Abstract: A method of controlling a pump for a hybrid transmission includes commanding a first line pressure of the transmission and deriving a first torque value—an open-loop torque value—from the first line pressure command, and commanding the pump to operate at the first torque value. The method monitors actual speed of the pump and derives a second torque value—a closed-loop torque value—therefrom. A third torque value is derived from the first and second torque values, and the pump commanded to operate at the third torque value. A first speed value may be derived from the first line pressure command, and the second torque value derived from the difference between the monitored and the first speed values. Deriving the third torque value may include a substantially-linear combination of the first and second torque values.
Abstract: A system and method of dithering speed and/or torque for shifting a transmission of a vehicle having an engine, a reversible, variable displacement hydraulic motor/pump which can be driven by the engine, a hydraulic accumulator supplied by said motor/pump, and at least one reversible hydraulic driving motor for propelling the vehicle supplied with fluid by the hydraulic accumulator and/or by said motor/pump operating as a pump. A transmission unit connects the engine with the variable displacement hydraulic motor/pump during a first mode of operation (city mode) and connects the engine to a vehicle drive wheel during a second mode of operation. The system utilizes stored hydraulic energy to dither the output of the driving motor in order to achieve quick and smooth shifts between city and highway mode, or between various ranges within the city mode.
Abstract: Vehicle automatic transmission system having input shaft drive gears, output shaft driven gears meshing with the drive gears, a torque converter disposed between an engine crankshaft and the input shaft, synchromesh mechanisms for synchronously engaging the drive gears with the driven gears and a shift controller for automatically actuating the synchromesh mechanisms to obtain a required gear ratio. A lock-up clutch is incorporated in the torque converter for connecting a turbine shaft of the torque converter with the crankshaft. An electronically controlled throttle valve automatically operates to reduce crank shaft rotation speed when the gear is shifted, a bypass clutch transmits torque from the input shaft to the output shaft when the gear is shifted while the electronically controlled throttle valve reduces rotation speed of the crankshaft, and an input clutch selectively controls torque transmission from the crankshaft to the input shaft when the gear is shifted.
Abstract: Apparatus for loading onto a pipettor a plurality of micropipette tips, the pipettor having a plurality of tip pins depending from a head portion, the tips each having an upper, hollow, tapered, generally cylindrical barrel portion and lower, hollow, generally cylindrical aspirating tip portion, both lying along a common vertical axis and being cojoined at a horizontal shoulder, and the tips being frictionally held in a tip package, the apparatus comprising: a horizontal pusher plate to simultaneously engage the shoulder on each of the tips and to simultaneously raise the tips for insertion of the tip pins therein.