Reconfigurable architectures for the next generation of mobile device telecommunications systems

Mobile devices have become a dominant tool in our daily lives. Business and personal usage has escalated tremendously since the emergence of smartphones and tablets. The combination of powerful processing in mobile devices, such as smartphones and the Internet, have established a new era for communications systems. This has put further pressure on the performance and efficiency of telecommunications systems in delivering the aspirations of users. Mobile device users no longer want devices that merely perform phone calls and messaging. Rather, they look for further interactive applications such as video streaming, navigation and real time social interaction. Such applications require a new set of hardware and standards. The WiFi (IEEE 802.11) standard has been at the forefront of reliable and high-speed internet access telecommunications. This is due to its high signal quality (quality of service) and speed (throughput). However, its limited availability and short range highlights the need for further protocols, in particular when far away from access points or base stations. This led to the emergence of 3G followed by 4G and the upcoming 5G standard that, if fully realised, will provide another dimension in “anywhere, anytime internet connectivity.” On the other hand, the WiMAX (IEEE 802.16) standard promises to exceed the WiFi signal coverage range. The coverage range could be extended to kilometres at least with a better or similar WiFi signal level. This thesis considers a dynamically reconfigurable architecture that is capable of processing various modules within telecommunications systems. Forward error correction, coder and navigation modules are deployed in a unified low power communication platform. These modules have been selected since they are among those with the highest demand in terms of processing power, strict processing time or throughput. The modules are mainly realised within WiFi and WiMAX systems in addition to global positioning systems (GPS). The idea behind the selection of these modules is to investigate the possibility of designing an architecture capable of processing various systems and dynamically reconfiguring between them. The GPS system is a power-hungry application and, at the same time, it is not needed all of the time. Hence, one key idea presented in this thesis is to effectively exploit the dynamic reconfiguration capability so as to reconfigure the architecture (GPS) when it is not needed in order to process another needed application or function such as WiFi or WiMAX. This will allow lower energy consumption and the optimum usage of the hardware available on the device. This work investigates the major current coarse-grain reconfigurable architectures. A novel multi-rate convolution encoder is then designed and realised as a reconfigurable fabric. This demonstrates the ability to adapt the algorithms involved to meet various requirements. A throughput of between 200 and 800 Mbps has been achieved for the rates 1/2 to 7/8, which is a great achievement for the proposed novel architecture. A reconfigurable interleaver is designed as a standalone fabric and on a dynamically reconfigurable processor. High throughputs exceeding 90 Mbps are achieved for the various supported block sizes. The Reed Solomon coder is the next challenging system to be designed into a dynamically reconfigurable processor. A novel Galois Field multiplier is designed and integrated into the developed Reed Solomon reconfigurable processor. As a result of this work, throughputs of 200Mbps and 93Mbps respectively for RS encoding and decoding are achieved. A GPS correlation module is also investigated in this work. This is the main part of the GPS receiver responsible for continuously tracking GPS satellites and extracting messages from them. The challenging aspect of this part is its real-time nature and the associated critical time constraints. This work resulted in a novel dynamically reconfigurable multi-channel GPS correlator with up to 72 simultaneous channels. This work is a contribution towards a global unified processing platform that is capable of processing communication-related operations efficiently and dynamically with minimum energy consumption

Efficient Ultra High Voltage Controller Based Complementary Metal Oxide Semiconductor Switched Capacitor DC-DC Converter For Radio Frequency Micro Electro Mechanical Systems Switch Actuation

Achieving wireless connectivity in ever smaller, lower power portable devices with increasing number of features and better radio-frequency (RF) performance is becoming difficult to fulfill through existing RF front-end technology. RF micro-electro-mechanical systems (MEMS) switch technology, which has significantly better RF characteristics than conventional technology and has near-zero power consumption, is one of the emerging solutions for next generation RF front-ends. However, to achieve satisfactory RF MEMS device performance, it is often necessary to have an actuating circuitry to generate high direct current (DC) voltages for device actuation with low power consumption. In this study, the authors present an RF MEMS switch controller based on a switched-capacitor (SC) DC-DC converter in a 0.35 μm CMOS technology. In this design, novel design techniques for a higher output voltage and lower power consumption in a smaller die area are proposed. The authors demonstrate the design of the high-voltage (HV) SC DC-DC converter by using low-voltage transistors and address reliability issues in the design. Through the proposed design techniques, the SC DC-DC converter achieves more than 25% higher boosted voltage compared to converters that use HV transistors. The proposed design provides 40% power reduction through the charge recycling circuit. Moreover, the SC DC-DC converter achieves 45% smaller than the area of the conventional converter

