H02P   1/00		ưޤϲžѴư뤿֡ŻήҤͭƱưεưȣУȣУƥåײžưεưȣУ٥ȥȣУˡΣ	Arrangements for starting electric motors or dynamo-electric converters(starting of synchronous motors with electronic commutators <b>H02P6/20</b>, <b>H02P6/22</b>; starting dynamo-electric motors rotating step by step <b>H02P8/04</b>; vector control <b>H02P21/00</b>)	2238
H02P   1/02		Σ	Details	3159
H02P   1/04		֤ޤή®٤ޤ¾ưѥ᡼˽°뵯ưοʹʡΣ	Means for controlling progress of starting sequence in dependence upon time or upon current, speed, or other motor parameter	1852
H02P   1/06		ư¿ֵưΣ	Manually-operated multi-position starters	246
H02P   1/08		ưưѤư¿ֳĴޤϥԡ󥹤椹ư륪󥪥ճĴΣ	Manually-operated on/off switch controlling power-operated multi-position switch or impedances for starting a motor	131
H02P   1/10		ưưѤ˽缡ưŴޤܿ椹ư󥪥ճĴΣ	Manually-operated on/off switch controlling relays or contactors operating sequentially for starting a motor	219
H02P   1/12		ưˤäƱŪ볫֡Σ	Switching devices centrifugally operated by the motor	299
H02P   1/14		ưˤäƱŪ밵ϴ񹳴Σ	Pressure-sensitive resistors centrifugally operated by the motor	26
H02P   1/16		ưޤϲžѴư뤿ΤΡΣ	for starting dynamo-electric motors or dynamo-electric converters	3200
H02P   1/18		ĤΩľήưư뤿ΤΡΣ	for starting an individual DC motor	1960
H02P   1/20		ŵҴľ񹳤ŪˤΡΣ	by progressive reduction of resistance in series with armature winding	578
H02P   1/22		ղžΤɤ餫ˤΡΣ	in either direction of rotation	1999
H02P   1/24		ĤΩήήưư뤿ΤΡʸήľήήưεưȣУˡΣ	for starting an individual AC commutator motor(starting of AC/DC commutator motors <b>H02P1/18</b>)	322
H02P   1/26		ĤΩ¿ͶƳưư뤿ΤΡΣ	for starting an individual polyphase induction motor	3249
H02P   1/28		ưΣϩ˰äŰŪäˤΡΣ	by progressive increase of voltage applied to primary circuit of motor	1377
H02P   1/30		ưΣϩ˰äȿŪäˤΡΣ	by progressive increase of frequency of supply to primary circuit of motor	773
H02P   1/32		١ڴˤΡΣ	by star/delta switching	1036
H02P   1/34		ϩԡ󥹤ŪˤΡΣ	by progressive reduction of impedance in secondary circuit	509
H02P   1/36		ԡ󥹤񹳤ǤΡΣ	the impedance being a liquid resistance	317
H02P   1/38		˿ѴˤΡΣ	by pole-changing	109
H02P   1/40		ղžΤɤ餫ˤΡΣ	in either direction of rotation	903
H02P   1/42		ĤΩñͶƳưư뤿ΤΡΣ	for starting an individual single-phase induction motor	2159
H02P   1/44		ǥʬˤΡΣ	by phase-splitting with a capacitor	1356
H02P   1/46		ĤΩƱưư뤿ΤΡΣ	for starting an individual synchronous motor	1503
H02P   1/48		˿ѴˤΡΣ	by pole-changing	38
H02P   1/50		ƱƱžؤڤ괹ˤΡʣȣУͥˡΣ	by changing over from asynchronous to synchronous operation(<b>H02P1/48</b> takes precedence)	612
H02P   1/52		ư˶뤹ȿŪäˤΡΣ	by progressive increase of frequency of supply to motor	597
H02P   1/54		ʾưư뤿ΤΡΣ	for starting two or more dynamo-electric motors	1019
H02P   1/56		ƱŪʤΡΣ	simultaneously	331
H02P   1/58		缡ŪʤΡΣ	sequentially	942
H02P   3/00		ưȯŵޤϲžѴߤޤϸ®뤿֡ŻήҤͭƱưߣȣУƥåײžưߣȣУ٥ȥȣУˡΣ	Arrangements for stopping or slowing electric motors, generators, or dynamo-electric converters(stopping of synchronous motors with electronic commutators <b>H02P6/24</b>; stopping dynamo-electric motors rotating step by step <b>H02P8/24</b>; vector control <b>H02P21/00</b>)	2084
H02P   3/02		Σ	Details	786
H02P   3/04		Τư㡥໤ưޤϱήưˤߤޤϸ®뤿μʡΣ	Means for stopping or slowing by a separate brake, e.g. friction brake or eddy-current brake	1406
H02P   3/06		ĤưޤϲžѴߤޤϸ®ΤΤΡΣ	for stopping or slowing an individual dynamo-electric motor or dynamo-electric converter	2947
H02P   3/08		ľήưߤޤϸ®ΤΤΡΣ	for stopping or slowing a DC motor	2408
H02P   3/10		³ȿžˤΡΣ	by reversal of supply connections	551
H02P   3/12		ûޤưˤΡΣ	by short-circuit or resistive braking	2208
H02P   3/14		ưˤΡΣ	by regenerative braking	1979
H02P   3/16		ŵŪӵŪưȤ߹碌ˤΡΣ	by combined electrical and mechanical braking	228
