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This page contains information of postgraduate students.  First a summary of the names/topics and then a list of the same students with the thesis abstract added. Names of students are in order of degree or registration.

  • Jacques Maree - Low phase noise X-band oscillator
  • Eben Matthews - Low phase noise voltage controlled oscillators (VCO's)
  • Johan Grobbelaar - - Phase noise meter
  • John van der Merwe - An Experimental Investigation into the Validity of Leeson's Equation for Low Phase Noise Oscillator Design
  • Francois Schonken - Optimized transceiver for various types of propagation environments
  • Sampie Booysen - Microwave QPSK video transmission system
  • Elrien Vermaak -Low phase noise voltage controlled oscillators (VCO's)
  • Erik-Jan Moes - Modulation techniques in two-way radios
  • Nauwaf AlAslami - Microwave DRO design for satellite applications
  • Brendon Bentley - An Investigation into the Phase Noise of Quartz Crystal Oscillators
  • David Smith - Satellite data transmission by menas of a multi-channel system
  • Wynand de Wit - Linearization of an FM-CW 94 GHz millimeter wave radar
  • Pieter Winter - Positioning system for mobile robot
  • Thinus Neethling - A Broadband Microwave Limiting Amplifier
  • Quintin Engelbrecht - Design and Analysis of Broadband Microwave PIN Diode Switches
  • Valpré Kellerman - Digital two-way radio
  • Robert Kellerman - The Design of an FMCW Proximity Radar
  • Jacques Malan - Microwave Data Transmission by means of an Optimal Bandwidth Multi-channel QPSK System
  • Johann Gerber - A Load Independent Microwave Source
  • Anton Snyman - Frequency Synthesizer
  • Marius van der Merwe - Harmonic Mixer Analysis and Design
  • Willem Koenz - Design and Characterization of Diode Detectors
  • Coenrad Fourie - RSFQ Digital Filters (FIR)
  • Nico Geldenhuys - Microwave Frequency Discriminators
  • Werner Steyn - X-Band Receiver Front End Optimised for Height Temperature Superconductors
  • Ingolf Meier - Interference Patterns Synthesis for Microwave Dielectric Heating
  • Diana ViljoenTemperature Control for Food Research
  • Pieter K Siebrits - Adaptive Control for Microwave Heating
  • Francois Visser - A Two-Element UHF Adaptive Receiver Array

David Smith (MSc.Eng - degree in 2006)

Title: Satellite data transmission by menas of a multi-channel system
The aim of this thesis is to find an affordable and upradeable manner of increasing the data rate of current satellite systems. The compression, modulation and amplification techniques and telecommunication regulations restrict the data rate, which are bypassed by designing a parallel channel configuration. In order to test this solution a system is developed that is based on the existing standards of DVB-S and MPEG-2. The combination of these standards protect the data from interference, package the data for ease of storage, modulate the data to more effectively radiate the signal and shape the spectrum to adhere to telecommunication regulation. The spacing between the channels is reduced and the transmitted signal is amplified to inject interference into the system. The effect of this interferece on the receiver is shown by transmitting image data and comparing the received image with the original.

Wynand de Wit (MSc.Eng - degree in 2006)

Title: Linearization of an FM-CW 94 GHz millimeter wave radar
The topic of millimeter wave radar systems is introduced. These radars are used in a wide range of applications in both the aviation and automotive field due to the resolution advantages which MMV systems have above their counterparts. MMV components are studied and characterised to improve on existing linearisation technique. Different possible linearisation techniques are discussed and compared to choose the best possible technique for this application. This technique was developed and implemented in the existing system.

Pieter Winter (MSc.Eng - degree in 2005)

Title: Position Control of a Mobile Robot
Position calculation of mobile objects has challenged engineers and designers for years and is still continuing to do so. There are many solutions available today. Probably the best known and most widely used outdoor system today is the Global Positioning System (GPS). There are very little systems available for indoor use. An absolute positioning system was developed for this thesis. It uses a combination of ultrasonic and Radio Frequency (RF) communications to calculate a position fix in doors. Radar techniques were used to ensure robustness and reliability even in noisy environments. A small mobile robot was designed and built to test and illustrate the use of the system.

