H
SECTION H — ELECTRICITY
 H02
GENERATION, CONVERSION, OR DISTRIBUTION OF ELECTRIC POWER
 H02P
CONTROL OR REGULATION OF ELECTRIC MOTORS, GENERATORS, OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS (structure of the starter, brake, or other control devices, see the relevant subclasses, e.g. mechanical brake F16D, mechanical speed regulator G05D, variable resistor H01C, starter switch H01H; systems for regulating electric or magnetic variables using transformers, reactors or choke coils G05F; arrangements structurally associated with motors, generators, dynamo-electric converters, transformers, reactors or choke coils, see the relevant subclasses, e.g. H01F, H02K; connection or control of one generator, transformer, reactor, choke coil, or dynamo-electric converter with regard to conjoint operation with similar or other source of supply H02J; control or regulation of static converters H02M)
 H02P

Note(s)

  1. This subclass covers arrangements for starting, regulating, electronically commutating, braking, or otherwise controlling motors, generators, dynamo-electric converters, clutches, brakes, gears, transformers, reactors or choke coils, of the types classified in the relevant subclasses, e.g. H01F, H02K.
  2. This subclass does not cover similar arrangements for the apparatus of the types classified in subclass H02N, which arrangements are covered by that subclass.
 H02P 1/00
Arrangements for starting electric motors or dynamo-electric converters (H02P 6/00 takes precedence)
 H02P 1/02
·  Details
 H02P 1/04
·  ·  Means for controlling progress of starting sequence in dependence upon time or upon current, speed, or other motor parameter
 H02P 1/06
·  ·  ·  Manually-operated multi-position starters
 H02P 1/08
·  ·  ·  Manually-operated on/off switch controlling power-operated multi-position switch or impedances for starting a motor
 H02P 1/10
·  ·  ·  Manually-operated on/off switch controlling relays or contactors operating sequentially for starting a motor (sequence determined by power-operated multi-position switch H02P 1/08)
 H02P 1/12
·  ·  ·  Switching devices centrifugally operated by the motor
 H02P 1/14
·  ·  ·  Pressure-sensitive resistors centrifugally operated by the motor
 H02P 1/16
·  for starting dynamo-electric motors or dynamo-electric converters
 H02P 1/18
·  ·  for starting an individual dc motor
 H02P 1/20
·  ·  ·  by progressive reduction of resistance in series with armature winding
 H02P 1/22
·  ·  ·  in either direction of rotation
 H02P 1/24
·  ·  for starting an individual ac commutator motor (starting of ac/dc commutator motors H02P 1/18)
 H02P 1/26
·  ·  for starting an individual polyphase induction motor
 H02P 1/28
·  ·  ·  by progressive increase of voltage applied to primary circuit of motor
 H02P 1/30
·  ·  ·  by progressive increase of frequency of supply to primary circuit of motor
 H02P 1/32
·  ·  ·  by star/delta switching
 H02P 1/34
·  ·  ·  by progressive reduction of impedance in secondary circuit
 H02P 1/36
·  ·  ·  ·  the impedance being a liquid resistance
 H02P 1/38
·  ·  ·  by pole-changing
 H02P 1/40
·  ·  ·  in either direction of rotation
 H02P 1/42
·  ·  for starting an individual single-phase induction motor
 H02P 1/44
·  ·  ·  by phase-splitting with a capacitor
 H02P 1/46
·  ·  for starting an individual synchronous motor
 H02P 1/48
·  ·  ·  by pole-changing
 H02P 1/50
·  ·  ·  by changing over from asynchronous to synchronous operation (H02P 1/48 takes precedence)
 H02P 1/52
·  ·  ·  by progressive increase of frequency of supply to motor
 H02P 1/54
·  ·  for starting two or more dynamo-electric motors
 H02P 1/56
·  ·  ·  simultaneously
 H02P 1/58
·  ·  ·  sequentially
 H02P 3/00
Arrangements for stopping or slowing electric motors, generators, or dynamo-electric converters (H02P 6/00 takes precedence)
 H02P 3/02
·  Details
 H02P 3/04
·  ·  Means for stopping or slowing by a separate brake, e.g. friction brake, eddy-current brake (brakes F16D, H02K 49/00)  [2]
 H02P 3/06
·  for stopping or slowing an individual dynamo-electric motor or dynamo-electric converter  [2]
 H02P 3/08
·  ·  for stopping or slowing a dc motor  [2]
 H02P 3/10
·  ·  ·  by reversal of supply connections
 H02P 3/12
·  ·  ·  by short-circuit or resistive braking
 H02P 3/14
·  ·  ·  by regenerative braking
 H02P 3/16
·  ·  ·  by combined electrical and mechanical braking
 H02P 3/18
·  ·  for stopping or slowing an ac motor  [2]
 H02P 3/20
·  ·  ·  by reversal of phase sequence of connections to the motor
 H02P 3/22
·  ·  ·  by short-circuit or resistive braking
 H02P 3/24
·  ·  ·  by applying dc to the motor
 H02P 3/26
·  ·  ·  by combined electrical and mechanical braking
 H02P 5/00
Arrangements for speed regulation of electric motors wherein the motor speed is measured and compared with a given physical value so as to adjust the motor speed
 H02P 5/04
·  for speed regulation of an individual motor by means of a separate brake
 H02P 5/06
·  for speed regulation of an individual dc dynamo-electric motor by varying field or armature current
 H02P 5/08 - 
H02P 5/20

