152 research outputs found
The Deep Space Network
The objectives, functions, and organization, of the Deep Space Network are summarized. Deep Space stations, ground communications, and network operations control capabilities are described. The network is designed for two-way communications with unmanned spacecraft traveling approximately 1600 km from earth to the farthest planets in the solar system. It has provided tracking and data acquisition support for the following projects: Ranger, Surveyor, Mariner, Pioneer, Apollo, Helios, Viking, and the Lunar Orbiter
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Radiotext: an application of computer and communication systems in distance teaching
To enhance the way in which the Open University is able to communicate with its students, learning at a distance, this study has involved the design of a system to allow material in the form of computer-coded text and graphics to be transmitted over an unmodified V.H.F. radio broadcast network. In addition to providing a low-cost rapid method of communication for course management, the system can be used for delivery of material such as audio-visual packages and computer software.
To enable the unmodified broadcast network and conventional radio receivers to be used, it is intended that Radiotext transmissions will take place at the end of the normal broadcast schedule. This implies that the system should be capable of unattended operation within the student's home. It is achieved by the use of a time-switched radio receiver and interface unit, together with an audio cassette recorder for storage of the received data. The received material may then be displayed on a television or printed out on a low-cost printer at a later, more convenient, time.
Each component of the system is described. The major emphasis is placed on the problem areas which sure either unique to this system or not adequately solved elsewhere. These include, choice of a modulation method for the transmission of data and the design of suitable encoder and decoder circuits, provision of a fast reliable method of storage of the received data, and the design of a suitable error correction procedure for use throughout the system.
The system design enables data to be transmitted, stored on audio cassette and finally displayed at a minimum data rate of 2400 baud. The error correction procedure reduces the probability of data error to less than 10-8 per transmitted bit, equivalent to an average of one error in every 10,000 low resolution pages, achieved with a code redundancy of 29%
Ultra-low Power Circuits for Internet of Things (IOT)
Miniaturized sensor nodes offer an unprecedented opportunity for the semiconductor industry which led to a rapid development of the application space: the Internet of Things (IoT). IoT is a global infrastructure that interconnects physical and virtual things which have the potential to dramatically improve people's daily lives. One of key aspect that makes IoT special is that the internet is expanding into places that has been ever reachable as device form factor continue to decreases. Extremely small sensors can be placed on plants, animals, humans, and geologic features, and connected to the Internet. Several challenges, however, exist that could possibly slow the development of IoT.
In this thesis, several circuit techniques as well as system level optimizations to meet the challenging power/energy requirement for the IoT design space are described. First, a fully-integrated temperature sensor for battery-operated, ultra-low power microsystems is presented. Sensor operation is based on temperature independent/dependent current sources that are used with oscillators and counters to generate a digital temperature code.
Second, an ultra-low power oscillator designed for wake-up timers in compact wireless sensors is presented. The proposed topology separates the continuous comparator from the oscillation path and activates it only for short period when it is required. As a result, both low power tracking and generation of precise wake-up signal is made possible.
Third, an 8-bit sub-ranging SAR ADC for biomedical applications is discussed that takes an advantage of signal characteristics. ADC uses a moving window and stores the previous MSBs voltage value on a series capacitor to achieve energy saving compared to a conventional approach while maintaining its accuracy.
Finally, an ultra-low power acoustic sensing and object recognition microsystem that uses frequency domain feature extraction and classification is presented. By introducing ultra-low 8-bit SAR-ADC with 50fF input capacitance, power consumption of the frontend amplifier has been reduced to single digit nW-level. Also, serialized discrete Fourier transform (DFT) feature extraction is proposed in a digital back-end, replacing a high-power/area-consuming conventional FFT.PHDElectrical EngineeringUniversity of Michigan, Horace H. Rackham School of Graduate Studieshttps://deepblue.lib.umich.edu/bitstream/2027.42/137157/1/seojeong_1.pd
Proceedings of the Third International Mobile Satellite Conference (IMSC 1993)
Satellite-based mobile communications systems provide voice and data communications to users over a vast geographic area. The users may communicate via mobile or hand-held terminals, which may also provide access to terrestrial cellular communications services. While the first and second International Mobile Satellite Conferences (IMSC) mostly concentrated on technical advances, this Third IMSC also focuses on the increasing worldwide commercial activities in Mobile Satellite Services. Because of the large service areas provided by such systems, it is important to consider political and regulatory issues in addition to technical and user requirements issues. Topics covered include: the direct broadcast of audio programming from satellites; spacecraft technology; regulatory and policy considerations; advanced system concepts and analysis; propagation; and user requirements and applications
Design of Low-Power NRZ/PAM-4 Wireline Transmitters
Rapid growing demand for instant multimedia access in a myriad of digital devices has pushed
the need for higher bandwidth in modern communication hardwares ranging from short-reach (SR)
memory/storage interfaces to long-reach (LR) data center Ethernets. At the same time, comprehensive
design optimization of link system that meets the energy-efficiency is required for mobile
computing and low operational cost at datacenters. This doctoral study consists of design of two
low-swing wireline transmitters featuring a low-power clock distribution and 2-tap equalization in
energy-efficient manners up to 20-Gb/s operation. In spite of the reduced signaling power in the
voltage-mode (VM) transmit driver, the presence of the segment selection logic still diminishes the
power saving benefit.
