ADJACENT CHANNEL INTERFERENCE MEASUREMENTS WITH CPFSK, CPM AND FQPSK-B SIGNALS

Law, Eugene

10 1900

International Telemetering Conference Proceedings / October 21, 2002 / Town & Country Hotel and Conference Center, San Diego, California / This paper will present measured data in an adjacent channel interference (ACI) environment for filtered continuous phase frequency shift keying (CPFSK or FM), multi-h continuous phase modulation (multi-h CPM or CPM for short) [1] and Feher’s patented quadrature phase shift keying (FQPSK-B) [2]. This paper is an extension of my 2001 International Telemetering Conference paper on this topic [3]. The quantity measured was bit error probability (BEP) versus signal energy per bit to noise power spectral density ratio (E(b)/N(o)). The interferers were CPFSK, CPM, or FQPSK-B signals. The results presented in this paper will be for a desired signal bit rate of 5 Mb/s, one interferer 20 dB larger than desired signal (a few tests included two interferers), and various center frequency spacings, interfering signals, receivers, and demodulators. The overall ACI test effort will collect data sets at several bit rates and with one and two interferers. The results will be useful to system designers and range operators as they attempt to maximize the number of Mb/s that can be simultaneously transmitted with minimal interference in the telemetry bands.

Adjacent channel interference

CPFSK

PCM/FM

FQPSK-B

CPM

Aeronautical telemetry signal spacing

Multifaceted broadcasting : an analysis into Lotus FM's role and identity as a "national public service-cum-commercial broadcaster with community responsibility".

Kaihar, Sunita.

January 2001

Radio broadcasting is usually classified as either a public broadcasting service or as being commercially driven. In the South African context, the concept of community radio has further complicated the definition of a public broadcasting service. While profit motivation and niche marketing characterize a radio driven by commercial means, community radio is predominantly non-profit oriented, directed towards a particular community. A public broadcasting service is, amongst other elements, typified as being geographically accessible to all and of paying particular attention to minority groups. Lotus FM, a radio station that came into existence on 16 January 1983, for the South African Indian community, describes itself as a "national public service-cum-commercial broadcaster with community responsibility". The South African Indian community, a minority group within the broader South African population, comprises of five language groups (Hindi, Gujarati, Urdu, Tamil and Telegu) and three religious groupings (Hinduism, Islam and Christianity). This research aims to explore the feasibility with which Lotus FM is accommodating the conflicting interests of being a melange of all three forms of broadcasting and reflecting it via its programmes. / Thesis (M.A.)-University of Natal, Durban, 2001.

Radio broadcasting--South Africa.

Indians--South Africa.

Lotus FM (Radio station)

Creation of a Technology Independent Design Flow

Urvantsev, Anton

January 2019

Modern embedded systems development poses new challenges to a designer due to the global reachability of the contemporary market. One product shipped to different countries or customers should satisfy varying conditions, standards and constraints. Variability of a developed system should be taken into account by a designer. In a case of the embedded heterogeneous systems, this problem becomes challenging. Along with the variability heterogeneity of a system introduces new tasks, which should be addressed during design process. In this work, we propose a technology independent design flow. The proposed solution is supported by state-of-the-art tools and takes into account variability, partitioning, interfacing and dependency resolving processes. This thesis is conducted as a case study. We explored a design process of an industrial project, identified existing challenges and drawbacks in the existing solutions. We propose a new approach to a design flow of heterogeneous embedded systems. Also, a tool, supporting the presented solution, is implemented, which would allow a developer to include this approach into everyday design flow in order to increase a development speed and enable a task automation.

Variability

FPGA

SoC

Xilinx

VSI

Vivado

HLS-C

SPL

FM

OVM

HSP

Embedded Systems

Inbäddad systemteknik

Optimisation de la modulation de phase utilisée pour les lasers de puissance : Minimisation de la conversion FM-AM tout en conservant les fonctionnalités d'élargissement spectral nécessaire à la fusion