H02P   3/18		ήưߤޤϸ®ΤΤΡΣ	for stopping or slowing an AC motor	3926
H02P   3/20		ưؤ³ȿžˤΡΣ	by reversal of phase sequence of connections to the motor	514
H02P   3/22		ûޤưˤΡΣ	by short-circuit or resistive braking	1993
H02P   3/24		ưؤľήˤΡΣ	by applying DC to the motor	1918
H02P   3/26		ŵŪӵŪưȤ߹碌ˤΡΣ	by combined electrical and mechanical braking	373
H02P   4/00		ʾΰۤʤ϶³ǽư®٤ޤϥȥ륯Ĵޤ椹뤿äŬ礷֡ʥ٥ȥȣУˡΣ	Arrangements specially adapted for regulating or controlling the speed or torque of electric motors that can be connected to two or more different electric power supplies(vector control <b>H02P21/00</b>)	875
H02P   5/00		ʾư®٤ޤϥȥ륯ĴޤäŬ֡ʣȣУȣУͥˡΣ	Arrangements specially adapted for regulating or controlling the speed or torque of two or more electric motors(<b>H02P6/04</b>, <b>H02P8/40</b> take precedence)	4521
H02P   5/46		ߤ˴Ϣ룲ʾư®٤Ĵ뤿ΤΡΣ	for speed regulation of two or more dynamo-electric motors in relation to one another	4405
H02P   5/48		®٤뵡ŪͤӤˤΡΣ	by comparing mechanical values representing the speeds	388
H02P   5/485		ĤưκưưѤΡ㡥ǥե󥷥륮ѤΡΣ	using differential movement of the two motors, e.g. using differential gearboxes	170
H02P   5/49		ŵŪܿ³ŪʳĤˤΡΣ	by intermittently closing or opening electrical contacts	48
H02P   5/50		®٤ŵŪͤӤˤΡΣ	by comparing electrical values representing the speeds	1951
H02P   5/505		㡥裱裲ưβžҤӸҤޡѤΡΣ	using equalising lines, e.g. rotor and stator lines of first and second motors	44
H02P   5/51		Σ	Direct ratio control	188
H02P   5/52		ŪʳѰ̤ղŪΣ	additionally providing control of relative angular displacement	879
H02P   5/54		Ūʤˤư֤®٤Ȱ֤ӡΣ	Speed and position comparison between the motors by mechanical means	267
H02P   5/56		ŵŪʤˤư֤®٤Ȱ֤ӡΣ	Speed and position comparison between the motors by electrical means	273
H02P   5/60		ľήӸήưȹ礻椹ΡʣȣУͥˡΣ	controlling combinations of DC and AC dynamo-electric motors(<b>H02P5/46</b> takes precedence)	233
H02P   5/68		ʾľήư椹ΡʣȣУȣУͥˡΣ	controlling two or more DC dynamo-electric motors(<b>H02P5/46</b>, <b>H02P5/60</b> take precedence)	2168
H02P   5/685		ŵŪľ³줿ΡʤƱήήΡΣ	electrically connected in series, i.e. carrying the same current	213
H02P   5/69		ư֤ˤäƵŪ˷礵줿ΡΣ	mechanically coupled by gearing	190
H02P   5/695		ưư֡Σ	Differential gearing	97
H02P   5/74		ʾθήư椹ΡʣȣУȣУͥˡΣ	controlling two or more AC dynamo-electric motors(<b>H02P5/46</b>, <b>H02P5/60</b> take precedence)	4618
H02P   5/747		ư֤ˤäƵŪ˷礵줿ΡΣ	mechanically coupled by gearing	370
H02P   5/753		ưư֡Σ	Differential gearing	96
H02P   6/00		žҤΰ֤˰¸ŻήҤѤƱưޤ¾ư椹뤿֡ΤŻήҡʥ٥ȥȣУˡΣ<br><br><b><ul></ul></b><br>롼ףȣУ롼ףȣУȣУӣȣУȣУͥ	Arrangements for controlling synchronous motors or other dynamo-electric motors using electronic commutation dependent on the rotor position; Electronic commutators therefor(vector control <b>H02P21/00</b>);<br><br><b><u>Note(s)</u></b><br><br><ul><li>Group <b>H02P6/26</b> takes precedence over groups <b>H02P6/04 to H02P6/24</b>  and <b>H02P6/28 to H02P6/34</b> .  </li></ul>	4458
H02P   6/04		İʾư®٤ޤϥȥ륯ޤĴ뤿֡ʣȣУͥˡΣ	Arrangements for controlling or regulating the speed or torque of more than one motor(<b>H02P6/10</b> takes precedence)	1616
H02P   6/06		ư®٤Ĵ뤿ư®٤¬ꤵ줽줬Ϳ줿ʪ̤Ӥñư®٤Ĵ뤿֡Σ	Arrangements for speed regulation of a single motor wherein the motor speed is measured and compared with a given physical value so as to adjust the motor speed	12337
H02P   6/08		ñư®٤ޤϥȥ륯椹뤿֡ʣȣУȣУͥˡΣ	Arrangements for controlling the speed or torque of a single motor(<b>H02P6/10</b>, <b>H02P6/28</b> take precedence)	17588
H02P   6/10		ȥ륯åץ椹뤿֡㡥ȥ륯åץ󶡤ΡΣ	Arrangements for controlling torque ripple, e.g. providing reduced torque ripple	3440
H02P   6/12		ήδƻ롨ήξɽΣ	Monitoring commutation; Providing indication of commutation failure	2886
