Power actuator having cam-driven dual cable actuation mechanism for use with vehicular closure latch assembly

What is claimed is: 1. A latch system for a closure panel of a vehicle, the latch system comprising: a power actuator; a ratchet configured for pivoting movement between at least one closed position and an open position, wherein the ratchet is biased toward the open position; at least one pawl configured in operable communication with the power actuator via a mechanically actuatable first cable and being configured for pivoting movement between at least one locking position relative to the ratchet and at least one unlocking position relative to the ratchet in response to movement of the first cable via selective powered actuation of the power actuator; and a cinch lever configured for operable communication with the power actuator via a second cable and being configured for pivoting movement between a released, uncinched position and an actuated, cinched position in response to movement of the second cable via selective actuation of the power actuator, the cinch lever being biased toward the released, uncinched position; wherein the first cable and the second cable are operably coupled to a common gear, the common gear having a home position and being rotatable from the home position in a first direction whereupon the at least one pawl is caused to pivot between the at least one locking position and the at least one unlocking position, and the common gear being rotatable from the home position in a second direction opposite the first direction, whereupon the cinch lever is caused to pivot between the released, uncinched position and the actuated, cinched position; and wherein the at least one pawl includes a primary pawl having a primary locking position and a primary unlocking position, included in the at least one locking position and the at least one unlocking position, respectively, and a secondary pawl having a secondary locking position and a secondary unlocking position included in the at least one locking position and the at least one unlocking position, respectively, wherein the primary pawl moves from the primary locking position to the primary unlocking position via the first cable upon a first actuation of the power actuator causing a first rotation of the common gear from the home position in the first direction and wherein the secondary pawl moves from the secondary locking position to the secondary unlocking position via the first cable upon a second actuation of the power actuator causing a second rotation of the common gear from the home position in the first direction. 2. The latch system of claim 1 , further including a sensor configured to detect when the common gear is in the home position. 3. The latch system of claim 1 , further including a first drive member coupled to the common gear and a second drive member attached to the common gear, wherein the second cable has a lost motion connection with the second drive member such that the second cable and the common gear move relative to one another as the common gear rotates from the home position in the first direction. 4. The latch system of claim 3 , wherein the first drive member is formed as separate component from the common gear, wherein the first drive member moves relative to the common gear, and the second drive member is fixed against relative movement with the common gear. 5. The latch system of claim 4 , wherein the common gear has a drive lug and the first drive member has a driven lug, the drive lug being configured for driving engagement with the driven lug. 6. The latch system of claim 5 , wherein the driven lug is biased into engagement with the drive lug by a biasing member. 7. The latch system of claim 3 , wherein the first drive member has a first cam surface configured for engagement with the first cable and the second drive member has a second cam surface configured for engagement with the second cable. 8. The latch system of claim 7 , wherein the first cam surface has a first geometric contour about which the first cable is configured to wrap and the second cam surface has a second geometric contour about which the second cable is configured to wrap, the first geometric contour and the second geometric contour being different from one another. 9. The latch system of claim 1 , wherein the closure panel is configured for use with a frunk. 10. A method of mechanically actuating a first pawl and a second pawl of a latch with a power actuator having a single motor, the method comprising: energizing the single motor in a first energization to rotate a common gear from a home position in a first direction to rotate the first pawl associated with a first cable operably connected to the first pawl; energizing the single motor in a second energization to rotate the common gear from the home positon in the first direction to rotate both the first pawl and the second pawl associated with the first cable operably connected to the second pawl. 11. The method of claim 10 , further including configuring a drive member fixed to the common gear to move a cinch lever via a second cable. 12. The method of claim 11 , further including providing a lost motion connection between the second cable and the drive member. 13. The method of claim 11 , further including causing the first cable and the second cable to be driven over different distances while the common gear is rotated over the same number of degrees from the home position. 14. The method of claim 11 , further including energizing the single motor to rotate the common gear from the home positon in a second direction, opposite the first direction, to move the cinch lever. 15. The method of claim 14 , further including providing a coupling lever adapted to move the second pawl, wherein the first energization of the single motor causes the first pawl to move to an unlocking position, and the second energization of the single motor causes the coupling lever to move the second pawl to an unlocking position. 16. A latch system for a closure panel of a vehicle, the latch system comprising: a power actuator; a ratchet configured for pivoting movement between at least one closed position and an open position, wherein the ratchet is biased toward the open position; at least one pawl configured in operable communication with the power actuator via a mechanically actuatable first cable and being configured for pivoting movement between at least one locking position relative to the ratchet and at least one unlocking position relative to the ratchet in response to movement of the first cable via selective powered actuation of the power actuator; and a cinch lever configured for operable communication with the power actuator via a second cable and being configured for pivoting movement between a released, uncinched position and an actuated, cinched position in response to movement of the second cable via selective actuation of the power actuator, the cinch lever being biased toward the released, uncinched position; wherein the at least one pawl includes a primary pawl having a primary locking position and a primary unlocking position, included in the at least one locking position and the at least one unlocking position, respectively, and a secondary pawl having a secondary locking position and a secondary unlocking position included in the at least one locking position and the at least one unlocking position, respectively, wherein the primary pawl moves from the primary locking position via the first cable to the primary unlocking position upon a first actuation of the power actuator and wherein the secondary pawl moves from the secondary locking position via the first cable to the secon