Circuit for Square Root of Multiplication

... the year 1996. At present he is working as Technical Staff in the Department of Electrical Engineering, Indian Institute of Technology, Madras, India. He developed interest in design and development of function circuits to find their applications in modern measurements and instrumentation systems. ...

Lista Dei Simboli Dei Circuiti Per i Componenti Elettronici

... switch for a motor. Some DPDT switches have a central off position. An electrically operated switch, for example a 9V battery circuit connected to the coil can switch a 230V AC mains circuit. ...

CC Series Ultra High Capacity Emergency spec sheet

... the battery should excessive wattage demands be made and automatically resets when the overload or short circuit is removed. This overload current protective feature eliminates the need for fuses or circuit breakers for the DC load. ...

Review_4-5_rd-Reiner - Indico

...  Limited flexibility of the sequencer application ...

Performance Evaluation of HVDC Transmission system with

... Fig. 6.Waveforms demonstrating ac fault (asymmetrical) ride-through capability of HVDC transmission systems. D. HVDC NETWORK POLE-TO-POLE FAULT This section reveals the feasibility of proposed HVDC system with inherent dc reverse blocking capability during dc side fault. In this the test network sub ...

Transmission-Line Fault Analysis Using

... phases computed at two ends of a transmission line using synchronized voltage and current samples measured at both ends. The method has a significant advantage over the method proposed in [7] since computing instantaneous power does not need any averaging and, therefore, the captured samples can be ...

PP BorgWarner OEM 2012_GB_FIN.indd

... extremely low electrical resistance at low temperatures. A low resistance means a high current flow and with it a high output, almost 100% of which is converted into heat. If the temperature rises, this effect is inverted, i.e. less heat is released. Below a certain critical temperature, a point is ...

Math for a Digital Age

... • Next, ask if 16 (the next lower power of 2) fits into 3. Because it does not, a “0” is placed in that column. • The value of the next number is 8 which is larger than 3, so a “0” is placed in that column too. • The next value is 4 which is still larger than 3, so it too receives a “0.” • The next ...

Contactors - EandM Public Sharepoint

... duty switching under adverse conditions. To make it worse, some manufacturers will publish their DC-1 ratings in literature, while their UL tested ratings are significantly less. This can expose the installer to risk of having problems at a later date if something goes wrong and it is discovered tha ...

Design of a Resistive Brake Controller for Power System

... 0.95 represents a reasonable tradeoff. The have shown that value of parameter in (14) is chosen as ...

PRACTICAL ASSESSMENT

... not a shorted (0 ohm) one and also we tested an feedback resistor of the transistor with a multimeter with a Probe we read 100 ohm (not shorted 0 ohm) on that. Then finally we confirmed amplifiers increased voltage from the amplifier’s output which was 20 Volt. ...

Motor Efficiency and Fault Zone Analysis

... decrease in motor efficiency. Voltage imbalances will cause the motor to draw more current in order to perform the required work. Therefore, not only does the customer face premature motor burn out (or single-phase), but also they may potentially pay for extra kilowatt-hours and possibly a demand pe ...

Document

... Additional features of the other chip are not applicable to our project ...

(b) a

... Now ...

borri 4000

Experiment 16: Series and Parallel Circuits

... 1. Why should the voltage drops (electric potential differences) across the resistors connected in parallel be the same? Were your values equal? 2. Calculate the equivalent resistance of each of the first three circuits you constructed for this experiment using your measured values. Show each step i ...

An equivalent circuit formulation for three-phase power

... solving the power mismatch equations were first conceived of decades ago [2], [3] and remain the standard for simulating transmission-level power grids, where perfect phase balance is assumed. At the distribution level, however, these methods experience poor convergence due to the radial distributio ...

Lab- Parallel Circuits

... There are two main types of circuits: series and parallel. In a series circuit, electrons have only one path to follow whereas in parallel circuits, electrons have two or more paths to follow. In a parallel circuit, electrons cannot travel through all paths and therefore must divide up in certain pa ...

IC Design for Miniature Implantable Medical Devices

OEM BS2sx - Rev C Assembly Instructions

Direct Current and Alternating Current Transmission

Basics of Electricity Web Quest

... Using the web sites provided, answer the following questions. This web quest should broaden your knowledge and understanding of the basics of electricity and series and parallel circuits. ...

Harmonic Filters and Reactors

Zero Sequence Current Compensation for Distance

... The effects of zero sequence mutual coupling on the performance of distance protection installed on parallel transmission lines can be significant. It is well understood and documented that the effects of mutual coupling can cause distance relays to over-reach or under-reach depending on the operati ...

Grounding and Bonding

... No other article can match Article 250 for misapplication, violation, and misinterpretation. Terminology used in this article has been a source for much confusion, but that has improved during the last few NEC revisions. It’s very important to understand the difference between grounding and bonding ...

< 1 ... 145 146 147 148 149 150 151 152 153 ... 256 >

Fault tolerance

Fault tolerance is the property that enables a system to continue operating properly in the event of the failure of (or one or more faults within) some of its components. If its operating quality decreases at all, the decrease is proportional to the severity of the failure, as compared to a naively designed system in which even a small failure can cause total breakdown. Fault tolerance is particularly sought after in high-availability or life-critical systems.A fault-tolerant design enables a system to continue its intended operation, possibly at a reduced level, rather than failing completely, when some part of the system fails. The term is most commonly used to describe computer systems designed to continue more or less fully operational with, perhaps, a reduction in throughput or an increase in response time in the event of some partial failure. That is, the system as a whole is not stopped due to problems either in the hardware or the software. An example in another field is a motor vehicle designed so it will continue to be drivable if one of the tires is punctured. A structure is able to retain its integrity in the presence of damage due to causes such as fatigue, corrosion, manufacturing flaws, or impact.Within the scope of an individual system, fault tolerance can be achieved by anticipating exceptional conditions and building the system to cope with them, and, in general, aiming for self-stabilization so that the system converges towards an error-free state. However, if the consequences of a system failure are catastrophic, or the cost of making it sufficiently reliable is very high, a better solution may be to use some form of duplication. In any case, if the consequence of a system failure is so catastrophic, the system must be able to use reversion to fall back to a safe mode. This is similar to roll-back recovery but can be a human action if humans are present in the loop.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Fault tolerance