prototype VHF transmitter which develops single sideband power with nonlinear amplifiers was designed and constructed. The transmitter characteristics were measured and analyzed to establish the feasibility of the new design. Radio Transmitters and transmission Single sideband radio Engineering
3	Study of modulation techniques Arnold, Thomas Heaton, 1930- January 1961 (has links) No description available. Radio, Single-sideband. Ferromagnetic materials.
4	Characterization and Design of a Completely Parameterizable VHDL Digital Single Sideband Modulator Circuit for Quick Implementation in FPGA or ASIC Electronic Warfare Platforms Axtell, Harold Scott 28 October 2010 (has links) No description available. Electrical Engineering Engineering Digital Single Sideband Modulator Modulator Digital Direct Digital Synthesis Hilbert Transform VHDL
5	Wireless MRI Detector Arrays: Technology & Clinical Applications Riffe, Matthew Joseph 21 February 2014 (has links) No description available. Biomedical Engineering Medical Imaging Medical Imaging Magnetic Resonance Imaging MRI Wireless Single Sideband Amplitude Modulation SSB
6	Dual Electroabsorption Modulated Laser: étude et caractérisation d'une nouvelle source optique laser-modulateur intégrés pour les transmissions numériques haut-débit et les applications Radio-sur-Fibre. Petit Ferrufino, Juan Mauricio 29 September 2010 (has links) (PDF) Cette étude se situe au niveau de la couche physique d'un système de transmission optique terrestre de type réseau métropolitain. Il s'agit d'y intégrer un composant, le laser modulateur intégrés (Electroabsorption Modulated Laser ou EML) du III-V Lab Alcatel-Thales, un laboratoire industriel de composants optoélectroniques. Et ceci pour en diminuer la complexité par pré-distorsion apportée par la modulation du laser. Les distances de transmission étant limités par des phénomènes physiques intrinsèques aux fibres optiques, le but est de développer un schéma de fonctionnement des EML pouvant dépasser les limites fixées par la dispersion chromatique des fibres et ses effets non-linéaires, principe qui a été démontré avec un laser et un modulateur discret mais jamais avec un composant intégré. La technique est basée sur une pré-compensation de la dispersion chromatique en appliquant une modulation sur le laser de l'EML qui génère la porteuse optique préchirpée qui est ensuite modulée par le modulateur à électro-absorption, raison du nom donné à l'EML : Dual Electroabsorption Modulated Laser ou D-EML. C'est l'axe majeur de recherche car il met en évidence le principe de la compensation de dispersion permettant d'incrémenter les distances de transmission de 80 km à 160 km pour la première fois avec un composant monolithique. Une application Radio-sur-Fibre pour les réseaux d'accès a été explorée, elle est basée sur une modulation duale analogique, permettant l'extinction d'une raie de modulation optique générant ainsi un signal à bande latérale unique Single Side Band. Ce format permet de transporter des signaux I-Q très haut-débit sur des distances de plus de 100 km. Dual modulation pre-chirping Radio-Over-Fiber chirped-NRZ EML chromatic dispersion optical transmitter Single SideBand
7	Hilbert Transform : Mathematical Theory and Applications to Signal processing / Hilbert transformation : Matematisk teori och tillämpningar inom signalbehandling Klingspor, Måns January 2015 (has links) The Hilbert transform is a widely used transform in signal processing. In this thesis we explore its use for three different applications: electrocardiography, the Hilbert-Huang transform and modulation. For electrocardiography, we examine how and why the Hilbert transform can be used for QRS complex detection. Also, what are the advantages and limitations of this method? The Hilbert-Huang transform is a very popular method for spectral analysis for nonlinear and/or nonstationary processes. We examine its connection with the Hilbert transform and show limitations of the method. Lastly, the connection between the Hilbert transform and single-sideband modulation is investigated. Hilbert transform Hilbert-Huang transform Electrocardiography Electrocardiogram ECG EKG Nonstationary processes Hilbert spectrum Modulation Single-sideband modulation QRS complex QRS QRS detection SSB Mathematics Matematik Signal Processing Signalbehandling
8	Superstructured Fiber Bragg Gratings and Applications in Microwave Signal Processing Blais, Sébastien R. 20 December 2013 (has links) Since their discovery in 1978 by Hill et al. and the development of the transverse holographic technique for their fabrication by Meltz et al. in 1989, fiber Bragg gratings (FBG) have become an important device for applications in optical communications, optical signal processing and fiber-optical sensors. A superstructured fiber Bragg grating (SFBG), also called a sampled fiber Bragg grating, is a special FBG that consists of a several small FBGs placed in close proximity to one another. SFBGs have attracted much attention in recent years with the discovery of techniques allowing the creation of equivalent chirp or equivalent phase shifts. The