Thinus Neethling (MSc.Eng - degree in 2004)

Title: A Broadband Microwave Limiting Amplifier
Limiting amplifiers are employed in electronic warfare (EW) systems requiring a high measure of amplitude control. These EW systems employ sensitive signal processing components that are unable to accept the full dynamic range of input signals the system must face. The limiting amplifier, however, offers the unique capability of reducing the received signal spectrum to a suitable dynamic range.
Typical application of the limiting amplifier is in the instantaneous frequency measurement receiver (IFM) where the limiting amplifier allows the receiver to accurately measure pulsed signals over a wide input dynamic range. The aim of this study is the design and analysis of a broadband limiting amplifier. Focus is placed on the design of a so-called “backbone” limiting amplifier (BLA) which forms an integral part of a proposed modular design approach for realizing a design with improved input dynamic range. The designed BLA is discussed in this thesis while insight is given as to the intricacies associated with its mechanism of operation. Over its 45 dB (-40 to 5 dBm) input dynamic range, the designed 2-18 GHz limiting amplifier offers a typical saturated output power of 7.5 dBm while harmonic suppression of better than 8.6 dBc is achieved.
The BLA design was based on an existing limiting amplifier design, the so-called “baseline” limiting amplifier, employing alternating amplifiers and attenuators. Evaluation of the “baseline” limiting amplifier design allowed for formulation of a design hypothesis for realizing the BLA design. Physical measurements on the BLA were then used to scrutinize and validate the formulated design hypothesis.
The requirements for realizing the BLA design were the establishment of a thorough radio frequency (RF) amplifier design capability, and understanding of the nonlinear phenomena associated with the RF amplifier and the utilization and control thereof within the limiting amplifier. Different RF amplifier designs that were done are discussed in this thesis, while it is shown how they were used to further investigate important design considerations for application in the BLA design. The computer-aided design packages namely MultiMatch and Microwave Office (MWO) were successfully used in realizing the desired broadband RF amplifier designs and the eventual BLA design.

Quintin Engelbrecht (MSc.Eng - degree in 2004)

Title: The Design of an FMCW Proximiry Radar
The aim of this thesis is the analysis and design of a broadband PIN diode switch
. Pin diode switches are gaining popularity in RF and microwave applications today. This is due to their excellent switching and power handling capabilities, reliability, low cost and small size. An analysis and design procedure for broadband PIN diode switch design, using the series, shunt and compound topologies respectively, is presented.
In order to do a proper switch design, accurate practical models for the components are required. Parameter extraction therefore formed an important consideration for this study. A parameter extraction procedure is presented, which enables the designer to very accurately extract the required models for the components in the environment they operate in. The designer can then do a proper design to ensure that the switch response when measured, closely corresponds to that simulated.
A compound configuration switch was designed, built and measured to confirm the validity of the design procedure. The results illustrate that if the extracted models of the components are integrated into the design, the measured and simulated response compare remarkably well.

Valpré Kellerman (MSc.Eng - degree in 2004)

Title: The Design of an FMCW Proximiry Radar
The preliminary development of a FM radio receiver module is discussed. An existing narrowband system operating between 48MHz and 50MHz will be replaced. Digital components were investigated, compared and used with analogue techniques to build a more flexible two-way radio receiver system. A direct digital Synthesizer was considered as a replacement for the current synthesized phased lock loop oscillator and much attention was given to the local oscillator and mixer design, characteristics and measurement procedures.
A detailed study of receiver systems was undertaken to determine the specifications needed for every receiver component to achieve satisfactory receiver performance in the end. Receiver characteristics as well as receiver measurement procedures are defined. A software tool was developed to aid the design process, establishing computationally whether the receiver specifications are met prior to the final design.
The complete design process, from fundamental specifications through to the developed final receiver module is discussed. A modular design approach was used to guarantee easy manufacturing, substitution and testing, This approach comprises the break-down of the receiver into well defined components that are each matched to 50Ω. The separate components of the system were designed, measured and characterized to make it possible to replace only a single component instead of the entire system when a part becomes redundant.

