A hydro-mechanical hybrid transmission device with an energy management mechanism includes an input member, a mechanical transmission mechanism, an energy management mechanism, a power output mechanism, an output member, a convergence mechanism, a start mechanism, a hydraulic transmission mechanism, a clutch assembly, and a brake assembly. The clutch assembly connects the input member to the mechanical transmission mechanism, the power output mechanism, and the hydraulic transmission mechanism, and connects the energy management mechanism to the mechanical transmission mechanism and the power output mechanism. The clutch assembly and the brake assembly provide a continuous transmission ratio between the input member and the output member and/or the power output mechanism, between the energy management mechanism and the output member and/or the power output mechanism, and between the energy management mechanism together with the input member and the output member and/or the power output mechanism.

A hydro-mechanical hybrid transmission device with an energy management mechanism includes an input member, a mechanical transmission mechanism, an energy management mechanism, a power output mechanism, an output member, a convergence mechanism, a start mechanism, a hydraulic transmission mechanism, a clutch assembly, and a brake assembly. The clutch assembly connects the input member to the mechanical transmission mechanism, the power output mechanism, and the hydraulic transmission mechanism, and connects the energy management mechanism to the mechanical transmission mechanism and the power output mechanism. The clutch assembly and the brake assembly provide a continuous transmission ratio between the input member and the output member and/or the power output mechanism, between the energy management mechanism and the output member and/or the power output mechanism, and between the energy management mechanism together with the input member and the output member and/or the power output mechanism.

A transmission system configured to transfer power from a power source to a load is provided. The transmission system includes an input section coupled to the power source and a range section coupled to the load. The input section includes a plurality of input clutches configured to selectively transition between engaged and disengaged states to provide one or more input speeds. The range section includes a plurality of range clutches configured to be selectively transition between engaged and disengaged states to provide one or more speed ranges. When the range section is commanded to sequentially shift between two of the one or more speed ranges, the range section is configured to maintain at least two of the plurality of range clutches in the engaged state and transition a maximum of one of the plurality of range clutches from the disengaged state to the engaged state.

A transmission system configured to transfer power from a power source to a load is provided. The transmission system includes an input section coupled to the power source and a range section coupled to the load. The input section includes a plurality of input clutches configured to selectively transition between engaged and disengaged states to provide one or more input speeds. The range section includes a plurality of range clutches configured to be selectively transition between engaged and disengaged states to provide one or more speed ranges. When the range section is commanded to sequentially shift between two of the one or more speed ranges, the range section is configured to maintain at least two of the plurality of range clutches in the engaged state and transition a maximum of one of the plurality of range clutches from the disengaged state to the engaged state.

A transmission between a drive aggregate and a drive output of a vehicle drivetrain has a hydrodynamic starting element and a powershiftable main transmission with a plurality of forward gears, at least one reversing gear, a transmission input, a transmission output, and frictional shifting elements. In each gear a first number of shifting elements are closed and a second number of shifting elements are open. A downstream range group has at least one interlocking shifting element which can be shifted between a first and second driving ranges. With the drive aggregate running, the vehicle at a standstill or nearly so, the main transmission in neutral, and a shift request received to change the downstream range group, shifting elements of the main transmission are actuated, thereby bracing the transmission input against a transmission housing and decoupling the transmission input from the transmission output. The downstream range group is then shifted.