Hocquet, Steve

09 November 2009

Dans ce manuscrit, nous abordons la problématique des modulations de phase sur les lasers de puissance (comme le Laser MégaJoule, projet développé en France) et de leur impact sur différents phénomènes physiques comme la suppression de la diffusion Brillouin stimulée (nécessaire pour éviter l'endommagement des optiques) et le lissage optique qui permet une homogénéisation spatiale des taches focales. Nous abordons de manière approfondie les contreparties des modulations de phase et en particulier la conversion FM-AM qui est source de modulations d'intensité non désirées et de perte d'énergie. Nous donnons une modélisation qui se veut complète des phénomènes générant de la conversion FM-AM sur une chaîne de laser de puissance. Nous étudions théoriquement et expérimentalement les deux méthodes permettant de réduire la conversion FM-AM à distorsion spectrale donnée : la compensation des fonctions de transfert et la modification du signal de modulation de phase pour le rendre moins sensible aux effets de distorsions spectrales. Concernant la seconde voie d'exploration, nous déterminons quelle devrait être la forme du spectre idéal de la modulation de phase et nous donnons une méthode pour s'en approcher. Nous montrons la faisabilité pratique d'une telle méthode et nous effectuons différentes expériences pour montrer dans quelles mesures ces solutions peuvent améliorer les performances les lasers de puissance. Nous concluons ce manuscrit de thèse, en proposant des solutions optimisées pour le Laser MégaJoule.

[PHYS] Physics

Modulation de phase

Conversion FM-AM

Diffusion Brillouin

Lissage optique

Conversion de fréquence

Laser de Puissance

Jominis inverkan på Amerikanska doktriner / Jominis impact on American doctrine

Svanberg, Anders

January 2011

Syftet med uppsatsen är att pröva om Jominis principer om militärteori har någon inverkan på dagens slagfält, genom att de påverkar amerikanska doktriner, och därmed strategiskt och operativt tänkande. Dagens högteknologiska stridsfält är betydligt mer komplext och består av fler dimensioner, än det fanns när Jomini verkade. Det blir då viktigt att förstå de klassiska strategiska tankegångarna som ligger till grund för de operativa men även taktiska besluten. Det blir intressant att forska om och hur Jominis teorier verkligen har haft påverkan på de amerikanska doktriner som utvecklats efter 1976, speciellt då väst europeiska, även svenska, doktriner främst anses vara påverkade utav Clausewitz och dennes syn på krig. Inte minst då svensk militär personal interagerar med amerikansk militär personal på den internationella arenan, vilket sker i stort sett dagligen under internationell tjänstgöring. Uppsatsen kommer fram till slutsatsen att Jominis principer fortfarande påverkar amerikanska doktriner. Detta i sig ger en förståelse för hur amerikanskt strategiskt och operativt tänkande, och hur Jomini har påverkat utformningen av dem. Det ger även en insyn i hur samtidens högteknologiska stridsfält som består av flera dimensioner påverkas av klassiska militärteoretiska och strategiska tankegångar som i slutänden även påverkar de taktiska beslut som tas på slagfältet. Det ger även en förståelse för vilken militärteoretisk och strategisk bakgrund amerikansk militär personal har, vilket blir viktigt att ha förståelse för när svensk militär personal ska agera med dem på den internationella arenan, särskilt på de högre ledningsplanen. / The purpose of the essay is to examine whether Jominis principles of military theory has bearing on today's battlefields, by affecting American doctrine, and thus strategic and operational thinking. For even if today's high tech battlefield is far more complex and consists of more dimensions, than there were when Jomini composed his theories. It is important to understand the classical strategic thinking that makes up the basis for the operational as well as tactical decisions made.It is interesting to investigate whether and how Jominis theories really have an impact on the American doctrine developed since 1976. Especially so as in Western Europe, includingSweden, doctrine is primarily considered to be borne out of Clausewitz theoretical vision of war.It becomes important to have an understanding of this as Swedish military personnel interact with American military personnel in the international arena, which occurs nearly on a daily basis. The essay concludes that Jominis principles continue to hold sway of U.S.doctrine. This in itself provides a new understanding of howU.S.strategic and operational thinking works. And how Jomini has influenced the design of them, it also gives an insight into how contemporary high-tech battlefields, which consists of several dimensions is influenced by classic military theory and strategic thinking. This in turn also affects the tactical decisions taken on the battlefield.This also provides an understanding of the military theory and strategic view that affects American military personnel, which is important to understand when Swedish military personnel interact with them in the international arena, particularly at the higher levels of the command structure.

