Torque converter having controllable dual clutches

What is claimed is: 1. A torque converter, comprising: an axis of rotation; a cover arranged to receive torque; an impeller including an impeller shell non-rotatably connected to the cover; a turbine in fluid communication with the impeller and including a turbine shell; a first clutch; a second clutch; a vibration damper including: a first input component non-rotatably connected to a component of the first clutch; a second input component non-rotatably connected to a component of the second clutch; a first spring engaged with the first or second input component; a first cover plate engaged with the first spring and including a radially outermost distal second input components against the first cover plate; and an output flange arranged to non-rotatably connect to an input shaft for a transmission, wherein for a first lock-up mode, the first and second clutches are arranged to close to transmit torque from the cover to the first and second input components, respectively. 2. The torque converter recited in claim 1 , wherein: for a second lock-up mode, the first clutch is arranged to close to transmit torque from the cover to the first input component, while the second clutch is open; and, for a third lock-up mode, the second clutch is arranged to close to transmit torque from the cover to the second input component, while the first clutch is open. 3. The torque converter recited in claim 2 , wherein: for the first lock-up mode, the torque converter has a first torque capacity; for the second lock-up mode, the torque converter has a second torque capacity less than the first torque capacity; and, for the third lock-up mode, the torque converter has a third torque capacity different from the second torque capacity and less than the first torque capacity. 4. The torque converter recited in claim 2 , wherein: the first clutch includes a piston; the component of the first clutch is the piston; and, for the first and second lock-up modes: the piston is axially displaceable to frictionally engage the cover; and, the piston is arranged to transmit torque to the first input component. 5. The torque converter recited in claim 2 , wherein for the first and third lock-up modes, the component of the second clutch is arranged to axially displace to frictionally engage the impeller shell. 6. The torque converter recited in claim 5 , wherein the component of the second clutch is the turbine shell. 7. The torque converter recited in claim 5 , wherein: the second clutch includes a piston rotatable with respect to the turbine shell; and, the component of the second clutch is the piston. 8. The torque converter recited in claim 2 , wherein: the vibration damper includes: the first cover plate and a second cover plate; the first spring engaged with the first input component and the first cover plate; a second spring engaged with the second input component and the second cover plate; and, a third spring engaged with the first cover plate, the second cover plate, and the output flange, wherein: for the first, second and third lock-up modes, the first and second cover plates are arranged to transmit torque from the cover to the output flange. 9. The torque converter recited in claim 2 , further comprising: a first chamber at least partially formed by the component for the second clutch and the impeller; a second chamber at least partially formed by the first and second input components and the component of the second clutch; and, a third chamber at least partially formed by the cover and the component of the first clutch, wherein for the second lock-up mode: fluid pressure in the first chamber is higher than fluid pressure in the third chamber; and, the component of the first clutch is arranged to frictionally engage the cover to transmit torque from the cover to the first input component. 10. The torque converter recited in claim 2 , further comprising: a first chamber at least partially formed by the component for the second clutch and the impeller; a second chamber at least partially formed by the first and second input components and the component of the second clutch; and, a third chamber at least partially formed by the cover and the component of the first clutch, wherein for the third lock-up mode: fluid pressure in the third chamber is higher than fluid pressure in the first chamber; and, the second clutch is arranged to close to transmit torque from the cover to the second input component. 11. The torque converter recited in claim 1 , further comprising: a first chamber at least partially formed by the component of the second clutch and the impeller; a second chamber at least partially formed by the first and second input components and the component of the second clutch; and, a third chamber at least partially formed by the cover and the component of the first clutch, wherein for the first lock-up mode: fluid pressure in the second chamber is higher than respective fluid pressures in the first and third chambers; and, the first and second input components are arranged to transmit torque from the cover to the output flange. 12. The torque converter recited in claim 1 , further comprising: a first chamber at least partially formed by the component for the second clutch and the impeller; a second chamber at least partially formed by the first and second input components and the component of the second clutch; and, a third chamber at least partially formed by the cover and the component of the first clutch, wherein the output flange is located in the second chamber. 13. The torque converter recited in claim 1 , further comprising: a first chamber at least partially formed by the component for the second clutch and the impeller; a second chamber at least partially formed by the first and second input components and the component of the second clutch; a third chamber at least partially formed by the cover and the component of the first clutch; and, first, second, and third channels: connected to the first, second, and third chambers, respectively; and, hydraulically isolated from each other, wherein: the first channel is arranged to connect to a pump for the transmission; and, the second and third channels are arranged to hydraulically connect to the pump via fourth and fifth hydraulically isolated channels, respectively, in the transmission input shaft. 14. A torque converter, comprising: an axis of rotation; a cover arranged to receive torque; an impeller including an impeller shell non-rotatably connected to the cover; a turbine in fluid communication with the impeller and including a turbine shell; a first clutch axially displaceable to engage the cover; a second clutch axially displaceable to engage the impeller shell; and, a vibration damper including: a first input component non-rotatably connected to a component of the first clutch; a second input component non-rotatably connected to a component of the second clutch; first and second cover plates, wherein the first or second cover plate includes a radially outermost distal end; a seal element fixed to the radially outermost end and sealing the first and second input components against the first or second cover plate; and an output flange arranged to non-rotatably connect to an input shaft for a transmission, wherein for a first lock-up mode, the first and second input components are arranged to transmit torque from the cover to the output flange; and, wherein: the component for the second clutch s the turbine shell; or, the second clutch includes a piston separate from t