biggest advantage of an SFBG with equivalent chirp or equivalent phase shifts is the possibility to design and fabricate gratings with greatly varying phase and amplitude responses by adjusting the spatial profile of the superstructure. The realization of SFBGs with equivalent chirp or equivalent phase shifts requires only sub-millimeter precision. This is a relief from the sub-micron precision required by traditional approaches. In this thesis, the mathematical modeling of FBGs and SFBGs is reviewed. The use of SFBGs for various applications in photonic microwave signal processing is considered. Four main topics are presented in this thesis. The first topic is the use of SFBG as a photonic true-time delay (TTD) beamformer for phased array antennas (PAAs). The second topic addresses non-linearities in the group delay response of an SFBG with equivalent chirp in its sampling period. An SFBG with an equivalent chirp using only a linear chirp coefficient may yield a group delay response that deviates from the linear response required by a TTD beamformer. In the thesis, a technique to improve the linearity of the group delay response is proposed and an adaptive algorithm to find the optimal linear and non-linear chirp coefficients to produce the best linear group delay response is described. Since no closed-form solution exists to represent the amplitude and phase responses of an SFBG, we rely on a Fourier transform analogy under a weak grating approximation as a starting point in the design of an SFBG. Simulations are then used to refine the response of the SFBG. The algorithm proposed provides an optimal set of chirp coefficients that minimizes the error in the group delay response. Four gratings are fabricated using the optimized chirp coefficients and their application in a TTD PAA system is discussed. The third topic discusses the use of an SFBG with equivalent phase shifts in its sampling period as a means to realize optical single sideband (SSB) modulation. SSB modulation eliminates the power penalty caused by chromatic dispersion experienced by an optical signal traveling through a long length of optical fiber. By introducing two π phase shifts through equivalent sampling to the SFBG, two ultra-narrow transmission bands are created in the grating stop band of the +/- 1st spectral orders. In the proposed system, a double-sideband plus carrier (DSB+C) modulated optical signal is sent to the input of an optical SSB filter based on the equivalent phase-shift SFBG in order to select the optical carrier and a single sideband, effectively blocking one sideband from propagating. Finally, the fourth topic focuses on the implementation of a photonic microwave bandpass filter based on an SFBG with equivalent chirp. Photonic microwave filters are used to process microwave signals in the optical domain. By using a technique called phase-modulation to intensity-modulation (PM-IM) conversion, a two-tap delay line filter is created with one negative tap. A single SFBG with a chirp in its sampling period is used as a means to achieve the PM-IM conversion for the two taps. Two phase modulated optical carriers are used to generate the two taps, each entering a different port of the SFBG and thus experiencing an opposite dispersion value. The two optical signals are then recombined before being sent to a photodetector (PD) where the filtered microwave signal is recovered. superstructured fiber Bragg grating microwave photonics equivalent phase shift equivalent chirp optical single sideband modulation photonic true time delay
9	Superstructured Fiber Bragg Gratings and Applications in Microwave Signal Processing Blais, Sébastien R. January 2014 (has links) Since their discovery in 1978 by Hill et al. and the development of the transverse holographic technique for their fabrication by Meltz et al. in 1989, fiber Bragg gratings (FBG) have become an important device for applications in optical communications, optical signal processing and fiber-optical sensors. A superstructured fiber Bragg grating (SFBG), also called a sampled fiber Bragg grating, is a special FBG that consists of a several small FBGs placed in close proximity to one another. SFBGs have attracted much attention in recent years with the discovery of techniques allowing the creation of equivalent chirp or equivalent phase shifts. The biggest advantage of an SFBG with equivalent chirp or equivalent phase shifts is the possibility to design and fabricate gratings with greatly varying phase and amplitude responses by adjusting the spatial profile of the superstructure. The realization of SFBGs with equivalent chirp or equivalent phase shifts requires only sub-millimeter precision. This is a relief from the sub-micron precision required by traditional approaches. In this thesis, the mathematical modeling of FBGs and SFBGs is reviewed. The use of SFBGs for various applications in photonic microwave signal processing is considered. Four main topics are presented in this thesis. The first topic is the use of SFBG as a photonic true-time delay (TTD) beamformer for phased array antennas (PAAs). The second topic addresses