Jomini

The Art of War

FM 100-5

AirLand battle

SOCIAL SCIENCES

SAMHÄLLSVETENSKAP

Development of Neuronal Responses to Frequency-modulated Tones in Chinchilla Auditory Cortex

Brown, Trecia

05 August 2010

A central issue in auditory research is how the auditory brain encodes complex stimuli. However, the process by which the auditory cortex interprets complex sounds during development and the extent to which cortical organization can be manipulated by complex stimulation is still undetermined. We have addressed this gap in the following three studies. First, we characterized the responses of cortical neurons in adult chinchillas to frequency-modulated (FM) stimulation. Next, we asked whether FM coding at the cortical level is innate or if its development is influenced by normal postnatal environmental experience. Finally, we investigated the effect of sustained neonatal FM sweep exposure on the development of cortical responses to tonal and FM stimuli. In our adult study, results indicated that >90% of sampled neurons were responsive to FM sweeps. The population preference was for upward FM sweeps and for medium to fast speeds ( 0.3 kHz/ms). Three types of temporal response patterns were observed: a single peak at sweep onset/offset (‘onset’) and a single peak (‘late’) or multiple peaks (‘burst’) during the sweep. ‘Late’ units expressed the highest direction and speed selectivity; ‘onset’ units were selective only for direction and ‘burst’ units were selective for neither direction nor speed. In our developmental study, our results showed a significant developmental increase in FM direction selectivity. However, FM speed selectivity appeared to be established early in development. In our developmental plasticity study, we hypothesized that constant FM exposure would increase the proportion of auditory neurons that are selectively responsive to the conditioning FM sweep. However, our results showed that while tonal response latencies increased after the exposure period, the conditioning stimulus had minimal effect on the FM direction preferences of cortical neurons and decreased overall neuronal FM speed selectivity. In conclusion, we suggest that chinchilla auditory cortical neurons are not uniquely activated by FM sounds but that FM responses are largely predictable based on how changing frequency stimuli interact with the receptive fields of these neurons. We also propose that the development of FM direction sensitivity is experience-independent and that perhaps normal acoustic experience is required to maintain FM speed tuning.

FM sweeps

development

direction selectivity

acoustic exposure

speed selectivity

conditioning

0719

Development of Neuronal Responses to Frequency-modulated Tones in Chinchilla Auditory Cortex

Brown, Trecia

05 August 2010

A central issue in auditory research is how the auditory brain encodes complex stimuli. However, the process by which the auditory cortex interprets complex sounds during development and the extent to which cortical organization can be manipulated by complex stimulation is still undetermined. We have addressed this gap in the following three studies. First, we characterized the responses of cortical neurons in adult chinchillas to frequency-modulated (FM) stimulation. Next, we asked whether FM coding at the cortical level is innate or if its development is influenced by normal postnatal environmental experience. Finally, we investigated the effect of sustained neonatal FM sweep exposure on the development of cortical responses to tonal and FM stimuli. In our adult study, results indicated that >90% of sampled neurons were responsive to FM sweeps. The population preference was for upward FM sweeps and for medium to fast speeds ( 0.3 kHz/ms). Three types of temporal response patterns were observed: a single peak at sweep onset/offset (‘onset’) and a single peak (‘late’) or multiple peaks (‘burst’) during the sweep. ‘Late’ units expressed the highest direction and speed selectivity; ‘onset’ units were selective only for direction and ‘burst’ units were selective for neither direction nor speed. In our developmental study, our results showed a significant developmental increase in FM direction selectivity. However, FM speed selectivity appeared to be established early in development. In our developmental plasticity study, we hypothesized that constant FM exposure would increase the proportion of auditory neurons that are selectively responsive to the conditioning FM sweep. However, our results showed that while tonal response latencies increased after the exposure period, the conditioning stimulus had minimal effect on the FM direction preferences of cortical neurons and decreased overall neuronal FM speed selectivity. In conclusion, we suggest that chinchilla auditory cortical neurons are not uniquely activated by FM sounds but that FM responses are largely predictable based on how changing frequency stimuli interact with the receptive fields of these neurons. We also propose that the development of FM direction sensitivity is experience-independent and that perhaps normal acoustic experience is required to maintain FM speed tuning.