H02P   6/14		ŻήҡΣ	Electronic commutators	2107
H02P   6/15		žή֤Σ	Controlling commutation time	1205
H02P   6/16		֤Τ뤿βϩ֡Σ	Circuit arrangements for detecting position	7759
H02P   6/17		®پ뤿ΤΤǤΡΣ	and for generating speed information	3377
H02P   6/18		ΤΰָǻҤͭʤΡΣ	without separate position detecting elements	6094
H02P   6/182		εյϤѤΡΣ	using back-emf in windings	4875
H02P   6/185		󥹤θС㡥ѥ륹嵯ѤΡΣ	using inductance sensing, e.g. pulse excitation	535
H02P   6/20		ư뤿֡ʣȣУͥˡΣ	Arrangements for starting(<b>H02P6/08</b> takes precedence)	2631
H02P   6/21		롼׵ưΣ	Open loop start	900
H02P   6/22		򤷤žؤΤΡΣ	in a selected direction of rotation	902
H02P   6/24		ߤ뤿֡Σ	Arrangements for stopping	1945
H02P   6/26		ñư椹뤿֡Σ	Arrangements for controlling single phase motors	726
H02P   6/28		ή椹뤿֡ʣȣУͥˡΣ	Arrangements for controlling current(<b>H02P6/10</b> takes precedence)	4788
H02P   6/30		ž椹뤿֡ʣȣУͥˡΣ	Arrangements for controlling the direction of rotation(<b>H02P6/22</b> takes precedence)	692
H02P   6/32		ư㡥嵯Τư椹뤿֡Σ	Arrangements for controlling wound field motors, e.g. motors with exciter coils	514
H02P   6/34		ΤΥǥ󥰤ޤϥߥ졼Σ	 Modelling or simulation for control purposes	1150
H02P   7/00		ľήư®٤ޤϥȥ륯Ĵޤ椹뤿֡Σ	Arrangements for regulating or controlling the speed or torque of electric DC motors	9520
H02P   7/02		ľήư˥פǤΡΣ	the DC motors being of the linear type	202
H02P   7/025		ľήưư륿פǤΡ㡥ܥ⡼Σ	the DC motors being of the moving coil type, e.g. voice coil motors	200
H02P   7/03		ľήưβžΤΤΡΣ	for controlling the direction of rotation of DC motors	2235
H02P   7/06		ޤŵҤήѲˤ룱ĤΩľήưĴޤΤΤΡΣ	for regulating or controlling an individual DC dynamo-electric motor by varying field or armature current	6972
H02P   7/08		ưϤʤμưˤΡΣ	by manual control without auxiliary power	195
H02P   7/10		ưΤߤˤĤƤΤΡΣ	of motor field only	98
H02P   7/12		ľʬ弧ؤޤϤεդؤγڤ괹Σ	Switching field from series to shunt excitation or <u>vice versa</u>	30
H02P   7/14		ĤޤϤ⤿ʤŵҤ˶뤵ŰˤĤƤΤΡΣ	of voltage applied to the armature with or without control of field	265
H02P   7/18		ưϤļ紴ˤΡΣ	by master control with auxiliary power	626
H02P   7/20		Ŵˤưϩ椹¿ֳĴ㡥ɥࡤѤΡʣȣУȣУͥˡΣ	using multi-position switch, e.g. drum, controlling motor circuit by means of relays(<b>H02P7/24</b>, <b>H02P7/30</b> take precedence)	230
H02P   7/22		ư¿ֳĴޤư񹳴ˤưϩ椹¿ֳĴ㡥ɥࡤѤΡʣȣУȣУͥˡΣ	using multi-position switch, e.g. drum, controlling motor circuit by means of pilot-motor-operated multi-position switch or pilot-motor-operated variable resistance(<b>H02P7/24</b>, <b>H02P7/30</b> take precedence)	60
H02P   7/24		ŴɤޤȾƳ֤ѤΡΣ	using discharge tubes or semiconductor devices	207
H02P   7/26		ŴɤѤΡΣ	using discharge tubes	507
H02P   7/28		ȾƳ֤ѤΡΣ	using semiconductor devices	2837
H02P   7/281		ľήư;ݸ¤ΡΣ<br><br><b><ul></ul></b><br>롼ףȣУ롼ףȣУȣУͥ褹	the DC motor being operated in four quadrants; <br><br><b><u>Note(s)</u></b><br><br><ul><li>Group <b>H02P7/281</b> takes precedence over groups <b>H02P7/282 to H02P7/298</b> .</li></ul>	106
H02P   7/282		ήΤߤ椹ΡΣ	controlling field supply only	610
H02P   7/285		ŵҶŰΤߤ椹ΡΣ	controlling armature supply only	1006
H02P   7/288		ѥԡ󥹤ѤΡΣ	using variable impedance	2653
H02P   7/29		ѥ륹ĴѤΡΣ	using pulse modulation	6477
H02P   7/291		Ĥɸʹ֤Υ󥪥桤㡥ҥƥꥷˤ桤ȤʤΡΣ	with on-off control between two set points, e.g. controlling by hysteresis	436
H02P   7/292		Ż߷Ѵ㡥ήľήؤΤΡѤΡΣ	using static converters, e.g. AC to DC	2394
H02P   7/293		ѤΡʣȣУͥˡΣ	using phase control(<b>H02P7/295</b> takes precedence)	519
H02P   7/295		ŸưľˣĤΥꥹޤΤΤļΤΡΣ	of the kind having one thyristor or the like in series with the power supply and the motor	780
H02P   7/298		ŵҤӳή椹ΡΣ	controlling armature and field supplies	1571
H02P   7/30		ǽ˰٤ļ֡ʤ˰¥ꥢȥ롤ѤΡΣ	using magnetic devices with controllable degree of saturation, i.e. transductors	243
