Systems, devices, and methods for analyte sensor applicators

1 - 22 . (canceled) 23 . An applicator for delivering a sensor control device, the applicator comprising: a housing, comprising a sealing lip; a sensor carrier coupled to the housing; a sheath, slidably coupled to the housing to move between an extended position and a collapsed position; and a cap threadably coupled with the housing, wherein the cap includes a cavity, wherein the sealing lip of the housing is configured to mate with the cavity to form a gasketless seal interface, and wherein the gasketless seal interface is configured to serve as a moisture barrier. 24 . The applicator of claim 23 , wherein the sealing lip comprises an axial extension configured to mate with the cavity. 25 . The applicator of claim 24 , wherein the axial extension of the sealing lip comprises a first axial extension, wherein the cap further comprises a second axial extension and a third axial extension, and wherein the second axial extension and the third axial extension define the cavity. 26 . The applicator of claim 25 , wherein the first axial extension and the second axial extension are configured to form two radial seals, and wherein the two radial seals are configured to prevent migration of fluids or contaminants across the gasketless seal. 27 . The applicator of claim 26 , wherein the two radial seals comprise a redundant sealing configuration configured to accommodate tolerance and thermal variations. 28 . The applicator of claim 25 , wherein a diameter of the cavity is sized to receive a diameter of the first axial extension. 29 . The applicator of claim 25 , wherein the diameter of the first axial extension at a first height corresponds to the diameter of the cavity at the first height, wherein the diameter of the first axial extension at a second height corresponds to the diameter of the cavity at the second height, and wherein the diameter of the first axial extension at the first height is different from the diameter of the first axial extension at the second height. 30 . The applicator of claim 23 , wherein the housing comprises a first plurality of threads, and wherein the cap comprises a second plurality of threads configured to engage with the first plurality of threads. 31 . The applicator of claim 30 , wherein the first plurality of threads comprises a first plurality of curved surfaces, and wherein the second plurality of threads comprises a second plurality of curved surfaces corresponding to the first plurality of curved surfaces. 32 . The applicator of claim 31 , wherein the first plurality of threads further comprises a first plurality of flat surfaces, and wherein the second plurality of threads further comprises a second plurality of flat surfaces corresponding to the first plurality of flat surfaces. 33 . The applicator of claim 30 , wherein the first plurality of threads comprises a first plurality of angled surfaces, and wherein the second plurality of threads comprises a second plurality of angled surfaces corresponding to the first plurality of angled surfaces. 34 . The applicator of claim 33 , wherein the first plurality of threads further comprises a first plurality of flat surfaces, and wherein the second plurality of threads further comprises a second plurality of flat surfaces corresponding to the first plurality of flat surfaces. 35 . The applicator of claim 30 , wherein the first plurality of threads comprises a first plurality of chamfered surfaces, and wherein the second plurality of threads comprises a second plurality of chamfered surfaces corresponding to the first plurality of chamfered surfaces. 36 . The applicator of claim 35 , wherein the first plurality of threads further comprises a first plurality of flat surfaces, and wherein the second plurality of threads further comprises a second plurality of flat surfaces corresponding to the first plurality of flat surfaces. 37 . The applicator of claim 23 , further comprising the sensor control device. 38 . The applicator of claim 37 , wherein the sensor control device comprises an in vivo glucose sensor, an electronics housing, and sensor electronics disposed within the electronics housing. 39 . The applicator of claim 38 , wherein the sensor electronics comprise one or more processors, memory, and wireless communication circuitry. 40 . The applicator of claim 39 , wherein the wireless communication circuitry is configured to transmit data indicative of an in vivo glucose level to a reader device. 41 . The applicator of claim 37 , further comprising a sharp and a spring, wherein the applicator is configured to advance the sensor carrier, the sensor control device, and the sharp from a proximal position entirely within the applicator to a distal position, and wherein the spring is configured to automatically retract the sharp from the distal position to a retracted position entirely within the applicator. 42 . The applicator of claim 23 , wherein the cap is configured to hold a desiccant component.