FM sweeps

development

direction selectivity

acoustic exposure

speed selectivity

conditioning

0719

Κυκλώματα υψηλών συχνοτήτων για σύστημα υπερ-ευρείας ζώνης με διαμόρφωση συχνότητας FM-UWB / High frequency circuits for a frequency modulation ultra wideband system FM-UWB

Τσίτουρας, Αθανάσιος

03 April 2015

Ο κύριος στόχος της διατριβής είναι η σχεδίαση των κύριων κυκλωμάτων ενός τηλεπικοινωνιακού συστήματος υπέρ–ευρείας ζώνης (UWB). Συγκεκριμένα, σχεδιάζονται σε τεχνολογία CMOS 90nm και αναπτύσσονται τα πλέον κρίσιμα κυκλώματα του PLL του FM-UWB πομπού με βάση ένα σύστημα FM-UWB, το οποίο στηρίζεται στη διπλή διαμόρφωση FM ευρείας ζώνης (double wideband FM modulation). Αυτά είναι το VCO, η αντλία φορτίου, ο διαιρέτης συχνότητας, και η γεννήτρια τάσης αναφοράς. Επιπλέον σχεδιάζονται ο δέκτης ο οποίος περιλαμβάνει τον προενισχυτή και τον αποδιαμορφωτή FM, δύο αρμονικοί ταλαντωτές ελεγχόμενοι από τάση για το υποσύστημα του πομπού σε τεχνολογία RF CMOS 65nm και ένας ταλαντωτής ελεγχόμενος από τάση τύπου δακτυλίου. Συνεπώς, στα πλαίσια της διατριβής αυτής σχεδιάζεται ολόκληρο το σύστημα πομπού και το σύστημα δέκτη (front-end) ώστε να αναδειχθούν οι δυνατότητες ολοκλήρωσης και τα πλεονεκτήματα της υλοποίησης ενός συστήματος FM-UWB σε πρόσφατες τεχνολογίες όπως η CMOS των 90nm και 65nm σε αντιδιαστολή με διπολικές τεχνολογίες. Με βάση τις λεπτομερείς προδιαγραφές που εξήχθησαν για τα υποσυστήματα και κυκλώματα του πομποδέκτη επιλέχτηκε η αρχιτεκτονική και σχεδιάστηκαν τα επιμέρους κυκλώματα στη ζώνη συχνοτήτων 3.1-5GHz. Για τη σχεδίαση χρησιμοποιήθηκαν το εργαλείο σχεδίασης «Cadence 5.1.41» και ο εξομοιωτής «Spectre». Για τη φυσική σχεδίαση έγινε χρήση του εργαλείων «Virtuoso XL» και «Assura». Ο πομπός αποτελείται από ένα γραμμικό VCO μεγάλου εύρους ζώνης (2.1GHz-5GHz) του οποίου η κεντρική συχνότητα ρυθμίζεται από ένα βρόχο κλειδωμένης φάσης (PLL) όταν δεν γίνεται μετάδοση δεδομένων. Στην ουσία πρόκειται για ένα PLL ο βρόχος του οποίου διακόπτεται όταν πραγματοποιείται εκπομπή πληροφορίας μέσω της διπλής διαμόρφωσης FM ενώ παραμένει κλειστός κατά τη ρύθμιση της κεντρικής συχνότητας του VCO (calibration). Το πιο κρίσιμο κύκλωμα του πομπού είναι το FM-UWB VCO. Για την ολοκλήρωση όμως του πομπού απαιτείται η σχεδίαση των υπόλοιπων κυκλωμάτων του βρόχου όπως είναι η αντλία φορτίου, ο διαιρέτης συχνότητας του βρόχου και ο ανιχνευτής φάσης-συχνότητας. Η τροφοδοσία του πομπού FM-UWB επιλέχτηκε να είναι ίση με 1V προκειμένου να ενισχυθεί η ανταγωνιστικότητα του με άλλα παρόμοια σύγχρονα συστήματα της βιβλιογραφίας. Με αρχικό στόχο την πόλωση των αναλογικών κυκλωμάτων του πομπού FM-UWB (αντλία φορτίου, διαιρέτης συχνότητας του PLL) αναπτύχθηκε μια γεννήτρια συνεχούς τάσης σε τροφοδοσία κάτω του 1V. Ο δέκτης αποτελείται από ένα συντονιζόμενο προενισχυτή και έναν αποδιαμορφωτή συχνότητας FM που σχεδιάζονται στη κεντρική συχνότητα των 4GHz με εύρος ζώνης μεγαλύτερου από 500MHz. Ο προτεινόμενος ταλαντωτής ελεγχόμενος από τάση (VCO), χαρακτηρίζεται από μεγάλο εύρος ζώνης συχνοτήτων ταλάντωσης, χαμηλή κατανάλωση και είναι κατάλληλος για iii εφαρμογές FM-UWB. Ο ταλαντωτής αυτός αποτελεί το βασικό δομικό στοιχείο ενός FM-UWB πομπού. Σχεδιάστηκε στην τεχνολογία υλοποίησης TSMC 90-nm digital CMOS, σε τάση τροφοδοσίας 1V και χαρακτηρίζεται από γραμμικό εύρος ζώνης συχνοτήτων ταλάντωσης μεταξύ 2.1GHz και 5GHz, διαφορική ισχύ εξόδου ίση με -7.83dBm  0.78dB και χαμηλή κατανάλωση ισχύος 8.26mW, συμπεριλαμβανομένης και της κατανάλωσης ισχύος των απομονωτών τάσης εξόδου (output buffers), στη μέγιστη συχνότητα ταλάντωσης. Επιπροσθέτως, έχει βελτιστοποιηθεί ως προς το λόγο εύρους ζώνης συχνοτήτων ταλάντωσης προς την κατανάλωση ισχύος TR/PDC. Η πρώτη βελτιστοποίηση έδωσε τιμή 9.95dB και η τελική έδωσε 11.97dB. Η επιθυμητή ζώνη συχνοτήτων ταλάντωσης μεταξύ 3.1GHz και 5GHz για εφαρμογές FM-UWB υπερκαλύπτεται για ολόκληρο το εύρος θερμοκρασιών που συναντάται στη βιομηχανία (από -40 oC έως 125 oC). Το εύρος συχνοτήτων ταλάντωσης βελτιώθηκε στο 130.15% (από 81.69%) και το FOM αυξήθηκε σε 143.08 (από 137.03). Επιπλέον, στη διατριβή αυτή παρουσιάζεται η σχεδίαση προγραμματιζόμενων, αντλιών φορτίου μεγάλης ακριβείας