H02P   7/32		ŵȿѤ弧뵡㡥᥿󡤥ץ󡤥ȥȥ롤ѤΡΣ	using armature-reaction-excited machines, e.g. metadyne, amplidyne, rototrol	48
H02P   7/34		ɥ쥪ʡ֤ѤΡΣ	using Ward-Leonard arrangements	1375
H02P   7/343		ȯŵưξγ椵ΡΣ	in which both generator and motor fields are controlled	17
H02P   7/347		ȯŵγΤߤ椵ΡΣ	in which only the generator field is controlled	119
H02P   8/00		ƥåײžư椹뤿֡Σ	Arrangements for controlling dynamo-electric motors rotating step by step	6398
H02P   8/02		ñޤ˳ưư㡥å⡼å⡼äŬ礷ΡΣ	specially adapted for single-phase or bi-pole stepper motors, e.g. watch-motors, clock-motors	1008
H02P   8/04		ư֡Σ	Arrangements for starting	322
H02P   8/06		򤵤줿žؤΤΡΣ	in selected direction of rotation	130
H02P   8/08		ưΰ֤ηΣ	Determining position before starting	325
H02P   8/10		ưѤΥѥ륹ηưήáΣ	Shaping pulses for starting; Boosting current during starting	377
H02P   8/12		ήޤϰΣ	Control or stabilisation of current	2407
H02P   8/14		®٤ޤ®٤ȥȥ륯椹뤿֡ʣȣУȣУͥˡΣ	Arrangements for controlling speed or speed and torque(<b>H02P8/12</b>, <b>H02P8/22</b> take precedence)	3498
H02P   8/16		ޤ϶뤵륨ͥ륮򸺾ΡΣ	Reducing energy dissipated or supplied	382
H02P   8/18		ѥ륹η㡥ȥ륯åץ򸺾뤿ΤΡΣ	Shaping of pulses, e.g. to reduce torque ripple	608
H02P   8/20		žžħΤΡΣ	characterised by bidirectional operation	568
H02P   8/22		ƥåץ桨֤Υƥåס㡥ޥƥåסΣ	Control of step size; Intermediate stepping, e.g. microstepping	1363
H02P   8/24		ߤ뤿֡ʣȣУͥˡΣ	Arrangements for stopping(<b>H02P8/32</b> take precedence)	454
H02P   8/26		߻˺ǽѥ륹򵭲ΡΣ	Memorising final pulse when stopping	69
H02P   8/28		߻ŸڤΡΣ	Disconnecting power source when stopping	126
H02P   8/30		߻˰֤ݻΡΣ	Holding position when stopped	412
H02P   8/32		Ԥ᤮̤ޤϿư򸺾Ρ㡥ԥ󥰡Σ	Reducing overshoot or oscillation, e.g. damping	1063
H02P   8/34		ưƻ뤹ΡʣȣУͥˡΣ	Monitoring operation(<b>H02P8/36</b> takes precedence)	581
H02P   8/36		ξ㡤㡥ǮޤæĴФݸξɽΣ	Protection against faults, e.g. against overheating or step-out; Indicating faults	676
H02P   8/38		ξ㤬æĴǤΡΣ	the fault being step-out	1420
H02P   8/40		İʾγưưäŬ礷ΡΣ	Special adaptations for controlling two or more stepping motors	1003
H02P   8/42		ưư򤹤褦˱žưưħΤΡΣ	characterised by non-stepper motors being operated step by step	165
H02P   9/00		˾νϤŪȯŵ椹뤿֡Σ	Arrangements for controlling electric generators for the purpose of obtaining a desired output	9732
H02P   9/02		Σ	Details	1694
H02P   9/04		ŵŪʸư⤿餵ȯŵŵŪʽͤ˰¸Σ	Control effected upon non-electric prime mover and dependent upon electric output value of the generator	9845
H02P   9/06		åޤ¾εŪưãʤ⤿餵ȯŵŵŪʽͤ˰¸Σ	Control effected upon clutch or other mechanical power transmission means and dependent upon electric output value of the generator	799
H02P   9/08		ư֤εưޤ߻ȯŵϩ桤㡥弧ΤΤΡΣ	Control of generator circuit during starting or stopping of driving means, e.g. for initiating excitation	1958
H02P   9/10		٤ޤϲϻ㡥ٲѲΰƶ򸺾뤿ȯŵ弧ϩ⤿餵Σ	Control effected upon generator excitation circuit to reduce harmful effects of overloads or transients, e.g. sudden application of load, sudden removal of load, sudden change of load	3185
H02P   9/12		üΤΤΡααƶ򸺾뤿ΤΡˤȿžɻߤΤΤΡΣ	for demagnetising; for reducing effects of remanence; for preventing pole reversal	573
H02P   9/14		ѲˤΡʣȣУȣУͥˡΣ	by variation of field(<b>H02P9/08</b>, <b>H02P9/10</b> take precedence)	5166
H02P   9/16		ϩΥߥå񹳤ѲˤΡʳŪ˲ϩڤ񹳤ѤΡΣ	due to variation of ohmic resistance in field circuit, using resistances switched in or out of circuit step by step	140
H02P   9/18		ڤܥ⡼¬ޤϷŴˤ굯ưΡΣ	the switching being caused by a servomotor, measuring instrument, or relay	385
H02P   9/20		Ϣ³ŪѲ륪ߥå񹳤ѲˤΡΣ	due to variation of continuously-variable ohmic resistance	150
H02P   9/22		ܥѥ񹳤ΡΣ	comprising carbon pile resistance	405