Note(s)

Group H02P 5/22 takes precedence over groups H02P 5/08-H02P 5/20.

 H02P 5/08
·  ·  using centrifugal devices, e.g. switch, resistor
 H02P 5/10
·  ·  using a periodic interrupter, e.g. Tirrill regulator (H02P 5/08, H02P 5/12-H02P 5/18 take precedence)
 H02P 5/12
·  ·  using discharge tubes or semiconductor devices (H02P 5/08 takes precedence)
 H02P 5/14
·  ·  ·  using discharge tubes
 H02P 5/16
·  ·  ·  using semiconductor devices
 H02P 5/162
·  ·  ·  ·  controlling field supply only  [4]
 H02P 5/165
·  ·  ·  ·  controlling armature supply only  [4]
 H02P 5/168
·  ·  ·  ·  ·  using variable impedance  [4]
 H02P 5/17
·  ·  ·  ·  ·  using pulse modulation  [4]
 H02P 5/172
·  ·  ·  ·  ·  using static converters, e.g. ac to dc  [4]
 H02P 5/175
·  ·  ·  ·  ·  ·  of the kind having one thyristor or the like in series with the power supply and the motor  [4]
 H02P 5/178
·  ·  ·  ·  controlling armature and field supply  [4]
 H02P 5/18
·  ·  using magnetic devices with controllable degree of saturation, i.e. transductors
 H02P 5/20
·  ·  using armature-reaction-excited machines, e.g. metadyne, amplidyne, rototrol
 H02P 5/22
·  ·  using Ward-Leonard set
 H02P 5/24
·  ·  ·  in which only the generator field is controlled
 H02P 5/26
·  ·  ·  in which both generator and motor fields are controlled
 H02P 5/28
·  for speed regulation of an individual ac motor by varying stator or rotor current
 H02P 5/30 - 
H02P 5/34

Note(s)

Groups H02P 5/36-H02P 5/42 take precedence over groups H02P 5/30-H02P 5/34.