σε τάση τροφοδοσίας 1V. Τρείς συνολικά τοπολογίες μελετώνται με βασικό στόχο το καλύτερο δυνατό ταίριασμα των ρευμάτων εξόδου καθώς και τη μείωση των απότομων παρυφών ρεύματος στην έξοδο για μεγάλο εύρος τάσης εξόδου ώστε να επιτυγχάνεται αποδοτική χρήση της διαθέσιμης τάσης τροφοδοσίας (ΔVout/Vdd). Οι αντλίες φορτίου Ι, ΙΙ και ΙΙΙ χαρακτηρίζονται από μη ταίριασμα DC ρευμάτων εξόδου ίσο με 1%, 1.846% και 8% αντίστοιχα. Επιτυγχάνεται μεγαλύτερη μείωση των απότομων παρυφών ρεύματος στην έξοδο της αντλίας φορτίου ΙΙΙ σε σχέση με τις αντλίες φορτίου Ι και ΙΙ και μεγαλύτερη ταχύτητα λειτουργίας εις βάρος όμως της κατανάλωσης ισχύος. Ένα ολοκληρωμένο κύκλωμα γεννήτριας τάσης αναφοράς (Voltage reference) σχεδιάζεται επίσης, ώστε να χρησιμοποιηθεί ως κύκλωμα πόλωσης χαμηλής τροφοδοσίας κάτω του 1V ολοκληρωμένων κυκλωμάτων γενικού σκοπού. Η συνολική απόλυτη μεταβολή της τάσης αναφοράς εξόδου ως προς την μεταβολή των παραμέτρων της τεχνολογίας υλοποίησης και τις μεταβολές της τάσης τροφοδοσίας σε ευρεία κλίμακα θερμοκρασίας από -360C και 1250C ισούται με +/-3.3%. Η συνολική κατανάλωση ισχύος ισούται με 208uW. Παρουσιάζεται ακόμη η σχεδίαση ενός υποσυστήματος (front-end) δέκτη FM-UWB χαμηλού ρυθμού μετάδοσης δεδομένων (LDR, Low Data Rate), 50Kbps και μικρής εμβέλειας (<10m) με εύρος ζώνης μεγαλύτερο από 500MHz στην κεντρική συχνότητα των 4GHz. Δίνεται αναλυτικά η σχεδίαση της προτεινόμενης τοπολογίας για τον δέκτη FM-UWB στην τεχνολογία RF CMOS 65 nm ώστε να ικανοποιούνται οι προδιαγραφές του συστήματος που εξήχθησαν κατόπιν ανάλυσης. Τα αποτελέσματα του τελικού σχεδιασμού αποδεικνύουν ότι η συγκεκριμένη τεχνολογία, όταν συνδυάζεται με προσεκτικές επιλογές στη σχεδίαση μπορεί να πετύχει επιδόσεις συγκρίσιμες με τεχνολογίες SiGe BiCMOS που έχουν ενδογενή πλεονεκτήματα λόγω των ειδικών χαρακτηριστικών τους. iv Ο δέκτης FM-UWB αποτελείται από έναν προενισχυτή και ένα αποδιαμορφωτή συχνότητας FM-UWB. Η τεχνολογία υλοποίησης επιλέχτηκε να είναι η CMOS IBM των 65nm. Το συνολικό ρεύμα που απαιτείται για τη λειτουργία του πυρήνα του δέκτη FM-UWB είναι 8.093mA σε τροφοδοσία 1.8V και η ευαισθησία του δέκτη ισούται με -75.78dBm για λόγο σήματος προς θόρυβο SNRsub ίσο με 13.539dB. Συνεπώς, ικανοποιούνται πλήρως οι προδιαγραφές οι οποίες τέθηκαν ύστερα από τη μελέτη του τηλεπικοινωνιακού συστήματος FM-UWB. Η ευαισθησία του δέκτη αποδεικνύεται ότι μπορεί να αυξηθεί σε -82.95dBm για SNRsub ίσο με 13.539dB εάν προστεθεί ένα ακόμα στάδιο ενίσχυσης στο στάδιο καθυστέρησης του αποδιαμορφωτή FM-UWB με επιβάρυνση επιπλέον 8.033mW. Σχεδιάζεται επιπροσθέτως ένας αρμονικός ταλαντωτής για τον πομπό στα 65 nm ώστε να αναδειχθούν τα πιθανά οφέλη που μπορούν να προκύψουν όταν θυσιάζεται εύρος ζώνης και επιφάνεια ολοκλήρωσης εις όφελος της κατανάλωσης και των επιδόσεων του θορύβου φάσης. Για το συντονισμό αυτού του αρμονικού ταλαντωτή γίνεται χρήση μιας «hyperabrupt varactor» ώστε να επιτευχθεί εύρος ζώνης συχνοτήτων ταλάντωσης με καλή γραμμικότητα σε σύγκριση με αρμονικούς ταλαντωτές με απλή «varactor». Η συνολική κατανάλωση του πομπού FM-UWB ισούται με 5.11mW (συμπεριλαμβανομένης και της κατανάλωσης ισχύος του ενισχυτή εξόδου), ενώ το συνολικό γραμμικό εύρος ζώνης συχνοτήτων και το FOM του προτεινόμενου LC VCO ισούνται με 808ΜΗz και -173.679dB αντίστοιχα. Η ισχύς εξόδου του πομπού είναι μεγαλύτερη από -12dBm στη συχνότητα 4.14GHz και μεταβάλλεται λιγότερο από 0.5dB σε ολόκληρο το εύρος συχνοτήτων ταλάντωσης. Η καλή λειτουργία του εξασφαλίζεται στο εύρος θερμοκρασίας μεταξύ -40 0C και 1200C με θόρυβο φάσης στα 4.14GHz καλύτερο από -100dBc/Hz σε απόκλιση συχνότητας από τον φορέα 1ΜΗz. Στη συνέχεια, η ιδέα της επαναχρησιμοποίησης ρεύματος εφαρμόζεται στον παραπάνω αρμονικό ταλαντωτή-FM-UWB πομπό στα 65nm ούτως ώστε ο απομονωτής εξόδου να τοποθετείται πάνω από τον πυρήνα του LC VCO. Αυτό οδήγησε στη μείωση της αρχικής κατανάλωσης ισχύος (έως και 73.63%) ενώ διατηρήθηκαν τα παραπάνω χαρακτηριστικά του. Τέλος, σχεδιάστηκε ένα VCO τύπου δακτυλίου σε τροφοδοσία 1.8V, στα 65 nm. Καλύπτει τη ζώνη συχνοτήτων από 3.1GHz έως 5GHz με θόρυβο φάσης καλύτερο από -83dBc/Hz σε απόκλιση συχνότητας από τον φορέα ίση με 1MHz, με