H02P   9/24		³ŪưγĻѲˤΡ㡥ĴѤΡΣ	due to variation of make-to-break ratio of intermittently-operating contacts, e.g. using Tirrill regulator	781
H02P   9/26		ŴɤޤȾƳ֤ѤΡʣȣУͥˡΣ	using discharge tubes or semiconductor devices(<b>H02P9/34</b> takes precedence)	407
H02P   9/28		ŴɤѤΡΣ	using discharge tubes	29
H02P   9/30		ȾƳ֤ѤΡΣ	using semiconductor devices	5477
H02P   9/32		ǽ˰٤ļ֤ѤΡʣȣУͥˡΣ	using magnetic devices with controllable degree of saturation(<b>H02P9/34</b> takes precedence)	349
H02P   9/34		椵줿Ŵɤޤ椵줿ȾƳ֤Ȥ߹碌ǽ˰٤ļ֤ѤΡΣ	using magnetic devices with controllable degree of saturation in combination with controlled discharge tube or controlled semiconductor device	162
H02P   9/36		ŵȿŵѤΡΣ	using armature-reaction-excited machines	416
H02P   9/38		ȯŵνŰȽήξήФήˤ뼫弧Σ	Self-excitation by current derived from rectification of both output voltage and output current of generator	880
H02P   9/40		ȯŴμϩΥ饯󥹤ѲˤΡΣ	by variation of reluctance of magnetic circuit of generator	181
H02P   9/42		ȯŵ®٤Ѥ˽˾μȿ뤿ΤΡΣ	to obtain desired frequency without varying speed of the generator	847
H02P   9/44		ȿŰͽ줿ط㡥ΨؤΣ	Control of frequency and voltage in predetermined relation, e.g. constant ratio	334
H02P   9/46		ǥ󥵤ѲˤƱȯŵΣ	Control of asynchronous generator by variation of capacitor	227
H02P   9/48		ȯŵ㡥ξܤ줿Ρ®ư˰νͤ뤿֡ʣȣУȣУͥˡΣ	Arrangements for obtaining a constant output value at varying speed of the generator, e.g. on vehicle(<b>H02P9/04 to H02P9/46</b>  take precedence)	1992
H02P  11/00		žѴ椹뤿֡Σ	Arrangements for controlling dynamo-electric converters	571
H02P  11/04		ľήϤžѴΤΤΡΣ	for controlling dynamo-electric converters having a DC output	107
H02P  11/06		ήϤžѴΤΤΡΣ	for controlling dynamo-electric converters having an AC output	571
H02P  13/00		˾Ϥ뤿Ѱꥢȥޤϥ硼롤椹뤿֡Σ	Arrangements for controlling transformers, reactors or choke coils, for the purpose of obtaining a desired output	1144
H02P  13/06		åڤ괹ˤΡ³κˤΡΣ	by tap-changing; by rearranging interconnections of windings	1032
H02P  13/08		˱褦ưŻҤˤΡΣ	by sliding current collector along winding	84
H02P  13/10		ưŴ봬ޤϥɤˤΡ㡥ͶƳŰĴˤΡΣ	by moving core, coil winding, or shield, e.g. by induction regulator	82
H02P  13/12		ХѤ뤳ȤˤΡΣ	by varying magnetic bias	136
H02P  15/00		ư֥졼ޤưå椹뤿֡ʥ٥ȥȣУˡΣ	Arrangements for controlling dynamo-electric brakes or clutches(vector control <b>H02P21/00</b>)	1325
H02P  15/02		֥졼ȥåϢưΣ	Conjoint control of brakes and clutches	67
H02P  17/00		ư֤椹뤿֡ʥ٥ȥȣУˡΣ	Arrangements for controlling dynamo-electric gears(vector control <b>H02P21/00</b>)	246
H02P  21/00		٥ȥˤŵ֤ޤˡ㡥ꥨơˤΡΣ<br><br><b><ul></ul></b><br>Υ롼פʬहȤ椵ưμˤˡħդʤ顤롼ףˤʬह٤Ǥ롣ΣϤΥ롼פʬहȤ椵ưζ뤹Űμˤˡħդʤ顤롼ףˤʬह٤Ǥ롣Σ	Arrangements or methods for the control of electric machines by vector control, e.g. by control of field orientation; <br><br><b><u>Note(s)</u></b><br><br><ul><li>When classifying in this group, classification should also be made in group <b>H02P25/00</b> when the method of control is characterised by the kind of motor being controlled. </li><li>When classifying in this group, classification should also be made in group <b>H02P27/00</b> when the method of control is characterised by the kind of supply voltage of the motor being controlled.  </li></ul>	14330
H02P  21/02		ٻ˸ΨŬ뤳ȤäŬ礷ΡΣ	specially adapted for optimising the efficiency at low load	306
H02P  21/04		٤®٤äŬ礷ΡΣ	specially adapted for very low speeds	1374
H02P  21/05		ưοư㡥ϥ󥰤㸺äŬ礷ΡΣ	specially adapted for damping motor oscillations, e.g. for reducing hunting	4342
H02P  21/06		žҤΰ֤ޤϲžҤ®٥󥵤λѤȤʤžҼ«˴ŤΣ	Rotor flux based control involving the use of rotor position or rotor speed sensors	1283
H02P  21/08		Ūʼꥨơ桨žҼ«եɥեΣ	Indirect field-oriented control; Rotor flux feed-forward control	371
