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Fault tolerant modular motor drive system

專利號(hào)
US11177761B1
公開日期
2021-11-16
申請(qǐng)人
ABB Schweiz AG(CH Baden)
發(fā)明人
Md Ashfanoor Kabir; Bahareh Anvari; Jukka T. Jarvinen; Ghanshyam Shrestha
IPC分類
H02P1/32; H02P3/20; H02P9/06; H02P29/028; H02P27/06; H02P25/22
技術(shù)領(lǐng)域
stator,drive,phase,respective,modules,ninv,module,conductors,conductor,poly
地域: Baden

摘要

An electric machine includes a rotor and a stator. The stator includes a stator core having a plurality of slots. The stator further includes a plurality of drive modules configured to collectively produce an aggregate rotating magnetic field. Each respective drive module includes a power supply configured to generate a respective poly-phase alternating current (AC) output and is connected to a plurality of respective conductor windings. Each respective conductor winding includes a plurality of respective conductors, each respective conductor configured to carry a respective phase of the respective poly-phase AC output. Each respective drive module is configured to generate a rotating, poly-phase, multipole magnetic field. The rotating, poly-phase, multipole magnetic field is a superimposition of a plurality of respective mono-phase, multiple magnetic fields being generated by a respective conductor of the respective conductor winding.

說(shuō)明書

FIELD

The present invention relates to an electric machine and to a method for operating an electric machine, and more particularly, to a fault tolerant motor drive system and a method for operating a fault tolerant motor drive system.

BACKGROUND

Electric machines, such as electric motors, convert electrical energy into mechanical energy. In an electric motor, an electric current induces a magnetic field that can provide a magneto-motive force (MMF). A mechanism is provided for periodically changing a direction of the current in order to introduce a time-variance into the induced magnetic field. The time-variance ensures that the MMF brings about rotational motion of a rotor.

A motor operated by a single drive has limited reliability and single point of failure. With a single drive feeding the motor, a high device rating is also required. Under a single phase fault, such a motor will shut down or operate under a reduced phase operation with significantly degraded performance. Moreover, the use of a single drive localizes thermal losses thereby creating challenges for cooling.

