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1 интерактивный режим
1. interactive regime2. interactive modeРусско-английский большой базовый словарь > интерактивный режим
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2 неустановившийся режим
Русско-английский большой базовый словарь > неустановившийся режим
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3 пограничный режим
Русско-английский большой базовый словарь > пограничный режим
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4 переходный режим
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5 импульсный режим
Русско-английский новый политехнический словарь > импульсный режим
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6 переходный режим
Русско-английский новый политехнический словарь > переходный режим
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7 диктаторский режим
Русско-английский военно-политический словарь > диктаторский режим
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8 марионеточный режим
Русско-английский военно-политический словарь > марионеточный режим
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9 рабочий режим
Русско-английский военно-политический словарь > рабочий режим
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10 переходный режим
Русско-английский словарь по информационным технологиям > переходный режим
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11 расчетный режим
Русско-английский словарь по информационным технологиям > расчетный режим
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12 пограничный режим
Бизнес, юриспруденция. Русско-английский словарь > пограничный режим
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13 режим
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14 нынешний режим
Business: current regime -
15 длительный допустимый ток
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Русско-английский словарь нормативно-технической терминологии > длительный допустимый ток
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16 переход от постоянного напряжения к постоянному току
переход от постоянного напряжения к постоянному току
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[IEV number 314-05-09]EN
constant voltage to constant current crossover
behaviour of a stabilized power supply that automatically converts the mode of operation from voltage stabilization to current stabilization when the output current reaches a preset value, and vice versa
Source: 551-19-08
[IEV number 314-05-09]FR
transition tension constante à courant constant
comportement d'une alimentation qui convertit automatiquement le régime de stabilisation en tension en régime de stabilisation en courant lorsque le courant de sortie atteint une valeur préréglée et vice versa
Source: 551-19-08
[IEV number 314-05-09]Тематики
- измерение электр. величин в целом
EN
DE
FR
Русско-английский словарь нормативно-технической терминологии > переход от постоянного напряжения к постоянному току
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17 коэффициент циклической токовой нагрузки (кабелей)
коэффициент циклической токовой нагрузки (кабелей)
Коэффициент, на который может быть умножен номинальный ток установившегося режима, соответствующий коэффициенту нагрузки 100 %, для получения допустимого пикового значения тока в течение суточного цикла, при котором температура токопроводящей жилы в течение этого цикла достигает, но не превышает максимально допустимое значение
[IEV number 461-23-02]EN
cyclic rating factor
factor by which the permissible steady-state rated current corresponding to a 100 % load factor may be multiplied to obtain the permissible peak value of current during a daily cycle such that the conductor attains, but does not exceed, the maximum rated temperature during the cycle
[IEV number 461-23-02]FR
facteur de régime cyclique
facteur par lequel le courant assigné admissible en régime permanent, correspondant à un facteur de charge 100 %, peut être multiplié pour obtenir la valeur de pointe du courant au cours d'un cycle journalier, de sorte qu'au cours de ce cycle, l'âme atteigne sans la dépasser la température assignée maximale
[IEV number 461-23-02]Тематики
- кабели, провода...
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > коэффициент циклической токовой нагрузки (кабелей)
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18 переход от постоянного напряжения к постоянному току
переход от постоянного напряжения к постоянному току
-
[IEV number 314-05-09]EN
constant voltage to constant current crossover
behaviour of a stabilized power supply that automatically converts the mode of operation from voltage stabilization to current stabilization when the output current reaches a preset value, and vice versa
Source: 551-19-08
[IEV number 314-05-09]FR
transition tension constante à courant constant
comportement d'une alimentation qui convertit automatiquement le régime de stabilisation en tension en régime de stabilisation en courant lorsque le courant de sortie atteint une valeur préréglée et vice versa
Source: 551-19-08
[IEV number 314-05-09]Тематики
- измерение электр. величин в целом
EN
DE
FR
Русско-немецкий словарь нормативно-технической терминологии > переход от постоянного напряжения к постоянному току
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19 переход от постоянного напряжения к постоянному току
переход от постоянного напряжения к постоянному току
-
[IEV number 314-05-09]EN
constant voltage to constant current crossover
behaviour of a stabilized power supply that automatically converts the mode of operation from voltage stabilization to current stabilization when the output current reaches a preset value, and vice versa
Source: 551-19-08
[IEV number 314-05-09]FR
transition tension constante à courant constant
comportement d'une alimentation qui convertit automatiquement le régime de stabilisation en tension en régime de stabilisation en courant lorsque le courant de sortie atteint une valeur préréglée et vice versa
Source: 551-19-08
[IEV number 314-05-09]Тематики
- измерение электр. величин в целом
EN
DE
FR
Русско-французский словарь нормативно-технической терминологии > переход от постоянного напряжения к постоянному току
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20 длительный допустимый ток
- Strombelastbarkeit, f
- Dauerstrombelastbarkeit, f
(длительный) допустимый ток
Максимальное значение электрического тока, который может протекать длительно по проводнику, устройству или аппарату при определенных условиях без превышения определенного значения их температуры в установившемся режиме
[ ГОСТ Р МЭК 60050-826-2009]
Этот ток обозначают IZ
[ ГОСТ Р 50571. 1-2009 ( МЭК 60364-1: 2005)]EN
(continuous) current-carrying capacity
ampacity (US)
maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value
[IEV number 826-11-13]
ampacity
The current in amperes that a conductor can carry continuously under the conditions of use without exceeding its temperature rating.