 H02P 5/30
·  ·  using centrifugal devices, e.g. switch, resistor
 H02P 5/32
·  ·  using a periodic interrupter (H02P 5/30 takes precedence)
 H02P 5/34
·  ·  by varying frequency of supply to rotor or stator
 H02P 5/36
·  ·  using discharge tubes or semiconductor devices
 H02P 5/38
·  ·  ·  using discharge tubes
 H02P 5/40
·  ·  ·  using semiconductor devices
 H02P 5/402
·  ·  ·  ·  controlling supply voltage (H02P 5/418 takes precedence)  [4]
 H02P 5/405
·  ·  ·  ·  controlling secondary impedance  [4]
 H02P 5/408
·  ·  ·  ·  controlling supply frequency (H02P 5/418 takes precedence)  [4]
 H02P 5/41
·  ·  ·  ·  ·  using dc to ac converters  [4]
 H02P 5/412
·  ·  ·  ·  ·  using ac to ac converters without intermediate conversion to dc  [4]
 H02P 5/415
·  ·  ·  ·  controlling slip energy  [4]
 H02P 5/418
·  ·  ·  ·  for regulating commutator motors  [4]
 H02P 5/42
·  ·  using magnetic devices with controllable degree of saturation, i.e. transductors
 H02P 5/44
·  ·  using brush shifting arrangements
 H02P 5/46
·  for speed regulation of two or more dynamo-electric motors in relation to one another
 H02P 5/48
·  ·  by comparing mechanical values representing the speeds
 H02P 5/50
·  ·  by comparing electrical values representing the speeds
 H02P 5/52
·  ·  additionally providing control of relative angular displacement
 H02P 6/00
Arrangements for controlling dynamo-electric motors with electronic commutators; Electronic commutators therefor (for stepping motors H02P 8/00)  [3]
 H02P 6/02
·  for dc motors  [3]
 H02P 7/00
Arrangements for controlling the speed or torque of electric motors (H02P 1/00-H02P 6/00, H02P 8/00 take precedence; speed control in general G05D 13/62)  [2]
 H02P 7/04
·  for controlling an individual motor by means of a separate brake
 H02P 7/06
·  for controlling an individual dc dynamo-electric motor by varying field or armature current
 H02P 7/08
·  ·  by manual control without auxiliary power
 H02P 7/10 - 
H02P 7/22

Note(s)

Groups H02P 7/24-H02P 7/30 take precedence over groups H02P 7/10-H02P 7/22.