non-linearities in the group delay response of an SFBG with equivalent chirp in its sampling period. An SFBG with an equivalent chirp using only a linear chirp coefficient may yield a group delay response that deviates from the linear response required by a TTD beamformer. In the thesis, a technique to improve the linearity of the group delay response is proposed and an adaptive algorithm to find the optimal linear and non-linear chirp coefficients to produce the best linear group delay response is described. Since no closed-form solution exists to represent the amplitude and phase responses of an SFBG, we rely on a Fourier transform analogy under a weak grating approximation as a starting point in the design of an SFBG. Simulations are then used to refine the response of the SFBG. The algorithm proposed provides an optimal set of chirp coefficients that minimizes the error in the group delay response. Four gratings are fabricated using the optimized chirp coefficients and their application in a TTD PAA system is discussed. The third topic discusses the use of an SFBG with equivalent phase shifts in its sampling period as a means to realize optical single sideband (SSB) modulation. SSB modulation eliminates the power penalty caused by chromatic dispersion experienced by an optical signal traveling through a long length of optical fiber. By introducing two π phase shifts through equivalent sampling to the SFBG, two ultra-narrow transmission bands are created in the grating stop band of the +/- 1st spectral orders. In the proposed system, a double-sideband plus carrier (DSB+C) modulated optical signal is sent to the input of an optical SSB filter based on the equivalent phase-shift SFBG in order to select the optical carrier and a single sideband, effectively blocking one sideband from propagating. Finally, the fourth topic focuses on the implementation of a photonic microwave bandpass filter based on an SFBG with equivalent chirp. Photonic microwave filters are used to process microwave signals in the optical domain. By using a technique called phase-modulation to intensity-modulation (PM-IM) conversion, a two-tap delay line filter is created with one negative tap. A single SFBG with a chirp in its sampling period is used as a means to achieve the PM-IM conversion for the two taps. Two phase modulated optical carriers are used to generate the two taps, each entering a different port of the SFBG and thus experiencing an opposite dispersion value. The two optical signals are then recombined before being sent to a photodetector (PD) where the filtered microwave signal is recovered. superstructured fiber Bragg grating microwave photonics equivalent phase shift equivalent chirp optical single sideband modulation photonic true time delay
10	Phase noise reduction of a 0.35 μm BiCMOS SiGe 5 GHz Voltage Controlled Oscillator Lambrechts, Johannes Wynand 11 November 2009 (has links) The research conducted in this dissertation studies the issues regarding the improvement of phase noise performance in a BiCMOS Silicon Germanium (SiGe) cross-coupled differential-pair voltage controlled oscillator (VCO) in a narrowband application as a result of a tail-current shaping technique. With this technique, low-frequency noise components are reduced by increasing the signal amplitude without consuming additional power, and its effect on overall phase noise performance is evaluated. The research investigates effects of the tail-current as a main contributor to phase noise, and also other effects that may influence the phase noise performance like inductor geometry and placement, transistor sizing, and the gain of the oscillator. The hypothesis is verified through design in a standard 0.35 μm BiCMOS process supplied by Austriamicrosystems (AMS). Several VCOs are fabricated on-chip to serve for a comparison and verify that the employment of tail-current shaping does improve phase noise performance. The results are then compared with mathematical models and simulated results, to confirm the hypothesis. Simulation results provided a 3.3 dBc/Hz improvement from -105.3 dBc/Hz to -108.6 dBc/Hz at a 1 MHz offset frequency from the 5 GHz carrier when employing tail-current shaping. The relatively small increase in VCO phase noise performance translates in higher modulation accuracy when used in a transceiver, therefore this increase can be regarded as significant. Parametric analysis provided an additional 1.8 dBc/Hz performance enhancement in phase noise that can be investigated in future works. The power consumption of the simulated VCO is around 6 mW and 4.1 mW for the measured prototype. The circuitry occupies 2.1 mm2 of die area. Copyright / Dissertation (MEng)--University of Pretoria, 2010. / Electrical, Electronic and Computer Engineering / unrestricted Phase noise Voltage controlled oscillator (VCO) Silicon Germanium (SiGe) Single sideband (SSB) Bipolar CMOS (BiCMOS) Performance trade-offs LC oscillator Narrowband Active circuit Analogue integrated circuit (IC) Heterojunction bipolar transistor (HBT) Tail-current suppression UCTD

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