The first work presents a scalable VM transmitter which offers low static power dissipation
and adopts an impedance-modulated 2-tap equalizer with analog tap control, thereby obviating
driver segmentation and reducing pre-driver complexity and dynamic power. Per-channel quadrature
clock generation with injection-locked oscillators (ILO) allows the generation of rail-to-rail
quadrature clocks. Energy efficiency is further improved with capacitively driven low-swing global
clock distribution and supply scaling at lower data rates, while output eye quality is maintained at
low voltages with automatic phase calibration of the local ILO-generated quarter-rate clocks. A
prototype fabricated in a general purpose 65 nm CMOS process includes a 2 mm global clock
distribution network and two transmitters that support an output swing range of 100-300mV with
up to 12-dB of equalization. The transmitters achieve 8-16 Gb/s operation at 0.65-1.05 pJ/b energy
efficiency.
The second work involves a dual-mode NRZ/PAM-4 differential low-swing voltage-mode (VM)
transmitter. The pulse-selected output multiplexing allows reduction of power supply and deterministic
jitter caused by large on-chip parasitic inherent in the transmission-gate-based multiplexers
in the earlier work. Analog impedance control replica circuits running in the background produce
gate-biasing voltages that control the peaking ratio for 2-tap feed-forward equalization and
PAM-4 symbol levels for high-linearity. This analog control also allows for efficient generation of
the middle levels in PAM-4 operation with good linearity quantified by level separation mismatch
ratio of 95%. In NRZ mode, 2-tap feedforward equalization is configurable in high-performance
controlled-impedance or energy-efficient impedance-modulated settings to provide performance
scalability. Analytic design consideration on dynamic power, data-rate, mismatch, and output
swing brings optimal performance metric on the given technology node. The proof-of-concept
prototype is verified on silicon with 65 nm CMOS process with improved performance in speed
and energy-efficiency owing to double-stack NMOS transistors in the output stage. The transmitter consumes as low as 29.6mW in 20-Gb/s NRZ and 25.5mW in the 28-Gb/s PAM-4 operations
The application of forward error correction techniques in wireless ATM
Bibliography: pages 116-121.The possibility of providing wireless access to an ATM network promises nomadic users a communication tool of unparalleled power and flexibility. Unfortunately, the physical realization of a wireless A TM system is fraught with technical difficulties, not the least of which is the problem of supporting a traditional ATM protocol over a non-benign wireless link. The objective of this thesis, titled "The Application of Forward Error Correction Techniques in Wireless ATM' is to examine the feasibility of using forward error correction techniques to improve the perceived channel characteristics to the extent that the channel becomes transparent to the higher layers and allows the use of an unmodified A TM protocol over the channel. In the course of the investigation that this dissertation describes, three possible error control strategies were suggested for implementation in a generic wireless channel. These schemes used a combination of forward error correction coding schemes, automatic repeat request schemes and interleavers to combat the impact of bit errors on the performance of the link. The following error control strategies were considered : 1. A stand alone fixed rate Reed-Solomon encoder/decoder with automatic repeat request. 2. A concatenated Reed-Solomon, convolution encoder/decoder with automatic request and convolution interleaving for the convolution codec. 3. A dynamic rate encoder/decoder using either a concatenated Reed-Solomon, convolution scheme or a Reed-Solomon only scheme with variable length Reed-Solomon words
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