 H02P 7/10
·  ·  ·  of motor field only
 H02P 7/12
·  ·  ·  ·  Switching field from series to shunt excitation or vice versa
 H02P 7/14
·  ·  ·  of voltage applied to the armature with or without control of field
 H02P 7/16
( covered by H02P 7/14 )
 H02P 7/18
·  ·  by master control with auxiliary power
 H02P 7/20
·  ·  ·  using multi-position switch, e.g. drum, controlling motor circuit by means of relays
 H02P 7/22
·  ·  ·  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
 H02P 7/24
·  ·  ·  using discharge tubes or semiconductor devices
 H02P 7/26
·  ·  ·  ·  using discharge tubes
 H02P 7/28
·  ·  ·  ·  using semiconductor devices
 H02P 7/282
·  ·  ·  ·  ·  controlling field supply only  [4]
 H02P 7/285
·  ·  ·  ·  ·  controlling armature supply only  [4]
 H02P 7/288
·  ·  ·  ·  ·  ·  using variable impedance  [4]
 H02P 7/29
·  ·  ·  ·  ·  ·  using pulse modulation  [4]
 H02P 7/292
·  ·  ·  ·  ·  ·  using static converters, e.g. ac to dc  [4]
 H02P 7/295
·  ·  ·  ·  ·  ·  ·  of the kind having one thyristor or the like in series with the power supply and the motor  [4]
 H02P 7/298
·  ·  ·  ·  ·  controlling armature and field supply  [4]
 H02P 7/30
·  ·  ·  using magnetic devices with controllable degree of saturation, i.e. transductors
 H02P 7/32
·  ·  ·  using armature-reaction-excited machines, e.g. metadyne, amplidyne, rototrol
 H02P 7/34
·  ·  ·  using Ward-Leonard arrangements
 H02P 7/36
·  for controlling an individual ac dynamo-electric motor by varying stator or rotor current
 H02P 7/38
·  ·  by manual control without auxiliary power
 H02P 7/40
·  ·  ·  using variable impedance in stator or rotor circuit
 H02P 7/42
·  ·  ·  using variable-frequency supply
 H02P 7/44
·  ·  ·  ·  wherein only rotor or only stator circuit is supplied with ac
 H02P 7/46
·  ·  ·  ·  wherein both rotor and stator circuits are supplied with ac, the frequency of supply to one circuit being variable
 H02P 7/48
·  ·  ·  by pole-changing
 H02P 7/50
·  ·  ·  by shifting the brushes of a commutator motor
 H02P 7/52
·  ·  by master control with auxiliary power
 H02P 7/54
·  ·  ·  using multi-position switch, e.g. drum, controlling motor circuit by means of relays
 H02P 7/56
·  ·  ·  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
 H02P 7/58
·  ·  ·  using discharge tubes or semiconductor devices
 H02P 7/60
·  ·  ·  ·  using discharge tubes
 H02P 7/62
·  ·  ·  ·  using semiconductor devices
 H02P 7/622
·  ·  ·  ·  ·  controlling supply voltage (H02P 7/638 takes precedence)  [4]
 H02P 7/625
·  ·  ·  ·  ·  controlling secondary impedance  [4]
 H02P 7/628
·  ·  ·  ·  ·  controlling supply frequency (H02P 7/638 takes precedence)  [4]
 H02P 7/63
·  ·  ·  ·  ·  ·  using dc to ac converters  [4]
 H02P 7/632
·  ·  ·  ·  ·  ·  using ac to ac converters without intermediate conversion to dc  [4]
 H02P 7/635
·  ·  ·  ·  ·  controlling slip energy  [4]
 H02P 7/638
·  ·  ·  ·  ·  for controlling commutator motors  [4]
 H02P 7/64
·  ·  ·  using magnetic devices with controllable degree of saturation, i.e. transductors
 H02P 7/66
·  ·  ·  using an ac generator to supply the motor, the motor being controlled by a control effected upon the generator
 H02P 7/67
·  for controlling two or more dynamo-electric motors  [4]
 H02P 7/68
·  ·  for controlling two or more dc dynamo-electric motors
 H02P 7/685
·  ·  ·  electrically connected in series, i.e. carrying the same current  [3]
 H02P 7/69
·  ·  ·  mechanically coupled by gearing  [3]
 H02P 7/695
·  ·  ·  ·  Differential gearing  [3]
 H02P 7/70 - 
H02P 7/72
( covered by H02P 7/68 )
 H02P 7/74
·  ·  for controlling two or more ac dynamo-electric motors
 H02P 7/747
·  ·  ·  mechanically coupled by gearing  [3]
 H02P 7/753
·  ·  ·  ·  Differential gearing  [3]
 H02P 7/76 - 
H02P 7/78
( covered by H02P 7/74 )
 H02P 7/80
·  ·  for controlling combinations of dc and ac dynamo-electric motors
 H02P 8/00
Arrangements for controlling dynamo-electric motors of the kind having rotor rotating step by step and without interrupter or commutator driven by the rotor  [2]
 H02P 9/00
Arrangements for controlling electric generators for the purpose of obtaining a desired output (Ward-Leonard arrangements H02P 7/34; feeding a network by two or more generators H02J; for charging batteries H02J 7/14)