[National Electrical Cod]FR
courant (permanent) admissible, m
valeur maximale du courant électrique qui peut parcourir en permanence, un conducteur, un dispositif ou un appareil, sans que sa température de régime permanent, dans des conditions données, soit supérieure à la valeur spécifiée
[IEV number 826-11-13]Ampacity, the term is defined as the maximum amount of current a cable can carry before sustaining immediate or progressive deterioration. Also described as current rating or current-carrying capacity, is the RMS electric current which a device can continuously carry while remaining within its temperature rating. The ampacity of a cable depends on:
- its insulation temperature rating;
- conductor electrical properties for current;
- frequency, in the case of alternating currents;
- ability to dissipate heat, which depends on cable geometry and its surroundings;
- ambient temperature.
Electric wires have some resistance, and electric current flowing through them causes voltage drop and power dissipation, which heats the cable. Copper or aluminum can conduct a large amount of current before melting, but long before the conductors melt, their insulation would be damaged by the heat.
The ampacity for a power cable is thus based on physical and electrical properties of the material & construction of the conductor and of its insulation, ambient temperature, and environmental conditions adjacent to the cable. Having a large overall surface area may dissipate heat well if the environment can absorb the heat.
In a long run of cable, different conditions govern, and installation regulations normally specify that the most severe condition along the run governs the cable's rating. Cables run in wet or oily locations may carry a lower temperature rating than in a dry installation. Derating is necessary for multiple circuits in close proximity. When multiple cables are near, each contributes heat to the others and diminishes the amount of cooling air that can flow past the individual cables. The overall ampacity of the insulated conductors in a bundle of more than 3 must be derated, whether in a raceway or cable. Usually the de-rating factor is tabulated in a nation's wiring regulations.
Depending on the type of insulating material, common maximum allowable temperatures at the surface of the conductor are 60, 75 and 90 degrees Celsius, often with an ambient air temperature of 30°C. In the U.S., 105°C is allowed with ambient of 40°C, for larger power cables, especially those operating at more than 2 kV. Likewise, specific insulations are rated 150, 200 or 250°C.
The allowed current in cables generally needs to be decreased (derated) when the cable is covered with fireproofing material.
For example, the United States National Electric Code, Table 310-16, specifies that up to three 8 AWG copper wires having a common insulating material (THWN) in a raceway, cable, or direct burial has an ampacity of 50 A when the ambient air is 30°C, the conductor surface temperature allowed to be 75°C. A single insulated conductor in air has 70 A rating.
Ampacity rating is normally for continuous current, and short periods of overcurrent occur without harm in most cabling systems. The acceptable magnitude and duration of overcurrent is a more complex topic than ampacity.
When designing an electrical system, one will normally need to know the current rating for the following:- Wires
- Printed Circuit Board traces, where included
- Fuses
- Circuit breakers
- All or nearly all components used
Some devices are limited by power rating, and when this power rating occurs below their current limit, it is not necessary to know the current limit to design a system. A common example of this is lightbulb holders.
[http://en.wikipedia.org/wiki/Ampacity]
Тематики
- электротехника, основные понятия
Синонимы
EN
DE
- Dauerstrombelastbarkeit, f
- Strombelastbarkeit, f
FR
- courant admissible, m
- courant permanent admissible, m
Русско-немецкий словарь нормативно-технической терминологии > длительный допустимый ток
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