εύρος ζώνης διαμόρφωσης ίσο με 1MHz, παρέχοντας στην έξοδο του ισχύ μεγαλύτερη από -12dBm ενώ καταναλώνει 3.63mW. / The main purpose of this thesis is the design of the critical circuits of an Ultra Wideband (UWB) communication system. More specifically, circuits were designed for an FM-UWB system which relies on a double constant envelope FM modulation scheme. The most critical circuits of the transmitter PLL are designed in a 90nm CMOS process. These are the VCO, the loop divider, the charge pump and the voltage reference. In addition, the FM-UWB receiver front-end is designed in a 65nm RF CMOS process which includes an LNA/Preamplifier and a FM-UWB demodulator. Two harmonic LC-VCOs are also designed and one ring current-starved VCO to function as FM-UWB modulators in the transmitter path. Consequently, in this thesis the full transceiver front-end is designed in order to demonstrate the potential of its integration and the advantages of the implementation of an FM-UWB system in recent CMOS technologies such as those of 90nm and 65nm in comparison with bipolar implementations. Based on system study, the front-end circuits’ specifications were derived, the appropriate front-end architecture was selected and the front-end circuits were designed in the band of 3.1-5GHz. For the circuit design the tools of Cadence 5.1.41 and the Spectre RF Simulator were used. For the circuits layout designs the tools of Virtuoso XL and Assura were used. The transmitter consists of a linear VCO with wide tuning range (2.1GHz-5GHz) of which the central frequency is calibrated by a Phase Locked Loop when data transmission is ceased. The loop remains open when data transmission has to take place and stays closed when the VCO central frequency has to be calibrated. The most important block of the transmitter is the FM-UWB VCO. For the completion of the FM-UWB transmitter the design of other blocks such as the charge pump, the loop divider, the phase frequency detector and the voltage reference generator design is important as well. The supply voltage of 1V was selected for the FM-UWB transmitter in order to become competitive against other recent published implementations. Targeting at the biasing of the loop divider and the charge pump at the low supply voltage of 1V, a Sub-1V voltage reference generator was designed. The receiver consists of a wideband LNA/Preamplifier and a wideband FM demodulator with a center frequency at 4GHz and a useful bandwidth higher than 500MHz. Targeting at the implementation of wide frequency range (3.1-5GHz), the main purpose was the design of a linear, inductorless, low power (less than 10mW), low area, low supply voltage controlled oscillator with a phase noise better than -70dBc/Hz at 1MHz offset and small output power variation over the entire tuning range. The proposed FM-UWB VCO was designed in a 90-nm standard digital CMOS process at a supply voltage of 1V and a relatively linear tuning range is achieved between the frequencies of 2.1GHz and 5GHz, a differential vi output power of -7.83dBm 0.78dB and a low power consumption of 8.26mW when the output buffers power consumption is included at the maximum frequency of oscillation. The proposed FM-UWB VCO was optimized for the ratio of tuning range over the power consumption TR/PDC. The first optimization yields TR/PDC equal to 9.95dB and the final optimization yields TR/PDC equal to 11.974dB. The desired oscillation frequency band between 3.1GHz and 5GHz for FM-UWB applications is fully covered for the entire industrial temperature range of -40 0C to 125 0C. The tuning range of the improved VCO equals 130.15% (from 81.69%) whereas the improved VCO FOM was increased to 143.08 (from 137.03). Afterwards, programmable charge pumps with high accuracy were designed operating at the supply voltage of 1V. These charge pumps can be used in the PLL of the FM-UWB transmitter or in PLLs used for different telecommunication applications. Three in total charge pumps were designed aiming at a very good DC mismatch between the output source and sink currents, the reduction of the output source and sink current glitches for the maximum