 H02P 9/02
·  Details
 H02P 9/04
·  Control effected upon non-electric prime mover and dependent upon electric output value of the generator (effecting control of the prime mover in general, see the relevant class for such prime mover)  [2]
 H02P 9/06
·  Control effected upon clutch or other mechanical power transmission means and dependent upon electric output value of the generator (effecting control of the power transmission means, see the relevant class for such means)  [2]
 H02P 9/08
·  Control of generator circuit during starting or stopping of driving means, e.g. for initiating excitation  [2]
 H02P 9/10
·  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  [2]
 H02P 9/12
·  ·  for demagnetising; for reducing effects of remanence; for preventing pole reversal  [2]
 H02P 9/14
·  by variation of field (H02P 9/08, H02P 9/10 take precedence)  [2]
 H02P 9/16
·  ·  due to variation of ohmic resistance in field circuit, using resistances switched in or out of circuit step by step
 H02P 9/18
·  ·  ·  the switching being caused by a servomotor, measuring instrument, or relay
 H02P 9/20
·  ·  due to variation of continuously-variable ohmic resistance
 H02P 9/22
·  ·  ·  comprising carbon pile resistance
 H02P 9/24
·  ·  due to variation of make-to-break ratio of intermittently-operating contacts, e.g. using Tirrill regulator
 H02P 9/26
·  ·  using discharge tubes or semiconductor devices (H02P 9/34 takes precedence)  [2]
 H02P 9/28
·  ·  ·  using discharge tubes
 H02P 9/30
·  ·  ·  using semiconductor devices
 H02P 9/32
·  ·  using magnetic devices with controllable degree of saturation (H02P 9/34 takes precedence)  [2]
 H02P 9/34
·  ·  using magnetic devices with controllable degree of saturation in combination with controlled discharge tube or controlled semiconductor device
 H02P 9/36
·  ·  using armature-reaction-excited machines
 H02P 9/38
·  ·  Self-excitation by current derived from rectification of both output voltage and output current of generator
 H02P 9/40
·  by variation of reluctance of magnetic circuit of generator
 H02P 9/42
·  to obtain desired frequency without varying speed of the generator
 H02P 9/44
·  Control of frequency and voltage in predetermined relation, e.g. constant ratio
 H02P 9/46
·  Control of asynchronous generator by variation of capacitor
 H02P 9/48
·  Arrangements for obtaining a constant output value at varying speed of the generator, e.g. on vehicle (H02P 9/04-H02P 9/46 take precedence)  [3]
 H02P 11/00
Arrangements for controlling dynamo-electric converters (starting H02P 1/00; stopping or slowing H02P 3/00; feeding a network in conjunction with a generator or another converter H02J)
 H02P 11/04
·  for controlling dynamo-electric converters having a dc output
 H02P 11/06
·  for controlling dynamo-electric converters having an ac output
 H02P 11/08
( transferred to H02M 3/16, H02M 3/38, H02M 5/34, H02M 5/46, H02M 7/32, H02M 7/58, H02M 7/90 )
 H02P 13/00
Arrangements for controlling transformers, reactors or choke coils, for the purpose of obtaining a desired output (regulation systems using transformers, reactors or choke coils G05F; transformers H01F; feeding a network in conjunction with a generator or a converter H02J; control or regulation of converters H02M)
 H02P 13/04
( covered by H02P 13/00 )
 H02P 13/06
·  by tap-changing; by rearranging interconnections of windings
 H02P 13/08
·  by sliding current collector along winding
 H02P 13/10
·  by moving core, coil winding, or shield, e.g. by induction regulator
 H02P 13/12
·  by varying magnetic bias
 H02P 13/14 - 
H02P 13/16
( transferred to H02M 3/00-H02M 11/00 )
 H02P 13/18 - 
H02P 13/22
( transferred to H02M 3/24, H02M 5/42, H02M 7/44, H02M 7/68 )
 H02P 13/24 - 
H02P 13/28
( transferred to H02M 3/24, H02M 5/42, H02M 7/04, H02M 7/68 )
 H02P 13/30
( transferred to H02M 5/04, H02M 5/38 )
 H02P 13/32
( transferred to H02M 3/04, H02M 3/20 )
 H02P 15/00
Arrangements for controlling dynamo-electric brakes or clutches (controlling speed of dynamo-electric motors by means of a separate brake H02P 5/00, H02P 7/00)
 H02P 15/02
·  Conjoint control of brakes and clutches  [3]
 H02P 17/00
Arrangements for controlling dynamo-electric gears  [3]