Robert Kellerman (MSc.Eng - degree in 2004)

Title: The Design of an FMCW Proximiry Radar
The development of a small, cost effective short range FM-CW radar as well as the design and optimization of a double helix antenna is discussed. The FM-CW radar operates at S-band (2450-2550 MHz) and is limited at a maximum transmitted power of 5 dBm. The system is required to detect reflections from objects up to a 30m range. This was made possible largely by the effective high gain antenna design and improved system isolation between the transmitted and received signals.
The complete design process from fundamental requirements, through various simulations and system analysis to the final electronic circuit is discussed. The design was also built and measured in the laboratory and initial field measurements were taken. The following aspects were considered:
- Relation between the beat frequency and various FM-CW radar system parameters based on the theory, preliminary measurements and simulations.
- Radar component assessment and design.
- Design of a low cost Lange coupler that isolates the system’s transmit and receive signals, which operates as a 90o hybrid and is used to feed a duel-fed circularly polarized patch antenna.
- A circularly polarized patch antenna and double helix antenna were designed, built and measured in an anechoic chamber. The antennas were implemented in the final radar system and compared on the basis of their contribution to the system’s performance.
- Integrating the final radar system on a circular 60mm diameter PCB with a double helix antenna mounted on top.
The final radar system is able to measure range up to 40m and meets all the design requirements. The signal processing of the measured beat frequency, however, can be taken further.

Jacques Malan (MSc.Eng - degree in 2004)

Title: Microwave Data Transmission by means of an Optimal Bandwidth Multichannel QPSK System
The increase in the complexity and functionality of new satellites leads to a growing demand for a digital communication system operating at a much higher bit rate than before. The main purpose of this thesis is to address precisely this problem.
The theory as well as a practical high speed system are custom-developed. The goal of this thesis is not to reinvent the wheel, but to use off-the-shelf products as far as possible. This system demonstrates that a very high data rate is not out of reach for a developer with limited funds.
The secondary goal is to understand the operation of this communication system. The emphasis is on the inaccuracies in the system. A design tool s created to act as a vehicle for understanding the influence of a single variable on the performance of the entire system.

Johann Gerber (MSc.Eng - degree in 2002)

Title: A Load Independant Microwave Source
In the past few years a need for consulting on microwave heating has surfaced. Since most specialised microwave components are imported, this adds a hefty price tag in developing the infrastructure for such consultation. This thesis looks at the design of low cost alternatives for use in the laboratory. A microwave source output with variable output power is often required for consultation. The calculation of product costs may also be simplified if the available microwave power is constant despite load changes. The magnetron as a load was first investigated and a high voltage SMPS was then designed to control the output of the magnetron according to operator / consulting requirements. To ensure adequate feedback of system output and load matching, a dual directional coupler has been designed and implemented. Since the amount of microwave power required has a direct impact on the initial capital expenditure, costs need to be kept low by optimising the system. An impedance matching unit was designed to match the magnetron with the load, saving energy and reducing system costs. Through automation, the system will strive for the optimum load condition without operator intervention.

Marius van der Merwe (MSc.Eng - degree in 2002)

Title: Harmonic Mixer Analysis and Design
Harmonic mixers are capable of extended frequency operation by mixing with a harmonic of the LO (local oscillator) signal, eliminating the need for a high frequency, high power LO. Their output spectra also have certain characteristics that make them ideal for a variety of applications. The operation of the harmonic mixer is investigated and the mixer is analyzed using an extension of the classic mixer theory. The synthesis of harmonic mixers is also investigated and a design procedure is proposed for the design and realization of a variety of harmonic mixers. This design procedure is evaluated with the design and realization of two harmonic mixers, one in X-band and the other in S-band. Measurements suggest that the procedure is successful for the specific applications.

