Shift through neutral control in an electrically variable transmission
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60W-010/02
B60W-010/10
G06F-017/00
출원번호
US-0779558
(2004-02-14)
등록번호
US-7324885
(2008-01-29)
발명자
/ 주소
Sah,Jy Jen F.
Steinmetz,Todd M
출원인 / 주소
General Motors Corporation
인용정보
피인용 횟수 :
13인용 특허 :
19
초록▼
A shift control for an electrically variable transmission shifts between modes through a neutral mode wherein the output is decoupled from the transmission. Normally, shifts between modes are accomplished synchronously through a duration of fixed-ratio operation. Extreme driving conditions may invo
A shift control for an electrically variable transmission shifts between modes through a neutral mode wherein the output is decoupled from the transmission. Normally, shifts between modes are accomplished synchronously through a duration of fixed-ratio operation. Extreme driving conditions may invoke shifts through neutral mode. Ratio violations characterized by one mode being active in a preferred input/output ratio range for another mode are handled by a shift through neutral. Similarly, rapid acceleration and deceleration conditions likely to result in undesirable engine speeds if synchronous shifting is employed are handled by a shift through neutral.
대표청구항▼
The invention claimed is: 1. Method for controlling a mode to mode shift in a multi-mode, electro-mechanical transmission including an input member and an output member, first and second torque transfer devices, at least one motor, first mode operation characterized by simultaneous first torque tra
The invention claimed is: 1. Method for controlling a mode to mode shift in a multi-mode, electro-mechanical transmission including an input member and an output member, first and second torque transfer devices, at least one motor, first mode operation characterized by simultaneous first torque transfer device applied and second torque transfer device released wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, second mode operation characterized by simultaneous first torque transfer device released and second torque transfer device applied wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, neutral operation characterized by simultaneous first and second torque transfer devices released wherein the transmission output member is mechanically decoupled from the transmission, and fixed-ratio operation characterized by simultaneous first and second torque transfer devices applied wherein the transmission input member is mechanically coupled to the transmission output member through a fixed ratio, comprising: while in one of the first and second modes, releasing the one of the first and second torque transfer devices that is applied to establish neutral mode operation; controlling slip speed across one of the first and second torque transfer devices to substantially zero; and, applying the one of the first and second torque transfer devices across which slip is being controlled when the slip thereacross is substantially zero. 2. The method for controlling a shift as claimed in claim 1 wherein controlling slip speed across the one of the first and second torque transfer devices is accomplished by adjusting motor torque. 3. The method for controlling a shift as claimed in claim 2 wherein controlling slip speed terminates when the one of the first and second torque transfer devices across which slip is being controlled is fully applied. 4. The method for controlling a shift as claimed in claim 1 further comprising: establishing a substantially zero torque at the output member immediately in advance of releasing the one of the first and second torque transfer devices. 5. The method for controlling a shift as claimed in claim 4 further comprising: establishing a substantially non-zero torque at the output member immediately subsequent to the application of the one of the first and second torque transfer devices. 6. The method for controlling a shift as claimed in claim 1 wherein the shift is initiated in response to a ratio violation. 7. The method for controlling a shift as claimed in claim 1 wherein the shift is initiated in response to a rate of change of output member speed in excess of a predetermined amount. 8. Method for controlling a mode to mode shift in a multi-mode, electro-mechanical transmission including an input member and an output member, first and second torque transfer devices, at least one motor, first mode operation characterized by simultaneous first torque transfer device applied and second torque transfer device released wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, second mode operation characterized by simultaneous first torque transfer device released and second torque transfer device applied wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, neutral operation characterized by simultaneous first and second torque transfer devices released wherein the transmission output member is mechanically decoupled from the transmission, fixed-ratio operation characterized by simultaneous first and second torque transfer devices applied wherein the transmission input member is mechanically coupled to the transmission output member through a fixed ratio, and a preferred operating region for first mode operation on one side of the fixed ratio and a preferred operating region for the second mode of operation on the other side of the fixed ratio, comprising: when one of the first and second modes of operation is active within the preferred operating region for the other of the first and second modes of operation, executing a shift through the neutral operation comprising; reducing output member torque to substantially zero, releasing the one of the first and second torque transfer devices that is applied, determining which of the first and second modes is desired, controlling to substantially zero the slip speed across the one of the first and second torque transfer devices which when applied establishes the desired one of the first and second modes, applying the one of the first and second torque transfer devices that will establish the desired one of the first and second modes, and increasing output member torque to non-zero. 9. The method as claimed in claim 8 wherein reducing output torque to substantially zero includes ramping output torque at a predetermined rate. 10. The method for controlling a shift as claimed in claim 8 wherein controlling slip speed is accomplished by adjusting motor torque. 11. Method for controlling a mode to mode shift in a multi-mode, electro-mechanical transmission including an input member and an output member, first and second torque transfer devices, at least one motor, first mode operation characterized by simultaneous first torque transfer device applied and second torque transfer device released wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, second mode operation characterized by simultaneous first torque transfer device released and second torque transfer device applied wherein the transmission input member is mechanically coupled to the transmission output member through a continuously variable ratio, neutral operation characterized by simultaneous first and second torque transfer devices released wherein the transmission output member is mechanically decoupled from the transmission, fixed-ratio operation characterized by simultaneous first and second torque transfer devices applied wherein the transmission input member is mechanically coupled to the transmission output member through a fixed ratio, and a preferred operating region for first mode operation on one side of the fixed ratio and a preferred operating region for the second mode of operation on the other side of the fixed ratio, comprising: when the first mode of operation is active within the preferred operating region therefor and the output member experiences a rate of change of speed in excess of a preset threshold, executing a shift through the neutral operation comprising; releasing the first torque transfer device, controlling slip speed across the second torque transfer devices to substantially zero, and applying the second torque transfer device when the slip speed of the torque transfer device is substantially zero. 12. The method for controlling a shift as claimed in claim 11 wherein controlling slip speed across the second torque transfer device is accomplished by adjusting motor torque.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (19)
Lawrie Robert E. ; Reed Richard G. ; Rausen David J., Automated manual transmission shift sequence controller.
Tabata Atsushi,JPX ; Taga Yutaka,JPX ; Ibaraki Ryuji,JPX ; Hata Hiroshi,JPX ; Mikami Tsuyoshi,JPX, Hybrid vehicle drive system adapted to prevent concurrent mode change and transmission shifting or torque distribution.
Kubo Seitoku (Toyota JPX) Taga Yutaka (Toyota JPX) Nakamura Shinya (Toyota JPX) Yasue Hideki (Toyota JPX), Method of controlling a transmission of a vehicle in two different modes according to requirements for power and economy.
Kirchhoffer Johann,DEX ; Crandall Scott Raymond ; Haase Robert Cary, Upshift and downshift control valve system for multiple ratio automatic transmission.
Tabata Atsushi,JPX ; Taga Yutaka,JPX ; Ibaraki Ryuji,JPX ; Hata Hiroshi,JPX ; Mikami Tsuyoshi,JPX, Vehicle transmission shift control apparatus wherein torque of motor connected to automatic transmission is controlled t.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.