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1 inverter conditions
инверторный режим
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[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > inverter conditions
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2 inverter conditions
English-Russian big polytechnic dictionary > inverter conditions
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3 inverter conditions
1) Техника: инверторный режимы резания2) Электроника: инверторный режим -
4 static
статика; статические свойства (напр. балансировки колеса); электростатические явления; помеха электростатического происхождения; атмосферные помехи; ухудшение; усугбление; II статический; стационарный; неподвижный- static aeroelasticity - static air pressure - static angle of friction - static arrester - static breakdown voltage - static breeze - static buffering - static characteristic - static charge - static charge meter - static check - static coefficient - static commutation - static compaction - static compensation - static compensator - static conditions - static connection seal - static contact - static control - static controller - static current - static discharge - static discharge protection - static disturbance - static dump - static elasticity - static electricity test - static electromechanical relay - static elimination - static eliminator - static equilibrium equation - static error - static exciter - static failure - static force - static frequency converter - static friction force - static friction in suspension - static fuel flow method - static high-voltage distribution - static imbalance - static inverter - static indentation method - static load rating - static-loaded tyre radius - static loading - static loading fixture - static loading stress - static lubrication - static mass balancing - static mass spectrometer - static measurements - static measuring force - static mode - static moment - static-moment calculation - static operating life test - static orifice - static overvoltage - static part - static pile driving resistance of soil - static potential - static power amplifier - static pressure - static pressure energy - static pressure gradient - static pressure profile - static pressure traverse - static protection device - static regime - static regulator - static relay - static relay with output contact - static roller - static safety factor - static scales - static seal - static spline - static spray scrubber - static spring deflection - static spring rate - static stability - static stator - static steady-state instability - static steering torque - static stiffness - static strength - static stress - static suction head - static suction lift - static switch - static time delay - static tipping load rating - static toe-in - static toe-out - static torque - static torque-vs-angular-displacement curve - static-type plow - static tyre deflection - static tyre rate - static unbalance - static-weight roller - coefficient of static friction - datum statics - lightning static - man-made statics - precipitation static - residual statics -
5 parallel UPS system
параллельная система ИБП
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[Интент]Parallel Operation: The system shall have the option to install up to four (4) UPSs in parallel configuration for redundancy or capacity.
1. The parallel UPS system shall be of the same design, voltage, and frequency. UPS modules of different size ratings shall be permitted to be paralleled together for purposes of increased capacity or UPS module redundancy. The UPSs in the parallel configuration shall not be required to have the same load capacity rating.
2. Parallel Capacity: With N+0 system-level redundancy, up to 2MW of load can be supported by the system.
3. Parallel Redundancy: With N+1 system-level redundancy, up to 1.5MW of load can be supported by the system, and only the UPS being replaced must be isolated from the source (bypass operation is not required for the entire system during the UPS replacement procedure).
4. Output control: A load sharing circuit shall be incorporated into the parallel control circuits to ensure that under no-load conditions, no circulating current exists between modules. This feature also allows each UPS to share equal amounts of the total critical load bus. The output voltage, output frequency, output phase angle, and output impedance of each module shall operate in uniformity to ensure correct load sharing. This control function shall not require any additional footprint and shall be an integral function of each UPS. The static bypass switches shall be connected in parallel.
5. Parallel System Controls: To avoid single points of failure, the UPS system shall have no single dedicated control system designed to control the operation of the parallel UPS system. Control of and direction of parallel UPSs shall take place via a master/slave relationship, where the first UPS to receive logic power asserts itself as a master. In the event of a master failure, a slave UPS shall take the role of master and assume the responsibility of the previous master UPS. Regardless of which UPS is master or slave, user changes to the system status, such as request for bypass, can be done from any UPS connected to the bus and all UPS on the bus shall transfer in simultaneously.
6. Communication: Communication between modules shall be connected so that the removal of any single cable shall not jeopardize the integrity of the parallel communication system. Load sharing communications shall be galvanically isolated for purposes of fault tolerance between UPS modules. A UPS module's influence over load sharing shall be inhibited in any mode where the UPS inverter is not supporting its output bus. Transfers to and from bypass can be initiated from any online UPS in the system.
7. Display: Each UPS multi-color LCD touch screen user interface shall be capable of using an active touch screen mimic bus to show the quantity of UPS(s) connected to the critical bus, as well as the general status of each UPS, such as circuit breaker status information. Any touchscreen display shall support the configuration of the [entire parallel] system and shall provide event and alarm data for all UPSs in the parallel configuration. A Virtual Display Application shall be available for download to the customer’s computer and shalll support remote monitoring of a complete system with up to 4 UPSs in parallel.
8. Battery runtime: Each UPS must have its own battery solution. The battery solution for the entire system can be a combination of standard and third-party batteries, but each UPS must use only one battery solution – either standard or third-party batteries.
9. Switchgear: A custom switchgear option shall be required for parallel operation.
[Schneider Electric]Тематики
EN
Англо-русский словарь нормативно-технической терминологии > parallel UPS system
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