Spelling suggestions: "subject:"multiplexer"" "subject:"multiplexers""
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Data Acquisition System Central MultiplexerAnderson, William, Carro, Eduardo 10 1900 (has links)
International Telemetering Conference Proceedings / October 17-20, 1994 / Town & Country Hotel and Conference Center, San Diego, California / The Central Multiplexer is a versatile data multiplexer designed to address emerging test requirements for recording data from many sources on digital rotary head recorders at high data rates. A modular design allows easy reconfiguration for airborne or laboratory use; simultaneous data input from 63 sources of data in any combination of PCM commutators, ARINC 429 buses, ARINC 629 buses, MIL- STD-1553 buses, and general-purpose high-speed serial data packets; simultaneous, independent programmable outputs to high-speed digital data recorders, quick-look displays, and engineering monitor and analysis systems; and setup and control from a remote panel, a dumb terminal, a laptop personal computer, a standalone test system, or a large control computer.
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Implementering av ROM med låg effektförbrukningSundquist, Mikael, Ousbäck, Anders January 2002 (has links)
Detta examensarbetet har gått ut på att konstruera ROM-minnen med liten effektförbrukning.Genom att vi undersökt olika geometriska strukturer i form av kolumnuppdelning så har simuleringsresultaten visat god geometri med liten strömförbrukning. Därefter har minnesarean delats in i olika block med den valda geometrin där endast det blocket som är adresserat aktiveras dvs när blocken är i passiva läge drar de ej ström. Blockindelning och kolumnuppdelning kontrolleras av de mest signifikanta bitarna i adressen. / In this thesis we have designed and developed a static ROM with low power consumption.Through examining different geometrical structures by splitting up the columns in the memory array we have, through computer simulation, found the best geometry with respect to power dissipation. In addition we have partitioned the memory array into several blocks with the optimal geometry, enabling us to switch off the memory blocks not beeing addressed and thereby lowering the power consumption even further. The column and block partitioning is controlled by the most significant address bits.
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A 1.0 GHz Clock Generator Design with A Negative Delay Using a Single-Shot Locking Method And A Realized Sony Playstation 2 1-to-4 Joystick Multiplexer InterfaceKao, Rong-Sui 14 June 2001 (has links)
¡@¡@The first topic of this thesis is a high-speed digital clock generator circuit is presented to provide negative delays in order to avoid a multi-locking hazard. The negative delay also results in small power consumption and shorter access time if the proposed circuit is used in the clock generator circuit of memory devices. Meanwhile, an accurately locked clock signal is also provided. The locked clock signal can be as high as 1.0 GHz at the presence of a random noise with 10% of power supply voltage when the design is implemented by TSMC (Taiwan Semiconductor Manufacturing Company) 0.35um CMOS 1P4M technol- ogy.
¡@¡@The second topic of this thesis is an 1-to-4 joystick enhanced interface which can be attached to SONY PS2 (playstation 2) is developed. The enhanced interface can allow 4 persons to play simultaneously through one port at the original game console. A total of 8 players can be supported when two of the interfaces hook up with both joystick ports of the console. The multiple player entertainment effect can be drastically enhanced by the usage of such an interface.
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Design and performance of an ammonia measurement systemBoriack, Cale Nolan 25 April 2007 (has links)
Ammonia emissions from animal feeding operations (AFOs) have recently come
under increased scrutiny. The US Environmental Protection Agency (EPA) has come
under increased pressure from special interest groups to regulate ammonia. Regulation
of ammonia is very difficult because every facility has different manure management
practices. Different management practices lead to different emissions for every facility.
Researchers have been tasked by industry to find best management practices to reduce
emissions. The task cannot be completed without equipment that can efficiently and
accurately compare emissions. To complete this task, a measurement system was
developed and performance tested to measure ammonia. Performance tests included
uncertainty analysis, system response, and adsorption kinetics.
A measurement system was designed for measurement of gaseous emissions
from ground level area sources (GLAS) in order to sample multiple receptors with a
single sensor. This multiplexer may be used in both local and remote measurement
systems to increase the sampling rate of gaseous emissions. The increased data
collection capacity with the multiplexer allows for nearly three times as many samples to
be taken in the same amount of time while using the same protocol for sampling.
System response analysis was performed on an ammonia analyzer, a hydrogen
sulfide analyzer, and tubing used with flux chamber measurement. System responses
were measured and evaluated using transfer functions. The system responses for the
analyzers were found to be first order with delay in auto mode. The tubing response was
found to be a first order response with delay. Uncertainty analysis was performed on an ammonia sampling and analyzing
system. The system included an analyzer, mass flow controllers, calibration gases, and
analog outputs. The standard uncertainty was found to be 443 ppb when measuring a 16
ppm ammonia stream with a 20 ppm span.