possible output voltage range. Charge pumps I, II and III achieve DC mismatch of 1%, 1.846% and 8% respectively. Charge pump III achieve lower output current glitches and higher speed of operation when compared to charge pumps I and II at the expense of higher power consumption. Furthermore, an integrated sub-1V voltage reference generator is presented. It is designed in standard 90-nm CMOS technology. The output reference voltage achieves a total absolute variation of ±3.3% over all process and supply voltage variations. The total power consumption equals 208μW. The proposed low data rate (50Kbps), short range (<10m), FM-UWB receiver front-end is designed in 65nm RF CMOS technology at a supply voltage of 1.8V with a useful bandwidth higher than 500MHz at the center frequency of 4GHz and the current reuse technique is applied aiming at the reduction of the overall power consumption around 14mW. It consists of a wideband preamplifier and a wideband FM demodulator. Final results show that CMOS technology at 65nm when it is combined with careful circuit design and specific circuit topologies can achieve comparable performance to SiGe BiCMOS technologies which have inherent advantages due to their special characteristics. The total bias current of the FM-UWB receiver core is only 8.093mA at a supply voltage of 1.8V and the receiver sensitivity equals -75.78dBm at a signal to noise ratio, SNRsub equal to 13.539dB. The receiver sensitivity can be improved to -82.95dBm at a signal to noise ratio, SNRsub equal to 13.539dB when an additional amplification stage is included in the delay element of the FM-UWB demodulator at the price of extra 8.033mW. Moreover, the design of an FM-UWB LC VCO in the 65nm RF CMOS technology is proposed as the main block of an FM-UWB transmitter. A hyperabrupt varactor is used in the vii tank of the proposed LC VCO in order to achieve linear tuning range. The total power consumption of the proposed LC FM-UWB VCO is 5.11mW including the power consumption of the output buffers, the total linear frequency range and the figure of merit, FOM equal 808MHz and -173.679dB respectively. The suggested LC VCO output power level is higher -12dBm at the frequency of 4.14GHz and varies less than 0.5dB in the entire frequency range of operation. The operation of the suggested VCO is ensured for the entire industrial temperature range between -40 0C and 120 0C with a phase noise performance better than -100dBc/Hz at the frequency offset of 1MHz at 4.14GHz. The above described performance of the proposed FM-UWB LC VCO is improved in terms of power consumption by applying the current reuse technique for the LC VCO core and the output buffer. By stacking the LC VCO core with the output buffer the power consumption can be reduced by 73.63% in comparison with the previously described LC VCO whereas the other VCO characteristics remain the same apart from the output power level which is reduced. Furthermore, a linear, inductorless VCO is proposed. This VCO is designed in 65nm RF CMOS technology and is based on the current starved topology. The suggested VCO tuning is achieved by modulating the current of the VCO core linearly by a voltage to current converter. This VCO is suitable for the FM-UWB application since it covers the frequency range between 3.1GHz to 5GHz and it achieves a phase noise performance of better than -83dBc/Hz at 1MHz offset. The VCO buffer delivers to a 50 Ohm load output power of better than -12dBm. The total VCO power consumption equals 3.63mW (including the output buffer) at a supply voltage of 1.8V and the VCO maximum modulation bandwidth equals 1MHz. Finally, it should be noted that the design of LC harmonic VCOs based on the use of hyperabrupt varactor and the linear current starved VCO design which took place in the last period of this thesis shows our effort to improve the performance of our previous work in the area of VCO circuit design by taking into account the latest published achievements of the literature. In conclusion, in this thesis all of the main VCO topologies were studied and designed for the needs of an FM-UWB transmitter front-end.

