Systems, devices, and methods for assembling an applicator and sensor control device

1 . A method of assembling an in vivo analyte sensor control device, comprising: orienting an applicator with respect to a container, wherein the applicator comprises a housing, a sheath, and an electronics housing of the sensor control device, the sheath being slidably coupled with the housing and comprising (a) a deflectable lock arm in contact with the housing such that the housing is prevented from moving distally with respect to the sheath and (b) a deflectable positioning arm having a detent releasably positioned within a first groove of the housing, and wherein the container holds a sensor module and a sharp module and comprises a platform having a sheath unlock abutment located thereon; distally advancing the applicator into the container such that the sheath unlock abutment contacts a sloped surface of the deflectable lock arm and causes the lock arm to deflect from contact with the housing, whereby the sheath is unlocked from the housing and releasably maintained in position with respect to the housing by the deflectable positioning arm; distally advancing the housing against the platform to move the platform into the container until contact of the container against the sheath causes the sheath to move with respect to the housing such that the detent of the deflectable positioning arm moves from the first groove to a releasable position within a second groove and the deflectable lock arm is held in an unlocked position. 2 . The method of claim 1 , wherein the sensor module couples with the electronics housing to assemble the sensor control device when the detent moves from the first groove to the second groove. 3 . The method of claim 2 , wherein the sharp module couples with the applicator when the detent moves from the first groove to the second groove. 4 . The method of claim 3 , further comprising: removing the applicator from the container after the detent moves from the first groove to the second groove; and delivering the sensor control device to a user's body with the applicator. 5 . The method of claim 4 , wherein the sensor module couples with the electronics housing to assemble the sensor control device and the sharp module couples with the applicator at substantially the same time as the detent enters the second groove. 6 . The method of claim 4 , wherein the first and second grooves are in the housing, and wherein delivering the sensor control device to the user's body with the applicator comprises: placing a surface of the sheath against the user's body; and advancing the housing with respect to the sheath to cause the detent to move from the second groove along a surface of the housing to a third groove, wherein upon entering the third groove the sheath is locked in position with respect to the housing. 7 . The method of claim 1 , wherein the platform comprises an inner deflectable lock arm having a sloped surface, and wherein distal advancement of the applicator into the container causes the sheath to contact the sloped surface of the platform's inner deflectable lock arm and causes the platform's inner deflectable lock arm to deflect from contact with the container. 8 . The method of claim 7 , wherein an outer deflectable lock arm of the platform releasably holds the platform in position with respect to the container until distal advancement of the housing against the platform causes the outer deflectable lock arm of the platform to disengage from a surface contour of the container, whereby the platform is free to move into the container. 9 . The method of claim 8 , wherein distal advancement of the housing against the platform moves the platform into the container until a sheath unlock rib of the container contacts the sheath through an opening in the platform and causes the sheath to move with respect to the housing such that the detent of the deflectable positioning arm moves from the first groove to a releasable position within the second groove and the deflectable lock arm is held in the unlocked position. 10 . The method of claim 1 , wherein the sensor module comprises a sensor adapted to measure a glucose level when placed in contact with a bodily fluid of a user. 11 . An in vivo analyte monitoring system, comprising: an applicator comprising a housing, a sheath, and an electronics housing of a sensor control device, the sheath being slidably coupled with the housing and comprising (a) a deflectable lock arm configured to contact the housing and releasably lock the housing in position with respect to the sheath and (b) a deflectable positioning arm comprising a detent, the deflectable positioning arm being configured to releasably maintain the sheath in position with respect to the housing after the deflectable lock arm is unlocked; and a container holding a sensor module and a sharp module therein and comprising a platform having a sheath unlock abutment located thereon, wherein the sheath unlock abutment is positioned on the platform such that, when the applicator is inserted into the container, the sheath unlock abutment is capable of contacting a sloped surface of the deflectable lock arm and causing the deflectable lock arm to deflect from contact with the housing to unlock the sheath from the housing, and wherein the applicator and container are configured such that distal advancement of the housing against the platform moves the platform into the container until contact of the container against the sheath causes the sheath to move with respect to the housing such that the detent of the deflectable positioning arm moves from the first groove to a releasable position within a second groove and the deflectable lock arm is held in an unlocked position. 12 . The system of claim 11 , wherein the applicator and container are configured such that the sensor module can couple with the electronics housing to assemble the sensor control device when the detent moves from the first groove to the second groove. 13 . The system of claim 12 , wherein the applicator and container are configured such that the sharp module can couple with the applicator when the detent moves from the first groove to the second groove. 14 . The system of claim 13 , wherein the applicator can be used to deliver the sensor control device to a user's body once the detent moves from the first groove to the second groove. 15 . The system of claim 14 , wherein the applicator and container are configured such that the sensor module couples with the electronics housing to assemble the sensor control device and the sharp module couples with the applicator at substantially the same time as the detent enters the second groove. 16 . The system of claim 14 , wherein the first and second grooves are in the housing, and wherein the applicator is configured such that the housing can be moved with respect to the sheath to cause the detent to move from the second groove along a surface of the housing to a third groove, wherein upon entering the third groove the sheath is locked in position with respect to the housing. 17 . The system of claim 11 , wherein the platform comprises an inner deflectable lock arm having a sloped surface, and the applicator and container are configured such that distal advancement of the applicator into the container causes the sheath to contact the sloped surface of the platform's inner deflectable lock arm and causes the platform's inner deflectable lock arm to deflect from contact with the container. 18 . The system of claim 17 , wherein an outer deflectable lock arm of the platform is configured to releasably hold the