H02P  21/09		٤ȿ®٤㤷ȿβûˤžŰ˴ŤѤλСΣ	Field phase angle calculation based on rotor voltage equation by adding slip frequency and speed proportional frequency	120
H02P  21/10		ľŪʼꥨơ桨žҼ«եɥХåΣ	Direct field-oriented control; Rotor flux feed-back control	293
H02P  21/12		žҤΰ֤ޤϲžҤ®٥󥵤λѤȤʤҼ«˴ŤΣ	Stator flux based control involving the use of rotor position or rotor speed sensors	741
H02P  21/13		֥桤㡥롼С¬ޤϥޥե륿ѤΡΣ	Observer control, e.g. using Luenberger observers or Kalman filters	3480
H02P  21/14		ѥ᡼㡥«ήޤŰοޤŬΣ	Estimation or adaptation of machine parameters, e.g. flux, current or voltage	9386
H02P  21/16		㡥žһοΣ	Estimation of constants, e.g. the rotor time constant	741
H02P  21/18		֤ޤ®٤οΣ	Estimation of position or speed	7964
H02P  21/20		ȥ륯οΣ	Estimation of torque	1666
H02P  21/22		ή桤㡥ή롼פѤΡΣ	Current control, e.g. using a current control loop	12187
H02P  21/24		žҤΰ֤ޤϲžҤ®٥󥵤λѤȤʤʤ٥ȥΣ	Vector control not involving the use of rotor position or rotor speed sensors	3533
H02P  21/26		žҼ«˴ŤΣ	Rotor flux based control	604
H02P  21/28		Ҽ«˴ŤΣ	Stator flux based control	1028
H02P  21/30		ľܥȥ륯ΣģԣáϤޤϼ®ˡΣƣ͡ϡΣ	Direct torque control [DTC] or field acceleration method [FAM]	448
H02P  21/32		žҤν֤ꤹΡʣȣУͥˡΣ	Determining the initial rotor position(<b>H02P21/34</b> takes precedence)	503
H02P  21/34		ư뤿֡Σ	Arrangements for starting	2119
H02P  21/36		ưޤϸ®뤿֡;ݸΣ	Arrangements for braking or slowing; Four quadrant control	1786
H02P  23/00		٥ȥʳˡħΤήư椹뤿֤ޤˡΣ<br><br><b><ul></ul></b><br>Υ롼פʬहȤ롼ףȣУȣУޤϣȣУˤϢϡ줬ŬڤʤȤϲǤ⤽Υ롼פˤʬह롣	Arrangements or methods for the control of AC motors characterised by a control method other than vector control; <br><br><b><u>Note(s)</u></b><br><br><ul><li>When classifying in this group, subject matter also relating to groups <b>H02P21/00</b>, <b>H02P25/00</b> or <b>H02P27/00</b> is further classified in those groups whenever appropriate.   </li></ul>	10121
H02P  23/02		ٻ˸ΨŬ뤳ȤäŬ礷ΡΣ	specially adapted for optimising the efficiency at low load	413
H02P  23/03		٤®٤äŬ礷ΡΣ	specially adapted for very low speeds	1296
H02P  23/04		ưοư㡥ϥ󥰤㸺äŬ礷ΡΣ	specially adapted for damping motor oscillations, e.g. for reducing hunting	3074
H02P  23/06		ư;ݸ椹ΡΣ	Controlling the motor in four quadrants	412
H02P  23/07		¿ޤñƱͶƳưΣ	Polyphase or monophase asynchronous induction motors	5005
H02P  23/08		٤ȿ˴Ť椹Ρ㡥٤ȿ®٤㤹ȿûΡΣ	Controlling based on slip frequency, e.g. adding slip frequency and speed proportional frequency	1107
H02P  23/10		ľήήä뤳Ȥˤ椹ΡΣ	Controlling by adding a DC current	206
H02P  23/12		֥桤㡥롼С¬ޤϥޥե륿ѤΡΣ	Observer control, e.g. using Luenberger observers or Kalman filters	910
H02P  23/14		ưѥ᡼㡥žһ«®١ήޤŰοޤŬΣ	Estimation or adaptation of motor parameters, e.g. rotor time constant, flux, speed, current or voltage	6159
H02P  23/16		Ĥμγ®٤ʣȣУͥˡΣ	Controlling the angular speed of one shaft(<b>H02P23/18</b> takes precedence)	3720
H02P  23/18		ٰ֤ޤϰѤ®٤Σ	Controlling the angular speed together with angular position or phase	728
H02P  23/20		®ޤϸ®Σ	Controlling the acceleration or deceleration	1082
H02P  23/22		ȯ®ѥ륹ΥեɥХåӥǥ륳ѥ졼Ѥ®٤ΥǥΣ	Controlling the speed digitally using a reference oscillator, a speed proportional pulse rate feedback and a digital comparator	160
H02P  23/24		㡥ײޤȿײꡤΣ	Controlling the direction, e.g. clockwise or counterclockwise	1700
H02P  23/26		ΨΣУƣáϡΣ	Power factor control [PFC]	805
H02P  23/28		ľήŸ³줿åΥåȿڤưΰѤ뤳ȤˤưΣ	Controlling the motor by varying the switching frequency of switches connected to a DC supply and the motor phases	291
H02P  23/30		ľܥȥ륯ΣģԣáϤޤ®ˡΣƣ͡ϡΣ	Direct torque control [DTC] or field acceleration method [FAM]	197
