Transmission with L1-L2 shift method while engine braking

The invention claimed is: 1. A transmission for use with an engine, the transmission comprising: a stationary member; an input member connectable to the engine; a plurality of gear sets each having a plurality of nodes, including a ring gear, a sun gear, and a carrier member; a first clutch that, when applied, connects a node of one of the gear sets to the stationary member to establish a 1 st gear low (L 1 ) mode; a second clutch that, when applied, connects a node of another one of the gear sets to the stationary member to establish a 2 nd gear low (L 2 ) mode; a selectable one-way clutch (SOWC) connected between nodes of two of the gear sets; and a controller programmed, in response to a requested shift from the L 1 mode to the L 2 mode during an engine braking maneuver, to release the first clutch and thereby enter a neutral mode of the transmission, release the SOWC when a slip level across the first clutch exceeds a first calibrated slip threshold, reapply the first clutch when a slip level of the SOWC exceeds a second calibrated slip threshold to thereby enter a 1 st gear freewheeling mode, and apply the second clutch to enter the L 2 mode and resume the engine braking maneuver. 2. The transmission of claim 1 , wherein the plurality of gear sets includes first, second, third, and fourth gear sets, the first clutch connects a node of the first gear set to the stationary member, the SOWC is connected between nodes of the second and third gear sets, and the second clutch connects the fourth gear set to the stationary member. 3. The transmission of claim 2 , wherein the transmission is a 9-speed automatic transmission. 4. The transmission of claim 3 , wherein the first clutch connects the sun gear of the first gear set to the stationary member, the second clutch connects the sun gear of the fourth gear set to the stationary member, and the SOWC is connected between the ring gear of the third gear set and the carrier member of the third gear set. 5. The transmission of claim 1 , further comprising a plurality of speed sensors positioned with respect to the transmission and operable for measuring rotational speeds of the input member, an output member, and a mid-transmission member of the transmission, wherein the controller is programmed to calculate the slip levels using the measured rotational speeds. 6. The transmission of claim 1 , wherein the controller is programmed to release the SOWC by reducing a pressure command to the SOWC. 7. The transmission of claim 6 , wherein the SOWC includes a pair of races, a plurality of struts, and a selector plate operable for depressing the struts into mating strut wells of one of the races, and wherein reducing pressure to the SOWC causes rotation of the selector plate sufficient for depressing the struts into the mating strut wells. 8. The transmission of claim 6 , wherein the controller is programmed to request additional torque output from the engine to facilitate the release of the SOWC. 9. A method of shifting from a 1 st gear low (L 1 ) mode to a second gear low (L 2 ) mode in a transmission having a plurality of gear sets each having a plurality of nodes, including a ring gear, a sun gear, and a carrier member, the method comprising: detecting a requested shift maneuver from the L 1 mode to the L 2 mode during an engine braking maneuver; releasing a first clutch to enter a neutral mode of the transmission, wherein releasing the first clutch disconnects a node of one of the gear sets from a stationary member to exit the L 1 mode; releasing a selectable one-way clutch (SOWC) when a slip level across the first clutch exceeds a first calibrated slip threshold, wherein the SOWC is connected between nodes of two of the gear sets; reapplying the first clutch when a slip level across the SOWC exceeds a second calibrated slip threshold to thereby enter a 1 st gear freewheeling mode; and applying the second clutch to connect a node of another one of the gear sets to the stationary member and thereby enter the L 2 mode and resume the engine braking maneuver. 10. The method of claim 9 , wherein the plurality of gear sets includes first, second, third, and fourth gear sets, the first clutch when applied connects a node of the first gear set to the stationary member, the SOWC is connected between nodes of the second and third gear sets, and the second clutch when applied connects the fourth gear set to the stationary member. 11. The method of claim 10 , wherein the transmission is a 9-speed automatic transmission. 12. The method of claim 9 , further comprising: measuring, via a plurality of speed sensors positioned with respect to the transmission, rotational speeds of an input member, output member, and mid-transmission member of the transmission; and calculating the slip levels via a controller using the measured rotational speeds. 13. The method of claim 9 , wherein releasing the SOWC includes reducing pressure to the SOWC. 14. The method of claim 13 , wherein the SOWC includes a pair of races, a plurality of struts, and a selector plate operable for depressing the struts into mating strut wells of one of the races, and wherein reducing pressure to the SOWC includes causing the selector plate to depress the struts into the mating strut wells. 15. The method of claim 13 , wherein releasing the SOWC also includes requesting additional torque output from an engine via the controller to facilitate the release of the SOWC.