A laboratory study dealing with the adsorption kinetics of ammonia on a flux
chamber was performed to determine if adsorption onto the chamber walls was
significant. The study found that the adsorption would not significantly change the
concentration of the output flow 30 minutes after a clean chamber was exposed to
ammonia concentrations for concentrations above 2.5 ppm.
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Implementering av ROM med låg effektförbrukningSundquist, Mikael, Ousbäck, Anders January 2002 (has links)
<p>Detta examensarbetet har gått ut på att konstruera ROM-minnen med liten effektförbrukning.Genom att vi undersökt olika geometriska strukturer i form av kolumnuppdelning så har simuleringsresultaten visat god geometri med liten strömförbrukning. Därefter har minnesarean delats in i olika block med den valda geometrin där endast det blocket som är adresserat aktiveras dvs när blocken är i passiva läge drar de ej ström. Blockindelning och kolumnuppdelning kontrolleras av de mest signifikanta bitarna i adressen.</p> / <p>In this thesis we have designed and developed a static ROM with low power consumption.Through examining different geometrical structures by splitting up the columns in the memory array we have, through computer simulation, found the best geometry with respect to power dissipation. In addition we have partitioned the memory array into several blocks with the optimal geometry, enabling us to switch off the memory blocks not beeing addressed and thereby lowering the power consumption even further. The column and block partitioning is controlled by the most significant address bits.</p>
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Design of a Reversible ALU Based on Novel Reversible Logic StructuresMorrison, Matthew Arthur 01 January 2012 (has links)
Programmable reversible logic is emerging as a prospective logic design style for implementation in modern nanotechnology and quantum computing with minimal impact on circuit heat generation. Recent advances in reversible logic using and quantum computer algorithms allow for improved computer architecture and arithmetic logic unit designs. In this paper, a 2*2 Swap gate which is a reduced implementation in terms of quantum cost and delay to the previous Swap gate is presented. Next, a novel 3*3 programmable UPG gate capable of calculating the fundamental logic calculations is presented and verified, and its advantages over the Toffoli and Peres gates are discussed. The UPG is then implemented in a reduced design for calculating n-bit AND, n-bit OR and n-bit ZERO calculations. Then, two 3*3 RMUX gates capable of multiplexing two input values with reduced quantum cost and delay compared to the previously existing Fredkin gate is presented and verified. Next, 4*4 reversible gate is presented and verified which is capable of producing the calculations necessary for two-bit comparisons. The UPG and RC are implemented in the design of novel sequential and tree-based comparators. Then, two novel 4*4 reversible logic gates (MRG and PAOG) are proposed with minimal delay, and may be configured to produce a variety of logical calculations on fixed output lines based on programmable select input lines. A 5*5 structure (MG) is proposed that extends the capabilities of both the MRG and PAOG. The comparator designs are verified and its advantages to previous designs are discussed. Then, reversible implementations of ripple-carry, carry-select and Kogge-Stone carry look-ahead adders are analyzed and compared. Next, implementations of the Kogge-Stone adder with sparsity-4, 8 and 16 were designed, verified and compared. The enhanced sparsity-4 Kogge-Stone adder with ripple-carry adders was selected as the best design, and its implemented in the design of a 32-bit arithmetic logic unit is demonstrated. The proposed ALU design is verified and its advantages over the only existing ALU design are quantitatively analyzed.