H02P  25/00		ήưμޤϹ¤ŪʺħΤήưΤ֤ޤˡΣ<br><br><b><ul></ul></b><br>Υ롼פʬहȤ롼ףȣУȣУޤϣȣУˤϢϡ줬ŬڤʤȤϲǤ⤽Υ롼פˤʬह롣Σ	Arrangements or methods for the control of AC motors characterised by the kind of AC motor or by structural details; <br><br><b><u>Note(s)</u></b><br><br><ul><li>When classifying in this group, subject matter also relating to groups <b>H02P21/00</b>, <b>H02P23/00</b> or <b>H02P27/00</b> is further classified in those groups whenever appropriate.   </li></ul>	717
H02P  25/02		ưμħΤΡΣ	characterised by the kind of motor	2990
H02P  25/022		ƱưʣȣУͥˡΣ	Synchronous motors(<b>H02P25/064</b> takes precedence)	5508
H02P  25/024		ȿˤ椵ΡΣ	controlled by supply frequency	1409
H02P  25/026		ˤžҰ֤򸡽ФΡΣ	thereby detecting the rotor position	1639
H02P  25/028		;ݸȤʤΡΣ	with four quadrant control	50
H02P  25/03		֥饷쥹嵯ȤʤΡΣ	with brushless excitation	587
H02P  25/032		ưޤϿư⡼Σ	Reciprocating, oscillating or vibrating motors	476
H02P  25/034		ܥ⡼ľήˤưܥ⡼ȣУˡΣ	Voice coil motors(voice coil motors driven by DC <b>H02P7/025</b>)	391
H02P  25/04		ñ⡼㡥ǥ󥵥⡼Σ	Single phase motors, e.g. capacitor motors	4273
H02P  25/06		˥⡼Σ	Linear motors	3883
H02P  25/062		ͶƳפΤΡΣ	of the induction type	331
H02P  25/064		ƱפΤΡΣ	of the synchronous type	877
H02P  25/066		ƥåץפΤΡΣ	of the stepping type	94
H02P  25/08		饯󥹥⡼Σ	Reluctance motors	2647
H02P  25/083		ĤΥ뤫鼡ΥޤǤڴ®٤ä뤿֡Σ	Arrangements for increasing the switching speed from one coil to the next one	21
H02P  25/086		ήΣ	Commutation	86
H02P  25/089		󥵥쥹ľܥȥ륯ȣУˡΣ	Sensorless control(direct torque control <b>H02P23/30</b>)	190
H02P  25/092		饯󥹥⡼ΤäŬ礷ѴΣ	Converters specially adapted for controlling reluctance motors	595
H02P  25/098		ȥ륯åץ򸺾뤿֡Σ	Arrangements for reducing torque ripple	1187
H02P  25/10		ήư㡥ưΣ	Commutator motors, e.g. repulsion motors	1730
H02P  25/12		ưǽʥ֥饷ͭΡΣ	with shiftable brushes	96
H02P  25/14		˥С⡼ʣȣУͥˡΣ	Universal motors(<b>H02P25/12</b> takes precedence)	713
H02P  25/16		ϩ֤ޤμħΤΡΣ	characterised by the circuit arrangement or by the kind of wiring	2609
H02P  25/18		ڴ֤ͭΡ㡥ŪĴޤϷŴͭΡΣ	with arrangements for switching the windings, e.g. with mechanical switches or relays	2608
H02P  25/20		˿ѴΤΤΡΣ	for pole-changing	569
H02P  25/22		¿괬ʾδΣ	Multiple windings; Windings for more than three phases	2013
H02P  25/24		ҤޤϲžҲϩˤѥԡ󥹡Σ	Variable impedance in stator or rotor circuit	276
H02P  25/26		ԡ󥹤椹뤿֤ͭΡΣ	with arrangements for controlling secondary impedance	406
H02P  25/28		ǽ˰٤ļ֡㡥˰¥ꥢȥ롤ѤΡΣ	using magnetic devices with controllable degree of saturation, e.g. transductors	182
H02P  25/30		ưư˵Ťήȯŵˤ椵ΡΣ	the motor being controlled by a control effected upon an AC generator supplying it	107
H02P  25/32		ŴɤѤΡΣ	using discharge tubes	180
H02P  27/00		ŰμħΤήư椹뤿֤ޤˡʣʾưΤΣȣУŻήҤͭƱưΤΣȣУľήưΤΣȣУƥåԥ󥰥⡼ΤΣȣУˡΣ<br><br><b><ul></ul></b><br>Υ롼פʬहȤ롼ףȣУȣУޤϣȣУˤϢϡ줬ŬڤʤȤϲǤ⤽Υ롼פˤʬह롣Σ	Arrangements or methods for the control of AC motors characterised by the kind of supply voltage(of two or more motors <b>H02P5/00</b>; of synchronous motors with electronic commutators <b>H02P6/00</b>; of DC motors <b>H02P7/00</b>; of stepping motors <b>H02P8/00</b>);<br><br><b><u>Note(s)</u></b><br><br><ul><li>When classifying in this group, subject matter also relating to groups <b>H02P21/00</b>, <b>H02P23/00</b> or <b>H02P25/00</b> is further classified in those groups whenever appropriate.   </li></ul>	1524
H02P  27/02		μȿӲѿͭ붡ŰѤΡΣ	using supply voltage with constant frequency and variable amplitude	3302
H02P  27/024		žҲϩΤߤޤϸҲϩΤߤΤ˸ήŸѤΡΣ	using AC supply for only the rotor circuit or only the stator circuit	43
H02P  27/04		ѼȿζŰ㡥СޤϥСŰѤΡΣ	using variable-frequency supply voltage, e.g. inverter or converter supply voltage	12031
H02P  27/048		žҲϩΤߤޤϸҲϩΤߤΤ˸ήŸѤΡΣ	using AC supply for only the rotor circuit or only the stator circuit	134
H02P  27/05		žҤӸҲϩ˸ή뤵졤ʤȤβϩض뤵ȿѤǤήŸѤΡΣ	using AC supply for both the rotor and the stator circuits, the frequency of supply to at least one circuit being variable	995
