Power operated closure latch assembly with an inside/outside backup mechanism having integrated splitter box arrangement

What is claimed is: 1. A closure latch assembly for a vehicle door, comprising: a latch mechanism having a ratchet moveable between a striker capture position and a striker release position, a pawl moveable between a ratchet holding position for holding the ratchet in the striker capture position and a ratchet releasing position for permitting movement of the ratchet to the striker release position, a ratchet biasing member for biasing the ratchet toward the striker release position, and a pawl biasing member for biasing the pawl toward the ratchet holding position; and a latch release mechanism operatively connected to the pawl, a power-operated actuator operable to shift the latch release mechanism from a rest position whereat the pawl is located in the ratchet holding position to an actuated position whereat the latch release mechanism has moved the pawl to the ratchet releasing position, an actuation linkage operatively connected to the pawl, a first connection device operatively connecting a first segment of the actuation linkage to a first release mechanism, and a second connection device operatively connecting a second segment of the actuation linkage to a second release mechanism, wherein movement of the first release mechanism from a first release mechanism rest position to a first release mechanism first release position causes movement of the actuation linkage from a non-actuated position into a first actuated position whereat the power-operated actuator is activated to shift the latch release mechanism from the rest position to the actuated position, wherein movement of the first release mechanism from the first release mechanism first release position to a first release mechanism second release position causes movement of the actuation linkage from the first actuated position into a second actuated position for causing the actuation linkage to mechanically move the pawl from the ratchet holding position into the ratchet releasing position, and wherein movement of the second release mechanism from a second release mechanism rest position to a second release mechanism release position causes movement of the actuation linkage from the non-actuated position to the second actuated position for causing the actuation linkage to mechanically move the pawl from the ratchet holding position into the ratchet releasing position. 2. The closure latch assembly of claim 1 , wherein the first release mechanism is a door handle and movement of the door handle from a handle rest position to a first handle release position defines a first range of handle movement operable to trigger actuation of the power-operated actuator to provide a power release of the latch mechanism. 3. The closure latch assembly of claim 2 , wherein a sensor is operable to detect the location of the actuation linkage in the first actuated position and provide a power release signal to a latch controller for use in triggering actuation of the power-operated actuator to shift the latch release mechanism from the rest position into the actuated position. 4. The closure latch assembly of claim 3 , wherein the sensor is mounted within the closure latch assembly. 5. The closure latch assembly of claim 4 , wherein the sensor is a Hall sensor configured to detect a magnet mounted to the actuation linkage in response to movement between the non-actuated position and first actuated position. 6. The closure latch assembly of claim 2 , wherein movement of the door handle from the first handle release position to the second handle release position defines a second range of handle travel movement operable to cause the actuation linkage to move the pawl from the ratchet holding position to the ratchet releasing position to provide a handle-based mechanical release of the latch mechanism. 7. The closure latch assembly of claim 6 , wherein the actuation linkage engages the pawl when it is located in the first actuated position and forcibly drives the pawl from the ratchet holding position into the ratchet releasing position in response to movement of the actuation linkage from the first actuated position into the second actuated position. 8. The closure latch assembly of claim 1 , wherein the second release mechanism is a key cylinder and movement of the key cylinder from a key rest position to a key release position defines a range of key travel movement operable to cause the actuation linkage to move the pawl from the ratchet holding position to the ratchet releasing position to provide a key-based mechanical release of the latch mechanism. 9. The closure latch assembly of claim 8 , wherein the actuation linkage engages the pawl when it is located in the first actuated position and forcibly drives the pawl from the ratchet holding position into the ratchet releasing position in response to movement of the actuation linkage from the first actuated position into the second actuated position. 10. The closure latch assembly of claim 1 , the latch release mechanism having a gear operatively connected to the pawl, the power-operated actuator operable to rotate the gear from a gear rest position whereat the pawl is located in the ratchet holding position to a gear actuated position whereat the gear has moved the pawl to the ratchet releasing position, wherein the pawl is overlaid with respect to the gear and includes a first drive lug retained in a drive slot formed in the gear and configured to drive the pawl from the ratchet holding position to the ratchet releasing position in response to rotation of the gear from the gear rest position to the gear actuated position. 11. The closure latch assembly of claim 10 , wherein the pawl further includes a second drive lug retained in a drive chamber formed in the actuation linkage and configured to drive the pawl from the ratchet holding position to the ratchet releasing position in response to movement of the actuation linkage from the first actuated position into the second actuated position. 12. The closure latch assembly of claim 1 , wherein the first connection device is a first Bowden cable having a first end operatively coupled to the first segment of the actuation linkage and a second end coupled to the first release mechanism, wherein the second connection device is a second Bowden cable having a first end connected to a terminal block and a second end connected to the second release mechanism, wherein the terminal block is slideably mounted in a rail slot formed in a latch housing such that movement of the second Bowden cable in response to movement of the second release mechanism from the second release mechanism rest position to the second release mechanism release position causes the terminal block to engage the second segment of the actuation linkage and mechanically move the actuation linkage from the non-actuated position to the second actuated position. 13. The closure latch assembly of claim 1 , wherein the first connection device has a first end for coupling to the first segment of the actuation linkage and a second end coupled to the first release mechanism, wherein the second connection device has a first end for coupling to a second segment of the actuation linkage and a second end connected to the second release mechanism, wherein movement of one of the first connection device in response to movement of the first release mechanism and the second connection device in response to movement of the second release mechanism causes mechanical movement of the actuation linkage without causing movement of the other one of the first connection device and the second connection device. 14. A closure latch assembly for a vehicle door, comprising: a latch mechani