Systems, devices, and methods for analyte monitoring

1 . (canceled) 2 . An assembly for insertion of a glucose sensor in a subject's body, the assembly comprising: (1) an applicator, comprising: an applicator housing defining an interior; a sheath slidably coupled with the applicator housing and comprising a distal end configured for placement on a subject's skin; a sharp carrier assembly coupled with a sharp; a sensor carrier comprising a cavity formed by a plurality of walls, the plurality of walls including a proximal wall, a side wall, and a magnetic component, and wherein the cavity is configured to retain a sensor control device; a spring comprising a distal end in contact with the sensor carrier; and a cap configured to couple with a distal part of the applicator housing; (2) the sensor control device configured to be worn on the subject's body, the sensor control device comprising: an adhesive patch disposed on a bottom surface of the sensor control device and configured to adhere the sensor control device to the subject's skin; the glucose sensor comprising: a proximal portion configured to electrically couple with electronics; a distal portion having a glucose-responsive enzyme, wherein the distal portion is configured to be positioned in a bodily fluid of the subject's body and to sense glucose in the subject's bodily fluid in a subcutaneous layer; and the electronics comprising one or more processors, a memory, and communication circuitry configured to wirelessly transmit data according to a Bluetooth or a Bluetooth Low Energy protocol, wherein the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device are configured to advance a distance within the interior of the applicator housing, relative to the sheath, and in a linear direction from a proximal position to a distal position, wherein, in the proximal position, a distal end of the glucose sensor is received in a portion of the sharp, wherein the magnetic component is configured to exert a magnetic force upon one or more components of the sensor control device when the sensor carrier and the sensor control device are in the proximal position, and wherein, in the distal position, the sensor control device is configured to adhere to the subject's skin via the adhesive patch, and disengage from the sensor carrier when the user pulls the applicator away from the skin. 3 . The assembly of claim 2 , wherein the spring is configured to retract the sharp carrier assembly and the sharp in a proximal direction into the applicator after the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device reach the distal position. 4 . The assembly of claim 3 , wherein the proximal portion of the glucose sensor comprises one or more electrical contacts. 5 . The assembly of claim 4 , wherein the glucose sensor further comprises a bent portion between the proximal portion of the glucose sensor and the distal portion of the glucose sensor. 6 . The assembly of claim 5 , wherein the proximal portion of the glucose sensor is perpendicular to the distal portion of the glucose sensor. 7 . The assembly of claim 5 , wherein the applicator further comprises a gasket configured to create a seal between the applicator housing and the cap. 8 . The assembly of claim 5 , wherein the distal end of the glucose sensor and a distal portion of the sharp extend in a distal direction from the bottom surface of the sensor control device when the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device are in the proximal position. 9 . The assembly of claim 8 , wherein the sensor control device further comprises a first aperture on a top surface of the housing of the sensor control device, wherein the sensor control device further comprises a second aperture on the bottom surface of the sensor control device, and wherein the sharp is configured to extend through the first aperture and the second aperture when the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device are in the proximal position. 10 . The assembly of claim 9 , wherein the adhesive patch comprises a third aperture, and wherein the sharp is configured to extend through the third aperture when the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device are in the proximal position. 11 . The assembly of claim 5 , wherein the sensor carrier does not have one or more spring arms configured to retain the sensor control device. 12 . The assembly of claim 5 , wherein the one or more components of the sensor control device comprises one or more ferromagnetic components. 13 . The assembly of claim 12 , wherein the sensor control device further comprises a housing of the sensor control device defining an interior of the sensor control device, and wherein the one or more ferromagnetic components are disposed in the interior of the sensor control device. 14 . The assembly of claim 13 , wherein an adhesive force created by an adhesive property of the adhesive patch is greater than the magnetic force exerted by the magnetic component upon the one or more ferromagnetic components. 15 . An assembly for insertion of a glucose sensor in a subject's body, the assembly comprising: (1) an applicator, comprising: an applicator housing defining an interior; a sheath slidably coupled with the applicator housing and comprising a distal end configured for placement on a subject's skin; a sharp carrier assembly coupled with a sharp; a sensor carrier comprising a cavity formed by a plurality of walls, the plurality of walls including a proximal wall, a side wall, and a magnetic component, and wherein the cavity is configured to retain a sensor control device; a spring comprising a distal end in contact with the sensor carrier; and a cap configured to couple with a distal part of the applicator housing; (2) the sensor control device configured to be worn on the subject's body, the sensor control device comprising: an adhesive patch disposed on a bottom surface of the sensor control device and configured to adhere the sensor control device to the subject's skin; the glucose sensor comprising: a proximal portion configured to electrically couple with electronics; a distal portion having a glucose-responsive enzyme, wherein the distal portion is configured to be positioned in a bodily fluid of the subject's body and to sense glucose in the subject's bodily fluid in a subcutaneous layer; and the electronics comprising one or more processors, a memory, and communication circuitry configured to wirelessly transmit data according to a Bluetooth or a Bluetooth Low Energy protocol, wherein the sharp carrier assembly, the sharp, the spring, the sensor carrier, the magnetic component, and the sensor control device are configured to advance a distance within the interior of the applicator housing, relative to the sheath, and in a linear direction from a proximal position to a distal position, wherein, in the proximal position, a distal end of the glucose sensor is received in a portion of the sharp, wherein the magnetic component is configured to exert a magnetic force upon one or more ferromagnetic components of the sensor control device when the sensor carrier and the sensor control device are in the proximal position, wherein, in the distal position, the sensor control device is configured to adhere to the subject's skin via the adhesive patch