H02P  27/06		ľήݸήСޤϥСѤΡʣȣУͥˡΣ	using DC to AC converters or inverters(<b>H02P27/05</b> takes precedence)	24175
H02P  27/08		ѥ륹ĴȤʤΡΣ	with pulse width modulation	15679
H02P  27/10		Х󥰥ХѤΡΣ	using bang-bang controllers	77
H02P  27/12		ߤޤĶˤƼ«٥ȥ롤ή٥ȥޤŰ٥ȥͶƳˤѥ륹η㡥ľܥȥ륯ΤΤΡΣ	pulsing by guiding the flux vector, current vector or voltage vector on a circle or a closed curve, e.g. for direct torque control	2270
H02P  27/14		٥ʾŰνϤȤʤΡΣ	with three or more levels of voltage	250
H02P  27/16		ľήؤѴȤʤʤήݸήѴѤΡʣȣУͥˡΣ	using AC to AC converters without intermediate conversion to DC(<b>H02P27/05</b> takes precedence)	996
H02P  27/18		ȾȤȤˤȿѲΡΣ	varying the frequency by omitting half waves	70
H02P  29/00		ήưľήưŬưĴޤ椹뤿֡ưư뤿֣ȣУưߤޤϸ®뤿֣ȣУʾΰۤʤϸ³ǽưȣУʾư®٤ޤϥȥ륯ĴޤȣУ٥ȥȣУˡΣ	Arrangements for regulating or controlling electric motors, appropriate for both AC and DC motors(arrangements for starting electric motors <b>H02P1/00</b>; arrangements for stopping or slowing electric motors <b>H02P3/00</b>; control of motors that can be connected to two or more different electric power supplies <b>H02P4/00</b>; regulating or controlling the speed or torque of two or more electric motors <b>H02P5/00</b>; vector control <b>H02P21/00</b>)	20027
H02P  29/02		϶ưǤ˲٤ФݸΡʥƥåԥ󥰥⡼θξФݸȣУˡΣ	Providing protection against overload without automatic interruption of supply(protection against faults of stepper motors <b>H02P8/36</b>)	2849
H02P  29/024		ξ֡㡥ûžҤι«ϩޤӼ򸡽ФΡΣ	Detecting a fault condition, e.g. short circuit, locked rotor, open circuit or loss of load	4269
H02P  29/028		ưξ֤Ǥˤ⤫餺ž³Ρ㡥ξӽޤϸξߺѤΡΣ	the motor continuing operation despite the fault condition, e.g. eliminating, compensating for or remedying the fault	2085
H02P  29/032		ưؤ»ͽɤΡ㡥ۤʤư֤줾ΩήͤꤹΡΣ	Preventing damage to the motor, e.g. setting individual current limits for different drive conditions	1987
H02P  29/04		ΤưˤΡΣ	by means of a separate brake	241
H02P  29/10		Ķ®٤ޤ®٤­ɤΤΡΣ	for preventing overspeed or under speed	280
H02P  29/20		ۤʤϢ³žѤ룱Ĥư椹뤿ΤΡΣ	for controlling one motor used for different sequential operations	800
H02P  29/40		Ū٤椹뤿ưˤФޤ϶뤵ή̤Ĵޤ椹ΡΣ	Regulating or controlling the amount of current drawn or delivered by the motor for controlling the mechanical load	1794
H02P  29/50		ĴȤ㸺Σ	Reduction of harmonics	992
H02P  29/60		ưޤ϶ưβ٤ޤϷꤹΡʣȣУͥˡΣ	Controlling or determining the temperature of the motor or of the drive(<b>H02P29/02</b> takes precedence)	1743
H02P  29/62		ưβ٤徺뤿ΤΡΣ	for raising the temperature of the motor	652
H02P  29/64		٤ޤϷꤹΡΣ	Controlling or determining the temperature of the winding	532
H02P  29/66		žҤβ٤ޤϷꤹΡΣ	Controlling or determining the temperature of the rotor	393
H02P  29/68		ưǤޤȾƳǤβ٤˴ŤΡΣ	based on the temperature of a drive component or a semiconductor component	939
H02P  31/00		롼ףȣУȣУȣУޤϣȣУȣУʬवʤưĴޤ椹뤿֡Σ	Arrangements for regulating or controlling electric motors not provided for in groups <b>H02P1/00 to H02P5/00</b> , <b>H02P7/00</b> or <b>H02P21/00 to H02P29/00</b> 	1311
H02P 101/00		ȯŵΤ֤̤ŬΣ	Special adaptation of control arrangements for generators	38
H02P 101/10		ϥӥΤΤΡΣ	for water-driven turbines	257
H02P 101/15		ϥӥΤΤΡΣ	for wind-driven turbines	1111
H02P 101/20		ӥΤΤΡΣ	for steam-driven turbines	80
H02P 101/25		ǳƵؤΤΤΡΣ	for combustion engines	443
H02P 101/30		ԵΤΤΡΣ	for aircraft	220
H02P 101/35		ΤΤΡΣ	for ships	79
H02P 101/40		ŴƻξΤΤΡΣ	for railway vehicles	25
H02P 101/45		ư֤ΤΤΡ㡥ưѥ륿͡Σ	for motor vehicles, e.g. car alternators	448
H02P 103/00		ȯŵηħΤ֡Σ	Controlling arrangements characterised by the type of generator	33
H02P 103/10		ƱΤΡΣ	of the asynchronous type	144
H02P 103/20		ƱΤΡΣ	of the synchronous type	677
