Low-voltage CMOS log-companding techniques for audio applications

This paper presents a collection of novel current-mode circuit techniques for the integration of very low-voltage (down to 1 V) low-power (few hundreds of μA) complete SoCs in CMOS technologies. The new design proposal is based on both, the Log Companding theory and the MOSFET operating in subthreshold. Several basic building blocks for audio amplification, AGC and arbitrary filtering are given. The feasibility of the proposed CMOS circuits is illustrated through experimental data for different design case studies in 1.2 and 0.35 μm VLSI technologies.Comisión Interministerial de Ciencia y Tecnología TIC97-1159, TIC99- 1084European Union ESPRIT-FUSE-2306

Space station common module network topology and hardware development

Conceptual space station common module power management and distribution (SSM/PMAD) network layouts and detailed network evaluations were developed. Individual pieces of hardware to be developed for the SSM/PMAD test bed were identified. A technology assessment was developed to identify pieces of equipment requiring development effort. Equipment lists were developed from the previously selected network schematics. Additionally, functional requirements for the network equipment as well as other requirements which affected the suitability of specific items for use on the Space Station Program were identified. Assembly requirements were derived based on the SSM/PMAD developed requirements and on the selected SSM/PMAD network concepts. Basic requirements and simplified design block diagrams are included. DC remote power controllers were successfully integrated into the DC Marshall Space Flight Center breadboard. Two DC remote power controller (RPC) boards experienced mechanical failure of UES 706 stud-mounted diodes during mechanical installation of the boards into the system. These broken diodes caused input to output shorting of the RPC's. The UES 706 diodes were replaced on these RPC's which eliminated the problem. The DC RPC's as existing in the present breadboard configuration do not provide ground fault protection because the RPC was designed to only switch the hot side current. If ground fault protection were to be implemented, it would be necessary to design the system so the RPC switched both the hot and the return sides of power

PWM Techniques: A Pure Sine Wave Inverter

The ever-increasing reliance on electronic devices which utilize AC power highlights the problems associated with the unexpected loss of power from the electrical grid. In places where the electrical infrastructure is not well-developed, brown-outs can prove fatal when electronic medical instruments become unusable. Therefore, there is a need for inexpensive and reliable pure-sine wave inverters for use with medical devices in the underdeveloped world. This report documents the development of one component of an uninterruptible power supply, the DC-to-AC inverter. The three-level PWM system within this report is created with the possibility of a feedback-regulated system to be implemented in the future

NASA Tech Briefs Index, 1977, volume 2, numbers 1-4

Announcements of new technology derived from the research and development activities of NASA are presented. Abstracts, and indexes for subject, personal author, originating center, and Tech Brief number are presented for 1977

New Possibilities In Low-voltage Analog Circuit Design Using Dtmos Transistors

(Doktora) -- İstanbul Teknik Üniversitesi, Fen Bilimleri Enstitüsü, 2013(PhD) -- İstanbul Technical University, Institute of Science and Technology, 2013Bu çalışmada DTMOS yaklaşımı çok düşük besleme gerilimlerinde çalışan çok düşük güç tüketimli devrelere başarıyla uygulanmıştır. Tasarlanan devreler arasında OTA, OP-AMP, CCII gibi analog aktif yapı blokları, çarpma devresi, sadece-MOS yapılar gibi devreler bulunmaktadır. Tasarlanan devreler SPICE benzetimleri ile doğrulanmıştır. İleri yönde gövde kutuplamaya bağlı olarak DTMOS transistorun yapısından kaynaklanan, efektif olarak düşük eşik gerilimli çalışma özelliği nedeniyle, çok düşük güç tüketimli ve çok düşük gerilimli devrelerde DTMOS yaklaşımının geçerli bir alternatif olduğu bu çalışmayla gösterilmiştir. DTMOS yaklaşımının geniş bir alanda çeşitlilik gösteren analog devre yapılarında çok düşük besleme gerilimlerinde bile kabul edilebilir bir performansla kullanılabileceği bulunmuştur.In this study, DTMOS approach to the design of ultra low-voltage and ultra low-power analog circuits, has been successfully applied to the circuits ranging from EEG filtering circuits, speech processing filters in hearing aids, multipliers, analog active building blocks: OTA, OP-AMP, CCII to MOS-only circuits. The proposed circuits are verified with SPICE simulations. It is found that in designing ultra low-voltage, ultra low-power analog circuits, DTMOS approach is a viable alternative due to its inherent characteristic of effective low threshold voltage behaviour under forward body bias. This approach can be applied to several analog application subjects with acceptable performance under even ultra low supply voltages.DoktoraPh

Development of a Self-Balancing robot utilizing FPGA

The popularity of self-balancing vehicles in modern times is rising as the price of consumer electronics is on a steady decline. Consumers have more access to smarter electronics and mechatronics devices. Self-Balancing vehicles have become an exciting new method of human transport that have the potential to redefine the way we traverse our cities. This document will outline the research, design, construction, implementation and analysis that has been undertaken to develop from the ground up, a scaled down version of a self-balancing vehicle. The two wheeled self-balancing robot discussed in this project will take advantage of National Instruments myRIO-1900 embedded hardware device and will utilize the Field Programmable Gate Array (FPGA) embedded hardware along with PID feedback control loops to achieve stabilization in this inherently unstable system. The final section of this document details the techniques used to achieve this objective and suggests future works for the project that would enable future students to take advantage of this new student engineering asset

Ultra Low Power Amplification and Digitization System for Neural Signal Recording Applications

The scope is to develop a tunable low power fully integrated bandpass filter and a low power second order sigma-delta ADC modulator for implantable neural signal amplification and digitization applications, with subthreshold circuit design techniques in different CMOS processes. Since biopotentials usually contain low frequency components, the neural filters in this project have to be able to achieve large and predictable time constant for implantable applications. Voltage biased pseudo-resistors are vulnerable to process variations and circuit imperfections, and hence not suitable for implantable applications. A current biased pseudo-resistor is implemented in the neural filters in this work to set the cutoff frequency, and a Taylor series is used to study its linearity. The filters with proposed current biased pseudo-resistors were fabricated in two different CMOS processes and tested. The test results verify that the filters with current biased pseudo-resistors are tunable, and not vulnerable to process variations and circuit imperfections. The filters with current biased pseudo-resistors meet the design requirements of fully integrated, implantable applications. The sigma-delta ADC modulator was designed and simulated in a half micron SOS CMOS process. The simulation results of the ADC confirm the possibility of an ultra low power ADC for neural signal recording applications.School of Electrical & Computer Engineerin

Low noise amplifier design and noise cancellation for wireless hearing aids

Master'sMASTER OF ENGINEERIN