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Applications of monolithic fiber interferometers and actively controlled fibersRugeland, Patrik January 2013 (has links)
The objective of this thesis was to develop applications of monolithic fiber devices and actively controlled fibers. A special twin-core fiber known as a ‘Gemini’ fiber was used to construct equal arm-length fiber interferometers, impervious to temperature and mechanical perturbations. A broadband add/drop multiplexer was constructed by inscribing fiber Bragg gratings in the arms of a Gemini Mach-Zehnder interferometer. A broadband interferometric nanosecond switch was constructed from a micro-structured Gemini fiber with incorporated metal electrodes. Additionally, a Michelson fiber interferometer was built from an asymmetric twin-core fiber and used as a high-temperature sensor. While the device could be readily used to measure temperatures below 300 °C, an annealing process was required to extend the range up to 700 °C. The work included development, construction and evaluation of the components along with numerical simulations to estimate their behaviors and to understand the underlying processes. The thesis also explored the use of electrically controlled fibers for filtering in the microwave domain. An ultra-narrow phase-shifted fiber Bragg grating inscribed in a fiber with internal electrodes was used as a scanning filter to measure modulation frequencies applied to an optical carrier. A similar grating was used inside a dual-wavelength fiber laser cavity, to generated tunable microwave beat frequencies. The studied monolithic fiber interferometers and actively controlled fibers provide excellent building blocks in such varied field as in microwave photonics, telecommunications, sensors, and high-speed switching, and will allow for further applications in the future. / Syftet med denna avhandling var att utveckla tillämpningar av monolitiska fiber komponenter samt aktivt kontrollerbara fiber. En speciell tvillingkärnefiber, även kallad ’Geminifiber’ användes för att konstruera fiber interferometrar med identisk armlängd som ej påverkas av termiska och mekaniska variationer. En bredbanding utbytarmultiplexor konstruerades genom att skriva in fiber Bragg gitter inuti grenarna på en Gemini Mach-Zehnder interferometer. Geminifibrer med interna metallelektroder användes för att konstruera en bredbandig nanosekundsnabb interferometrisk fiberomkopplare. Därtill användes en tvillingkärnefiber som en hög-temperatursensor. Även om komponenten direkt kan användas upp till 300 °C, måste den värmebehandlas för att kunna användas upp till 700 °C. Arbetet har innefattat utveckling, konstruktion och utvärdering av komponenterna parallellt med numeriska simuleringar för att analysera deras beteenden samt få insikt om de underliggande fysikaliska processerna. Avhandlingen behandlar även tillämpningar av en elektriskt styrbar fiber för att filtrera radiofrekvenser. Ett ultrasmalt fasskiftat fiber Bragg gitter skrevs in i en fiber med interna elektroder och användes som ett svepande filter för att mäta modulationsfrekvensen på en optisk bärfrekvens. Ett liknande gitter användes inuti en laserkavitet för att generera två olika våglängder samtidigt. Dessa två våglängder användes sedan för att generera en svävningsfrekvens i mikrovågsbandet. De undersökta monolitiska fiberinterferometrarna och de aktivt styrbara fibrerna erbjuder en utmärkt byggsten inom så pass skiljda områden som Mikrovågsfotonik, Telekommunikation, Sensorer samt Höghastighets-omkopplare och bör kunna användas inom många olika tillämpningar i framtiden. / <p>QC 20130226</p>
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Bioimpedance mapping of the cervixSmith, Jye Geoffrey January 2008 (has links)
Bioimpedance spectroscopy has shown potential as a method for characterising biological tissue with the use of a tetrapolar electrode configuration. Brown et al. (2000) demonstrated that the configuration is capable of distinguishing between normal squamous epithelium and Cervical Intra-epithelial Neoplasia (CIN). However little has been done to identify the volumes of tissue that contribute to the measured impedance. Brown et al. employed a probe with a single tetrapolar electrode set thus analysing single points of tissue. The probe was required to be moved in order to "sample" other areas of tissue. This method provides no spatial information of the lesion boundaries. The overall objective of this research was to design and construct an impedance mapping system (IMS) for objective virtual biopsy of lesions by bioimpedance spectroscopy (BIS). Initially freshly excised cervical tissue was to be tested however as the study progressed this proved problematic and bovine blood was chosen as a suitable substitute. Specific aims were to;
- .Investigate the spatial sensitivity distribution of the tetrapolar electrode configuration via finite element analysis (FEA).
- Design a novel front end multiplexing system and multi-electrode array for mapping the impedance of the tissue of interest.
- .Experimentally confirm the efficacy of the approach to identify regions of different impedances and their boundaries using bioimpedance mapping.