621.384 152

FM-UWB system

Phase lock loop (PLL)

An Exclusive Signal : Rinse FM and UK Club Music in the Digital Age

Kolstad Lindblad, Simen

January 2014

This master’s thesis presents a study on the mediated negotiation between radio broadcasting and digital media. During the last decade, digitalisation has become unanimous with changing media structures, and has fundamentally altered the way radio is mediated by broadcasters and perceived by listeners. This study delves deeper into specialist music radio, more specifically, the London-based UK club music station Rinse FM. The study investigates how developments in digital media have influenced the way Rinse FM is reached and utilised by listeners, and how its implementation of digital media has affected its position as a cultural intermediary within the UK club music community. The investigation was carried out though a survey, and subsequent interviews, with members of Dubstepforum; an online forum, host to a substantial quantity of UK club music listeners. The research provides interesting results on listeners’ contemporary experience of Rinse FM, and outlines pivotal functions of specialist music radio in a digital age of free-flowing music content. The results explore participants’ digital listening habits in relation to Rinse FM; as well as the role of Rinse FM as cultural intermediary and community institution, depicted through the mediated experiences of Dubstepforum members. The study concludes with reflections upon specialist music radio’s continued development, and cultural position in the digital media environment.

radio broadcasting

UK club music

Rinse FM

digital media

specialist music

audience research

podcasting

webcasting

community

Design Of An Fm-cw Radar Altimeter

Yetkil, Yasar Baris

01 December 2005

Frequency modulated continuous wave (FM-CW) radar altimeters are used in civil and military applications. Proximity fuses, automatic cruise control systems of cars, radar altimeter of planes are examples to these applications. The goal of this thesis is to present a method for altitude determination using an FM-CW radar. For this purpose principles of radars and FM-CW systems are studied and related subjects are inspected. After this inspection, algorithms for altitude determination are evaluated. Consequently signal detection and processing methods are proposed to build an altitude determining algorithm. Also an analytical test environment for altitudes between 100 m and 4000 m is developed in computer as a result of researches. Test environment simulated the performance of altitude determining algorithm and FM-CW Radar Altimeter. The hardware is designed and implemented accordingly.