Speedy Derivative-Corrective Mass Spring Algorithm For Adaptive Impedance Matching Networks

Adaptive impedance matching algorithms are used to preserve the link quality of mobile phones, under fluctuating user conditions. It is highly desirable to reduce the search time for minimising the risk of data loss during the impedance tuning process. Presented is a novel technique to reduce the search time by more than an order of magnitude by exploiting the relationships among the mass spring's coefficient values derived from the matching network parameters, thereby significantly reducing the convergence time of the algorithm

Practical Design Strategy for Two-phase Step up DC-DC Fibonacci Switched-Capacitor Converter

The Fibonacci Switched-Capacitor (SC) converter demonstrates the highest performance by using minimum number of capacitors. However, as the Fibonacci SC requires a wide range of voltage rating of the devices, its implementation is difficult. This paper presents two gate driving techniques for designing and implementing two-phase Fibonacci SC converter for both low and high step-up conversion ratios. The proposed gate driving techniques only require few auxiliary transistors to provide the required boosted voltages for turning the charge transfer switches in the converter on and off. As a result, the proposed gate driving techniques reduce the design complexity and increase the reliability of the Fibonacci SC converter. Practical 8X and 5X Fibonacci SC converters are simulated and constructed based on the proposed techniques. The high conversion efficiencies achieved prove the effectiveness of the proposed techniques

An Evaluation of 2-phase Charge Pump Topologies with Charge Transfer Switches for Green Mobile Technology

The development of charge pumps has been motivated by the power supply requirements of portable electronic devices. Charge pumps are inductorless DC-DC converters that are small size and high integration. The quality of the charge pump greatly depends on the effectiveness of switches to turn on and off at the designated clock phases. However, to date, no analysis has been carried out on the overall performance of charge pumps based on switch components in practice. This work demonstrates the characteristics of transistors as charge transfer switches and their effects on the performance of a charge pump. Three most common charge pump topologies are evaluated in terms of voltage drop due to on-resistance and charge loss per switch. Simulations are performed in 0.35μm Austriamicrosystems (AMS) technology for Dickson, Voltage Doubler and Makowski charge pump topologies in steady and dynamic states. In addition, the effect of switch parameters for different charge pump topologies are compared and analysed. We demonstrate that the Makowski charge pump is the topology for future green mobile technology

Effect of early tranexamic acid administration on mortality, hysterectomy, and other morbidities in women with post-partum haemorrhage (WOMAN): an international, randomised, double-blind, placebo-controlled trial