The present study used finite element analysis (FEA) to investigate the spatial variation in sensitivity of the tetrapolar electrode configuration and identify which volumes of tissue were included in the measured impedance. An impedance mapping device was also designed and constructed utilising the tetrapolar electrode configuration in an expanded array of 25 electrodes. This array allowed the surface of an area of tissue to be mapped and lesion boundaries identified in an objective manner. FEA was also used to model lesions in healthy tissue and the sensitivity fields associated with the tetrapolar configuration. The FEA indicated that anomalous results would be obtained when a lesion was located between a drive and measurement electrode pair. In this case the lesion resulted in an increase in impedance with respect to the impedance of healthy tissue, whereas a lesion should result in a decrease in measured impedance relative to that of healthy tissue. The anomaly was found to produce false negative results for small lesions up to 0.4 mm and even a lesion with radius of approximately 0.75 mm could be undetected as the measured impedance spectrum for such a lesion is similar to that of healthy tissue. Modelling also provided insight into the sensitivity fields for an electrode array and its efficacy in accurately measuring the surface impedance of tissue and lesions of interest. The impedance mapping system (IMS) developed used an array of 25 (5x5) electrodes. The array allows 64 individual tetrapolar measurements to be obtained at 16 locations, providing an impedance map of 49 mm2 on the surface of a tissue sample. Multiple measurements at each location reduce the chance of anomalous results since these can be identified and excluded. Software was developed to display the measured impedance maps and regions of different impedance were easily identified Testing of the IMS using bovine blood showed separation of the measured impedance for a range of haematocrit between 0 - 80%. Introduced volumes of red blood cells (RBC) or clots (to mimic lesions) to the plasma (haematocrit 0%) were also clearly identified using the IMS. It was seen that measurements made at the boundary of 2 different haematocrits (ie 2 volumes of different impedance) resulted in an anomalous result as indicated by the FEA modelling. However it was demonstrated that these anomalies can be used to objectively identify the introduced RBC (lesion) boundaries. A more efficient electrode stepping sequence was also developed taking advantage of the reciprocal nature of the tetrapolar electrode configuration. This development allows for the electrode array to be doubled in size using the same components, and to sample twice the surface area in the same time taken using the initially developed system. In summary, an impedance mapping system has been modelled, designed and developed for tissue characterisation by bioimpedance measurements. The technique has been shown experimentally to be able to detect regions of differ- ent impedance and is in agreement with the finite element analysis performed. Further development of the IMS will allow progressive monitoring of suspect lesions in-vivo and better identification of their spatial distribution for biopsy.
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Using multiplexers to study the statistics of quantum phenomenon in one-dimensional wiresMa, Pengcheng January 2017 (has links)
The quantum point contact (QPC) is a one-dimensional constriction with the differential conductance quantised in units of $G_Q=2e^2/h$. However, the transport behaviour below the first plateau is still not fully understood, including the 0.7 anomaly and the 0.25 anomaly in the linear and non-linear transport regimes respectively. In this work, we utilise a multiplexing technique and statistically investigate the 0.7 anomaly observed on the first three plateaus respectively in 571 QPCs, fitting well the van-Hove model. The 0.7 anomaly shows the transconductance suppression due to the effective electron interactions which are modified by the local density of states (LDOS). At the maximum of LDOS, the interaction strength becomes strongest, resulting in the strongest transconductance suppression. The strongest interaction strength is determined by the ratio of transverse confinement curvature and longitudinal barrier curvature. Moreover, we realise measurements of the effective g factor ($g^*$) and high-field offset ($\Delta E^{hfo}$) in numerous devices in a single cooldown at T=40 mK. The statistical results show both the $g^*$ and $\Delta E^{hfo}$ increase with the potential confinement, which supports the predictions about the role of interaction strength on $g^*$ and $\Delta E^{hfo}$ in a 1D tight-binding model. We explore the origin of $\Delta E^{hfo}$ and find that it is only considerable for the first plateau. Using a short and narrow QPC could result in a stronger potential confinement and thus a higher $g^*$, which could be beneficial for its use in spintronic applications. Last, we investigate the formation and development of the DC-bias-induced 0.75 and 0.25 anomalies for 402 QPCs. We find the anomalies evolve similarly in a magnetic field. To explain the anomaly behaviours, we propose a phenomenological DC-bias-induced spin-splitting model. In the model, with the increasing DC bias (V_DC), the 0.75 anomaly occurs first at a differential conductance of 0.75 $G_Q$, while the 0.25 anomaly is formed at a differential conductance of 0.5 $G_Q$ and moves to 0.375 $G_Q$. The spin gap of the first subband opens to be e|V_DC|, which enables an all-electric manipulation of spin polarisation simply by applying a DC bias.
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Testovací systém pro zařízení V-mux / The V-mux test systemMorávek, Patrik January 2008 (has links)
An optical network technology is the network technology that meets given requirements for a fast and reliable long-distance information transmission. Optical fibres can offer undoubted features where other communication technologies are near their limits or stand in front of insurmountable problems. The intensive research of last years is focused on optical transmission features utilization in the optimal way. Especially an optical signal processing in active network devices without a need for electrical conversation is a topic of high interest. V-Mux is an optical network device that accomplishes above mentioned requirements for modern optical network devices. It is a device that multiplexes and drops an optical signal in its native light form into or from optical fibre. Basic micro electro-mechanical components, which the V-Mux is built from, are high end precise devices. The whole complex V-Mux has to meet strict rules and specifications as the components itself. That is why a control system has to be included in the production process to keep quality and right functionality. This diploma thesis is focused on a development of the testing system that will help in the automated control procedure in the V-Mux production. A brief introduction to optical network technologies and a description of the GPIB bus form a first part of the thesis. The next part focuses on the V-Mux itself and the proposal of the test station with its component description. The last part deals with a developing of the software for the V-Mux testboard and a user application that will be used for the test system initialization.
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