Willem Koen (MSc.Eng - degree in 2001)

Title: Design and Characterization of Diode Detectors
The use of diode detectors for power measurement and AM demodulation is not a new subject. The design and characterization of optimum diode detectors can, however, always be improved. In this thesis a step-by-step design procedure is presented for the design of various diode detectors. The design itself is not a complex task, but the success of the results depends on the characterization of both the detector and the diode. A method to extract optimized diode models from DC and small signal measurements are presented. Analyzing the detector circuit with the harmonic balance technique does the characterization of the detector. These results can be used to create an error-correcting algorithm to compensate for the non-linear behaviour of diode detectors and to improve the dynamic range and sensitivity of the design.

Coenrad Fourie (MSc.Eng - degree in 2001) (co-supervisor with Prof. Willem Perold)

Title: A 10 GHz ADC in Hybrid SUperconducting Logic
Rapid Single Flux Quantum (RSFQ) logic cells are discussed, and new cells developed. The expected yield of every cell is computed through a Monte Carlo analysis, and where necessary these cells are optimized for use in a complex system. A mathematical study of the Josephson junction and SQUIDs (Superconducting Quantum Interference devices) as switching elements precede a discussion on the operation of RSFQ and COSL (Complementary Output Switching Logic.) These logic families are implemented in low temperature niobium technology, and require liquid helium cooling. A 10 GHz over-sampling delta modulating analogue-to-digital converter is then designed and constructed using RSFQ and COSL building blocks in a hybrid configuration. The design emphasis is on devising ways to test the operation of RSFQ with limited equipment. Yield analysis procedures on the complex system are discussed, followed by a detailed discussion on the circuit layout and layout problems. Software routines are developed to calculate the required dimensions of layout structures.

Nico Geldenhuys (MSc.Eng - degree in 2001)

Title: Microwave Frequency Discriminators
The topic of microwave frequency discriminators is introduced. Various applications and implementation techniques of these devices are given and discussed. This thesis may serve as reference foundation for future research on this topic. Discriminators are developed at both S- and X-band, with high linearity and good sensitivity. The systems used to implement these devices are developed as well. The S-band discriminator is used in a direct FM demodulation system, which works well.

Werner Steyn (M. Eng. - degree in 1998) (co-supervisor with Prof. Petrie Meyer)

Title: X-Band Receiver Front End Optimised for Hight Tmeperature Superconductors
The recent international progress made in the fabrication of HTS components and systems for microwave applications created the need to fabricate and verify the performance of these components locally. An investigation into the design and manufacture of an X-band receiver front end with HTS technology was launched with this report forming stage two of a long-term research project.
In this report a room temperature X-band receiver front end is presented. All the components of the receiver are designed and manufactured with transition to a future cryogenic X-band receiver in mind. While this will result in a more meaningful comparison between the two systems, it also gives invaluable insight into the design procedures and problems of the eventual HTS system.

Ingolf Meier (PhD - started 1997)

Title: Interference Patterns Synthesis for Microwave Dielectric Heating
One of the most difficult problems in microwave dielectric heating is the generation and control of field and heating patterns. A technique allowing the synthesis of different, pre-determinable heating patterns by interference modulation is proposed.
The proposed concept may be described by the term 'interference modulation'. Interference modulation is a technique that enables particular patterns, called features, to be obtained by signals from several sources interfering with each other. Known features may be selected by modulating the relative phases of the signals. Weights are assigned to these features, which may be combined over time to form a new heating pattern. Phase changes may then be used to switch to specific, known features, with weights that will determine the contribution of each feature to the desired overall pattern.
In the practical implementation described, magnetron tubes are the sources. Each of these narrow-band high-power sources was injection locked to a low power control signal. The control signals are derived from a reference source and their phase is set to select a corresponding feature.
Calculation and measurement showed that reliable locking occurs with a control signal power of at least 3% of the magnetron's emitted power.
Measurements of patterns were carried out with materials formed into sheets and blocks. Some were chemically prepared to reveal the overall heating pattern. The observed patters, simulations and field measurements concur, thus validating the concept and operation of the proposed topology.

