This page displays all 「FI」 in main group H02J3/00. |
HB:Handbook | ||||
CC:Concordance |
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Circuit arrangements for ac mains or ac distribution networks | HB | CC | 5G066 | |
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.load forecasting, e.g. method and system for forecasting future demand of load | HB | CC | 5G066 | |
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.device to selectively combine load with one of several lectric power lines or electric power sources (to provide electric power supply without interruption H02J9/00) | HB | CC | 5G066 | |
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..to provide alternative feed line between load and e;ectric power source when main line is out of order, e.g. trans, generating line | HB | CC | 5G066 | |
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.simulation, e.g. planning, reliability check, modelling | HB | CC | 5G066 | |
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.involves selling and buying of energy or energy transmission right | HB | CC | 5G066 | |
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.Arrangements for reducing harmonics or ripples (in converters H02M 1/12) [3] | HB | CC | 5G066 | |
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.using a single network for simultaneous distribution of power at different frequencies; using a single network for simultaneous distribution of ac power and of dc power | HB | CC | 5G066 | |
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.for connecting networks of the same frequency but supplied from different sources | HB | CC | 5G066 | |
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..Controlling transfer of power between connected networks; Controlling sharing of load between connected networks | HB | CC | 5G066 | |
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..Synchronising of networks | HB | CC | 5G066 | |
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.Constant-current supply systems | HB | CC | 5G066 | |
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.for adjusting voltage in ac networks by changing a characteristic of the network load | HB | CC | 5G066 | |
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..by switching loads on to, or off from, network, e.g. progressively balanced loading | HB | CC | 5G066 | |
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...husehold electric eqipment management | HB | CC | 5G066 | |
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...load management based on fee | HB | CC | 5G066 | |
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..by adjustment of reactive power | HB | CC | 5G066 | |
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.Arrangements for adjusting, eliminating, or compensating reactive power in networks (for adjustment of voltage H02J 3/12; use of Petersen coils H02H 9/08) | HB | CC | 5G066 | |
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..using serial compensator | HB | CC | 5G066 | |
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...at least one reactance element is actively controlled by bridge converter, e.g. general tide control unit | HB | CC | 5G066 | |
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..using shunt compensator (H02J3/18, 107 and H02J3/18, 178 take precedence) | HB | CC | 5G066 | |
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...being able to control in stages, or being able to make phases by combining or separating compensator having no consideration for staged control | HB | CC | 5G066 | |
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...non-staged control | HB | CC | 5G066 | |
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....at least one reactance element is actively controlled by bridge converter, e.g. active filter | HB | CC | 5G066 | |
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.....reactance element being perfectly inductive, e.g. superconducting magnetic energy storage system [SMES] | HB | CC | 5G066 | |
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.....bridge converter being multi-level converter | HB | CC | 5G066 | |
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....reactive power gained from at least one reactance element connected in series to semiconductor switch being non-staged controlled | HB | CC | 5G066 | |
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...method of planning for installment of shunt reactive power device | HB | CC | 5G066 | |
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..using tap switch or phase shift transformer | HB | CC | 5G066 | |
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..using rotating means, e.g. synchronous generator | HB | CC | 5G066 | |
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..device being integrated with load, e.g. motor or its control circuit | HB | CC | 5G066 | |
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..in long overhead lines | HB | CC | 5G066 | |
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..in cables | HB | CC | 5G066 | |
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.Arrangements for preventing or reducing oscillations of power in networks (by control effected upon a single generator H02P 9/00) | HB | CC | 5G066 | |
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.Arrangements for eliminating or reducing asymmetry in polyphase networks | HB | CC | 5G066 | |
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.Arrangements for balancing the load in a network by storage of energy | HB | CC | 5G066 | |
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..using dynamo-electric machines coupled to flywheels | HB | CC | 5G066 | |
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..using batteries with converting means | HB | CC | 5G066 | |
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.Arrangements for transfer of electric power between networks of substantially different frequency (frequency converters H02M) | HB | CC | 5G066 | |
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.Arrangements for transfer of electric power between ac networks via a high-tension dc link | HB | CC | 5G066 | |
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.Arrangements for parallelly feeding a single network by two or more generators, converters, or transformers | HB | CC | 5G066 | |
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..dispersion type power source | HB | CC | 5G066 | |
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...generator using recyclable energy | HB | CC | 5G066 | |
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....solar energy, e.g. photovoltaic power generation energy (electric power generation by light conversion H02S) | HB | CC | 5G066 | |
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.....maximum power point tracking for photovoltaic power source (inverter means combined with PV module H02S40/32) | HB | CC | 5G066 | |
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....wind power energy (wind power motor F03D) | HB | CC | 5G066 | |
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...using fuel cell (fuel cell per se H01M8/00) | HB | CC | 5G066 | |
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..single operation, i.e. cut off from network of local power supply | HB | CC | 5G066 | |
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..Synchronising a generator for connection to a network or to another generator | HB | CC | 5G066 | |
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...with automatic parallel connection when synchronism is achieved | HB | CC | 5G066 | |
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...with means for ensuring correct phase sequence | HB | CC | 5G066 | |
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..Controlling the sharing of output between the generators, converters, or transformers | HB | CC | 5G066 | |
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...Controlling the sharing of the in-phase component | HB | CC | 5G066 | |
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...Controlling the sharing of the out-of-phase component | HB | CC | 5G066 | |