Analysis of a novel actively controlled split path automotive gear powertrain topology

C. Spitas; A. Amani; V. Spitas; A. Akiltayev

doi:10.1504/IJPT.2019.099633

Analysis of a novel actively controlled split path automotive gear powertrain topology

C. Spitas, A. Amani, V. Spitas, A. Akiltayev

Research output: Journal Publication › Article › peer-review

2 Citations (Scopus)

Abstract

Automotive powertrains are susceptible to noise and vibration borne from the dynamical excitation of the gear meshes, particularly at partial loads, such as whine and rattling. A novel design has been proposed, based on the subdivision of the power flow into parallel paths via a compact internal gear preloading subsystem. The design allows the real-time control of mesh stiffness, load sharing and backlash, thereby allowing the instantaneous optimisation of the dynamical response of the system and the elimination of rattling and whine at any torque and speed. This paper performs an analysis of the new topology and discusses some of its advantages over conventional and preloaded zero-backlash gear powertrain designs.

Original language	English
Pages (from-to)	157-174
Number of pages	18
Journal	International Journal of Powertrains
Volume	8
Issue number	2
DOIs	https://doi.org/10.1504/IJPT.2019.099633
Publication status	Published - 2019
Externally published	Yes

Keywords

Automotive gears
Backlash control
Mesh stiffness control
Torque preloading

ASJC Scopus subject areas

Automotive Engineering
Energy Engineering and Power Technology
Mechanical Engineering

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10.1504/IJPT.2019.099633

Cite this

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title = "Analysis of a novel actively controlled split path automotive gear powertrain topology",

abstract = "Automotive powertrains are susceptible to noise and vibration borne from the dynamical excitation of the gear meshes, particularly at partial loads, such as whine and rattling. A novel design has been proposed, based on the subdivision of the power flow into parallel paths via a compact internal gear preloading subsystem. The design allows the real-time control of mesh stiffness, load sharing and backlash, thereby allowing the instantaneous optimisation of the dynamical response of the system and the elimination of rattling and whine at any torque and speed. This paper performs an analysis of the new topology and discusses some of its advantages over conventional and preloaded zero-backlash gear powertrain designs.",

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AU - Amani, A.

AU - Spitas, V.

AU - Akiltayev, A.

PY - 2019

Y1 - 2019

N2 - Automotive powertrains are susceptible to noise and vibration borne from the dynamical excitation of the gear meshes, particularly at partial loads, such as whine and rattling. A novel design has been proposed, based on the subdivision of the power flow into parallel paths via a compact internal gear preloading subsystem. The design allows the real-time control of mesh stiffness, load sharing and backlash, thereby allowing the instantaneous optimisation of the dynamical response of the system and the elimination of rattling and whine at any torque and speed. This paper performs an analysis of the new topology and discusses some of its advantages over conventional and preloaded zero-backlash gear powertrain designs.

AB - Automotive powertrains are susceptible to noise and vibration borne from the dynamical excitation of the gear meshes, particularly at partial loads, such as whine and rattling. A novel design has been proposed, based on the subdivision of the power flow into parallel paths via a compact internal gear preloading subsystem. The design allows the real-time control of mesh stiffness, load sharing and backlash, thereby allowing the instantaneous optimisation of the dynamical response of the system and the elimination of rattling and whine at any torque and speed. This paper performs an analysis of the new topology and discusses some of its advantages over conventional and preloaded zero-backlash gear powertrain designs.

KW - Automotive gears

KW - Backlash control

KW - Mesh stiffness control

KW - Torque preloading

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Analysis of a novel actively controlled split path automotive gear powertrain topology

Abstract

Keywords

ASJC Scopus subject areas

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