Background Post-partum haemorrhage is the leading cause of maternal death worldwide. Early administration of tranexamic acid reduces deaths due to bleeding in trauma patients. We aimed to assess the effects of early administration of tranexamic acid on death, hysterectomy, and other relevant outcomes in women with post-partum haemorrhage. Methods In this randomised, double-blind, placebo-controlled trial, we recruited women aged 16 years and older with a clinical diagnosis of post-partum haemorrhage after a vaginal birth or caesarean section from 193 hospitals in 21 countries. We randomly assigned women to receive either 1 g intravenous tranexamic acid or matching placebo in addition to usual care. If bleeding continued after 30 min, or stopped and restarted within 24 h of the first dose, a second dose of 1 g of tranexamic acid or placebo could be given. Patients were assigned by selection of a numbered treatment pack from a box containing eight numbered packs that were identical apart from the pack number. Participants, care givers, and those assessing outcomes were masked to allocation. We originally planned to enrol 15 000 women with a composite primary endpoint of death from all-causes or hysterectomy within 42 days of giving birth. However, during the trial it became apparent that the decision to conduct a hysterectomy was often made at the same time as randomisation. Although tranexamic acid could influence the risk of death in these cases, it could not affect the risk of hysterectomy. We therefore increased the sample size from 15 000 to 20 000 women in order to estimate the effect of tranexamic acid on the risk of death from post-partum haemorrhage. All analyses were done on an intention-to-treat basis. This trial is registered with ISRCTN76912190 (Dec 8, 2008); ClinicalTrials.gov, number NCT00872469; and PACTR201007000192283. Findings Between March, 2010, and April, 2016, 20 060 women were enrolled and randomly assigned to receive tranexamic acid (n=10 051) or placebo (n=10 009), of whom 10 036 and 9985, respectively, were included in the analysis. Death due to bleeding was significantly reduced in women given tranexamic acid (155 [1·5%] of 10 036 patients vs 191 [1·9%] of 9985 in the placebo group, risk ratio [RR] 0·81, 95% CI 0·65–1·00; p=0·045), especially in women given treatment within 3 h of giving birth (89 [1·2%] in the tranexamic acid group vs 127 [1·7%] in the placebo group, RR 0·69, 95% CI 0·52–0·91; p=0·008). All other causes of death did not differ significantly by group. Hysterectomy was not reduced with tranexamic acid (358 [3·6%] patients in the tranexamic acid group vs 351 [3·5%] in the placebo group, RR 1·02, 95% CI 0·88–1·07; p=0·84). The composite primary endpoint of death from all causes or hysterectomy was not reduced with tranexamic acid (534 [5·3%] deaths or hysterectomies in the tranexamic acid group vs 546 [5·5%] in the placebo group, RR 0·97, 95% CI 0·87-1·09; p=0·65). Adverse events (including thromboembolic events) did not differ significantly in the tranexamic acid versus placebo group. Interpretation Tranexamic acid reduces death due to bleeding in women with post-partum haemorrhage with no adverse effects. When used as a treatment for postpartum haemorrhage, tranexamic acid should be given as soon as possible after bleeding onset. Funding London School of Hygiene & Tropical Medicine, Pfizer, UK Department of Health, Wellcome Trust, and Bill & Melinda Gates Foundation

Single-Port Beamforming Algorithm for 3-Faceted Phased Array Antenna

The implementation cost of a phased array antenna is high due to the large number of RF components required in the system. Migrating from the multiport beamforming system to a single-port beamforming system is a promising alternative. In this letter, a novel single-port beamforming algorithm using the pseudo-inverse function is proposed. The signal received at each element is estimated from the combined signal that is generated by the single-port output system.With the estimated values, the array weight is then calculated for the desired radiation pattern. The single-port concept is implemented on a 3-faceted antenna array and simulated in MATLAB. The results show that adaptive beamforming can be achieved with the estimated signals, and this technique has a faster execution time compared to a multiport beamformer. With reduced component count and implementation cost,the proposed technique demonstrates potential for commercial deployment in the mobile communication industry

Uniform Circular Arrays for Phased Array Antenna

This paper compares the performances of a number of uniform circular array (UCA) configurations for phased array antennas. A UCA geometry is targeted due to its symmetrical configuration which enables the phased array antenna to scan azimuthally with minimal changes in its beam width and sidelobe levels. Each UCA configuration consists of 19 isotropic elements. Particle Swarm Optimization (PSO) is used to calculate the complex weights of the antenna array elements in order to adapt the antenna to the changing environments. Comparisons are made in the context of adaptive beamforming properties and Signal to Interference Ratio (SIR). The results obtained suggest that a planar uniform hexagonal array PUHA (1:6:12) is suitable for high resolution applications as its sidelobe levels are the lowest compared to the other geometries

Triangular Lattices for Mutual Coupling Reduction in Patch Antenna Arrays

One of the issues in antenna arrays is the mutual coupling that occurs when two radiating elements are placed together. Mutual coupling can significantly degrade the performance of an antenna array. In this paper, we propose a triangular lattice configuration as a technique to reduce the mutual coupling in patch antenna arrays. A 4-element circular patch array with a triangular lattice is simulated and compared against a 4-element circular patch array with a square lattice in terms of their mutual coupling and radiation pattern. Comparisons are also made with other mutual coupling reduction techniques for closely packed antennas such as ground structure with slits, ground structures with removed substrates and ground structures with metal wall. The triangular lattice concept is then extended to the 9-element circular patch array. The 4-elements circular patch array with the triangular lattice and square lattice operating at 2.6GHz are then fabricated on FR4 printed circuit board