Torque converter with a selective pressure activated seal system

What is claimed is: 1. A torque converter, comprising: a cover arranged to receive torque from an engine; an impeller; a turbine; an output hub arranged to non-rotatably connect to an input shaft for a transmission; a lockup clutch: including an axially displaceable piston plate; and, arranged to directly connect the cover to the output hub; and, a seal system including: a pilot portion including first and second channels; and, a secondary hub overlapping the output hub in a radial direction, the secondary hub: non-rotatably connected to the output hub and axially displaceable with respect to the output hub to control flow of pressurized fluid through the first and second channels; or, non-rotatably connected to the pilot portion and axially displaceable with respect to the pilot portion to control flow of pressurized fluid through the first and second channels. 2. The torque converter of claim 1 , further comprising: a release pressure chamber partially bounded by the piston plate; an apply pressure chamber partially bounded by the piston plate; for a torque converter mode, fluid pressure in the release pressure chamber is arranged to displace the piston plate in a first axial direction to open the lockup clutch and enable independent rotation of the output hub with respect to the cover; for a lockup mode, fluid pressure in the apply pressure chamber is arranged to displace the piston plate in a second axial direction, opposite the first axial direction, to close the lockup clutch and non-rotatably connect the cover and the output hub; and, the first and second channels open to the release pressure chamber and the apply pressure chamber, respectively. 3. The torque converter of claim 2 , wherein: for the torque converter mode a first pressurized fluid in the torque converter, outside of the release and apply pressure chambers, is arranged to displace the secondary hub in the second axial direction such that: the secondary hub blocks fluid flow through the second channel; and, the first pressurized fluid flows through the first channel to the release pressure chamber. 4. The torque converter of claim 3 , wherein: the output hub and the secondary hub are non-rotatably connected by respective portions of the output hub and the secondary hub; and, for the torque converter mode, the first pressurized fluid is arranged to flow: between the respective portions of the output hub and the secondary hub; through the first channel; and, to the release pressure chamber. 5. The torque converter of claim 4 , further comprising: a torus enclosed by the impeller and the turbine, wherein: the second channel is arranged to receive second pressurized fluid from a third channel partially formed by the input shaft; and, for the torque converter mode: the first pressurized fluid is arranged to flow: from the torus; and, between the respective portions of the output hub and the secondary hub; the first pressurized fluid flowing between the respective portions of the output hub and the secondary hub is arranged to displace the secondary hub in the second axial direction; and, the first pressurized fluid flowing between the respective portions of the output hub and the secondary hub is at arranged to be a higher pressure than the second pressurized fluid. 6. The torque converter of claim 5 , wherein: the secondary hub includes a fourth channel; and, for the lockup mode: the first pressurized fluid flowing between the respective portions of the output hub and the secondary hub is arranged to be a lower pressure than the second pressurized fluid; the second pressurized fluid is arranged to displace the secondary hub in the first axial direction such that: the second pressurized fluid is able to flow through the second channel to the apply pressure chamber; and, the fourth channel aligns with the first channel to enable flow from the release pressure chamber to a fifth channel formed in the input shaft. 7. The torque converter of claim 3 , wherein: the pilot portion and the secondary hub are non-rotatably connected by respective portions of the pilot portion and the secondary hub; and, for the torque converter mode, the first pressurized fluid is arranged to flow: between the respective portions of the pilot portion and the secondary hub; through the first channel; and, to the release pressure chamber. 8. The torque converter of claim 7 , further comprising: a first chamber partially enclosed by the piston plate and the turbine, wherein: the second channel is arranged to receive second pressurized fluid from a third channel partially formed by the input shaft; and, for the torque converter mode: the first pressurized fluid is arranged to flow: from the first chamber; and, between the respective portions of the pilot portion and the secondary hub; the first pressurized fluid flowing between the respective portions of the pilot portion and the secondary hub is arranged to displace the secondary hub in the second axial direction; and, the first pressurized fluid flowing between the respective portions of the pilot portion and the secondary hub is arranged to be at a higher pressure than the second pressurized fluid. 9. The torque converter of claim 8 , wherein: the secondary hub includes a fourth channel; the output hub includes a fifth channel; for the lockup mode: the first pressurized fluid flowing between the respective portions of the pilot portion and the secondary hub is arranged to be a lower pressure than the second pressurized fluid; the second pressurized fluid is arranged to displace the secondary hub in the first axial direction such that: the second pressurized fluid is able to flow through the second channel to the apply pressure chamber; and, the fourth and fifth channels align with the first channel to enable flow from the release pressure chamber to a sixth channel formed in the input shaft. 10. The torque converter of claim 2 , further comprising: a torus enclosed by the impeller and the turbine, wherein: the torus is arranged to receive first pressurized fluid from a first pressurized fluid circuit; the torus is arranged to flow second pressurized fluid out of the torus through a second pressurized fluid circuit, separate from the first pressurized fluid circuit; the second channel is arranged to receive third pressurized fluid from a third pressurized fluid circuit, separate from the first and second pressurized fluid circuits; and, the first channel is arranged to drain to a fourth pressurized fluid circuit: separate from the first, second, and third circuits; and, at atmospheric pressure. 11. The torque converter of claim 1 , wherein: the secondary hub is rotatable with respect to the pilot portion; the secondary hub includes a third channel; the sealing assembly includes: a first dynamic seal: in contact with the pilot portion and the secondary hub; and, sealing the pilot portion against the secondary hub; and, a second dynamic seal: in contact with the pilot portion and the output hub; and, sealing the pilot portion against the output hub; and, the third channel opens between the first and second dynamic seals. 12. The torque converter of claim 1 , wherein: the secondary hub is rotatable with respect to the output hub; the output hub includes a third channel; and, the sealing assembly includes first and second dynamic seals: in contact with the secondary hub and the output hub; and, sealing the secondary hub against the output hub; and, the third channel opens between the first and second dynamic seals.