Automated footwear lacing systems, devices, and techniques

The invention claimed is: 1. A lacing engine for an automated footwear platform, the lacing engine comprising: a housing; a lace spool at least partially disposed within the housing, the lace spool adapted to collect a portion of a lace cable in response to rotation in a first direction during tightening of the footwear platform; a motor contained within the housing and coupled to the lace spool to drive rotation of the lace spool; and a detection mechanism including a spring-loaded lever including a free end adapted to follow a contour of the lace spool and a cut-off switch to control the motor, wherein the lace spool includes a divot adapted to receive at least a portion of the free end of the lever when the lace cable runs off the lace spool, and wherein the detection mechanism includes a sensor being configured to detect when the free end of the lever is received within the divot. 2. The lacing engine of claim 1 , wherein the lace spool is adapted to collect the lace cable upon rotation in a first direction, and where upon collecting at least a first portion of the lace cable the free end of the lever cannot be received within the divot. 3. The lacing engine of claim 1 , wherein the cut-off switch is activated upon receiving the free end of the lever in the divot. 4. The lacing engine of claim 3 , wherein the cut-off switch operates to cut-off power to the motor operating the lacing engine. 5. A lacing engine for an automated footwear platform, the lacing engine comprising: a housing; a lace spool at least partially disposed within the housing, the lace spool adapted to collect a portion of a lace cable in response to rotation in a first direction during tightening of the footwear platform; and a detection mechanism including a sensor to measure a characteristic of the lace cable while the lace cable is manipulated by the lacing engine, wherein the detection mechanism includes a cut-off switch and a split portion of the lace spool. 6. The lacing engine of claim 5 , wherein the split portion of the lace spool includes a curved section of the lace spool pivotably coupled to the lace spool. 7. The lacing engine of claim 6 , wherein the lace cable is fixed to a first end of the split portion, wherein the first end is opposite a second end that is pivotably coupled to the lace spool. 8. The lacing engine of claim 5 , wherein the cut-off switch is positioned along the housing such that a first end of the split portion of the lace spool contacts the cut-off switch when the lace cable is in a first state. 9. The lacing engine of claim 8 , wherein when the lace cable reaches the first state continued rotation of the lace spool causes the split portion to pivot radially outward into contact with the cut-off switch. 10. A lacing engine for an automated footwear platform, the lacing engine comprising: a housing; a lace spool at least partially disposed within the housing, the lace spool adapted to collect a portion of a lace cable in response to rotation in a first direction during tightening of the footwear platform; a motor contained within the housing and coupled to the lace spool to drive rotation of the lace spool; and a detection mechanism including a sensor to measure a characteristic of the lace cable while the lace cable is manipulated by the lacing engine; wherein the sensor is an optical sensor adapted to sense different sections of the lace cable. 11. The lacing engine of claim 10 , wherein the optical sensor senses a transition from a first section of the lace cable to a second section of the lace cable. 12. The lacing engine of claim 11 , wherein the first section of the lace cable is a first color and the second section of the lace cable is a second color. 13. The lacing engine of claim 11 , wherein the first section of lace cable includes a first pattern within the lace cable and the second section includes a second pattern within the lace cable. 14. The lacing engine of claim 10 , wherein the optical sensor detects an end portion of the lace cable. 15. The lacing engine of claim 14 , wherein the end portion of the lace cable includes a unique color or a unique pattern in reference to a remainder of the lace cable. 16. A lacing engine for an automated footwear platform, the lacing engine comprising: a housing; a lace spool at least partially disposed within the housing, the lace spool adapted to collect a portion of a lace cable in response to rotation in a first direction during tightening of the footwear platform; a motor contained within the housing and coupled to the lace spool to drive rotation of the lace spool; and a detection mechanism including a sensor to measure a characteristic of the lace cable while the lace cable is manipulated by the lacing engine; wherein the sensor is a force sensor to detect tension on the lace cable via sensing a force on a pin or a pulley receiving a portion of the lace cable.