Power transmitting apparatuses

What is claimed is: 1. A power transmitting apparatus, comprising: a starting clutch mechanism configured to selectively transmit and cut off driving power from an engine to wheels of a vehicle; a torque converter; a plurality of gear-stage clutch devices that are separate from the starting clutch mechanism and operatively positioned to transmit power between the starting clutch mechanism and the wheels, an input and an output of the plurality of gear-stage clutch devices configured at predetermined gear ratios; and a gear stage selecting device configured to select any one of the gear-stage clutch devices in accordance with a vehicle operating condition and selectively set a gear ratio for power transmission from the engine to the wheels; wherein the gear-stage clutch devices comprise: alternately arranged driving clutch discs and driven clutch discs; and hydraulic pistons configured to selectively engage or disengage the driving clutch discs and driven clutch discs such that driving power of the engine is transmitted to the wheels at a corresponding predetermined gear ratio when the driving clutch discs and driven clutch discs are engaged. 2. The power transmitting apparatus of claim 1 , wherein the gear-stage clutch devices are configured to selectively engage the driving clutch discs and driven clutch discs at different gear ratios in accordance with an operating direction of the hydraulic pistons. 3. The power transmitting apparatus of claim 2 , wherein the starting clutch mechanism comprises a first clutch device for transmitting driving power of engine to the wheels through the torque converter, a second clutch device for transmitting driving power of engine to the wheels without a power transmitting system of the torque converter, and a control device for selectively actuating the first and second clutch device in accordance with a vehicle operating condition. 4. The power transmitting apparatus of claim 2 , wherein the starting clutch mechanism comprises a first clutch device for even-number gear stages connectable with gear-stage clutch devices of even-number stages and a second clutch device for odd-number gear stages connectable with gear-stage clutch devices of odd-number stages. 5. The power transmitting apparatus of claim 2 , wherein the starting clutch mechanism comprises frictional materials having first frictional characteristics wherein a first coefficient of dynamic friction continuously diminishes as time elapses, and wherein the gear-stage clutch devices comprise frictional materials having second frictional characteristics wherein a second coefficient of dynamic friction continuously diminishes as time elapses during an initial period and exhibits a “rooster tail” property wherein the second coefficient of dynamic friction has a higher peak than the second coefficient of dynamic friction does in the initial period. 6. The power transmitting apparatus of claim 1 , wherein the starting clutch mechanism comprises a first clutch device for transmitting driving power of engine to the wheels through the torque converter, a second clutch device for transmitting driving power of engine to the wheels without a power transmitting system of the torque converter, and a control device for selectively actuating the first and second clutch device in accordance with a vehicle operating condition. 7. The power transmitting apparatus of claim 6 , wherein the starting clutch mechanism comprises frictional materials having first frictional characteristics wherein a first coefficient of dynamic friction continuously diminishes as time elapses, and wherein the gear-stage clutch devices comprise frictional materials having second frictional characteristics wherein a second coefficient of dynamic friction continuously diminishes as time elapses during an initial period and exhibits a “rooster tail” property wherein the second coefficient of dynamic friction has a higher peak than the second coefficient of dynamic friction does in the initial period. 8. The power transmitting apparatus of claim 1 , wherein the starting clutch mechanism comprises a first clutch device for even-number gear stages connectable with gear-stage clutch devices of even-number stages and a second clutch device for odd-number gear stages connectable with gear-stage clutch devices of odd-number stages. 9. The power transmitting apparatus of claim 8 , wherein the starting clutch mechanism comprises frictional materials having first frictional characteristics wherein a first coefficient of dynamic friction continuously diminishes as time elapses, and wherein the gear-stage clutch devices comprise frictional materials having second frictional characteristics wherein a second coefficient of dynamic friction continuously diminishes as time elapses during an initial period and exhibits a “rooster tail” property wherein the second coefficient of dynamic friction has a higher peak than the second coefficient of dynamic friction does in the initial period. 10. The power transmitting apparatus of claim 1 , wherein the starting clutch mechanism comprises frictional materials having first frictional characteristics wherein a first coefficient of dynamic friction continuously diminishes as time elapses, and wherein the gear-stage clutch devices comprise frictional materials having second frictional characteristics wherein a second coefficient of dynamic friction continuously diminishes as time elapses during an initial period and exhibits a “rooster tail” property wherein the second coefficient of dynamic friction has a higher peak than the second coefficient of dynamic friction does in the initial period. 11. The power transmitting apparatus of claim 1 , wherein one or more of the hydraulic pistons comprises: a first pressure side forming a boundary of a first hydraulic chamber; and a second pressure side forming a boundary of a second hydraulic chamber; wherein the one or more hydraulic pistons is configured to move in a first direction to engage a first set of driving clutch discs with a first set of driven clutch discs of a first gear stage in response to increased hydraulic pressure in the first hydraulic chamber, and wherein the one or more hydraulic pistons is configured to move in a second direction to engage a second set of driving clutch discs with a second set of driving clutch discs of a second gear stage in response to increased hydraulic pressure in the second hydraulic chamber. 12. The power transmitting apparatus of claim 1 , wherein one or more of the hydraulic pistons is configured to be driven by hydraulic pressure acting directly on one or more surfaces of the one or more hydraulic pistons. 13. The power transmitting apparatus of claim 1 , wherein one or more of the gear stage clutches comprises at least a first carrier supporting at least one of the driving clutch discs and the driven clutch discs, wherein at least one of the hydraulic pistons has a first side and a second side, and wherein a first hydraulic chamber is disposed between the first side of the at least one hydraulic piston and a first side of the first carrier. 14. The power transmitting apparatus of claim 1 , additionally comprising at least a first shaft and at least first and second pairs of gear-stage gears defining first and second gear ratios, respectively, where one gear of each of the first and second pairs of gear-stage gears are disposed about the first shaft, and wherein at least one of the gear stage clutch device, including a corresponding hydraulic piston, is disposed about the first shaft and directly between the first and second pairs of gear-stage gears.