Diana Viljoen (M. Sc. Degree in 1997) (Co-supervisor with MM Muller)

Title: Temperature Control for Food Research
The aims of this study were to test a conventional electric oven with an electronic temperature controller [ETC], to develop and test a computerized temperature control system [CTCS] in two similar ovens [oven A and oven B] and to determine the effect of heating on time/ temperature measurements and product quality characteristics in cakes and biscuits as determined by instrumental measurements and analytical sensory analysis. With the CTCS the aim was also to establish the significance of temperature control to within 1° C the effect of the presence of additional moisture on the environment and the product in the oven cavity, as well as the efficiency of two temperature control systems [four thermocouples versus eight thermocouples].
The ETC is less consistent than the CTCS within replications with regard to average oven temperature, moisture-loss and Hunter L-values.
The CTCS with eight thermocouples provides a more valid indication of the environment in the oven cavity and the effect of heat on products. No significant differences were fund in average oven temperature between oven A and oven B, as well as within treatment replications. However, there is a significant difference between oven A and oven B with regard to the dissipation of moisture. This is also shown in results with regard to moisture-loss and colour measurements. Cakes baked in oven B show significantly more moisture-loss [approximately 1 g] than those baked in oven A. The two ovens dissipate moisture in different ways and average oven temperature is significantly correlated with moisture-loss, which is possibly the reason for this phenomenon. Hunter L-values are also significantly correlated with average oven temperature and moisture-loss. No significant differences were fund between oven A and oven B with regard to height of cakes and texture of cakes and biscuits. In most cases, regression is linear with regard to selected time/temperature measurements and product quality characteristics as oven temperature increases by 1° in oven A and oven B. These results illustrates the efficiency of the CTCS.
The measurements conducted to determine product quality characteristics are valid with reference to their applicability in this study. The effect of temperature on the colour and moisture-loss of products is effectively illustrated by these measurements. However, height and texture measurements do not provide a clear indication of the effect of the small differences in temperature, i.e. 1°C, between treatments.
The CTCS significantly improves the reproducibility of the quality characteristics of baked products and therefore provides more consistent and repeatable results which, in turn, improves the reliability of research findings.

Pieter K Siebrits (M. Eng. - degree in 1997)

Title: Adaptive Control for Microwave Heating
The developments over the past few years in the microwave and dielectric heating field has led to this research project. Research identified the need for developing a controller that could accurately control the temperature of a wide variety of materials. The electronic and chemical engineering departments started working in close collaboration in this regard.
A robust adaptive controller was developed and compared to a classic Proportional-plus-Integral controller commonly found in industry. Both pulsed and continuous methods were used for varying microwave power. On evaluating the adaptive controller excellent experimental results were obtained.
To control the power and calculate the power efficiency, accurate calibration techniques must be implemented. Therefore different calibration techniques such as the through-reflect-line- approach and a predefined calibration kit were investigated.

Francois Visser (M. Eng. - degree in 1997)

Title: A Two-Element UHF Adaptive Receiver Array.
This document discusses the design, assembly and test results of a two-element adaptive receiver array. The system is intended for use as a ground station to link with the SUNSAT micro satellite once it is in orbit. A UHF narrowband receiver that was originally developed for SUNSAT's UHF system is used to demodulate the received signal.
The array optimizes received signal strength by adjusting the phase shift and attenuation in each of the antenna element channels. A received signal strength indicator [RSSI] output is provided by the receiver and is digitally sampled by a computer to be used as feedback signal.
A number of building blocks have been developed for the adaptive system. The phase shifters and attenuators are digitally controlled by computer via a central bus. A hybrid power combiner adds the signal power in the two channels together and feeds it to the UHF receiver to be demodulated.
Measurements that were performed on the system show that it has promising potential as a signal tracker. When a single transmitter is placed at a certain angle to the array, the received signal strength has a well-defined peak when the array is steered in that direction. Performance of the array also agrees well with the theory. A method was devised to determine mismatches between channels and to account for their effects with post-processing of the measured data.
A simple search algorithm was written to automatically adjust the array parameters for maximum received signal strength. Its performance is satisfactory.
Since each channel is designed to be identical, the modules may be duplicated exactly if the array is to be expanded to incorporate more elements.