SUMMARY

權(quán)利要求

1
What is claimed is:1. An electric machine, comprising:a rotor; anda stator, the stator including:a stator core, the stator core having a plurality of slots; anda plurality of respective drive modules (Ninv), the plurality of respective drive modules being configured to collectively produce an aggregate rotating magnetic field, each respective drive module including:a power supply configured to generate a respective poly-phase alternating current (AC) output, the respective poly-phase AC output having a plurality of respective phases, anda plurality of respective conductor windings, each respective conductor winding including a plurality of respective conductors, each respective conductor configured to carry a respective phase of the respective poly-phase AC output;wherein each respective drive module is configured to generate a respective rotating, poly-phase, multipole magnetic field, the respective rotating, poly-phase, multipole magnetic field being a superimposition of a plurality of respective mono-phase, multiple magnetic fields, each respective mono-phase, multipole magnetic field being generated by a respective conductor of the respective conductor winding carrying a respective phase of the respective poly-phase AC output,wherein each respective rotating, poly-phase, multipole magnetic field is configured to interact with the rotor to produce a respective magneto-motive force (MMF) that causes the rotor to rotate, andwherein the aggregate rotating magnetic field is a superimposition of the plurality of respective rotating, poly-phase, multipole magnetic fields generated by the plurality of respective drive modules.2. The electric machine as claimed in claim 1, wherein each respective power supply includes a respective poly-phase inverter configured to convert a direct current (DC) input into the respective poly-phase AC output.3. The electric machine as claimed in claim 2, further comprising a DC bus, wherein the plurality of drive modules includes drive modules that are connected in parallel to the DC bus, and wherein the DC bus is configured to supply the DC input to each respective poly-phase inverter.4. The electric machine as claimed in claim 1, wherein each respective drive module is configured to be operated independently from each other respective drive module.5. The electric machine as claimed in claim 1, wherein the plurality of slots of the stator core is a number Q of slots, wherein the plurality of respective drive modules is a number Ninv of respective drive modules, wherein each respective rotating, poly-phase, multipole magnetic field has a number 2P of poles, and wherein the plurality of respective phases of each respective poly-phase AC output is a number n of phases, wherein the numbers Q, Ninv, P, and n are positive integers.6. The electric machine as claimed in claim 5, wherein the stator core is divided into the number 2P of respective sectors, each respective sector including an integer number Q/2P of the Q slots.7. The electric machine as claimed in claim 6, wherein each respective sector is divided into the number n of respective segments, wherein each respective segment includes a number q of slots, wherein q = Q 2 ? P n ,and wherein q is a positive integer.8. The electric machine as claimed in claim 7, further comprising a plurality of conductors (Z1) per each of the plurality of stator slots, and wherein Ninv is selected such that Ninv∈N and modulo (Z1*q,Ninv)=0, wherein Nis the set of natural numbers.9. The electric machine as claimed in claim 7, wherein each of the q slots of each respective segment is occupied by a respective conductor of the respective conductor winding of a different respective drive module.10. The electric machine as claimed in claim 9, wherein each respective phase of each respective poly-phase AC output of a respective drive module corresponds to a single phase of the respective poly-phase AC output of each other respective poly-phase AC output, andwherein the q slots of each respective segment are occupied by respective conductors that carry corresponding phases of the respective poly-phase AC outputs of the plurality of drive modules.11. The electric machine as claimed in claim 9, wherein each respective drive module is assigned a drive module number, wherein the slots of each respective segment are assigned to respective conductors of respective drive modules in an order corresponding to the assigned drive module numbers, and wherein the order of respective conductors of respective drive modules is identical for every segment.12. The electric machine as claimed in claim 1, wherein each respective poly-phase AC output of a respective drive module has a phase shift relative to each other respective poly-phase AC output.13. The electric machine as claimed in claim 6, wherein each drive module is assigned a number i, wherein i=1:Ninv, wherein the respective poly-phase AC output of the ith respective drive module has a phase shift θ shift = q * θ slot i ,wherein θslot is the slot pitch, in electrical degrees, of each of the plurality of respective conductor windings.14. The electric machine as claimed in claim 1, further comprising a controller configured to control each of the drive modules independently of the other drive modules.15. The electric machine as claimed in claim 14, the controller being configured to:determine that a fault has occurred in a respective drive module;shut down the respective faulty drive module; andadjust one or more operating parameters of the remaining healthy drive modules.16. The electric machine as claimed in claim 14, the controller being configured to:determine that a load demanded of the electric machine falls below a threshold value, andin response to determining that the demanded load falls below the threshold value, shut down one or more of the plurality of respective drive modules, andadjust one or more operating parameters of the remaining active drive modules.17. The electric machine as claimed in claim 14, the controller being configured to:determine a torque-speed requirement demanded of the electric machine; andselect, based on the demanded torque-speed requirement, one or more of the plurality of respective drive modules to be operated and operating parameters for each of the one or more respective drive modules to be operated.18. The electric machine as claimed in claim 1, wherein each respective conductor is a hairpin bar conductor or a stranded coil conductor.19. The electric machine as claimed in claim 1, wherein each respective conductor winding is a wave winding of a lap winding.20. A method for operating an electric machine, the method comprising:independently controlling a plurality of respective drive modules to generate an aggregate rotating magnetic field, the aggregate rotating magnetic field being a superimposition of a plurality of rotating, poly-phase, multipole magnetic fields, each respective rotating, poly-phase, multipole magnetic field being generated by a single respective drive module,wherein each respective drive module includes a power supply configured to generate a respective poly-phase alternating current (AC) output, the respective poly-phase AC output having a plurality of respective phases, andwherein each respective drive module is connected to a plurality of respective conductor windings, each respective conductor winding including a plurality of respective conductors, each respective conductor configured to carry a respective phase of the respective poly-phase AC output;wherein each respective rotating, poly-phase, multipole magnetic field is a superimposition of a plurality of respective mono-phase, multiple magnetic fields, each respective mono-phase, multipole magnetic field being generated by a respective conductor of the respective conductor winding carrying a respective phase of the respective poly-phase AC output,wherein each respective rotating, poly-phase, multipole magnetic field is configured to interact with a rotor to produce a respective magneto-motive force (MMF) that causes the rotor to rotate;determining that a fault has occurred in a respective drive module;shutting down the respective faulty drive module; andadjusting one or more operating parameters of the remaining healthy drive modules.
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